CN219647864U - Automatic batch uniform oil injection equipment for stator and rotor - Google Patents

Abstract

The utility model discloses automatic batch uniform oil injection equipment for a stator and a rotor. The equipment can be used for carrying out connection production and is connected with a transportation line to realize automatic work. The equipment comprises a machine table, a spraying bin, a turntable device, a spraying device, a material moving device and a jacking device. When the workpiece on the conveying line is conveyed to a station of the equipment, the workpiece is placed on the turntable device by the material moving device, the surface of the workpiece is sprayed with oil and coated with oil by the spraying device, and the workpiece is moved back into the conveying line after the work is completed. In the equipment, the device is connected with an automatic welding production line, and oil injection and oiling can be carried out on the welded workpiece so as to control the quality of the workpiece produced by the production line. The equipment has higher automation; moreover, the airtight bin is adopted to spray oil on the workpiece, so that oil mist leakage can be prevented; the rotatable driving end of the spraying device is matched with the turntable device to spray the surface of the workpiece without dead angles, so that the spraying is more uniform and the effect is better.

Description

Automatic batch uniform oil injection equipment for stator and rotor

Technical Field

The utility model relates to the technical field of stator and rotor production process equipment, in particular to automatic batch uniform oil injection equipment for stators and rotors.

Background

In the production process of the stator or the rotor, welding operation is required, and the surface is treated after welding. Aiming at the processed workpiece, the surface of the workpiece needs to be oiled for protection so as to ensure the quality of each produced product and prevent the product from rusting.

The appearance detecting device in the prior art has the following problems: 1. the feeding and the returning of the workpiece are not smooth, so that excessive time is spent on conveying, and the production efficiency is reduced; 2. the connection work can not be realized, and the automation degree is low; 3. the oil injection efficiency is low and the oil injection is uneven.

Therefore, the prior art has defects that the prior art cannot adapt to mass production and needs improvement.

Disclosure of Invention

According to one aspect of the utility model, an automated batch uniform oil injection device for stators and rotors is provided, which can be abutted to a conveying line, and comprises a machine table and a plurality of oil injection devices arranged on the machine table

The spraying bin is provided with an openable sliding cover;

the turntable device is arranged in the spraying bin and positioned below the sliding cover, and is provided with a working end for driving rotation;

the spraying device is arranged in the spraying bin and is positioned at one side of the turntable device;

the material transferring device is arranged at one side of the spraying bin,

the conveying line is provided with a workpiece input, and the material moving device is configured to move the workpiece into the turntable device or return the workpiece from the turntable device to the conveying line.

The utility model provides equipment capable of automatically spraying oil and coating oil on a stator and a rotor, which is butted with an automatic production line and a conveying line of the automatic production line. When the work piece on the conveying line is conveyed to the station of the equipment, the material moving device moves the work piece into the spraying bin and is placed on the turntable device, the driving end of the turntable device is started, the work piece rotates on the driving end of the turntable device, the spraying device sprays oil on the surface of the work piece, and after the work is finished, the material moving device moves the work piece back into the conveying line. In the equipment, the equipment is connected with an automatic welding production line of the stator and the rotor, so that the welded workpiece can be subjected to oil injection and oiling, and the quality of the workpiece produced by the production line is controlled. The equipment has higher automation; moreover, the airtight bin is adopted to spray oil on the workpiece, so that oil mist leakage can be prevented; the surface of the workpiece is sprayed through the rotatable driving end of the turntable device without dead angles, so that the spraying is more uniform and the effect is better.

In some embodiments, the spraying bin further comprises a bin body, a rear cover and a first driving piece, the bin body is covered on the upper end face of the machine table, the rear cover is fixed on the bin body and located at one end position, the sliding cover is slidably arranged at the upper end of the bin body, the first driving piece is arranged on the outer side face of the bin body, and the first driving piece is in driving connection with the sliding cover.

