MT184CP
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Teaching material MT 184
Assembly and Maintenance Exercise: Piston Pump
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Teaching material Dipl.-Ing. Klaus-Jürgen Radtke Dipl.-Geogr. Uta Linke
Version 1.0
Subject to technical alternations
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Table of Contents 1
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
2
Technological principles of pumps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 2.1 Classification and categorisation of pump types based on operating principle . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 2.2 Designs and operating characteristics. . . . . . . . . . . . . . . . . . . . . . . . . 5
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
2.3 GUNT Practice Line kits and their usage . . . . . . . . . . . . . . . . . . . . . . 8 2.4 Operating characteristics of pumps . . . . . . . . . . . . . . . . . . . . . . . . . . 15
3
2.4.1
Pump and system characteristics . . . . . . . . . . . . . . . . . . . . . 15
2.4.2
Operating point . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
2.4.3
Alteration of the operating point by restriction and variation of speed . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
2.4.4
Operating characteristics of multiple interacting pumps . . . . 20
2.4.5
Intake characteristics of pumps . . . . . . . . . . . . . . . . . . . . . . 21
Basics of pump maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 3.1 Definition Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 3.2 Reasons for maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 3.3 Detection of faults . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25 3.4 Checking pumps and replacing common wearing parts . . . . . . . . . . 27 3.5 Wearing parts in the pumps from the GUNT Practice Line for assembly and maintenance. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29 3.6 Shutdown. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33 3.7 Repairs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 3.7.1
Static seals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
3.7.2
Shaft and piston rod seals . . . . . . . . . . . . . . . . . . . . . . . . . . 36
3.7.3
Valves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
3.7.4
Spare parts ordering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Technical description of piston pump. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 4.1 Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46 4.2 Mode of operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 4.3 Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 4.4 Technical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 4.5 Dimensions of the piston pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
4.6 Parts drawings and parts lists . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52 5
Assembly and dismantling of the piston pump. . . . . . . . . . . . . . . . . . . . . . 59 5.1 Assembly of the piston pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59 5.1.1
Assembly phase 1 – Crankshaft (assembly unit 1). . . . . . . . 60
5.1.2
Assembly phase 2 – Connecting rod with piston rod (assembly unit 2) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65
5.1.3
Assembly phase 3 – Packing gland (assembly unit 3) . . . . . 69
5.1.4
Assembly phase 4 – Intake valve (assembly unit 4) . . . . . . . 73
5.1.5
Assembly phase 5 – Pressure valve (assembly unit 5) . . . . 77
5.1.6
Assembly phase 6 – Gearbox (assembly unit 6) . . . . . . . . . 81
5.1.7
Assembly phase 7 – Pump housing (assembly unit 7) . . . . . 91
5.1.8
Assembly phase 8 – Pump . . . . . . . . . . . . . . . . . . . . . . . . . 100
5.2 Dismantling the piston pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 107 5.2.1
Dismantling assembly phase 8 – Pump . . . . . . . . . . . . . . . 107
5.2.2
Dismantling assembly phase 7 – Pump housing . . . . . . . . 110
5.2.3
Dismantling assembly phase 6 – Gearbox . . . . . . . . . . . . . 113
5.2.4
Dismantling assembly phase 5 – Pressure valve . . . . . . . . 116
5.2.5
Dismantling assembly phase 4 – Intake valve . . . . . . . . . . 117
5.2.6
Dismantling assembly phase 3 – Packing gland . . . . . . . . 118
5.2.7
Dismantling assembly phase 2 – Connecting rod with piston rod . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119
5.2.8
Dismantling assembly phase 1 – Crankshaft . . . . . . . . . . . 120
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Tasks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 122 6.1 Spare parts drawing and spare parts list . . . . . . . . . . . . . . . . . . . . . 123 6.2 Worksheet 1: Introduction to the piston pump, page 1 . . . . . . . . . . 130 6.3 Worksheet 2: Design, function and applications of the piston pump, page 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 133 6.4 Worksheet 3: Identifying causes of faults, page 1 . . . . . . . . . . . . . . 135
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
6.5 Worksheet 4: Sealing systems, page 1 . . . . . . . . . . . . . . . . . . . . . . 136 6.6 Worksheet 5: Inspection of pumps, page 1 . . . . . . . . . . . . . . . . . . . 139 6.7 Worksheet 6: Servicing of pumps, page 1. . . . . . . . . . . . . . . . . . . . 141 6.8 Worksheet 7: Repairs to pumps, page 1 . . . . . . . . . . . . . . . . . . . . . 143 6.9 Worksheet 8: Wearing parts on the piston pump, page 1 . . . . . . . . 145 6.10 Worksheet 9: Assembling the piston pump, page 1 . . . . . . . . . . . . 147 6.11 Worksheet 10: Piston replacement, page 1. . . . . . . . . . . . . . . . . . . 153 6.12 Worksheet 11: Parts identification using the parts drawing, familiarisation with technical terms, page 1 . . . . . . . . . . . . . . . . . . . 155 6.13 Worksheet 12: Spare parts ordering, page 1. . . . . . . . . . . . . . . . . . 163 7
Solutions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 164 7.1 Spare parts drawing and spare parts list . . . . . . . . . . . . . . . . . . . . . 165 7.2 Worksheet 1: Introduction to the piston pump, page 1 . . . . . . . . . . 172 7.3 Worksheet 2: Design, function and applications of the piston pump, page 1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 175 7.4 Worksheet 3: Identifying causes of faults, page 1 . . . . . . . . . . . . . . 177 7.5 Worksheet 4: Sealing systems, page 1 . . . . . . . . . . . . . . . . . . . . . . 178 7.6 Worksheet 5: Inspection of pumps, page 1 . . . . . . . . . . . . . . . . . . . 181 7.7 Worksheet 6: Servicing of pumps, page 1. . . . . . . . . . . . . . . . . . . . 183 7.8 Worksheet 7: Repairs to pumps, page 1 . . . . . . . . . . . . . . . . . . . . . 185 7.9 Worksheet 8: Wearing parts on the piston pump, page 1 . . . . . . . . 187
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
7.10 Worksheet 9: Assembling the piston pump, page 1 . . . . . . . . . . . . 189 7.11 Worksheet 10: Piston replacement, page 1. . . . . . . . . . . . . . . . . . . 195 7.12 Worksheet 11: Parts identification using the parts drawing, familiarisation with technical terms, page 1 . . . . . . . . . . . . . . . . . . . 197 7.13 Worksheet 12: Spare parts ordering, page 1. . . . . . . . . . . . . . . . . . 205 Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 206
9
Drawings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 209
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Introduction The MT 184 practice kit forms part of the GUNT learning concept for pump maintenance, which is designed to aid education and training at trade academies and corporate training centres. A close link between theory and practice is key to the learning content.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
We offer the following products relating to the subject of pump assembly and maintenance: Pumps Code
Product
MT 180
Assembly and maintenance exercise - centrifugal pump
MT 181
Assembly and maintenance exercise - multi-stage centrifugal pump
MT 182
Assembly and maintenance exercise - screw pump
MT 183
Assembly and maintenance exercise - diaphragm pump
MT 184
Assembly and maintenance exercise - piston pump
MT 185
Assembly and maintenance exercise - in-line centrifugal pump
MT 186
Assembly and maintenance exercise - gear pump
Tab. 1.1
Product relating to pump assembly and maintenance
This kit includes a piston pump.
Groups of two or three students working with one kit represents an optimal way of learning.
1 Introduction
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
The following learning content is covered: Learning content / Exercises Design and function of a piston pump Assembly and disassembly, including for maintenance purposes Replacing components (e.g. seals) Reading and understanding engineering drawings and operating instructions
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Comparing different pumps (together with an additional kit forming part of this learning concept) Tab. 1.2
Learning content / Exercises
The teaching material includes a technical description detailing the basics of pumps and dealing with the related maintenance. The pump included in this kit is presented and described. Its assembly and disassembly is demonstrated. This section of the teaching material is intended to help tutors in preparing their own lessons. They may, of course, select information from it at their own discretion to use in their teaching. The kit also includes prepared exercise sheets for the students, followed by the relevant solutions. The appendix includes the complete set of drawings for the pump, in the form of an assembly drawing with parts list, and including all manufacturing drawings for the individual components.
We very much hope you enjoy using this GUNT assembly practice kit, and we wish you success in your important task of providing students and apprentices with an introduction to the basic principles of the technology.
1 Introduction
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Technological principles of pumps
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
This chapter is designed to provide basic information for the following assembly and maintenance exercises from GUNT. Code
Product
MT 180
Assembly and maintenance exercise - centrifugal pump
MT 181
Assembly and maintenance exercise - multi-stage centrifugal pump
MT 182
Assembly and maintenance exercise - screw pump
MT 183
Assembly and maintenance exercise - diaphragm pump
MT 184
Assembly and maintenance exercise - piston pump
MT 185
Assembly and maintenance exercise - in-line centrifugal pump
MT 186
Assembly and maintenance exercise - gear pump
Wherever liquids are transported, produced or required to be supplied, pumps are deployed. The demands which they must met vary widely. A vast range of fluids has to be conveyed, from highly sensitive pharmaceuticals, through large volumes of cooling liquid in power stations, to viscous chemical products. A wide variety of pumps have been developed over time for industrial applications. Not all pumps are mentioned in the following. Our outline presents a structured guide to the most common types of pump.
2 Technological principles of pumps
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2.1
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Classification and categorisation of pump types based on operating principle Pumps are fluid-flow machines which dictate how processes operate - that is to say, they ensure that flow takes place within systems.
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In practice, pumps are often named after the liquid they pump or their purpose, such as milk pumps or cooling pumps. However, technicians and fitters can more easily identify their design when they are named according to their operating principle.
Fluid-flow machines
Machines (Machine drives a flowing medium) Pumps
Positive-displacement pumps (Medium conveyed by displacement device)
Engines (Flowing medium drives machine) Turbines
Centrifugal pumps (A gyro causes centrifugal forces to act on the medium)
Oscillating Self-priming (Displacement device moves back and forth along an axis)
Rotating Self-priming (Displacement device rotates in the pump body)
Normally priming (Not carrying gas, pumping from low level restricted)
Self-priming (Carrying gas, pumping from low level possible)
Piston pumps
Gear pumps
Centrifugal pumps
Diaphragm pumps
Screw pumps
Multi-stage centrifugal pumps
Side-channel pumps
Inline pumps Fig. 2.1
Pump types
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2.2
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Designs and operating characteristics The following table sets out the designs and operating characteristics of the most common positive-displacement pumps.
The piston pump incorporates an oscillating piston which is routed into a cylinder. The piston moves on an axis. The pump body is blocked by intake and pressure valves. A stroke gear drives the piston, which enlarges or reduces the pump chamber on every stroke. All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
By enlarging the pump chamber, the pumped fluid is drawn in by way of the intake valve. After a change of stroke the pump chamber is reduced and the pumped liquid is displaced by way of the pressure valve. The diaphragm pump contains an elastomer diaphragm which is clamped into the pump housing. The oscillation is transferred from the stroke gear to the diaphragm by way of a thrust rod. The fluid feeds in and out by way of the valves, frequently executed as ball valves. The method of operation is the same as the piston pump, with the diaphragm acting as the displacement device. The gear pump contains two opposite rotating rigid or elastic gear wheels. The pump body is not closed off by valves. The liquid is pumped by the rotating gear wheels from the intake to the delivery side in the gaps between the teeth along the pump wall. The gear meshing and narrow gaps between the rotor and housing minimise the reflux.
The screw pump consists of two or more spindles with helical splines which rotate inside a correspondingly shaped housing. The pump body is not closed off by valves. The liquid is pumped axially in the free screw turns from the intake to the delivery side. Here too, as in the case of the gear pump, the sealing from the delivery to the intake side is provided by narrow gaps.
2 Technological principles of pumps
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
The following table sets out the designs and operating characteristics of the most common centrifugal pumps.
The centrifugal pump contains a rotating, enclosed impeller with backward facing blades. The intake port is axially aligned to the pump shaft. The delivery port is aligned radially upwards.
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The rotating impeller inside the pump body causes centrifugal forces to act on the pumped liquid. The liquid thrown out to the circumference of the pump by this flows out of the pump through the delivery port.
The multi-stage centrifugal pump is similar in design and action to the centrifugal pump. The difference is that is features multiple impeller arranged in a row on a shaft. The pumped liquid passes from the intake port via the rotating impeller through a fixed guide channel to the next impeller, and so on, until it reaches the delivery port. The multistage impeller layout means the pump attains higher delivery heads.
The inline centrifugal pump is similar in design and method of operation to the centrifugal pump. Its intake and delivery ports are along one axis however, though here too the feed to the pump flows axially by way of an appropriately shaped housing. The inline pump is used in straight pipelines.
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Other special centrifugal pump designs
The side-channel pump contains a rotating starshaped open impeller with radially running vanes. It rotates inside a pump housing featuring a side channel which narrows from the inlet to the outlet.
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The energy transfer acts on the medium by means of an exchange flow of the liquid in the impeller with that in the side channel. The side channel pump thus operates continuously with a self-priming effect, whereas the centrifugal pump is not self-priming.
The canned motor pump is similar in design and action to the centrifugal pump. It is leakage-free, as it requires no shaft seal. The drive of the canned motor pump is located practically inside the pump housing, and the pumped liquid flows around it.
The magnetic clutch pump is similar in design and action to the centrifugal pump. It is leakage-free and requires no shaft seal. The magnetic clutch pump is driven by a non-contact magnetic clutch. The magnet on the pump shaft is inside the pump housing. It is separated from the magnet on the motor shaft by a tube.
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2.3
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
GUNT Practice Line kits and their usage The GUNT Practice Line kits for assembly and maintenance exercises include the following pumps:
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 180 – Centrifugal pump
Fig. 2.2
Toolkit with parts set and pump
Fig. 2.3
Sectional drawing of the centrifugal pump
Centrifugal pumps are in widespread use, and are primarily used to pump fluid media. Their applications include in shipbuilding, industry and water supply.
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 181 – Multi-stage centrifugal pump
Fig. 2.4
Toolkit with parts set and pump
Fig. 2.5
Sectional drawing of a similar multi-stage centrifugal pump
The multi-stage centrifugal pump is modular in design, and is used to pump fluid media at higher delivery pressures. It is used in water supply and in industry.
2 Technological principles of pumps
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
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MT 182 – Screw pump
Fig. 2.6
Toolkit with parts set and pump
Fig. 2.7
Exploded-view drawing of the screw pump
Screw pumps are primarily used to transport viscous media such as lubricating oil, plant oil, glycols and polymers. Their applications include lubrication systems for diesel engines and transmissions, as well as in hydraulic systems.
2 Technological principles of pumps
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
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MT 183 – Diaphragm pump
Fig. 2.8
Toolkit with parts set and pump
Fig. 2.9
Sectional drawing of the diaphragm pump
Diaphragm pumps are absolutely leakage-free and, provided appropriate materials are selected, are particularly well suited to pumping aggressive fluids such as acids and caustic in chemical engineering applications. Diaphragm pumps are often used for volumetric metering, as metering pumps.
2 Technological principles of pumps
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
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MT 184 – Piston pump
Fig. 2.10
Toolkit with parts set and pump
Fig. 2.11
Drawing of the piston pump
Piston pumps are used primarily to transport fluids at high delivery pressures and low flow rates. Typical applications include pumping drinking water and domestic water in residential areas, in agriculture, onboard ships and in industry.
2 Technological principles of pumps
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
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MT 185 – Inline centrifugal pump
Fig. 2.12
Toolkit with parts set and pump
Fig. 2.13
Exploded-view drawing of the in-line centrifugal pump
In-line centrifugal pumps are a sub-category of centrifugal pumps. Inline pumps are installed in straight pipelines. They are required in applications including water supply, watering and sprinkler systems, and in heating engineering.
2 Technological principles of pumps
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 186 – Gear pump
Fig. 2.14
Toolkit with parts set and pump
Fig. 2.15
Exploded-view drawing of the gear pump
Gear pumps are of the rotating positive-displacement pump category, and are characterised by pulsation-free delivery at operating pressures up to 40bar. High-viscosity media such as oils, paints and adhesives can be pumped.
2 Technological principles of pumps
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2.4
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Operating characteristics of pumps Alongside preventive maintenance, repair work forms a key part of general service operations. Damage to pumps can be traced back to incorrect operation in more than 50% of cases. It is advantageous for the assembly personnel to have basic knowledge of how the pump operates and are aware of how to use the pump correctly.
Pump and system characteristics The delivery capacity of a pump is indicated by the pump’s characteristic curve. The delivery rates are measured on the test stand at the respective delivery pressures. The pump measurement data is depicted in the form of a characteristic curve. Usually the delivery head is given in place of the delivery pressure (as a result the characteristic curves of centrifugal pumps are not dependent on the density of the pumped liquid).
Head H
In the case of centrifugal pumps the dependency of the delivery rate on the head is marked: As the head rises, the delivery rate decreases significantly. By contrast, the delivery rate of positive-displacement pumps remains virtually constant as the head rises. Head H
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2.4.1
Delivery Q Fig. 2.16
Characteristic curve for a centrifugal pump
Delivery Q Fig. 2.17
Characteristic curve for a positive-displacement pump
In the case of positive-displacement pumps, it must be ensured that the permissible operating pressure is not exceeded. Overflow valves are frequently used for this.
2 Technological principles of pumps
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ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Operation of the positive-displacement pump with the overflow valve (partially) open is depicted in the horizontal segment of the curve (see Fig. 2.17). The graph gives an indication of the delivery capacity of the pumps, though it provides no information on the delivery data actually achieved.
The system operating data can likewise be measured and depicted graphically in the system characteristic curve. As the delivery rate increases, the system pressure - determined by practical calculation - rises. Head H
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An often cited problem when operating pumps is that the pump does not reach the necessary pressure. Generally speaking, pumps only deliver material; the associated pressure is caused by the system.
Delivery Q Fig. 2.18
System characteristic curve
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2.4.2
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Operating point The actual delivery data result from the interaction of the pump and the system.
