CN219335010U

CN219335010U - Stator comprehensive testing machine

Info

Publication number: CN219335010U
Application number: CN202320031133.XU
Authority: CN
Inventors: 文阿华; 周华国; 廖建勇
Original assignee: Shenzhen Honest Intelligent Equipment Co Ltd
Current assignee: Shenzhen Honest Intelligent Equipment Co Ltd
Priority date: 2023-01-06
Filing date: 2023-01-06
Publication date: 2023-07-14
Anticipated expiration: 2033-01-06

Abstract

The utility model discloses a comprehensive stator testing machine, which relates to the technical field of motor automatic assembly equipment and comprises a rack, a feeding mechanism, a turntable mechanism for driving a stator to move, a performance testing mechanism for testing the resistance and inductance performance of the stator, a height detecting mechanism for detecting the height of a PIN needle, a in-place detecting mechanism for detecting whether the PIN needle is installed in place, a go-no-go gauge mechanism for detecting whether the inner diameter size of the stator is qualified, a defective product discharging mechanism for transferring defective stators and a stator discharging mechanism for discharging the stator, wherein the turntable mechanism is used for driving the stator to move; through adopting feed mechanism, carousel mechanism, performance testing mechanism, high detection mechanism, detection mechanism that targets in place, lead to no-go gage mechanism, defective products discharge mechanism and stator discharge mechanism automatic realize the material loading of stator, remove, performance test, high detection, detection in place, internal diameter size detection, defective products ejection of compact and qualified product ejection of compact, detect the precision height.

Description

Stator comprehensive testing machine

Technical Field

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

Background

With the wide application of motors, people have also put forward higher and higher requirements on automatic assembly equipment of the motors; in the motor assembling process, the stator is required to be assembled, the assembled stator is tested, and the resistance, inductance, height and inner diameter of the stator are tested, so that unqualified products are transferred, and the unqualified products are prevented from flowing into the market; most of the stator comprehensive testing machines in the prior art need manual assistance to complete the processes of feeding, transferring, detecting and discharging of the stator, and the labor cost is high; on the other hand, the prior art has the technical problem that the testing accuracy is low due to the position deviation in the stator testing; therefore, in view of this situation, there is an urgent need to develop a stator integrated test machine to meet the needs of practical use.

Disclosure of Invention

In view of the above, the utility model aims at overcoming the defects existing in the prior art, and the main purpose of the utility model is to provide a stator comprehensive testing machine, which realizes the automatic feeding, moving, performance testing, height detection, in-place detection, inner diameter size detection, defective product discharging and qualified product discharging of a stator by adopting a feeding mechanism, a turntable mechanism, a performance testing mechanism, a height detection mechanism, an in-place detection mechanism, a go-no-go gauge mechanism, a defective product discharging mechanism and a stator discharging mechanism, and has high detection accuracy.

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

the utility model provides a stator comprehensive testing machine, which comprises a frame, a feeding mechanism for stator material loading, a turntable mechanism for driving the stator to move, a performance testing mechanism for testing the resistance and inductance performance of the stator, a height detection mechanism for detecting the height of a PIN needle, a in-place detection mechanism for detecting whether the PIN needle is installed in place, a go-no-go gauge mechanism for detecting whether the inner diameter size of the stator is qualified, a defective product discharging mechanism for transferring defective stators and a stator discharging mechanism for discharging the stator, wherein a workbench for installing the turntable mechanism is arranged on the frame; the feeding mechanism, the performance testing mechanism, the height detection mechanism, the in-place detection mechanism, the go-no-go gauge mechanism, the defective product discharging mechanism and the stator discharging mechanism are sequentially distributed along the rotating direction of the turntable mechanism.

As a preferred embodiment: the performance testing mechanism comprises a first support, a lifting driving assembly and a testing probe, wherein the lifting driving assembly is vertically arranged on a testing support, the testing probe is arranged at the output end of the lifting driving assembly, and the testing probe is connected with a PIN needle.

As a preferred embodiment: the height detection mechanism comprises a second support, a transverse driving assembly, a vertical driving assembly and a displacement sensor, wherein the transverse driving assembly is arranged on the second support, the vertical driving assembly is arranged at the output end of the transverse driving assembly, and the displacement sensor is arranged at the output end of the vertical driving assembly.