Therefore, the first driving piece drives the sliding cover to reciprocate at the upper end of the bin body, so that the spraying bin can be opened or closed.

In some embodiments, an air duct is arranged on the outer side of the bin body, and the air duct is communicated with the spraying bin.

Therefore, the air pipe is connected with negative pressure equipment to remove redundant liquid in the spraying bin.

In some embodiments, the turntable device comprises a turntable, a storage tray, a first driving motor, a coupler and a connecting shaft, wherein the turntable is arranged on the end face of the machine table, the storage tray is arranged on the driving end of the turntable, the connecting shaft is connected with the driving end of the turntable, and the first driving motor is arranged on the machine table and is connected with the connecting shaft through the coupler.

Thus, the turntable device is composed by the above structure. The object placing disc is installed through the rotary table and can rotate, the first driving motor drives the rotary table to rotate through the coupler and the connecting shaft, and the object placing disc and the workpiece rotate along with the driving end of the rotary table.

In some embodiments, the spray coating device comprises a lifting frame, a fourth driving piece, a first driving assembly, a moving frame, a first oil spraying assembly and a second oil spraying assembly;

the lifting frame is arranged on the machine table in a lifting manner, the fourth driving piece is arranged on the machine table and is in driving connection with the lifting frame, the first driving assembly is arranged on the lifting frame, the movable frame is arranged on the driving end of the first driving assembly, the first oil injection assembly and the second oil injection assembly are all arranged on the movable frame, the first oil injection assembly is located at the rear side of the turntable device, and the second oil injection assembly is located above the turntable device.

From this, first drive assembly drive removes the frame and is close to the carousel device to make first oil spout subassembly, second oil spout subassembly be close to the carousel device, first oil spout subassembly sprays the work piece in the rear side of work piece, and the second oil spout subassembly sprays the work piece in the top of work piece.

In some embodiments, a baffle is disposed on the movable frame, the baffle is disposed on a side of the first fuel injection assembly away from the turntable device, and the baffle is disposed transverse to the spray booth.

Therefore, the inner space of the spraying bin can be reduced through the baffle plate, and oil mist is placed to fly around.

In some embodiments, the material moving device comprises a second driving assembly, a third driving assembly and a clamp mechanism, wherein the second driving assembly is positioned at the upper position between the conveying line and the turntable device, the third driving assembly is arranged at the driving end of the second driving assembly, and the clamp mechanism is arranged at the driving end of the third driving assembly.

From this, in the material transfer device, second drive assembly drive anchor clamps mechanism along transfer chain, the line direction horizontal migration between the carousel device, and third drive assembly drive anchor clamps mechanism vertically removes, and anchor clamps mechanism snatchs the work piece to remove the work piece between transfer chain, carousel device.

In some embodiments, the clamp mechanism comprises a mounting plate, a third driving piece, a linkage assembly and two symmetrically distributed clamping assemblies, wherein the mounting plate is arranged at the driving end of the third driving assembly, the two clamping assemblies are slidably arranged at the lower end of the mounting plate, the third driving piece is arranged at the upper end of the mounting plate and connected with one of the clamping assemblies, and the two clamping assemblies are connected through the linkage assembly.

In the clamp mechanism, one of the clamping hand assemblies is driven to move by the third driving piece, and the other clamping hand assembly is enabled to synchronously and directionally move through the linkage assembly, so that linear motion relatively close to or far away from the two clamping hand assemblies is formed, and the action mode of grabbing and opening the clamp is simulated.

In some embodiments, the linkage assembly comprises a linkage gear and two second racks which are distributed oppositely, the two second racks are respectively connected with the clamping assembly, and the linkage gear is arranged between the two second racks and meshed with each other.

Therefore, when one of the clamping assemblies moves, the second rack arranged on the clamping assembly drives the other second rack to move reversely through the linkage gear, so that linear motion relatively close to or far away from the two clamping assemblies is formed, and the action gesture of grabbing and opening the clamp is simulated.

