CBLM_Installing Framing Works

July 26, 2017 | Author: Glenn F. Salandanan | Category: Framing (Construction), Lumber, Woodworking, Structural Engineering, Building Materials
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COMPETENCY-BASED LEARNING MATERIAL

Sector:

CONSTRUCTION

Qualification Title:

CARPENTRY NC II

Unit of Competency:

INSTALL FRAMING WORKS

Module Title:

INSTALLING FRAMING WORKS

Technical Education and Skills Development Authority Jacobo Z. Gonzales Memorial School of Arts and Trades San Antonio, Biñan City

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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HOW TO USE THIS COMPETENCY BASED LEARNING MATERIAL Welcome to the module in installing framing works. This module contains training materials and activities for you to complete. You are required to go through a series of learning activities in order to complete each learning outcome of the module. In each learning outcome are Information Sheets, Self-Checks, Operation Sheets and Job Sheets. Follow these activities on your own. If you have questions, don't hesitate to ask your facilitator for assistance. The goal of this course is the development of practical skills. To gain these skills, you must learn basic concepts and terminology. For the most part, you'll get this information from the Information Sheets and multimedia materials This module was prepared to help you achieve the required competency, in "Installing Framing Works". This will be the source of information for you to acquire knowledge and skills in this particular competency independently and at your own pace, with minimum supervision or help from your instructor. Remember to: Work through all the information and complete the activities in each section. Read information sheets and complete the self-check. Suggested references are included to supplement the materials provided in this module. Most probably your trainer will also be your supervisor or manager. He/she is there to support you and show you the correct way to do things. You will be given plenty of opportunity to ask questions and practice on the job. Make sure you practice your new skills during regular work shifts. This way you will improve both your speed and memory and also your confidence. Use the Self-checks, Operation Sheets or Job Sheets at the end of each section to test your own progress. When you feel confident that you have had sufficient practice, ask your Trainer to evaluate you. The results of your assessment will be recorded in your Progress Chart and Accomplishment Chart.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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UNIT OF COMPETENCY

:

INSTALL FRAMING WORKS

MODULE TITLE

:

INSTALLING FRAMING WORKS

MODULE DESCRIPTOR

:

This module covers the required competencies in preparing appropriate materials, tools and equipment for installing framing works, layingout/erecting and assembling post and girts, layingout/installing floor joists , laying-out/installing wall studs, laying-out/fabricating/installing roof frames, laying-out/installing ceiling joist.

NOMINAL DURATION

:

80 hrs.

CERTIFICATE LEVEL

:

NATIONAL CERTIFICATE LEVEL II

PREREQUISITE

:

SUMMARY OF LEARNING OUTCOMES: Upon completion of this module, the trainee/student must be able to: LO 1. Prepare appropriate materials, tools and equipment for installing framing works LO 2. Lay-out/erect and assemble post and girts LO 3. Lay-out/install floor joists LO 4. Lay-out/install wall studs LO 5. Lay-out/fabricate/install roof frames LO 6. Lay-out/install ceiling joist

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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ASSESSMENT CRITERIA: • • • • • • • • • • • • • • • • • • • • •

Plans and details are correctly interpreted according to job requirements Appropriate materials, tools and equipment are selected and prepared consistent with job requirements Materials are re-checked and properly staged according to job requirements Defective materials are reported to immediate supervisor following standard operating procedures Posts and girts are laid-out, marked and cut according to working drawings and specifications with tolerance of ± 3 mm on all measurements, plumbness, and levelness Posts are erected vertically based on plans and specifications with tolerance of + 3 mm on all measurements Girts and girders are attached to the posts horizontally according to plans and specifications Unexpected situations are responded to in line with work place requirement Housekeeping is performed according to safety regulations Appropriate PPE is used according to job requirements Floor joists are set out, cut and fixed, and laterally supported at + 3 mm on all measurements and levelness in accordance with working drawings and specifications Joists are trimmed for openings and fixed with fastenings according to the requirements of the working drawings and specifications Wall studs are identified, measured and cut based on working drawings and specifications with tolerance of + 3 mm maximum on all measurements Horizontal studs are laid–out and installed based on working drawings and specifications with tolerance of + 3 mm maximum on all measurements Types of roof and other components are fabricated, laid-out and installed according to working drawings and specifications with tolerance of + 3 mm on all measurements, plumbness, levelness and squareness Roof components are installed according to working drawings and specifications Ceiling joists are identified, measured, and cut according to working drawings and specifications with tolerance of + 3 mm on all measurements, levelness and squareness Ceiling joists are laid-out and installed according to working drawings and specifications with tolerance of + 3 mm on all measurements, levelness and squareness Unexpected situations are responded to in line with work place requirement Housekeeping is performed according to safety regulations Appropriate PPE is used according to job requirements and OHS specifications

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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LEARNING OUTCOME NO. 1

Prepare appropriate materials, tools and equipment for installing framing works

CONTENTS: • Characteristics of common Philippine Lumber • Material Specifications • Types and Parts of a Frame Constructions

ASSESSMENT CRITERIA 1. Plans and details are correctly interpreted according to job requirements 2. Appropriate materials, tools and equipment are selected and prepared consistent with job requirements 3. Materials are re-checked and properly staged according to job requirements 4. Defective materials are reported to immediate supervisor following standard operating procedures 5. Unexpected situations are responded to in line with work place requirement 6. Housekeeping is performed according to safety regulations 7. Appropriate PPE is selected according to job requirements CONDITIONS: You must be provided with the following: 1. WORKPLACE LOCATION 2. TOOLS AND EQUIPMENT • Claw Hammer • Pencil/Marking pen • Pull-Push Rule • Nylon String • Steel Square • Try-square • Hand Saw • Chalk Line 3. TRAINING MATERIALS Leaning Packages Bond paper Ball pens ASSESSMENT METHOD

• • • • • •

Personal Protective Equipment Portable Circular Saw Plan and working drawings Lumber Nails Plywood

Manuals Related References

Portfolio

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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Learning Experience PREPARE APPROPRIATE MATERIALS, TOOLS AND EQUIPMENT FOR INSTALLING FRAMING WORKS Learning Activities

Special Instructions

Read Information Sheet No. 5.1-1 on Characteristics of Common Philippine Lumber Compare your answer to the answer key

Answer Self-Check No. 5.1-1 Read Information Sheet No.5.1-2 on Material Specifications

Compare your answer to the answer key

Answer Self-Check No. 5.1-2 Read Information Sheet No. 5.1-3 on Types and Parts of a Frame Construction Answer Self-Check No. 5.1-3

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Compare your answer to the answer key

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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INFORMATION SHEET NO. 5.1-1 CHARACTERISTICS OF COMMON PHILIPPINE LUMBER LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the TYPES and CHARACTERISTICS of COMMON PHILIPPINE LUMBER 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24.

Banuyo – similar to narra, furniture Dao – streaked decorative lumber Dungon – heavy structural, wine red (twisted) Guijo – basic structural, heavy framing Ipil – heavy structural (post and girder) Kalantas – lightweight decorative lumber (absorbs moisture) Kamagong – from mabolo, darkest tone lumber Lanite – light color, light framing Manggachapui – yellow, furniture lumber Maranggo – resonant wood (used on musical soundboard) Molave (Mulawin) – heavy structure (post and girder) Narra – decorative Supa – dark red structural lumber Tindalo – structural general frame Yakal – basic, heavy structural (post, girder, stringer) Apitong – general framing (porous) easily twisted Katmon – light framing Mayapis – light framing Palosapis – furniture, sashes, pale (darken with age) Pine wood – ornamental, lightweight Red lauan – light framing Santol – sculptural White lauan – light framing Tanguile – basic framing

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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SELF- CHECK NO. 5.1-1 Check your mastery in the different characteristics of common Philippine lumber by completing the tasks below. IDENTIFICATION: Identify the characteristic of the Philippine lumber listed below. Write you answer on the corresponding column. DUNGON GUIJO IPIL KATMON LANITE MAYAPIS MOLAVE RED LAUAN TANGUILE YAKAL LIGHT FRAMING

BASIC FRAMING

HEAVY STRUCTURAL

1. __________________

1. __________________

1. __________________

2. __________________

2. __________________

2. __________________

3. __________________

3. __________________

3. __________________

4. __________________

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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ANSWER KEY 5.1-1 Check your answer with the answer key below. If you fail to get it right, refer back to corresponding resources until you make it perfect.