As a preferred embodiment: the in-place detection mechanism comprises a third bracket, a transverse moving driving assembly, a vertical moving driving assembly and a base column used for passing through a stator plug, wherein the transverse moving driving assembly is arranged on the third bracket, the vertical moving driving assembly is arranged at the output end of the transverse moving driving assembly, and the base column is arranged at the output end of the vertical moving driving assembly.

As a preferred embodiment: the go-no-go gauge mechanism comprises a fourth bracket, a pressing driving assembly and a go-no-go gauge driving assembly, wherein the pressing driving assembly is used for pressing the upper surface of the stator, the pressing driving assembly comprises a pressing driving cylinder and a pressing block, the pressing driving cylinder is vertically arranged on the fourth bracket, the pressing block is arranged at the shaft end of the pressing driving cylinder, and the pressing block can be in descending butt joint with the upper surface of the stator.

As a preferred embodiment: go up rule drive assembly and including jacking drive cylinder, rotary drive cylinder, go up rule post and no-go rule post, this jacking drive cylinder is vertical installs on the fourth support, and this rotary drive cylinder is installed in the axle head of jacking drive cylinder, and this go up rule post and no-go rule post all elasticity liftable install in rotary drive cylinder's output.

As a preferred embodiment: the shaft ends of the rotary driving cylinder are connected with a rotary block, and the lower surfaces of the go gauge column and the no-go gauge column and the upper surface of the rotary block are respectively provided with an expansion spring; the go gauge column and the no-go gauge column are elastically and liftably arranged above the rotating block.

As a preferred embodiment: and a limiter used for limiting the rotation position of the rotating block is arranged beside the rotary driving cylinder, and the rotating block is rotatably abutted against the limiter.

As a preferred embodiment: the feeding mechanism, the defective product discharging mechanism and the stator discharging mechanism comprise a conveying assembly and a transferring assembly, the transferring assembly is located beside the conveying assembly and comprises a supporting frame, a longitudinal movement driving device, a vertical movement driving device, a rotary cylinder and a clamping cylinder, the longitudinal movement driving device is arranged on the supporting frame, the vertical movement driving device is arranged at the output end of the longitudinal movement driving device, and the rotary cylinder is arranged at the output end of the clamping cylinder.

As a preferred embodiment: the turntable mechanism comprises a rotary driving motor, a rotating disc and a jig seat for placing a stator, wherein the rotating disc is arranged at the shaft end of the rotary driving motor, and the jig seat is arranged on the rotating disc.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, in particular, according to the technical scheme, the feeding, moving, performance testing, height detection, in-place detection and in-place detection of the stator are realized automatically by adopting the feeding mechanism, the turntable mechanism, the performance testing mechanism, the height detection, in-place detection, inner diameter size detection, defective product discharge and qualified product discharge, the detection accuracy is high, and the labor cost is reduced; the pressing and fixing driving assembly presses and fixes the upper surface of the stator, so that the position deviation during stator detection is prevented, and the detection accuracy is improved; through adopting the clearance gauge driving assembly, whether the stator internal diameter size is qualified or not is detected, the whole structure is compact, and the occupied area is small.

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 integrated tester according to the present utility model;

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

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

FIG. 4 is a schematic perspective view of a performance testing mechanism according to the present utility model;

FIG. 5 is a schematic perspective view of a height detecting mechanism according to the present utility model;

FIG. 6 is a schematic perspective view of an in-place detecting mechanism according to the present utility model;

