CN219336751U - Gear box cover equipment for tooth box assembly gasket - Google Patents

Abstract

The utility model discloses a gearbox assembly gasket gear box cover device, which relates to the technical field of motor automation assembly equipment, and comprises a rack, a material moving mechanism for driving a gearbox to move forwards, a gasket assembly mechanism for assembling a gasket into the gearbox, a gear assembly mechanism for assembling a gear into the gearbox, an oiling mechanism for oiling the assembled gear, a box cover assembly mechanism for assembling a box cover onto the gearbox and a screw locking mechanism for locking screws on the gearbox and the box cover, wherein the gear assembly mechanism is provided with a positioning pin column for positioning the gearbox and a clamping cylinder for clamping the gear; through adopting material moving mechanism, gasket equipment mechanism, gear equipment mechanism, oiling mechanism, case lid equipment mechanism and lock screw mechanism automatic realization tooth case material moving, gasket equipment, gear oiling, case lid equipment and lock screw, improved work efficiency, the equipment precision is high.

Description

Gear box cover equipment for tooth box assembly gasket

Technical Field

The utility model relates to the technical field of automatic motor assembly equipment, in particular to gearbox assembly gasket gear box cover equipment.

Background

In the assembly process of the motor, the gasket and the gear are required to be assembled into the tooth box in sequence, two types of gears are required to be assembled into the tooth box, the upper end face of the gear is oiled after the assembly is completed, then the box cover is assembled onto the tooth box, and finally the tooth box and the box cover are fastened by adopting screws; in the prior art, assembly and oiling of the tooth box are usually completed by manual assistance, so that the labor cost is high; on the other hand, in the assembly process of the prior art, the position of the dental box is easy to deviate, the dental box is lack of limit, and the assembly accuracy is low; therefore, in view of this current situation, there is an urgent need to develop a gearbox assembly spacer gearbox cover device to meet the needs of practical use.

Disclosure of Invention

In view of the above, the present utility model aims at overcoming the drawbacks of the prior art, and it is a primary object of the present utility model to provide a gear box assembly gasket gear box cover device, which automatically realizes the gear box material moving, gasket assembling, gear oiling, box cover assembling and screw locking by adopting a material moving mechanism, a gasket assembling mechanism, a gear assembling mechanism, an oiling mechanism, a box cover assembling mechanism and a screw locking mechanism, thereby improving the working efficiency and having high assembling accuracy.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the gear box cover equipment comprises a rack, a material moving mechanism for driving a gear box to move forwards, a gasket assembling mechanism for assembling gaskets into the gear box, a gear assembling mechanism for assembling gears into the gear box, an oiling mechanism for oiling the assembled gears, a box cover assembling mechanism for assembling a box cover onto the gear box and a screw locking mechanism for locking screws on the gear box and the box cover, wherein a workbench for installing the material moving mechanism is arranged on the rack; the gasket assembling mechanism, the gear assembling mechanism, the oiling mechanism, the box cover assembling mechanism and the screw locking mechanism are sequentially distributed along the material moving direction of the material moving mechanism; the gear assembly mechanism is provided with a positioning pin column for positioning the tooth box and a clamping cylinder for clamping the gear, wherein the positioning pin column is movably corresponding to the tooth box; the clamping cylinder can move and rotatably press the gear into the tooth box.

As a preferred embodiment: the gear assembly mechanism comprises a feeding component for feeding the gears, a transferring component for transferring the gears and a press-fitting component for press-fitting the gears in the tooth boxes, wherein the transferring component is positioned between the feeding component and the press-fitting component.

As a preferred embodiment: the press-fit assembly comprises a longitudinal driving device, a first vertical driving device, a second vertical driving device, a rotary driving device, the positioning pin and the clamping cylinder, wherein the first vertical driving device is arranged at the output end of the longitudinal driving device, the second vertical driving device is arranged at the output end of the first vertical driving device, the rotary driving device is arranged at the output end of the second vertical driving device, the positioning pin is arranged at the output end of the second vertical driving device, and the clamping cylinder is arranged at the output end of the rotary driving device.

