Group 13 - Skil Circular Saw
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Contents |
Executive Summary
This project is a documentation of the disassembly and basic analysis of a Skill Saw brand circular saw model 54HD. Our team disassembled, analyzed, documented, modeled, and reassembled this circular saw, gaining insights into its design and construction. Each individual part was looked at for a purpose and manufacturing technique used in the construction of the material. Though this analysis, we were able to learn about the products function as well as come up with some potential design and manufacturing improvements. This product was working when obtained, and was working correctly upon reassembly. The following information contains a detailed summary of the work completed by our team during the fall 2008 semester.
Introduction
Group Members
- Nick Day
- Worked on PowerPoint Editing
- Wrote Assembly & Disassembly Paragraphs on the Wiki
- Helped Post Process Pictures
- Disassembly/Reassembly
- Dan DiNardo
- Filled out parts list
- Identified materials and construction methods
- Disassembly/Reassembly
- Ian Duncan
- Picture labeling/uploading during Disassembly/Assembly
- PowerPoint Editing
- Disassembly/Reassembly
- Wikipedia Page
- Dan Pastuf
- Presentation
- Principle for Wikipedia Page
- CAD Drawing
- Jonathan Resnick
- Presentation
- Disassembly/Reassembly
Predisassembly Analysis
The Skil Saw Model 54HD is a electrical hardware tool which is used to cut various materials. The principle material cut with this is wood. It works by converting electrical power from a standard wall outlet to mechanical energy through electromagnetic forces. At this point in the dissection, we believed that the unit was a direct shaft from the motor to the blade. Upon plugging this product in and turning it on, the unit appears to be in perfect working order, minus the blade (which it was explained was for safety/liability reasons by the Lab). The unit seems to be in brand new shape. When turned on, the system appears to make a whirring noise, at a steady level. Also, the estimations of parts at this point was in the range of 100 to 150 pieces, including all of the various nuts, bolts, rubber gaskets, and screws, as well as the main components. We anticipated at this point that there were around seven to ten different materials, although the main components were Rubber, Copper, Plastic, and Aluminum materials.
Disassembly
The first stage of disassembly of our Circular Saw consisted of removing the skid plate that was attached to the bottom of the unit. This was the only component that gave us any difficulty, as the pin that held the skid plate to the mounting bracket, made of rolled steel, was a tight fit, and had to be forcefully removed. All other parts required only unscrewing or unbolting the part in order to remove. We then removed the Blade Guard and the pieces that held it in place, such as the guard tension spring, a rubber stop, and other various clips and screws. Then the Blade Housing was removed, which exposed the Main Motor and Housing. There are three components to this section, the Housing, the Armature and the Final Drive Gear. This basically works like an electromagnet, where a copper coil(armature) spins within the main blade housing, creating alternating polarities. We also took apart the handle, which was very easily dissected. This helped our group to understand how the integrated variable resistor trigger system worked. Below is the chronological order of the dissamble process:
1) Disassemble Skid Plate
- a. Adjusting wing nut in front
- i. Screws off readily
- b. Remove Cutting depth adjustment lever (red plastic lever)
- i. Remove c clip and nut (easily removed)
- c. Remove pin that holds front mounting bracket to skid plate.
- i. We carefully hammered it out using an Allen wrench consisting of a similar diameter and we used a wood hammer. (not too difficult)
2) Blade Guard
- a. Remove blade guard tension spring
- b. Remove blade guard rubber stop (torque screw)
- c. Remove blade guard flipper handle (torque screw)
- d. Use flat head to remove retainer clip which holds the blade guard secure to the shaft.
- i. We first tried removing the nut on the end of the shaft but that did not work, then realized that there was a retainer clip.
3) Blade Housing
- a. Remove main blade housing
- b. Remove retainer screws for housing
- c. Remove blade shield
- i. All of this was fairly straight forward and easy.
- ii. A brush from the motor fell out when we did this.
4) Main Motor & shaft Housing
- a. Remove 3 torque screws around gearbox.
- b. Remove 4 torque screws securing blade housing to main housing
- i. (easy, all screws were torque size T20)
- c. Separate main housing from blade housing
- i. Other brush from the motor fell out when we did this.
- d. 3 main components –
- i. Housing (cast aluminum?)
- ii. Armature (has thrust washer) fins – copper
- iii. Final drive gear
5) Handle – (injection molded plastic?)
- a. Remove handle screws (6 - T20)
- b. Separates horizontally into 2 halves.