LIGHT FRAMING

BASIC FRAMING

HEAVY STRUCTURAL

1. LANITE

1. GUIJO

1. DUNGON

2. KATMON

2. YAKAL

2. IPIL

3. MAYAPAS

3. TANGUILE

3. MOLAVE

4. RED LAUAN

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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INFORMATION SHEET NO. 5.1-2 MATERIALS SPECIFICATIONS LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the TYPES, STANDARD SIZES, and USES of LUMBER for CONSTRUCTION CARPENTRY. The primary components used in frame construction are lumber and hardware. This section includes information on the types and sizes of lumber as well as a description of various metal fasteners. A. Lumber Lumber varies greatly in structural characteristics. A carpenter must learn about lumber so that he can choose the most suitable material for each job. 1. Grades Lumber, as it comes from the sawmill, is divided into three main classes: yard lumber, structural material and factory and shop lumber. It is classified on the basis of quality. The carpenter must choose a quality that is suitable for the intended purpose. At the same time, he must exercise economy by not choosing a better (and therefore more expensive) grade than is required. Lumber is subdivided into classifications of select lumber and common lumber. • Select Lumber - Select lumber is of good appearance and finishing. It is identified by the following grade names for comparison of quality: o Grade A is suitable for natural finishes and is practically clear. o Grade B is suitable for natural finishes, is of high quality, and is generally clear. o Grade C is suitable for high-quality paint finishes. o Grade D is suitable for paint finishes between high-finishing grades and common grades and has somewhat the nature of both. • Common Lumber - Common lumber is suitable for general construction and utility purposes. It is identified by the following grade names for comparison of quality: o No. 1 common is suitable for use without waste, it is sound and tight knotted, and it may be considered watertight lumber. o No. 2 common is less restricted in quality than No. 1, but of the same general quality. It is used for framing, sheathing, and other structural forms where the stress or strain is not too great. o No. 3 common permits some waste, and it is lower in quality than No. 2. It is used for such rough work as footing, guardrails, and rough flooring.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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o No. 4 common permits waste, is of low quality, and may have coarse features such as decay and holes. It is used for sheathing, subfloors, and roof boards in the cheaper types of construction, but its most important industrial outlet is for boxes and crates. o No. 5 common is not produced in some kinds of lumber. It is used for boxes, crates, and dunnage, for which the quality requirement is very low. CODE FOR SURFACED LUMBER Code Meaning S1E S2E S1S S2S S1S1E S2SIE S1S2E S4S

SURFACED SURFACED SURFACED SURFACED SURFACED SURFACED SURFACED SURFACED

1 EDGE 2 EDGES 1 SIDE 2 SIDES 1 SIDE AND EDGE 2 SIDES AND 1 EDGE 1 SIDE AND 2 EDGES 4 SIDES

2. Uses of Lumber a. Frames. Building frames are the wood forms constructed to support the finished members of a structure. These include posts, girders (beams), scabs, joists, subfloors, sole plates, girts, knee braces, top plates, and rafters. No. 2 common lumber is used for framing. Heavy frame components, such as beams and girders, are made by combining several pieces of framing material. b. Walls. The exterior wall of a frame structure usually has three layers: sheathing, building paper, and siding. Sheathing and siding lumber are normally grade No. 2 common softwood, which is with solid knots, no voids. Siding is either vertically or horizontally applied. Theater construction may limit available material to lap siding for both horizontal and vertical surfaces. For local procurement, there are several types of drop and bevel siding, which is applied horizontally. 3. Sizes Lumber is usually sawed into standard dimensions (length, width, and thickness). This allows uniformity in planning structures and in ordering materials. Table 1 lists the common widths and thicknesses of wood in rough and in dressed dimensions in the US. Standards have been established for dimension differences between the quoted size of lumber and its standard sizes when dressed. Quoted size refers to dimensions prior to surfacing. These dimension differences must be taken into consideration. A good example of the dimension difference is the common 2 x 4. As shown in Table 1, the familiar quoted size 2 x 4 is JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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the rough or nominal dimension, but the actual dressed size is 1 1/2 x 3 1/2 inches. Lumber is sawn in standard sizes used for light framing. • Thickness: 1, 2, and 4 inches. • Width: 2, 4, 6, 8, 10, and 12 inches. • Length: 8, 10, 12, 14, 16, 18, and 20 feet. The actual dimensions of dressed lumber are less than the sewn dimensions because of drying and planing (or finishing). For the relative difference between sewn (standard or nominal) dimensions and actual sizes of construction lumber, see Table 2-1.

Table 1. Nominal and dressed sizes of lumber

Plywood is usually 4 x 8 feet and varies from 1/8 to 1 inch in thickness.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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SELF- CHECK NO. 5.1-2 Check your mastery in the different material specifications by completing the tasks below. MULTIPLE CHOICE: Read the statement carefully. Choose the letter of the correct answer. Write the letter of your choice on the space provided.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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ANSWER KEY 5.1-2 Check your answer with the answer key below. If you fail to get it right, refer back to corresponding resources until you make it perfect. 1.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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INFORMATION SHEET NO. 5.1-3 TYPES AND PARTS OF FRAME CONSTRUCTION LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the Different TYPES and PARTS A OF FRAME CONSTRUCTION PLATFORM FRAME In platform-frame construction, first floor joists are completely covered with sub-flooring to form a platform upon which exterior walls and interior partitions are erected. This is the type of construction most generally used in home building. Platform construction is easy to erect. It provides a work surface at each floor level and is readily adapted to various methods of prefabrication. In platform systems it is common practice to assemble wall framing on the floor and tilt the entire unit into place.

BALLOON FRAME In balloon-frame construction, exterior wall studs continue through the first and second stories. First floor joists and exterior wall studs both bear on the anchored sill. Second-floor joists bear on a minimum 1x4-inch ribbon strip, which has been let-in to the inside edges of exterior wall studs.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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COMBINATION FRAME A modification of the old braced frame which was of heavy timbers with every joint mortised and tenoned. The modification consists of lighter timbers and less mortising and pinning to save material and labor.

Parts of a Framed House 1.

Bridging is a set of wood fitted in pairs from the lower side of one floor joist to the upper side of adjacent joist and crossed to distribute the load. Sometimes pieces of solid stocks of equal with to the joist are used. 2. Ceiling is the finish covering of the joist of a roof system. 3. Fascia is a wood member used on the outer face of a box cornice where it is nailed to the end of the rafters. 4. Girder is the beam that supports the roofing. 5. Joist is one of parallel framing members used to support floor and ceiling loads. It is supported by beams, girders, or bearing wall. 6. Post/column is a vertical structure support. It may be circular or rectangular in shape. 7. Purlin is a horizontal lumber used to support rafters between the plate and the ridge board. 8. Rafteris one of a series of structural members of a roof designed to support roof and loads. 9. Roof ridge is the horizontal line at the junction of the top edge of two roofs surfaces where an external angle greater than 180 degrees is formed. 10. Roofing is a material applied to the roofs as covering to make the internal part of a building waterproof.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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11. Stud refers to one of a series of structural wood lying vertically along the walls and partitions. 12. Truss is a structural unit assembled in the form of a triangle. It provides a rigid support over wide spans with minimum amount of material. 13. Wall is a vertical plane structure found inside or outside a building. It is made of lumber, board, concrete or hollow blocks.

