Presentation co-op
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Transcript of Presentation co-op
AMAZING 4-MONTHS CO-OP WITH FLEET ENGINEERING DEPARTMENT AT
ELLERSLIE.FIRST DAY MOTIVATIONAL SPEECH!
(I BELIEVE I CAN DO ALL THINGS, ONCE I PUT MY MIND AND SOUL INTO IT
(JESUS).)YOU BECOME YOUR BEST ONCE YOU LOVE WHAT YOU DO(CHARLES JUMBO).
WHAT DOES IT MEAN TO BE A CO-OP ENGINEERING STUDENT WITH THE CITY OF EDMONTON?
- It gives me an edge over other graduate student and improve my resume.
- I never had a slight clue on what it feels like to be called a mechanical engineer until I started working for the city fleet department.
- Working with the city of Edmonton has provide the chance for me to apply knowledge from academic work to real live situations.
- Working with other professional engineers is just the best feelings for me.
- I have my own office - Provide an opportunity for field trips- Working with the city is more like a family setting.
PROJECTS I HAVE WORKED ON WITH THE FLEET.- Electric Fire outbreak in sweeper Truck .- Product evaluation for oil master 1.- H3899 Labrie Steering Incident- Tool Alignment for transit buses- Reliability study for drainage vacuum/eductor truck - Designing a lifting devices for transit driver seat.- Modification of labrie door pin.
ELECTRICAL FIRE OUTBREAKRecommendations:Base on previous and recent invent on electric fire outbreak, Fleet Engineering should carry out a campaign for:Enforce a proper wiring of electric wire to avoid contact with each other.Apply the use of fuse or circuit breakers were appropriate. Wires that are close to the exhaust system should be properly
RELIABILITY STUDY FOR DRAINAGEResponsibility as a Reliability Co-op engineering student:• Analysis of maintenance history and failure data to
prioritize issues and opportunities• Develop preventative and predictive maintenance strategies• Perform Root Cause Failure Analysis investigations• Conduct equipment assessments to understand life
expectancy• Develop and support long-term maintenance plan and asset
management goals
ANALYSIS OF MAINTENANCE HISTORY AND FAILURE DATA TO PRIORITIZE ISSUES AND OPPORTUNITIES
OUT OF 300 JOB DESCRIPTION FOR THE DRAINAGE STUDY THAT WERE OBSERVE. WE WERE ABLE TO COME UP WITH THE TOP 8 BY USING PARAT ANALYSIS . THE COMMON FAILURES ARE SHOWN BELOW:
TRAVEL Total Vehicle 35 $ 4,000.35
53.71 0.5 0.25 1 0.125
INSPECT Total Vehicle 29 $ 6,194.03
52.54 0.25 0.25 1 0.0625
REPAIR Boom 16 $ 14,603.18
60.98 0.25 0.25 1 0.0625
REPAIR Hose Reel 16 $ 9,062.52
43.30 0.25 0.25 1 0.0625
REPAIR Hydrovac/Eductor
17 $ 44,740.42
20.65 0.25 0.5 0.5 0.0625
REPAIR Power Take-Off
11 $ 8,937.13
53.17 0.25 0.25 1 0.0625
REPAIR Vacuum System
12 $ 31,887.18
36.13 0.25 0.5 0.5 0.0625
REPAIR Water Tanks/System
25 $ 8,213.29
42.11 0.25 0.25 1 0.0625
Job description Occurences
Cost Labor hours
Occurences rating
Cost rating
Labor hours rating
Overall rating
DESIGNING A LIFTING DEVICES FOR TRANSIT BUS SEAT. 2 Need/Goal StatementNeed: The technicians in The City of Edmonton fleet garage are
presently lifting the driver seat in the transit buses by fastening the seat belt and then pulling the fastened seat belt with a boom.
Goal: design a device that will help in lifting this seat, without using the driver seat belt. The devices will serve as an attachment to pick up the seat.
3 Objectives/Constraints and RationaleIn this section will address the initially proposed objectives and
constraints for the project; as well as identifying the rationale behind each of these choices. Here are the outline the objectives in detail individually; a summary chart is provided first (Table 1), in order to clearly outline the objectives in brief.
DRAWING
DESIGNING A LIFTING DEVICES FOR TRANSIT BUS SEAT
Objectives DescriptionSafety Must not endanger the client during operation.Size Target width is about 16 inches by 6 inches tall and 7
inches deep.Weight Must be light enough to be lift by hand, but heavy
enough to remain stable.Cost The lifting mechanism must not exceed $100.Center of gravity/design analysis
This lifting mechanism must be pick at the center of gravity to avoid swerving during lifting. In getting the center of gravity three different method were applied. 1) The tipping test 2) Pivot test 3) the angle test. Design analysis involves understand the strength of this design. This requires application of some design principle which are factor of safety, moment diagram, stress calculation, force analysis.
Usability The final product will be operated by the client.
PROTOTYPE
FRONT VIEW RIGHT SIDE VIEW
MODIFICATION OF LABRIE DOOR PIN
Dd
DRAWING
Thank youMerci谢谢 (Xièxiè)Graciasधन्यवाद(Dhan'yavāda)grazieDanke