AA SPEC 371001

 AA SPECIFICATION CONVEYOR PULLEYS AND SHAFTS

371001 ISSUE 0 COPYRIGHT

1

SCOPE

2

2

TECHNICAL REQUIREMENTS REQUIREMENTS TO BE SPECIFIED BY THE PURCHASER

2

3

DEFINITIONS

2

4

REQUIREMENTS

3

4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 4.10 4.11 4.12

DESIGN AND DIMENSIONS HUBS AND END DISKS SHAFT A TTACHMENTS TTACHMENTS PULLEY SHELLS SHAFTS B EARINGS AND MOUNTINGS SHELL CROWNING WELDING STRESS RELIEVING AND NORMALISING L AGGING B AL ANCING CORROSION PROTECTION

3 5 5 6 6 8 9 9 10 10 12 12

5

QUALITY QUAL ITY ASSURANCE PROVISION

12

6

TEST AND INSPECTION METHODS

12

6.1

NON DESTRUCTIVE TESTING

12

7

MARKING AND PACKING

12

7.1 7.2

M ARK ING P ACK ING

12 12

 APPENDIX A : RELATED RELA TED DOCUMENTS DOCUMENTS

13

 APPENDIX B : RECORD OF AMENDMENTS

13

 APPENDIX C : B EARING CODING

14

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 AA SPECIFICATION CONVEYOR PULLEYS AND SHAFTS

371001 ISSUE 0 COPYRIGHT

1

SCOPE This specification details the requirements for the manufacture of belt conveyor pulleys and shafts. These pulleys are suitable for both general purpose textile reinforced belting and steel cord reinforced belting.

2

TECHNICAL REQUIREMENTS REQUIREMENTS TO BE SPECIFIED BY THE PURCHASER The following requirements shall be specified in tender invitation and in orders or contracts:

3



Title, reference number, issue and date of this specification.



Title(s) issue(s) and date(s) of applicable drawing(s).



Diameter, face length and hub bore of pulley and if pulley is crowned (see Clauses 4.1 and 4.6.1).



Type of lagging if required (see Clause 4.9).



The bearing code (see Appendix C)



Bearing centres of shafts. (see Clause 4.1)



Type of shaft attachment. (see Clause 4.2.1 and 4.2.2)



The name of the independent Quality Assurance Representative. (see AA STD 100)

DEFINITIONS For the purpose of this specification the following definitions shall apply:  APPROVED  APPROVED

:

Approved by the the Engineer in writing

BS

:

British Standard

DEFECTIVE

:

A pulley or shaft that fails to comply in one or more respects with the requirements of this specification

PURCHASER PURCHASER

:

The Company or store designated as the recipient of finished products or services

QUALITY ASSURANCE REPRESENTATIVE (QAR)

:

An independent inspection agency appointed approved by the Engineer

SANS

:

South African National Standards

STD

:

An AA Quality Assurance Procedure

and

The following terms are defined in the Conditions of Contract: 

AA, Engineer, Company, Contractor.

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 AA SPECIFICATION

371001 ISSUE 0

CONVEYOR PULLEYS AND SHAFTS

COPYRIGHT 4

REQUIREMENTS

4.1

DESIGN AND DIMENSIONS The design and dimensions of pulleys and shafts shall be in accordance with the requirements of Figure 1 and Table 1 below. In addition, when a pulley is not designed by finite element analysis the dimensions in Table 2 shall apply. When a pulley is designed by finite element analysis the Engineer shall approve the analysis, pulley dimensions and manufacturing details. The minimum shell thickness in Table 2 shall apply. The stress range in weld toes shall not exceed the values for infinite life given in BS 7608 Fatigue Design and Assessment of Steel Structures. Structures .

4.1.1

Standard Standard dimensions Standard pulley dimensions are as follows: B or C

B  A G

G

E

W

E

D

F

D

W D

F

D

Wide Bearing Centres

Narrow Narrow Bearing Centres

Note: Dimension A is to the inside of the chute liners.

To be used at all locations where chutes are not required. Figure 1

Legend: D E G

Pulley face to centre-line of bearing housing Pulley face to belt edge Pulley face to inside chute plate

Note: If the required shaft diameter exceeds the allowable shaft diameter then use wide bearing centres.

