CN114629316A - Motor stator and rotor paint dipping equipment and operation method thereof - Google Patents

Abstract

The invention discloses a motor stator and rotor paint dipping device, which comprises a bottom plate, a hydraulic cylinder, a connecting plate, a motor, a rotating gear, a planetary gear and a charging barrel, and is characterized in that: the bottom plate is arranged on the support, the hydraulic cylinder is arranged on the top plate, the connecting plate is arranged on the connecting rod, the motor is arranged on the connecting plate, the rotating gear is arranged on the transmission shaft, the planetary gear is arranged between the fixed gear ring and the rotating gear, the inner bottom of the charging barrel is provided with a connecting barrel, and a connecting stud is arranged in the connecting barrel. According to the invention, the motor drives the transmission shaft and the rotating gear on the transmission shaft to rotate, the rotating gear drives the planetary gear to rotate in the fixed gear ring, the plurality of planetary gears can drive the plurality of charging barrels to rotate in the paint liquid tank, and then the motor stators and rotors in the plurality of charging barrels are subjected to paint dipping treatment simultaneously, so that the paint dipping efficiency of the motor stators and rotors is improved, and the paint dipping efficiency and the paint dipping quality of the motor stators and rotors are further improved.

Description

Motor stator and rotor paint dipping equipment and operation method thereof

Technical Field

The invention relates to the technical field of motor stator and rotor production, in particular to motor stator and rotor paint dipping equipment and an operation method thereof.

Background

At present, at the course of working of motor stator and rotor, in order to improve motor stator and rotor's rust-resistant ability, can spray paint or dip coating at motor stator and rotor surface and handle, traditional spraying paint has the problem that motor stator and rotor internal surface is difficult for spraying lacquer, current mode adopts to carry out dip coating to motor rotor more and handles, a motor rotor dip coating equipment has been published like application number 201921662024.8, it has solved the problem of dip coating inefficiency, but it has motor rotor dip coating quality not good, once dip coating is small in quantity, the extravagant more problem of lacquer liquid.

Disclosure of Invention

The invention aims to solve the problems of poor motor rotor paint dipping quality, small quantity of primary paint dipping and more paint liquid waste of the conventional motor stator and rotor paint dipping device, and provides motor stator and rotor paint dipping equipment which is reasonable in structural design, good in motor stator and rotor paint dipping uniformity, poor in motor stator and rotor paint dipping quality, large in quantity of motor stators and rotors subjected to primary paint dipping and less in paint liquid waste and an operation method thereof.

The technical scheme adopted for solving the technical problem is as follows:

the utility model provides a motor stator and rotor dip coating equipment, includes bottom plate, pneumatic cylinder, connecting plate, motor, rotating gear, planetary gear and feed cylinder, its characterized in that: the bottom plate is arranged on the bracket, the bottom plate is provided with an upright post and a paint liquid box, the top end of the upright post is provided with a top plate, the hydraulic cylinder is arranged on the top plate, the hydraulic cylinder is provided with a piston rod, the piston rod is provided with a connecting rod, the connecting plate is arranged on the connecting rod, the bottom of the connecting plate is provided with a fixed box, the bottom of the fixed box is provided with an air hole, a bearing and a fixed gear ring, the motor is arranged on the connecting plate, the motor is provided with a transmission shaft, the rotating gear is arranged on the transmission shaft after the transmission shaft penetrates out of the bearing, the planetary gear is arranged between the fixed gear ring and the rotating gear, the planetary gear is provided with a fixed screw cylinder, the bottom in the material cylinder is provided with a connecting cylinder, the connecting screw bolt is arranged in the connecting cylinder and is connected with the fixed screw cylinder, a motor stator and a rotor which need to be subjected to paint dipping treatment are poured into the material cylinder, the connecting stud and the fixed screw cylinder in the connecting cylinder at the bottom in the charging barrel, a hydraulic cylinder and a piston rod push the connecting plate to descend, a sealing block on the connecting plate presses a paint liquid box downwards to enable the top end of the paint liquid box to be inserted into a sealing groove, the charging barrel carries a motor stator and a motor rotor to enter paint liquid in the paint liquid box, the paint liquid enters the charging barrel through a leakage hole to dip the motor stator and the motor rotor in the charging barrel, the motor drives a transmission shaft and a rotating gear on the transmission shaft to rotate, the rotating gear drives a planetary gear to rotate in a fixed gear ring, a plurality of planetary gears can drive a plurality of charging barrels to rotate in the paint liquid box, and then dip the motor stator and the motor rotor in the plurality of charging barrels simultaneously, so that the dip efficiency of the motor stator and the motor rotor is improved, an air blower blows air flow into the fixed box through an air duct, the air flow is discharged downwards from the air vent, and when the top end of the fixed screw cylinder moves into a limiting groove right below the air vent, fixed barrel can communicate with the bleeder vent, the bleeder vent combustion gas flow enters into fixed barrel, along fixed barrel, connecting stud moves down, and enter into the feed cylinder from the exhaust duct on the connecting stud, blow motor stator rotor in the feed cylinder, avoid motor stator rotor gathering together and lead to the condition emergence that partial surface can not the immersion paint, after motor stator rotor immersion paint is accomplished, the air flow enters into the feed cylinder and blows and wipes away the motor stator rotor after the immersion paint, carry out drying process to motor stator rotor, improve motor stator rotor's immersion paint quality and drying quality.