Part List
| Item # | Quantity | Designation | Material | Manufacturing Process | Picture | |
| 1 | 1 | Housing | Polysufone(plastic) | Injection Moulding |  |
|
| 2 | 1 | Field (120V) | Copper,steel,phenolics (plastic) | drawing,stamping,I.M. respectively |  |
|
| 3 | 1 | Armature (120V) | copper, steel, phenolics (plastic) | drawing, stamping, I.M.,Turning |  |
|
| 4 | 1 | On/Off Switch | Polysufone(plastic) | compression moulding |  |
|
| 5 | 1 | Main Connection Cable | Copper,steel, poss. pvc (plastic) | drawing,stamping,extrusion |  |
|
| 8 | 1 | Nameplate | plastic (thin flexible) | sheet forming |  |
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| 9 | 1 | Reference Plate | steel | stamping, bending |  |
|
| 14 | 1 | Bearing Sleeve | Bearing Bronze | Pressed (oil-impregnated) | File:Citationneeded.JPG 160px |
|
| 19 | 8 | Self-Tapping Screw | Hardened steel | Machining |  |
|
| 20 | 1 | Reference Plate | plastic (thin flexible) | sheet forming |  |
|
| 22 | 2 | Plain Washer | steel | stamped |  |
|
| 23 | 1 | Washer | steel | stamped |  |
|
| 24 | 1 | Protective Cover | Aluminum | Cast |  |
|
| 26 | 1 | Bearing Flange | steel | turned |  |
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| 27 | 4 | Screw | steel | Machining | .JPG) |
|
| 28 | 2 | Supporting Disk | carbon steel | turned |  |
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| 29 | 1 | Housing Cover | polysulfone (plastic) | Injection Moulding |  |
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| 30 | 1 | Connecting Cable (385 mm) | copper, polypropylene or pvc | drawing, extrusion moulding | ||
| 31 | 1 | Connecting Cable | Polypropylene or pvc | extrusion moulding | ||
| 32 | 1 | Guard Plate | Cast Aluminum | Casting |  |
|
| 33 | 1 | Spring | steel | Rolling |  |
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| 34 | 1 | Lever | Plastic | compression moulding |  |
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| 36 | 1 | Retaining Ring | Hardened steel | turned, bending, quenching |  |
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| 39 | 6 | Headless Screw | steel | Machined |  |
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| 40 | 1 | Casing Foot | Galvanized steel | stamped,bending |  |
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| 41 | 1 | Round Head Bolt | steel | Machining |  |
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| 42 | 1 | Wing Nut | steel | Machine Milled & Tapped |  |
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| 43 | 1 | Roller Pin | steel | Rolling |  |
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| 48 | 1 | Guide Piece | polysulfone | injection moulding | ||
| 49 | 1 | Stop | polyurethane | Transfer moulding |  |
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| 50 | 1 | Spacer Bolt | soft carbon steel | Machining | |
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| 51 | 1 | Socket Head Screw | steel | turning, milling, drilling, tapping | |
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| 52 | 1 | HEXAGON SCREW | steel | turning, milling, thread rolling. |  |
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| 66 | 1 | SINTERED-METAL BUSHING | steel | machined,bending | ||
| 67 | 1 | REFERENCE PLATE | steel | stamped |  |
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| 651 | 1 | BOX WRENCH | steel | stamping, bending, drilling |  |
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| 810 | 1 | CARBON-BRUSH SET | Carbon | pressed powder | ||
| 825 | 1 | Pinion Shaft | steel | Machined (lathe) |  |
|
| 837 | 1 | SET OF HANDLES | Polysulfones (plastic) | compression moulding |  |
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| 846 | 1 | LEVER | Polysulfones (plastic) | compression moulding |  |
|
Key Component Analysis
C.A.D. Images / Files
The following parts have been modeled into a 3D program:
| Item # | Quantity | Designation | Material | Manufacturing Process | Picture | |
| 26 | 1 | Bearing Flange | steel | turned | |
|
| 28 | 2 | Supporting Disk | carbon steel | turned | |
|
| 52 | 1 | HEXAGON SCREW | steel | turning, milling, thread rolling. | |
|
| 825 | 1 | Pinion Shaft | steel | Machined (lathe) | |
|
Link to .zip CAD Files: File:Skill Saw.zip
Re-Assembly
Our groups re-assembly process was essentially the disassembly in reverse. We began with the Trigger/handle component and worked our way back, using our prior knowledge and the cataloged pictures to correctly complete the project. We then reconstructed the Main Blade housing, the main component of the tool. The main change that our group made was reconnecting the skid plate before the blade guard, which did not alter its usage by any means, it just slightly increased the level of difficulty of reattaching the blade guard with the skid plate already in place. This error in the "timeline" did not cause any problems in our groups effort, and was reletively miniscule, so it could be said that our re-assembly and disassembly were a "mirror image" of one another.