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1
Head H
Head H
If the pump and system curves are plotted on the same diagram, the point at which the curves intersect is the operating point.
1 Delivery Q Fig. 2.19
Operating point (1) of a normally priming centrifugal pump
Delivery Q Fig. 2.20
Operating point (1) of a positive-displacement pump
So if the operating data do not conform to the specification, the technician should first check and calculate the correct operation of the pump in the system. This should be done on initial commissioning and every time the system is modified.
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2.4.3
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Alteration of the operating point by restriction and variation of speed
Head H
While the delivery rate decreases as the head rises on a centrifugal pump, the delivery of a positive-displacement pump remains constant as the pressure rises.
Head H
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In practice, restriction is frequently used to set the desired delivery rate. The flow is restricted by partially closing a valve on the delivery side of the pump. This results in a new system curve with a steeper rise. The new operating point 2 is the point of intersection of the new system curve with the pump curve. Or in other words: The operating point has shifted along the pump curve from 1 to 2.
2
2
1
1 Delivery Q Fig. 2.21
Shift in operating point from (1) to (2) by restriction for a normally priming centrifugal pump
2 Technological principles of pumps
Delivery Q Fig. 2.22
Shift in operating point from (1) to (2) by restriction for a positive-displacement pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
A common method of shifting the operating point of a pump is to vary the speed. The speed is varied by means of an adjuster gear or a frequency inverter. This produces a new pump characteristic curve. The diagrams show an increase in speed from n1 to n2 for both pump types (see Fig. 2.23 and Fig. 2.24). In the case of the centrifugal pump, the pump curve moves upwards, while for the positive-displacement pump it shifts to the right.
Head H
Head H
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In both diagrams the operating point shifts upwards along the system curve. That is to say, higher heads and delivery rates are produced as the speed increases.
n2 n2
n1 n1 Delivery Q Fig. 2.23
Influence on the pump characteristic of a variation in speed for a normally priming centrifugal pump
2 Technological principles of pumps
Delivery Q Fig. 2.24
Influence on the pump characteristic of a variation in speed for a positivedisplacement pump
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MT 184
2.4.4
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Operating characteristics of multiple interacting pumps Operation of multiple pumps simultaneously in a system is quite common, and in many cases essential in order to conform to extreme operating specifications.
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If multiple pumps are configured in parallel, the delivery rate is increased. If pumps are configured in series (one behind the other), the delivery heads are added together.
Fig. 2.25
Parallel configuration
Fig. 2.26
Series configuration
The pump industry has made use of these properties and developed a number of designs accordingly. Multi-flow pumps achieve high delivery rates, multi-stage pumps achieve high heads.
Fig. 2.27
Multi-flow pump, sectional view and delivery principle
2 Technological principles of pumps
Fig. 2.28
Multiple-stage pump, sectional view and delivery principle
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MT 184
2.4.5
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Intake characteristics of pumps Attention must be paid to the intake characteristics of the pumps. A distinction is made between selfpriming and nonselfpriming pumps.
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The normally priming centrifugal pump is a non-self-priming pump. It is not capable of pumping a gaseous medium out of the pump body. It must always be ensured that a liquid is fed in from a higher level, or where the feed is from a lower level, the liquid head does not collapse, such as due to the use of foot valves on the intake side.
Fig. 2.29
Infeed of a pump system for a normally priming pump
2 Technological principles of pumps
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
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Self-priming pumps include side channel pumps (see chapter 2.2, page 5). They are capable of pumping gases. However, the pump body must always be filled with liquid for this to happen. That is why the intake and delivery ports on side channel pumps always point upwards.
Fig. 2.30
Intake of a pump system for a self-priming pump
Most positive-displacement pumps are self-priming. The displacement device is able to compress the gas and displace it out of the pump body. For this to happen, however, the pump must be partially filled with liquid, because only wetted valves close exactly such that no reflux is possible. This also applies to rotating positive-displacement pumps, of which the wetted gaps restrict reflux.
2 Technological principles of pumps
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
3
Basics of pump maintenance
3.1
Definition Maintenance
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All pump operators should maintain their pumps in accordance with the maintenance and operating instructions issued by the manufacturers. Maintenance is the umbrella term for inspection, servicing and repair (see Fig. 3.1). A log book or machine file should be set up for each pump unit, indicating the current status and the repair work carried out to date.
MAINTENANCE TO DIN 31051
Inspection
Servicing
Repairs
Recording and assessment of the current actual status
Preservation of the specified status
Restoration of the specified status
Measurement, Testing, Diagnosis
Cleaning, Lubrication, Adjustment
Replacement, Correction
With the system running and at stand still based on inspection instructions
Only with system stopped according to maintenance instructions
Only with the system stopped, based on specific work order and after careful preparation
Fig. 3.1
Maintenance
3 Basics of pump maintenance
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MT 184
3.2
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Reasons for maintenance Pumps are required for the operations of many manufacturing systems. If the pumps are malfunctioning, there is a risk of production outages. Appropriate maintenance is a key factor determining the productivity of operations.
• The cost of purchasing a mid-sized industrial pump is considerable. The annual cost of wearing parts amounts to around 10% - 20% of the purchase price of the new pump. • Holding a complete replacement pump in stock is inefficient and expensive for many businesses. It is, however affordable, and advisable, to hold stocks of key pump spares. • The delivery lead times for complete pumps are usually lengthy, whereas spares can be supplied from suppliers’ central stores at short notice.
1
Cost
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Complete replacement of the pump is possible in the event of a defect, though it is not always essential and, especially, is not necessarily cost-effective. Carrying out preventive maintenance and servicing, as well as repairs, is advantageous. A number of reasons are cited by way of example.
2
Service life Fig. 3.2
Total cost, comparison of replacement (1) and maintenance (2)
• Fig. 3.2 shows that routine maintenance of pumps (2) results in lower costs in the medium and long term than complete replacement of pumps (1).
3 Basics of pump maintenance
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MT 184
3.3
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Detection of faults Many factors need to be considered in order to ensure optimised, trouble-free operation of pumps. Nevertheless, faults will routinely occur. A number of basic points need to be observed in order to assess faults and their causes:
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• The specifications of the delivery medium need to be considered in order to ensure long service life of the pumps. The material durability of the pump components and seals must be ensured. The design and construction of the pump must be attuned to the specific pumping requirements. • Most pumps are driven by electric motors. Attention must be paid to correct dimensioning and selection. • Incorrect electrical connections and setting the incorrect direction of rotation are often sources of faults resulting in production problems. • As a general rule applicable to all pumps, lengthy periods of dry running should be avoided, as this would substantially shorten the service lives of the shaft seal, piston seal and valves. The delivery medium provides additional lubrication of those components. This principle is illustrated by the example of the floating ring seal in Fig. 3.3.
Fig. 3.3
Floating ring seal with liquid film
There must always be a liquid film between the contact faces of a floating ring seal.
3 Basics of pump maintenance
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
During inspection of the pump, checks should be made regularly while the pump is running to ensure early detection of faults, focussing in particular on the following points: • Leakage • Noise • Smooth running • Temperature • General condition All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
The reasons for pump faults are many and varied. System-related disturbances such as pressure surges should be avoided or eliminated. Incorrectly switching system valves may stop the pumped liquid to an extreme degree, causing overlaid liquid waves to form which result in pressure surging as far as into the pump. Trapped foreign bodies cause significant damage inside the pump. Deformed shafts, destroyed bearings and valves, as well as scraping impellers, are the consequences of such disturbances. Even tiny abrasive particles will cause long-term damage to the pump and the seals. The occurrence of cavitation is a system fault which needs to be prevented. If the infeed line to the pump is incorrectly dimensioned, it is possible that a vacuum will created in the intake port, causing the medium to boil. The increase in pressure in the pump causes the boiling bubbles to implode, thereby destroying the housing and impeller.
Fig. 3.4
Cavitation damage to a pump impeller
3 Basics of pump maintenance
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MT 184
3.4
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Checking pumps and replacing common wearing parts In accordance with the service intervals specified in the manufacturers’ maintenance instructions, which are additionally dependent on the specific operating conditions, it is advisable to check pumps about once a year.
Bearings
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The operating instructions specify that the lubricant should be changed on pumps with an enclosed gear and bearing unit. Modern-day greased bearings are lifetime-lubricated, and merely need to be checked for smooth running.
Shaft seals Packing glands and floating ring seals are checked for leaks and wear. Glands can be adjusted, if still possible. The gland packing should be replaced after about 2000 operating hours. The service lives of the floating ring seals are considerably longer. They are replaced in full if worn.
Couplings Pumps coupled to their drives by flexible couplings should be checked for flush coupling. The power-transmitting components should be checked for wear and replaced as necessary.
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Pump internals The pumps should be opened and their internals checked for wear and corrosion at the specified servicing intervals. In the case of centrifugal pumps, as well as the shaft seal the static seal ring must be checked and replaced if worn.
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The valves of reciprocating pumps, including their sealing faces, should be checked. Piston rings and packing should be checked for wear, and the plungers and sleeves checked for scoring.
Pump internals
20
Shaft seal Bearing
Fig. 3.5
Coupling
Pump unit with listed wearing part groups
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MT 184
3.5
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Wearing parts in the pumps from the GUNT Practice Line for assembly and maintenance It should be stated by way of preamble that, according to the state of the art in centrifugal pumps, bearings are no longer classed as wearing parts. MT 180 – Centrifugal pump
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Housing seal
Fig. 3.6
Shaft seal (gland)
Sectional drawing of the centrifugal pump
MT 181 – Multi-stage centrifugal pump Packing gland
Fig. 3.7
Housing/stage seal
Floating ring seal
Sectional drawing of a similar multi-stage centrifugal pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
MT 182 – Screw pump
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Housing seal
Housing seal
Floating ring seal Fig. 3.8
Exploded-view drawing of the screw pump
MT 183 – Diaphragm pump
Valves
Diaphragm Oil filling Fig. 3.9
Journal bearing
Sectional drawing of the diaphragm pump
The wearing parts mentioned should be replaced during servicing.
3 Basics of pump maintenance
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
MT 184 – Piston pump
Piston rod seal
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Valves
Oil filling Fig. 3.10
Piston seal Drawing of the piston pump
MT 185 – Inline centrifugal pump
Housing seal Fig. 3.11
Floating ring seal
Exploded-view drawing of the in-line centrifugal pump
Wear is to be expected on the parts marked, necessitating replacement of them.
3 Basics of pump maintenance
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
MT 186 – Gear pump
O-rings
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Floating ring seal
Wear disc Fig. 3.12
Journal bearing
Housing seal
Sectional drawing of the gear pump
Any well organised maintenance department should hold stocks of the wearing parts on the various pumps mentioned in this chapter.
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MT 184
3.6
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Shutdown
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In systems in which uninterrupted running of pumps is extremely important, such as in power stations or onboard ships, replacement units are installed fully piped-up as standby units. This allows servicing or repairs to be carried out during live operation, by switching to the standby unit.
Fig. 3.13
Installation with standby pump
Fig. 3.14
Single pump with stop valves
In most production environments, maintenance can only be carried out during production downtimes - that is, at partial or complete standstill. The pumps should be integrated into the system in such a way that short-interval servicing can be carried out without removing them. That is to say, they must be easily accessible for inspection and servicing. On the pump intake side and the delivery side stop valves should be installed. In the case of positive-displacement pumps, the drive unit is first shut down. Immediately after the pump stops the delivery-side valve is closed, then the intake side is closed. If non-return valves are installed, they automatically act as stop valves. So installed non-return valves on the delivery side, for example, prevent possible reflux to the pump. In the case of centrifugal pumps, the delivery-side valve is first closed, then the drive is shut down, and then the intake side is closed. Before opening the pump, the pump and the connected piping system must be drained. This can be done either by way of sealing plugs or by carefully detaching the pipe fittings. If the pump unit is removed completely from the system for major maintenance work, the safety guidelines issued by the drive manufacturers must additionally be followed.
3 Basics of pump maintenance
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MT 184
3.7
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Repairs Whereas during servicing parts are usually replaced following checking and as required, during repair complete wearing parts or defective components are replaced after predetermined operating cycles. These cycles are either specified by the manufacturers or they are determined by the identified condition of parts at the various maintenance intervals.
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It is advisable to schedule every second to third service as a repair operation.
3.7.1
Static seals Flat seals and O-rings used for sealing between metal components and to prevent escape of liquid from the pump body are replaced completely. Their locations include at the connection fittings and on the housing covers, floating ring seals, shaft sleeves and valves. Procedure: • Dismount the pump • Remove the seals and dispose of them • Clean the parts • Install the new seals during reassembly • Avoid mechanical damage. Ensure cleanliness. Grease seals where necessary.
3 Basics of pump maintenance
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Static seal
Static seals
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Static seals
Fig. 3.15
O-rings in a centrifugal pump
3 Basics of pump maintenance
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MT 184
3.7.2
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Shaft and piston rod seals
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The most varied stresses on seals in pump engineering occur in the sealing of shaft and piston rod feed-throughs. These seals must act between areas subject to different pressures, and are subject to the demands of a wide variety of media, as well as having to withstand additional physical strains caused by rotating shafts or oscillating piston rods. These types of seal are known in engineering as dynamic seals. Operators expect reliable sealing, with minimal leakage, over a long service life. The shaft seals in particular should be preventively replaced during scheduled repair work, because of the extreme stresses to which they are subject.
Piston rod seal Fig. 3.16
Example of a piston rod seal
Shaft seal
Fig. 3.17
Example of a shaft seal
3 Basics of pump maintenance
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
A tried and proven method of sealing shafts is by means of soft packing glands. This packing consists of a woven cord made principally of solid fabrics which is inserted in the packing space between the shaft and the housing, where it is deformed by an axial force and so moulded to the surfaces it is intended to seal. 1
3
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4
2
Fig. 3.18
Example of a gland
Fig. 3.19
Packing gland packing
To seal the pump shaft, packing glands (1) are used. These are provided in a wide range of materials and designs depending on the pump application. To protect the shaft, a shaft sleeve (2) is installed. Locking rings or ancillary glands (3) hold the packing in place. The gland press (4) compresses the packing by way of screw fittings. Correct functioning demands careful assembly and commissioning.
3 Basics of pump maintenance
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 3.20
Item
Name
1
Washer
2
Shaft
3
Packing gland packing
4
Locking ring
5
Packing gland press
6
Stud bolt with hexagonal nut
7
Shaft sleeve
8
Housing cover
Packing gland of a centrifugal pump, sectional view with zoom
When packing a new gland the following points need to be considered: • Correct choice of packing based on quality and dimensions • Completely remove old packing residues (3) • The shaft protective sleeve (7) must be free of surface damage • Insert the packing (3) with offset interfaces • Use of sharp tools will damage the gland • Tighten the gland press (5) by screws after inserting the packing, then slacken it slightly • The pump shaft (2) must be loose enough to be turned slightly by hand
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
• Only tighten up the gland press after a run-in time of about 20-30 minutes with leakage of 50-100 drops per minute
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• Adjust the gland to the required leakage rate of 3 drops per minute
To seal shaft lead-throughs which are subject to high stresses, floating ring seals are the most advantageous option nowadays. They are available in a wide range of designs, dimensions and frictional material pairings. Correctly selected, fitted and operated floating ring seals will permit longer-lasting operation of rotating positive-displacement and centrifugal pumps, with less leakage, then packing glands. 3
Fig. 3.21
2
4
1
Drawing of a floating ring seal
Floating ring seals are contact seals which create a yielding seal connection between stationary and rotating contact faces. Between the contact faces is a film of liquid, which assumes a stable position due to the centrifugal force occurring during rotation. The floating ring seal is sealed against the housing by means of static elastomer seals (1). The floating ring (2) rotating with the shaft is held axially in place relative to the counter-ring (4) fixed in the housing by a spring (3). The contact faces thus automatically adjust axially. Even high pressures can be controlled by means of hydraulic relief.
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
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Fig. 3.22
Floating ring seal
Procedure for replacing the floating ring seal on a centrifugal pump shown below: • Shut down the pump • Open the pump cover (1) • Slacken the impeller nut (2) • Detach the impeller (3) from the shaft • Remove the floating ring (4) from the shaft • Pull the counter-ring (5) out of the housing using a suitable implement • Assemble in the reverse order of removal
1 3
4
5
2
Fig. 3.23
Example of replacing a floating ring seal on a centrifugal pump
3 Basics of pump maintenance
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
In view of the wide range of floating ring seal designs and pump versions, methods of removal and fitting vary. The principle illustrated here is that applicable to the most frequently used centrifugal pump.
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The piston rod sealing in oscillating motions of the piston rods and plungers of the piston pumps is achieved by using packing glands, lipped rings, grooved rings (1) and conical rings held in support rings (2). The design and materials must always be selected to match the given operating conditions. Spring-loaded (3) seals, for example, offer uniform pre-tension, low friction and so longer service lives. 3
Fig. 3.24
1
2
Drawing of a piston rod seal
The method of removal and fitting depends on the specific pump version and design. The manufacturers’ fitting instructions are useful in this context, and should be followed.
3 Basics of pump maintenance
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
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The same is true of the piston seals. Replacing piston rings and piston sleeves forms part of the essential scheduled repair routine. Some design variants are shown in Fig. 3.25.
Piston with hemp stricks
Fig. 3.25
Piston with leather/rubber sleeves
Piston with metal seal rings
Examples of piston seals
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MT 184
3.7.3
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Valves Positive-displacement pumps such as reciprocating pumps and diaphragm pumps seal off the delivery space by means of intake and delivery side pressure valves. They open due to the resultant pressure difference on every stroke and close due to their intrinsic mass or by additional spring force.
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The valves of the smaller diaphragm pumps, used as metering pumps in the chemical industry, are executed as ball valves. Owing to the more precise effect achieved, twin ball valves are often installed. They are replaced by simply unscrewing the valve unit out of the housing.
Fig. 3.26
Twin ball valve of a diaphragm pump
The valves of the piston pumps may be executed as weight or spring-loaded disc valves. The sealing faces are mostly metallic, and correspondingly sensitive. After being individually removed, the discs are replaced. The valve seats are checked and re-milled or lapped as necessary. In the case of valves with an additional elastomer sealing disc, only the disc needs to be replaced, and the smooth running checked.