PARTS OF A FRAMED HOUSE

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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SELF- CHECK NO. 5.1-3 Check your mastery in the different parts of a framed by completing the taskshouse below. MULTIPLE CHOICE: Read the statement carefully. Choose the letter of the correct answer. Write the letter of your choice on the space provided.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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ANSWER KEY 5.1-3 Check your answer with the answer key below. If you fail to get it right, refer back to corresponding resources until you make it perfect. 2.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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LEARNING OUTCOME NO. 2

Lay-out/erect and assemble post and girts

CONTENTS: • Post • Girts and Girders • Load Conditions and Structural System Response

ASSESSMENT CRITERIA 1. Posts and girts are laid-out, marked and cut according to working drawings and specifications with tolerance of ± 3mm on all measurements, plumbness, and levelness 2. Posts are erected vertically based on plans and specifications with tolerance of + 3mm on all measurements 3. Girts and girders are attached to the posts horizontally according to plans and specifications 4. Unexpected situations are responded to in line with work place requirement 5. Housekeeping is performed according to safety regulations 6. Appropriate PPE is used according to job requirements CONDITIONS: You must be provided with the following: 1. WORKPLACE LOCATION 2. TOOLS AND EQUIPMENT • Claw Hammer • Pencil/Marking pen • Pull-Push Rule • Nylon String • Steel Square • Try-square • Hand Saw • Chalk Line 3. TRAINING MATERIALS Leaning Packages Bond paper Ball pens

• • • • • •

Personal Protective Equipment Portable Circular Saw Plan and working drawings Lumber Nails Plywood

Manuals Related References

ASSESSMENT METHOD Portfolio

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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Learning Experience LAY-OUT/ERECT AND ASSEMBLE POST AND GIRTS Learning Activities

Special Instructions

Read Information Sheet No. 5.2-1 on Post Compare your answer to the answer key

Answer Self-Check No. 5.2-1

Evaluate your own work using the Performance Criteria Checklist Perform Operation Sheet No. 5.2-1 on Present your work to your trainer for Erecting Post evaluation Keep a copy of your work for the next activities Read Information Sheet No.5.2-2 on Girts and Girders Compare your answer to the answer key

Answer Self-Check No. 5.2-2 Read Information Sheet No. 5.2-3 on Load Conditions and Structural system Response

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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INFORMATION SHEET NO. 5.2-1 POSTS LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the TYPES OF WOOD POST and METHODS OF PLUMBING POST. Wood posts may be solid, built-up, or spaced. In selecting a wood post, the following should be considered: lumber species, structural grade, modulus of elasticity, and allowable compressive, bending and shear stress value permitted for the intended use. In addition, attention must be paid to the precise loading conditions and the types of connections used. Wood posts are loaded axially in compression. Failure can result in crushing of wood fibers if the maximum unit stress exceeds the allowable unit stress in compression parallel to the grain. The load capacity of the post is also determined by its slenderness ratio. As the slenderness ratio of a post increases, a post can fail from buckling. A. Types of Wood Posts/Columns

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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B. Methods of Plumbing Posts After the corner post, T-post, and intermediate wall studs have been nailed to the plates or girts, the walls must be plumbed and straightened so that the permanent braces and rafters may be installed. This is done by using a level or plumb bob and a chalkline. Plumbing Posts There are two methods for plumbing posts. Method 1: To plumb a corner with a plumb bob 1. To plumb a corner with a plumb bob, first attach to the bob a string long enough to extend to or below the bottom of the post. 2. Lay a rule on top of the post so that 2 inches of the rule extends over the post on the side to be plumbed. 3. Then hang the bob-line over the rule so that the line is 2 inches from the post and extends to the bottom of it. 4. With another rule, measure the distance from the post to the center of the line at the bottom of the post; if it does not measure 2 inches, the post is not plumb. 5. Move the post inward or outward until distance from the post to the center of the line is exactly 2 inches. Then nail the temporarily brace in place. 6. Repeat this procedure to the other face of the post. The post is then plum. This process is carried out to the remaining post of the building.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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Method 2: An alternate method of plumbing a post 1. Attach the string of the plumb bob securely at the top of the post to be plumbed, making sure that the string is long enough to allow the plumb bob to hung near the bottom of the post. 2. Use two blocks of wood identical in thickness as gage blocks. 3. Tack one block near the top of the post between the plumb bob string and the post (gage block No. 1). 4. Inserting the second block between the plumb bob string and the bottom of the post (gage block No. 2) . 5. If the entire face of the second block makes contact with the string, the post is plumb.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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SELF- CHECK NO. 5.2-1 Check your mastery in the erecting and plumbing the posts by completing the tasks below. Arrange in order the steps of plumbing a corner post by writing the number on the space provided.

_____________ Lay a rule on top of the post so that 2 inches of the rule extends over the post on the side to be plumbed. _____________ To plumb a corner with a plumb bob, first attach to the bob a string long enough to extend to or below the bottom of the post. _____________ Move the post inward or outward until distance from the post to the center of the line is exactly 2 inches. Then nail the temporarily brace in place. _____________ Then hang the bob-line over the rule so that the line is 2 inches from the post and extends to the bottom of it. _____________ With another rule, measure the distance from the post to the center of the line at the bottom of the post; if it does not measure 2 inches, the post is not plumb. _____________ Repeat this procedure to the other face of the post. The post is then plum. This process is carried out to the remaining post of the building.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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ANSWER KEY 5.2-1 Check your answer with the answer key below. If you fail to get it right, refer back to corresponding resources until you make it perfect. 2

Lay a rule on top of the post so that 2 inches of the rule extends over the post on the side to be plumbed.

1

To plumb a corner with a plumb bob, first attach to the bob a string long enough to extend to or below the bottom of the post.

5

Move the post inward or outward until distance from the post to the center of the line is exactly 2 inches. Then nail the temporarily brace in place.

3

Then hang the bob-line over the rule so that the line is 2 inches from the post and extends to the bottom of it.

4

With another rule, measure the distance from the post to the center of the line at the bottom of the post; if it does not measure 2 inches, the post is not plumb.

6

Repeat this procedure to the other face of the post. The post is then plum. This process is carried out to the remaining post of the building.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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OPERATION SHEET NO. 5.2-1 Title:

Erect Post

Performance Objective: Supplies and Materials: Tools and Equipment:

Given the necessary materials, you should be able to erect post Lumber, fasteners • • • •

circular saw hand saw hammer wrecking bar

folding rule try square Plumb bob Spirit level

• • • •

Steps/Procedure: Step 1. Prepare all the materials needed including the braces that will be used in supporting the post. Step 2. Temporarily place the post on the concrete foundation. Then plumb the post. Follow the proper plumbing techniques in plumbing a post. Step 3. Mark the position of the hole of the metal strap to the post where the bolt will be placed. Step 4. Make a bore on the post. The diameter of the bore should fit the bolts to be used. Step 5. Replace the post on the concrete foundation. Test the plumbness of the post on its side and at its adjacent side. Step 6. Place temporary braces on the post. Step 7. Fasten the post with bolts and nuts securely on the concrete foundation. Use appropriate tools in tightening the nuts. Step 8. Have instructor check your work. Assessment Method: Portfolio Demonstration

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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PERFORMANCE CRITERIA CHECKLIST OPERATION SHEET NO. 5.2-1 Name of Trainee:______________________________ Date: __________________

CRITERIA

YES

NO

1. Did I laid-out, marked and cut the post according to the working drawing? 2. Are the required measurements on the materials (wood post) in correct based from the plan? 3. Is the post erected vertically with tolerance of ± 3 mm? 4. Did I use appropriate personal protective equipment in erecting the post?

