CN219351474U

CN219351474U - Stator plug-in terminal machine

Info

Publication number: CN219351474U
Application number: CN202320306729.6U
Authority: CN
Inventors: 李波; 周华国; 廖建勇
Original assignee: Shenzhen Honest Intelligent Equipment Co Ltd
Current assignee: Shenzhen Honest Intelligent Equipment Co Ltd
Priority date: 2023-02-24
Filing date: 2023-02-24
Publication date: 2023-07-14
Anticipated expiration: 2033-02-24

Abstract

The utility model discloses a stator inserting terminal machine, which relates to the technical field of motor automatic assembly equipment, and comprises a frame, a conveying mechanism for conveying a stator, a detecting mechanism for detecting the position of a stator lead, a wire arranging mechanism for arranging and fixing the lead, a pre-inserting mechanism for pre-inserting a terminal into the stator and a fastening mechanism for fastening and pressing the stator into the stator, wherein a workbench is arranged on the frame; the conveying mechanism is provided with a conveying material seat for placing a stator, and the detecting mechanism, the wire arranging mechanism, the pre-inserting mechanism and the fastening mechanism are sequentially distributed beside the conveying mechanism along the moving direction of the conveying material seat; through adopting transport mechanism, detection mechanism, reason line mechanism, pre-cartridge mechanism and the automatic realization of fastening mechanism to the conveying of stator, detection, reason line, pre-cartridge terminal and fastening pressure equipment terminal, improved work efficiency, reduced the cartridge defective rate.

Description

Stator plug-in terminal machine

Technical Field

The utility model relates to the technical field of motor automatic assembly equipment, in particular to a stator plug-in terminal machine.

Background

In the motor assembling process, the stator is required to be assembled, the iron cores are wound, and then a plurality of iron cores are spliced into a circular stator; the upper surface of the stator is provided with a plurality of terminal grooves for inserting terminals, and a plurality of terminals are required to be inserted into the terminal grooves of the stator; in the prior art, for terminal insertion, the technical problems of lead position deviation and high defective rate caused by the fact that the stator leads are not subjected to position detection and compaction mostly exist; on the other hand, in the prior art, a plugging mechanism is mostly adopted for plugging terminals, the terminals cannot be pre-plugged and fastened for plugging, and the problem of inaccurate plugging exists, so that the defective rate is increased; therefore, in view of this current situation, there is an urgent need to develop a stator insertion terminal machine 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 its main objective is to provide a stator inserting terminal machine, which automatically realizes the transmission, detection, wire arrangement, pre-inserting terminal and fastening press-fitting terminal of a stator by adopting a transmission mechanism, a detection mechanism, a wire arrangement mechanism, a pre-inserting mechanism and a fastening mechanism, thereby improving the working efficiency and reducing the inserting defective rate.

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

a stator inserting terminal machine comprises a frame, a conveying mechanism for conveying a stator, a detecting mechanism for detecting the position of a stator lead, a wire arranging mechanism for arranging and fixing the lead, a pre-inserting mechanism for pre-inserting a terminal into the stator and a fastening mechanism for fastening and pressing the stator into the stator, wherein a workbench is arranged on the frame; the conveying mechanism is arranged at the middle position of the workbench; the conveying mechanism is provided with a conveying material seat for placing the stator, and the detecting mechanism, the wire arranging mechanism, the pre-inserting mechanism and the fastening mechanism are sequentially distributed beside the conveying mechanism along the moving direction of the conveying material seat.

As a preferred embodiment: the pre-insertion mechanism comprises a transfer driving assembly for transferring the stator, a carrying and material moving assembly for placing the stator and driving the stator to move, and a pre-loading assembly for pre-inserting the terminal into the stator, wherein the transfer driving assembly is positioned beside the conveying mechanism, and the carrying and material moving assembly is positioned between the transfer driving assembly and the pre-loading assembly.