FIG. 7 is a schematic perspective view of a go-no-go gauge mechanism according to 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 feeding mechanism; 21. a transfer assembly; 22. a transfer assembly; 221. a support frame; 222. a longitudinal movement driving device; 2221. longitudinally moving the sliding seat; 223. a vertical movement driving device; 2231. a vertical movement driving cylinder; 2232. vertically moving the sliding seat; 224. a rotary cylinder; 225. a clamping cylinder; 30. a turntable mechanism; 31. a rotary drive motor; 32. a rotating disc; 33. a jig base; 40. a performance testing mechanism; 41. a first bracket; 42. a lifting driving assembly; 43. a test probe; 50. a height detection mechanism; 51. a second bracket; 52. a lateral drive assembly; 53. a vertical drive assembly; 54. a displacement sensor; 60. an in-place detection mechanism; 61. a third bracket; 62. a traversing drive assembly; 63. a vertical movement driving assembly; 64. a base column; 70. a go-no-go gauge mechanism; 71. a fourth bracket; 72. pressing and fixing the driving assembly; 721. a pressing driving cylinder; 722. briquetting; 73. a go gauge driving assembly; 731. jacking a driving cylinder; 732. a rotary driving cylinder; 733. a rotating block; 734. a limiter; 735. go gauge columns; 736. a non-stop gauge column; 80. defective product discharging mechanism; 90. and a stator discharging mechanism.

Detailed Description

The utility model is as shown in fig. 1 to 7, a stator comprehensive testing machine, which comprises a frame 10, a feeding mechanism 20 for feeding the stator, a turntable mechanism 30 for driving the stator to move, a performance testing mechanism 40 for testing the resistance and inductance performance of the stator, a height detecting mechanism 50 for detecting the height of a PIN needle, a in-place detecting mechanism 60 for detecting whether the PIN needle is installed in place, a go-no-go gauge mechanism 70 for detecting whether the inner diameter size of the stator is qualified, a defective product discharging mechanism 80 for transferring the defective stator and a stator discharging mechanism 90 for discharging the stator, wherein:

the frame 10 is provided with a workbench 11 for installing a turntable mechanism 30; the feeding mechanism 20, the performance testing mechanism 40, the height detection mechanism 50, the in-place detection mechanism 60, the go-no-go gauge mechanism 70, the defective product discharging mechanism 80 and the stator discharging mechanism 90 are sequentially distributed along the rotation direction of the turntable mechanism 30.

The feeding mechanism 20 feeds the stator to the turntable mechanism 30, the turntable mechanism 30 drives the stator to move, and when the stator moves to the side of the performance testing mechanism 40, the performance testing mechanism 40 tests the resistance and inductance of the stator; the turntable mechanism 30 drives the stator to move to the side of the height detection mechanism 50, and the height detection mechanism 50 detects whether the height of the PIN needle is qualified or not; the turntable mechanism 30 drives the stator to move to the side of the in-place detection mechanism 60, and the in-place detection mechanism 60 detects whether the PIN needle is in place or not; the turntable mechanism 30 drives the stator to move to the side of the go-no-go gauge mechanism 70; detecting whether the inner diameter size of the stator is qualified or not by a non-stop gauge mechanism 70; the turntable mechanism 30 drives the stator to move to the side of the defective product discharging mechanism 80, and the defective product discharging mechanism 80 discharges the unqualified stator; the turntable mechanism 30 drives the stator to move to the side of the stator discharging mechanism 90, and the stator discharging mechanism 90 discharges the stator which is qualified in detection.

Through adopting feed mechanism 20, carousel mechanism 30, performance testing mechanism 40, high detection mechanism 50, detection mechanism 60 targets in place, lead to no-go gage mechanism 70, defective products discharge mechanism 80 and stator discharge mechanism 90 automatic realization the material loading of stator, remove, performance test, high detection, target in place detection, internal diameter size detection, defective products ejection of compact and qualified product ejection of compact, detect the precision height, reduced the cost of labor.

The feeding mechanism 20, the defective product discharging mechanism 80 and the stator discharging mechanism 90 all comprise a conveying assembly 21 and a transferring assembly 22, the transferring assembly 22 is located beside the conveying assembly 21, the transferring assembly 22 comprises a supporting frame 221, a longitudinal movement driving device 222, a vertical movement driving device 223, a rotary cylinder 224 and a clamping cylinder 225, the longitudinal movement driving device 222 is installed on the supporting frame 221, the vertical movement driving device 223 is installed at the output end of the longitudinal movement driving device 222, and the rotary cylinder 224 is installed at the output end of the clamping cylinder 225.