In some embodiments, an automated batch uniform oil injection device for a stator and a rotor further comprises a jacking device, wherein the jacking device is positioned on one side of a machine table and below a transportation line;

the jacking device comprises a mounting frame, a second driving piece and a jacking plate, wherein the mounting frame is arranged on a conveying line, the second driving piece is arranged on the mounting frame, the jacking plate is arranged on the mounting frame in a lifting and moving manner, and the driving ends of the two driving pieces are connected with the jacking plate.

From this, the device is lifted off the transfer chain with the work piece top, conveniently moves the material device to snatch, or conveniently moves the material device to put back the transfer chain with the work piece.

Drawings

Fig. 1 is a schematic perspective view of an automatic batch uniform oil spraying device for a stator and a rotor according to an embodiment of the present utility model.

Fig. 2 is a schematic top view of an automated batch-type uniform oil injection apparatus for a stator and a rotor shown in fig. 1.

Fig. 3 is a schematic perspective view of a bin body in the automatic batch uniform oil spraying device for the stator and the rotor shown in fig. 1.

Fig. 4 is a schematic perspective view of a part of the apparatus in the automatic batch uniform oil spraying device for the stator and the rotor shown in fig. 1.

Fig. 5 is a schematic perspective view of a turntable device in the automatic batch uniform oil spraying device for the stator and the rotor shown in fig. 1.

Fig. 6 is a schematic perspective view of a material moving device and a jacking device in the automatic batch uniform oil spraying equipment for the stator and the rotor shown in fig. 1.

Fig. 7 is a schematic perspective view of a second driving assembly and a third driving assembly in the material transferring device shown in fig. 6.

Fig. 8 is a schematic perspective view of a gripper assembly in the material moving device shown in fig. 6.

Reference numerals in the drawings: 000-machine table, 100-turntable device, 110-turntable, 120-object placing tray, 130-first driving motor, 140-coupling, 150-connecting shaft, 200-spraying bin, 210-bin body, 220-back cover, 230-first driving piece, 240-air pipe, 250-sliding cover, 300-spraying device, 310-lifting frame, 320-fourth driving piece, 330-first driving component, 340-moving frame, 350-first oil spraying component, 360-second oil spraying component, 370-baffle, 400-material moving device, 410-second driving component, and,

411-rail, 412-moving plate, 413-first rack, 414-driving motor, 420-third driving component, 430-clamp mechanism, 431-mounting plate, 432-third driving component, 433-linkage component, 4331-linkage gear, 4332-second rack, 434-clamp assembly, 4341-moving plate, 4342-slider, 4343-non-slip mat, 440-portal frame, 500-jacking device, 510-mounting frame, 520-second driving component, 530-jacking plate, a-workpiece, b-tray.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

Fig. 1-2 schematically illustrate an automated batch homogeneous injection apparatus for stators, rotors according to one embodiment of the present utility model. The equipment can be used for carrying out connection production and is connected with a transportation line to realize automatic work. The equipment is arranged on one side of a conveying line, a tray b is arranged on the conveying line and used for conveying a workpiece a, and the workpiece a is placed on the tray b.

Referring to fig. 1-2, the apparatus includes a machine 000, a spray booth 200, a turntable assembly 100, a spray assembly 300, a transfer assembly 400, and a lift-off assembly 500. The spraying bin 200 is arranged on the end face of the machine platform 000 in a covering manner, and the spraying bin 200 is provided with an openable sliding cover 250; the turntable device 100 is arranged on the end face of the machine platform 000, the turntable device 100 is positioned in the spraying bin 200 and below the sliding cover 250, and the turntable device 100 is provided with a working end for driving rotation; the spraying device 300 is arranged on the end face of the machine platform 000, and the spraying device 300 is positioned in the spraying bin 200 and at one side of the turntable device 100; the material moving device 400 is arranged on one side of the machine platform 000 and positioned on one side outside the spraying bin 200; the ejecting device 500 is located at one side of the machine platform 000 and below the transportation line, and the conveying direction of the material moving device 400 is the connection line of the ejecting device 500 and the turntable device 100. The transfer line is provided with a workpiece a input, and the transfer device 400 is configured to transfer the workpiece a into the carousel device 100 or return the workpiece a from the carousel device 100 to the transfer line.

