edsgn 100: intro to engineering design section 202 introduction the purpose of this project was to...
TRANSCRIPT
1
EDSGN 100: Intro to Engineering Design Section 202
Team 6
Submitted by: Taylor Guelich, Alex Yuan,
Somto Nwogbo, and Zach Smith Submitted to: Professor Xinli Wu
Summer 2014
www.personal.psu.edu/ahy5028/EDSGN_100/DesignProject2/DP2_Final_Report.pdf
2
Abstract The aim of this design project was to develop a dumpling maker to be used in a restaurant or home setting. The design would need to be fast and reasonably priced, and this report documents the process Team 6 took to produce the Wu3000 dumpling maker.
Table of Contents Cover Page by Zach Smith
Abstract by Alex Yuan
Table of Contents by Alex Yuan, Taylor Guelich
Introduction by Alex Yuan, Somto Nwogbo
Description of design task by Taylor Guelich
Design Approach by Taylor Guelich, Zach Smith, Somto Nwogbo
Final Design and Prototype by Alex Yuan, Taylor Guelich, Zach Smith
Engineering Analysis by Alex Yuan
Conclusion by Taylor Guelich, Alex Yuan
Acknowledgements by Taylor Guelich
3
Introduction The purpose of this project was to design an efficient dumpling maker which
satisfies all of the set design specifications. The project was delegated to the team by the professor of Engineering Design 100 Section 202, Xinli Wu.
A mass survey was taken to document the needs of consumers. Ideas were developed based on the customer assessment survey poll and design specifications. Design matrices were utilized to select the best design of the generated concepts, which was then drawn in Solidworks and constructed. This entire process spanned over two weeks.
Finally, the entire research and design process was documented in this final design report.
Description of Design Task Problem Statement: Dumplings are a very popular food at some restaurants, but they require a lot of skill and time to make.
Mission Statement: A dumpling maker needs to be designed to fulfill the design specifications as listed below, while being faster, more efficient, and at a lower price point than a potential competing dumpling maker.
Design Specifications:
The dumpling maker should be automatic or semiautomatic. The dumpling maker must be usable in restaurants or homes. The dumpling maker should produce at least ten dumplings per minute. The material cost for the dumpling maker should not exceed $200 unless it can be
justified. The dumpling maker should be safe, easy to maintain, easy to use, and dishwasher
safe.
4
Design Approach
Gantt chart Start Days End
Target Specifications 28Jul 6 3Aug
Information Gathering 28Jul 6 3Aug
Brainstorming 28Jul 6 3Aug
Design Matrix 31Jul 1 1Aug
Design Drawings 31Jul 5 5Aug
Construction 5Aug 5 10Aug
Design Evaluation and Testing 10Aug 1 11Aug
Project Report 3Aug 8 11Aug
Gantt Chart 28-Jul 31-Jul 3-Aug 7-Aug 11-Aug
Target Specifications
Information Gathering
Brainstorming
Design Matrix
Design Drawings
Construction
Design Evaluation and Testing
Project Report
5
Customer Needs Assessment Sample Survey
A survey was conducted to gain insight on the qualities a dumpling maker should have based on popular opinions of people, who actually eat and make dumplings as well as use a dumpling maker machine. The most popular answers are documented below.
Dumpling Maker Satisfaction Survey
1. Have you ever had dumplings? If so, how often do you have them?
Twice a week; once every few months.
2. Have you ever made dumplings?
Yes
3. What would you be willing to pay for a dumpling maker?
$25
4. What size would you prefer your dumpling maker to be?
Size of a microwave
5. How quickly should the dumpling maker produce a serving of dumplings? How many should it produce?
10 seconds per dumpling
6. Would you rather the maker be constructed of plastic or metal?
No preference
7. Would you rather premake the dough or have the dumpling maker mix the dough?
Premake
8. Would you want to be able to change the shape of the dumpling? If so, which other shapes?
No
9. Would you like your dumpling maker machine to be semiautomatic or automatic?
Semiautomatic
6
Concept Generation
7
Design Matrices
8
Final Design and Prototype
9
Picture of Prototype
Design Features
Small and compact Dishwasher safe Efficient rolling of dough circles Cutting rollers guarded in box Durable Interchangeable dumpling molds Single crank for operation
Operation Instructions
1. Mix dough and insert into the dough hopper 2. Mix filling and insert into the filling hopper 3. Turn crank to operate dumpling maker 4. Remove dumplings as they come out the mold
10
Working Drawings
11
12
13
14
15
16
17
Engineering Analysis Working Mechanism
From the responses gained through the survey, this semiautomatic, single mold, plastic and metal household sized dumpling maker was created. The simple handcrank controlled the rolling of the rollers, the filling of the dough after it would slide onto the dumpling mold, and the folding of the mold. The dough and filling must be premixed before being put into the dough and filling holders for the dumplings to be made. The rollers have a circle indented into them and they are made out of metal so it cuts the dough as it is rolled through. A minimum of 10 dumplings will be made per minute.
Cost Analysis
Item # Part Name QTY. Material Price Cost
1 Dough hopper 1 Plastic $2.79 $2.79
2 Filling hopper 1 Plastic $2.56 $2.56
3 Dumpling mold 1 Plastic $5.99 $5.99
4 Dough roller 2 Metal $2.94 $5.88
5 Hand crank 1 Plastic $1.05 $1.05
6 Axle 2 Metal $0.47 $0.94
7 Ramp 1 Plastic $0.26 $0.26
8 Supports 2 Plastic $0.35 $0.35
9 Roller enclosure 1 Plastic $1.95 $1.95
10 Belt 1 Rubber $0.20 $0.20
11 Frame extension 1 Plastic $3.50 $3.50
Total $25.47
18
Summary and Conclusion Based on the customer needs assessment and the design specifications, Team 6
successfully designed and prototyped the Wu3000.
Most of the team put in extra after class hours in order to guarantee quality in our design. The survey helped to gain insight on the necessary qualities of a dumpling maker. The Team adhered to the Gantt Chart ensure product delivery time. Through careful design conception, possible issues were consulted, which resulted in minimal problems in the prototyping stage.
The final project helped the team develop useful knowledge and experience as future engineers.
Acknowledgements Design critique: Xinli Wu
Solidworks assistance: Nick Petrunyak
Counseling: Jason Cornelius
Page numbering: Taylor Guelich
Table of contents: Alex Yuan
Meme generation (next page): Taylor Guelich and Alex Yuan
19