![Mechanical Engineering Department
Course Information and Outline .
Course Title Machine Elements 1 (Laboratory)
Course Code ME 313 L
Description This course deals the analysis of the mobility, position, velocity, and
acceleration of common mechanisms using graphical, analytical
and computer-aided techniques. It also covers mechanism design
and; analysis of static and dynamic forces in mechanisms.
Course Objective At the end of the course, the students are expected to
1. Analyze motion of machines using analytical and graphical
method.
2. Design simple mechanisms moving in a prescribed fashion
3. Analyze static and dynamic forces in machines
4. Work harmoniously with team members playing different
roles
Requirements Plates. Plates will be done individually and will consist of drafting
exercises done inside the classroom or laboratory.
Quizzes. Quizzes are given after accomplishing one significant
topic. It shall consist of application and design problems. It may
also include practical exams.
Design Projects. One (1) major group will be submitted before the
end of the semester. The project is design and fabrication of a
Remote Controlled Walking Robot applying the concepts of
linkages.
Long Exam. The long exam will be given at midterm and finals of
the semester.
Class Standing. Class standing includes recitation, seatworks,
and assignments.
Resources [1] Myszka, David, Machines and Mechanisms
[2] Norton, Robert L., Design of Machinery
[3] Martin, George H., Kinematics and Dynamics of Machines
[4] Doughtie, V.L., James, W.H.; Elements of Mechanisms
Grading System Plates 30%
Quizzes 30%
Group Project 20%
Class Standing 20%
2011](https://image.slidesharecdn.com/machineelementslaboratory1-110607064242-phpapp02/85/Machine-elements-laboratory_1-1-320.jpg)
![Mechanical Engineering Department
Schedule Wk Topics/Activities
1 Orientation
Introduction to Kinematics
Assignment # 1: Kinematic Diagrams (Individual)
Submit at least five (5) sketches of scaled machine part using
systems of links and draw its kinematic diagram. Discuss in
detail the main function of the machine and the behavior of the
motion, whether translation, rotation or combination of both.
Prepare to discuss your machine part next meeting. Use
pencil and A4 size paper.
Reading assignment #1:
Page 44 – 48 Chapter 3 Linkages of [3]
2 Introduction to Linkages
Four-bar linkage
Assignment #2: Four-bar linkages (Individual)
Submit in one (1) Sintra board, models of four-bar linkages
specifically:
(1) Parallel-Crank Four-Bar Linkage
(2) Crank and Rocker
(3) Slider-Crank Mechanism
(4) Nonparallel equal-crank Linkage
(5) Drag Link
Make sure that the models are moving and the positions of the
critical points on the links are properly sketched in the board.
Place appropriate dimension in each of the linkages.
Reading assignment #2:
Page 69 - 83 Chapter 4 Instant Centers of [3]
3 Instant Centers
Kennedy’s Theorem
Plate #1: Instant Centers
Move crank 2 of your project from 0 degree to 30 degrees with
respect with the horizontal. At that instant position, locate the
instant center using Kennedy’s Theorem. Draw the instant
center in an A4 size paper. Use:
(1) Crank and Rocker
(2) Nonparallel equal-crank Linkage
(3) Slider-Crank Mechanism
Assignment #3:
Answer Problem 4-1 Page 83 of [3] Draw in an A4 size paper.
2011](https://image.slidesharecdn.com/machineelementslaboratory1-110607064242-phpapp02/85/Machine-elements-laboratory_1-2-320.jpg)
![Mechanical Engineering Department
4 Position Analysis
Plate #2: Position Analysis
Move crank 2 of your project from 0 degrees to 30 degrees
with respect with the horizontal. At that instant position, locate
the instant center using Kennedy’s Theorem. Draw the instant
center in an A4 size paper. Use:
(1) Crank and Rocker
(2) Nonparallel equal-crank Linkage
(3) Slider-Crank Mechanism
Assignment #4:
Move crank 2 of your project from 0 degrees to 30 degrees
with respect with the horizontal. At that instant position, locate
the instant center using Kennedy’s Theorem. Draw the
position analysis in an A4 size paper. Use:
(1) Parallel-Crank Four-Bar Linkage
(2) Drag Link
Create a table indicating the position of the critical points in
the links when crank 2 is moved in 30 degree interval until it
rotates at 360 degrees. Draw the table in an A4 size paper.
Reading assignment #4:
Page 49 - 51 Chapter 3 Linkages of [3]
Crank-Shaper, Whitworth, Drag Link and Offset Slider Crank
5 Position Analysis
Plate #3: Position Analysis. Use A4 size paper.
(a) Draw the change in stroke of the Crank Shaper shown
when the Link 2 rotates 30 degrees counterclockwise
from its initial position.
(b) Draw the change in stroke of Drag Link shown when
Link 2 rotates 30 degrees counterclockwise from its
initial position.
Assignment #5: Use A4 size paper.
(a) Draw the change in stroke of the Withworth shown
when the Link 2 rotates 30 degrees counterclockwise
from its initial position.