When the workpiece a on the conveying line is conveyed to a station of the equipment, the workpiece a is moved into the spraying bin 200 by the material moving device 400 and is placed on the turntable device 100, the driving end of the turntable device 100 is started, the workpiece a rotates on the driving end of the turntable device 100, the spraying device 300 sprays oil to the surface of the workpiece a for oiling, and after the work is completed, the workpiece a is moved back into the conveying line by the material moving device 400. In the equipment, the equipment is connected with an automatic welding production line of the stator and the rotor, so that the welded workpiece a can be subjected to oil spraying and oiling, and the quality of the workpiece a produced by the production line is controlled. The equipment has higher automation; moreover, the airtight bin is adopted to spray oil on the workpiece a, so that oil mist leakage can be prevented; the surface of the workpiece a is sprayed without dead angles through the rotatable driving end of the turntable device 100, so that the spraying is more uniform and the effect is better.

Referring to fig. 3, the spray booth 200 further includes a booth body 210, a rear cover 220, and a first driver 230. The bin body 210 is covered on the upper end face of the machine platform 000, the bin body 210 is formed by splicing four sheet metal materials end to end, the bin body 210 is directly covered on the upper end face of the machine platform 000, and the sheet metal parts are arranged at the edge positions of the machine platform 000; the rear cover 220 is fixed on the bin body 210 and located at one end, the sliding cover 250 is slidably disposed at the upper end of the bin body 210, the first driving member 230 is disposed on the outer side surface of the bin body 210, and the first driving member 230 is in driving connection with the sliding cover 250. The first driving member 230 drives the sliding cover 250 to reciprocate at the upper end of the cartridge body 210, thereby enabling the spray booth 200 to be opened or closed.

Referring to fig. 3, an air duct 240 is provided outside the bin body 210, and the air duct 240 communicates with the spray bin 200. The air pipe 240 is connected to the negative pressure equipment to remove the redundant liquid in the spraying bin 200.

Referring to fig. 4-5, the turntable device 100 includes a turntable 110, a storage tray 120, a first driving motor 130, a coupling 140, and a connection shaft 150, where the turntable 110 is disposed on an end surface of the machine platform 000, the storage tray 120 is disposed on a driving end of the turntable 110, the connection shaft 150 is connected with the driving end of the turntable 110, and the first driving motor 130 is disposed on the machine platform 000 and is connected with the connection shaft 150 through the coupling 140. The turntable device 100 is composed by the above-described structure. The object placing disc 120 is installed through the rotary table 110, and can rotate, the first driving motor 130 drives the rotary table 110 to rotate through the coupler 140 and the connecting shaft 150, and the object placing disc 120 and the workpiece a rotate along with the driving end of the rotary table 110.

Referring to fig. 4, the spraying apparatus 300 includes a lift frame 310, a fourth driving member 320, a first driving assembly 330, a moving frame 340, a first spraying assembly 350, and a second spraying assembly 360;

the lifting frame 310 is arranged on the machine platform 000 in a lifting manner, the fourth driving piece 320 is arranged on the machine platform 000 and is in driving connection with the lifting frame 310, the first driving component 330 is arranged on the lifting frame 310, the moving frame 340 is arranged on the driving end of the first driving component 330, the first oil spraying component 350 and the second oil spraying component 360 are both arranged on the moving frame 340, the first oil spraying component 350 is positioned at the rear side of the turntable device 100, and the second oil spraying component 360 is positioned above the turntable device 100. The first driving assembly 330 drives the moving frame 340 to approach the turntable device 100, so that the first oil spraying assembly 350 and the second oil spraying assembly 360 approach the turntable device 100, the first oil spraying assembly 350 sprays the workpiece a at the rear side of the workpiece a, and the second oil spraying assembly 360 sprays the workpiece a above the workpiece a.