Preferably, the top of the connecting plate is provided with an air blower, an air conveying pipe is arranged on the air blower, one end of the air conveying pipe extends into the fixed box, the air blower blows air flow into the fixed box through the air conveying pipe, the air flow enters the paint liquid box through the air holes, air pressure in the fixed box and the paint liquid box is enhanced, so that paint liquid in the paint liquid box enters the material cylinder to dip the motor stator and rotor, the paint dipping treatment of the motor stator and rotor under a high-pressure state is improved, the paint dipping efficiency and the paint dipping quality of the motor stator and rotor are improved, on the other hand, after the paint dipping of the motor stator and rotor is finished, the air flow enters the material cylinder to dry the dipped motor stator and rotor, the drying efficiency of the motor stator and rotor is improved, in order to improve the safety of the motor stator and rotor in the paint dipping process, a pressure gauge can be installed on the outer wall of the fixed box, and the pressure in the paint liquid box can be observed in real time, the paint dipping machine can improve the safety and is convenient for the paint dipping treatment of the motor stator and the motor rotor under the constant pressure state, thereby enhancing the paint dipping quality of the motor stator and the motor rotor.

Preferably, the connecting plate on the fixed bottom of the case portion be provided with sealed piece to be provided with the seal groove on sealed piece, the pneumatic cylinder, the piston rod promotes the connecting plate and descends, sealed piece on the connecting plate pushes down the lacquer liquid case, make the lacquer liquid case top insert in the seal groove, the leakproofness between fixed case and the lacquer liquid case has been improved through sealed piece, avoid the lacquer liquid to spill over from lacquer liquid case top by stirring the in-process, the waste of lacquer liquid has been reduced, on the other hand, seal the lacquer liquid case through sealed piece, be convenient for pressurize lacquer liquid incasement portion, strengthen the pressure in the lacquer liquid case, make motor stator and rotor carry out the dip coating under high pressure and handle, and then improve the dip coating efficiency and the dip coating quality of motor stator and rotor.

Preferably, the sealing groove inner wall on be provided with the sealing layer, further improve the leakproofness between lacquer liquid case and the sealing block through the sealing layer, be convenient for the inside quick pressure boost of lacquer liquid case, improve the dip coating efficiency of motor stator and rotor.

Preferably, the bottom of the fixed box is provided with a limit groove, the limit groove is communicated with the air vent, the top end of a fixed screw cylinder on the planetary gear extends into the limit groove, the motor drives the transmission shaft and a rotating gear on the transmission shaft to rotate, the rotating gear drives the planetary gear to rotate in the fixed gear ring, the top end of the fixed screw cylinder on the planetary gear rotates in the limit groove, the fixed screw cylinder in the moving process can be limited by the limit groove, the stability of the planetary gear in the rotating process is further improved, on the other hand, an air blower blows air flow into the fixed box through an air transmission pipe, the air flow is discharged downwards from the air vent, when the top end of the fixed screw cylinder moves into the limit groove under the air vent, the fixed screw cylinder can be communicated with the air vent, the discharged air flow enters the fixed screw cylinder and moves downwards along the fixed screw cylinder and the connecting stud, and enter into the feed cylinder from the exhaust duct on the connecting stud, blow the motor stator rotor in the feed cylinder, avoid motor stator rotor gathering together and lead to the condition that partial surface can not the dip coating to take place, after motor stator rotor dip coating is accomplished, the air current enters into the feed cylinder and blows and wipes the motor stator rotor after the dip coating, carries out drying process to motor stator rotor, improves the dip coating quality and the drying quality of motor stator rotor.