3 Basics of pump maintenance
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
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Weighted with conical seat
Fig. 3.27
3.7.4
Spring-loaded with flat seat and seal ring
Spring-loaded with flat seat
Examples of disc valves
Spare parts ordering Maintenance work should generally be carried out on a routine basis in accordance with the maintenance instructions and safety rules laid down by the manufacturers. Key parts should be replaced at the maintenance intervals indicated in the operational or machine log. Arrangements should be made for parts to be procured from the supplier in advance. Every pump has a rating plate affixed to it by the manufacturer. The rating plate indicates the manufacturer’s name, the pump model and serial number. The data is often also imprinted on the housing, so the information is still available even if the rating plate comes off. Based on this information, the exact technical and material specification can be identified.
3 Basics of pump maintenance
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
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Fig. 3.28
Example of a housing with imprinted model and serial number
The details shown in Fig. 3.29 need to be quoted to the supplier when ordering spares, so as to ensure the correct parts are supplied:
1. Pump model 2. Serial number 3. Part name 4. Item number on parts list
Fig. 3.29
Information for spare parts ordering, e.g. identified from rating plate, parts drawing or parts list
3 Basics of pump maintenance
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
4
Technical description of piston pump
4.1
Description
Fig. 4.1
Piston pump
Piston pumps are used primarily to transport fluids at high delivery pressures and low flow rates. At constant speed, the volumetric flow also remains constant at different pressures. A air chamber built-in to the pump damps the pressure spikes which occur on each stroke. The pump presented here is a double-acting piston pump, which means that each stroke is simultaneously an intake and a delivery stroke. The pump incorporates a safety valve, so that if the pressure rises too high a portion of the flow is returned to the intake side. Typical applications of piston pumps include pumping drinking water and domestic water in residential areas, in agriculture, onboard ships and in industry and at commercial garden centres.
4 Technical description of piston pump
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MT 184
4.2
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Mode of operation
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The piston pump is driven by way of a pulley and a V-belt by an electric motor. On every revolution, the crankshaft acts by way of the connecting rod and the crosshead on the piston (1) which is mounted on the end of the piston rod. This stroke motion causes the piston to move back and forth in the cylinder bushing (2). On every stroke the piston (1) enlarges and reduces the size of the delivery chamber. In the enlarging delivery chamber a negative pressure is created, causing the pressure valve (3) to close and liquid to flow via the intake valve (4) into the delivery chamber. In the reducing delivery chamber the piston presses the liquid via the pressure valve out of the pump body, while the intake valve is pressed closed. The piston pump investigated here has a delivery chamber on each side of the cylinder bushing. The pump is doubleacting, since on every stroke it simultaneously draws in on one side and displaces on the other. If the pressure on the delivery side (5) of the pumps is too high, the built-in safety valve (7) opens and the liquid flows inside the pump back to the intake side (6).
2
Item
Name
1
Piston
2
Cylinder bushing
3
Pressure valve
4
Intake valve
3 1
4
Fig. 4.2
Delivery principle of a double-acting piston pump
4 Technical description of piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
7
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5
6
3
Fig. 4.3
4
Item
Name
3
Pressure valve
4
Intake valve
5
Delivery Side
6
Intake side
7
Safety valve
Delivery principle of the piston pump
The piston pump is self-priming. It must, however, be primed prior to initial commissioning. The pump delivery is independent of the direction of rotation of the drive. However, optimum lubrication of the gearbox can only be effected in the direction indicated by the arrow on the pump.
4 Technical description of piston pump
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MT 184
4.3
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Layout The layout of the piston pump is shown in the drawings (see chapter 9, page 209). The pump consists of the following main components: • Air chamber with safety valve • Pump housing with valves • Piston • Gland
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• Crankshaft • Crosshead • Piston rod • Gearbox housing
1
5
6
7
4 2
8
3
Fig. 4.4
Item
Name
Item
Name
1
Air chamber with safety valve
5
Crankshaft
2
Pump housing with valves
6
Crosshead
3
Piston
7
Piston Rod
4
Packing gland
8
Gearbox housing
Component assemblies of the piston pump
4 Technical description of piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
The motor is mounted on the pump unit by clamp rails. The crankshaft, the connecting rod and the crosshead are automatically lubricated in the gearbox housing by circulating oil on every rotation. The piston rod is sealed off from the delivery chamber by a packing gland. The sleeved piston made of NBR rubber runs in a stainless steel cylinder bushing.
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The two delivery chambers each contain two disk valves with valve rubber plates. The delivery side of the pump is executed as a air chamber, with a built-in safety valve. 4.4
Technical data Pump model: Power consumption: Max. capacity: Max. delivery pressure: Motor speed: (driven by V-belt) Intake connection: Pressure connection: Pump materials: Pump body: Valves: Cylinder bushing: Piston: Piston rod seal:
4 Technical description of piston pump
PM 10 max. 0,37 1000 6 1450
kW ltr/h bar rpm
1 “ 1 “ GG20 Brass (CuZn39Pb3) X6CrNi18-10 NBR PTFE saturated packing rings
50
10/2008
MT 184
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4.5
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Dimensions of the piston pump
Fig. 4.5
Dimensions
4 Technical description of piston pump
51
10/2008
MT 184
Parts drawings and parts lists
85, 86 79, 80 87 84, 85 81, 82
79, 80 83, 87
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
8
4.6
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 4.6
Spare parts drawing for the piston pump
4 Technical description of piston pump
52
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
11 19
4, 23
6 3 - 15
22
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
21
16
7 1 30,31 24 25 5 26 28 13
29
9
27 12
32 2 33 18 17
35 34
14
10 20 8
Fig. 4.7
Spare parts drawings for the gearbox
4 Technical description of piston pump
53
57
42 58
Fig. 4.8
4 Technical description of piston pump 44
60
36
64
51 38 49 37
40
43
59
70
71
54 68
39
50, 52, 53
41
69
58 66
67 47
73 74
72
62
48
47
75 46, 77 76
65
61
MT 184
63
45
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
10/2008
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Spare parts drawings for the pump housing
54
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
1
1
Piece
Connecting rod
MT184.10.04.001
2
1
Piece
Packing gland housing
MT184.10.05.002
3
1
Piece
Crankshaft
MT184.10.03.001
4
1
Piece
Bearing cover, open
MT184.10.10.001
5
1
Piece
Gearbox housing
MT184.10.09.001
EN-GJL-200
6
1
Piece
Bearing cover, closed
MT184.10.09.002
EN-GJL-200
7
1
Piece
Gearbox cover
MT184.10.09.003
DOC04
8
1
Piece
Base plate
MT184.10.09.004
S235JR
9
1
Piece
Oil splash guard
MT184.10.09.005
DOC04
10
1
Piece
Packing gland seal
MT184.10.09.006
SBR/B-870M
11
2
Piece
Bearing cover seal
MT184.10.09.007
SBR/B-870M
12
1
Piece
Oil stripper
MT184.10.09.008
60NBR693 SW
13
1
Piece
Oil plug
MT184.10.09.009
CuZn39Pb3
14
1
Piece
Duo-piston
PM10
Simirit
15
1
Piece
Disk spring
DIN 6888-5x7,5
16
8
Piece
Hexagon nut
ISO 4032-M6
8
17
2
Piece
Hexagon nut
ISO 4032-M8
8
18
1
Piece
Spring ring
DIN 127-A-8
A2
19
6
Piece
Hexagon screw
ISO 4017-M6x12
8.8
20
4
Piece
Rubber buffer
500029
GMT
21
2
Piece
Seal
DIN 7603-A10x13,5x2
PVC
22
2
Piece
Angled oiler with nut
G1/8
Spike
23
1
Piece
Radial shaft seal
DIN 3760-A16x35x7
NBR
24
2
Piece
Grooved ball bearing
DIN 625-6202
25
1
Piece
Grooved ball bearing
DIN 625-6203
Tab. 4.1
Comments
Spare parts list
4 Technical description of piston pump
55
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
Comments
26
1
Piece
Crosshead
MT184.10.04.002
EN-GJL-200
27
1
Piece
Piston Rod
MT184.10.04.003
X14CrMoS17
28
1
Piece
Straight pin
ISO 8734-12x35
C1
29
1
Piece
Hexagon nut
ISO 4032-M8
8-A2
30
1
Piece
Hexagon screw
ISO 4017-M6x25
8.8
31
1
Piece
Hexagon nut
ISO 4032-M6
8-A2
32
1
Piece
Packing gland screws
MT184.10.05.002
CuZn39Pb3
33
1
Piece
Brass washer
MT184.10.05.003
CuZn37F30
34
1
Piece
Gland packing
00.2251
Spike
35
1
Piece
Lip seal
ISO 4032-M8
A2-70
36
1
Piece
Lock nut
MT184.10.09.002
CuZn39Pb2
37
1
Piece
Knurled screw
MT184.10.08.003
CuZn39Pb3
38
1
Piece
Cap
MT184.10.08.004
NBR
39
1
Piece
Pump housing
MT184.10.06.001
EN-GJL-200
40
1
Piece
Cylinder cover
MT184.10.06.002
EN-GJL-200
41
1
Piece
Air chamber
MT184.10.06.003
EN-GJL-200
42
1
Piece
Water plug
MT184.10.06.004
CuZn39Pb2
43
1
Piece
Air chamber stud bolt
MT184.10.06.005
9SMn28K
44
1
Piece
Cylinder pipe
MT184.10.06.006
X6CrNi18-10
45
1
Piece
Cap nut
DIN 1587-M12
CuZn39Pb3
46
1
Piece
Drain plug
MT184.10.06.007
CuZn39Pb2
47
1
Piece
Membrane safety valve
SV.01-065.7,5 F3000.4
Spike
48
2
Piece
Straight flange G1“
MT184.10.06.010
EN-GJL-200
49
1
Piece
Poppet valve body
MT184.10.08.001
50
2
Piece
Valve bridge
MT184.10.06.008
X14CrMoS17
51
1
Piece
Cylinder cover seal
MT184.10.06.009
SBR/B-870M
Tab. 4.1
Spare parts list
4 Technical description of piston pump
56
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
Comments
52
2
Piece
Flat washer
ISO 7089 -8
8-A2
53
2
Piece
Hexagon nut
ISO 4032-M8
8-A2
54
1
Piece
Air chamber seal
MT184.10.06.011
SBR/B-870M
55
2
Piece
Seal
DIN 7603-A10x13,5x2
PVC
56
2
Piece
Stud bolt
MT184.10.06.012
X17CrNi16-2
57
2
Piece
Stud bolt
MT184.10.06.013
X17CrNi16-2
58
2
Piece
Seal
DIN 7603-A13x18x1,5
PVC
59
4
Piece
Valve seat seal
MT184.10.06.014
SBR/B-870M
60
3
Piece
Hexagon screw
ISO 4017-M6x16
8.8-A2
61
3
Piece
Hexagon screw
ISO 4017-M8x25
8.8-A2
62
2
Piece
Seal
MT184.10.06.015
SBR/B-870M
63
1
Piece
Plain washer
MT184.10.06.016
X17CrNi16-2
64
1
Piece
Seal
DIN 7603-A13x18x1,5
PVC
65
1
Piece
Seal
DIN 7603-A39x49x2
EPDM
66
1
Piece
Valve seat
MT184.10.07.001
CuZn40Al2
67
1
Piece
Seal in valve seat
MT184.10.07.002
80 NBR 180
68
1
Piece
Delivery side valve pin
MT184.10.01.001
CuZn39Pb3
69
1
Piece
Delivery side valve seat
Mt184.10.01.002
CuZn39Pb3
70
1
Piece
Valve rubber plate
MT184.10.01.003
NBR-45° Shore A
71
1
Piece
Hold-down
MT184.10.01.004
CuZn39Pb3
72
1
Piece
Intake side valve pin
MT184.10.02.001
CuZn39Pb3
73
1
Piece
Intake side valve seat
MT184.10.02.002
CuZn39Pb3
74
1
Piece
Valve rubber plate
MT184.10.01.003
NBR-45° Shore A
Tab. 4.1
Spare parts list
4 Technical description of piston pump
57
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
Comments
75
1
Piece
Hold-down
MT184.10.01.004
CuZn39Pb3
76
1
Piece
Hexagon nut
ISO 10511.M6
A2
77
1
Piece
Drain plug
MT184.10.06.007
CuZn39Pb2
78
1
Piece
Rocker shaft
MT184.10.00.001
X14CrMoS17
79
1
Piece
Rocker shaft with thread
MT184.10.00.002
X14CrMoS17
80
4
Piece
Insulating bush
MT184.10.00.003
GP-22
81
1
Piece
Motor clamp rail left
MT184.10.00.004
EN-GJL-200
82
1
Piece
Motor clamp rail right
MT184.10.00.005
EN-GJL-200
83
1
Piece
V-belt pulley
MT184.10.00.006
EN-GJL-200
84
1
Piece
Hexagon screw
ISO 4017-M8x25
8.8
85
5
Piece
Hexagon nut
ISO 4032-M8
8
86
2
Piece
Flat washer
ISO 7089-A-8
140 HV
87
3
Piece
Hexagon screw
ISO 4017-M6x-10
8.8
88
1
Piece
Valve housing complete
MT184.00.06.000
89
1
Piece
Crankcase complete
MT184.00.09.000
90
1
Piece
Intake valve complete
MT184.00.01.000
91
1
Piece
Pressure valve complete
MT184.00.02.000
92
1
Piece
Valve seat
MT184.00.07.000
Tab. 4.1
Spare parts list
4 Technical description of piston pump
58
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
5
Assembly and dismantling of the piston pump
5.1
Assembly of the piston pump The piston pump assembly procedure is divided into eight phases: • Assembly phase 1 – Crankshaft (assembly unit 1) • Assembly phase 2 – Connecting rod with piston rod (assembly unit 2) • Assembly phase 3 – Packing gland (assembly unit 3)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Assembly phase 4 – Intake valve (assembly unit 4) • Assembly phase 5 – Pressure valve (assembly unit 5) • Assembly phase 6 – Gearbox (assembly unit 6) • Assembly phase 7 – Pump housing (assembly unit 7) • Assembly phase 8 – Pump
Tools: • Puller • Punch • Wrench size 10 (2 x), size 13, size 14, size 19 and size 22 • Screwdriver • Vice – not supplied • Soft hammer • Jig 1, 2, 3 and 4
5 Assembly and dismantling of the piston pump
59
10/2008
MT 184
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
5.1.1
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly phase 1 – Crankshaft (assembly unit 1)
3
25
25
Item
Name
3
Crankshaft
24
Grooved ball bearing
25
Grooved ball bearing
Fig. 5.1
Drawing of the crankshaft (assembly unit 1)
Fig. 5.2
Crankshaft, fully assembled (assembly unit 1)
5 Assembly and dismantling of the piston pump
24
60
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
3
Fig. 5.3
25
25 Item
Name
3
Crankshaft
24
Grooved ball bearing
25
Grooved ball bearing
24
Parts required for assembly
5 Assembly and dismantling of the piston pump
61
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Procedure for assembling the crankshaft (assembly unit 1)
Crankshaft (item 3)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Grooved ball bearing (item 25)
Grooved ball bearing (item 25)
Grooved ball bearing (item 24)
Crankshaft (assembly unit 1)
5 Assembly and dismantling of the piston pump
62
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly procedure for crankshaft (assembly unit 1) • Lightly oil crankshaft (3) to aid assembly of grooved ball bearings. • Fit grooved ball bearing (25) onto crankshaft (3) and position at connecting rod seat.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Using a soft hammer and jig 2, drive grooved ball bearing (25) onto crankshaft, without bending it, until grooved ball bearing contacts recess.
Fig. 5.4
Assembling the grooved ball bearing with jig 2
• Fit grooved ball bearing (25) onto drive side of crankshaft (3). • Using a soft hammer and jig 2, drive grooved ball bearing (25) onto crankshaft, without bending it, until grooved ball bearing contacts recess.
5 Assembly and dismantling of the piston pump
63
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Using a soft hammer and jig 3, drive grooved ball bearing (24) onto crankshaft, without bending it, until grooved ball bearing contacts recess.
Fig. 5.5
Assembling the grooved ball bearing with jig 3
5 Assembly and dismantling of the piston pump
64
10/2008
MT 184
5.1.2
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly phase 2 – Connecting rod with piston rod (assembly unit 2)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
27 29
26
28
1
30, 31
Item
Name
Item
Name
1
Connecting rod
29
Hexagon nut
26
Crosshead
30
Hexagon screw
27
Piston Rod
31
Hexagon nut
28
Straight pin
Fig. 5.6
Drawing of connecting rod with piston rod (assembly unit 2)
Fig. 5.7
Connecting rod with piston rod, fully assembled (assembly unit 2)
5 Assembly and dismantling of the piston pump
65
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
29
26
28
1
31
30
27
Fig. 5.8
Item
Name
Item
Name
1
Connecting rod
29
Hexagon nut
26
Crosshead
30
Hexagon screw
27
Piston Rod
31
Hexagon nut
28
Straight pin
Parts required for assembly
5 Assembly and dismantling of the piston pump
66
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Procedure for assembling the connecting rod with piston rod (assembly unit 2)
Connecting rod (item 1)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Crosshead (item 26)
Straight pin (item 28)
Hexagon nut (item 29)
Piston rod (item 27)
Hexagon screw with hexagon nut (item 30, 31)
Connecting rod with piston rod (assembly unit 2)
5 Assembly and dismantling of the piston pump
67
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly procedure for connecting rod with piston rod (assembly unit 2) • Fit crosshead (26) onto connecting rod (1).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Using a soft hammer and punch, carefully drive straight pin (28) into hole in crosshead (26) and connecting rod (1).
Fig. 5.9
Assembling the crosshead with connecting rod
• Screw hexagon nut (29) onto thread of piston rod (27). • Screw piston rod with thread side onto which nut was screwed into crosshead. • Tighten hexagon nut against crosshead. • Screw hexagon screw with hexagon nut (30, 31) into end of connecting rod.