Referring to fig. 4, a baffle 370 is disposed on the moving frame 340, and the baffle 370 is disposed on a side of the first fuel injection assembly 350 away from the turntable assembly 100, and the baffle 370 is disposed transverse to the spray booth 200. By the baffle 370, the inner space of the spray booth 200 can be reduced, and the oil mist can be placed to fly around.

Referring to fig. 6, the material transferring device 400 includes a gantry 440, a second driving assembly 410, a third driving assembly 420, and a clamp mechanism 430, where the second driving assembly 410 is disposed on the gantry 440 and located at an upper position between the conveyor line and the turntable device 100, the third driving assembly 420 is disposed at a driving end of the second driving assembly 410, and the clamp mechanism 430 is disposed at a driving end of the third driving assembly 420. In the material transferring device 400, the second driving component 410 drives the clamp mechanism 430 to horizontally move along the connecting line direction between the conveying line and the turntable device 100, the third driving component 420 drives the clamp mechanism 430 to vertically move, and the clamp mechanism 430 grabs the workpiece a, so that the workpiece a is moved between the conveying line and the turntable device 100.

Referring to fig. 7, the second driving assembly 410 includes a guide rail 411, a moving plate 412, a first rack 413 and a second driving motor 414, the moving plate 412 is disposed on the gantry through the guide rail 411, the first rack 413 is disposed on the gantry and parallel to the guide rail 411, the second driving motor 414 is disposed on the moving plate 412, a driving end of the second driving motor 414 penetrates through the moving plate 412, and a driving end of the second driving motor 414 is provided with a driving gear engaged with the first rack 413. In the second driving assembly 410, the second driving motor 414 is activated, and the driving gear is engaged with the first rack 413, thereby driving the moving plate 412 to reciprocate on the guide rail 411.

Referring to fig. 8, the clamp mechanism 430 includes a mounting plate 431, a third driving member 432, a linkage assembly 433 and two symmetrically distributed hand clamping assemblies 434, the mounting plate 431 is disposed at a driving end of the third driving assembly 420, two hand clamping assemblies 434 are slidably disposed at a lower end of the mounting plate 431, the third driving member 432 is disposed at an upper end of the mounting plate 431 and connected with one of the hand clamping assemblies 434, and the two hand clamping assemblies 434 are connected through the linkage assembly 433. In the clamp mechanism 430, the third driving member 432 drives one of the hand clamping assemblies 434 to move, and the hand clamping assemblies 434 synchronously and directionally move the other hand clamping assembly 434 through the linkage assembly 433, so that relatively close or far linear movement is formed between the two hand clamping assemblies 434, and the action mode of grabbing and opening the clamp is simulated.

Referring to fig. 8, the linkage assembly 433 includes a linkage gear 4331 and two second racks 4332 disposed opposite to each other, wherein the two second racks 4332 are respectively connected to the hand clamping assembly 434, and the linkage gear 4331 is disposed between the two second racks 4332 and engaged with each other. When one of the hand clamping assemblies 434 moves, the second rack 4332 arranged on the hand clamping assembly drives the other second rack 4332 to move reversely through the linkage gear 4331, so that the two hand clamping assemblies 434 form relatively close or far linear motion, and the action gesture of grabbing and opening the clamp is simulated.

Referring to fig. 6, the grip assembly 434 includes a sliding plate, a sliding block 4342, and a sliding pad 4343, wherein the sliding plate is disposed at a lower end of the mounting plate 431 through the sliding block 4342, the sliding pad 4343 is detachably disposed on the sliding plate, and an inner profile of the sliding pad 4343 simulates an outer profile of the workpiece a. The hand assembly is formed by the structure described above, and by the hand grip assembly 434.