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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INFORMATION SHEET NO. 5.2-2 GIRTS AND GIRDERS LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the PARTS OF A FRAMED HOUSE. Beams and girders are of solid timber or built-up construction in which multiple pieces of nominal 2-inch thick lumber are nailed together with the wide faces vertical. Such pieces are nailed with two rows of 20d nails-one row near the top edge and the other near the bottom edge. Nails in each row are spaced 32 inches apart. End joints of the nailed lumber should occur over the supporting column or pier. End joints in adjacent pieces should be at least 16 inches apart. Glued-laminated members are also used. Beams and girders that are not continuous are tied together across supports. Bearing of at least 4 inches is required at supports. The decision to use one girder over another is a function of cost, availability, span and loading conditions, clearance or headroom requirements, and ease of construction. Girders in residential construction are usually one of the following types as illustrated.

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Girders carry a large part of the building weight. They must be rigid and properly supported at the foundation walls and on the columns. They must be installed properly to support joists. The ends of wood girders should bear at least 4 inches on posts. SIZE REQUIREMENTS Carpenters should understand the effect of length, width, and depth on the strength of wood girders before attempting to determine their size. Principles that govern the size of a girder are the: • Distance between girder posts • Girder load area • Total floor load on the girder per square foot • Load on the girder per linear foot • Total load on the girder • Material to be used • Wood moisture content and types of wood used, since some woods are stronger than others

Built-up girder details

A girder should be just large enough to support an ordinary load. Any size larger than that wastes material. For greater carrying capacity, it is better to increase a girder's depth (within limits) than its width. When the depth of a girder is doubled (the width of lumber, such as 2 x 8 or 2 x 6), the safe load increases four times. For example, a girder 3 inches wide and 12 inches deep will carry four times as much weight as a girder 3 inches wide and 6 inches deep. Joist -to-girder attachment

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SELF- CHECK NO. 5.2-2 Check your mastery in the girts and girders by completing the tasks below. MULTIPLE CHOICE: Read the statement carefully. Choose the letter of the correct answer. Write the letter of your choice on the space provided.

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ANSWER KEY 5.2-2 Check your answer with the answer key below. If you fail to get it right, refer back to corresponding resources until you make it perfect. 3.

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INFORMATION SHEET NO. 5.2-3 LOAD CONDITIONS AND STRUCTURAL SYSTEM RESPONSE LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the TYPES OF BUILDING LOADS. Building loads can be divided into two types based on the orientation of the structural actions or forces that they induce: Vertical Loads • • • • • •

Dead (gravity) Live (gravity) Snow (gravity) Wind (uplift on roof) Seismic and wind (overturning) Seismic (vertical ground motion)

Horizontal (Lateral) Loads • • • •

Wind Seismic (horizontal ground motion) Flood (static and dynamic hydraulic forces) Soil (active lateral pressure)

Gravity loads act in the same direction as gravity (i.e., downward or vertically) and include dead, live, and snow loads. They are generally static in nature and usually considered a uniformly distributed or concentrated load. A buildings structure weight is called the dead load. The dead load per square foot of floor area is carried directly or indirectly to the girder by bearing partitions. The weight of furniture, persons, and other movable loads, not actually a part of the building but still carried by the girder, is called the live load. Snow on the roof is considered part of the live load. Wind uplift forces are generated by negative (suction) pressures acting in an outward direction from the surface of the roof in response to the aerodynamics of wind flowing over and around the building. Vertical forces are also created by overturning reactions due to wind and seismic lateral loads acting on the overall building and its lateral force resisting systems. Earthquakes also produce vertical ground motions or accelerations which increase the effect of gravity loads. The primary loads that produce lateral forces on buildings are attributable to forces associated with wind, seismic ground motion, floods, and soil. Wind and seismic lateral loads apply to the entire building. Lateral forces from wind are generated by positive wind pressures on the windward face of the building and by negative pressures on the leeward face of the building, creating a combined pushand-pull effect.

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LEARNING OUTCOME NO. 3

Lay-out/install floor joists

CONTENTS: • Floor Joist • Standard Size of Floor Opening ASSESSMENT CRITERIA 1. Floor joists are set out, cut and fixed, and laterally supported at + 3mm on all measurements and levelness in accordance with working drawings and specifications 2. Joists are trimmed for openings and fixed with fastenings according to the requirements of the working drawings and specifications 3. Unexpected situations are responded to in line with work place requirement 4. Housekeeping is performed according to safety regulations 5. Appropriate PPE is used according to job requirements CONDITIONS: You must be provided with the following: 1. WORKPLACE LOCATION 2. TOOLS AND EQUIPMENT • Claw Hammer • Pencil/Marking pen • Pull-Push Rule • Nylon String • Steel Square • Try-square • Hand Saw • Chalk Line 3. TRAINING MATERIALS Leaning Packages Bond paper Ball pens

• • • • • •

Personal Protective Equipment Portable Circular Saw Plan and working drawings Lumber Nails Plywood

Manuals Related References

ASSESSMENT METHOD Portfolio

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Learning Experience LAY-OUT/INSTALL FLOOR JOISTS Learning Activities

Special Instructions

Read Information Sheet No. 5.3-1 on Floor Joist Compare your answer to the answer key

Answer Self-Check No. 5.3-1 Read Information Sheet No.5.3-2 on Standard Size of Floor Opening Answer Self-Check No. 5.3-2

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Compare your answer to the answer key

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INFORMATION SHEET NO. 5.3-1 FLOOR JOISTS LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the PARTS OF A FLOOR SYSTEM and STEPS IN LAYING OUT A PLATFORM FLOOR ASSEMBLY. The wood floor framing system consists of the common floor joists, cross bridging, solid bridging, and others. 1. Floor Joist - One of a series of parallel beams of timber, reinforced concrete, or steel used to support floor and ceiling loads, and supported in turn by larger beams, girders or bearing walls; the widest dimension is vertically oriented. 2. Common Joist, Bridging Joist - A joist on which floor boards are laid; neither supports a joist nor is it supported by another joist. 3. Binding Joist, binder - A beam which supports the common joists of a wood floor above and the ceiling joists below; commonly joins two vertical posts. 4. Girder - A large or principal beam of steel, reinforced concrete, or timber; used to support concentrated loads at isolated points along its length. 5. Bridging - A brace, or a system of braces, placed between joists to stiffen them, to hold them in place, and to distribute the load. 6. Cross bridging, Diagonal bridging, Herringbone Strutting – Diagonal bracing, in pairs, between adjacent floor joists to prevent the joists from twisting. 7. Block bridging, Solid bridging, Solid Strutting - Short members (boards) which are fixed vertically between floor joists to stiffen the joists. 8. Bridging Floor - A floor supported by common joists, without girders. 9. Principal Joist - A large joist that carries much of the floor load. 10. Sleeper Joist - Any joist resting directly on sleepers 11. Ledger, Ribbon or Ribband - a horizontal member which is housed in the studs of balloon framing and carries joists. 12. Ledger Strip, Ribbon Strip - On a beam which carries joists flush with the upper edge of the beam (or girder), a strip of lumber which is nailed to the

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side of the beam (along its bottom edge), forming a seat for the joists and helping to support them. 13. Sill - a horizontal timber, at the bottom of the frame of a wood structure, which rests on the foundation.

Floor Joists on Beams/Girders A wood floor is a horizontal structural system composed primarily of the following members: • joists • girders • sheathing Wood floor systems have traditionally been built of solid sawn lumber for floor joists and girders, although parallel chord wood trusses and wood I-joists are seeing increasing use, and offer advantages for dimensional consistency, and spans. Floor joists are horizontal, repetitive framing members that support the floor sheathing and transfer the live and dead floor loads to the walls, girders, or columns below. Girders are horizontal members that support floor joists not otherwise supported by interior or exterior load-bearing walls. Floor sheathing is a horizontal structural element, usually plywood or oriented strand board panels, that directly supports floor loads and distributes the loads to the framing system below. Floor sheathing also provides lateral support to the floor joists. JZGMSAT QA SYSTEM

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Laying out and Constructing a Platform Floor Assembly After the foundation is completed and the concrete or mortar has been properly set up, assembly of the floor system can begin. The construction of a platform floor assembly is normally done in the sequence shown below: Step 1.

Check the foundation for squareness.

Step 2.

Lay out and install the sill plates.