As a preferred embodiment: the pre-pressing assembly comprises a longitudinal driving device, a vertical driving device, a pressing driving cylinder, a terminal discharging seat, a punching device and a pushing driving device, wherein the vertical driving device is arranged at the output end of the longitudinal driving device, the pressing driving cylinder, the terminal discharging seat, the punching device and the pushing driving device are all arranged at the output end of the vertical driving device, the pressing driving cylinder presses down a stator on the terminal discharging seat in the punching device, and the pushing driving device corresponds to the front end of the terminal discharging seat.

As a preferred embodiment: the pushing driving device comprises a pushing driving cylinder and a pushing inserting rod, the pushing inserting rod is arranged at the shaft end of the pushing driving cylinder, and the pushing inserting rod corresponds to the terminal.

As a preferred embodiment: the fastening mechanism comprises a supporting seat, a pressing driving assembly and a pressing plate, wherein the pressing driving assembly is arranged on the supporting seat, the pressing plate is detachably arranged at the output end of the pressing driving assembly, and a pressing block corresponding to the terminal is arranged on the pressing plate.

As a preferred embodiment: the wire arranging mechanism comprises a pressing driving assembly and a pressing head, wherein the pressing head is detachably arranged at the output end of the pressing driving assembly, and a pressing column corresponding to the lead wire is arranged on the pressing head.

As a preferred embodiment: the detection mechanism comprises a carrying assembly and a detection assembly, and the carrying assembly is positioned beside the detection assembly; the detection assembly comprises a longitudinal conveying device, a vertical conveying device and a CCD camera, wherein the vertical conveying device is arranged at the output end of the longitudinal conveying device, and the CCD camera is arranged at the output end of the vertical conveying device.

As a preferred embodiment: the material loading and moving assembly comprises a substrate, a longitudinal movement driving device and a rotary driving device, and the longitudinal movement driving device is arranged on the substrate; the rotary driving device is arranged at the output end of the longitudinal movement driving device.

As a preferred embodiment: the rotary driving device comprises a driving rotary motor and a rotary material seat, the driving rotary motor is arranged at the output end of the longitudinal movement driving device, the rotary material seat is arranged at the shaft end of the driving rotary motor, and the rotary material seat is rotatably arranged at the output end of the longitudinal movement driving device.

As a preferred embodiment: the carrying assembly and the transferring driving assembly comprise a longitudinal transferring driving cylinder, a vertical transferring driving cylinder and a clamping jaw cylinder for clamping the stator, the vertical transferring driving cylinder is arranged at the output end of the longitudinal transferring driving cylinder, and the clamping jaw cylinder is arranged at the output end of the vertical transferring driving cylinder.

Compared with the prior art, the stator assembling machine has obvious advantages and beneficial effects, and particularly, the technical scheme has the advantages that the conveying mechanism, the detecting mechanism, the wire arranging mechanism, the pre-inserting mechanism and the fastening mechanism are adopted to automatically realize the conveying, the detecting, the wire arranging, the pre-inserting terminals and the fastening press-fitting terminals of the stator, so that the working efficiency is improved, and the inserting defective rate is reduced; the wire arranging mechanism is adopted to fasten and press the lead wires in the stator, so that the deviation of the positions of the lead wires is prevented, and the defective rate is reduced; through adopting transfer drive assembly, carrying material to move material subassembly and pre-compaction subassembly and having satisfied the position movement requirement when stator cartridge terminal, pre-compaction precision is high.