Referring to fig. 6, the jacking device 500 includes a mounting frame 510, a second driving member 520, and a jacking plate 530, where the mounting frame 510 is installed on a transportation line, the second driving member 520 is disposed on the mounting frame 510, the jacking plate 530 is disposed on the mounting frame 510 in a lifting manner, and the driving ends of the two driving members are connected with the jacking plate 530. The jacking-off device 500 jacks the workpiece a off the conveying line, so that the workpiece a is convenient to grasp by the material moving device 400, or the workpiece a is convenient to put back to the conveying line by the material moving device 400.

In this embodiment, the third driving assembly 420 and the first driving assembly 330 are all linear motor driving modules.

When the workpiece a on the conveying line is conveyed to the station of the equipment along with the pallet b, the pallet b is positioned above the jacking device 500, and the equipment is in the working process:

s1, feeding: the workpiece a on the conveying line is conveyed along with the tray b to be lifted off the upper part of the device 500, namely the lower part of the material moving device 400, and the lifting off device 500 lifts the workpiece a off the conveying line;

the second driving member 520 drives the lifting plate 530 to lift up, thereby lifting the pallet b together with the workpiece a off the transporting line.

S2, material transferring: in the material moving device 400, the third driving assembly 420 drives the clamp mechanism 430 to vertically move, and the clamp mechanism 430 grabs the workpiece a; after grabbing, the second driving assembly 410 drives the clamp mechanism 430 to horizontally move along the connecting line direction between the conveying line and the feeding device, and the workpiece a is placed in the spraying bin 200 and positioned at the working end of the turntable device 100;

the first driving member 230 drives the sliding cover 250 to move at the upper end of the cartridge body 210, thereby closing the spray booth 200.

S3, spraying:

s3.1: in the turntable device 100, the first driving motor 130 drives the rotating disc to rotate through gear engagement, and the workpiece a rotates along with the object placing disc 120;

s3.2, the first driving component 330 drives the movable frame 340 to be close to the turntable device 100, the first oil spraying component 350 sprays the workpiece a at the rear side of the workpiece a, and the second oil spraying component 360 sprays the workpiece a above the workpiece a;

the turntable device 100 and the spraying device 300 cooperate with each other to finish spraying the workpiece a, and the sliding cover 250 is opened.

S4, feeding back: in the material moving device 400, the third driving assembly 420 drives the clamp mechanism 430 to approach the turntable device 100 from the vertical direction, so as to grasp the workpiece a; the second driving component 410 drives the clamp mechanism 430 to horizontally move along the reverse direction of the connecting line between the conveying line and the feeding device; the workpiece a is placed at the lift-off device 500.

S5, discharging: in the lift-off apparatus 500, the second driving member 520 drives the lift-up plate 530 to descend, thereby dropping the pallet b onto a transporting line, which transports the pallet b together with the workpiece a to the next process.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (10)

1. An automatic batch uniform oil injection device for stators and rotors can be abutted with a conveying line and is characterized by comprising a machine table (000) and a plurality of oil injection devices arranged on the machine table (000)

The spraying bin (200) is provided with an openable sliding cover (250);

the turntable device (100) is arranged in the spraying bin (200) and positioned below the sliding cover (250), and is provided with a working end for driving rotation;

the spraying device (300) is arranged in the spraying bin (200) and is positioned at one side of the turntable device (100);

the material moving device (400) is arranged at one side of the spraying bin (200),

the conveying line is provided with a workpiece (a) input, and the material moving device (400) is configured to move the workpiece (a) into the turntable device (100) or return the workpiece (a) from the turntable device (100) to the conveying line.

2. The automatic batch uniform oil spraying device for the stators and the rotors according to claim 1, wherein the spraying bin (200) further comprises a bin body (210), a rear cover (220) and a first driving piece (230), the bin body (210) is covered on the upper end face of the machine table (000), the rear cover (220) is fixed on the bin body (210) and located at one end position, the sliding cover (250) is slidably arranged at the upper end of the bin body (210), the first driving piece (230) is arranged on the outer side face of the bin body (210), and the first driving piece (230) is in driving connection with the sliding cover (250).