Step 3.

Build and/or install the girders and supports.

Step 4.

Lay out the sills and girder for the floor joists.

Step 5.

Lay out the joist locations for partitions and floor openings.

Step 6.

Cut and attach the joist headers to the sill.

Step 7.

Install the joists.

Step 8.

Frame the openings in the floor.

Step 9.

Install the bridging.

Step 10. Install the subflooring.

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SELF- CHECK NO. 5.3-1 Check your mastery in the load conditions and structural system response by completing the tasks below. MULTIPLE CHOICE: Read the statement carefully. Choose the letter of the correct answer. Write the letter of your choice on the space provided . 1. 2. 3. 4. 5.

The letter H in the Figure 1 is pointing to the ______. a) sill c) bearing pole b) termite shield d) sill sealer The letter C in the Figure 1 is pointing to the ______. a) tail joist c) joist header b) trimmer joist d) common joist The letter F in the Figure 1 is pointing to the ______. a) tail joist c) joist header b) trimmer joist d) common joist The letter G in the Figure 1 is pointing to the ______. a) tail joist c) joist header b) trimmer joist d) common joist The letter L in the Figure 1 is pointing to the ______. a) joist header c) column b) beam or girder d) triple joist

Figure 1

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ANSWER KEY 5.3-1 Check your answer with the answer key below. If you fail to get it right, refer back to corresponding resources until you make it perfect. 1. 2. 3. 4. 5.

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INFORMATION SHEET NO. 5.3-2 FLOOR OPENINGS LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the PARTS OF A FLOOR OPENING and PROCEDURES IN FRAMING. Headers, trimmers and tail joists form the framing for floor openings. Trimmers and headers are doubled when the header span exceeds 4 feet. Headers more than 6 feet in length are supported at the ends by joist hangers or framing anchors unless they are bearing on a partition, beam or wall. Tail joists which exceed 12 feet in length are supported on framing anchors or on ledger strips not less than nominal 2x2 inches. Headers run at right angles to the direction of the joists and are doubled. Trimmers run parallel to the joists and are actually doubled joists. Joists are framed to the headers where the headers form the opening frame at right angles to the joists. These shorter joists, framed to the headers are called tail beams, tail joists, or header joists. The number of headers and trimmers required at any opening depends upon the shape of the opening, whether it is a simple rectangle or contains additional angles ; upon the direction in which the opening runs in relation to the direction in which the joists run ; and upon the position of the opening in relation to partitions or walls.

A typical procedure for framing an opening like the one shown is given below: Step 1. First install full-length trimmer joists A and C, then cut four header pieces with a length corresponding to the distance between the trimmer joists A and C. Step 2. Nail two of these header pieces (headers No. 1 and No. 2) between trimmer joists A and C at the required distances. Step 3. Following this, cut short tail joists X and Y and nail them to headers No. 1 and No. 2. Check the code to see if the hangers are required. Step 4. After headers No. 1 and 2 and tail joists X and Y are securely nailed, headers No. 3 and No. 4 can be installed and nailed to headers No. 1 and No. 2. Then, joists B and D can be placed next to and nailed to trimmer joists A and C, respectively.

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SELF- CHECK NO. 5.3-2 Check your mastery in identifying the different parts of floor opening by completing the tasks below. IDENTIFICATION: Identify the different parts of floor opening by writing your answer beside the numbers

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ANSWER KEY 5.3-2 Check your answer with the answer key below. If you fail to get it right, refer back to corresponding resources until you make it perfect.

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LEARNING OUTCOME NO. 4

Lay-out/install wall studs

CONTENTS: • Components of a Wall • Measuring and Cutting Studs ASSESSMENT CRITERIA 1. Wall studs are identified, measured and cut based on working drawings and specifications with tolerance of + 3mm maximum on all measurements 2. Horizontal studs are laid–out and installed based on working drawings and specifications with tolerance of + 3mm maximum on all measurements 3. Unexpected situations are dealt with according to company rules and regulations 4. Appropriate PPE are used according to OSHC regulations 5. Housekeeping is performed according to safety standards and regulations CONDITIONS: You must be provided with the following: 1. WORKPLACE LOCATION 2. TOOLS AND EQUIPMENT • Claw Hammer • Pencil/Marking pen • Pull-Push Rule • Nylon String • Steel Square • Try-square • Hand Saw • Chalk Line 3. TRAINING MATERIALS Leaning Packages Bond paper Ball pens

• • • • • •

Personal Protective Equipment Portable Circular Saw Plan and working drawings Lumber Nails Plywood

Manuals Related References

ASSESSMENT METHOD Portfolio

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Learning Experience LAY-OUT/INSTALL WALL STUDS Learning Activities

Special Instructions

Read Information Sheet No. 5.4-1 on Components of a Wall Evaluate your own work using the Performance Criteria Checklist Perform Operation Sheet No. 5.4-1 on Present your work to your trainer for Laying-out Wall evaluation Keep a copy of your work for the next activities Read Information Sheet No. 5.4-2 on Measuring and Cutting Studs Evaluate your own work using the Performance Criteria Checklist Perform Operation Sheet No. 5.4-2a Present your work to your trainer for on Assembling the Wall evaluation Keep a copy of your work for the next activities Evaluate your own work using the Performance Criteria Checklist Perform Operation Sheet No. 5.4-2b Present your work to your trainer for on Erecting the Wall evaluation Keep a copy of your work for the next activities Evaluate your own work using the Performance Criteria Checklist Perform Operation Sheet No. 5.4-2c Present your work to your trainer for on Plumbing and Aligning the Wall evaluation Keep a copy of your work for the next activities

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INFORMATION SHEET NO. 5.4-1 COMPONENTS OF A WALL LEARNING OBJECTIVE: Upon completing this section, you should be able to IDENTIFY the COMPONENTS OF A WALL . A. Components of a Wall Residential wall systems have traditionally been constructed of dimension lumber, usually 2x4s or 2x6s, although engineered wood studs and cold-formed steel studs are now seeing increased use. The figure below identifies the structural members of a wood frame wall. Each of the members shown on the illustration is then described. You will need to know these terms as you proceed through this module.

• • •

• •

Blocking (spacer)A wood block used as a filler piece and support between framing members. Cripple stud—In wall framing, a short framing stud that fills the space between a header and a top plate or between the sill and the soleplate. Double top plate—A plate made of two members to provide better stiffening of a wall. It is also used for connecting splices, corners, and partitions that are at right angles (perpendicular) to the wall. Header—A horizontal structural member that supports the load over an opening such as a door or window. King stud—The full-length stud next to the trimmer stud in a wall opening.

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• • • • • •

Partition—A wall that subdivides space within a building. A bearing partition or wall is one that supports the floors and roof directly above in addition to its own weight. Rough opening—An opening in the framing formed by framing members, usually for a window or door. Rough sill—The lower framing member attached to the top of the lower cripple studs to form the base of a rough opening for a window. Soleplate—The lowest horizontal member of a wall or partition to which the studs are nailed. It rests on the rough floor. Stud—The main vertical framing member in a wall or partition. Top plate—The upper horizontal framing member of a wall used to carry the roof trusses or rafters. Trimmer stud—The vertical framing member that forms the sides of rough openings for doors and windows. It provides stiffening for the frame and supports the weight of the header.

B. Exterior Wall Framing • Studs are at least nominal 2x4 inches with the 4-inch dimension forming the basic wall thickness • Stud spacing is normally 16 inches in exterior walls, although 24-inch spacing of 2x4 studs is acceptable • Studs are arranged in multiples at corners and partition intersections to provide for rigid attachment of sheathing, siding and interior wall finish materials.

Multiple Studs at Corners

Wall Framing at Intersecting Partitions

C. Exterior Wall Openings • A header of adequate size is required at window and door openings • Headers may be supported by doubled studs or, where the span does not exceed 3 feet, framing anchors may be used with single supporting studs • Where the opening width exceeds 6 feet, triple studs are used with each end of the header bearing on two studs.