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 stator mounting terminal machine according to the present utility model;

FIG. 2 is a schematic perspective view of a detecting unit according to the present utility model;

FIG. 3 is a schematic perspective view of a wire management mechanism according to the present utility model;

FIG. 4 is a schematic perspective view of a transfer driving assembly according to the present utility model;

FIG. 5 is a schematic perspective view of a material-carrying and transporting assembly according to the present utility model;

FIG. 6 is a schematic perspective view of the pre-assembled component of the present utility model;

FIG. 7 is a schematic perspective view of the fastening mechanism 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 conveying mechanism; 21. a conveying seat; 30. a detection mechanism; 31. a handling assembly; 32. and (3) a detection component: 321. longitudinal handling device: 322. vertical handling device: 323. a CCD camera; 40. a wire arranging mechanism; 41. pressing down the driving assembly; 42. a pressure head; 43. pressing a column; 50. a pre-plugging mechanism; 51. a transfer drive assembly; 511. a longitudinal transfer driving cylinder; 512. a vertical transfer driving cylinder; 513. a clamping jaw cylinder; 52. a loading and transferring assembly; 521. a substrate; 522. a longitudinal movement driving device; 523. driving a rotating motor; 524. rotating the material seat; 53. pre-loading the assembly; 531. a longitudinal driving device; 532. a vertical driving device; 533. a pressing driving cylinder; 534. a terminal discharging seat; 535. punching device; 536. a pushing driving device; 60. a fastening mechanism; 61. a support base; 62. pressing and fixing the driving assembly; 63. a pressure plate; 64. and (5) briquetting.

Detailed Description

The present utility model, as shown in fig. 1 to 7, is a stator-mounted terminal machine comprising a frame 10, a conveying mechanism 20 for conveying a stator, a detecting mechanism 30 for detecting the position of a stator lead, a wire arranging mechanism 40 for arranging press-fixing leads, a pre-mounting mechanism 50 for pre-mounting a terminal into a stator, and a fastening mechanism 60 for fastening and press-mounting a stator into a stator, wherein:

the frame 10 is provided with a workbench 11; the conveying mechanism 20 is arranged at the middle position of the workbench 11; the conveying mechanism 20 has a conveying seat 21 for placing the stator, and the detecting mechanism 30, the wire arranging mechanism 40, the pre-inserting mechanism 50 and the fastening mechanism 60 are distributed beside the conveying mechanism 20 in this order along the moving direction of the conveying seat 21.

The conveyor 20 comprises a conveyor motor and a conveyor belt, which conveyor belt is mounted at the output end of the conveyor motor, the stator being placed on a conveyor seat 21, the conveyor seat 21 being located on the conveyor belt.

The conveying mechanism 20 conveys the stator forward through the conveying seat 21; when the stator is conveyed to the side of the detection mechanism 30, the detection mechanism 30 detects whether the position of the stator lead meets the requirement; when the stator is conveyed to the side of the wire arranging mechanism 40, the wire arranging mechanism 40 presses the stator lead wire, and the stator lead wire is tightly pressed in the stator; when the stator is transferred to the side of the pre-insertion mechanism 50, the pre-insertion mechanism 50 pre-inserts the terminals into the stator; the fastening mechanism 60 fastens and presses the terminals into the stator when the stator is conveyed to the side of the diameter mechanism.

By adopting the conveying mechanism 20, the detecting mechanism 30, the wire arranging mechanism 40, the pre-inserting mechanism 50 and the fastening mechanism 60, the conveying, detecting, wire arranging, pre-inserting terminals and fastening press-fitting terminals of the stator are automatically realized, the working efficiency is improved, and the inserting defective rate is reduced.

The detection mechanism 30 comprises a carrying assembly 31 and a detection assembly 32, wherein the carrying assembly 31 is positioned beside the detection assembly 32; the detection assembly 32 comprises a vertical conveying device 321, a vertical conveying device 322 and a CCD camera 323, wherein the vertical conveying device 322 is arranged at the output end of the vertical conveying device 321, and the CCD camera 323 is arranged at the output end of the vertical conveying device 322.

The carrying assembly 31 carries the stator on the conveying mechanism 20 to the side of the detecting assembly 32, the longitudinal carrying device 321 and the vertical carrying device 322 drive the CCD camera 323 to move towards the stator, and the CCD camera 323 photographs the stator to detect whether the position of the lead wire meets the requirement; the position movement and the lead position detection of the stator are realized by adopting the carrying assembly 31 and the detection assembly 32, and the problem of defective rate caused by incorrect lead position of the stator is solved; the defective rate is reduced.

