1 / 31

Lesson Objectives

Lesson Objectives. Introduction To :- Types Of Motion Linkages. Types Of Motion. Linear Motion. Rotary Motion. Reciprocating Motion. Oscillating Motion. Linkages. What is a linkage ? How are they used ?. Before Starting With Linkage Kits. REVERSE MOTION LINKAGE :.

libitha
Download Presentation

Lesson Objectives

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Lesson Objectives Introduction To :- Types Of Motion Linkages

  2. Types Of Motion

  3. Linear Motion

  4. Rotary Motion

  5. Reciprocating Motion

  6. Oscillating Motion

  7. Linkages • What is a linkage ? • How are they used ?

  8. Before Starting With Linkage Kits

  9. REVERSE MOTION LINKAGE: As the top rod moves to the left the bottom rod moves to the right. The bars move in opposite directions. Another way of describing this linkage is the direction of movement in one rod is reversed in the other rod. The fixed pivot is the centre of rotation.

  10. Walking Mechanism

  11. PARALLEL MOTION LINKAGE: As the large rod at the top of the diagram moves to the left the two small rods at the bottom move to the right. All the rods are parallel to each other.

  12. PARALLEL MOTION LINKAGE: TOOL BOX DRAWS: When the lid of the tool box is opened an extra set of draws can be 'unfolded'. This allows more tools to be stored.

  13. PARALLEL MOTION LINKAGE: In 1784 Watt found a solution to his engine problems (which he called "parallel motion") that was developed in several different configurations.

  14. CRANK AND SLIDER LINKAGE: The rods move forwards and backwards in slider. The fixed pivot anchor the linkages to one place.

  15. CRANK AND SLIDER LINKAGE: The crank which is the rotating disc, the slider which slides inside the tube and the connecting rod which joins the parts together. As the slider moves to the right the connecting rod pushes the wheel round for the first 180 degrees of wheel rotation. When the slider begins to move back into the tube, the connecting rod pulls the wheel  round to complete the rotation.

  16. BELL CRANK LINKAGE: This linkage allows horizontal movement to be converted to vertical movement. It also works the opposite way round. A practical example of this is the brake mechanism on a bicycle.

  17. BELL CRANK LINKAGE: BICYCLE BRAKES: Look at the diagram carefully. As the brake lever on the bike is pulled the cable moves upwards and forces the brake blocks against the rim of the wheel. Explain the type of linkage involved - using notes and diagrams. Look at the page 'linkages' to help you decide.

  18. BELL CRANK LINKAGE: From the SafeAir1 glider wing pushrod on the aileron. Clear use of a bell crank

  19. Windscreen Wipers

  20. Design a linkage to solve this problem – You cannot cross the wall

  21. One Answer

  22. Free Linkage Software http://www.edu-ctr.pref.kanagawa.jp/LinkWeb/index_e.htm

More Related