As a preferred embodiment: the gasket assembling mechanism comprises a longitudinal movement driving assembly, a vertical movement driving assembly, a limiting assembly, a discharging seat for placing gaskets and a pushing assembly for pushing the gaskets forward, wherein the vertical movement driving assembly is arranged at the output end of the longitudinal movement driving assembly, and the limiting assembly is arranged at the output end of the vertical movement driving assembly; the pushing component is positioned beside the discharging seat.

As a preferred embodiment: the pushing assembly comprises a pushing driving cylinder and a receiving block, and the receiving block is arranged at the shaft end of the pushing driving cylinder; the discharging seat is provided with an opening for a single gasket to fall down, and the receiving block is movably arranged below the opening.

As a preferred embodiment: the limiting assembly comprises a lifting driving cylinder, a pressing rod and a material taking rod, wherein the lifting driving cylinder is arranged at the output end of the vertical movement driving assembly, and the pressing rod and the material taking rod are elastically arranged at the shaft end of the lifting driving cylinder; the compression bar can be connected to the tooth box in a descending way; the material taking rod can be lowered to correspond to the gasket on the material receiving block.

As a preferred embodiment: the oiling mechanism comprises a vertical movement driving assembly, an oiling pipe and a pressing column used for pressing the upper surface of the tooth fixing box, and the oiling pipe and the pressing column are both arranged at the output end of the vertical movement driving assembly.

As a preferred embodiment: the box cover assembling mechanism comprises a feeding assembly, a conveying assembly and an assembling assembly, wherein the conveying assembly is positioned between the feeding assembly and the assembling assembly; the conveying assembly is provided with a stop device for stopping the box cover, and the stop device comprises a vertical cylinder and a stop block, wherein the stop block is arranged at the shaft end of the vertical cylinder.

As a preferred embodiment: the assembly component comprises a longitudinal movement driving device, a first lifting driving device, a second lifting driving device, a first material sucking disc and a second material sucking disc, wherein the first lifting driving device and the second lifting driving device are both arranged at the output end of the longitudinal movement driving device, the first material sucking disc is arranged at the output end of the first lifting driving device, and the second material sucking disc is arranged at the output end of the second lifting driving device.

As a preferred embodiment: the material moving mechanism comprises a material discharging support, a vertical material moving driving device, a transverse material moving driving device and a material moving plate, wherein the transverse material moving driving device is arranged at the output end of the vertical material moving driving device, the material moving plate is arranged at the output end of the transverse material moving driving device, and the material moving plate can move a tooth box positioned on the material discharging support forwards.

Compared with the prior art, the automatic gearbox feeding device has obvious advantages and beneficial effects, and particularly, according to the technical scheme, the automatic gearbox feeding, gasket assembling, gear oiling, box cover assembling and screw locking are realized by adopting the feeding mechanism, the gasket assembling mechanism, the gear assembling mechanism and the screw locking mechanism, so that the working efficiency is improved, and the assembling accuracy is high; the limit assembly is adopted to limit the tooth box, so that the position deviation of the tooth box in the press mounting process is prevented, and the press mounting accuracy is improved; the pushing assembly meets the requirement of gasket position movement, and is convenient for assembling a single gasket.

In order to more clearly illustrate the structural features and efficacy of the present utility model, a detailed description thereof will be given below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic perspective view of a gear box cover apparatus for a tooth box assembly gasket of the present utility model;

FIG. 2 is a schematic perspective view of a gasket assembly mechanism according to the present utility model;

FIG. 3 is a schematic perspective view of a feeding assembly according to the present utility model;

FIG. 4 is a schematic perspective view of a press-fitting assembly according to the present utility model;

FIG. 5 is a schematic perspective view of the oiling mechanism of the present utility model;

FIG. 6 is a schematic perspective view of a conveying assembly according to the present utility model;

FIG. 7 is a schematic perspective view of the assembled component of the present utility model.