5 Assembly and dismantling of the piston pump
68
10/2008
MT 184
5.1.3
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly phase 3 – Packing gland (assembly unit 3)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
35
34
33
32
Item
Name
2
Packing gland housing
32
Packing gland screw
33
Brass washer
34
Gland packing
35
Lip seal
2
Fig. 5.10
Drawing of the packing gland (assembly unit 3)
Fig. 5.11
Packing gland, fully assembled (assembly unit 3)
5 Assembly and dismantling of the piston pump
69
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
32
33 2, 35
34
Fig. 5.12
Item
Name
2
Packing gland housing
32
Packing gland screw
33
Brass washer
34
Gland packing
35
Lip seal
Parts required for assembly
5 Assembly and dismantling of the piston pump
70
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Procedure for assembling the packing gland (assembly unit 3)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Packing gland housing with lip seal (item 2, 35)
Brass washer (item 33)
Packing gland packing (item 34)
Packing gland screw (item 32)
Packing gland (assembly unit 3)
5 Assembly and dismantling of the piston pump
71
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly procedure for packing gland (assembly unit 3) NOTICE The lip seal (35) is not suitable for repeated assembly and disassembly, as it would be damaged. It is pre-assembled.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Insert brass washer (33) into packing gland housing (2). • Push four packing gland packs (34) into packing gland housing (2). The abutment of each must be at a 90° offset.
Fig. 5.13
Inserting the packing gland packs
• Screw packing gland screw (32) into packing gland housing.
5 Assembly and dismantling of the piston pump
72
10/2008
MT 184
5.1.4
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly phase 4 – Intake valve (assembly unit 4)
Item
Name
72
Intake side valve pin
73
Intake side valve seat
74
Valve rubber plate
75
Hold-down
76
Hexagon nut
72
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
73
74 75 76 Fig. 5.14
Drawing of the intake valve (assembly unit 4)
Fig. 5.15
Intake valve, fully assembled (assembly unit 4)
5 Assembly and dismantling of the piston pump
73
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
76
72, 73
Fig. 5.16
75
74
Item
Name
72
Intake side valve pin
73
Intake side valve seat
74
Valve rubber plate
75
Hold-down
76
Hexagon nut
Parts required for assembly
5 Assembly and dismantling of the piston pump
74
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Procedure for assembling the intake valve (assembly unit 4)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Intake side valve pin with intake side valve seat (item 72, 73)
Valve rubber plate (item 74)
Hold-down (item 75)
Hexagon screw (item 76)
Intake valve (assembly unit 4)
5 Assembly and dismantling of the piston pump
75
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly procedure for intake valve (assembly unit 4)
NOTICE The intake side valve pin (72) is pre-assembled with the intake side valve seat (73).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Fit valve rubber plate (74) onto intake side valve pin (72) with curved side facing outwards. • Fit hold-down (75) onto valve pin with cylindrical side first.
Fig. 5.17
Assembling the hold-down
• Screw hexagon nut (76) onto valve pin. • Carry out same assembly procedure for second intake valve.
5 Assembly and dismantling of the piston pump
76
10/2008
MT 184
5.1.5
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly phase 5 – Pressure valve (assembly unit 5)
Item
Name
68
Delivery side valve pin
69
Delivery side valve seat
71
70
Valve rubber plate
70
71
Hold-down
68
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
69
Fig. 5.18
Drawing of the pressure valve (assembly unit 5)
Fig. 5.19
Pressure valve, fully assembled (assembly unit 5)
5 Assembly and dismantling of the piston pump
77
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
71
69
Fig. 5.20
68
70 Item
Name
68
Delivery side valve pin
69
Delivery side valve seat
70
Valve rubber plate
71
Hold-down
Parts required for assembly
5 Assembly and dismantling of the piston pump
78
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Procedure for assembling the pressure valve (assembly unit 5)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Delivery side valve seat (item 69)
Valve rubber plate (item 70)
Hold-down (item 71)
Delivery side valve pin (item 68)
Pressure valve (assembly unit 5)
5 Assembly and dismantling of the piston pump
79
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly procedure for pressure valve (assembly unit 5) • Place valve rubber plate (70) on ridged side of delivery side valve seat (69) with curved side facing outwards. • Fit hold-down (71) with cylindrical side first into valve rubber plate (70).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Fit delivery side valve pin (68) into holes in hold-down and valve seat. Carefully hammer valve pin into valve seat.
Fig. 5.21
Assembling the delivery side valve pin
• Carry out same assembly procedure for second pressure valve.
5 Assembly and dismantling of the piston pump
80
10/2008
MT 184
5.1.6
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly phase 6 – Gearbox (assembly unit 6)
11 4, 23
6
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
A
19 21, 22
7
5
B
13
9
12
C 10
17
18
14
Fig. 5.22
Drawing of the gearbox (assembly unit 6)
5 Assembly and dismantling of the piston pump
81
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Name
Item
Name
A
Crankshaft (assembly unit 1)
11
Bearing cover seal
B
Connecting rod with piston rod (assembly unit 2)
12
Oil stripper
C
Packing gland (assembly unit 3)
13
Oil plug
4, 23
Bearing cover, open, with radial shaft seal
14
Duo-piston
5
Gearbox housing
17
Hexagon nut
6
Bearing cover, closed
18
Spring ring
7
Gearbox cover
19
Hexagon screw
9
Oil splash guard
21, 22 Angled oiler with nut and seal
10
Packing gland seal
Fig. 5.23
Parts list for gearbox (assembly unit 6)
Fig. 5.24
Gearbox, fully assembled (assembly unit 6)
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
5
6 A
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
19
B
9
21, 22
14 13 17, 18 12
10
C
4, 23
7
11
Item
Name
Item
Name
A
Crankshaft (assembly unit 1)
11
Bearing cover seal
B
Connecting rod with piston rod (assembly unit 2)
12
Oil stripper
C
Packing gland (assembly unit 3)
13
Oil plug
4, 23
Bearing cover, open, with radial shaft seal
14
Duo-piston
5
Gearbox housing
17
Hexagon nut
6
Bearing cover, closed
18
Spring ring
7
Gearbox cover
19
Hexagon screw
9
Oil splash guard
21, 22 Angled oiler with nut and seal
10
Packing gland seal
Fig. 5.25
Parts required for assembly
5 Assembly and dismantling of the piston pump
83
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Procedure for assembling the gearbox (assembly unit 6)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Gearbox housing (item 5)
Oil splash guard (item 9)
Connecting rod with piston rod (assembly unit 2, item B)
Oil stripper (item 12)
Packing gland seal (item 10)
Packing gland (assembly unit 3, item C)
Crankshaft (assembly unit 1, item A)
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Bearing cover seal (item 11)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Bearing cover, closed (item 6)
Hexagon screws (item 19)
Bearing Bearing cover cover seal seal (item (item 11) 11)
Bearing cover, open, with radial shaft seal (item 4, 23)
Hexagon screws Hexagon screws (item (item 19) 19)
Gearbox cover (item 7)
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Hexagon nut (item 17)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Duo-piston (item 14)
Spring ring with hexagon nut (item 18, 17)
Angled oiler with seal and nut (item 21, 22)
Oil plug (item 13)
Gearbox (assembly unit 5)
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly procedure for gearbox (assembly unit 6) • Fit oil splash guard (9) into gearbox housing (5).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Fit connecting rod with piston rod (B, assembly unit 2) into gearbox housing (5). Do not yet insert crosshead into guide bush, leaving piston rod protruding out of oil splash guard slightly.
Fig. 5.26
Inserting the connecting rod with piston rod
• Push oil stripper (12) onto piston rod by twisting. • Place packing gland seal (12) on packing gland (C, assembly unit 3). • Slot piston rod through packing gland (C, assembly unit 3) and insert crosshead in guide bush. • Fit crankshaft (A, assembly unit 1) into connecting rod base. Use a screwdriver to spread the connecting rod base so the connecting rod bearing can be easily inserted.
5 Assembly and dismantling of the piston pump
87
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 5.27
Assembling the crankshaft
• Place bearing cover seal (11) against gearbox housing. • Attach closed bearing cover (6) to gearbox housing by hexagon screws (19). NOTICE The radial shaft seal (23) is not suitable for repeated assembly and disassembly, as it would be damaged. It is pre-assembled with the open bearing cover (4).
• Place bearing cover seal (11) against gearbox housing. • Attach open bearing cover (4) to gearbox housing by hexagon screws (19).
5 Assembly and dismantling of the piston pump
88
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All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 5.28
Assembling the open bearing cover
• Tighten screw fitting on connecting rod. • Mount gearbox cover (7) on gearbox housing. • Screw hexagon nut (17) onto piston rod. • Fit duo-piston (14) onto piston rod. • Screw hexagon nut with spring ring (17, 18) against duo-piston (14). • Screw angled oiler with seal and nut (item 21, 22) onto gearbox housing.
5 Assembly and dismantling of the piston pump
89
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 5.29
Assembling the angled oiler
• Insert oil plug (13).
5 Assembly and dismantling of the piston pump
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MT 184
Assembly phase 7 – Pump housing (assembly unit 7)
51
59
39
59
40 60
B
50, 52, 53 41
43
63 42, 58
45
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
65
46, 77
A
47
48
62
61
5.1.7
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 5.30
Drawing of the pump housing (assembly unit 7)
5 Assembly and dismantling of the piston pump
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All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Name
Item
Name
D
Assembly unit 4
49, 64 Poppet valve body with seal
E
Assembly unit 4
50
Valve bridge
40
Cylinder cover
51
Cylinder cover seal
41
Air chamber
52 ,53 Hexagon nut with washer
42, 58 Water plug with seal
54
Air chamber seal
43
59
Valve seat seal
45, 63 Cap nut with washer
60
Hexagon screws
46, 77 Drain plug with seal
61
Hexagon screws
47, 65 Membrane safety valve with seal
62
Seal
48
Air chamber stud bolt
Straight flange G1“
Fig. 5.31
Parts list for gearbox (assembly unit 6)
Fig. 5.32
Pump housing, fully assembled (assembly unit 7)
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
39 46, 77 41 43 47, 65 D
45, 63
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
48
49, 64
62
59
61 E 60
54 42, 58
51
52, 53 40 50
Item
Name
Item
Name
D
Intake valve (assembly unit 4)
48
Straight flange G1“
E
Pressure valve (assembly unit 5)
49, 64 Poppet valve body with seal
39
Pump housing
50
Valve bridge
40
Cylinder cover
51
Cylinder cover seal
41
Air chamber
52, 53 Hexagon nut with washer
42, 58 Water plug with seal
54
Air chamber seal
43
59
Valve seat seal
45, 63 Cap nut with washer
60
Hexagon screws
46, 77 Drain plug with seal
61
Hexagon screws
47, 65 Membrane safety valve with seal
62
Seal
Fig. 5.33
Air chamber stud bolt
Parts required for assembly
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Procedure for assembling the pump housing (assembly unit 7)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Pump housing (item 39)
Valve seat seal (item 59)
Intake valve (assembly unit 4, item D)
Pressure valve (assembly unit 5, item E)
Valve bridge (item 50)
Hexagon nut with washer (item 32, 53)
Drain plug with seal (item 46, 77)
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Seal (item 62)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Straight flange (item 48)
Hexagon screws (item 61)
Cylinder cover seal (item 51)
Cylinder cover (item 40)
Hexagon screws (item 60)
Poppet valve body with seal (item 49, 64)
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Air chamber stud bolt (item 43)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Air chamber seal (item 54)
Air chamber (item 41)
Cap nut with washer (item 45, 63)
Water plug with seal (item 42, 58)
Membrane safety valve with seal (item 47, 65)
Pump housing (assembly unit 7)
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly procedure for pump housing (assembly unit 7) NOTICE The cylinder pipe is pre-assembled in the pump housing.
• Place valve seat seal (59) in pump housing (39).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Place both intake valves (D, assembly unit 4) on one side in pump housing (39). • Place both pressure valves (E, assembly unit ) on other side in pump housing.
Fig. 5.34
Inserting the intake valves and pressure valves in the pump housing
• Place a valve bridge (50) over each intake valve and pressure valve. • Screw together valve bridges (50) with hexagon screw and washer (52, 53) and already fitted stud bolts. • Screw drain plug with seal (46, 77) into tapped hole.
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
• Fit seals (62) at intake and pressure fittings. • Screw both straight flanges (48) with hexagon screws (61) to intake and pressure fittings. • Place cylinder cover seal (51) against pump housing.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Screw cylinder cover (40) with hexagon screws (60) to pump housing.
Fig. 5.35
Assembling the cylinder cover
• Screw poppet valve body with seal (49, 64) into cylinder cover. • Screw air chamber bolt (43) into pump housing. • Push air chamber seal (54) over air chamber bolt and place on housing.
5 Assembly and dismantling of the piston pump
98
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 5.36
Inserting the air chamber seal
• Fit air chamber (41) onto pump housing. Opening for membrane safety valve must be above intake valves. • Screw cap nut with washer (45, 63) onto air chamber bolt. • Screw water plug with seal (42, 58) into air chamber. • Screw membrane safety valve with seal (47, 65) into air chamber using jig 1. The valve seat is pre-assembled.
Fig. 5.37
Assembling the membrane safety valve
5 Assembly and dismantling of the piston pump
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MT 184
5.1.8
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly phase 8 – Pump
81, 82
79
84, 85
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
83, 87
A
87
78
85, 86 C
15
B
Item
Name
Item
Name
C
Packing gland (assembly unit 3)
79
Rocker shaft with thread
F
Gearbox (assembly unit 6)
81, 82 Motor clamp rails left and right
G
Pump housing (assembly unit 7)
83
V-belt pulley
15
Disk spring
84
Hexagon screw
78
Rocker shaft
85, 86 Hexagon nut with washer
Fig. 5.38
Drawing of the pump (assembly unit 8)
5 Assembly and dismantling of the piston pump
100
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 5.39
Pump, fully assembled (assembly unit 8)
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
G F
83, 87
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
85, 86
81, 82
84, 85
79
87
15
78
Item
Name
Item
F
Gearbox (assembly unit 6)
81, 82 Motor clamp rails left and right
G
Pump housing (assembly unit 7)
83
V-belt pulley
15
Disk spring
84
Hexagon screw
78
Rocker shaft
85, 86 Hexagon nut with washer
79
Rocker shaft with thread
87
Fig. 5.40
Name
Hexagon screw
Parts required for assembly
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Procedure for assembling the pump (assembly unit 8)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Gearbox (F, assembly unit 6)
Pump housing (G, assembly unit 7)
Hexagon nut with washer (item 85, 86)
Disk spring (item 15)
V-belt pulley with hexagon screw (item 83, 87)
Rocker shaft (item 78)
Motor clamp rails left and right (item 81, 82)
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Hexagon screw (item 87)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Rocker shaft with thread (item 79)
Hexagon screw with hexagon nut (item 84, 85)
Piston pump
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Assembly procedure for pump (assembly unit 8) • Grease piston and insert carefully into cylinder pipe. Then place pump housing (G, assembly unit 7) against Gearbox (F, assembly unit 6). Screw together pump housing and gearbox with hexagon nut (85) and preassembled stud bolts.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Fit packing gland (C, assembly unit 3) with hexagon nut and washer (85, 86) on stud bolts.
Fig. 5.41
Fitted packing gland
• Place disk spring (15) with round side facing downwards into groove in crankshaft. • Push V-belt pulley (83) with loosely fitted hexagon screw (87) over disk spring onto crankshaft and then tighten hexagon screw. • Fit rocker shaft (78) into hole on gearbox housing.
5 Assembly and dismantling of the piston pump
105
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 5.42
Gearbox housing with rocker shafts and V-belt pulley
• Slot left and right motor clamp rails (81, 82) with pre-assembled hexagon screw side onto rocker shaft. The insulating bushes are pre-assembled in the motor clamp rails. • Fix rocker shaft with hexagon screw (87) on gearbox housing. • Route rocker shaft with thread (79) into rear holes on motor clamp rails.
Fig. 5.43
Assembling the rocker shaft
• Screw hexagon screw (84) into tapped hole of rocker shaft with thread (79) and lock with hexagon nut (85).
5 Assembly and dismantling of the piston pump
106
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
5.2
Dismantling the piston pump
5.2.1
Dismantling assembly phase 8 – Pump • Loosen hexagon nut (85) and unscrew hexagon screw (84) from tapped hole of rocker shaft with thread (79).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Pull rocker shaft with thread (79) out of rear holes on motor clamp rails.
Fig. 5.44
Dismantling the rocker shaft
• Detach left and right motor clamp rails (81, 82) from rocker shaft. The insulating bushes remain fitted in the motor clamp rails. • Unscrew hexagon screw (87) from gearbox housing • Pull rocker shaft (78) out of hole in gearbox housing. • Loosen hexagon screw (87) and detach V-belt pulley (83) from crankshaft over disk spring.
5 Assembly and dismantling of the piston pump
107
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 5.45
Dismantling the V-belt pulley
• Lever disk spring (15) out of groove on crankshaft with screwdriver. • Unscrew hexagon nut and washer (85, 86) from stud bolts and detach packing gland (C, assembly unit 3) from pump. • Unscrew hexagon nut (85) from stud bolts and detach pump housing (G, assembly unit 7) from gearbox (F, assembly unit 6). Carefully guide piston out of cylinder pipe when doing so.
Fig. 5.46
Dismantling the pump housing
5 Assembly and dismantling of the piston pump
108
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 5.47
Piston pumps, dismantled into assembly units
5 Assembly and dismantling of the piston pump
109
10/2008
MT 184
5.2.2
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Dismantling assembly phase 7 – Pump housing • Unscrew membrane safety valve (47) from air chamber (41) using jig 1. Remove seal (65).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
NOTICE The valve seat of the membrane safety valve remains fitted.
• Unscrew water plug with seal (42, 58) from air chamber (41). • Unscrew cap nut with washer (45, 63) from air chamber bolt (43). • Lift air chamber (41) from pump housing (39).
