Gate 3 - Product Analysis (Group 18)
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| − | |Function | + | |'''Function''' |
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Revision as of 23:15, 15 November 2012
Contents |
Gate 3: Product Analysis
Purpose
In Gate 2, the RC Helicopter was disassembled to its basic components. In Gate 3, we can now produce a detailed analysis of each individual component. This gate contains all the information gathered from the examination of components at the subsystem level.
This gate consists of the Project Management: Coordination Review - Cause for Corrective Action and the Product Archaeology: Product Evaluation - Component Summary, Product Analysis, Solid Modeled Assembly, Engineering Analysis and Design Revisions
Project Management: Coordination Review
Cause for Corrective Action
Overall, our group members work well together. Our time spent in and out of class or labs has made us closer friends. Our main channel of communication though is through Facebook, mainly because we can quickly share information with one another or set up meetings. Besides Facebook, we also keep contact with each other through text messages and emails.
During the course of this gate however, all of our group members had several mid-term examinations in other subjects. This prevented us from meeting up according to plan, and thus we had to produce this gate in a short period of time.
We realize that we had overlooked this problem in our initial stages of planning, and therefore will take extra precaution in the future.
As for the future, we might potentially face another time shortage to complete Gate 4. However, we will be making more changes to our plan for lab times and meetings as the Thanksgiving break is coming up, leaving us little time to complete Gate 4.
Product Archaeology: Product Evaluation
Component Summary
This section contains details regarding each component of the Syma S033G RC Helicopter which is the number of times the component is used in the product, the material the component is made of, the manufacturing process of the component, and the function of the component in the helicopter.
| Part | Number of Times Used | Material | Manufacturing Process(es) | Function | Picture | |
| Main Blade | 4 | Carbon Fiber | Injection Molding | Each blades on the helicopter rotate to produce lift | 
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| Balance Bar | 1 | Plastic | Injection Molding | Stabilizes the helicopter during take-off, flight and landing. | 
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| Main Shaft | 1 | Steel | Forging | Links the blades with the gears and consists a component which connects the grip set and main blades. | 
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| Small Shaft | 1 | Steel | Forging | Inserted through the top part of the main shaft and connects the connect buckles. | 
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| Under Grip Set | 2 | Plastic | Injection Molding | Holds the lower blades and connects them to the main shaft. | 
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| Top Grip Set | 2 | Plastic | Injection Molding | Holds the top blades and connects them to the main shaft. | 
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| Connect Buckle | 4 | Plastic | Injection Molding | Connects the balance bar to the main shaft and also used to connect the under grip set with the limit decoration. | 
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| Limit Decoration | 1 | Plastic | Injection Molding | Connected to the under grip set to prevent it from slipping downwards. | 
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| Head Cover Buckle | 1 | Plastic | Injection Molding | Connects the head cover with the rest of the helicopter. | 
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| Head Cover | 1 | Plastic | Injection Molding | Used as aesthetic and also provides aerodynamics for better flight. | [[File:|200px]] | |
| Tail Decoration | 1 (of each) | Plastic | Injection Molding | Used as aesthetic and also provides aerodynamics for better flight. |  
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| Tail Decoration Holder | 3 | Plastic | Injection Molding | Holds the tail decoration onto the tail boom. | 
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| Main Boom | 1 | Plastic | Injection Molding | Connects the tail rotor set to the main frame and also carries the wiring for the tail rotor set. | 
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| Tail Support | 2 | Plastic | Injection Molding | Supports the main boom. | 
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| Landing Skids | 2(of each) | Plastic | Injection Molding | Acts as shock absorbers when the helicopter lands. |  
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| LED Light Covers | 1 (of each) | Plastic | Injection Molding | Protects the LED light circuits. |  
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| LED Light Circuits with Wiring (Middle) | 2 | Plastic | Soldering, Injection Molding, Drawing | Provides lighting at the middle section of the helicopter. It acts as an aesthetic feature and also enables the user to locate the helicopter in the air at night. | 
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| Motor Cooling Set | 2 | Metal | Rolling | Cools the motors and holds them in place. | 
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| Upper Aluminium Body | 2 | Metal | Die Casting | Protects the inner components and acts as an external body. | 
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| Lower Aluminium Body with On/Off Switch | 2-1 | Metal, Plastic | Drawing, Die Casting, Injection Molding | Protects the inner components and acts as an external body. | 
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| Batteries(Each 3.4Li-Poly) | 2 | Metal | Die Casting | Stores and provides electrical energy to the whole helicopter. | 
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| Battery Case | 1 | Plastic | Injection Molding | Stores the batteries. | [[File:|200px]] | |
| Main Frame Decoration | 1 | Plastic | Injection Molding | Acts as decoration but also protects the motor. | 
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| Main Frame | 1 | Plastic | Injection Molding | Protects and stores all the components such as gears, motors main shaft and others. | [[File:|200px]] | |
| Motors A and B | 1 | Metal and Plastic | Die Casting and Injection Molding | Starts the rotation and causes the other gears to rotate leading to flight. | [[File:|200px]] | |
| Lower Blade Gear | 1 | Plastic | Injection Molding | Constantly transfers its rotational energy to other gears. | [[File:|200px]] | |
| Upper Blade Gear | 1 | Plastic | Injection Molding | Constantly transfers its rotational energy to other gears. | [[File:|200px]] | |
| Transition Gears | 2 | Plastic | Injection Molding | Changes the speed rate of rotation either stepping up or down the speed. | [[File:|200px]] | |
| Die Steel Set Limit | 1 | Metal | Die Cast | Holds the lower gear and prevents it from coming in contact with the main frame. | [[File:|200px]] | |
| Triangle Tabletting | 1 | Plastic | Injection Molding | Designed to prevent the gears from coming in contact with any part of the frame. | [[File:|200px]] | |
| Front LED Lights and Wiring | 1 | Plastic, Metal | Injection Molding, Drawing | Provides lights at the front of the helicopter. | 
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| Tail Motor and Wiring | 1 | Plastic and Metal | Die Casting, Drawing, Injection Molding | Causes the tail blades to rotate. | 
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| Tail Rotor Set | 1 | Plastic | Injection Molding | From the rotational energy of the motor, the tail rotor components rotate and cause the tail blades to do the same. |  
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| Tail Blades | 1 | Plastic | Injection Molding | Rotates to achieve balanced flight. | 
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| Circuit Board and Wiring | 1 | Metal, Plastic | Die Casting, Soldering, Injection Molding | Receives radio signals from the remote control to carry out certain functions. | 
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| Screw 1 | 1 | Metal | Thread rolling | Assembles and strengthens the parts of the helicopter. | 
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| Screw 2 | 1 | Metal | Thread rolling | Assembles and strengthens the parts of the helicopter. | 
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| Screw 3 | 1 | Metal | Thread rolling | Assembles and strengthens the parts of the helicopter. | 
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| Screw 4 | 1 | Metal | Thread rolling | Assembles and strengthens the parts of the helicopter. | 
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| Screw 5 | 1 | Metal | Thread rolling | Assembles and strengthens the parts of the helicopter. | 
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| Screw 6 | 1 | Metal | Thread rolling | Assembles and strengthens the parts of the helicopter. | 
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Product Analysis
Solid Modeled Assembly
Engineering Analysis