Preferably, the number of the planetary gears is 2-6, the motor drives the transmission shaft and the rotating gear on the transmission shaft to rotate, the rotating gear drives the planetary gear to rotate in the fixed gear ring, the plurality of planetary gears can drive the plurality of material cylinders to rotate in the paint liquid box, and then the motor stators and the motor rotors in the plurality of material cylinders are subjected to paint dipping treatment simultaneously, so that the paint dipping efficiency of the motor stators and the motor rotors is improved, in order to further improve the paint dipping efficiency and the paint dipping quality of the motor stators and the motor rotors, the motor can be a servo motor, the motor drives the transmission shaft and the rotating gear to rotate forward or reversely, and the planetary gear rotates forward or reversely in the fixed gear ring, so that the material cylinders are driven to rotate back and forth in the paint liquid box, paint liquid can enter the material cylinders through the leakage holes quickly, and the motor stators and the motor rotors in the material cylinders are subjected to full paint dipping treatment quickly.

Preferably, the charging barrel is set to be a structure which can be taken down from the fixed screw barrel through the connecting stud, the connecting stud is set to be a hollow structure, the connecting stud is provided with an air exhaust groove, the connecting stud and the fixed screw barrel are connected through threads, the connecting stud is convenient to mount or replace on the fixed screw barrel, the motor stator and rotor after being dipped in paint can be quickly taken down along with the charging barrel, the blanking speed is improved, an air blower blows air flow into the fixed box through an air delivery pipe, the air flow is discharged downwards from the air vent, when the top end of the fixed screw barrel moves into a limiting groove right below the air vent, the fixed screw barrel can be communicated with the air vent, the air flow discharged from the air vent enters the fixed screw barrel, moves downwards along the fixed screw barrel and the connecting stud and enters the charging barrel from the air exhaust groove on the connecting stud, the motor stator and rotor in the charging barrel is blown, and the situation that partial surface can not be dipped in paint due to the gathering of the motor stator and rotor is avoided, after the motor stator and rotor are subjected to paint dipping, the air flow enters the material barrel to blow and wipe the motor stator and rotor subjected to paint dipping, and the motor stator and rotor are subjected to drying treatment, so that the paint dipping quality and the drying quality of the motor stator and rotor are improved.

Preferably, the feed cylinder set up to the structure that can follow connecting stud and take off to all be provided with the small opening on feed cylinder lateral wall and bottom, at the motor stator-rotor paint dipping in-process, the feed cylinder is at the incasement rotation of lacquer liquid, be convenient for lacquer liquid through the small opening and advance out the feed cylinder fast, carry out abundant dip coating to the motor stator-rotor in the feed cylinder fast and handle, after motor stator-rotor paint dipping is accomplished, the lacquer liquid in the feed cylinder spills from the small opening fast, the air current enters into the lacquer liquid incasement and carries out drying process to the motor stator-rotor after the dip coating, can improve the drying efficiency of motor stator-rotor after the dip coating.

An operating method suitable for the motor stator and rotor paint dipping equipment according to the claim, characterized in that: the operation method comprises the following steps:

firstly, the method comprises the following steps: moving the motor stator and rotor paint dipping equipment to a proper position, and checking whether the circuit of the motor stator and rotor paint dipping equipment is normal and whether a hydraulic cylinder, a motor and a blower can work normally;

secondly, the method comprises the following steps: connecting the hydraulic cylinder, the motor and the blower with an external control system, and connecting the control system with a power supply;

thirdly, the method comprises the following steps: pouring a motor stator and a motor rotor which need to be subjected to paint dipping treatment into a charging barrel, and installing a connecting stud on the charging barrel in a fixed screw barrel;

fourthly: starting the hydraulic cylinder, pushing the connecting plate to descend by the hydraulic cylinder and the piston rod, pressing the paint liquid tank downwards by the sealing block on the connecting plate, inserting the top end of the paint liquid tank into the sealing groove, enabling the charging barrel to carry the motor stator and rotor to enter paint liquid in the paint liquid tank, enabling the paint liquid to enter the charging barrel through the leakage hole, and performing paint dipping treatment on the motor stator and rotor in the charging barrel;

fifth, the method comprises the following steps: starting a blower, blowing air flow into the fixed box through an air conveying pipe by the blower, enabling the air flow to enter the paint liquid box through the air holes, enhancing the air pressure in the fixed box and the paint liquid box, and enabling the paint liquid in the paint liquid box to enter the charging barrel to perform paint dipping treatment on the motor stator and the motor rotor;

sixth: after the motor stator and rotor is finished with paint dipping, the hydraulic cylinder and the piston rod lift the connecting plate, the charging barrel is lifted from the paint liquid box, the paint liquid in the charging barrel is quickly leaked from the leakage hole, the air flow enters the paint liquid box to dry the paint-dipped motor stator and rotor, the charging barrel is taken down after the paint liquid on the surface of the motor stator and rotor is dried, the paint-dipped motor stator and rotor is taken out, the hydraulic cylinder, the motor and the air blower are closed, impurities generated in the paint dipping process of the motor stator and rotor are cleaned, the purification equipment for umbilical cord mesenchymal stem cells is cleaned, and the power supply is cut off.

