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Book information of mechanical principle course design 5

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translator: Li Ruiqin publication time: June 2010
1000 words: 378
Edition: 1-01
page number: 236
format: 16 (185 * 260)
Print number: 1-01
i s B N:
Pricing: ¥ 35.0 Part 1: guiding part of mechanical principle curriculum design (1)
Chapter 1 Introduction (1)
1.1 purpose and significance of mechanical principle curriculum design (1)
1.1.1 purpose of mechanical principle course design (1)
1.1.2 significance of mechanical principle course design (2)
1.2 contents and methods of mechanical principle course design (2)
1.3 preparation of mechanical principle course design specification (3)
1.3.1 contents of course design specification (3)
1.3.2 relevant requirements for preparation of course design specification (4)
Chapter 2 general process of mechanical motion scheme design (5)
2.1 contents and steps of mechanical design (5)
2.1.1 basic concept of design (5)
2.1.2 general process of mechanical design (5)
2.2 design theory and method of mechanical motion scheme (7)
2.3 steps of mechanical motion scheme design (8)
Chapter 3 coordinated design of mechanical motion system (11)
3.1 requirements for coordinated design of mechanical motion system (11)
3.2 types of mechanical motion cycle diagram (12)
3.3 design steps and methods of mechanical motion cycle diagram (14)
3.3.1 design steps of mechanical motion cycle diagram (14)
3.3.2 function of mechanical motion cycle diagram (19)
3.4 design example of mechanical motion cycle diagram (19)
3.4.1 example 1 (19)
3.4.2 example 2 (21)
3.4.3 example 3 (22)
Chapter 4 mechanical transmission system design (25)
4.1 mechanical transmission system scheme design process (25)
4.1.1 transmission system function and design process (25)
4.1.2 transmission type and characteristics (25)
4.1.3 selection principle of mechanical transmission type (27)
4.2 prime mover type and selection (28)
4.2.1 types and characteristics of prime mover (28)
4.2.2 selection of prime mover (30)
4.3 scheme design of transmission chain (31)
4.3.1 selection of transmission route (31)
4.3.2 arrangement of mechanism in transmission chain (33)
4.3.3 distribution principle of transmission ratio at all levels (33)
4.4 calculation of characteristics and parameters of mechanical transmission system (35)
4.5 design example of mechanical transmission system scheme (37)
4.5.1 design of transmission system of honeycomb briquette forming machine (37)
4.5.2 design of transmission system of soap embossing machine (40)
Chapter 5 innovative design of actuator system (43)
5.1 frame transformation method (43)
5.1.1 frame transformation of low auxiliary mechanism (43)
5.1.2 frame transformation of high auxiliary mechanism (44)
5.2 component shape variation (45)
5.2.1 avoiding motion interference between components (45)
5.2.2 meeting specific working requirements (46)
5.3 shape variation of motion pair (48)
5.3.1 variant design of rotating pair (48)
5.3.2 variant design of moving pair (49)
5.3.3 variant design of spherical pair (49)
5.4 equivalent substitution of motion pair (50)
5.4.1 equivalent substitution of high pair and low pair (50)
5.4.2 equivalent substitution of sliding friction pair and rolling pair (51)
Chapter 6 evaluation of mechanical motion scheme (52)
6.1 evaluation system of mechanical motion scheme (52)
6.1.1 determination principle of evaluation index system (52)
6.1.2 evaluation index of mechanism system (53)
6.2 evaluation method of mechanical motion scheme (56)
6.2.1 scoring method (56)
6.2.2 system engineering evaluation method (58)
6.2.3 fuzzy comprehensive evaluation method (60)
6.3 processing of evaluation results (60)
6.4 application examples of mechanical motion scheme evaluation method (61)
part 2 of mechanical principle course design data (65)
Chapter 7 continuous rotating mechanism (65)
7.1 constant speed rotating mechanism with constant transmission ratio (65)
7.1.1 link mechanism (65)
7.1.2 gear mechanism (67)
7.1.3 friction transmission mechanism (69)
7.1.4 belt transmission mechanism and chain transmission mechanism (72)
7.2 variable transmission ratio constant speed rotation mechanism (72)
7.2.1 stepwise speed change mechanism (72)
7.2.2 stepless speed change mechanism (74)
7.3 non-uniform speed rotation mechanism (77)
7.3.1 link mechanism (77)
7.3.2 non circular gear mechanism (78)
7.3.3 combined mechanism (81)
Chapter 8 reciprocating mechanism (83)
8.1 reciprocating mechanism (83)
8.1.1 general reciprocating mechanism (83)
8.1.2 reciprocating mechanism with quick return characteristic (85)
8.1.3 reciprocating mechanism with force increasing characteristic (87)
8.2 reciprocating swing mechanism (89)
8.2.1 general reciprocating swing mechanism (89)
8.2.2 reciprocating swing mechanism with quick return characteristics (91)
Chapter 9 intermittent motion mechanism and reversing mechanism (95)
9.1 intermittent rotation mechanism (95)
9.1.1 intermittent motion mechanism controlled by cam (95)
9.1.2 grooved wheel combination mechanism and ratchet wheel combination mechanism (96)
9.2 intermittent swing mechanism (97)
9.2.1 swing mechanism with unilateral stop (98)
9.2.2 swing mechanism with bilateral stop (99)
9.2.3 swing mechanism with midway stop (101)
9.3 intermittent moving mechanism (101)
9.3.1 mobile mechanism with unilateral stop (102)
9.3.2 mobile mechanism with bilateral stop (103)
9.3.3 mobile mechanism with midway stop (103)
9.3.4 one way stop moving mechanism (104)
9.4 reversing mechanism (105)
9.4.1 periodic reversing mechanism (105)
9.4.2 aperiodic reversing mechanism (106)
Chapter 10 stroke increasing mechanism and adjustable mechanism (109)
10.1 stroke increasing mechanism (109)
10.1.1 stroke increasing mechanism using gear (109)
10.1.2 stroke increasing mechanism using connecting rod (112)