(b) Draw the change in stroke of Offset Slider Crank
shown when Link 2 rotates 30 degrees
counterclockwise from its initial position.
2011](https://image.slidesharecdn.com/machineelementslaboratory1-110607064242-phpapp02/85/Machine-elements-laboratory_1-3-320.jpg)
![Mechanical Engineering Department
6 Quiz #1 Linkages and Position Analysis
(1) Kinematic diagram
(2) Four-bar linkages
(3) Instant Centers
Multiple choice type of exam
Reading assignment #3:
Page 69 - 83 Chapter 4 Instant Centers of [3]
Reading assignment #5:
Page 37 - 48 Chapter 3 Velocity Analysis of [4]
7 Review of Vectors Graphical Method
Velocity Analysis using Resolution and Composition Method
Plate #4: Velocity Analysis Using Resolution and Composition
Method. Use A4 size paper.
Problem 3-31 of [4]
Assignment #6: Use A4 size paper.
Problem 3-28 of [4]
Reading assignment #6:
Page 49 - 56 Chapter 3 Velocity Analysis of [4]
8 Velocity Analysis using Instantaneous Axis Method
Plate #5: Velocity Analysis Using Velocity Analysis using
Instantaneous Axis Method. Use A4 size paper.
Problem 3-31 of [4]
Assignment #6: Use A4 size paper.
Problem 3-28 of [4]
9 PRELIMINARY EXAMINATIONS
Velocity Analysis
Reading assignment #6:
Page 85 - 100 Chapter 4 Acceleration Analysis of [4]
10 Graphical Method Acceleration Analysis
Plate #6: Acceleration Analysis, Use A4 size paper
Problem 3-31 of [4]
Assignment #7: Use A4 size paper.
Problem 3-28 of [4]
2011](https://image.slidesharecdn.com/machineelementslaboratory1-110607064242-phpapp02/85/Machine-elements-laboratory_1-4-320.jpg)
![Mechanical Engineering Department
11 Graphical Method Acceleration Analysis
Plate #6: Acceleration Analysis, Use A4 size paper
Problem 8-2 of [3]
Assignment #7: Use A4 size paper.
Problem 8-1 of [3]
12 Quiz #3: Acceleration Analysis
13 Groupings (4-5 per group)
The project is design and fabrication of a Remote Controlled
Walking Robot applying the concepts of linkages. The Walking
Robot shall have at least minimum of 4 legs and preferably
made of aluminum.
Talk among your group and submit an initial project design,
detailed plan, drawing, material, costs and Gantt chart for the
accomplishment of the project.
Assignment #8: Use A4 size paper.
Submit a final detailed project design with dimensions of the
Walking Robot and prepare to discuss it in the class.
14 Presentation of group project inside the classroom.
15 Project Implementation 1
16 Project Implementation 2
17 Project Presentation
18 Final Examination
2011](https://image.slidesharecdn.com/machineelementslaboratory1-110607064242-phpapp02/85/Machine-elements-laboratory_1-5-320.jpg)
Machine elements laboratory_1
- 1. Mechanical Engineering Department Course Information and Outline . Course Title Machine Elements 1 (Laboratory) Course Code ME 313 L Description This course deals the analysis of the mobility, position, velocity, and acceleration of common mechanisms using graphical, analytical and computer-aided techniques. It also covers mechanism design and; analysis of static and dynamic forces in mechanisms. Course Objective At the end of the course, the students are expected to 1. Analyze motion of machines using analytical and graphical method. 2. Design simple mechanisms moving in a prescribed fashion 3. Analyze static and dynamic forces in machines 4. Work harmoniously with team members playing different roles Requirements Plates. Plates will be done individually and will consist of drafting exercises done inside the classroom or laboratory. Quizzes. Quizzes are given after accomplishing one significant topic. It shall consist of application and design problems. It may also include practical exams. Design Projects. One (1) major group will be submitted before the end of the semester. The project is design and fabrication of a Remote Controlled Walking Robot applying the concepts of linkages. Long Exam. The long exam will be given at midterm and finals of the semester. Class Standing. Class standing includes recitation, seatworks, and assignments. Resources [1] Myszka, David, Machines and Mechanisms [2] Norton, Robert L., Design of Machinery [3] Martin, George H., Kinematics and Dynamics of Machines [4] Doughtie, V.L., James, W.H.; Elements of Mechanisms Grading System Plates 30% Quizzes 30% Group Project 20% Class Standing 20% 2011