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D. Interior Partition Framing There are two types of interior partitions: 1. Bearing partitions which support floors, ceilings or roofs • Studs at least nominal 2x4 inches • Plates are lapped or tied into exterior walls at intersection points • Single top plates are permitted where joists or rafters are supported directly over bearing wall studs • Studs supporting floors are spaced a maximum of 16 inches on center • Studs supporting ceilings may be spaced 24 inches on center • Headers in bearing walls are used to carry loads over openings, as required for exterior walls 2. Non-bearing partitions which carry only the weight of the materials in the partition, including attachments in the finished building. • Studs are nominal 2x3 or 2x4 inches and may be installed with the wide face perpendicular or parallel to the wall surface • Single top plates are used • Stud spacing is 16-or 24-inches on center as required by the wall covering

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OPERATION SHEET NO. 5.4-1 Title:

Layout a Wall

Performance Objective:

Given the necessary materials, you should be able to layout a wall

Supplies and Materials:

Working Drawing/ Plan Lumber, fasteners, pencil

Tools and Equipment:

• • •

hand saw hammer

folding rule try square chalk line

• • •

Steps/Procedure: Step 1. Mark the locations of the soleplates by measuring in the width of the soleplate (e.g., 3½") from the outside edge of the sill on each corner. Snap a chalkline to mark the soleplate location, then repeat this for each wall. Step 2. The top plate and soleplate are laid out together. Start by placing the soleplate as indicated by the chalkline and tacking it in place. Lay the top plate against the soleplate so that the location of framing members can be transferred from the soleplate to the top plate. Also tack the top plate. Tacking prevents the plates from moving, which would make the critical layout lines inaccurate. Step 3. Lay out the common stud positions. To begin, measure and square a line 15¼" from one end. Subtracting this ¾" ensures that sheathing and other panels will fall at the center of the studs. Drive a nail at that point and use a continuous tape to measure and mark the stud locations every 16". Align your framing square at each mark. Scribe a line along each side of the framing square tongue across both the soleplate and top plate. These lines will show the outside edges of each stud, centered on 16" intervals. Assessment Method: Portfolio Demonstration

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PERFORMANCE CRITERIA CHECKLIST OPERATION SHEET NO. 5.4-1 Name of Trainee:______________________________ Date: __________________

CRITERIA

YES

NO

1. Did I lay-out and mark the location of the wall according to the house plan? 2. Did I use appropriate personal protective equipment in laying out the wall? 3. Did I perform housekeeping according to safety regulation?

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INFORMATION SHEET NO. 5.4-2 MEASURING AND CUTTING STUDS LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the HOW TO MEASURE AND CUT STUDS A. To determine the stud length when the installation is directly on a concrete slab • Simply subtract the thickness of the soleplate (1½") and double top plate (3") from the desired ceiling height and add the thickness of the ceiling material. • The length of the stud is based on the ceiling height, which is 96", plus the ½" thickness of the ceiling material, less the combined plate thicknesses of 4½", or 92". (This assumes that the flooring material has no appreciable thickness.)

B. To determine the stud length when the thickness of the underlayment must be considered • The length of the stud should be 925/8"; i.e., ceiling height plus the combined thicknesses of the ceiling material and underlayment (½" + 5/8"), less the combined thicknesses of the plates (4½"). (Again, we are assuming a flooring material of no appreciable thickness.) C. To determine the stud length for non-bearing wall that does not require the use of a double top plate • The calculated stud length is 1½" longer (941/8").

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D. To determine the length of a window or door trimmer stud • Subtract the thickness of the soleplate from the height of the header. • If the installation is on a wood floor, the thickness of the underlayment must also be subtracted. E. To determine the length of a cripple stud above a door or window • Combine the height of the trimmer and the thickness of the header, then subtract that total from the length of a regular stud. F. To determine the length of a cripple stud below a window • Determine the height of the rough opening from the floor, then subtract the combined thicknesses of the rough sill and soleplate.

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OPERATION SHEET NO. 5.4-2a Title: Performance Objective:

Assemble the Wall Given the necessary materials, you should be able to assemble a wall

Supplies and Materials:

Working Drawing/ Plan Lumber, fasteners

Tools and Equipment:

• • • •

circular saw hand saw hammer wrecking bar

folding rule try square chalk line

• • •

Steps/Procedure: Step 1. Start by laying the soleplate near the edge of the floor. Then, place the top plate about a regular stud length away from the soleplate. Be sure to use treated lumber if the soleplate is in contact with a masonry floor. Step 2. Assemble the corners and partition Ts using the straightest pieces to ensure that the corners are plumb. Also, save some of the straightest studs for placement in the wall where countertops or fixtures will hit the centers of studs (such as in kitchens, bathrooms, and laundry rooms). Step 3. Lay a regular stud at each X mark with the crown up. If a stud is bowed, replace it and use it to make cripples. Step 4. Assemble the window and door headers and put them in place with the crowns up. Step 5. Lay out and assemble the rough openings, making sure that each opening is the correct size and that it is square. Step 6. Nail the framework together. For 2 × 4 framing, use two 16d nails through the plate into the end of each stud. For 2 × 6 framing, use three nails. The use of a nail gun is recommended for this purpose; however, do not attempt this if you have not received proper training in the use of this tool.

Assessment Method: Portfolio Demonstration

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PERFORMANCE CRITERIA CHECKLIST OPERATION SHEET NO. 5.4-2a Name of Trainee:______________________________ Date: __________________

CRITERIA

YES

NO

1. Did I cut/trim the needed materials (lumber) according to dimension as specified in the house plan? 2. Is the assembled wall in according to the house plan and specifications of ± 3 mm on all measurements, plumbness,, levelness and squareness? 3. Did I deal with unexpected situations accordingly? 4. Did I perform housekeeping according to safety regulation? 5. Did I use appropriate personal protective equipment in assembling the wall?

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OPERATION SHEET NO. 5.4-2b Title: Performance Objective:

Erect the Wall Given the necessary materials, you should be able to erect a wall

Supplies and Materials:

Working Drawing/ Plan Lumber, fasteners

Tools and Equipment:

• • • •

circular saw hand saw hammer wrecking bar

folding rule try square measuring rods

• • •

Steps/Procedure: Step 1. If the sheathing was installed with the wall laying down, or if the wall is very long, it will probably be too heavy to be lifted into place by the framing crew. In that case, use a crane or the special lifting jacks made for that purpose . Use cleats to prevent the wall from sliding. Step 2. Raise the wall section and nail it in place using 16d nails on every other floor joist. On a concrete slab, use preset anchor bolts. Step 3. Plumb the corners and apply temporary exterior bracing. Then erect, plumb, and brace the remaining walls. The bracing helps keep the structure square and will prevent the walls from being blown over by the wind. Generally, the braces remain in place until the roof is complete. Step 4. As the walls are erected, straighten the walls and nail temporary interior bracing in place. Assessment Method: Portfolio Demonstration

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PERFORMANCE CRITERIA CHECKLIST OPERATION SHEET NO. 5.4-2b Name of Trainee:______________________________ Date: __________________

CRITERIA

YES

NO

1. Did I use a cleat to prevent the wall from sliding while erecting the wall? 2. Is the erected wall in according to the house plan and specifications of ± 3 mm on all measurements, plumbness, levelness and squareness? 3. Did I secure the wall with temporary exterior and interior bracing? 4. Did I use appropriate personal protective equipment in assembling the wall? 5. Did I perform housekeeping according to safety regulation?

