Group 1 - Black & Decker Drill
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<b>The orientation of the heat sink:</b> The heat sink can be attached from either end. The wrong way will make the armature too short and it will no longer fit properly into the casing.</blockquote> | <b>The orientation of the heat sink:</b> The heat sink can be attached from either end. The wrong way will make the armature too short and it will no longer fit properly into the casing.</blockquote> | ||
It is recommended that photographs of both parts and stages be used as aides during the disassembly process.<br><br> | It is recommended that photographs of both parts and stages be used as aides during the disassembly process.<br><br> | ||
| − | <B>Tools required:</B> Torx #15 screw driver<br>< | + | <B>Tools required:</B><br> <blockquote>Torx #15 screw driver<br> |
| − | *The drill was in full working order prior to dissection and was unplugged.<br><br> | + | 0.5mm Flat-head screw driver</blockquote> |
| + | *<I>The drill was in full working order prior to dissection and was unplugged.</I><br><br> | ||
Revision as of 14:01, 30 October 2009
Contents |
Executive Summary
The Black & Decker® DR202 3/8” Variable Speed/Reversible Drill is a must-have tool for almost any project. This six-pound power tool is light enough to be used for the everyday 'do it yourself' tasks while the five-amp motor is powerful enough for professional carpentry and construction jobs.
The main purpose of the DR202 is to drive and remove screws, and drill holes through various materials such as dry wall, steel, soft and hard woods, and plastics. It operates by taking electrical energy supplied by a standard household power outlet which it converts to rotational energy used within the motor. The rotational energy is transferred to mechanical energy, moving the gears within the motor, which supplies the torque to move the bit. It has variable speed: the farther the trigger is depressed, the higher the speed of the drill. The drill can also be locked for continuous use by squeezing the trigger while pushing in on the trigger lock mechanism. Additionally, the drill has a 8’ electrical cord with a two-prong plug. It has a direction reverse switch: push the switch to the right for forward rotation (clockwise rotation), push the switch to the left for reverse rotation (counterclockwise). The drill has a fifteen-position keyless chuck and a convenient bit holder located on top of the drill.
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Gate 1: Request For Proposal
Gate 2: Preliminary Design Review
Gate 2 consists of two parts: cause for corrective action and a step-by-step disassembly of the drill. The cause for corrective action allows for the group to reflect on the first three weeks of the reverse engineering project and tweak the group's planned approach. The step-by-step disassembly process is meant to provide a person, that is unfamiliar with the drill, with a set plan that will allow him or her to break down the drill. To facilitate the disassembly process, a parts list, which provides part nomenclatures, quantities and photographs, along with end-step photographs are provided.
Causes for Corrective Action
As the group moves toward the dissection of the Black & Decker Power Drill, it is necessary to do an assessment of the work completed thus far as well as the management plan. Fortunately, the project has moved along smoothly with no major setbacks.
The group was able to communicate their strengths, weaknesses, and schedules effectively during the management proposal processes so that we could progress with very little deviation from the original plan. In fact, we have found only one aspect of our management proposal that needed editing. We had originally agreed that a group meeting would be necessary every Sunday afternoon to collaborate on group progress and to address any issues. However, it was quickly realized that this weekly meeting was not realistic when group members would have to commute 30 minutes one-way in order to attend a meeting that might last 15 minutes; our group sits together for lecture three times a week and any concerns can be brought forward in person during that time. Furthermore, the few questions group members have come up with that had to be immediately addressed, were effectively acknowledged and resolved via e-mail and phone conversations.
At this time, there are no unresolved challenges or potential problems therefor no other corrective actions need to be taken to complete the project as scheduled--the management plan was made flexible enough to account for any changes that may be necessary in the coming weeks.
Parts List
The "Parts List" table below provides a list of the components that will be observed during the disassembly process.
| Part List [1] | ||||||||
|---|---|---|---|---|---|---|---|---|
| Item Number | Description | Quantity required | Object Picture | Item Number | Description | Quantity required | Object Picture | |
| 1 | Housing and Cover | 1 |  |
15 | Reverse Ring | 1 |  | |
| 2 | Spindle | 1 |  |
16 | Reverse Lever | 1 |  | |
| 3 | Gear | 1 |  |
17 | VS Switch | 1 |  | |
| 4 | Washer | 1 |  |
18 | Cord – 8ft | 1 |  | |
| 5 | Front Bearing Plate | 1 |  |
19 | Cord Protector | 1 |  | |
| 6 | Keyless Chuck | 1 |  |
20 | Clamp, Cord | 1 |  | |
| 7 | Rear Bearing Plate Assembly | 1 |  |
21 | 3/4" Screw with #15 Torx heads | 11 | _clamp,_cord_screws.JPG) | |
| 8 | Gear and Pinion | 1 |  |
22 | 1 7/8" Screw with #15 Torx heads | 2 | _field_screws.JPG) | |
| 9 | Armature | 1 |  |
23 | Name Plate | 1 | .JPG) | |
| 10 | Retaining Ring | 1 |  |
24 | Brush | 2 |  | |
| 11 | Washer, Plain | 1 |  |
25 | Felt Washer | 1 |  | |
| 12 | Sink, Heat | 1 |  |
26 | Cap | 1 |  | |
| 13 | Washer | 1 |  |
27 | Level | 1 |  | |
| 14 | Field | 1 |  |
28 | Bit Holder | 1 |  | |
Product Dissection Plan
The "Product Dissection By Steps" table seen below details a step-by-step process for dissecting the drill. Special attention should be focused on:
The removal of the retaining ring: Its size, in combination with the required force to remove it, can launch the clip in an unexpected manner. A small box, about the size of a shoebox, is recommended during this process.