The wire arranging mechanism 40 comprises a pressing driving assembly 41 and a pressing head 42, wherein the pressing head 42 is detachably arranged at the output end of the pressing driving assembly 41, and a pressing post 43 corresponding to the lead wire is arranged on the pressing head 42.

The pressing driving assembly 41 drives the pressing head 42 to descend, the pressing post 43 descends along with the pressing head 42, the pressing post 43 tightly presses the lead into the stator, the position of the lead is prevented from deviating, and the defective rate is reduced.

The pre-insertion mechanism 50 comprises a transfer driving assembly 51 for transferring the stator, a carrying and material moving assembly 52 for placing the stator and driving the stator to move, and a pre-loading assembly 53 for pre-inserting the terminals into the stator, wherein the transfer driving assembly 51 is positioned beside the conveying mechanism 20, and the carrying and material moving assembly 52 is positioned between the transfer driving assembly 51 and the pre-loading assembly 53.

The transfer driving assembly 51 transfers the stator on the conveying mechanism 20 to the carrying and material moving assembly 52, the carrying and material moving assembly 52 continues to move the stator to the lower part of the pre-loading assembly 53, and the pre-loading assembly 53 pre-loads the terminals into the stator; the position movement requirement when the stator is inserted into the terminal is met by adopting the transfer driving assembly 51, the carrying and moving assembly 52 and the pre-loading assembly 53, and the pre-loading accuracy is high.

The handling assembly 31 and the transfer drive assembly 51 each include a longitudinal transfer drive cylinder 511, a vertical transfer drive cylinder 512, and a jaw cylinder 513 for clamping the stator, the vertical transfer drive cylinder 512 being mounted to an output end of the longitudinal transfer drive cylinder 511, the jaw cylinder 513 being mounted to an output end of the vertical transfer drive cylinder 512.

The clamping jaw air cylinder 513 clamps the stator, and the longitudinal transfer driving air cylinder 511 and the vertical transfer driving air cylinder 512 drive the stator to longitudinally and vertically move, so that the requirement of stator position movement is met.

The loading and moving assembly 52 comprises a substrate 521, a longitudinal moving driving device 522 and a rotation driving device, wherein the longitudinal moving driving device 522 is installed on the substrate 521; the rotary drive is mounted at the output of the longitudinal drive 522.

The rotary driving device comprises a driving rotary motor 523 and a rotary material seat 524, wherein the driving rotary motor 523 is arranged at the output end of the longitudinal movement driving device 522, the rotary material seat 524 is arranged at the shaft end of the driving rotary motor 523, and the rotary material seat 524 is rotatably arranged at the output end of the longitudinal movement driving device 522.

The longitudinal movement driving device 522 drives the rotary driving device to longitudinally move so as to meet the position requirement of the stator during longitudinal movement; the driving rotary motor 523 drives the rotary material seat 524 to rotate by an angle, so that the pre-press assembly 53 is convenient for press-fitting the terminals into the stator one by one; the rotary driving device meets the position movement requirement of the stator in rotation during terminal insertion, and has the advantages of compact overall structure and small occupied area.

The longitudinal movement driving device 522 and the longitudinal conveying device 321 each include a conveying cylinder and a slide seat mounted at the shaft end of the conveying cylinder.

The pre-pressing assembly 53 comprises a longitudinal driving device 531, a vertical driving device 532, a pressing driving cylinder 533, a terminal discharging seat 534, a punching device 535 and a pushing driving device 536, wherein the vertical driving device 532 is mounted at the output end of the longitudinal driving device 531, the pressing driving cylinder 533, the terminal discharging seat 534, the punching device 535 and the pushing driving device 536 are mounted at the output end of the vertical driving device 532, the pressing driving cylinder 533 presses down the stator on the terminal discharging seat 534 in the punching device 535, and the pushing driving device 536 corresponds to the front end of the terminal discharging seat 534.

