CN209130135U - Novel all-gear drive cam mechanism - Google Patents

Abstract

The utility model discloses a kind of novel all-gear drive cam mechanisms, including press cam drive and the cam drive of press automation equipment, left idler gear axis, right intermediate gear shaft, it is left between gear wheel, right gear, main driving gear and idle pulley broad in the middle, the press is mounted on the right side of press with cam drive, is engaged with right intermediate gear shaft；Press automation equipment cam drive is mounted on the left of press, is engaged with left idler gear axis；The main driving gear is engaged with right direct geared broad in the middle, drives left gear wheel simultaneously by idle pulley；The left gear wheel and right gear broad in the middle respectively drive left idler gear axis and the rotation of right intermediate gear shaft；The right intermediate gear shaft drives press cam drive, and left idler gear axis drives the cam drive of press automation equipment.The utility model is compact-sized, easy for installation, occupies little space, and precision is high, can effectively reduce the operating time, reduces labor intensity, improves working efficiency.

Description

Novel all-gear drive cam mechanism

Technical field

The utility model relates to a kind of cam drives, belong to mechanical engineering technical field.

Background technique

Rapidly and efficiently numerical-control full-automatic punch line is increasingly used in automobile production, and press machine is as stamping line Main equipment, every all needs equipped with cam drive, to provide crank angle positions signal for whole line control system.It is convex Wheel, which is driven, generally comprises mechanical cam switch and two kinds of rotary encoder configurations, and traditional cam drive is using linked transmission or together Belt drive structure is walked, the slow-speed shaft of press is mounted on, occupied space is larger, is also easy to generate trueness error.

Summary of the invention

Technical problem to be solved in the utility model is in view of the defects existing in the prior art, it is convex to provide a kind of all gear Wheel drive mechanism.

In order to solve this technical problem, the utility model provides a kind of novel all-gear drive cam mechanism, including pressure Machine cam drive and the cam drive of press automation equipment, left idler gear axis, right intermediate gear shaft, it is left between gear wheel, Right gear, main driving gear and idle pulley broad in the middle, the press is mounted on the right side of press with cam drive, with right intermediate gear shaft Engagement；Press automation equipment cam drive is mounted on the left of press, is engaged with left idler gear axis；The main driving gear with Right direct geared engagement broad in the middle, drives left gear wheel by idle pulley simultaneously；The left gear wheel and the right side are broad in the middle Gear respectively drives left idler gear axis and the rotation of right intermediate gear shaft；The right intermediate gear shaft driving press is passed with cam Dynamic, left idler gear axis drives the cam drive of press automation equipment.

The press cam drive includes gear one, gear two, gear three, gear four, mechanical cam and electric cam, Gear one is engaged with right intermediate gear shaft, and gear two is coaxial with gear one and engages simultaneously with gear three, gear four, and gear three drives Dynamic mechanical cam rotation, gear four drive electric cam rotation.

The press automation equipment cam drive includes gear five, gear six, gear seven, rotary encoder and automation Encoder, gear are engaged with left idler gear axis, and gear is coaxial with gear and engages with gear, and gear drives rotary encoder to turn Dynamic, gear drives the rotation of auto-coding device.

The utility model has the advantages that the utility model uses all-gear drive, and it is compact-sized, it is easy for installation, it occupies little space, precision The problem of height, efficiently solves installation space, transmission accuracy can effectively reduce the operating time, reduce labor intensity, improve Working efficiency.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 a is the structural representation front view of the utility model press cam drive；

Fig. 2 b is the structural representation top view of the utility model press cam drive；

Fig. 2 c is the G-G diagrammatic cross-section of the utility model Fig. 2 a；

Fig. 2 d is the H-H diagrammatic cross-section of the utility model Fig. 2 a；

Fig. 3 a is the structural representation front view of the utility model press automation equipment cam drive；

Fig. 3 b is the structural representation top view of the utility model press automation equipment cam drive；

Fig. 3 c is the E-E diagrammatic cross-section of the utility model Fig. 3 a；

Fig. 3 d is the F-F diagrammatic cross-section of the utility model Fig. 3 a.

In figure: 1 gear one, 2 gears two, 3 gears three, 4 gears four, 5 gears five, 6 gears six, 7 gear seven, 8 are mechanical convex Wheel, 9 electric cams, 10 rotary encoders, 11 auto-coding devices, 12 press cam drives, 13 press automation equipments are convex Take turns transmission, 14 left idler gear axis, 15 right intermediate gear shafts, 16 left gear wheels, 17 right sides gear broad in the middle, 18 main sliding tooths Wheel, 19 idle pulleys.

Specific embodiment

The utility model is specifically described with reference to the accompanying drawings and embodiments.

Fig. 1 show the structural schematic diagram of the utility model.

