Gate 2 Group 27 2012
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(*N/A denotes step can be done by hand) | (*N/A denotes step can be done by hand) | ||
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| + | ===Intent For Disassembly=== | ||
| + | After the disassembly of the drill we determined that although most of the drill is intended for disassembly, there are a few components that are not ment to be taken apart. Due to the nature of the drill and the warranty informations provided in the box it can be assumed that most of the drill's subsystems need to be easily accesible both for the initial assembly and to perform maintenance on the drill. First, the plastic housing that contains the drill's major subsystems can easily be removed using a single common size phillips head screwdriver. This signals that the drill's subsystems are ment to be easily accesible. The next part of the drill that is ment to be taken apart is the drill's trigger system. It can be accessed be removing a series of plastic tabs from the trigger housing and allows direct access to the trigger circuitry. Again, the easy access can be explained by the need for drill maintenance. The clutch and chuck are easily removed from the the motor by unscrewing 4 screws. This along with the fact that the motor input wires are also easily detachable signals that the motor of the drill is ment to be easily replaced. The difficulty we had separating the the clutch from the chuck infers that the although they are ment to be disassembled, it may only be done by someone with the right tools and experience such as a company maintenance technician or a tool repair man. The clutch itself can be further disassembled be easily removing a few more screw which signals that the it is ment to be disassembled, either to add lubricant or replace cracked ball bearings. The chuck itself is not ment to be disassembled. It is sealed together by a factory made bond which can not be reversed. This is because of the design of the chuck, if taken apart the chuck does not easily go back together and if broken, requires a replacement chuck; it is essentially unfixable if broken. | ||
==Connection of Subsystems== | ==Connection of Subsystems== | ||
Revision as of 14:55, 24 October 2012
Contents |
Gate 2:Product Disection
Introduction
In Gate 2, we will first review how our team completed Gate 1, with attention to what worked well, as well as what areas need to be improved upon. Next, we will be dissecting the product, and recording each step of the disassembly. We will then identify and analyze each subsystem, and how each subsystem is related to the others. We will then review each subsystems' design and placement, and consider how the GSEE factors were taken into consideration.
Preliminary Project Review
Cause for Corrective Action
Our work and management methods from Gate One could use a fair amount of revision, although we did perform well in certain areas. One thing that worked out well was that one person set up the wiki page so that everything was organized, and all titles and links were set up so that the other group members would only have to copy and paste text from a word document into their allocated sections. Another thing that worked well was the fair allocation of different tasks to different people. This balanced the workload and made the project much more manageable for each person. Also, there was effective communication through email, as well as text messaging and phone calls. The group emails made sure that everyone had a record of what each person was responsible for. Also, some of us went to talk to the professors or the TAs, and it significantly improved the quality of our project. We will be continuing these processes for Gate Two.
Some of our work and management methods needed more revision and improvement in order to do better on Gate Two. The group’s time management needs the most improvement. In Gate One, we started very close to the deadline, and had to cram in order to get the project done, with no time for review, which was really needed. For Gate two, we immediately started on the project just after Gate One was due. Another aspect that needed improvement was that our group did not meet enough. For all future projects, we will try to meet at least every week, Wednesdays after class. Also, some members of the group are less experienced with technical writing, and tend to use things such as vague terms rather than exact values, and other such mistakes. Because of this, the group will use the meetings to review everyone’s work, and to help each other improve their technical writing.
Product Dissection
Difficulty Rating
An important part of understanding the product dissection is understanding the difficulty involved with each step of the disassembly process. The following rating system and tool chart is ment to inform anyone looking to disassemble the drill by letting them know how hard each step is going to be and any special tools needed to complete the task.