The longitudinal driving device 531 and the vertical driving device 532 each include a driving motor, a screw rod mounted at a shaft end of the driving motor, and a slider rotatably fitted with the screw rod as an output end.

The vertical driving device 531 and the vertical driving device 532 drive the pressing driving cylinder 533, the terminal discharging seat 534, the punching device 535 and the pushing driving device 536 to synchronously move to above the stator in the rotating seat 524; the terminal on the terminal discharging seat 534 is driven to descend to the punching device 535 by the pressing driving cylinder 533, the terminal is arranged on the terminal discharging seat 534 in a material belt shape, the punching device 535 comprises a punching cylinder and a punching cutter, the terminal material belt is cut off by the punching cutter to obtain a single terminal, the single terminal is driven to pass through the lower end of the terminal discharging seat 534 by the pressing driving cylinder 533 and is pressed into the stator, and the stator is driven to rotate by the rotating seat 524, so that the stator is conveniently inserted into the next terminal.

The pushing driving device 536 includes a pushing driving cylinder and a pushing plunger mounted at the shaft end of the pushing driving cylinder, the pushing plunger corresponding to the terminal.

The pushing inserted bar is inserted at the front end of the terminal material belt, and the pushing driving cylinder drives the pushing inserted bar to move forwards to drive the terminal to move forwards, so that feeding of the terminal is facilitated.

The fastening mechanism 60 comprises a supporting seat 61, a pressing driving assembly 62 and a pressing plate 63, wherein the pressing driving assembly 62 is installed on the supporting seat 61, the pressing plate 63 is detachably installed at the output end of the pressing driving assembly 62, and a pressing block 64 corresponding to the terminal is arranged on the pressing plate 63.

The pressing and fixing driving assembly 62 drives the pressing plate 63 to descend, the pressing block 64 descends along with the pressing plate 63, and the pressing block 64 tightly presses the terminal pre-pressed into the stator, so that the technical problem of high defective rate caused by loosening of the terminal is prevented; the pressing driving assembly 62, the pressing driving assembly 41 and the vertical conveying device 322 all comprise a driving motor and a ball screw, the ball screw is mounted at the shaft end of the driving motor, and driving force is provided by adopting the driving motor and the ball screw, so that the accuracy of position movement is improved.

The application method and principle of the stator plug-in terminal machine are as follows:

the conveying mechanism conveys the stator forwards through the conveying material seat; when the stator is conveyed to the side of the detection mechanism, the detection mechanism detects whether the position of the stator lead meets the requirement; when the stator is conveyed to the side of the wire arranging mechanism, the wire arranging mechanism presses the stator lead wire, and the stator lead wire is tightly pressed in the stator; when the stator is conveyed to the side of the pre-inserting mechanism, the pre-inserting mechanism pre-inserts the terminal into the stator; the fastening mechanism fastens and presses the terminal into the stator when the stator is conveyed to the side of the diameter mechanism.

The design focus of the utility model is that the transmission, detection, wire arrangement, pre-insertion terminal and fastening press-fit terminal of the stator are automatically realized by adopting the transmission mechanism, the detection mechanism, the wire arrangement mechanism, the pre-insertion mechanism and the fastening mechanism, so that the working efficiency is improved, and the insertion defective rate is reduced; the wire arranging mechanism is adopted to fasten and press the lead wires in the stator, so that the deviation of the positions of the lead wires is prevented, and the defective rate is reduced; through adopting transfer drive assembly, carrying material to move material subassembly and pre-compaction subassembly and having satisfied the position movement requirement when stator cartridge terminal, pre-compaction precision is high.

