Semester Project: Flat Belt Pulley Hydroelectric Generator

Slides:

Advertisements

Similar presentations

Foundations of Physical Science

Advertisements

Mechanical Power Systems

Chain Drive Drive Driven Crank Chain.

Mechanisms Mechanisms Gateway To Technology®

Simple Machines: Gears, Velocity Ratios and Mechanical Advantage.

Simple Machines.

Available at: 2.3, Build a Drift Chassis Build a Drift Chassis Graphic retrieved from, spn/gallery/enlargePhoto?id.

Compound Gears Unit 6.

Sci 701 Unit 6 As learned in Unit 5: Speed, Power, Torque, and DC Motors, a motor can generate a set amount of power. Introduction to Gears Since there.

1. Friction – a force that acts like a brake on moving objects.

 A pulley system that is linked with a belt is called belt drive.  A lot of machines works with belt drive for example, motorcars and escalators. 

Problem Statement Need to build a manually controlled robot capable of moving around and gripping and lifting objects. Basically we can divide this problem.

Forging new generations of engineers. GEARS Presentation Objectives Identify parts of the gear trainer Identify gears Identify gear terminology Identify.

By Carly Carlson. Simple And Complex Machines  Simple machine- A machine that changes the amount of force put in to motion, normally making a job easier.

The 6 Simple Machines Screw Wedge Inclined Plane Pulley Wheel and Axle

Gears, Chains and Sprockets Unit 6. Introduction Motors can only create a set amount of power. Motors can only create a set amount of power. There is.

Term 3 Topic 3 Unit 1: Mechanical systems & control (machines, levers & their functions)

Mechanical Engineering Chapter 13 Observatory pp STEST ASTSE.

Mechanical Advantage The measurement of how useful a machine is to the job.

Machines and Mechanical Advantage Archimedes (Greek mathematician, 287 to 212 B.C.) said, “Give me a place to stand and I will move the Earth,” meaning.

Mechanical Design General Concepts AHL Topic 10. Mechanical advantage This is the factor by which a machine multiplies the force put into it. Velocity.

Fundamentals of Machine Component Design, 4/E by Robert C. Juvinall and Kurt M. Marshek Copyright © 2006 by John Wiley & Sons, Inc. All rights reserved.

Unit D: Mechanical Systems What is a Simple Machine?  A simple machine has few or no moving parts.  Simple machines make work easier 2.

Simple Machines hs8pXGxM aaeff6cf4431aa6c7/Bill%20Nye%20- %20Simple%20Machines.

Mechanisms Mechanisms Gateway To Technology®

Mechanisms Mechanisms Gateway To Technology®

Mechanisms Mechanisms PLTW Gateway

Unit #4 Topic #2 Wheel and Axle, Gears and Pulleys

Chapter 4.2 and 4.3 Machines.

Mechanisms Mechanisms PLTW Gateway

Mechanical Advantage & Simple Machines

Mechanisms Mechanisms Gateway To Technology®

Energy, Work and Mechanical Efficiency

Mechanical Systems.

Gear box for BWM power Generation

Simple Machines Objectives: Levers Torque and Levers

Simple Machines How to create Mechanical Advantage?

Mechanisms Mechanisms Gateway To Technology®

Mechanisms Mechanisms Gateway To Technology®

Friction Welding Welding Technology/ 3.5 Friction Welding.

Chapter 4: Work and Machines

Mechanisms PLTW Gateway Unit 2 – Lesson 2.2 – Mechanical Systems

Mechanisms From Simple Machines.

WORK & SIMPLE MACHINES GRADE 8 GRADE 6.

Pulleys, Sprockets, and Gears

Work and Simple Machines

Structures and Mechanisms.

Mechanisms Mechanisms Gateway To Technology®

Mechanisms Automation and Robotics VEX

Mechanical Advantage Simple Machines.

Pulleys, Sprockets & Gears

Work = force X distance or W = F X d

Structures and Mechanisms.