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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OPERATION SHEET NO. 5.4-2c Title:

Plumb and Align a Wall

Performance Objective:

Given the necessary materials, you should be able to plumb and align a wall

Supplies and Materials:

Working Drawing/ Plan Lumber, fasteners

Tools and Equipment:

• • •

hand saw hammer wrecking bar

folding rule try square

• •

Steps/Procedure: Step 1. Plumb one corner post with a level or a plumb bob. Nail temporary braces to hold the post in place. Repeat this procedure for all corner posts. Step 2. Fasten a chalk line to the outside of one corner post at the top and stretch the line to the corner post at the opposite end of the building. Then fasten the line to this post. Step 3. Place a 3/4-inch block under each end of the line for clearance. Step 4. Place temporary braces at intervals small enough to hold the wall straight. Step 5. Nail the brace when the wall is far enough away from the line to permit a 3/4-inch block to slide between the line and the plate. NOTE: Do not remove the temporary braces until you have completed the framing—particularly the floor or roof diaphragm that sits on top of the walls—and sheathing for the entire building. Assessment Method: Portfolio Demonstration

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

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PERFORMANCE CRITERIA CHECKLIST OPERATION SHEET NO. 5.4-2c Name of Trainee:______________________________ Date: __________________

CRITERIA

YES

NO

1. Is the erected wall in according to the house plan and specifications of ± 3 mm on all measurements, plumbness, levelness and squareness? 2. Did I use appropriate personal protective equipment in laying out the wall? 3. Did I perform housekeeping according to safety regulation?

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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LEARNING OUTCOME NO. 5

Lay-out/fabricate/install roof frames

CONTENTS: • Types of Roof Designs • Roof Frames • Parts of a Roof • Tension and Compression of Truss ASSESSMENT CRITERIA 1. Types of roof and other components are fabricated, laid-out and installed according to working drawings and specifications with tolerance of + 3mm on all measurements, plumbness, levelness and squareness 2. Roof components are installed according to working drawings and specifications 3. Unexpected situations are responded to in line with work place requirement 4. Housekeeping is performed according to safety regulations 5. Appropriate PPE is used according to job requirements and OHS specifications CONDITIONS: You must be provided with the following: 1. WORKPLACE LOCATION 2. TOOLS AND EQUIPMENT • Claw Hammer • Pencil/Marking pen • Pull-Push Rule • Nylon String • Steel Square • Try-square • Hand Saw • Chalk Line 3. TRAINING MATERIALS Leaning Packages Bond paper Ball pens

• • • • • •

Personal Protective Equipment Portable Circular Saw Plan and working drawings Lumber Nails Plywood

Manuals Related References

ASSESSMENT METHOD Portfolio

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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Learning Experience Lay-out/fabricate/install roof frames Learning Activities

Special Instructions

Read Information Sheet No. 5.5-1 on Types of Roof Design Compare your answer to the answer key

Answer Self-Check No. 5.5-1 Read Information Sheet No. 5.5-2 on Roof Frames

Compare your answer to the answer key

Answer Self-Check No. 5.5-2 Read Information Sheet No. 5.5-3 on Parts of a Roof

Compare your answer to the answer key

Answer Self-Check No. 5.5-3

Evaluate your own work using the Performance Criteria Checklist Perform Operation Sheet No. 5.5-3 on Present your work to your trainer for Laying-out Truss evaluation Keep a copy of your work for the next activities Read Information Sheet No. 5.5-4 on Tension and Compression of Truss Answer Self-Check No. 5.5-4

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Compare your answer to the answer key

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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INFORMATION SHEET NO. 5.5-1 TYPES OF ROOF DESIGNS LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the Different TYPES OF ROOF DESIGNS. A roof in residential construction is typically a sloped structural system that supports gravity and lateral loads and transfers the loads to the walls below. Generally, the four options for wood roof construction are • roof trusses • rafters and cross-ties • rafters with ridge beams (i.e. cathedral ceiling) • timber framing The major types of roofs are: 1. Shed Roof, Lean-to Roof or Pent Roof - a roof shape having only one sloping plane. 2. Gable Roof or Pitch Roof - a roof having a single slope on each side of a central ridge; usually with a gable at one or both ends. 3. Hip Roof or Hip and Valley Roof – a roof which slopes upward from all four sides of a building, requiring a hip rafter at each corner. 4. Pyramidal Roof - a hipped roof that usually has four to six sloping surfaces, terminating in a peak.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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5. Pavilion Roof - a roof hipped equally on all sides, so as to have a pyramidal form; a pyramidal hipped roof. 6. Gambrel Roof - a roof which has two pitches on each side (U.S.); in Great Britain called a Mansard Roof 7. Sawtooth Roof - is a development of the shed roof made into a series of lean-to roofs covering one building. This is commonly used in factories where extra light is required through the clerestories formed in the vertical portion of the roof. 8. Butterfly Roof - is a two shed roof where the slopes meet at the center of the building. 9. Dome - is a hemispherical form of roof usually found in observatories. 10. Conical Roof or Sphere - is a steep roof of circular section that tapers uniformly from the circular base to a central point. - is a steep roof of circular section that tapers uniformly from the circular base to a central point.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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SELF- CHECK NO. 5.5-1 Check your mastery in the different types of roof design by completing the tasks below. IDENTIFICATION: Identify the types of roof design in the illustration. Write your answer on the space provided.

1. ____________________________

2. ____________________________

3. ____________________________

4. ____________________________

5. ____________________________

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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ANSWER KEY 5.5-1 Check your answer with the answer key below. If you fail to get it right, refer back to corresponding resources until you make it perfect. 1. 2. 3. 4. 5.

JZGMSAT QA SYSTEM

Gable roof Hip roof Cross gable roof Gambrel roof Shed

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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INFORMATION SHEET NO. 5.5-2 ROOF FRAMES LEARNING OBJECTIVE: Upon completing this section, you should be able to IDENTIFY the PARTS OF ROOF FRAMES Some important roof terms are: 1. Common rafters - These are framing members that extend at right angles from the plate line to the roof ridge. They are called common rafters because they are common to all types of roofs and are used as the basis for laying out other types of rafters. 2. Hip rafters - These are roof members that extend diagonally from the corner of the plate to the ridge. 3. Valley rafters - These rafters extend from the plate to the ridge along the lines where two roofs intersect. 4. Jack rafters - These are a common rafter. The three kinds of jack rafter are: • Hip jack, which extends from the plate to the hip rafter. • Valley jack, which extends from the ridge of the valley rafter. • Cripple jack, which is placed between a hip rafter and a valley rafter. The cripple jack rafter is also part of a common rafter, but it touches neither the ridge of the roof nor the rafter plate.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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SELF- CHECK NO. 5.5-2 Check your mastery in identifying the different parts of roof frames by completing the tasks below. IDENTIFICATION: Look at the illustration below. Identify the parts of the roof frames by writing your answer on the space provided.

1. _______________________________ 2. _______________________________ 3. _______________________________ 4. _______________________________ 5. _______________________________ 6. _______________________________ 7. _______________________________ 8. _______________________________

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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ANSWER KEY 5.5-2 Check your answer with the answer key below. If you fail to get it right, refer back to corresponding resources until you make it perfect. 1. 2. 3. 4. 5. 6. 7. 8.

Hip rafter Ridge or Ridge board Valley jack rafter Common rafter Hip jack rafter Valley rafter Overhang Plate

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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INFORMATION SHEET NO. 5.5-3 PARTS OF A ROOF TRUSS LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the PARTS OF A ROOF TRUSS. Roof trusses incorporate rafters (top chords) and ceiling joists (bottom chords) into a structural frame fabricated from 2-inch-thick dimension lumber, usually 2x4s or 2x6s. A combination of web members are positioned between the top and bottom chords, usually in triangular arrangements that form a rigid framework. Roof trusses are able to span the entire width of a home without interior support walls, allowing complete freedom in partitioning interior living space. Truss Framing and Parts of a Truss A truss is a structure composed of a combination of members, usually in some triangular arrangement so as to constitute a rigid framework. The major parts of a truss are: 1. Chord - A principal member of a truss which extends from one end to the other, primarily to resist bending; usually one of a pair of such members. The two types of chord members are the upper or top chord and the lower or bottom chord. 2. Web - In a truss, any member which joins the top and bottom chords. There are two types of web members: the vertical web members and the diagonal web members. 3. King post - A vertical member extending from the apex of the inclined rafters to the tie beam between the rafters at their lower ends. A joggle post is a king post having shoulders or notches at its lower end to support the feet of struts. 4. Collar beam - A horizontal member which ties together (and stiffens) two opposite common rafters, usually at a point about halfway up the rafters.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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SELF- CHECK NO. 5.5-3 Check your mastery in the different parts of a roof by completing the tasks below. IDENTIFICATION: Look at the illustration below. Identify the parts of the roof frames by writing your answer on the space provided.