3. An automated uniform oil spraying device for stators and rotors according to claim 2, wherein an air duct (240) is arranged outside the bin (210), and the air duct (240) is communicated with the spraying bin (200).

4. The automatic batch uniform oil spraying device for the stators and the rotors according to claim 1, wherein the turntable device (100) comprises a turntable (110), a storage disc (120), a first driving motor (130), a coupler (140) and a connecting shaft (150), the turntable (110) is arranged on the end face of the turntable (000), the storage disc (120) is arranged on the driving end of the turntable (110), the connecting shaft (150) is connected with the driving end of the turntable (110), and the first driving motor (130) is arranged on the turntable (000) and is connected with the connecting shaft (150) through the coupler (140).

5. An automated batch homogeneous spray apparatus for stators and rotors according to claim 1, wherein the spray device (300) comprises a crane (310), a fourth drive (320), a first drive assembly (330), a mobile carriage (340), a first spray assembly (350), a second spray assembly (360);

the lifting frame (310) is arranged on the machine table (000) in a lifting manner, the fourth driving piece (320) is arranged on the machine table (000) and is in driving connection with the lifting frame (310), the first driving component (330) is arranged on the lifting frame (310), the moving frame (340) is arranged on the driving end of the first driving component (330), the first oil injection component (350) and the second oil injection component (360) are arranged on the moving frame (340), the first oil injection component (350) is arranged at the rear side of the turntable device (100), and the second oil injection component (360) is arranged above the turntable device (100).

6. An automated batch uniformity injection apparatus for a stator and rotor according to claim 5 wherein a baffle (370) is provided on said movable shelf (340), said baffle (370) being provided on a side of the first injection assembly (350) remote from the turntable assembly (100), said baffle (370) being provided transverse to the spray booth (200).

7. An automated uniform injection apparatus for stators and rotors according to any one of claims 1-6 wherein the material moving means (400) comprises a second driving assembly (410), a third driving assembly (420) and a clamping mechanism (430), the second driving assembly (410) is located at an upper position between the conveyor line and the turntable device (100), the third driving assembly (420) is located at a driving end of the second driving assembly (410), and the clamping mechanism (430) is located at a driving end of the third driving assembly (420).

8. The automatic batch uniform oil spraying device for stators and rotors according to claim 7, wherein the clamp mechanism (430) comprises a mounting plate (431), a third driving piece (432), a linkage assembly (433) and two symmetrically distributed clamping assemblies (434), the mounting plate (431) is arranged at the driving end of the third driving assembly (420), two clamping assemblies (434) are slidably arranged at the lower end of the mounting plate (431), the third driving piece (432) is arranged at the upper end of the mounting plate (431) and is connected with one clamping assembly (434), and the two clamping assemblies (434) are connected through the linkage assembly (433).

9. The automatic batch uniform oil spraying device for the stators and the rotors according to claim 8, wherein the linkage assembly (433) comprises a linkage gear (4331) and two oppositely-distributed second racks (4332), the two second racks (4332) are respectively connected with the clamping assembly (434), and the linkage gear (4331) is arranged between the two second racks (4332) and meshed with each other.

10. An automated uniform oil injection apparatus for stators and rotors according to any one of claims 1-6, further comprising a jacking device (500), said jacking device (500) being located on one side of the machine (000) below the transportation line;

the jacking device (500) comprises a mounting frame (510), a second driving piece (520) and a jacking plate (530), wherein the mounting frame (510) is mounted on a conveying line, the second driving piece (520) is arranged on the mounting frame (510), the jacking plate (530) is arranged on the mounting frame (510) in a lifting and moving manner, and the driving end of the second driving piece is connected with the jacking plate (530).