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 AA SPECIFICATION

371001 ISSUE 0

CONVEYOR PULLEYS AND SHAFTS

COPYRIGHT 4.1.2

Table 1 - Standard Standard Pull ey Dimensio ns Belt width (mm)

4.1.3

Face width (mm)

Chute plates I/S (mm)

Bearing Bearing centres centres (mm) Wide

Narrow

W

F

A

B

C

450 500 600 750 900 1050 1200 1350 1500 1650 1800 2100 2400

550 600 700 900 1050 1200 1350 1500 1700 1850 2000 2300 2600

650 700 800 1000 1150 1300 1450 1600 1850 2000 2150 2450 2750

1000 1050 1150 1350 1550 1700 1850 2050 2300 2450 2600 2900 3200

760 810 1020 1170 1370 1520 1680 1830 1980 -

Max. allowable shaft ø (mm) 115 115 140 140 140 140 140 140 140 -

Clearances Clearances fo r wide centr es. (mm)

D

E

G

225 225 225 225 250 250 250 275 300 300 300 300 300

50 50 50 75 75 75 75 75 100 100 100 100 100

50 50 50 50 50 50 50 50 75 75 75 75 75

Table Table 2 - Standard Standard Pulleys: Additi onal Information Shaft Diameter at locking element

Type of End disk

End disk inset

Minimum Shell Thickness

Min Hub Diameter

End Disk Thickness  At Hub

 At Shell

50

30

14

134

25

14

65

30

14

164

25

14

75

30

14

194

30

14

90

30

18

220

30

18

30

18

260

32

18

30

18

296

32

18

30

18

316

40

18

140

30

22

320

40

22

150

30

22

350

40

22

160

30

22

376

40

22

180

35

22

360

50

22

100 120 130

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 AA SPECIFICATION

371001

CONVEYOR PULLEYS AND SHAFTS

ISSUE 0 COPYRIGHT

200

35

25

420

50

25

220

38

25

454

101

25

38

25

550

101

25

38

25

580

101

25

38

25

644

101

25

38

25

656

101

25

240 260 280

  m   o    t    t   o    B      T

300 NOTE:

4.2

1.

The minimum hub diameter is based on material with a yield stress of 0,2 = 280 MPa for turbine end disks and 0,2 = 270 MPa for T-bottom end disks.

2.

The table is further based on Bikon 1006 (and equivalent) locking elements for turbine end disks and Bikon 1015 (and equivalent) locking elements for T-bottom end disks. Other locking devices may be submitted for consideration by the Engineer, in order to maintain best practice.

HUBS AND END DISKS Hubs and end disks shall be manufactured from steel to SANS 1431 grade 300 WA, or 350 WA, or BS 970 Part 1 grade 070M20, or cast to BS 3100 grade A2. All hubs and end disks shall be tested prior to assembly in accordance with the method detailed in Clause 7.1. Cracks, inclusions, blow-holes and laminations shall be cause for rejection. Suppliers of cast hubs shall be approved. Note that cast hubs are to be considered only for pulleys with shafts greater than 200 mm.

4.3

SHAFT A TTACHMENTS TTACHMENTS Pulley shaft-to-hub attachments shall be by means of keyless locking elements. The elements shall be so chosen as to be capable of transmitting the maximum torque that can be developed by the pulley shaft.

4.3.1

When a pulley is designed by finite element analysis the calculated bending moment applied to the locking element under start-up loads, and the angular distortion of the locking element under start-up loads, must not exceed the recommendations of the locking element suppliers.

4.3.2

Shrink fit shaft attachment: While the preference is to use keyless locking elements as shaft attachments, when shrink fit shaft attachments are specified, shafts and bosses shall be machined to BS 4500 and shall be a shaft based interference fit. Note that shrink-fit attachments will require the approval of the Engineer.

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 AA SPECIFICATION

371001 ISSUE 0

CONVEYOR PULLEYS AND SHAFTS

COPYRIGHT 4.4

PULLEY SHELLS

4.4.1

Pulley shells shall be manufactured from steel that complies with the requirements of SANS 1431 grade 300 WA or 350 WA.

4.4.2

The shell shall be machined to be concentric with with the shaft within the Total Indicated Runout permitted in SANS 1669-1.

4.4.3

The tolerance on the pulley diameter shall be + 2,0 mm. This tolerance shall be applied to both bare and lagged pulleys.

