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Full Load Design Review. 2003-2004 Full Load E-Team Seth Elkington – agricultural engineer Matt Hess – electrical engineer Ty Windhorst - business, marketing.

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Presentation on theme: "Full Load Design Review. 2003-2004 Full Load E-Team Seth Elkington – agricultural engineer Matt Hess – electrical engineer Ty Windhorst - business, marketing."— Presentation transcript:

1 Full Load Design Review

2 2003-2004 Full Load E-Team Seth Elkington – agricultural engineer Matt Hess – electrical engineer Ty Windhorst - business, marketing Chris Jensen – mechanical engineer Veronica Meyer – mechanical engineer Matt Shewmaker – mechanical engineer Ian Toevs – agricultural engineer Dr. Donald Elger – mentor, Professor of Mechanical Engineering Dr. Linda Morris – mentor, Professor of Marketing

3 Project Background Situation Existing Product/Sugarbeet harvest Existing Technology Complaints of Farmers

4 Situation For tuber and sugarbeet crops: Simultaneous harvesting and loading Trucks are required to make position changes relative to combine to fill uniformly Truck and combine operators rely on hand signals to communicate specific actions relating to the proper loading

5 Existing Product/Sugar Beet Harvest

6 Existing Technology Hand signals Two-way radios Home built signaling systems

7 View from 10 and 18 Wheelers

8 View from Digger

9 Goal Build an affordable, practical, and versatile communication device usable on farms of any size Product will be easy to use and manufacture Product will improve both the safety and convenience of harvesting crops

10 Product Specifications This product will: Continually relay position information from the harvester operator to the truck driver(s) Ensure that the truck is positioned for proper loading Be competitive with existing technology. The final outcome will be to form a corporation which will manage the manufactured product to be sold to the mass market.

11 Design Issues/Alternatives Mounting Input/Output Interfaces Multiple Frequency Electronic Design Cost Competitive

12 Mounting in the Tractor

13 Mounting in the Truck

14 Receiver Mounting Designs Hangs from the back of receiver from the top mirror bar outside of truck. Wrap-around clamp onto mirror on the outside of truck. Hangs from the side of receiver from top mirror bar outside of truck.

15 Transmitter Mounting Designs Clamp will allow for a variety of attachment methods. Description: Flange wraps around rod attached to top of digger controls The angle bracket attaches to side of digger controls & side of transmitter.

16 Input Designs These input configurations address our human factor issues.

17 Output Designs

18 Multiple Frequency Eliminates crossed signals between multiple combines and trucks in the same fields Could accommodate large farms and industrial operations with numerous frequencies

19 Obstacles in Designing Electronics Hire professional EE Recruit EE student(s) from the EE Senior Design Course Consult faculty/graduate students

20 Additional Features Relative Velocity Sensors –Truck could match the speed of the harvester Load Sensors –Harvester operator could load the truck evenly and accurately to prevent overloading Accelerometers –Automate the STOP! signal transmission

21 Market Possibilities Preparing a product package Tradeshows Finding a buyer/investors

22 Price Plan and Strategies * Based off of 1000 units produced.

23 Additional Industry Additional product models? Signal Automation? Other industrial applications? –Road construction –Aviation

24 Project Budget

25 Management Plan

26 Questions?


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