陶瓷学院机械原理作业及答案Word文档下载推荐.docx

1、10=1 （1）红线内的构件为重复结构，构成虚约束。（2）去掉以上构件后，C仍为构件2、3、4的复合铰链。（3）滑块5与机架6之间为移动副。F= 3n-2PL-Ph =3527=1Ex.2-5 Calculate the degree of freedom of the mechanisms shown below. Indicate all points for attention before the calculation of the DOF.（a）两个滚子有局部自由度。（b）滚子D与凸轮1之间只能算一个高副。 F=3n-2PL-Ph =37 29 -2=1（1） Link BC is

2、 welded to gear 2（2） A is a compound hinge of gear 4、link 1、and frame 5.4 25 -1 =1常见错误：认为B是复合铰链，而不认为A是复合铰链。Ex.2-6 Calculate the degree of freedom of the mechanisms shown below. Indicate all points for attention before the calculation of the DOF.（a） C为构件2、3、4的复合铰链。（b） C处有两个转动副和两个移动副。（c） E处有一个转动副和两个移动

3、副。注意：E不是复合铰链！当构件尺寸任意时，构件2作平面复杂运动，而杆4与机架间组成移动副，所以杆4仅作平动。因此，构件2和构件4之间有相对转动。因此，应该有构件6，并且构件4和6之间有转动副，如右图所示。当ABCD 且BCAD时，杆2仅作平动。杆4与机架间组成移动副，所以杆4也仅作平动。这样，构件2和构件4之间就没有相对转动，只有相对移动。即：构件4和构件6之间就没有相对转动了，因此，可将构件6与构件4焊接起来（去掉构件6），如左图所示。然而，在计算机构自由度时，应该按一般尺寸情况下进行分析，即：应该按照右图情况来分析机构的自由度。5 2Ex.2-7 Shown below is the k

4、inematic diagram of an engine mechanism.（1） Calculate the degree of freedom of the mechanism. Indicate all points for attention before the calculation of the DOF.（2） Carry out the structural analysis for the mechanism.（3） Carry out the structural analysis for the mechanism if link EFG is a driver.No

5、te: During structural analysis, list the assembly order of Assur groups, the type of group, the grade of group, the grade of the mechanism, the link serial numbers, the inner pair and the outer pairs of each group in each mechanism.（1） F= 3n-2PL-Ph =3（2） 当AB为原动件时，（3）当EFG为原动件时，Ex.2-8 Carry out the st

6、ructural analysis for the mechanism（a） if link 1 is a driver. （b） if link 5 is a driver.（a） if link 1 is a driver,Links 2, 3, 4 and 5 constitute a grade III Assur group.Links 3 and 4 constitute the first RPR Assur group.Links 1 and 2 constitute the second RPR Assur group.2-9 The schematic diagram of

7、 a punch machine designed by someone is shown in Fig2-9. This machine should be able to transform a continuous rotation of gear 1 into a translation of the punch 4. Can the machine work properly? If it cant ,please rectify it.Fig2-9不能正常工作。改正如图（或者改成题目2-3构件5、6、7的连接）2-10 The schematic diagram of a mech

8、anism designed by someone is shown in Fig2-10. This mechanism should be able to transform a continuous rotation of link1 into an oscillation of link4. Can the mechanism work properly?Fig2-10Ex.3-1 Locate all instant centres of mechanisms for the position shown.Ex.3-2 For the position shown of a gear

9、ed linkage, determine the ratio 3/1 of the angular velocity of gear 3 to that of gear 1, using the method of instant centres.P13是构件1和3的瞬心，等速重合点，所以， 1LAE =3LDE, 3/1=LAE/LDEEx.3-3 For the position shown of cam mechanism, determine the ratio 2/1 of the angular velocity of follower 2 to that of cam 1, u

10、sing the method of instant centres.E（P12）是构件1和2的瞬心，等速重合点，所以， 1LOE=2LAE, 2/1=LOE/LAEEx.3-4 In the pivot four-bar linkage shown below, 1= -10rad/sec. Using the method of instant centres, （a） find the velocity of point C for the position shown.（b） for the position shown, locate the point E on the line

11、BC （or its extension） which has the minimum velocity among all points on the line BC and its extension, and then calculate its velocity.（c） draw two positions of the crank AB corresponding to VC=0.（a） VB1= 1LAB=VB2= 2LFB，所以，VC= VC2= 2LFC= 1LABLFC/LFB（b） VE=2LFE。（c ） VC=0所对应的曲柄AB的两个位置:Ex.3-5 In the s

12、ix-bar mechanism shown below, XA=0, YA=0, XD=450mm, YD=0, LAB=150mm, LBC=400mm, LDC=350mm, CDE=30, LDE=150mm, LEF=400mm. The crank AB rotates at a constant speed 10rad/sec. A main program is required to analyze the output motions of the point F. The mechanism will be analyzed for the whole cycle whe

13、n the driver AB rotates from 0 to 360 with a step size of 5.FOR I=0 TO 360 STEP 5 CALL LINK（0, 0, 0, 0, 0, 0, I*PI/180, 10, 0, 150, XB, YB, VBX, VBY, ABX, ABY） CALL RRR（450, 0, 0, 0, 0, 0, XB, YB, VBX,VBY, ABX,ABY,350,400,Q3,W3,E3,Q2,W2,E2） CALL LINK（450, 0, 0, 0, 0, 0, Q3-PI/6, W3, E3, 150, XE, YE,