The orientation of the heat sink: The heat sink can be attached from either end. The wrong way will make the armature too short and it will no longer fit properly into the casing.
It is recommended that photographs of both parts and stages be used as aides during the disassembly process.
Torx #15 screw driver
0.5mm Flat-head screw driver
- The drill was in full working order prior to dissection and was unplugged.
| Product Dissection By Steps | |||||
|---|---|---|---|---|---|
| Step | Description | Tool Required | Time Required | Difficulty (1-3) | Picture |
| 1 | Removed the (9) screws from the drill housing that secure it shut | Torx 15 screw driver | 2:15 | 1 |  |
| 2 | Separated each external component from drill housing: the exterior cover was lifted away allowing for easy access to the level and bit holder located on the top of the drill housing | Hands | 1:45 | 1 |   |
| 3 | Removed the metallic cord clamp which secures power cord | Torx 15 screw driver | 0:54 | 1 |  |
| 4 | Removed VS switch from drill housing by lifting it out | Hands | 0:10 | 1 |  |
| 5 | Slid reverse lever from its grove in the drill housing | Hands | 0:10 | 1 |  |
| 6 | Lifted internal assembly (motor, gear set, armature) from the drill housing where it was held in place by groves Take special note of the orientation of all internal parts. When replacing internal assembly notice that the white power cord is on top and that the smooth side of the heat sink is away from the motor |
Hands | 0:45 | 1 |  |
| 7 | Separated internal assembly into motor assembly, keyless chuck assembly, gear and pinion, and the rear bridge plate assembly by sliding each component apart | Hands | 1:23 | 1 |  |
| 8 | Removed power wires from the rear of the motor assembly by pulling out on the wires, noting that the black wire entered the motor near the hole marked with a "B". Removed the armature by compressing the retaining brushes with a flat-head screwdriver, which secured the armature inside of the motor assembly by clamping down on it near the heat sink. Disassembled motor assembly into field and reverse ring by removing (2) field screws. |
Torx 15 to remove (2) flat-head screwdrivers |
4:39 | 3 |  |
| 9 | Carefully removed retaining ring from rear of armature by applying pressure with two flat-head screwdrivers on the tails of the "C" shaped clamp--two screwdrivers are required to prevent the retaining ring from rotating as the clamp is slid off. The armature should be placed inside of a box in order to maintain control of the retaining ring when it is forced off. Removal of the ring allowed for the separation of a washer and the heat sink. | (2) flat-head screwdrivers small box (6" x 4") |
3:27 | 3 |  |
Total dissection time: 14 minutes, 12 seconds.
*Note: the break down for the difficulty levels are as follows:
1 = easy; requiring little effort.
2 = medium; some prior thinking required.
3 = hard; required multiple attempts; two people recommended.
- Is the product intended to be taken apart easily?
Based upon the disassembly described above and the fasteners used, which can be easily removed and replaced, this product is, in fact, intended to be taken apart easily. All but two steps were rated as a 1 out of 3 on the difficulty scale and the whole dissection process took two people a little over fourteen minutes. Step 8 received a difficulty rating of 3 because the group failed to take specific note of which wire went in which hole on the reverse ring and because the removal of the armature was not immediately apparent and was best accomplished by two people: one person compressing the brushes while the second slides the armature out. Step 9 received a difficulty rating of 3 due to the retaining ring: the removal of the ring requires two people to push it off and the group underestimated the effect of the force and the resulting acceleration of the ring once it was released from its position. Luckily, the floor was white and the ring showed up easily on the linoleum. The rest of the steps consisted of either removing some screws or lifting components held in place by molded plastic.
The ease of disassembly is a benefit of the drill such that it allows for broken or worn pieces to be easily replaced by the user as opposed to a more complex drill where someone would have to be paid to fix it.
- What fasteners are used and why?
The fasteners used are:(11) 3/4" Screws with #15 Torx heads: These metallic screws are a non-permanent, inexpensive and effective way to secure lightweight materials while minimizing assembly/disassembly time.The manufacturer, by using all the same Torx head screws, can keep production time and costs down by reducing the number of different tools required to assemble the product.
(2) 1 7/8" Screws with #15 Torx heads: These metallic screws are a non-permanent, inexpensive and effective way to secure lightweight materials while minimizing assembly/disassembly time.
- Are special tools required?
No special tools other than the Torx #15 were required, but pictures taken from a digital camera during disassembly will provide a visual aid that can be relied upon for reassembly.
Contact Us
Group 1 E-mail
References
[1] "DeWalt Service Technical Information" dewaltservicenet.com. 12 OCT 2009 <http://www.dewaltservicenet.com/Products/DocumentViewPDF.aspx?productid=33258&typeId=8795&documentId=21976&AspxAutoDetectCookieSupport=1>