The conveying assembly 21 comprises a motor and a driving belt, wherein the driving belt is arranged at the shaft end of the motor and drives the driving belt to move; the longitudinal movement driving device 222 comprises a longitudinal movement driving motor, a longitudinal movement screw rod and a longitudinal movement sliding seat 2221, wherein the longitudinal movement screw rod is arranged at the shaft end of the longitudinal movement driving motor, and the longitudinal movement sliding seat 2221 is in running fit with the longitudinal movement screw rod; the vertical movement driving device 223 includes a vertical movement driving cylinder 2231 and a vertical movement slider 2232, and the vertical movement slider 2232 is mounted at the shaft end of the vertical movement driving cylinder 2231; the conveying component 21 conveys the stator, and the transferring component 22 transfers the stator, so that the stator position moving requirement is met; the transfer assembly 22 transfers two stators at a time, transfers the two stators to the turntable mechanism 30 at the same time, detects the two stators, and improves the working efficiency.

The turntable mechanism 30 includes a rotary drive motor 31, a rotary disk 32, and a jig base 33 for placing a stator, the rotary disk 32 is mounted to the shaft end of the rotary drive motor 31, and the jig base 33 is mounted on the rotary disk 32.

The rotation driving motor 31 drives the rotating disc 32 to rotate, and the jig base 33 moves along with the rotation of the rotating disc 32; the turntable mechanism 30 is adopted to drive the stator to move, so that the working efficiency is improved, the whole structure is compact, and the occupied area is reduced.

The performance testing mechanism 40 includes a first bracket 41, a lifting driving assembly 42 and a test probe 43, the lifting driving assembly 42 is vertically installed on the test support, the test probe 43 is installed at the output end of the lifting driving assembly 42, and the test probe 43 is connected with the PIN needle.

The performance test mechanisms 40 are two groups, and the two groups of performance test mechanisms 40 test different performances on the stator; the elevation driving assembly 42 drives the test probe 43 to elevate so that the test probe 43 contacts with the PIN of the stator, and the test probe 43 is connected with the tester.

The height detection mechanism 50 includes a second bracket 51, a lateral drive assembly 52, a vertical drive assembly 53, and a displacement sensor 54, wherein the lateral drive assembly 52 is mounted on the second bracket 51, the vertical drive assembly 53 is mounted on an output end of the lateral drive assembly 52, and the displacement sensor 54 is mounted on an output end of the vertical drive assembly 53.

The displacement sensor 54 measures the distance between the upper end of the PIN needle and the stator plug, and the transverse driving assembly 52 and the vertical driving assembly 53 drive the displacement sensor 54 to move transversely and vertically, so that the requirement of the displacement sensor 54 on position movement during measuring the height of the PIN needle is met.

The in-place detecting mechanism 60 includes a third bracket 61, a traverse driving assembly 62, a vertical movement driving assembly 63, and a base post 64 for passing through the stator plug, the traverse driving assembly 62 is mounted on the third bracket 61, the vertical movement driving assembly 63 is mounted at an output end of the traverse driving assembly 62, and the base post 64 is mounted at an output end of the vertical movement driving assembly 63.

If the base column 64 can pass through the stator plug completely, the base column 64 is judged to be qualified, and if the base column cannot pass through the stator plug completely, the base column 64 is driven by the transverse moving driving assembly 62 and the vertical moving driving assembly 63 to move transversely and vertically, so that the base column 64 corresponds to the position of the stator plug.

The lift drive assembly 42, the lateral drive assembly 52, the vertical drive assembly 53, the traversing drive assembly 62, and the vertical drive assembly 63 each include a drive cylinder and a carriage mounted to an axial end of the drive cylinder, the drive cylinder driving the carriage to move, the carriage serving as an output.

The go-no-go gauge mechanism 70 comprises a fourth bracket 71, a pressing driving assembly 72 for pressing the upper surface of the stator, and a go-no-go gauge driving assembly 73, wherein the pressing driving assembly 72 comprises a pressing driving cylinder 721 and a pressing block 722, the pressing driving cylinder 721 is vertically arranged on the fourth bracket 71, the pressing block 722 is arranged at the shaft end of the pressing driving cylinder 721, and the pressing block 722 can be in descending abutting connection with the upper surface of the stator.