Fig. 5.48
Removing the air chamber
• Pull air chamber seal (54) over air chamber bolt (43) and remove from housing. • Unscrew air chamber bolt from pump housing (39). • Unscrew poppet valve body with seal (49, 64) from cylinder cover (40).
5 Assembly and dismantling of the piston pump
110
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 5.49
Dismantling the poppet valve body
• Loosen hexagon screws (60) and take cylinder cover (40) with cylinder cover seal (51) from pump housing. • Loosen hexagon screws (61) and remove both straight flanges (48) with seals (62) from intake and pressure fittings. • Unscrew drain plug with seal (46, 77) from tapped hole in pump housing. • Unscrew hexagon screws and washers (52, 53) from stud bolts on valve bridges (50). • Lift valve bridges (50) from intake and pressure valves.
Fig. 5.50
Removing the intake and pressure valves
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
• Take pressure valve (E, assembly unit 5) out of pump housing. • Take intake valve (D, assembly unit 4) out of pump housing. • Remove valve seat seal (59) from pump housing.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
NOTICE The cylinder pipe remains fitted in the pump housing.
Fig. 5.51
Pump housing, dismantled
5 Assembly and dismantling of the piston pump
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MT 184
5.2.3
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Dismantling assembly phase 6 – Gearbox • Remove oil plug (13). • Unscrew angled oiler with seal and nut (item 21, 22) from gearbox housing (5). • Unscrew hexagon nut with spring ring (17, 18) from duo-piston (14).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Pull duo-piston (14) from piston rod (27).
Fig. 5.52
Detaching the duo-piston
• Unscrew hexagon nut (17) from piston rod (27). • Lever gearbox cover (7) from gearbox housing (5). • Unscrew hexagon screws (19) from gearbox housing and remove open bearing cover (4) with bearing cover seal (11) from gearbox housing. NOTICE The radial shaft seal (23) is not suitable for repeated assembly and disassembly, as it would be damaged. It remains fitted in the open bearing cover (4).
• Unscrew hexagon screws (19) from gearbox housing and remove closed bearing cover (6) with bearing cover seal (11) from gearbox housing.
5 Assembly and dismantling of the piston pump
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Loosen screw fitting on connecting rod.
Fig. 5.53
Loosening the connecting rod screw fitting
• Pull crankshaft (A, assembly unit 1) out of connecting rod base. Use a screwdriver to spread the connecting rod base so the connecting rod bearing can be easily removed. • Pull piston rod out of packing gland (C, assembly unit 3) and crosshead out of guide bush. Leave connecting rod in gearbox housing.
Fig. 5.54
Removing the packing gland
5 Assembly and dismantling of the piston pump
114
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
• Take packing gland seal (12) from packing gland (C, assembly unit 3). • Pull oil stripper (12) from piston rod by twisting. • Take connecting rod with piston rod (B, assembly unit 2) out of gearbox housing (5).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Lever oil splash guard (9) from gearbox housing (5).
Fig. 5.55
Gearbox, dismantled
5 Assembly and dismantling of the piston pump
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MT 184
5.2.4
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Dismantling assembly phase 5 – Pressure valve
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Carefully hammer delivery side valve pin (68) out of delivery side valve seat (69).
Fig. 5.56
Driving valve pin out of valve seat
• Pull valve pin out of hole in hold-down (71) and valve seat. • Pull hold-down (71) out of valve rubber plate (70). • Take valve rubber plate (70) from valve seat. • Carry out same dismantling procedure for second pressure valve.
Fig. 5.57
Pressure valve, disassembled
5 Assembly and dismantling of the piston pump
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MT 184
5.2.5
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Dismantling assembly phase 4 – Intake valve • Unscrew hexagon nut (76) from intake side valve pin (72). • Pull hold-down (75) from intake side valve pin (73).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Take valve rubber plate (74) from intake side valve pin (72).
Fig. 5.58
Removing the valve rubber plate
• Intake side valve pin (72) remains assembled with intake side valve seat (73). • Carry out same dismantling procedure for second intake valve.
Fig. 5.59
Pressure valve, disassembled
5 Assembly and dismantling of the piston pump
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MT 184
5.2.6
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Dismantling assembly phase 3 – Packing gland • Unscrew packing gland screw (32) from packing gland housing (2).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Drive packing gland packs (34) out of packing gland housing (2). Strike the brass washer (33) with a punch to do so.
Fig. 5.60
Driving out the packing gland packs
• Take brass washer (33) out of packing gland housing. NOTICE The lip seal (35) is not suitable for repeated assembly and disassembly, as it would be damaged. It remains fitted.
Fig. 5.61
Packing gland, disassembled
5 Assembly and dismantling of the piston pump
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MT 184
5.2.7
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Dismantling assembly phase 2 – Connecting rod with piston rod • Unscrew hexagon screw with hexagon nut (30, 31) from end of connecting rod. • Loosen hexagon nut (29) of crosshead and unscrew piston rod (27) from crosshead (26). • Unscrew hexagon nut (29) from thread of piston rod (27).
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Using a soft hammer and punch, carefully drive straight pin (28) out of hole in crosshead (26) and connecting rod (1).
Fig. 5.62
Driving out the straight pin
• Take crosshead (26) from connecting rod (1).
Fig. 5.63
Connecting rod, dismantled
5 Assembly and dismantling of the piston pump
119
10/2008
MT 184
5.2.8
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Dismantling assembly phase 1 – Crankshaft • Place puller over grooved ball bearing (24). Press hook arms evenly onto grooved ball bearing. Turn adjuster thread against shaft end. Ensure jig is centred.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Detach grooved ball bearing from crankshaft (3) by carefully turning adjuster thread.
Fig. 5.64
Pulling off the grooved ball bearing
• Pull grooved ball bearing (25) from crankshaft in same way using a puller. • Place grooved ball bearing (25) with crankshaft on jig 4. Drive the grooved ball bearing from the shaft by carefully hammering on the shaft. Use jig 4 and an additional vice as braces.
5 Assembly and dismantling of the piston pump
120
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 5.65
Driving out the grooved ball bearing
Fig. 5.66
Crankshaft, dismantled
5 Assembly and dismantling of the piston pump
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MT 184
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
6
6 Tasks
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Tasks
Tasks / Exercises
Topic
Worksheet 1
Introduction to the piston pump
Worksheet 2
Design, function and applications
Worksheet 3
Identifying causes of faults
Worksheet 4
Sealing systems
Worksheet 5
Inspection
Worksheet 6
Servicing
Worksheet 7
Repairs
Worksheet 8
Wearing parts
Worksheet 9
Assembly of the piston pump
Worksheet 10
Piston replacement
Worksheet 11
Parts identification using the spare parts drawing
Worksheet 12
Spare parts ordering
122
10/2008
MT 184
Spare parts drawing and spare parts list
83, 87
81, 82
79, 80
84, 85
87
79, 80
85, 86
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
8
6.1
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 6.1
6 Tasks
Spare parts drawing for the piston pump
123
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
11 19
4, 23
6 3 - 15
22
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
21
16
7 1 30,31 24 25 5 26 28 13
29
9
27 12
32 2 33 18 17
35 34
14
10 20 8
Fig. 6.2
6 Tasks
Spare parts drawings for the gearbox
124
57
42 58
Fig. 6.3
6 Tasks 44
60
36
64
51 38 49 37
40
43
59
70
71
54 68
39
50, 52, 53
41
69
58 66
67 47
73 74
72
62
48
47
75 46, 77 76
65
61
MT 184
63
45
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
10/2008
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Spare parts drawings for the pump housing
125
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
1
1
Piece
Connecting rod
MT184.10.04.001
2
1
Piece
Packing gland housing
MT184.10.05.002
3
1
Piece
Crankshaft
MT184.10.03.001
4
1
Piece
Bearing cover, open
MT184.10.10.001
5
1
Piece
Gearbox housing
MT184.10.09.001
EN-GJL-200
6
1
Piece
Bearing cover, closed
MT184.10.09.002
EN-GJL-200
7
1
Piece
Gearbox cover
MT184.10.09.003
DOC04
8
1
Piece
Base plate
MT184.10.09.004
S235JR
9
1
Piece
Oil splash guard
MT184.10.09.005
DOC04
10
1
Piece
Packing gland seal
MT184.10.09.006
SBR/B-870M
11
2
Piece
Bearing cover seal
MT184.10.09.007
SBR/B-870M
12
1
Piece
Oil stripper
MT184.10.09.008
60NBR693 SW
13
1
Piece
Oil plug
MT184.10.09.009
CuZn39Pb3
14
1
Piece
Duo-piston
PM10
Simirit
15
1
Piece
Disk spring
DIN 6888-5x7,5
16
8
Piece
Hexagon nut
ISO 4032-M6
8
17
2
Piece
Hexagon nut
ISO 4032-M8
8
18
1
Piece
Spring ring
DIN 127-A-8
A2
19
6
Piece
Hexagon screw
ISO 4017-M6x12
8.8
20
4
Piece
Rubber buffer
500029
GMT
21
2
Piece
Seal
DIN 7603-A10x13,5x2
PVC
22
2
Piece
Angled oiler with nut
G1/8
Spike
23
1
Piece
Radial shaft seal
DIN 3760-A16x35x7
NBR
24
2
Piece
Grooved ball bearing
DIN 625-6202
25
1
Piece
Grooved ball bearing
DIN 625-6203
Tab. 6.1
6 Tasks
Comments
Spare parts list
126
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
Comments
26
1
Piece
Crosshead
MT184.10.04.002
EN-GJL-200
27
1
Piece
Piston Rod
MT184.10.04.003
X14CrMoS17
28
1
Piece
Straight pin
ISO 8734-12x35
C1
29
1
Piece
Hexagon nut
ISO 4032-M8
8-A2
30
1
Piece
Hexagon screw
ISO 4017-M6x25
8.8
31
1
Piece
Hexagon nut
ISO 4032-M6
8-A2
32
1
Piece
Packing gland screws
MT184.10.05.002
CuZn39Pb3
33
1
Piece
Brass washer
MT184.10.05.003
CuZn37F30
34
1
Piece
Gland packing
00.2251
Spike
35
1
Piece
Lip seal
ISO 4032-M8
A2-70
36
1
Piece
Lock nut
MT184.10.09.002
CuZn39Pb2
37
1
Piece
Knurled screw
MT184.10.08.003
CuZn39Pb3
38
1
Piece
Cap
MT184.10.08.004
NBR
39
1
Piece
Pump housing
MT184.10.06.001
EN-GJL-200
40
1
Piece
Cylinder cover
MT184.10.06.002
EN-GJL-200
41
1
Piece
Air chamber
MT184.10.06.003
EN-GJL-200
42
1
Piece
Water plug
MT184.10.06.004
CuZn39Pb2
43
1
Piece
Air chamber stud bolt
MT184.10.06.005
9SMn28K
44
1
Piece
Cylinder pipe
MT184.10.06.006
X6CrNi18-10
45
1
Piece
Cap nut
DIN 1587-M12
CuZn39Pb3
46
1
Piece
Drain plug
MT184.10.06.007
CuZn39Pb2
47
1
Piece
Membrane safety valve
SV.01-065.7,5 F3000.4
Spike
48
2
Piece
Straight flange G1“
MT184.10.06.010
EN-GJL-200
49
1
Piece
Poppet valve body
MT184.10.08.001
50
2
Piece
Valve bridge
MT184.10.06.008
X14CrMoS17
51
1
Piece
Cylinder cover seal
MT184.10.06.009
SBR/B-870M
Tab. 6.1
6 Tasks
Spare parts list
127
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
Comments
52
2
Piece
Flat washer
ISO 7089 -8
8-A2
53
2
Piece
Hexagon nut
ISO 4032-M8
8-A2
54
1
Piece
Air chamber seal
MT184.10.06.011
SBR/B-870M
55
2
Piece
Seal
DIN 7603-A10x13,5x2
PVC
56
2
Piece
Stud bolt
MT184.10.06.012
X17CrNi16-2
57
2
Piece
Stud bolt
MT184.10.06.013
X17CrNi16-2
58
2
Piece
Seal
DIN 7603-A13x18x1,5
PVC
59
4
Piece
Valve seat seal
MT184.10.06.014
SBR/B-870M
60
3
Piece
Hexagon screw
ISO 4017-M6x16
8.8-A2
61
3
Piece
Hexagon screw
ISO 4017-M8x25
8.8-A2
62
2
Piece
Seal
MT184.10.06.015
SBR/B-870M
63
1
Piece
Plain washer
MT184.10.06.016
X17CrNi16-2
64
1
Piece
Seal
DIN 7603-A13x18x1,5
PVC
65
1
Piece
Seal
DIN 7603-A39x49x2
EPDM
66
1
Piece
Valve seat
MT184.10.07.001
CuZn40Al2
67
1
Piece
Seal in valve seat
MT184.10.07.002
80 NBR 180
68
1
Piece
Delivery side valve pin
MT184.10.01.001
CuZn39Pb3
69
1
Piece
Delivery side valve seat
Mt184.10.01.002
CuZn39Pb3
70
1
Piece
Valve rubber plate
MT184.10.01.003
NBR-45° Shore A
71
1
Piece
Hold-down
MT184.10.01.004
CuZn39Pb3
72
1
Piece
Intake side valve pin
MT184.10.02.001
CuZn39Pb3
73
1
Piece
Intake side valve seat
MT184.10.02.002
CuZn39Pb3
74
1
Piece
Valve rubber plate
MT184.10.01.003
NBR-45° Shore A
Tab. 6.1
6 Tasks
Spare parts list
128
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
Comments
75
1
Piece
Hold-down
MT184.10.01.004
CuZn39Pb3
76
1
Piece
Hexagon nut
ISO 10511.M6
A2
77
1
Piece
Drain plug
MT184.10.06.007
CuZn39Pb2
78
1
Piece
Rocker shaft
MT184.10.00.001
X14CrMoS17
79
1
Piece
Rocker shaft with thread
MT184.10.00.002
X14CrMoS17
80
4
Piece
Insulating bush
MT184.10.00.003
GP-22
81
1
Piece
Motor clamp rail left
MT184.10.00.004
EN-GJL-200
82
1
Piece
Motor clamp rail right
MT184.10.00.005
EN-GJL-200
83
1
Piece
V-belt pulley
MT184.10.00.006
EN-GJL-200
84
1
Piece
Hexagon screw
ISO 4017-M8x25
8.8
85
5
Piece
Hexagon nut
ISO 4032-M8
8
86
2
Piece
Flat washer
ISO 7089-A-8
140 HV
87
3
Piece
Hexagon screw
ISO 4017-M6x-10
8.8
88
1
Piece
Valve housing complete
MT184.00.06.000
89
1
Piece
Crankcase complete
MT184.00.09.000
90
1
Piece
Intake valve complete
MT184.00.01.000
91
1
Piece
Pressure valve complete
MT184.00.02.000
92
1
Piece
Valve seat
MT184.00.07.000
Tab. 6.1
6 Tasks
Spare parts list
129
10/2008
MT 184
6.2
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 1: Introduction to the piston pump, page 1 Objective: To obtain an overview of the design and function of the piston pump.
Exercise:
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
You are provided with an assembled pump. Dismantle the pump so that all the component parts are laid out before you.
6 Tasks
130
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 1, page 2
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Pick up the pump drawings and the parts list. Locate the components in the drawings. Refer to the parts list to find out the correct names of the components.
6 Tasks
131
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 1, page 3 You are now familiar enough with the overall design of the pump to be able to answer the following questions: 1. With what type of displacement device is the pump fitted?
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
2. Does a piston pump have a specific direction of rotation? Or are clockwise and anti-clockwise both possible?
3. Can you explain the basic operating principle of a piston pump?
4. Look at the materials in the parts list. For which media could the pump be suitable?
6 Tasks
132
10/2008
MT 184
6.3
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 2: Design, function and applications of the piston pump, page 1 Objective: To explain the design of the pump. To understand and describe its method of operation and usage. Exercise: 1. Describe the design of the pump.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Use the drawings.
2. Name the five key components.
6 Tasks
133
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 2, page 2
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
3. Explain the method of operation of the pump. Explain the delivery principle.
4. In what areas is the piston pump used?
6 Tasks
134
10/2008
MT 184
6.4
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 3: Identifying causes of faults, page 1 Objective: To identify or suspect likely causes of faults in response to specific malfunctions while the pump is operating. Exercise: Try to find the causes of the faults listed in the table below. Note down your assumptions in the right-hand section of the table. You can exclude systemrelated disturbances.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Fault
Suspected cause
Medium leaking from pump body
Running noise has markedly increased
The pressure difference usually generated between the inlet and outlet is no longer being attained The pressure difference is much less than normal The pump housing has a much higher surface temperature than normal
The current consumption of the drive motor has increased significantly compared to normal operating conditions Service life of piston too short
6 Tasks
135
10/2008
MT 184
6.5
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 4: Sealing systems, page 1 Objective: To divide sealing systems into basic categories and identify them based on the example of the pistons. Information: Sealing systems we can find in pumps are classified as follows:
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Sealing systems
6 Tasks
Static seals
Dynamic seals
(seals subject to stationary stress)
(seals subject to motion)
136
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 4, page 2 Exercise: 1. Here you see the sectional drawing of the pump. • In the sectional drawing, mark the static seals as S and the dynamic seals as D.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• What functions do the static and dynamic seals perform?
6 Tasks
137
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 4, page 3 When you have identified the sealing systems used in the piston pump, move on to the following exercise.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
2. Describe the design and method of operation of a shaft seal based on the floating ring principle.
3. Look at a shaft seal based on the packing gland principle and describe it.
6 Tasks
138
10/2008
MT 184
6.6
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 5: Inspection of pumps, page 1 Objective: To know what the term “inspection” involves, and to draw up an inspection plan.
Exercise:
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
1. What does the term “inspection” mean in the context of technical maintenance? Mark the statements you consider to be true or false in the Yes or No column of the following table as appropriate.