Difficulty Chart:
Table 4.1: Difficulty Chart
| Rating | Description | Example |
| Easy | Tasks that involve little intuitive thinking and minimal physical effort that can be accomplished by one person | Removing the housing screws |
| Medium | Tasks that involve some intuitive thinking and some physical effort but can still be accomplished by one person | Removing the left hand thread star drive screw |
| Hard | Tasks that involve a lot of intuitive thinking and heavy physical effort that cannot be accomplished by one person | Removing the Chuck from the Clutch |
Tool Chart:
Table 4.2: Tool Chart
| Tool | Description | Picture |
| Flat Head Screwdriver | Screwdriver ment for screwing and unscrewing flathead screws. Also works as small pry-bar |  |
| Phillips Head Screwdriver | Screwdriver ment for screwing and unscrewing phillips head screws |  |
| Star Head Screwdriver | Screwdriver ment for screwing and unscrewing star head screws |  |
| Allen Wrench Set | Set of allen wrenches ment for screwing and unscrewing allen head screws. Also good for removing E and C clips |  |
| Box-Cutter | Razor blade knife used for cutting various materials |  |
| Combination Pliers | Pliers used for removal of uncommon threaded components |  |
Disassembly Process:
Table 4.3: Disassembly Process
| Step | Description | Difficulty | Tool Used* | Pictures |
| 1 | Remove the seven right sole housing screws with a phillips head screw driver | Easy | Phillips Head Screwdriver |  |
| 2 | Create cardboard layout of drill | Easy | N/A |  |
| 3 | Place corresponding screws in diagram | Easy | N/A | |
| 4 | Remove metal crimp on battery port | Easy | Flat Head Screwdriver |  |
| 5 | Cut battery port sticker along shell seam | Easy | Box-Cutter |  |
| 6 | Remove plastic shell piece with flathead screwdriver | Easy | Flat Head Screwdriver |  |
| 7 | Take connected subsystems out of plastic shell using plyers | Easy | Combination Pliers |  |
| 8 | Remove motor connections with a flathead screwdriver | Easy | Flat Head Screwdriver |  |
| 9 | Remove motor/gear assembly form clutch/chuck assembly by rotating and then pulling | Medium | N/A |  |
| 10 | Remove planetary gearbox form motor | Easy | N/A |  |
| 11 | Pull off motor washer | Easy | N/A |  |
| 12 | Remove motor mount screws with phillips head screwdriver | Easy | Phillips Head Screwdriver |  |
| 13 | Remove motor cover | Easy | Flat Head Screwdriver |  |
| 14 | Remove eight ball bearings from gearbox | Easy | N/A |  |
| 15 | Remove planetary gears | Easy | N/A |  |
| 16 | Remove secondary planetary gears from gearbox | Easy | N/A |  |
| 17 | Remove star drive bit in drill chuck (left hand thread) | Medium | Star Head Screwdriver |  |
| 18 | Remove chuck from clutch with allen wrench | Hard | Allen Wrench |  |
| 19 | Pry off grip ring from chuck | Medium | Flat Head Screwdriver |  |
| 20 | Remove c-clip from clutch head | Medium | Allen Wrench and Combination Pliers |  |
| 21 | Remove metal position ring | Easy | N/A |  |
| 22 | Take off position collar | Medium | N/A |  |
| 23 | Remove spring tensioner, spring and washer | Medium | N/A |  |
| 24 | Remove tape from trigger box | Easy | N/A |  |
| 25 | Remove tabs surrounding trigger box with small knife | Easy | Box-Cutter |  |
| 26 | Remove trigger spring | Easy | N/A |  |
(*N/A denotes step can be done by hand)
Intent For Disassembly
After the disassembly of the drill we determined that although most of the drill is intended for disassembly, there are a few components that are not ment to be taken apart. Due to the nature of the drill and the warranty informations provided in the box it can be assumed that most of the drill's subsystems need to be easily accesible both for the initial assembly and to perform maintenance on the drill. First, the plastic housing that contains the drill's major subsystems can easily be removed using a single common size phillips head screwdriver. This signals that the drill's subsystems are ment to be easily accesible. The next part of the drill that is ment to be taken apart is the drill's trigger system. It can be accessed be removing a series of plastic tabs from the trigger housing and allows direct access to the trigger circuitry. Again, the easy access can be explained by the need for drill maintenance. The clutch and chuck are easily removed from the the motor by unscrewing 4 screws. This along with the fact that the motor input wires are also easily detachable signals that the motor of the drill is ment to be easily replaced. The difficulty we had separating the the clutch from the chuck infers that the although they are ment to be disassembled, it may only be done by someone with the right tools and experience such as a company maintenance technician or a tool repair man. The clutch itself can be further disassembled be easily removing a few more screw which signals that the it is ment to be disassembled, either to add lubricant or replace cracked ball bearings. The chuck itself is not ment to be disassembled. It is sealed together by a factory made bond which can not be reversed. This is because of the design of the chuck, if taken apart the chuck does not easily go back together and if broken, requires a replacement chuck; it is essentially unfixable if broken.