The go gauge driving assembly 73 comprises a jacking driving cylinder 731, a rotation driving cylinder 732, a go gauge column 735 and a no-go gauge column 736, wherein the jacking driving cylinder 731 is vertically installed on the fourth bracket 71, the rotation driving cylinder 732 is installed at the shaft end of the jacking driving cylinder 731, and the go gauge column 735 and the no-go gauge column 736 are both elastically and liftably installed at the output end of the rotation driving cylinder 732.

The pressing and fixing driving assembly 72 presses and fixes the upper surface of the stator, so that the position deviation during stator detection is prevented, and the detection accuracy is improved; the pressing driving cylinder 721 drives the pressing block 722 to press the upper surface of the stator; jacking driving cylinder 731 drives rotary driving cylinder 732, go gauge column 735 and no-go gauge column 736 to ascend; the rotary driving cylinder 732 drives the go gauge 735 and the go gauge to rotate, so that the two stators are conveniently tested; the go gauge pin 735 can rise through the stator inner diameter and the no-go gauge pin 736 cannot pass through the stator inner diameter; further judging whether the inner diameter size of the stator meets the requirement; by adopting the go gauge driving assembly 73, whether the inner diameter size of the stator is qualified or not is detected, and the whole structure is compact and the occupied area is small.

The shaft end of the rotary driving cylinder 732 is connected with a rotary block 733, and the lower surfaces of the go gauge column 735 and the no-go gauge column 736 and the upper surface of the rotary block 733 are respectively provided with a telescopic spring; the go gauge column 735 and the no-go gauge column 736 are elastically and liftably mounted above the rotating block 733; the lifting driving cylinder 731 is adopted to drive the go-gauge column 735 and the no-go gauge column 736 to lift, and the position movement requirements of the go-gauge column 735 and the no-go gauge column 736 are met by adopting the telescopic spring because the go-gauge column 735 can pass through the inner diameter of the stator and the no-go gauge column 736 can not pass through the inner diameter of the stator.

A limiter 734 for limiting the rotation position of the rotation block 733 is provided beside the rotation driving cylinder 732, and the rotation block 733 is rotatably abutted to the limiter 734; the rotation angle of the rotation block 733 is limited by adopting the limiter 734, so that the overlarge rotation angle is prevented, and the accuracy is improved; the inside diameter sizes of the upper side and the lower side of the stator are different, and the go-no-go gauge mechanism 70 is divided into two groups, wherein one group detects the inside diameter size of the lower side of the stator, and the other group detects the inside diameter size of the upper side of the stator.

The application method and principle of the stator comprehensive testing machine are as follows:

the feeding mechanism feeds the stator to the turntable mechanism, the turntable mechanism drives the stator to move, and when the stator moves to the side of the performance testing mechanism, the performance testing mechanism tests the resistance and inductance of the stator; the turntable mechanism drives the stator to move to the side of the height detection mechanism, and the height detection mechanism detects whether the height of the PIN needle is qualified or not; the turntable mechanism drives the stator to move to the side of the in-place detection mechanism, and the in-place detection mechanism detects whether the PIN needle is installed in place or not; the turntable mechanism drives the stator to move to the side of the go-no-go gauge mechanism; detecting whether the inner diameter size of the stator is qualified or not by a go-no-go gauge mechanism; the turntable mechanism drives the stator to move to the side of the defective product discharging mechanism, and the defective product discharging mechanism discharges the unqualified stator; the turntable mechanism drives the stator to move to the side of the stator discharging mechanism, and the stator discharging mechanism discharges the stator qualified in detection.

The utility model has the design key points that the feeding, the movement, the performance test, the height detection, the in-place detection, the inner diameter size detection, the defective product discharge and the qualified product discharge of the stator are automatically realized by adopting the feeding mechanism, the turntable mechanism, the performance test mechanism, the in-place detection mechanism, the go-no-go gauge mechanism, the defective product discharge mechanism and the stator discharge mechanism, the detection precision is high, and the labor cost is reduced; the pressing and fixing driving assembly presses and fixes the upper surface of the stator, so that the position deviation during stator detection is prevented, and the detection accuracy is improved; through adopting the clearance gauge driving assembly, whether the stator internal diameter size is qualified or not is detected, the whole structure is compact, and the occupied area is small.