4.4.4

For pulleys with face width suitable for belt widths up to and including 900 mm, the tolerance on the face width shall be ±3,0 mm. For pulleys with face width suitable for belt width greater than 900 mm, the tolerance on the face width shall be ±6,0 mm.

4.4.5

The shell shall have a minimum thickness after machining as indicated in Table 2. Deviation from the minimum shell thickness after machining shall not exceed 12% of the nominal thickness at any point on the shell.

4.4.6

The preferred shell diameters shall be limited to the range given in Table 3.

4.4.7

Other shell diameters may be submitted for consideration by the Engineer. Table 3 - Standard Standard pu lleys : Shell Diameter

4.5

160

630

1250

200

710

1400

250

800

1600

315

900

1800

400

1000

2000

500

1120

SHAFTS Table 4 - Preferred Preferred Bearing Jou rnal Sizes 50

115

180

260

65

125

190

280

75

140

200

300

90

150

220

100

160

240

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 AA SPECIFICATION

371001 ISSUE 0

CONVEYOR PULLEYS AND SHAFTS

COPYRIGHT 4.5.1

Shafts shall be manufactured from steel that complies with the requirements of BS 970 Part 1 grade 070M20 (EN3A). Shafting of finished diameter less than 130 mm may be supplied as bright shafting. Shafting of finished diameter 130 mm and greater shall be normalised. Steel conforming to grade 080M40 (EN8) and 070M55 (EN9) is not to be used unless approved by the Engineer.

4.5.2

Shafts shall be sized so that at all points the stresses do not exceed 90% of the yield yield stress under start-up belt tensions and drive torques.

4.5.3

All contact surfaces for hub connections, bearings, seals and couplings shall be machined round to a surface texture not rougher than R0,8 m. Undercuts, reliefs and grooves are not permitted.

4.5.4

The bearing diameter shall be restricted to the range shown in Table 4. Where bearing  journals are a re smaller smal ler in diameter than that th at at the locking element, the shoulder shou lder at the turntur ndown shall be provided with a fillet, with a radius figured at r  

3( D  d ) 2

or

r = (0,1·d), whichever is the greater. Here, D

=

major (base) diameter

d

=

minor (journal) diameter

4.5.5

Where the bore of the coupling, shaft mounted reduction unit or holdback is smaller than the journal diameter of the shaft, the shoulder at the turn-down shall be provided with a fillet in accordance with 5.1.4 above.

4.5.6

When a pulley is not designed by finite element analysis the following rules shall be applied, with the shaft loaded by the shear forces applied by the end discs, but ignoring the moments applied by the discs: The maximum allowable deflection of the shaft at the centre of the hub connection shall be designed at 14,5 milli-radians ( 0°-5’-0”), in accordance with the suppliers recommendations. These deflection limits are based on the locking element types noted in 4.1.3 Note 2 above. Limits for other locking devices may be submitted for consideration by the Engineer, in order to maintain best practice. When the proposed design incorporates a reduction in shaft diameter, the stress factors shall be applied to ensure that the stresses at these points do not exceed 55 MPa. All external corners shall be chamfered to 3 mm at 45°.

4.5.7

When a pulley is designed by finite element analysis the following rules shall be applied: The minimum shaft diameter shall be calculated using the CEMA formula using the running loads and torque. The bending moment on the locking element must also not exceed the manufacturer’s maximum allowable bending moment under start-up loads (see 4.3.1). This may require a different diameter. The maximum of these diameters shall be used, and rounded up to the next standard diameter in Table 2.

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 AA SPECIFICATION CONVEYOR PULLEYS AND SHAFTS

371001 ISSUE 0 COPYRIGHT

When the design incorporates a reduction in shaft diameter the reduced diameter shall be determined by the CEMA shaft formula, with the shaft step down concentration factors taken into account. This diameter is to be rounded up to the next standard diameter in Table 4. 4.5.8

Flame spraying plating, welding, stray arcing and weld spatter on shafts is not permitted.

4.5.9

Keys and Keyways: keys and keyways shall comply with the requirements of BS 4235, Part 1.