Connection of Subsystems
The drill contains several subsystems which work together, transmitting energy and signals across systems boundaries. Each system was optimized to maximize its function, and to work with its corresponding subsystems.
Battery to Trigger Box
- Physical: The battery is connected to the trigger box via a plug and wires. The plug is permanently housed inside the base of the drill, and is positioned so that it will contact the metal connections of the battery when the battery is placed in the drill. The two metal prongs of the plug fit into the metal-lined slots of the battery, forming a metal-to-metal physical contact. The metal prongs are each connected to a separate wire, which leads to connections on the circuit board of the trigger box.
- Energy: The battery supplies electrical energy, with an electric potential of 12 volts. The electrons flow through the wire connected to the negative polarity battery connection, then through the circuit and back to the battery again into the positive polarity terminal.
- Signal: The trigger box signals the amount of current to be drawn from the battery by limiting the amount of electricity that can flow through the circuit.
- Reason for connection: The trigger box is connected to the battery so that it can limit the amount of electricity going through the rest of the circuit. Without this connection there would be no control over the energy flowing through the system.
- GSEE Influence:
- Connection's influence on performance:
Trigger Box to Motor
- Physical: The connection between the motor and trigger box is composed of two wires, leading from the trigger box to the connection tabs on the back of the motor. The wires are soldered to the trigger box. The other end of the wire is soldered to a metal clip, which fits on the tab of the motor.
- Mass: There is no flow of mass other than the flow of electrons, which is negligible.
- Energy: The trigger box sends a regulated amount of electricity through it, originally coming from the battery. This then gives power to the motor.
- Signal: The signal is the regulated amount of electricity coming from the trigger box.
- Reason for connection: This connection exists because the motor needs a regulated amount of electrical energy so that the user may have the proper mechanical energy for the application.
- GSEE Influence:
- Connections influence on performance:
Motor to Clutch
- Physical:The motor is connected to the clutch by a planetary gear box. The planetary gear box cosists of six gears, three of which are plastic and three of which are metal. There is also a drive gear in the center that spins the three gears around it. The clutch regulates the torque of the motor. The clutch is operated by turning the plastic piece to the setting of the desired torque.
- Mass:No mass is transfered.
- Energy:The power from the motor is regulated by the clutch.
- Signal:The motor will only work if there is a signal received from the trigger, and the clutch needs to manually be turned inorder for it to use the desired torque.
- Reason for connection:The reason the motor and clutch are connected is to ensure that the right amount of torque is used. Too much torque could damage what is being worked on and not enough torque prevents the task from being accomplished.
- GSEE Influence:
- Connections influence on performance:
Clutch to Chuck
- Physical:The clutch is attached to the chuck by a threaded screw, which required a lot of torque to unscrew.
- Mass:No mass is transfered.
- Energy:The Clutch takes mechanical rotational energy and transfers it directly to the Chuck. The clutch limits the amount of torque that can be put on the system by letting the system slip at a certain torque.
- Signal:The clutch can only be signaled by the operator. The chuck is signaled by the drill and the operator in a joint effort to tighten the chuck keys around the drill bit.
- Reason for connection:The clutch and chuck are connected to ensure that the correct bit and torque and used during the task.
- GSEE Influence:
- Connections influence on performance:
