Can Opener
From GICLWiki
Contents |
Function
This can opener is manufactured by Durabrand. The primary function of the can opener is to open cans by cutting the metal lid off. An electrical motor spins the geared wheel, which in turn spins the can. The blade remains stationary as it cuts the lid off.
User Requirements
- plug outlet to power the device
- standard size canned product
- small enough can to be successfully held by the can opener
Engineering Specifications
- power output
- can diameter
- can height and weight
Parts
The table belows lists the Bill of Materials for the Durabrand Can Opener:
| Part # | Part Name | Category | Function | Material | Picture |
|---|---|---|---|---|---|
| 1 | Casing | Structural component | Holds, protects, and supports internal and external components | ABS plastic |  |
| 2 | Guide bar | Support element | Guides lever arm and can | Metal |  |
| 3 | Magnet | Support element | Holds can lid | Ceramics |  |
| 4 | Geared wheel | Output | Rotates can | Metal |  |
| 5 | Cutting blade | Output | Cuts though can lid | Metal |  |
| 6 | Lever arm | Structural component | Holds blade and magnet; on/off switch | Plastic |  |
| 7 | Motor | Input | Rotates the geared wheel | Metal plate, coil |  |
| 8 | Medium gear | Output | Converts the electrical energy into the horizontal mechanical energy | Metal, plastic, and ball bearings |  |
| 9 | Large gear | Transmission | Reduces speed of rotation and provides more torque; connects to geared wheel | Inner gear - metal; outer gear - plastic |  |
| 10 | Switch | Power supply | Completes circuit; on/off switch | Copper with plastic plate (nonconductor) |  |
| 11 | Power cord | Power supply | Supplies power to motor | Wires and insulation with a metal connection |  |
Large Gear and Geared Wheel
- Decisions: type of material, high gear ratio to reduce angular velocity
- Critical features: radius, gear tooth size, life expectancy
- Expected loading: weight of can
- Measures to evaluate performance: force exerted on geared wheel, friction of geared wheel to can, friction of gear shaft to support structure
Medium Gear
- Decisions: type of material, high gear ratio to reduce angular velocity
- Critical features: radius, tooth size, life expectancy
- Expected loading: stress
- Measures to evaluate performance: stress, friction of gears, friction of shaft
Motor and Shaft
- Decision: size, power requirement
- Critical features: power output, electrical connection
- Expected loading: resistance of friction and weight of can
- Measures to evaluate performances: torque, speed, lifetime