4.5.10

When shrink-fit shaft attachments are used, the keys shall not protrude beyond the outer hub face. Keys and keyways for shaft extensions beyond the bearings shall be provided to suit the attachments required for the application. See paragraph 4.3.2

4.6

B EARINGS AND MOUNTINGS

4.6.1

Bearings shall comply with the boundary dimension requirements of ISO:R15 for radial bearings and shall be referenced by the Purchaser with the relevant AA code (Appendix C).

4.6.2

Bearings shall be of the double row, self-aligning, spherical roller type 222 series for shafts up to and including 140 mm diameter and the 231 series for shafts greater than 140 mm diameter. Bearings shall be designed for a life of 100 000 hours B10.

4.6.3

Lubrication shall be through a circumferential groove and three equally spaced holes in the outer race. The lubricant shall be grease type GPG-2LXEP in accordance with the requirements of AA standard specification 166014.

4.6.4

In all cases, the reference to bearing centres shall be construed as the centre of the bearing housing holding down bolts, where these differ from the actual centre-line of the bearing inside the housing. This normally applies to bearings in housings for shafts in excess of 140 mm. The pulley manufacturer shall therefore mount the bearings on the shafts in such a way that this requirement is satisfied.

4.6.5

Bearing housings: shall be of the horizontally split type in accordance with the requirements of BS 5646 Part 4. Adequate sealing arrangements shall be provided.

4.6.6

Lubrication shall shall be facilitated by type 21A button head grease nipples in accordance with the requirements of BS 1486 Part 2.

4.6.7

Bearing sole plates shall be in accordance with the requirements of AA standard drawing number Y1315.

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 AA SPECIFICATION

371001 ISSUE 0

CONVEYOR PULLEYS AND SHAFTS

COPYRIGHT 4.7

SHELL CROWNING

4.7.1

Crowning. (see Clause 2.3). If required, crowning shall be arranged either as

4.7.1.1 Edge-crowning, where the outer 1/6 of the pulley face width is tapered at a slope of 1:50, with the centre 2/3 flat. The dimension at the pulley centre shall be the nominal diameter of the pulley. The original material thickness of shell shall be sufficient to allow for machining to end thickness dimensions as specified in Table 2. or

4.7.1.2 Centre-crowning, where the face of the pulley is tapered at a slope of 1 : 100 with the minor diameter at the ends of the pulley face. The dimension at the pulley edge shall be the nominal diameter of the pulley. The original material thickness of shell shall be sufficient to allow for machining to end thickness dimensions as specified in Table 2. 4.7.1.3 Crowning of pulleys for use with steelcord reinforced belting is generally not preferred. See SANS 1669:1996

4.8

WELDING

4.8.1

Welding: All welds shall comply with the requirements of AWS D1.1.

4.8.2

Weld procedures shall be submitted for approval at time of tender.

4.8.3

Weld quality: Butt and fillet welds shall have complete penetration and fusion for the full length of the weld and shall be free from undercuts, overlaps or bead surface defects. Finished welds shall be free of cracks, porosity and inclusions.

4.8.4

Weld joint preparation. All weld joint preparation shall be available for inspection by the Quality Assurance Representative before welding is commenced. The weld preparation for butt welding may be modified within the limits AWS D1.1 in order to achieve full penetration welds. Such modification shall be submitted for approval.

4.8.5

Shell butt weld method: The pulley shell butt joint shall be internally welded and shall be dressed to a smooth profile inside and outside the shell.

4.8.6

Air vent  A 4 mm diameter air vent hole shall be provided for pulleys having either shrink fit or keyless locking element shaft attachments in order to prevent 'blow-back' on final seal run and distortion on vulcanising of lagging (if used). The hole shall be located outside of the heat affected zone of the disk-to shell weld. This hole shall be sealed with a 4 mm diameter parallel dowel pin to DIN 6325 of a length not less than the diaphragm thickness.

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 AA SPECIFICATION CONVEYOR PULLEYS AND SHAFTS

371001 ISSUE 0 COPYRIGHT

4.9

STRESS RELIEVING AND NORMALISING NOTE 1.

Details of heat treatment furnaces and recording devices shall be submitted for approval.

2.

The furnace atmosphere shall be so controlled as to avoid oxidation during the heating and soaking periods. There shall be no direct flame on the treated article.

4.9.1

Stress relieving of pulleys shall be at a temperature of 600/650°C and the heating and cooling cycles shall be as specified in Clauses 4.8.3 and 4.8.4.