The attached drawings are used for identifying and describing:

in the figure: 10. a frame; 11. a work table; 20. a material moving mechanism; 30. a gasket assembly mechanism; 31. a longitudinally moving drive assembly; 32. a vertical movement driving assembly; 33. a limit component; 331; a lifting driving cylinder; 332. a compression bar; 333; a take-out rod; 34. a discharging seat; 351. a pushing driving cylinder; 352. a receiving block; 40. a gear assembly mechanism; 41. a feed assembly; 411. a discharging disc; 412. a jacking device; 42. a transfer assembly; 43. press-fitting the assembly; 431. a longitudinal driving device; 432. a first vertical driving device; 433. a second vertical driving device; 434. a rotation driving device; 435. positioning pin posts; 436. clamping an air cylinder; 50. the oiling mechanism, 51 and the vertical movement driving assembly; 52. coating an oil pipe; 53. pressing a column; 60. a case cover assembly mechanism; 61. a feeding assembly; 62. a transfer assembly; 621. a material blocking device; 63. assembling the assembly; 631. a longitudinal movement driving device; 632. a first lifting driving device; 633. a second lifting driving device; 634. a first suction tray; 635. a second suction tray; 70. and a screw locking mechanism.

Detailed Description

The utility model is shown in fig. 1 to 7, a gear box assembly gasket gear box cover device, comprising a rack 10, a material moving mechanism 20 for driving a gear box to move forwards, a gasket assembly mechanism 30 for assembling gaskets into the gear box, a gear assembly mechanism 40 for assembling gears into the gear box, an oiling mechanism 50 for oiling the assembled gears, a box cover assembly mechanism 60 for assembling a box cover onto the gear box, and a screw locking mechanism 70 for locking screws on the gear box and the box cover, wherein:

the frame 10 is provided with a workbench 11 for installing a material moving mechanism 20; the gasket assembly mechanism 30, the gear assembly mechanism 40, the oiling mechanism 50, the box cover assembly mechanism 60 and the screw locking mechanism 70 are sequentially distributed along the material moving direction of the material moving mechanism 20; the gear assembly mechanism 40 has a positioning pin 435 for positioning the gear box and a clamping cylinder 436 for clamping the gear, the positioning pin 435 being movable to correspond to the gear box; the clamping cylinder 436 is movable and rotatable to press fit the gear into the gear box.

The material moving mechanism 20 moves the tooth box forward; when the tooth box is moved to the side of the gasket assembling mechanism 30, the gasket assembling mechanism 30 assembles the gasket into the tooth box; when the gear box is moved to the side of the gear assembly mechanism 40, the gear assembly mechanism 40 assembles the gear into the gear box; when the tooth box is moved to the side of the oiling mechanism 50, the oiling mechanism 50 is used for oiling the upper end surface of the gear; when the tooth box is moved to the side of the box cover assembling mechanism 60, the box cover assembling mechanism 60 assembles the box cover on the tooth box; when the box is moved to the side of the screw locking mechanism 70, the screw locking mechanism 70 locks the box and the box cover.

By adopting the material moving mechanism 20, the gasket assembling mechanism 30, the gear assembling mechanism 40, the oiling mechanism 50, the box cover assembling mechanism 60 and the screw locking mechanism 70, the automatic realization of tooth box material moving, gasket assembling, gear oiling, box cover assembling and screw locking is realized, the working efficiency is improved, and the assembling accuracy is high.

The material moving mechanism 20 comprises a material discharging support, a vertical material moving driving device, a horizontal material moving driving device and a material moving plate, wherein the horizontal material moving driving device is arranged at the output end of the vertical material moving driving device, the material moving plate is arranged at the output end of the horizontal material moving driving device, and the material moving plate can move a tooth box positioned on the material discharging support forwards.

The tooth boxes placed on the material moving plate are sequentially moved forwards relative to the material discharging support by adopting the vertical material moving driving device and the transverse material moving driving device, so that the whole structure is compact, and the position movement consistency is high; the vertical material moving driving device and the horizontal material moving driving device comprise driving cylinders and sliding plates, the sliding plates are arranged at the output ends of the driving cylinders, and the sliding plates serve as output ends.