10.1.3 stroke increasing mechanism using cam (114)
10.2 adjustable mechanism (116)
10.2.1 adjustable connecting rod mechanism (116)
10.2.2 adjustable cam mechanism (119)
Chapter 11 differential mechanism and hydro pneumatic mechanism (121)
11.1 differential mechanism (121)
11.1.1 differential connecting rod mechanism (121)
11.1.2 differential gear mechanism (122)
11.1.3 differential screw mechanism (123)
11.1.4 differential pulley mechanism (126)
11.1.5 combined mechanism (126)
11.2 hydro pneumatic linkage (128)
11.2.1 calculation of position parameters of hydro pneumatic linkage (128)
11.2.2 calculation of motion parameters and dynamic parameters of hydro pneumatic linkage
(129)
11.2.3 selection of basic parameters of hydro pneumatic linkage mechanism (130)
11.2.4 design of hydro pneumatic linkage mechanism (130)
11.2.5 application examples of hydro pneumatic linkage mechanism (133)
Chapter 12 mechanism for realizing expected trajectory and expected position (136)
12.1 mechanism for realizing expected trajectory (136)
12.1.1 mechanism for realizing linear trajectory (136)
12.1.2 mechanism for realizing process curve trajectory (138)
12.1.3 mechanism for realizing special curve (141)
12.2 mechanism for realizing expected position (142)
Chapter 13 computer aided design of mechanism system (145)
13.1 computer aided four-bar mechanism design (145)
13.1.1 displacement analysis (145)
13.1.2 speed analysis (147)
13.1.3 acceleration analysis (148)
13.1.4 program design of four-bar linkage (149)
13.2 computer aided design of crank slider mechanism (152)
13.2.1 displacement analysis (152)
13.2.2 speed analysis (153)
13.2.3 acceleration analysis (154)
13.2.4 program design of crank slider mechanism (155)
13.3 computer aided function generation mechanism design (157)
13.3.1 function generation mechanism design (157)
13.3.2 function generation mechanism program design (159)
13.4 computer aided cam mechanism design (163)
13.4.1 direct follower cam mechanism design (163)
13.4.2 direct follower cam mechanism program design (164)
Chapter 14 design knowledge of planar mechanism (171)
14.1 determination of cam base circle radius (171)
14.1.1 determination of cam base circle radius by computer-aided design method (171)
14.1.2 determination of cam base circle radius by graphic method (171)
14.2 design of gear modification coefficient (174)
14.2.1 selection principle of modification coefficient (174)
14.2.2 selection method of displacement coefficient (175)
14.3 drawing of involute gear meshing diagram (176)
14.3.1 drawing method of involute (176)
14.3.2 drawing steps of meshing diagram (177)
Title part of Chapter 3 course design of mechanical principle (180)
example of mechanism system scheme design in Chapter 15 (180)
15.1 design of powder tablet press (180)
15.1.1 design requirements (180)
15.1.2 function decomposition and motion function formulation of tablet press (180)
15.1.3 motion cycle diagram design of tablet press (182)
15.1.4 motion scheme design of tablet press (182)
15.2 design of resistance cap press (185)
15.2.1 design requirements (185)
15.2.2 function decomposition (186)
15.2.3 motion coordination design (186)
15.2.4 mechanism selection and evaluation (187)
15.3 platform printer design (187)
15.3.1 design requirements (187)
15.3.2 function decomposition (188)
15.3.3 mechanism selection (189)
15.3.4 mechanism combination (191)
15.3.5 transmission system scheme design (192)
15.3.6 operation coordination design (192)
15.3.7 mechanism design (193)
15.4 design of semi-automatic flat die cutting machine (194)
15.4.1 design requirements (194)
15.4.2 design of motion scheme (194)
15.4.3 evaluation of motion scheme (195)
15.4.4 formulation of transmission system (196)
15.4.5 formulation of motion cycle diagram (197)
Chapter 16 course design topics and requirements (199)
16.1 design of automatic paste filling machine (199)
16.2 design of automatic nail making machine (200)
16.3 design of automatic bottle washing machine (201)
16.4 design of motor rotor embedded insulating paper machine (202)
16.5 design of honeycomb briquette forming machine (203)
16.6 design of automatic cake slicer (204)
16.7 design of automobile windshield wiper (205)
16.8 design of book packer (206)
16.9 design of automatic book cutting machine (210)
16.10 automatic chocolate candy packaging machine design (211)
16.11 soap embossing machine design (213)
16.12 screw head cold heading machine design (214)
16.13 fine press stamping and feeding mechanism system design (214)
16.14 cotton swab coiler design (217)
16.15 stepping conveyor design (219)
16.16 stepping plate punching machine design (220)
Appendix common motor specifications (222)
references (228) mechanical principle course design is an important teaching link to enable students to comprehensively and systematically master and deepen the basic theories and methods of mechanical principle course, and cultivate students’ preliminary ability of mechanical motion scheme design and analysis. It is also an important teaching link to cultivate students’ engineering design, In particular, it is an important practical link of mechanism system scheme innovative design ability
since China started the construction of excellent courses, the mechanical principle courses of many colleges and universities have been rated as national excellent courses and provincial excellent courses. During the construction of excellent courses, rich teaching experience has been accumulated in the practical link of mechanical principle course design. From another point of view, the research object of mechanical principle course and the concept of mechanism and machine are constantly expanding and developing, and the cutting-edge knowledge of corresponding disciplines such as mechanism and robotics is also rapidly developing and constantly improving

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