4.9.2

Normalising of shafts shall be at a temperature of 880/910°C and the heating and cooling cycles shall be as specified in Clauses 4.8.3 and 4.8.5.

4.9.3

Heating cycle: The temperature of the furnace at the commencement of the treatment cycle shall not exceed 400°C and the rate of increase in temperature above 400°C shall not exceed the following:

4.9.3.1 Not more than 200°C per hour for a thickness of diaphragm plate up to and including 25 mm. 4.9.3.2 Not more than

5000 t

  °C/ hour for a diaphragm plate over 25 mm in thickness where

t is the diaphragm thickness in mm. 4.9.3.3 When the item has attained a uniform temperature the temperature shall be maintained for a period of one hour for diaphragm thicknesses up to and including 25 mm. For diaphragms over 25 mm thick allow an additional 2 minutes for each mm in thickness above 25 mm. 4.9.4

Cooling cycle, stress relieving: The component shall be cooled in the furnace at a rate not exceeding 250°C per hour for thicknesses of diaphragm plate up to and including 25 mm.

4.9.4.1 For diaphragm plate thicknesses above 25 mm the cooling rate shall not exceed 6250 t

 °C /hour where t  is the diaphragm thickness in mm.

4.9.4.2 Components shall be removed from the furnace at a temperature of 250°C and cooled in still air. 4.9.5

Cooling cycle, cycle, normalising: Shafts shall be cooled in still air from the maximum temperature required in this specification.

4.10

L AGGING See also SANS 1669-2: 2005

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 AA SPECIFICATION

371001 ISSUE 0

CONVEYOR PULLEYS AND SHAFTS

COPYRIGHT 4.10.1

Lagging typ e and pattern The lagging pattern shall be one of the following as specified by the Purchaser.

4.10.2

(a)

Plain

Non drive bend pulleys.

(b)

Chevron

Direction of drive to be advised to the Contractor. Note this pattern is not preferred.

(c)

Diamond.

This pattern may be used on driver pulleys and non-drive pulleys where the contact angle exceeds ±150°

(d)

Ceramic tiles

both drive and non-drive. note that dimpled tiles are required for drive pulleys.

Lagging material material The lagging material shall be one of the following as specified by the Purchaser. (a)

Natural rubber having a Shore A hardness of 65° - 70° for non flame-retardant applications.

(b)

Neoprene having a Shore A hardness of 65° + 5° for flame-retarda nt applications.

The material shall comply with the requirements of AA specification 171001. Other lagging materials, such as ceramic tiles, may be submitted for consideration by the Engineer, in order to maintain best practice. 4.10.3

Lagging Thickness The lagging thickness shall be as specified by the Purchaser and shall be not less than 10mm in the case of chevron or diamond profiled lagging.

4.10.4

Surface Preparation The surfaces to be lagged shall be abrasive blast cleaned to SA 2½ finish with a surface profile of 40 to 65 microns in accordance with requirements of AA specification 164050.

4.10.5

Curing Lagging shall be steam cured in an autoclave in accordance with the requirements of SANS 1198. Where the lagging is applied on site, the adhesive curing times as specified by the suppliers shall be applied.

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 AA SPECIFICATION CONVEYOR PULLEYS AND SHAFTS

371001 ISSUE 0 COPYRIGHT

4.10.6  Ad hes io n  An adhesion test sh all be conducted on every batch of lagg ing material in accordance accorda nce with the requirements of SANS 1198 and SANS 1669t 2. Adhesive used shall be from the same batch as used for the lagging process.

4.11

B AL ANCING  All pulleys pulleys shall be balanced in accordance with with SANS 1169. Note: Welding of fitments to the end disks for balancing purposes is not permitted.

4.12

CORROSION PROTECTION Prior to painting, all rust, mill scale, grease, oil and other foreign matter shall be removed. The shell, when not lagged, the hubs and end disks and diaphragms shall be primed with one coat of single pack wash primer of not less than 20 m thickness and a single coat of chlorinated rubber, resin based paint of not less than 30 m thickness. thickness.

5

QUALITY QUAL ITY ASSURANCE ASSURA NCE PROVISION The quality management system shall comply with the requirements of SABS ISO 9001. The requirements of AA STD 100 shall apply.

