Humber College MECH 212
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This is graphic and analytical assignment.
You will work on 2 common types of mechanism, a four bar linkage and a slider.
The kinematic diagram is given. You must use a proper scale for drawing and the instant centers.
Four bar linkage tableO2O4 = 800 mm
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No. |
O2A |
AB |
AM |
O4B |
?° |
1. |
200 |
580 |
300 |
710 |
20 |
2. |
210 |
600 |
840 |
710 |
45 |
3. |
200 |
600 |
400 |
480 |
60 |
4. |
320 |
980 |
200 |
620 |
130 |
5. |
300 |
970 |
1200 |
615 |
100 |
6. |
220 |
590 |
720 |
700 |
30 |
7. |
300 |
1100 |
520 |
610 |
50 |
8. |
220 |
620 |
800 |
680 |
120 |
9. |
320 |
1000 |
800 |
590 |
150 |
10. |
300 |
800 |
100 |
600 |
30 |
11. |
200 |
600 |
400 |
500 |
45 |
12. |
240 |
600 |
250 |
700 |
150 |
13. |
300 |
760 |
500 |
500 |
70 |
14. |
210 |
630 |
320 |
650 |
60 |
15. |
200 |
580 |
300 |
710 |
60 |
16. |
210 |
600 |
840 |
710 |
30 |
17. |
200 |
600 |
400 |
480 |
40 |
18. |
320 |
980 |
200 |
620 |
50 |
19. |
300 |
970 |
1200 |
615 |
60 |
20. |
220 |
590 |
720 |
700 |
70 |
21. |
300 |
1100 |
520 |
610 |
80 |
22. |
220 |
620 |
800 |
680 |
110 |
23. |
320 |
1000 |
800 |
590 |
120 |
24. |
300 |
800 |
100 |
600 |
130 |
25. |
200 |
600 |
400 |
500 |
140 |
26. |
240 |
600 |
250 |
700 |
150 |
27. |
300 |
760 |
500 |
500 |
200 |
28. |
210 |
630 |
320 |
650 |
230 |
29. |
200 |
580 |
300 |
710 |
240 |
30. |
210 |
600 |
840 |
710 |
250 |
31. |
200 |
600 |
400 |
480 |
300 |
32. |
320 |
980 |
200 |
620 |
310 |
33. |
300 |
970 |
1200 |
615 |
320 |
34. |
220 |
590 |
720 |
700 |
330 |
35. |
300 |
1100 |
520 |
610 |
25 |
36. |
220 |
620 |
800 |
680 |
35 |
37. |
320 |
1000 |
800 |
590 |
45 |
38. |
300 |
800 |
100 |
600 |
55 |
39. |
200 |
600 |
400 |
500 |
65 |
40. |
240 |
600 |
250 |
700 |
75 |
41. |
300 |
760 |
500 |
500 |
115 |
42. |
200 |
580 |
300 |
710 |
125 |
43. |
210 |
600 |
840 |
710 |
135 |
44. |
200 |
600 |
400 |
480 |
145 |
45. |
320 |
980 |
200 |
620 |
155 |
46. |
300 |
970 |
1200 |
615 |
215 |
47. |
220 |
590 |
720 |
700 |
225 |
48. |
300 |
1100 |
520 |
610 |
235 |
49. |
220 |
620 |
800 |
680 |
245 |
50. |
320 |
1000 |
800 |
590 |
295 |
51. |
300 |
800 |
100 |
600 |
305 |
52. |
200 |
600 |
400 |
500 |
60 |
53. |
240 |
600 |
250 |
700 |
120 |
54. |
300 |
760 |
500 |
500 |
70 |
55. |
210 |
630 |
320 |
650 |
140 |
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No. |
Student |
No. |
47. |
35 |
|
https://www.randomlists.com/random-numbers?min=1&max=32&qty=32&dup=false
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Students are selected randomly.
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You must handle for each exercise at least 3 sheets of paper:
- The positions of mechanism.
- The velocity and instant centers
- The comments on the movement of the mechanism and the calculations.
Exercise Nr. 1
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- Draw the positions of this four bar linkage mechanism when:
? = 0o, 30o, 45o, 60o, 90o, 120o, 135o, 150o, 180o, 225o, 240o, 270o, 300o, 325o, 330o and of course do not forget within between the dead positions.
- Draw the path or trajectory of point M.
- Comment of movement of the links of the mechanism.
- Find the instant center for the given moment defined by the value of the angle ? if O2A is rotating at 120 rot/min counter clockwise
- Find the Velocity of B (m/sec) using the relative velocity method and the instant center.
- Find the value of angular velocity (rev/min) for the link 4 at the given moment.
- Find the angular velocity (rev/min) of the ling AB for the given moment.
- Find the Velocity of M (m/sec) using the relative velocity method and the instant center.