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 comprehensive testing machine is characterized in that; the device comprises a frame, a feeding mechanism for feeding the stator, a turntable mechanism for driving the stator to move, a performance testing mechanism for testing the resistance and inductance performance of the stator, a height detecting mechanism for detecting the height of the PIN needle, a in-place detecting mechanism for detecting whether the PIN needle is installed in place, a go-no-go gauge mechanism for detecting whether the inner diameter size of the stator is qualified, a defective product discharging mechanism for transferring the defective stator and a stator discharging mechanism for discharging the stator, wherein a workbench for installing the turntable mechanism is arranged on the frame; the feeding mechanism, the performance testing mechanism, the height detection mechanism, the in-place detection mechanism, the go-no-go gauge mechanism, the defective product discharging mechanism and the stator discharging mechanism are sequentially distributed along the rotating direction of the turntable mechanism.

2. The stator integrated tester of claim 1, wherein; the performance testing mechanism comprises a first support, a lifting driving assembly and a testing probe, wherein the lifting driving assembly is vertically arranged on a testing support, the testing probe is arranged at the output end of the lifting driving assembly, and the testing probe is connected with a PIN needle.

3. The stator integrated tester of claim 1, wherein; the height detection mechanism comprises a second support, a transverse driving assembly, a vertical driving assembly and a displacement sensor, wherein the transverse driving assembly is arranged on the second support, the vertical driving assembly is arranged at the output end of the transverse driving assembly, and the displacement sensor is arranged at the output end of the vertical driving assembly.

4. The stator integrated tester of claim 1, wherein; the in-place detection mechanism comprises a third bracket, a transverse moving driving assembly, a vertical moving driving assembly and a base column used for passing through a stator plug, wherein the transverse moving driving assembly is arranged on the third bracket, the vertical moving driving assembly is arranged at the output end of the transverse moving driving assembly, and the base column is arranged at the output end of the vertical moving driving assembly.

5. The stator integrated tester of claim 1, wherein; the go-no-go gauge mechanism comprises a fourth bracket, a pressing driving assembly and a go-no-go gauge driving assembly, wherein the pressing driving assembly is used for pressing the upper surface of the stator, the pressing driving assembly comprises a pressing driving cylinder and a pressing block, the pressing driving cylinder is vertically arranged on the fourth bracket, the pressing block is arranged at the shaft end of the pressing driving cylinder, and the pressing block can be in descending butt joint with the upper surface of the stator.

6. The stator integrated tester according to claim 5, wherein; go up rule drive assembly and including jacking drive cylinder, rotary drive cylinder, go up rule post and no-go rule post, this jacking drive cylinder is vertical installs on the fourth support, and this rotary drive cylinder is installed in the axle head of jacking drive cylinder, and this go up rule post and no-go rule post all elasticity liftable install in rotary drive cylinder's output.

7. The stator integrated tester of claim 6, wherein; the shaft ends of the rotary driving cylinder are connected with a rotary block, and the lower surfaces of the go gauge column and the no-go gauge column and the upper surface of the rotary block are respectively provided with an expansion spring; the go gauge column and the no-go gauge column are elastically and liftably arranged above the rotating block.

8. The stator integrated tester of claim 7, wherein; and a limiter used for limiting the rotation position of the rotating block is arranged beside the rotary driving cylinder, and the rotating block is rotatably abutted against the limiter.

9. The stator integrated tester of claim 1, wherein; the feeding mechanism, the defective product discharging mechanism and the stator discharging mechanism comprise a conveying assembly and a transferring assembly, the transferring assembly is located beside the conveying assembly and comprises a supporting frame, a longitudinal movement driving device, a vertical movement driving device, a rotary cylinder and a clamping cylinder, the longitudinal movement driving device is arranged on the supporting frame, the vertical movement driving device is arranged at the output end of the longitudinal movement driving device, and the rotary cylinder is arranged at the output end of the clamping cylinder.

10. The stator integrated tester of claim 1, wherein; the turntable mechanism comprises a rotary driving motor, a rotating disc and a jig seat for placing a stator, wherein the rotating disc is arranged at the shaft end of the rotary driving motor, and the jig seat is arranged on the rotating disc.