14、 VEX, VEY, AEX, AEY） CALL RRP（1, 0, 400, XE, YE, VEX, VEY, AEX, AEY, Q5, W5, E5） CALL LINK（XE,YE,VEX,VEY,AEX,AEY,Q5,W5, E5, 400, XF, YF, VFX, VFY, AFX, AFY） PRINT I, XF, YF, VFX, VFY, AFX, AFYNEXT IENDEx3-7 . In the mechanism shown below, XG=YG=0, XB= - 42, YB=39, XD=10, YD=75, LBA=23mm, LGF=12mm, L

15、FE=95mm, LEC=69mm, LDC=48mm, EFG=90. The crank BA rotates at a constant speed of 10 rad/sec. A main program is required to analyze the output motions of the point C. The mechanism will be analyzed for the whole cycle when the driver BA rotates from 0 to 360 with a step size of 5.CALL LINK（-42, 39, 0

16、, 0, 0, 0, I*PI/180, 10, 0, 23, XA, YA, VAX, VAY, AAX, AAY）CALL RPR（-1, 0, 0, 0, 0, 0, 0, XA, YA, VAX, VAY, AAX, AAY, 12, QFE, W3, E3）CALL LINK（0, 0, 0, 0, 0, 0, QFE+0.12565033, W3, E3, 95.75489544, XE, YE, VEX, VEY, AEX, AEY）CALL RRR（XE, YE, VEX, VEY, AEX, AEY, 10, 75, 0, 0, 0, 0, 69, 48, QEC, W4,

17、E4, QDC, W5, E5）CALL LINK（10, 75, 0, 0, 0, 0, QDC, W5, E5, 48, XC, YC, VCX, VCY, ACX, ACY）PRINT I, XC, YC, VCX, VCY, ACX, ACYEx.3-8 In the six-bar mechanism shown below, XB=0, YB=0, XF=37.2, YF=17.5, YC=28.8, LFE=16.8mm, LEC=39.2mm, LCD=20.633mm, LDE=36.4mm, BGA=90, LBG=9mm, LGA=58mm. The crank FE r

18、otates clockwise at a constant speed of -10 rad/sec. A main program is required to analyze the output motions of the point A. The mechanism will be analyzed for the whole cycle when the driver FE rotates from 360 to 0 with a step size of -5.FOR I=360 TO 0 STEP -5CALL LINK（37.2, 17.5, 0, 0, 0, 0, I*P

19、I/180, -10, 0, 16.8, XE, YE, VEX, VEY, AEX, AEY）CALL RRP（-1, 28.8, 39.2, XE, YE, VEX, VEY, AEX, AEY, QEC, W4, E4）CALL LINK（XE, YE, VEX, VEY, AEX, AEY, QEC-0.548, W4, E4, 36.4, XD, YD, VDX, VDY, ADX, ADY）CALL RPR（1, 0, 0, 0, 0, 0, 0, XD, YD, VDX, VDY, ADX, ADY, 9, QGA, W2, E2）CALL LINK（0, 0, 0, 0, 0,

20、 0, QGA-0.153944664, W2, E2, 58.69412, XA, YA, VAX, VAY, AAX, AAY）PRINT I, XA, YA, VAX, VAY, AAX, AAYEx.4-1 According to link dimensions, determine the type of the pivot four-bar linkages shown below. 双曲柄机构 曲柄摇杆机构 双摇杆机构 双摇杆机构 Ex.4-3 In an offset slider-crank mechanism ABC, the crank AB is a driver.

21、The maximum pressure angle MAX=30. Find the stroke H of the slider and the crank acute angle between the two limiting positions.Ex.4-4 Determine the angular strokes of the rockers AB and CD, respectively, using graphical method.VB动画Ex.4-5 Shown are the two positions, B1C1 and B2C2, of the coupler BC

22、 of a revolute four-bar linkage ABCD. The link AB is a driver. The pressure angle at the first position is 0o. The second position of the mechanism is a toggle position. Design the linkage. Describe briefly the drawing steps.The fixed pivot A must be located on the bisector of B1B2. Similarly, D mus

23、t be located on the bisector of C1C2. The link AB is a driver. The pressure angle at the first position is 0o. B1C1C1DThe second position of the mechanism is a toggle position. A, B2, C2三点共线Ex.4-6 In a crank-slider mechanism, two sets of corresponding positions between the slider and a line segment

24、AE on the crank ABE are known, as shown below. The position C1 of the slider is its left limiting position. Find the first position B1 of the revolute B. Describe briefly the drawing steps.作 AC2E1AC2E2，且字母旋向相同，得C2 因C1为滑块的极限位置之一，所以B1点在AC1连线上。作C1C2的中垂线与AC1交于待定活动铰链点B的第一个位置点B1。Ex.4-7 In a revolute four-

25、bar linkage ABCD, side link AB is a driver. The positions of the side link CD and a line segment CE on the coupler CBE corresponding to two positions of the linkage are known. The first position of the linkage is also a dead point. Find the second position B2 of the revolute B. Describe briefly the

26、drawing steps.作 A2C1E1AC2E2，得A2点。因AB为原动件且机构第一位置为死点，所以B1点在DC1的延长线上。作AA2的中垂线与DC1的延长线交于待定活动铰链点B的第一个位置点B1。Ex.4-8 In a crank-rocker linkage ABCD, side link AB is a driver. The positions of the rocker CD corresponding to two positions of the linkage are shown below. At the first position of the linkage, the pressure angle of the linkage is zero. Position DC2 is one of the limit