Activity
Yes
No
The current actual status of a pump is recorded and assessed Components such as pistons or seals are replaced as a preventive maintenance measure Shaft bearings are lubricated and couplings re-aligned Entire pump units are replaced An inspection is always carried out with the system stopped During an inspection operating data of the pump system are measured (read) and entered in an inspection plan An inspection can be seen as equivalent to preventive repair Inspection is a routine operation in machinery and plant maintenance
6 Tasks
139
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 5, page 2 When you have established what the term “inspection” means, move on to the following exercise. 2. Imagine we were talking about a vital piston pump in a domestic water process. Let’s also assume that this pump is similar in design to the pump from our MT 184 practice kit.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Draw up an inspection plan by mean of which an inspection can be documented.
Inspection plan Pump:
Inspected by:
Serial no.:
Date:
Item
6 Tasks
Comments
140
10/2008
MT 184
6.7
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 6: Servicing of pumps, page 1 Objective: To know what is meant by the term “servicing”. Exercise: 1. What does the term “servicing” mean in the context of technical maintenance?
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Mark the statements you consider to be true or false in the Yes or No column of the following table as appropriate.
Activity
Yes
No
Components such as pistons, rod seals and gaskets are replaced as a preventive maintenance measure The object of servicing is to record and assess the current actual status of a pump Servicing of a pump is a routine operation, carried out at predetermined intervals A service is usually carried out with the system stopped Servicing can be seen as equivalent to preventive repair During a service, packing glands are repositioned, couplings adjusted or oil fillings changed for example Entire pump units are replaced Servicing is always carried out when damage to a pump is identified
6 Tasks
141
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 6, page 2 When you have established what the term “servicing” means, move on to the following exercise. 2. Do you think that routine servicing is useful and necessary for the piston pump from our MT 184 practice kit?
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Give reasons for your decision.
3. Let’s assume that two piston pumps with the classic differing shaft seals are being used in a domestic water process. What servicing operations need to be carried out on the packing gland type shaft seal and on the floating ring seal type?
6 Tasks
142
10/2008
MT 184
6.8
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 7: Repairs to pumps, page 1 Objective: To know what is meant by the term “repairs” in this context and to draw up a preventive maintenance plan.
Exercise:
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
1. What does the term “repairs” mean in the context of technical maintenance? Mark the statements you consider to be true or false in the Yes or No column of the following table as appropriate.
Activity
Yes
No
Repairs involve replacing well-used parts with new ones, for example pistons and seals Repairs are carried out when damage has occurred to the pump Repairs may also be carried out as routine and preventive maintenance measures to prevent damage and stoppages from occurring in the first place Entire pump units are replaced Preventive maintenance can prevent a pump from failing Repairs are normally carried out with the system stopped If servicing is carried out on a regular basis, repairs are not needed
6 Tasks
143
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 7, page 2 When you have established what the term “repairs” means, move on to the following exercise. 2. Let us assume that our piston pump represents an important assembly in a domestic water process. A failure of the pump would result in the entire line being shut down. In view of this, the pump is inspected and serviced at regular intervals.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
To achieve the most reliable operation possible, the plant management decides to carry out routine preventive repairs to the unit. Draw up a repair order for carrying out and documenting the work. Use the drawings. Inspection order Pump:
Inspected by:
Serial no.:
Date:
Procedure
Comments/Status
Parts to be replaced:
Parts to be checked:
6 Tasks
144
10/2008
MT 184
6.9
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 8: Wearing parts on the piston pump, page 1 Objective: To identify the wearing parts on the piston pump. Exercise:
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
1. Mark the wearing parts on the pump drawing and name them by way of example.
6 Tasks
145
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 8, page 2
2. Of what material are the wearing parts of the piston pump made? Enter the wearing parts from the previous page in the table with their material data or standard designations.
Material
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Wearing part
6 Tasks
146
10/2008
MT 184
6.10
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9: Assembling the piston pump, page 1 Objective: To structure the assembly process. To identify which assembly units and phases can be compiled. Exercise: You have laid out all the component parts of the piston pump in front of you. Your task is to assemble the pump.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
To do this, first assembly individual assembly units. Then combine the assembly units to create the overall system in a sequence of assembly phases. 1. Collect the components from which you can compile assembly units and phases. Name the assembly units and phases. Use the drawings.
• Item
6 Tasks
Name
147
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9, page 2
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Item
Name
Item
Name
Item
Name
•
•
6 Tasks
148
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9, page 3
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Item
Name
Item
Name
•
6 Tasks
149
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9, page 4
• Name
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Item
6 Tasks
150
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9, page 5
2. When you have put together the various assembly units, the next step is to assemble the pump. You should carry out this phase and represent it in a structure corresponding to the pattern shown.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Set out the identified assembly phases through to the complete pump.
Gearing
Parts x, y, ...
Parts x, y, ...
Piston pump
6 Tasks
151
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9, page 6 Procedure for assembling the piston pump
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Gearbox (assembly unit 6)
Piston pump
6 Tasks
152
10/2008
MT 184
6.11
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 10: Piston replacement, page 1 Objective: Planning and execution of piston replacement on a piston pump. Exercise: 1. Your task is to replace the piston on a piston pump.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Set out your method in the pre-compiled work plan. Use the drawings.
6 Tasks
153
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 10, page 2
Work plan Name: Piston pump – Piston replacement Date:
Carried out by:
Order no.:
Date:
Proced ure
Procedure
Tools
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Dismantling
Assembly
Estimated time required: ____ min
6 Tasks
154
10/2008
MT 184
6.12
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 11: Parts identification using the parts drawing, familiarisation with technical terms, page 1 Objective: To assign items from a spare parts list to a spare parts drawing. Exercise: You are given a spare parts drawing on which the item numbers have not yet been entered. Refer to the supplied spare parts list.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Enter the item numbers from the 1st column of the spare parts list in the fields in the spare parts drawing.
6 Tasks
155
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Worksheet 11, page 2
Fig. 6.4
6 Tasks
Spare parts drawing for the piston pump
156
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Worksheet 11, page 3
Fig. 6.5
6 Tasks
Spare parts drawings for the gearbox
157
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Worksheet 11, page 4
Fig. 6.6
6 Tasks
Spare parts drawings for the pump housing
158
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Worksheet 11, page 5 Item
Quanti ty
Unit
Name
Item number / Standard
1
1
Piece
Connecting rod
MT184.10.04.001
2
1
Piece
Packing gland housing
MT184.10.05.002
3
1
Piece
Crankshaft
MT184.10.03.001
4
1
Piece
Bearing cover, open
MT184.10.10.001
5
1
Piece
Gearbox housing
MT184.10.09.001
EN-GJL-200
6
1
Piece
Bearing cover, closed
MT184.10.09.002
EN-GJL-200
7
1
Piece
Gearbox cover
MT184.10.09.003
DOC04
8
1
Piece
Base plate
MT184.10.09.004
S235JR
9
1
Piece
Oil splash guard
MT184.10.09.005
DOC04
10
1
Piece
Packing gland seal
MT184.10.09.006
SBR/B-870M
11
2
Piece
Bearing cover seal
MT184.10.09.007
SBR/B-870M
12
1
Piece
Oil stripper
MT184.10.09.008
60NBR693 SW
13
1
Piece
Oil plug
MT184.10.09.009
CuZn39Pb3
14
1
Piece
Duo-piston
PM10
Simirit
15
1
Piece
Disk spring
DIN 6888-5x7,5
16
8
Piece
Hexagon nut
ISO 4032-M6
8
17
2
Piece
Hexagon nut
ISO 4032-M8
8
18
1
Piece
Spring ring
DIN 127-A-8
A2
19
6
Piece
Hexagon screw
ISO 4017-M6x12
8.8
20
4
Piece
Rubber buffer
500029
GMT
21
2
Piece
Seal
DIN 7603-A10x13,5x2
PVC
22
2
Piece
Angled oiler with nut
G1/8
Spike
23
1
Piece
Radial shaft seal
DIN 3760-A16x35x7
NBR
24
2
Piece
Grooved ball bearing
DIN 625-6202
25
1
Piece
Grooved ball bearing
DIN 625-6203
Tab. 6.2
6 Tasks
Comments
Spare parts list
159
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Worksheet 11, page 6 Item
Quanti ty
Unit
Name
Item number / Standard
Comments
26
1
Piece
Crosshead
MT184.10.04.002
EN-GJL-200
27
1
Piece
Piston Rod
MT184.10.04.003
X14CrMoS17
28
1
Piece
Straight pin
ISO 8734-12x35
C1
29
1
Piece
Hexagon nut
ISO 4032-M8
8-A2
30
1
Piece
Hexagon screw
ISO 4017-M6x25
8.8
31
1
Piece
Hexagon nut
ISO 4032-M6
8-A2
32
1
Piece
Packing gland screws
MT184.10.05.002
CuZn39Pb3
33
1
Piece
Brass washer
MT184.10.05.003
CuZn37F30
34
1
Piece
Gland packing
00.2251
Spike
35
1
Piece
Lip seal
ISO 4032-M8
A2-70
36
1
Piece
Lock nut
MT184.10.09.002
CuZn39Pb2
37
1
Piece
Knurled screw
MT184.10.08.003
CuZn39Pb3
38
1
Piece
Cap
MT184.10.08.004
NBR
39
1
Piece
Pump housing
MT184.10.06.001
EN-GJL-200
40
1
Piece
Cylinder cover
MT184.10.06.002
EN-GJL-200
41
1
Piece
Air chamber
MT184.10.06.003
EN-GJL-200
42
1
Piece
Water plug
MT184.10.06.004
CuZn39Pb2
43
1
Piece
Air chamber stud bolt
MT184.10.06.005
9SMn28K
44
1
Piece
Cylinder pipe
MT184.10.06.006
X6CrNi18-10
45
1
Piece
Cap nut
DIN 1587-M12
CuZn39Pb3
46
1
Piece
Drain plug
MT184.10.06.007
CuZn39Pb2
47
1
Piece
Membrane safety valve
SV.01-065.7,5 F3000.4
Spike
48
2
Piece
Straight flange G1“
MT184.10.06.010
EN-GJL-200
49
1
Piece
Poppet valve body
MT184.10.08.001
50
2
Piece
Valve bridge
MT184.10.06.008
Tab. 6.3
6 Tasks
X14CrMoS17
Spare parts list
160
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Worksheet 11, page 7 Item
Quanti ty
Unit
Name
Item number / Standard
Comments
51
1
Piece
Cylinder cover seal
MT184.10.06.009
SBR/B-870M
52
2
Piece
Flat washer
ISO 7089 -8
8-A2
53
2
Piece
Hexagon nut
ISO 4032-M8
8-A2
54
1
Piece
Air chamber seal
MT184.10.06.011
SBR/B-870M
55
2
Piece
Seal
DIN 7603-A10x13,5x2
PVC
56
2
Piece
Stud bolt
MT184.10.06.012
X17CrNi16-2
57
2
Piece
Stud bolt
MT184.10.06.013
X17CrNi16-2
58
2
Piece
Seal
DIN 7603-A13x18x1,5
PVC
59
4
Piece
Valve seat seal
MT184.10.06.014
SBR/B-870M
60
3
Piece
Hexagon screw
ISO 4017-M6x16
8.8-A2
61
3
Piece
Hexagon screw
ISO 4017-M8x25
8.8-A2
62
2
Piece
Seal
MT184.10.06.015
SBR/B-870M
63
1
Piece
Plain washer
MT184.10.06.016
X17CrNi16-2
64
1
Piece
Seal
DIN 7603-A13x18x1,5
PVC
65
1
Piece
Seal
DIN 7603-A39x49x2
EPDM
66
1
Piece
Valve seat
MT184.10.07.001
CuZn40Al2
67
1
Piece
Seal in valve seat
MT184.10.07.002
80 NBR 180
68
1
Piece
Delivery side valve pin
MT184.10.01.001
CuZn39Pb3
69
1
Piece
Delivery side valve seat
Mt184.10.01.002
CuZn39Pb3
70
1
Piece
Valve rubber plate
MT184.10.01.003
NBR-45° Shore A
71
1
Piece
Hold-down
MT184.10.01.004
CuZn39Pb3
72
1
Piece
Intake side valve pin
MT184.10.02.001
CuZn39Pb3
73
1
Piece
Intake side valve seat
MT184.10.02.002
CuZn39Pb3
Tab. 6.4
6 Tasks
Spare parts list
161
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Worksheet 11, page 8 Item
Quanti ty
Unit
Name
Item number / Standard
Comments
74
1
Piece
Valve rubber plate
MT184.10.01.003
NBR-45° Shore A
75
1
Piece
Hold-down
MT184.10.01.004
CuZn39Pb3
76
1
Piece
Hexagon nut
ISO 10511.M6
A2
77
1
Piece
Drain plug
MT184.10.06.007
CuZn39Pb2
78
1
Piece
Rocker shaft
MT184.10.00.001
X14CrMoS17
79
1
Piece
Rocker shaft with thread
MT184.10.00.002
X14CrMoS17
80
4
Piece
Insulating bush
MT184.10.00.003
GP-22
81
1
Piece
Motor clamp rail left
MT184.10.00.004
EN-GJL-200
82
1
Piece
Motor clamp rail right
MT184.10.00.005
EN-GJL-200
83
1
Piece
V-belt pulley
MT184.10.00.006
EN-GJL-200
84
1
Piece
Hexagon screw
ISO 4017-M8x25
8.8
85
5
Piece
Hexagon nut
ISO 4032-M8
8
86
2
Piece
Flat washer
ISO 7089-A-8
140 HV
87
3
Piece
Hexagon screw
ISO 4017-M6x-10
8.8
88
1
Piece
Valve housing complete
MT184.00.06.000
89
1
Piece
Crankcase complete
MT184.00.09.000
90
1
Piece
Intake valve complete
MT184.00.01.000
91
1
Piece
Pressure valve complete
MT184.00.02.000
92
1
Piece
Valve seat
MT184.00.07.000
Tab. 6.5
6 Tasks
Spare parts list
162
10/2008
MT 184
6.13
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 12: Spare parts ordering, page 1 Objective: To place a technically unambiguous spare parts order.
Exercise: You are going to carry out a repair, and need replacement parts for your piston pump. All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Select three parts and make a spare parts order. Use the documents provided.