Laws of Motion and Energy

Chapter 8 Work and Energy.

What is a Simple Machine?

Mechanisms Automation and Robotics VEX

Forging new generations of engineers

Geartrains Materials taken from several sources including: Building Robots with LEGO Mindstroms by Ferrari, Ferrari, and Hempel.

Simple Machines SPS8. Students will determine relationships among force, mass, and motion. e. Calculate amounts of work and mechanical advantage using.

Structures and Mechanisms.

Simple Machines.

Warm Up: Name the parts of a wind turbine

MECHANISMS Mechanisms Mechanisms Automation and Robotics VEX

Mechanisms Mechanisms Gateway To Technology®

Geartrains Materials taken from several sources including: Building Robots with LEGO Mindstroms by Ferrari, Ferrari, and Hempel.

Machines Simple Machines.

Practice #4—Wheel and Axle Mr. Burleson

Presentation transcript:

Semester Project: Flat Belt Pulley Hydroelectric Generator By: David Kmieciak, Derek hartmon, Abdullah turkistani, & Mitch weisser

The Mechanical Advantage Decided between gears, screws, pulleys, bar mechanisms, and levers. Gears: Hard to find two with same teeth geometry/pitch. Aluminum sand casting wouldn’t work Screws: Not very applicable for this specific project. Not likely to be found in junk yard. Bar Mechanism: Only produce a slight mechanical advantage. Hard to setup. Lever: Not very useful for high RPM situations. Used more for lifting heavy objects with a small amount of force. Pulley: Good for high RPM situations. Could be aluminum sand casted.

Our Mechanical Advantage: The Flat Belt Pulley System Gear Ratio: 2:1 Keep as much surface area as possible. Robert Juvinall and Kurt Marshek say, “The capacity of a belt to drive is normally limited by the slippage of the smaller pulley” (787). Does not NEED to be exactly 2:1. Belt Type: Flat. Flat belts are better than V-belts in high speed applications.

The Complete Mechanism The system includes: Large Pulley. Small Pulley. Input & Output Shaft. Bearings. Square tubing. Electric Generator. Water Wheel.

Breaking It Down Big Pulley: We picked a bicycle rim because it we figured it would be easy to find in a salvage yard or in the neighborhood. Small Pulley: This part would be aluminum sand casted so the exact diameter and geometry could be determined to match the desired 2:1 gear ratio. Bearings: Allows the whole mechanism to have great shaft rotation and tolerance. Square Tubing: Great for strong structural support. Water Wheel: Easiest to just aluminum sand cast rather than try to find. Electric Generator: Either made by Hastings or try to find a pre-built generator. Flat Belt: Find in any average mechanical car system or pulley mechanism. Input & Output Shafts: Any diameter at least 10mm or bigger. www.clipground.com

The Calculations: Part 1 Determined torques applied to the whole mechanical system. = =

The Calculations: Part 2 The next set of calculations was used to determine the safety factor of the input shaft.

The Calculations: Part 2 (Cont.)

The Calculations: Part 2 (Cont.) Safety Factor of Input Shaft = 140

The Calculations: Part 3

The Calculations: Part 3 (Cont.)

The Calculations: Part 3 (Cont.) The Safety Factor for the Output Shaft = 80

Overview Summary We believe a pulley would be his best choice considering his current options. Tried to keep a balance between smooth and efficient without going too complex. Torque and stress analysis’s determined no failure. Didn’t want to design a product, but rather design an operation that would produce him the most power possible. www.studentpilotnews.com

Work Cited Juvinall, Robert C., and Kurt M. Marshek. Fundamentals of Machine Component Design. 5th ed. New York: Wiley, 2000. Print. Nikhil, Nandepu. "Bicycle Rim." GrabCAD. Stratasys, 12 Oct. 2016. Web. 18 Apr. 2017. "Mounted Ball Bearings." McMaster-Carr. McMaster-Carr, n.d. Web. 15 Apr. 2017.

Questions? www.clipartfest.com