The utility model provides a kind of novel all-gear drive cam mechanism, including press cam drive 12, press Automation equipment cam drive 13, left idler gear axis 14, right intermediate gear shaft 15, left gear wheel 16, right intermediate teeth Wheel 17, main driving gear 18 and idle pulley 19.

The press cam drive 12 is mounted on the right side of press, is engaged with right intermediate gear shaft 15；Press automation is set Standby cam drive 13 is mounted on the left of press, is engaged with left idler gear axis 14.

The main driving gear 18 is directly engaged with right gear 17 broad in the middle, drives left intermediate teeth simultaneously by idle pulley 19 Wheel 16；The left gear wheel 16 and right gear 17 broad in the middle respectively drive left idler gear axis 14 and right intermediate gear shaft 15 Rotation；The right intermediate gear shaft 15 drives press cam drive 12, and left idler gear axis 14 drives press automation equipment Cam drive 13.

Fig. 2 a show the utility model press cam drive structural representation front view.

Fig. 2 b show the utility model press cam drive structural representation top view.

Fig. 2 c show the G-G diagrammatic cross-section of the utility model Fig. 2 a.

Fig. 2 d show the H-H diagrammatic cross-section of the utility model Fig. 2 a.

Press cam drive 12 includes gear 1, gear 22, gear 33, gear 44, mechanical cam 8 and electricity Sub- cam 9.

The gear 1 is engaged with right intermediate gear shaft 15, gear 22 it is coaxial with gear 1 and simultaneously with gear 33, Gear 44 engages.

The gear 33 drives mechanical cam 8 to rotate, for control single return, the anti-repetition of stroke, anti-rechecking with And photoelectric protection etc..

The gear 44 drives electric cam 9 to rotate, for providing crank angle arbitrary point to Press Control System Location information controls other operations of press machine.

Fig. 3 a show the utility model press automation equipment cam drive structural representation front view.

Fig. 3 b show the utility model press automation equipment cam drive structural representation top view.

Fig. 3 c show the E-E diagrammatic cross-section of the utility model Fig. 3 a.

Fig. 3 d show the F-F diagrammatic cross-section of the utility model Fig. 3 a.

The press automation equipment cam drive 13 includes gear 55, gear 66, gear 77, rotary encoder 10 With auto-coding device 11.

The gear 5 is engaged with left idler gear axis 14, and gear 6 is coaxial with gear 5 and engages with gear 7.

The gear 6 drives auto-coding device 11 to rotate,

The gear 7 drives rotary encoder 10 to rotate.

Cam drive should ensure that the revolving speed of mechanical cam switch, the revolving speed of rotary encoder and left and right when being designed The revolving speed of intermediate gear shaft is equal.

The utility model uses all-gear drive, compact-sized, easy for installation, occupies little space, and precision is high, effectively solves It has determined installation space, the problem of transmission accuracy, the operating time can have been effectively reduced, labor intensity is reduced, improve working efficiency.

The utility model the embodiment above, is merely illustrative, be not it is only, it is all in the scope of the utility model Or the change in equivalent the scope of the utility model is surrounded by the utility model.

Claims (3)

1. a kind of novel all-gear drive cam mechanism, it is characterised in that: automatic with cam drive (12) and press including press Change equipment cam drive (13), left idler gear axis (14), right intermediate gear shaft (15), left gear wheel (16), right centre Gear wheel (17), main driving gear (18) and idle pulley (19), the press is mounted on the right side of press with cam drive (12), with the right side Intermediate gear shaft (15) engagement；Press automation equipment cam drive (13) is mounted on the left of press, with left idler gear axis (14) it engages；The main driving gear (18) is directly engaged with right gear (17) broad in the middle, drives a left side simultaneously by idle pulley (19) Gear (16) broad in the middle；The left gear wheel (16) and right gear (17) broad in the middle respectively drive left idler gear axis (14) It is rotated with right intermediate gear shaft (15)；The right intermediate gear shaft (15) drives press cam drive (12), left idler gear Axis (14) drives the cam drive of press automation equipment (13).

2. novel all-gear drive cam mechanism according to claim 1, it is characterised in that: the press cam drive It (12) include gear one (1), gear two (2), gear three (3), gear four (4), mechanical cam (8) and electric cam (9), gear One (1) is engaged with right intermediate gear shaft (15), gear two (2) it is coaxial with gear one (1) and simultaneously with gear three (3), gear four (4) it engages, gear three (3) drives mechanical cam (8) rotation, and gear four (4) drives electric cam (9) rotation.

3. novel all-gear drive cam mechanism according to claim 1 or 2, it is characterised in that: the press automation Equipment cam drive (13) includes gear five (5), gear six (6), gear seven (7), rotary encoder (10) and auto-coding Device (11), gear five (5) are engaged with left idler gear axis (14), gear six (6) it is coaxial with gear five (5) and with gear seven (7) Engagement, gear seven (7) drive rotary encoder (10) rotation, and gear six (6) drives auto-coding device (11) rotation.