The File should be dropped at the course messages ONLY. The E-mail should be named Last Name First Name Assignment 1. (Gusho Dhimitri Assignment 1)
Every Assignment should have the cover page.
The Unit System is ISO.
All the drawing must be presented neatly and the explanation in a good technical writing.
The solution must be written clearly.
Humber CollegeMECH 212
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Slider Crank Mechanism Table
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No. |
O2A |
AB |
AM |
Offset |
?° |
1. |
200 |
600 |
100 |
+50 |
20 |
2. |
210 |
510 |
140 |
-60 |
45 |
3. |
300 |
520 |
120 |
+70 |
50 |
4. |
210 |
540 |
120 |
+80 |
30 |
5. |
220 |
560 |
120 |
-70 |
30 |
6. |
220 |
600 |
200 |
+60 |
120 |
7. |
200 |
480 |
200 |
+50 |
60 |
8. |
220 |
600 |
200 |
+40 |
120 |
9. |
300 |
620 |
200 |
+30 |
130 |
10. |
300 |
500 |
200 |
0 |
150 |
11. |
300 |
400 |
200 |
-60 |
100 |
12. |
240 |
400 |
250 |
-50 |
60 |
13. |
300 |
580 |
200 |
-40 |
150 |
14. |
200 |
500 |
300 |
-30 |
70 |
15. |
200 |
600 |
100 |
0 |
70 |
16. |
210 |
510 |
140 |
+60 |
230 |
17. |
300 |
520 |
120 |
-50 |
240 |
18. |
210 |
540 |
120 |
-60 |
250 |
19. |
220 |
560 |
120 |
-70 |
300 |
20. |
220 |
600 |
200 |
+80 |
310 |
21. |
200 |
480 |
200 |
-70 |
320 |
22. |
220 |
600 |
200 |
-60 |
330 |
23. |
300 |
620 |
200 |
-50 |
25 |
24. |
300 |
500 |
200 |
+40 |
35 |
25. |
300 |
400 |
200 |
0 |
45 |
26. |
240 |
400 |
250 |
+40 |
55 |
27. |
300 |
580 |
200 |
-40 |
65 |
28. |
200 |
500 |
300 |
+40 |
75 |
29. |
200 |
600 |
100 |
-40 |
115 |
30. |
210 |
600 |
840 |
0 |
125 |
31. |
200 |
600 |
100 |
-50 |
135 |
32. |
210 |
510 |
140 |
+50 |
145 |
33. |
300 |
520 |
120 |
-50 |
155 |
34. |
210 |
540 |
120 |
+50 |
215 |
35. |
220 |
560 |
120 |
0 |
225 |
36. |
200 |
480 |
200 |
+60 |
235 |
37. |
220 |
600 |
200 |
+60 |
245 |
38. |
300 |
620 |
200 |
-60 |
295 |
39. |
300 |
500 |
200 |
-60 |
305 |
40. |
300 |
400 |
200 |
-70 |
60 |
41. |
200 |
600 |
100 |
-60 |
120 |
42. |
210 |
510 |
140 |
-50 |
70 |
43. |
300 |
520 |
120 |
+40 |
140 |
44. |
210 |
540 |
120 |
0 |
230 |
45. |
220 |
560 |
120 |
-40 |
240 |
46. |
220 |
600 |
200 |
0 |
250 |
47. |
200 |
480 |
200 |
-40 |
300 |
48. |
220 |
600 |
200 |
+40 |
150 |
49. |
300 |
620 |
200 |
0 |
100 |
50. |
300 |
500 |
200 |
-50 |
60 |
51. |
300 |
400 |
200 |
-50 |
150 |
52. |
240 |
400 |
250 |
+70 |
70 |
53. |
300 |
580 |
200 |
+80 |
70 |
54. |
200 |
500 |
300 |
-70 |
230 |
55. |
200 |
600 |
100 |
+60 |
240 |
You must handle this exercise at least 3 sheets of paper:
- The positions of mechanism.
- The velocity and instant centers
- The comments on the movement of the mechanism and the calculations.
Exercise No. 2
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- Draw the positions of this slider crank mechanism when:
? = 0o, 30o, 45o, 60o, 90o, 120o, 135o, 150o, 180o, 225o, 240o, 270o, 300o, 325o, 330oand of course do not forget within between the dead positions.
- Draw the path or trajectory of point M.
- Find the instant center for the given moment defined by the value of the angle ? if O2A is rotating at 360 rot/min clockwise
- Find the Velocity of B (m/sec) using the relative velocity method and the instant center.
- Find the angular velocity (rev/min) of the link AB for the given moment.
- Find the Velocity of M (m/sec) using the relative velocity method and the instant center.
The Unit System is ISO.
All the drawing must be presented neatly and the explanation in a good technical writing.
The solution must be wwritten Clearly. My name is Yagnik Vadi so my question no is 35 in both table.