Spare parts order for pump:
Parts:
6 Tasks
163
10/2008
MT 184
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
7
7 Solutions
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Solutions
Tasks / Exercises
Topic
Worksheet 1
Introduction to the piston pump
Worksheet 2
Design, function and applications
Worksheet 3
Identifying causes of faults
Worksheet 4
Sealing systems
Worksheet 5
Inspection
Worksheet 6
Servicing
Worksheet 7
Repairs
Worksheet 8
Wearing parts
Worksheet 9
Assembly of the piston pump
Worksheet 10
Piston replacement
Worksheet 11
Parts identification using the spare parts drawing
Worksheet 12
Spare parts ordering
164
10/2008
MT 184
Spare parts drawing and spare parts list
83, 87
81, 82
79, 80
84, 85
87
79, 80
85, 86
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
8
7.1
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Fig. 7.1
7 Solutions
Spare parts drawing for the piston pump
165
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
11 19
4, 23
6 3 - 15
22
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
21
16
7 1 30,31 24 25 5 26 28 13
29
9
27 12
32 2 33 18 17
35 34
14
10 20 8
Fig. 7.2
7 Solutions
Spare parts drawings for the gearbox
166
57
42 58
Fig. 7.3
7 Solutions 44
60
36
64
51 38 49 37
40
43
59
70
71
54 68
39
50, 52, 53
41
69
58 66
67 47
73 74
72
62
48
47
75 46, 77 76
65
61
MT 184
63
45
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
10/2008
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Spare parts drawings for the pump housing
167
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
1
1
Piece
Connecting rod
MT184.10.04.001
2
1
Piece
Packing gland housing
MT184.10.05.002
3
1
Piece
Crankshaft
MT184.10.03.001
4
1
Piece
Bearing cover, open
MT184.10.10.001
5
1
Piece
Gearbox housing
MT184.10.09.001
EN-GJL-200
6
1
Piece
Bearing cover, closed
MT184.10.09.002
EN-GJL-200
7
1
Piece
Gearbox cover
MT184.10.09.003
DOC04
8
1
Piece
Base plate
MT184.10.09.004
S235JR
9
1
Piece
Oil splash guard
MT184.10.09.005
DOC04
10
1
Piece
Packing gland seal
MT184.10.09.006
SBR/B-870M
11
2
Piece
Bearing cover seal
MT184.10.09.007
SBR/B-870M
12
1
Piece
Oil stripper
MT184.10.09.008
60NBR693 SW
13
1
Piece
Oil plug
MT184.10.09.009
CuZn39Pb3
14
1
Piece
Duo-piston
PM10
Simirit
15
1
Piece
Disk spring
DIN 6888-5x7,5
16
8
Piece
Hexagon nut
ISO 4032-M6
8
17
2
Piece
Hexagon nut
ISO 4032-M8
8
18
1
Piece
Spring ring
DIN 127-A-8
A2
19
6
Piece
Hexagon screw
ISO 4017-M6x12
8.8
20
4
Piece
Rubber buffer
500029
GMT
21
2
Piece
Seal
DIN 7603-A10x13,5x2
PVC
22
2
Piece
Angled oiler with nut
G1/8
Spike
23
1
Piece
Radial shaft seal
DIN 3760-A16x35x7
NBR
24
2
Piece
Grooved ball bearing
DIN 625-6202
25
1
Piece
Grooved ball bearing
DIN 625-6203
Tab. 7.1
7 Solutions
Comments
Spare parts list
168
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
Comments
26
1
Piece
Crosshead
MT184.10.04.002
EN-GJL-200
27
1
Piece
Piston Rod
MT184.10.04.003
X14CrMoS17
28
1
Piece
Straight pin
ISO 8734-12x35
C1
29
1
Piece
Hexagon nut
ISO 4032-M8
8-A2
30
1
Piece
Hexagon screw
ISO 4017-M6x25
8.8
31
1
Piece
Hexagon nut
ISO 4032-M6
8-A2
32
1
Piece
Packing gland screws
MT184.10.05.002
CuZn39Pb3
33
1
Piece
Brass washer
MT184.10.05.003
CuZn37F30
34
1
Piece
Gland packing
00.2251
Spike
35
1
Piece
Lip seal
ISO 4032-M8
A2-70
36
1
Piece
Lock nut
MT184.10.09.002
CuZn39Pb2
37
1
Piece
Knurled screw
MT184.10.08.003
CuZn39Pb3
38
1
Piece
Cap
MT184.10.08.004
NBR
39
1
Piece
Pump housing
MT184.10.06.001
EN-GJL-200
40
1
Piece
Cylinder cover
MT184.10.06.002
EN-GJL-200
41
1
Piece
Air chamber
MT184.10.06.003
EN-GJL-200
42
1
Piece
Water plug
MT184.10.06.004
CuZn39Pb2
43
1
Piece
Air chamber stud bolt
MT184.10.06.005
9SMn28K
44
1
Piece
Cylinder pipe
MT184.10.06.006
X6CrNi18-10
45
1
Piece
Cap nut
DIN 1587-M12
CuZn39Pb3
46
1
Piece
Drain plug
MT184.10.06.007
CuZn39Pb2
47
1
Piece
Membrane safety valve
SV.01-065.7,5 F3000.4
Spike
48
2
Piece
Straight flange G1“
MT184.10.06.010
EN-GJL-200
49
1
Piece
Poppet valve body
MT184.10.08.001
50
2
Piece
Valve bridge
MT184.10.06.008
X14CrMoS17
51
1
Piece
Cylinder cover seal
MT184.10.06.009
SBR/B-870M
Tab. 7.1
7 Solutions
Spare parts list
169
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
Comments
52
2
Piece
Flat washer
ISO 7089 -8
8-A2
53
2
Piece
Hexagon nut
ISO 4032-M8
8-A2
54
1
Piece
Air chamber seal
MT184.10.06.011
SBR/B-870M
55
2
Piece
Seal
DIN 7603-A10x13,5x2
PVC
56
2
Piece
Stud bolt
MT184.10.06.012
X17CrNi16-2
57
2
Piece
Stud bolt
MT184.10.06.013
X17CrNi16-2
58
2
Piece
Seal
DIN 7603-A13x18x1,5
PVC
59
4
Piece
Valve seat seal
MT184.10.06.014
SBR/B-870M
60
3
Piece
Hexagon screw
ISO 4017-M6x16
8.8-A2
61
3
Piece
Hexagon screw
ISO 4017-M8x25
8.8-A2
62
2
Piece
Seal
MT184.10.06.015
SBR/B-870M
63
1
Piece
Plain washer
MT184.10.06.016
X17CrNi16-2
64
1
Piece
Seal
DIN 7603-A13x18x1,5
PVC
65
1
Piece
Seal
DIN 7603-A39x49x2
EPDM
66
1
Piece
Valve seat
MT184.10.07.001
CuZn40Al2
67
1
Piece
Seal in valve seat
MT184.10.07.002
80 NBR 180
68
1
Piece
Delivery side valve pin
MT184.10.01.001
CuZn39Pb3
69
1
Piece
Delivery side valve seat
Mt184.10.01.002
CuZn39Pb3
70
1
Piece
Valve rubber plate
MT184.10.01.003
NBR-45° Shore A
71
1
Piece
Hold-down
MT184.10.01.004
CuZn39Pb3
72
1
Piece
Intake side valve pin
MT184.10.02.001
CuZn39Pb3
73
1
Piece
Intake side valve seat
MT184.10.02.002
CuZn39Pb3
74
1
Piece
Valve rubber plate
MT184.10.01.003
NBR-45° Shore A
Tab. 7.1
7 Solutions
Spare parts list
170
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Item
Quanti ty
Unit
Name
Item number / Standard
Comments
75
1
Piece
Hold-down
MT184.10.01.004
CuZn39Pb3
76
1
Piece
Hexagon nut
ISO 10511.M6
A2
77
1
Piece
Drain plug
MT184.10.06.007
CuZn39Pb2
78
1
Piece
Rocker shaft
MT184.10.00.001
X14CrMoS17
79
1
Piece
Rocker shaft with thread
MT184.10.00.002
X14CrMoS17
80
4
Piece
Insulating bush
MT184.10.00.003
GP-22
81
1
Piece
Motor clamp rail left
MT184.10.00.004
EN-GJL-200
82
1
Piece
Motor clamp rail right
MT184.10.00.005
EN-GJL-200
83
1
Piece
V-belt pulley
MT184.10.00.006
EN-GJL-200
84
1
Piece
Hexagon screw
ISO 4017-M8x25
8.8
85
5
Piece
Hexagon nut
ISO 4032-M8
8
86
2
Piece
Flat washer
ISO 7089-A-8
140 HV
87
3
Piece
Hexagon screw
ISO 4017-M6x-10
8.8
88
1
Piece
Valve housing complete
MT184.00.06.000
89
1
Piece
Crankcase complete
MT184.00.09.000
90
1
Piece
Intake valve complete
MT184.00.01.000
91
1
Piece
Pressure valve complete
MT184.00.02.000
92
1
Piece
Valve seat
MT184.00.07.000
Tab. 7.1
7 Solutions
Spare parts list
171
10/2008
MT 184
7.2
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 1: Introduction to the piston pump, page 1 Objective: To obtain an overview of the design and function of the piston pump.
Exercise:
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
You are provided with an assembled pump. Dismantle the pump so that all the component parts are laid out before you.
7 Solutions
172
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 1, page 2
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Pick up the pump drawings and the parts list. Locate the components in the drawings. Refer to the parts list to find out the correct names of the components.
7 Solutions
173
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 1, page 3 You are now familiar enough with the overall design of the pump to be able to answer the following questions: 1. With what type of displacement device is the pump fitted? With a dual sleeved piston. 2. Does a piston pump have a specific direction of rotation? Or are clockwise and anti-clockwise both possible?
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
The pump delivery is independent of the direction of rotation of the drive. However, optimum lubrication of the gearbox can only be effected in the direction indicated by the arrow on the pump. 3. Can you explain the basic operating principle of a piston pump? The enlargement of the delivery chamber creates a negative pressure and the pumped liquid is drawn in via the intake valve. The subsequent reversal of stroke reduces the size of the pump chamber and the piston displaces the liquid by way of the pressure valve. 4. Look at the materials in the parts list. For which media could the pump be suitable? Because of the materials used in it, the piston pump is used in particular to pump non-aggressive, fluid media, such as drinking water and domestic water.
7 Solutions
174
10/2008
MT 184
7.3
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 2: Design, function and applications of the piston pump, page 1 Objective: To explain the design of the pump. To understand and describe its method of operation and usage. Exercise: 1. Describe the design of the pump.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Use the drawings. The motor is mounted on the pump unit by clamp rails. The crankshaft, the connecting rod and the crosshead are automatically lubricated in the gearbox housing by circulating oil on every rotation. The piston rod is sealed off from the delivery chamber by a packing gland. The sleeved pistons made of NBR rubber run in a stainless steel cylinder bushing. The two delivery chambers each contain two disk valves with valve rubber plates. The delivery side of the pump is executed as an air chamber with a builtin safety valve. 2. Name the five key components. Pump housing, gearbox housing, valves, piston, packing gland.
7 Solutions
175
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 2, page 2 3. Explain the method of operation of the pump. Explain the delivery principle. On every revolution, the crankshaft acts by way of the connecting rod and the crosshead on the piston, which is mounted on the end of the piston rod. This stroke motion causes the piston to move back and forth in the cylinder bushing.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
On every stroke the piston enlarges and reduces the size of the delivery chamber. In the enlarging delivery chamber a negative pressure is created, causing the pressure valve to close and liquid to flow via the intake valve into the delivery chamber. In the reducing delivery chamber the piston presses the liquid via the pressure valve out of the pump body, while at the same time the intake valve is pressed closed. 4. In what areas is the piston pump used? Piston pumps are used primarily to transport fluids at high delivery pressures and low flow rates. Typical applications include pumping drinking water and domestic water in residential areas, in agriculture, onboard ships, in industry and at commercial garden centres.
7 Solutions
176
10/2008
MT 184
7.4
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 3: Identifying causes of faults, page 1 Objective: To identify or suspect likely causes of faults in response to specific malfunctions while the pump is operating. Exercise:
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Try to find the causes of the faults listed in the table below. Note down your assumptions in the right-hand section of the table. You can exclude systemrelated disturbances. Fault
Suspected cause
Medium leaking from pump body
Packing gland worn Housing seals defective
Running noise has markedly increased
Bearing damaged Crankshaft or piston rod deformed Oil filling too low
The pressure difference usually generated between the inlet and outlet is no longer being attained The pressure difference is much less than normal The pump housing has a much higher surface temperature than normal
Pump valves leaking Foreign bodies in the pump Piston worn
Crankshaft, bearing and crosshead damaged Oil filling too low
The current consumption of the drive motor has increased significantly compared to normal operating conditions
Motor defective
Service life of piston too short
Foreign bodies in the pump
Gearbox components defective
Dry running Inadequate material resistance
7 Solutions
177
10/2008
MT 184
7.5
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 4: Sealing systems, page 1 Objective: To divide sealing systems into basic categories and identify them based on the example of the pistons. Information: Sealing systems we can find in pumps are classified as follows:
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Sealing systems
7 Solutions
Static seals
Dynamic seals
(seals subject to stationary stress)
(seals subject to motion)
178
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 4, page 2 Exercise: 1. Here you see the sectional drawing of the pump. • In the sectional drawing, mark the static seals as S and the dynamic seals as D. • What functions do the static and dynamic seals perform? The static seals seal the housing.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
The dynamic seals seal moving parts.
S
D
7 Solutions
179
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 4, page 3 When you have identified the sealing systems used in the piston pump, move on to the following exercise. 2. Describe the design and method of operation of a shaft seal based on the floating ring principle.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Floating ring seals are contact seals which create a yielding seal connection between stationary and rotating contact faces. There is a film of liquid between these contact surfaces. The film of liquid assumes a stable position due to the centrifugal force occurring during rotation. Static elastomer seals seal the floating ring seal from the housing. The rotating floating ring is held axially to the counter ring by a spring, which is fixed in the housing. 3. Look at a shaft seal based on the packing gland principle and describe it. The gland packing is a woven cord mainly made of solid fabrics. It is deformed in the packing space between the shaft and the housing by an axial force and so pressed onto the surfaces being sealed. A sleeve is fitted to protect the shaft. Locking rings or ancillary glands hold the packing in place. The gland press compresses the packing by way of screw fittings.
7 Solutions
180
10/2008
MT 184
7.6
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 5: Inspection of pumps, page 1 Objective: To know what the term “inspection” involves, and to draw up an inspection plan.
Exercise:
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
1. What does the term “inspection” mean in the context of technical maintenance? Mark the statements you consider to be true or false in the Yes or No column of the following table as appropriate.
Activity The current actual status of a pump is recorded and assessed
Yes X
Components such as pistons or seals are replaced as a preventive maintenance measure
X
Shaft bearings are lubricated and couplings re-aligned
X
Entire pump units are replaced
X
An inspection is always carried out with the system stopped
X
During an inspection operating data of the pump system are measured (read) and entered in an inspection plan
X
An inspection can be seen as equivalent to preventive repair Inspection is a routine operation in machinery and plant maintenance
7 Solutions
No
X X
181
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 5, page 2 When you have established what the term “inspection” means, move on to the following exercise. 2. Imagine we were talking about a vital piston pump in a domestic water process. Let’s also assume that this pump is similar in design to the pump from our MT 184 practice kit.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Draw up an inspection plan by mean of which an inspection can be documented.
Inspection plan Pump:
Inspected by:
Serial no.:
Date:
Item
Comments
Pump capacity Delivery pressure Leakage Noise Smooth running Temperature General condition Oil level
7 Solutions
182
10/2008
MT 184
7.7
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 6: Servicing of pumps, page 1 Objective: To know what is meant by the term “servicing”. Exercise: 1. What does the term “servicing” mean in the context of technical maintenance?
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Mark the statements you consider to be true or false in the Yes or No column of the following table as appropriate.
Activity
Yes
Components such as pistons, rod seals and gaskets are replaced as a preventive maintenance measure
X
The object of servicing is to record and assess the current actual status of a pump
X
Servicing of a pump is a routine operation, carried out at predetermined intervals
X
A service is usually carried out with the system stopped
X
Servicing can be seen as equivalent to preventive repair During a service, packing glands are repositioned, couplings adjusted or oil fillings changed for example
7 Solutions
No
X X
Entire pump units are replaced
X
Servicing is always carried out when damage to a pump is identified
X
183
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 6, page 2 When you have established what the term “servicing” means, move on to the following exercise. 2. Do you think that routine servicing is useful and necessary for the piston pump from our MT 184 practice kit? Give reasons for your decision.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Yes! During servicing, the condition of the wearing parts is checked and the parts are replaced as necessary. For the piston pump from MT 184 the parts are the piston, the housing seals, the valves, the packing gland and the oil filling of the main gearbox. 3. Let’s assume that two piston pumps with the classic differing shaft seals are being used in a domestic water process. What servicing operations need to be carried out on the packing gland type shaft seal and on the floating ring seal type? Packing glands must be repositioned depending on the leakage rate. Their general condition must be checked and they must be repacked as necessary. Floating ring seals do not have to be adjusted. However, at each service the condition should be checked and, depending on the importance, replaced as a preventive measure.
7 Solutions
184
10/2008
MT 184
7.8
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 7: Repairs to pumps, page 1 Objective: To know what is meant by the term “repairs” in this context and to draw up a preventive maintenance plan.
Exercise:
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
1. What does the term “repairs” mean in the context of technical maintenance? Mark the statements you consider to be true or false in the Yes or No column of the following table as appropriate.
Activity Repairs involve replacing well-used parts with new ones, for example pistons and seals
Yes X
Repairs are carried out when damage has occurred to the pump Repairs may also be carried out as routine and preventive maintenance measures to prevent damage and stoppages from occurring in the first place
X X
Entire pump units are replaced
7 Solutions
X
Preventive maintenance can prevent a pump from failing
X
Repairs are normally carried out with the system stopped
X
If servicing is carried out on a regular basis, repairs are not needed
No
X
185
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 7, page 2 When you have established what the term “repairs” means, move on to the following exercise. 2. Let us assume that our piston pump represents an important assembly in a domestic water process. A failure of the pump would result in the entire line being shut down. In view of this, the pump is inspected and serviced at regular intervals.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
To achieve the most reliable operation possible, the plant management decides to carry out routine preventive repairs to the unit. Draw up a repair order for carrying out and documenting the work. Use the drawings. Inspection order Pump:
Inspected by:
Serial no.:
Date:
Procedure
Comments/Status
Parts to be replaced: Valve rubber plate (70, 74) Valve seat seal (59) Air chamber seal (54) Connection seals (62) Cylinder cover seals (51) Piston (14) Packing gland packs (34) Lip seal (35) Oil filling Parts to be checked: Housing components Bearings Piston Rod
7 Solutions
186
10/2008
MT 184
7.9
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 8: Wearing parts on the piston pump, page 1 Objective: To identify the wearing parts on the piston pump. Exercise: 1. Mark the wearing parts on the pump drawing and name them by way of example. Cylinder seal
Connection seal
Valve seat seal
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Air chamber seal
Gland packing
7 Solutions
Lip seal
Piston
Valve rubber plate
187
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 8, page 2
2. Of what material are the wearing parts of the piston pump made?
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Enter the wearing parts from the previous page in the table with their material data or standard designations.
7 Solutions
Wearing part
Material
Gland packing
PTFE-saturated
Lip seal
A2 - 70
Piston
NBR
Valve rubber plate
NBR-45° Shore A
Air chamber seal, cylinder seal, connection seal, valve seat seal
SBR/B-870M
188
10/2008
MT 184
7.10
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9: Assembling the piston pump, page 1 Objective: To structure the assembly process. To identify which assembly units and phases can be compiled. Exercise: You have laid out all the component parts of the piston pump in front of you. Your task is to assemble the pump.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
To do this, first assembly individual assembly units. Then combine the assembly units to create the overall system in a sequence of assembly phases. 1. Collect the components from which you can compile assembly units and phases. Name the assembly units and phases. Use the drawings.
• Assembly unit 1 – Crankshaft
7 Solutions
Item
Name
3
Crankshaft
24
Grooved ball bearing
25
Grooved ball bearing
189
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MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9, page 2
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Assembly unit 2 – Connecting rod with piston rod Item
Name
1
Connecting rod
26
Crosshead
27
Piston Rod
28
Straight pin
29
Hexagon nut
30
Hexagon screw
31
Hexagon nut
• Assembly unit 3 – Packing gland Item
Name
2
Packing gland housing
32
Packing gland screw
33
Brass washer
34
Gland packing
35
Lip seal
• Assembly unit 4 – Intake valve
7 Solutions
Item
Name
72
Intake side valve pin
73
Intake side valve seat
74
Valve rubber plate
75
Hold-down
76
Hexagon nut
190
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9, page 3
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Assembly unit 5 – Pressure valve Item
Name
68
Delivery side valve pin
69
Delivery side valve seat
70
Valve rubber plate
71
Hold-down
• Assembly unit 6 – Gearbox
7 Solutions
Item
Name
A
Assembly unit 1
B
Assembly unit 2
C
Assembly unit 3
5
Gearbox housing
6
Bearing cover, closed
7
Gearbox cover
9
Oil splash guard
10
Packing gland seal
11
Bearing cover seal
12
Oil stripper
13
Oil plug
14
Duo-piston
17
Hexagon nut
18
Spring ring
19
Hexagon screw
21, 22
Angled oiler with nut and seal
4, 23
Bearing cover, open, with radial shaft seal
191
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9, page 4
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
• Assembly unit 7 – Pump housing
7 Solutions
Item
Name
D
Assembly unit 4
E
Assembly unit 5
40
Cylinder cover
41
Air chamber
42, 58
Water plug with seal
43
Air chamber stud bolt
54
Air chamber seal
59
Valve seat seal
60
Hexagon screws
61
Hexagon screws
62
Seal
45, 63
Cap nut with washer
46, 77
Drain plug with seal
47, 65
Membrane safety valve with seal
48
Straight flange G1“
49, 64
Poppet valve body with seal
50
Valve bridge
51
Cylinder cover seal
52, 53
Hexagon nut with washer
192
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9, page 5
2. When you have put together the various assembly units, the next step is to assemble the pump. You should carry out this phase and represent it in a structure corresponding to the pattern shown.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Set out the identified assembly phases through to the complete pump.