6

TEST AND INSPECTION METHODS

6.1

NON DESTRUCTIVE TESTING The hubs and end disks, shell, and shaft shall be non-destructively (U/S and MPI) tested in accordance with the requirements of AA specification 999001 before assembly. Welded regions shall be re-tested after welding.

7

MARKING AND PACKING

7.1

M ARK ING The following data shall be clearly and permanently marked on both vertical faces of the shaft and on one end of the shell rim. No marking shall extend into a welded zone.

7.2



Contractor's name, trade name or trade mark.



Month and year of manufacture.



QAR's logo.



AA order number.

P ACK ING Immediately after acceptance by the QAR, all exposed shaft surfaces shall be protected against corrosion and accidental damage. Precautions shall be taken by the Contractor to ensure that the pulley assemblies are not damaged during handling and transportation.

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 AA SPECIFICATION

371001 ISSUE 0

CONVEYOR PULLEYS AND SHAFTS

COPYRIGHT

 APPENDIX A : REL ATED DOCUMENTS  AAC Drawing Y1315

:

Standard sole sole plates for conveyors (dimensions) (dimensions)

 AA Specification Specification 164/50 164/50

:

Corrosion protection protection of steelwork steelwork with coatings

 AA Specification Specification 171/1

:

Fire resistant resistant elastomers for for use underground underground in fiery mines mines

 AA Specification Specification 999/1

:

Non-destructive Non-destructive examination examination for flat steel steel components

 AA STD 100

:

Quality management management systems for for critical and major material material

BS 970 Part 1

:

Wrought steels for mechanical and allied engineering purposes.

BS 3100

:

Specification for steel castings for general engineering engineerin g purposes

BS 1486 Part 2

:

Heavy duty lubricating nipples

BS 4235

:

Metric keys and keyways

BS 4500

:

ISO limits and fits

 AWS/ANSI D1.1-2006

:

Structural welding code - Steel

BS 5646 Part 4

:

Specification Specification for plummer block housings

DIN 6325

:

Parallel pins, hardened, tolerance zone M6

SANS 1173

:

General purpose textile reinforced conveyor belting

SANS 1431

:

Weldable structural structura l steel

SANS 1198

:

The production and quality of rubber linings on steel pipes, pipe fittings and vessels

SANS 1669 parts 1&2

:

Conveyor Belt Pulleys

 APPENDIX B : RECORD OF A MENDMENTS Issue 0

:

Based upon AAC Specification 371001 (Issue 10)

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 AA SPECIFICATION

371001

CONVEYOR PULLEYS AND SHAFTS

ISSUE 0 COPYRIGHT

 APPENDIX C : BEA RING CODING Bearings listed on AA equipment schedules shall be coded as follows: xxx C/T L/F (S) (S) Where:

xxx is numeric and is the shaft diameter in mm. C/T is C/T is either C or T and T and indicates whether the housing is a closed end or through shaft. L/F is L/F is either L or F and F and indicates whether the bearing is located or floating. (S)  (S)  is either present or absent and indicates whether or not a flinger ring is required.

Example Code 90TL indicates a bearing unit to suit a shaft of 90 mm diameter with the shaft through the bearing and the bearing located in the housing. No flinger is required. The locating bearing is placed at the coupling side of a through shaft, with the non-driving end floating. Where the shaft has a double extension for a second drive, the locating bearing is placed to best suit the arrangement. For a shaft with a double extension for a holdback device, the locating bearing is placed at the coupling. Pulley shaft extensions For the range of bearings permitted by this specification, the values recommended for the extension of the pulley shaft through the bearings of housings with closed ends are as shown in Table 5. The dimensions shown are given from the centreline of the housing which may differ from that of the bearing. The centreline dimension indicated on the drawing generally is that of the housing or bolt hole centres. TABLE 5 Shaft dia

Bearing code

Ext

Shaft dia

Bearing code

Ext

2

50 CL or F

34

150

150 CL or F

70

65

65 CL or F

42

160

160 CL or F

72

75

75 CL or F

50

180

180 CL or F

88

90

90 CL or F

55

200

200 CL or F

92

100

100 CL or F

60

220

220 CL or F

100

115

115 CL or F

68

240

240 CL or F

108

125

125 CL or F

72

260

260 CL or F

108

140

140 CL or F

85

300

300 CL or F

130

 AA_SPEC_371001.doc

APPROVED

22 March 2007

Page 14 of 14

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