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

1. A stator cartridge terminal machine which is characterized in that: the wire arranging machine comprises a frame, a conveying mechanism for conveying a stator, a detecting mechanism for detecting the position of a stator lead, a wire arranging mechanism for arranging and fixing the lead, a pre-inserting mechanism for pre-inserting a terminal into the stator and a fastening mechanism for fastening and press-fitting the stator into the stator, wherein a workbench is arranged on the frame; the conveying mechanism is arranged at the middle position of the workbench; the conveying mechanism is provided with a conveying material seat for placing the stator, and the detecting mechanism, the wire arranging mechanism, the pre-inserting mechanism and the fastening mechanism are sequentially distributed beside the conveying mechanism along the moving direction of the conveying material seat.

2. The stator cartridge terminal machine according to claim 1, wherein: the pre-insertion mechanism comprises a transfer driving assembly for transferring the stator, a carrying and material moving assembly for placing the stator and driving the stator to move, and a pre-loading assembly for pre-inserting the terminal into the stator, wherein the transfer driving assembly is positioned beside the conveying mechanism, and the carrying and material moving assembly is positioned between the transfer driving assembly and the pre-loading assembly.

3. The stator cartridge terminal machine according to claim 2, wherein: the pre-pressing assembly comprises a longitudinal driving device, a vertical driving device, a pressing driving cylinder, a terminal discharging seat, a punching device and a pushing driving device, wherein the vertical driving device is arranged at the output end of the longitudinal driving device, the pressing driving cylinder, the terminal discharging seat, the punching device and the pushing driving device are all arranged at the output end of the vertical driving device, the pressing driving cylinder presses down a stator on the terminal discharging seat in the punching device, and the pushing driving device corresponds to the front end of the terminal discharging seat.

4. A stator cartridge terminal machine according to claim 3, wherein: the pushing driving device comprises a pushing driving cylinder and a pushing inserting rod, the pushing inserting rod is arranged at the shaft end of the pushing driving cylinder, and the pushing inserting rod corresponds to the terminal.

5. The stator cartridge terminal machine according to claim 1, wherein: the fastening mechanism comprises a supporting seat, a pressing driving assembly and a pressing plate, wherein the pressing driving assembly is arranged on the supporting seat, the pressing plate is detachably arranged at the output end of the pressing driving assembly, and a pressing block corresponding to the terminal is arranged on the pressing plate.

6. The stator cartridge terminal machine according to claim 1, wherein: the wire arranging mechanism comprises a pressing driving assembly and a pressing head, wherein the pressing head is detachably arranged at the output end of the pressing driving assembly, and a pressing column corresponding to the lead wire is arranged on the pressing head.

7. The stator cartridge terminal machine according to claim 2, wherein: the detection mechanism comprises a carrying assembly and a detection assembly, and the carrying assembly is positioned beside the detection assembly; the detection assembly comprises a longitudinal conveying device, a vertical conveying device and a CCD camera, wherein the vertical conveying device is arranged at the output end of the longitudinal conveying device, and the CCD camera is arranged at the output end of the vertical conveying device.

8. The stator cartridge terminal machine according to claim 2, wherein: the material loading and moving assembly comprises a substrate, a longitudinal movement driving device and a rotary driving device, and the longitudinal movement driving device is arranged on the substrate; the rotary driving device is arranged at the output end of the longitudinal movement driving device.

9. The stator cartridge terminal machine according to claim 8, wherein: the rotary driving device comprises a driving rotary motor and a rotary material seat, the driving rotary motor is arranged at the output end of the longitudinal movement driving device, the rotary material seat is arranged at the shaft end of the driving rotary motor, and the rotary material seat is rotatably arranged at the output end of the longitudinal movement driving device.

10. The stator cartridge terminal machine according to claim 7, wherein: the carrying assembly and the transferring driving assembly comprise a longitudinal transferring driving cylinder, a vertical transferring driving cylinder and a clamping jaw cylinder for clamping the stator, the vertical transferring driving cylinder is arranged at the output end of the longitudinal transferring driving cylinder, and the clamping jaw cylinder is arranged at the output end of the vertical transferring driving cylinder.