The gasket assembling mechanism 30 comprises a longitudinal movement driving assembly 31, a vertical movement driving assembly 32, a limiting assembly 33, a discharging seat 34 for placing gaskets and a pushing assembly for pushing the gaskets forward, wherein the vertical movement driving assembly 32 is arranged at the output end of the longitudinal movement driving assembly 31, and the limiting assembly 33 is arranged at the output end of the vertical movement driving assembly 32; the pushing assembly is located beside the discharge seat 34.

The pushing assembly comprises a pushing driving cylinder 351 and a receiving block 352, wherein the receiving block 352 is arranged at the shaft end of the pushing driving cylinder 351; the drop seat 34 has an opening for a single pad to drop down, and the receiving block 352 is movably located below the opening.

The limiting component 33 comprises a lifting driving cylinder 331, a pressing rod 332 and a material taking rod 333, wherein the lifting driving cylinder 331 is arranged at the output end of the vertical movement driving component 32, and the pressing rod 332 and the material taking rod 333 are elastically arranged at the shaft end of the lifting driving cylinder 331; the pressing rod 332 can be in descending connection with the tooth box; the take off bar 333 may be lowered to correspond to a spacer on the take off block 352.

The single gasket falls on the receiving block 352 from the opening, and the pushing driving cylinder 351 drives the receiving block 352 to move below the limiting assembly 33; the lifting driving cylinder 331 drives the pressing rod 332 and the material taking rod 333 to descend, the material taking rod 333 stretches into the gasket to take materials, the pressing rod 332 and the material taking rod 333 move to the upper portion of the tooth box, the pressing rod 332 presses the upper surface of the tooth box, and the material taking rod 333 descends to press the gasket into the tooth box.

By adopting the limiting component 33, the limit of the tooth box is realized, the position deviation of the tooth box in the press mounting process is prevented, and the press mounting accuracy is improved.

The pushing assembly meets the requirement of gasket position movement, and is convenient for assembling a single gasket.

The gear assembly mechanism 40 comprises a feed assembly 41 for feeding the gear, a transfer assembly 42 for transferring the gear and a press-fit assembly 43 for press-fitting the gear into the gearbox, the transfer assembly 42 being located between the feed assembly 41 and the press-fit assembly 43.

The press-fitting assembly 43 comprises a longitudinal driving device 431, a first vertical driving device 432, a second vertical driving device 433, a rotation driving device 434, the positioning pin 435 and the clamping cylinder 436, wherein the first vertical driving device 432 is installed at the output end of the longitudinal driving device 431, the second vertical driving device 433 is installed at the output end of the first vertical driving device 432, the rotation driving device 434 is installed at the output end of the second vertical driving device 433, the positioning pin 435 is installed at the output end of the second vertical driving device 433, and the clamping cylinder 436 is installed at the output end of the rotation driving device 434.

The gear assembling mechanisms 40 are two groups, the two groups of gear assembling mechanisms 40 are respectively used for assembling gears of two types, and a rotary driving device 434 is adopted to drive the gears to rotate when the gears are assembled, so that the position interference of the gears of the two types is avoided, and the two gears are meshed; the feeding assembly 41 comprises a discharging disc 411, a jacking device 412 is arranged below the discharging disc 411, the jacking device 412 comprises a motor, a screw rod and a jacking plate, the screw rod is arranged at the shaft end of the motor, and the screw rod is in running fit with the jacking plate; the transfer assembly 42 includes a robot; the rotation driving means 434 includes a rotation driving motor.

The transfer assembly 42 places the gears on the feed assembly 41 on the press-fit assembly 43, the locating pins 435 locate the tooth boxes, and the rotary driving device 434 drives the clamping cylinder 436 to rotate, so that position interference during gear installation is avoided.

The oiling mechanism 50 comprises a vertical movement driving assembly 51, an oiling pipe 52 and a compression column 53 for pressing the upper surface of the tooth fixing box, wherein the oiling pipe 52 and the compression column 53 are both arranged at the output end of the vertical movement driving assembly 51.

The vertical movement driving assembly 51 drives the oil coating pipe 52 and the pressing column 53 to descend above the tooth box, the pressing column 53 presses the tooth box, the tooth box is prevented from moving in position during oiling, and oiling accuracy is improved.