Gearing
Parts x, y, ...
Parts x, y, ...
Piston pump
7 Solutions
193
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 9, page 6 Procedure for assembling the piston pump Gearbox (assembly unit 6)
Pump housing (assembly unit 7)
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Hexagon nut with washer (item 85, 86) Disk spring (item 15) V-belt pulley with hexagon screw (item 83, 87) Rocker shaft (item 78) Motor clamp rail left and right (item 81, 82) Hexagon screw item 87 Rocker shaft with gearbox (item 79) Hexagon screw with hexagon nut (item 84, 85)
Piston pump
7 Solutions
194
10/2008
MT 184
7.11
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 10: Piston replacement, page 1 Objective: Planning and execution of piston replacement on a piston pump. Exercise: 1. Your task is to replace the piston on a piston pump.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Set out your method in the pre-compiled work plan. Use the drawings.
7 Solutions
195
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 10, page 2
Work plan Name: Piston pump – Piston replacement Date:
Carried out by:
Order no.:
Date:
Proced ure
Procedure
Tools
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Dismantling 1
Unscrew hexagon nut and washer (85, 86) from stud bolts and detach packing gland (assembly unit 3) from pump
Wrench size 13
2
Unscrew hexagon nut (85) from stud bolts
Wrench size 13
3
Pull pump housing (assembly unit 7) from gearbox (assembly unit 6). Carefully guide piston out of cylinder pipe when doing so
4
Unscrew hexagon nut with spring ring (17, 18) from duo- Wrench size 13 piston (14)
5
Pull duo-piston from piston rod (27)
Assembly 6
Fit duo-piston onto piston rod
7
Screw hexagon nut with spring ring (17, 18) against duo- Wrench size 13 piston
8
Grease piston Place pump housing (assembly unit 7) against gearbox (assembly unit 6). Carefully guide piston into cylinder pipe when doing so
9
Screw together pump housing and gearbox with hexagon nut (85) and pre-assembled stud bolts
Wrench size 13
10
Fit packing gland (assembly unit 3) with hexagon nut and washer (85, 86) on stud bolts
Wrench size 13
Estimated time required: 20 min
7 Solutions
196
10/2008
MT 184
7.12
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 11: Parts identification using the parts drawing, familiarisation with technical terms, page 1 Objective: To assign items from a spare parts list to a spare parts drawing. Exercise: You are given a spare parts drawing on which the item numbers have not yet been entered. Refer to the supplied spare parts list.
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Enter the item numbers from the 1st column of the spare parts list in the fields in the spare parts drawing.
7 Solutions
197
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
83, 87
81, 82
79, 80
84, 85
87
79, 80
85, 86
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
8
Worksheet 11, page 2
Fig. 7.4
7 Solutions
Spare parts drawing for the piston pump
198
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 11, page 3 11 19
4, 23
6 3 - 15
22 All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
21
16
7 1 30,31 24 25 5 26 28 13
29
9
27 12
32 2 33 18 17
35 34
14
10 20 8
Fig. 7.5
7 Solutions
Spare parts drawings for the gearbox
199
57
42 58
Fig. 7.6
7 Solutions 44
60
36
64
51 38 49 37
40
43
59
70
71
54 68
39
50, 52, 53
41
69
67 47
73 74
72
62
48
47
75 46, 77 76
65
61
MT 184
63
45
58 66
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
10/2008
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 11, page 4
Spare parts drawings for the pump housing
200
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Worksheet 11, page 5 Item
Quanti ty
Unit
Name
Item number / Standard
1
1
Piece
Connecting rod
MT184.10.04.001
2
1
Piece
Packing gland housing
MT184.10.05.002
3
1
Piece
Crankshaft
MT184.10.03.001
4
1
Piece
Bearing cover, open
MT184.10.10.001
5
1
Piece
Gearbox housing
MT184.10.09.001
EN-GJL-200
6
1
Piece
Bearing cover, closed
MT184.10.09.002
EN-GJL-200
7
1
Piece
Gearbox cover
MT184.10.09.003
DOC04
8
1
Piece
Base plate
MT184.10.09.004
S235JR
9
1
Piece
Oil splash guard
MT184.10.09.005
DOC04
10
1
Piece
Packing gland seal
MT184.10.09.006
SBR/B-870M
11
2
Piece
Bearing cover seal
MT184.10.09.007
SBR/B-870M
12
1
Piece
Oil stripper
MT184.10.09.008
60NBR693 SW
13
1
Piece
Oil plug
MT184.10.09.009
CuZn39Pb3
14
1
Piece
Duo-piston
PM10
Simirit
15
1
Piece
Disk spring
DIN 6888-5x7,5
16
8
Piece
Hexagon nut
ISO 4032-M6
8
17
2
Piece
Hexagon nut
ISO 4032-M8
8
18
1
Piece
Spring ring
DIN 127-A-8
A2
19
6
Piece
Hexagon screw
ISO 4017-M6x12
8.8
20
4
Piece
Rubber buffer
500029
GMT
21
2
Piece
Seal
DIN 7603-A10x13,5x2
PVC
22
2
Piece
Angled oiler with nut
G1/8
Spike
23
1
Piece
Radial shaft seal
DIN 3760-A16x35x7
NBR
24
2
Piece
Grooved ball bearing
DIN 625-6202
25
1
Piece
Grooved ball bearing
DIN 625-6203
Tab. 7.2
7 Solutions
Comments
Spare parts list
201
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Worksheet 11, page 6 Item
Quanti ty
Unit
Name
Item number / Standard
Comments
26
1
Piece
Crosshead
MT184.10.04.002
EN-GJL-200
27
1
Piece
Piston Rod
MT184.10.04.003
X14CrMoS17
28
1
Piece
Straight pin
ISO 8734-12x35
C1
29
1
Piece
Hexagon nut
ISO 4032-M8
8-A2
30
1
Piece
Hexagon screw
ISO 4017-M6x25
8.8
31
1
Piece
Hexagon nut
ISO 4032-M6
8-A2
32
1
Piece
Packing gland screws
MT184.10.05.002
CuZn39Pb3
33
1
Piece
Brass washer
MT184.10.05.003
CuZn37F30
34
1
Piece
Gland packing
00.2251
Spike
35
1
Piece
Lip seal
ISO 4032-M8
A2-70
36
1
Piece
Lock nut
MT184.10.09.002
CuZn39Pb2
37
1
Piece
Knurled screw
MT184.10.08.003
CuZn39Pb3
38
1
Piece
Cap
MT184.10.08.004
NBR
39
1
Piece
Pump housing
MT184.10.06.001
EN-GJL-200
40
1
Piece
Cylinder cover
MT184.10.06.002
EN-GJL-200
41
1
Piece
Air chamber
MT184.10.06.003
EN-GJL-200
42
1
Piece
Water plug
MT184.10.06.004
CuZn39Pb2
43
1
Piece
Air chamber stud bolt
MT184.10.06.005
9SMn28K
44
1
Piece
Cylinder pipe
MT184.10.06.006
X6CrNi18-10
45
1
Piece
Cap nut
DIN 1587-M12
CuZn39Pb3
46
1
Piece
Drain plug
MT184.10.06.007
CuZn39Pb2
47
1
Piece
Membrane safety valve
SV.01-065.7,5 F3000.4
Spike
48
2
Piece
Straight flange G1“
MT184.10.06.010
EN-GJL-200
49
1
Piece
Poppet valve body
MT184.10.08.001
50
2
Piece
Valve bridge
MT184.10.06.008
Tab. 7.3
7 Solutions
X14CrMoS17
Spare parts list
202
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Worksheet 11, page 7 Item
Quanti ty
Unit
Name
Item number / Standard
Comments
51
1
Piece
Cylinder cover seal
MT184.10.06.009
SBR/B-870M
52
2
Piece
Flat washer
ISO 7089 -8
8-A2
53
2
Piece
Hexagon nut
ISO 4032-M8
8-A2
54
1
Piece
Air chamber seal
MT184.10.06.011
SBR/B-870M
55
2
Piece
Seal
DIN 7603-A10x13,5x2
PVC
56
2
Piece
Stud bolt
MT184.10.06.012
X17CrNi16-2
57
2
Piece
Stud bolt
MT184.10.06.013
X17CrNi16-2
58
2
Piece
Seal
DIN 7603-A13x18x1,5
PVC
59
4
Piece
Valve seat seal
MT184.10.06.014
SBR/B-870M
60
3
Piece
Hexagon screw
ISO 4017-M6x16
8.8-A2
61
3
Piece
Hexagon screw
ISO 4017-M8x25
8.8-A2
62
2
Piece
Seal
MT184.10.06.015
SBR/B-870M
63
1
Piece
Plain washer
MT184.10.06.016
X17CrNi16-2
64
1
Piece
Seal
DIN 7603-A13x18x1,5
PVC
65
1
Piece
Seal
DIN 7603-A39x49x2
EPDM
66
1
Piece
Valve seat
MT184.10.07.001
CuZn40Al2
67
1
Piece
Seal in valve seat
MT184.10.07.002
80 NBR 180
68
1
Piece
Delivery side valve pin
MT184.10.01.001
CuZn39Pb3
69
1
Piece
Delivery side valve seat
Mt184.10.01.002
CuZn39Pb3
70
1
Piece
Valve rubber plate
MT184.10.01.003
NBR-45° Shore A
71
1
Piece
Hold-down
MT184.10.01.004
CuZn39Pb3
72
1
Piece
Intake side valve pin
MT184.10.02.001
CuZn39Pb3
73
1
Piece
Intake side valve seat
MT184.10.02.002
CuZn39Pb3
Tab. 7.4
7 Solutions
Spare parts list
203
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Worksheet 11, page 8 Item
Quanti ty
Unit
Name
Item number / Standard
Comments
74
1
Piece
Valve rubber plate
MT184.10.01.003
NBR-45° Shore A
75
1
Piece
Hold-down
MT184.10.01.004
CuZn39Pb3
76
1
Piece
Hexagon nut
ISO 10511.M6
A2
77
1
Piece
Drain plug
MT184.10.06.007
CuZn39Pb2
78
1
Piece
Rocker shaft
MT184.10.00.001
X14CrMoS17
79
1
Piece
Rocker shaft with thread
MT184.10.00.002
X14CrMoS17
80
4
Piece
Insulating bush
MT184.10.00.003
GP-22
81
1
Piece
Motor clamp rail left
MT184.10.00.004
EN-GJL-200
82
1
Piece
Motor clamp rail right
MT184.10.00.005
EN-GJL-200
83
1
Piece
V-belt pulley
MT184.10.00.006
EN-GJL-200
84
1
Piece
Hexagon screw
ISO 4017-M8x25
8.8
85
5
Piece
Hexagon nut
ISO 4032-M8
8
86
2
Piece
Flat washer
ISO 7089-A-8
140 HV
87
3
Piece
Hexagon screw
ISO 4017-M6x-10
8.8
88
1
Piece
Valve housing complete
MT184.00.06.000
89
1
Piece
Crankcase complete
MT184.00.09.000
90
1
Piece
Intake valve complete
MT184.00.01.000
91
1
Piece
Pressure valve complete
MT184.00.02.000
92
1
Piece
Valve seat
MT184.00.07.000
Tab. 7.5
7 Solutions
Spare parts list
204
10/2008
MT 184
7.13
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Worksheet 12: Spare parts ordering, page 1 Objective: To place a technically unambiguous spare parts order.
Exercise: You are going to carry out a repair, and need replacement parts for your piston pump. All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Select three parts and make a spare parts order. Use the documents provided.
Spare parts order for pump: Type:
PM 10
Serial no.:
Parts:
7 Solutions
1x
duo-piston
Item 14
4x
valve rubber plate
Item 70
1 set of
gland packs
Item 34
205
10/2008
MT 184
8
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Index
A
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Assembly phase 1 – Crankshaft . . . . . . . . . . . . . . . . . . . . . . . . . . 60, 120 Assembly phase 2 – Connecting rod with piston rod . . . . . . . . . . 65, 119 Assembly phase 3 – Packing gland . . . . . . . . . . . . . . . . . . . . . . . 69, 118 Assembly phase 4 – Intake valve . . . . . . . . . . . . . . . . . . . . . . . . . 73, 117 Assembly phase 5 – Pressure valve . . . . . . . . . . . . . . . . . . . . . . . 77, 116 Assembly phase 6 – Gearbox . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81, 113 Assembly phase 7 – Pump housing . . . . . . . . . . . . . . . . . . . . . . . 91, 110 Assembly phase 8 – Pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100, 107 C Cavitation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 Centrifugal pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6, 8, 29 Centrifugal pump, multi-stage . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6, 9, 29 Characteristic curve, pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Characteristic curve, system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 D Diaphragm pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5, 11, 30 Dynamic seals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 F Floating ring seal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 G Gear pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5, 14, 32 H Head . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 I Inline centrifugal pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6, 13, 31 Inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Intake characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
8 Index
206
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
M Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Multi-flow pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Multiple-stage pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Multi-stage centrifugal pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6, 9, 29 O Operating point . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
P Packing gland . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37 Parallel configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Piston pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5, 12, 31, 46, 59 Piston pump dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51 Piston pump spare parts drawing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52 Piston pump spare parts list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55 Piston rod seal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36, 41 Piston seal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42 Positive-displacement pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5, 14 Pump characteristic curve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Pump, multi-flow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Pump, multi-stage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 R Repairs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23, 34 Restriction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 S Screw pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5, 10, 30 Seals, dynamic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 Seals, floating ring seal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39 Seals, packing gland . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37, 49 Seals, static . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 Series configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Servicing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Spare parts ordering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 Standard centrifugal pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Static seals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 System characteristic curve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
8 Index
207
10/2008
MT 184
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
T Technical data of piston pump . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 V
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
Valves in pumps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 43
8 Index
208
10/2008
MT 184
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
9
9 Drawings
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Drawings Name
Drawing number
Layout
MT184.00.00.000
Spare parts list
MT184.00.00.000
Piston pump – Drawing
MT184.00.00.000
Piston pump – Parts list
MT184.00.00.000
Pressure valve, complete – Drawing
MT184.00.01.000
Pressure valve, complete – Parts list
MT184.00.01.000
Intake valve, complete – Drawing
MT184.00.02.000
Intake valve, complete – Parts list
MT184.00.02.000
Crankshaft with bearing – Drawing
MT184.00.03.000
Crankshaft with bearing – Parts list
MT184.00.03.000
Connecting rod with piston – Drawing
MT184.00.04.000
Connecting rod with piston – Parts list
MT184.00.04.000
Packing gland complete – Drawing
MT184.00.05.000
Packing gland complete – Parts list
MT184.00.05.000
Valve housing complete – Drawing
MT184.00.06.000
Valve housing complete – Parts list
MT184.00.06.000
Seat valve – Drawing
MT184.00.07.000
Seat valve – Parts list
MT184.00.07.000
Poppet valve – Drawing
MT184.00.08.000
Poppet valve – Parts list
MT184.00.08.000
Crankcase, complete – Drawing
MT184.00.09.000
Crankcase, complete – Parts list
MT184.00.09.000
Flange with seal – Drawing
MT184.00.10.000
Flange with seal – Parts list
MT184.00.10.000
Rocker shaft
MT184.10.00.001
Rocker shaft with thread
MT184.10.00.002
Insulating bush for motor rockers
MT184.10.00.003
209
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
9 Drawings
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Name
Drawing number
Motor clamp rail left
MT184.10.00.004
Motor clamp rail right
MT184.10.00.005
Pump V-belt rail
MT184.10.00.006
Delivery side valve pin
MT184.10.01.001
Delivery side valve seat
MT184.10.01.002
Valve rubber plate
MT184.10.01.003
Hold-down
MT184.10.01.004
Intake side valve pin
MT184.10.02.001
Crankshaft
MT184.10.03.001
Connecting rod
MT184.10.04.001
Crosshead
MT184.10.04.002
Piston Rod
MT184.10.04.003
Packing gland housing
MT184.10.05.001
Packing gland screw
MT184.10.05.002
Brass washer
MT184.10.05.003
Valve housing
MT184.10.06.001
Cylinder cover
MT184.10.06.002
Air chamber
MT184.10.06.003
Water plug
MT184.10.06.004
Air chamber stud bolt
MT184.10.06.005
Cylinder pipe
MT184.10.06.006
Oil plug
MT184.10.06.007
Valve bridge
MT184.10.06.008
Cylinder cover seal
MT184.10.06.009
Straight flange G1“
MT184.10.06.010
Air chamber seal
MT184.10.06.011
Stud bolt
MT184.10.06.012
Stud bolt
MT184.10.06.013
210
10/2008
All rights reserved, G.U.N.T. Gerätebau, Barsbüttel, Germany 10/2008
MT 184
9 Drawings
ASSEMBLY AND MAINTENANCE EXERCISE: PISTON PUMP
Name
Drawing number
Valve seat seal
MT184.10.06.014
Flange seal
MT184.10.06.015
Plain washer
MT184.10.06.016
Valve seat
MT184.10.07.001
Seal in safety valve seat
MT184.10.07.002
Poppet valve body
MT184.10.08.001
Lock nut for poppet valve
MT184.10.08.002
Knurled screw for poppet valve
MT184.10.08.003
Cap
MT184.10.08.004
Drive frame
MT184.10.09.001
Bearing cover, closed
MT184.10.09.002
Gearbox cover
MT184.10.09.003
Base plate
MT184.10.09.004
Oil splash guard
MT184.10.09.005
Seal for packing gland
MT184.10.09.006
Bearing cover seal
MT184.10.09.007
Oil stripper
MT184.10.09.008
Oil plug without thread
MT184.10.09.009
Bearing cover, open
MT184.10.10.001
211
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