1. ___________________________ 2. ___________________________ 3. ___________________________ 4. ___________________________ 5. ___________________________

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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ANSWER KEY 5.5-3 Check your answer with the answer key below. If you fail to get it right, refer back to corresponding resources until you make it perfect. 1. 2. 3. 4. 5.

JZGMSAT QA SYSTEM

Slope Rafter Bottom Chord Splice Web

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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OPERATION SHEET NO. 5.5-3 Title:

Layout Truss

Performance Objective:

Given the necessary materials, you should be able to layout truss

Supplies and Materials:

Working Drawing/ Plan Lumber, fasteners

Tools and Equipment:

• • • •

circular saw hand saw hammer wrecking bar

folding rule try square measuring rods

• • •

Steps/Procedure: Step 1. Get the material to a level spot of ground where work benches will be almost level. Step 2. Obtain from the blueprints the measurement of all pieces to be used in the truss. Step 3. Lay out the length on the different sizes of timber and cut them accurately. Step 4. After all lengths are cut, lay them in their correct position to form a truss. Step 5. Nail them together temporarily. Step 6. Lay out the location of all holes to be bored. Recheck the measurements for accuracy. Step 7. Bore holes to the size called for on the print. Use a brace and bit or the woodborer that accompanies the air compressor. Bore holes perpendicular to the face of the timber.

Truss Layout Assessment Method: Portfolio Demonstration

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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PERFORMANCE CRITERIA CHECKLIST OPERATION SHEET NO. 5.5-3 Name of Trainee:______________________________ Date: __________________

CRITERIA

YES

NO

1. Did I lay out the length of the different sizes of timber and cut them accurately? 2. Did I assemble truss components according to working drawing s and specifications with tolerance of ± 3 mm on all dimensions, plumbness, levelness and squareness? 3. Did I use appropriate personal protective equipment in cutting formwork materials? 4. Did I perform housekeeping according to safety regulations?

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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INFORMATION SHEET NO. 5.5-4 TENSION AND COMPRESSION OF TRUSS LEARNING OBJECTIVE: Upon completing this section, you should be able to KNOW the TENSION AND COMPRESSION OF A TRUSS All trusses in a roof structure are designed for the worst possible combination of dead, live and wind loads. The individual truss members are designed to restrain the corresponding forces i.e., tension or compression, or a combination of bending with either the tension or compression force. a. Tension (pulling). With this type of force the member being pulled or subjected to a tension force is said to be “in tension”. The ability of a member to restrain tension forces depends on the material strength of the member and its cross-sectional area. b. Compression (pushing). When a structural member is subjected to this type of force it is sometimes referred to as a column. Unlike a tension member, the ability of a column to restrain compression forces is not simply a function of the cross-sectional area, but a combination of the material strength, the column length and the cross-sectional shape of the column. In view A, the ends of the two top chords (A-B and A-C) are being pushed together(compressed). The bottom chord prevents the lower ends (B and C) of the top chords from pushing out; therefore, the bottom chord is in a pulling-apart state(tension). Because the lower ends of the top chords cannot pull apart, the peak of the truss (A) cannot drop down. In view B, the long webs are secured to the peak of the truss (A) and also fastened to the bottom chord at points D and E. This gives the bottom chord support along the outside wall span. The weight of the bottom chord has a pullingapart effect (tension) on the long webs.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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In view C, the short webs run from the intermediate points F and G of the top chord to points D and E of the bottom chord. Their purpose is to provide support to the top chord. This exerts a downward, pushing-together force (compression) on the short web. In view D, you can see that the overall design of the truss roof transfers the entire load (roof weight, snow load, wind load, and so forth) down through the outside walls to the foundation. Web members must be fastened at certain points along the top and bottom chords in order to handle the stress and weight placed upon the truss.

The balance of tension and compression gives the truss its ability to carry heavy loads and cover wide spans.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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SELF- CHECK NO. 5.5-4 Check your mastery in the tension and compression of truss by completing the tasks below. IDENTIFICATION: Look at the illustration below. Identify the tension and compression member of the roof truss by writing your answer on the space provided. Write T if the truss member is a tension member or C if it is a compression member.

1. ____________ 2. ____________ 3. ____________ 4. ____________ 5. ____________

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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ANSWER KEY 5.5-4 Check your answer with the answer key below. If you fail to get it right, refer back to corresponding resources until you make it perfect. 1. 2. 3. 4. 5.

C C T T C

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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LEARNING OUTCOME NO. 6

Lay-out/install ceiling joist

CONTENTS: • Ceiling Joist ASSESSMENT CRITERIA 1. Ceiling joists are identified, measured, and cut according to working drawings and specifications with tolerance of + 3 mm on all measurements, levelness and squareness 2. Ceiling joists are laid-out and installed according to working drawings and specifications with tolerance of + 3 mm on all measurements, levelness and squareness CONDITIONS: You must be provided with the following: 1. WORKPLACE LOCATION 2. TOOLS AND EQUIPMENT • Claw Hammer • Pencil/Marking pen • Pull-Push Rule • Nylon String • Steel Square • Try-square • Hand Saw • Chalk Line 3. TRAINING MATERIALS Leaning Packages Bond paper Ball pens

• • • • • •

Personal Protective Equipment Portable Circular Saw Plan and working drawings Lumber Nails Plywood

Manuals Related References

ASSESSMENT METHOD Portfolio

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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Learning Experience Lay-out/install ceiling joist Learning Activities

Special Instructions

Read Information Sheet No. 5.6-1 on Types of Roof Design Evaluate your own work using the Performance Criteria Checklist Perform Job Sheet No. 5.6-1 on Install Present your work to your trainer for Ceiling Joist evaluation Keep a copy of your work for the next activities

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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INFORMATION SHEET NO. 5.6-1 CEILING JOISTS LEARNING OBJECTIVE: Upon completing this section, you should be able to Identify the PARTS of CEILING FRAMES and Know how to INSTALL it. A wood ceiling framing system consists of a framework of joists composed of the ceiling joists, the binding joist or binder, the plate joist and the ceiling strap. 1. Ceiling joist - one of several small beams to which the ceiling of a room is attached. They are mortised into the sides of the binding joists, nailed to the underside of these joists, suspended from them by straps. 2. Binding joist or binder - a beam which supports the common joists of a wood floor above and the ceiling joists below; commonly joins two vertical posts. 3. Plate joist - a horizontal board which connects and terminates the ceiling joists. It provides the line and rigidity at the ends of the joists and connects the suspended ceiling to the walls. 4. Ceiling strap - a strip of wood, nailed to the underside of floor joists or rafters, from which a ceiling is suspended or fastened.

Roof Framing Ceiling Joists Parallel to Rafters Ceiling joists are usually installed 16 inches or 24 inches on center, starting at one side of the building and continuing across, parallel to the rafters. Extra joists, if needed, may be placed without affecting the spacing of the prime joists. Selecting and installing the ceiling joists are much the same as for floor joists. Ceiling joists are nailed to both the plates and the rafters, if possible, and lapped and nailed over bearing partitions. Joists that lie beside rafters on a plate are cut at the same pitch as the rafter, flush with the top of the rafter. Joists are installed crown or camber up.

JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

Document No. Issued by: Revision ____

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JZGMSAT QA SYSTEM

Carpentry NC II Install Framing Works

Date Developed: Sept. 1, 2011 Developed by: Glenn F. Salandanan

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