The box cover assembling mechanism 60 comprises a feeding component 61, a conveying component 62 and an assembling component 63, wherein the conveying component 62 is positioned between the feeding component 61 and the assembling component 63; the transfer assembly 62 has a stop 621 for stopping the cover, the stop 621 comprising a vertical cylinder and a stop mounted to the axial end of the vertical cylinder.

The assembly 63 includes a longitudinal movement driving device 631, a first lifting driving device 632, a second lifting driving device 633, a first suction tray 634 and a second suction tray 635, wherein the first lifting driving device 632 and the second lifting driving device 633 are both mounted at an output end of the longitudinal movement driving device 631, the first suction tray 634 is mounted at an output end of the first lifting driving device 632, and the second suction tray 635 is mounted at an output end of the second lifting driving device 633.

The vertical movement driving assembly 31, the vertical movement driving assembly 32, the vertical driving device 431, the first vertical driving device 432, the second vertical driving device 433, the vertical movement driving assembly 51, the vertical movement driving device 631, the first lifting driving device 632 and the second lifting driving device 633 each comprise an air cylinder and a sliding seat, the sliding seat is mounted at the shaft end of the air cylinder, and the sliding seat is used as an output end.

The feeding assembly 61 comprises a vibrating disc, and the conveying assembly 62 comprises a conveying driving motor and a conveying belt, wherein the conveying belt is arranged at the output end of the conveying driving motor; the stop device 621 stops the box cover on the conveyor belt, so that the box cover at the front end of the conveyor belt can be conveniently assembled; after the first suction tray 634 is placed at the moving position of the box cover at the front end of the suction conveyor, the box cover is sucked and fixed by the second suction tray 635, and the longitudinal movement driving device 631 and the second lifting driving device 633 drive the second suction tray 635 to move at the moving position and descend to assemble the box cover on the tooth box.

The screw locking mechanism 70 comprises a lifting cylinder and a screw locking machine, wherein the screw locking machine is arranged at the output end of the lifting cylinder and faces the tooth box; the screw locking mechanism 70 is used for locking the tooth box and the box cover so that the tooth box and the box cover are tightly combined.

The application method and principle of the gearbox assembly gasket gear box cover device are as follows:

the material moving mechanism moves the tooth box forwards; when the tooth box is moved to the side of the gasket assembling mechanism, the gasket assembling mechanism assembles the gasket in the tooth box; when the tooth box is moved to the side of the gear assembly mechanism, the gear assembly mechanism assembles the gear in the tooth box; when the tooth box is moved to the side of the oiling mechanism, the oiling mechanism is used for oiling the upper end surface of the gear; when the tooth box is moved to the side of the box cover assembling mechanism, the box cover assembling mechanism assembles the box cover on the tooth box; when the tooth box is moved to the side of the screw locking mechanism, the screw locking mechanism locks screws on the tooth box and the box cover.

The gear box material transferring, gasket assembling, gear oiling, box cover assembling and screw locking are automatically realized by adopting the material transferring mechanism, the gasket assembling mechanism, the gear assembling mechanism, the oiling mechanism, the box cover assembling and screw locking mechanism, so that the working efficiency is improved, and the assembling accuracy is high; the limit assembly is adopted to limit the tooth box, so that the position deviation of the tooth box in the press mounting process is prevented, and the press mounting accuracy is improved; the pushing assembly meets the requirement of gasket position movement, and is convenient for assembling a single gasket.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model still fall within the scope of the technical solutions of the present utility model.

Claims (10)

1. The utility model provides a tooth case equipment gasket gear case lid equipment which characterized in that: the device comprises a rack, a material moving mechanism for driving a tooth box to move forwards, a gasket assembling mechanism for assembling gaskets into the tooth box, a gear assembling mechanism for assembling gears into the tooth box, an oiling mechanism for oiling the assembled gears, a box cover assembling mechanism for assembling a box cover on the tooth box and a screw locking mechanism for locking screws on the tooth box and the box cover, wherein a workbench for installing the material moving mechanism is arranged on the rack; the gasket assembling mechanism, the gear assembling mechanism, the oiling mechanism, the box cover assembling mechanism and the screw locking mechanism are sequentially distributed along the material moving direction of the material moving mechanism; the gear assembly mechanism is provided with a positioning pin column for positioning the tooth box and a clamping cylinder for clamping the gear, wherein the positioning pin column is movably corresponding to the tooth box; the clamping cylinder can move and rotatably press the gear into the tooth box.