- 2. Mechanical Engineering Department Schedule Wk Topics/Activities 1 Orientation Introduction to Kinematics Assignment # 1: Kinematic Diagrams (Individual) Submit at least five (5) sketches of scaled machine part using systems of links and draw its kinematic diagram. Discuss in detail the main function of the machine and the behavior of the motion, whether translation, rotation or combination of both. Prepare to discuss your machine part next meeting. Use pencil and A4 size paper. Reading assignment #1: Page 44 – 48 Chapter 3 Linkages of [3] 2 Introduction to Linkages Four-bar linkage Assignment #2: Four-bar linkages (Individual) Submit in one (1) Sintra board, models of four-bar linkages specifically: (1) Parallel-Crank Four-Bar Linkage (2) Crank and Rocker (3) Slider-Crank Mechanism (4) Nonparallel equal-crank Linkage (5) Drag Link Make sure that the models are moving and the positions of the critical points on the links are properly sketched in the board. Place appropriate dimension in each of the linkages. Reading assignment #2: Page 69 - 83 Chapter 4 Instant Centers of [3] 3 Instant Centers Kennedy’s Theorem Plate #1: Instant Centers Move crank 2 of your project from 0 degree to 30 degrees with respect with the horizontal. At that instant position, locate the instant center using Kennedy’s Theorem. Draw the instant center in an A4 size paper. Use: (1) Crank and Rocker (2) Nonparallel equal-crank Linkage (3) Slider-Crank Mechanism Assignment #3: Answer Problem 4-1 Page 83 of [3] Draw in an A4 size paper. 2011
- 3. Mechanical Engineering Department 4 Position Analysis Plate #2: Position Analysis Move crank 2 of your project from 0 degrees to 30 degrees with respect with the horizontal. At that instant position, locate the instant center using Kennedy’s Theorem. Draw the instant center in an A4 size paper. Use: (1) Crank and Rocker (2) Nonparallel equal-crank Linkage (3) Slider-Crank Mechanism Assignment #4: Move crank 2 of your project from 0 degrees to 30 degrees with respect with the horizontal. At that instant position, locate the instant center using Kennedy’s Theorem. Draw the position analysis in an A4 size paper. Use: (1) Parallel-Crank Four-Bar Linkage (2) Drag Link Create a table indicating the position of the critical points in the links when crank 2 is moved in 30 degree interval until it rotates at 360 degrees. Draw the table in an A4 size paper. Reading assignment #4: Page 49 - 51 Chapter 3 Linkages of [3] Crank-Shaper, Whitworth, Drag Link and Offset Slider Crank 5 Position Analysis Plate #3: Position Analysis. Use A4 size paper. (a) Draw the change in stroke of the Crank Shaper shown when the Link 2 rotates 30 degrees counterclockwise from its initial position. (b) Draw the change in stroke of Drag Link shown when Link 2 rotates 30 degrees counterclockwise from its initial position. Assignment #5: Use A4 size paper. (a) Draw the change in stroke of the Withworth shown when the Link 2 rotates 30 degrees counterclockwise from its initial position. (b) Draw the change in stroke of Offset Slider Crank shown when Link 2 rotates 30 degrees counterclockwise from its initial position. 2011
- 4. Mechanical Engineering Department 6 Quiz #1 Linkages and Position Analysis (1) Kinematic diagram (2) Four-bar linkages (3) Instant Centers Multiple choice type of exam Reading assignment #3: Page 69 - 83 Chapter 4 Instant Centers of [3] Reading assignment #5: Page 37 - 48 Chapter 3 Velocity Analysis of [4] 7 Review of Vectors Graphical Method Velocity Analysis using Resolution and Composition Method Plate #4: Velocity Analysis Using Resolution and Composition Method. Use A4 size paper. Problem 3-31 of [4] Assignment #6: Use A4 size paper. Problem 3-28 of [4] Reading assignment #6: Page 49 - 56 Chapter 3 Velocity Analysis of [4] 8 Velocity Analysis using Instantaneous Axis Method Plate #5: Velocity Analysis Using Velocity Analysis using Instantaneous Axis Method. Use A4 size paper. Problem 3-31 of [4] Assignment #6: Use A4 size paper. Problem 3-28 of [4] 9 PRELIMINARY EXAMINATIONS Velocity Analysis Reading assignment #6: Page 85 - 100 Chapter 4 Acceleration Analysis of [4] 10 Graphical Method Acceleration Analysis Plate #6: Acceleration Analysis, Use A4 size paper Problem 3-31 of [4] Assignment #7: Use A4 size paper. Problem 3-28 of [4] 2011
- 5. Mechanical Engineering Department 11 Graphical Method Acceleration Analysis Plate #6: Acceleration Analysis, Use A4 size paper Problem 8-2 of [3] Assignment #7: Use A4 size paper. Problem 8-1 of [3] 12 Quiz #3: Acceleration Analysis 13 Groupings (4-5 per group) The project is design and fabrication of a Remote Controlled Walking Robot applying the concepts of linkages. The Walking Robot shall have at least minimum of 4 legs and preferably made of aluminum. Talk among your group and submit an initial project design, detailed plan, drawing, material, costs and Gantt chart for the accomplishment of the project. Assignment #8: Use A4 size paper. Submit a final detailed project design with dimensions of the Walking Robot and prepare to discuss it in the class. 14 Presentation of group project inside the classroom. 15 Project Implementation 1 16 Project Implementation 2 17 Project Presentation 18 Final Examination 2011