Differential Gear Group B: Erick Vasquez, Pasram Dipchand, Kevon Charles, Muhammad Adnan.

Slides:

Advertisements

Similar presentations

Robo-Lab Team 5 Derek Evers, James Bettes, Keith Pearson, Amanda Brown, and Bryce Bell.

Advertisements

South Carolinas First Solar Car Team Energy Energy is one of the most fundamental parts of our universe. We use energy to do work. Energy lights our.

Mechanical Engineering: Motion Transmission

Presentation of designs to YKK Team leader : Poon San On (Zen) Team members: Lee Man Kit(Jason) Kong Yau Choi(Eddie) Mak Fu Shun(Vincent) Wong Ching Pong.

Gears, Gears and More Gears

Thurso High School Design and Technology Tutorial Six Assembled Part.

Gears and Spline Shaft By Hajanthan.V. Gears Gears are used for the following reasons: –To reverse the direction of rotation –To increase or to decrease.

Compound Gear Ratios Robotics Academy All Rights Reserved.

SDC PUBLICATIONS © 2012 Chapter 16 Assembly Modeling Learning Objectives:  Understand the Assembly Modeling Methodology  Create Parts in the Assembly.

Stop Motion Animation We have been creating Stop Motion Animations that relate to “Keeping ourselves fit.”

Gears. Worm Drive 2 Parts – Worm – gear in screw form – Worm Gear – meshes with the worm to create a worm drive Perpendicular drive axes Direction of.

1.2 Complex Machine- A Mechanical Team. Background on complex machines As time passed, people began living in larger communities. They need to find ways.

Copyright ©: SAMSUNG & Samsung Hope for Youth. All rights reserved Tutorials Screens: Presentation skills Suitable for: Improver Advanced.

Introduction The 2012 senior engineering students were given the task of creating a wall to assist Coppell High School’s special education students. The.

Advanced Design Applications Power and Energy © 2014 International Technology and Engineering Educators Association STEM  Center for Teaching and Learning™

Digging Through Essay Layers By Aigiun Guseinova.

Motion Transformation Systems Function, Components, and Use.

Made by: Sugar Rush Company.  Logo:  Slogan: Drive it the Jolly Way!  How:  “SR”  Sugar Rush (candy car!)  “Drive it the Jolly Way,”  driving a.

Lesson 8- Assemblies. –Are a grouping of parts –Have orientation and alignment specified –Are Three dimensional Assemblies let you –See if the parts will.

Outline of class  30 mins: Intro  Terminology  Tour of SolidWorks Assembly  Adding parts  2 nd hour: Build your first assembly  Step-by-step guided.

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

Year 10 GCSE PE Components of Fitness.

Teamwork Unit 8 project By: Hayden Hyde. Why teamwork is useful Team work is useful because if makes what ever you are doing better and stronger. Say.

N ITRO G AS P OWERED R/C C AR 1:10 Scale Brian Zarko James Powers Judy Chun Alan Lambert Aaron Fackler Adam Lopez Department of Mechanical and Aerospace.

3D Viewers Two main uses: –Detector/event exploration – interactivity priority (15fps min). –Generate presentation material (still/movie renders) – quality.

Two-Gear Gear Trains Using different size gear allows change in speed

Management Information Systems

Differential Dissection: Gears and Spline Shafts

Limits and Fits Need for different types of fit Limits of size and Tolerance Principal Terms Explained Definition of different types of Fit.

Introduction to Ergonomics & Anthropometrics

Exploded Isometric Drawing

Aspect of Skill- Related Fitness Definitions. Agility Is the ability to move the body (change direction) quickly and precisely whilst maintaining your.

Arms, Legs, Wheels, Tracks, and What Really Drives Them Effectors and Actuators.

Gears & More Gears What are gears? What do gears accomplish?

Ali Joyce. Contrast This image represents contrast because of the difference in the colours (black and white) This image represents not only the contrast.

Basic Animation What you need to try is in the yellow boxes! Save this presentation in your BTA30A.

Machine Elements in Mechanical Design Prepared by: Misrty Dipen

Motion Constraints Specialized Assembly Constraints that enable the assembly to be animated.

Get In Gear. Opening Activity Describe what “speed” is. Give a verbal definition, any equations you know, and examples of different speeds.

Project Overview  Introduction  Frame Build  Motion  Power  Control  Sensors  Advanced Sensors  Open design challenges  Project evaluation.

Introduction to Scratch

Lesson planning and preparation

QQ: Finish Page : Sketch & Label Diagrams for all problems.

Two-Gear Gear Trains Using different size gear allows change in speed

MiniSkybot: Kinematics

Unit 7 Lesson 1 Shift Patterns in Multiplication

Open Differentials By Jarvis Lu

What are the Basic Signs of Worn Out Transmission in your Car

The Project IENG 248 Lab.

Limited Slip Differentials

Mechanical Engineering: Gears

Powertrains Differential Applications

POWERTRAINS By: Sunny Gharial.

Structures and Mechanisms.

Cassani Tractor Transmission William Overstreet Collin Mabe

Lesson 32 - Gears & More Gears

Final Project Instructor: Prof. Masato R. Nakamura

Limited Slip Differentials

Structures and Mechanisms.

Chapter 11 Production.

Two-Gear Gear Trains Using different size gear allows change in speed

Two-Gear Gear Trains Using different size gear allows change in speed

Two-Gear Gear Trains Using different size gear allows change in speed

Open Type Differentials

Capstone Team Project title

What is a Simple Machine?

Small Animal Breed Identification

Graphic and Other Object in Origin

Warm Up: Name the parts of a wind turbine

Presentation transcript:

Differential Gear Group B: Erick Vasquez, Pasram Dipchand, Kevon Charles, Muhammad Adnan.

Introduction The differential gear does rotational movement into transitional movement for a car. This type of gear is designed to drive a pair of wheels while allowing them to rotate at different speeds.

Background We were doing research on gear boxes and a few was considered. The differential gears in a car caught our attention as it was a gear box that had 4 gears directly coordinating with each other. The rest of the project seemed possible with the time that we had to create it.

Objectives First we tried to manage time with how much was to be done. Each teammate had to contribute to the whole creation of the gear box. We had to work together to make sure the components were to fit with each other. Some parts of the project was created on other parts to make sure that they fit. The assembly took the most time. The mates needed for every gear to interact with each other was complicated.

Part Drawings

Assembly Drawings

3D Modeling

Animation

Stress analysis

Summary Overall this project was very fascinating to design. The mates in this project gave us a lot of difficulty and consumed a lot of our time. The project took a lot of team work to complete as much as we did. We all enjoyed creating and working together on this project.

THE END