2. The gearbox assembly shim gear box cover device of claim 1, wherein: the gear assembly mechanism comprises a feeding component for feeding the gears, a transferring component for transferring the gears and a press-fitting component for press-fitting the gears in the tooth boxes, wherein the transferring component is positioned between the feeding component and the press-fitting component.

3. The gearbox assembly shim gear box cover device of claim 2, wherein: the press-fit assembly comprises a longitudinal driving device, a first vertical driving device, a second vertical driving device, a rotary driving device, the positioning pin and the clamping cylinder, wherein the first vertical driving device is arranged at the output end of the longitudinal driving device, the second vertical driving device is arranged at the output end of the first vertical driving device, the rotary driving device is arranged at the output end of the second vertical driving device, the positioning pin is arranged at the output end of the second vertical driving device, and the clamping cylinder is arranged at the output end of the rotary driving device.

4. The gearbox assembly shim gear box cover device of claim 1, wherein: the gasket assembling mechanism comprises a longitudinal movement driving assembly, a vertical movement driving assembly, a limiting assembly, a discharging seat for placing gaskets and a pushing assembly for pushing the gaskets forward, wherein the vertical movement driving assembly is arranged at the output end of the longitudinal movement driving assembly, and the limiting assembly is arranged at the output end of the vertical movement driving assembly; the pushing component is positioned beside the discharging seat.

5. The gearbox assembly shim gear box cover device of claim 4, wherein: the pushing assembly comprises a pushing driving cylinder and a receiving block, and the receiving block is arranged at the shaft end of the pushing driving cylinder; the discharging seat is provided with an opening for a single gasket to fall down, and the receiving block is movably arranged below the opening.

6. The gearbox assembly shim gear box cover device of claim 5, wherein: the limiting assembly comprises a lifting driving cylinder, a pressing rod and a material taking rod, wherein the lifting driving cylinder is arranged at the output end of the vertical movement driving assembly, and the pressing rod and the material taking rod are elastically arranged at the shaft end of the lifting driving cylinder; the compression bar can be connected to the tooth box in a descending way; the material taking rod can be lowered to correspond to the gasket on the material receiving block.

7. The gearbox assembly shim gear box cover device of claim 1, wherein: the oiling mechanism comprises a vertical movement driving assembly, an oiling pipe and a pressing column used for pressing the upper surface of the tooth fixing box, and the oiling pipe and the pressing column are both arranged at the output end of the vertical movement driving assembly.

8. The gearbox assembly shim gear box cover device of claim 1, wherein: the box cover assembling mechanism comprises a feeding assembly, a conveying assembly and an assembling assembly, wherein the conveying assembly is positioned between the feeding assembly and the assembling assembly; the conveying assembly is provided with a stop device for stopping the box cover, and the stop device comprises a vertical cylinder and a stop block, wherein the stop block is arranged at the shaft end of the vertical cylinder.

9. The gearbox assembly shim gear box cover device of claim 8, wherein: the assembly component comprises a longitudinal movement driving device, a first lifting driving device, a second lifting driving device, a first material sucking disc and a second material sucking disc, wherein the first lifting driving device and the second lifting driving device are both arranged at the output end of the longitudinal movement driving device, the first material sucking disc is arranged at the output end of the first lifting driving device, and the second material sucking disc is arranged at the output end of the second lifting driving device.

10. The gearbox assembly shim gear box cover device of claim 1, wherein: the material moving mechanism comprises a material discharging support, a vertical material moving driving device, a transverse material moving driving device and a material moving plate, wherein the transverse material moving driving device is arranged at the output end of the vertical material moving driving device, the material moving plate is arranged at the output end of the transverse material moving driving device, and the material moving plate can move a tooth box positioned on the material discharging support forwards.

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