Has the beneficial effects that: the invention is provided with a limit groove at the bottom of the fixed box, the limit groove is communicated with the air vent, the top end of a fixed screw cylinder on a planetary gear extends into the limit groove, a motor drives a transmission shaft and a rotating gear on the transmission shaft to rotate, the rotating gear drives the planetary gear to rotate in a fixed gear ring, the top end of the fixed screw cylinder on the planetary gear rotates in the limit groove, the fixed screw cylinder in the moving process can be limited by the limit groove, and the stability of the planetary gear in the rotating process is further improved, on the other hand, an air blower blows air flow into the fixed box through an air duct, the air flow is discharged downwards from the air vent, when the top end of the fixed screw cylinder moves into the limit groove under the air vent, the fixed screw cylinder can be communicated with the air vent, the discharged air flow enters into the fixed screw cylinder, moves downwards along the fixed screw cylinder and a connecting stud, and enters into a material cylinder from a discharge groove on the connecting stud, the motor stator and rotor in the charging barrel are blown, the condition that partial surfaces cannot be subjected to paint dipping caused by gathering of the motor stator and rotor is avoided, after the paint dipping of the motor stator and rotor is completed, air flow enters the charging barrel to blow and wipe the painted motor stator and rotor, the motor stator and rotor are dried, and the paint dipping quality and the drying quality of the motor stator and rotor are improved.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a partial structural schematic view of the present invention, illustrating a connection structure of a connection plate and a fixed box.

Fig. 3 is a partial structural schematic view of the present invention, illustrating a connection structure of a fixing box and a stopper groove.

Fig. 4 is a partial structural view of the present invention, illustrating a connection structure of a rotary gear and a planetary gear.

FIG. 5 is a partial structural view of the present invention, illustrating the connection structure of the cartridge and the connection screw.

Fig. 6 is a schematic diagram of another embodiment of the present invention.

In the figure: 1. the automatic paint spraying machine comprises a base plate, a hydraulic cylinder, a connecting plate, a motor, a rotating gear, a planetary gear, a charging barrel, a bracket, a stand column, a paint liquid box, a piston rod, a connecting rod, a fixing box, a bearing, a sealing block, a gear ring, a limiting groove, an air hole, a sealing groove, a sealing layer, a blower, a wind conveying pipe, a transmission shaft, a fixing screw cylinder, a connecting cylinder, a leakage hole, a connecting stud, a wind discharging groove, a top plate, an air inlet hole, an air outlet hole, a wind outlet hole, a limiting ring and a connecting screw bolt, wherein the base plate, the hydraulic cylinder, the connecting plate, the motor, the rotating gear, the planetary gear, the charging barrel, the bracket, the upright column, the paint liquid box, the piston rod, the bearing, the sealing block, the sealing ring, the sealing layer, the air hole, the sealing layer, the air outlet hole, the air hole, the sealing layer, the connecting cylinder, the connecting pipe, the connecting cylinder, the connecting pipe, the connecting pipe, the connecting screw, the connecting pipe, the connecting bolt, the connecting pipe, the connecting bolt, the connecting bolt, the connecting pipe, the connecting pipe, the connecting bolt, the connecting pipe, the connecting bolt, the connecting pipe, the connecting bolt, the connecting.

Detailed Description

The invention will be described in more detail below with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in the attached figures 1-5, the motor stator and rotor paint dipping equipment comprises a bottom plate 1, a hydraulic cylinder 2, a connecting plate 3, a motor 4, a rotating gear 5, a planetary gear 6 and a charging barrel 7, and is characterized in that: the bottom plate 1 is arranged on a bracket 8, the bottom plate 1 is provided with a stand column 9 and a paint liquid box 10, the top end of the stand column 9 is provided with a top plate 29, the hydraulic cylinder 2 is arranged on the top plate 29, the hydraulic cylinder 2 is provided with a piston rod 11, the piston rod 11 is provided with a connecting rod 12, the connecting plate 3 is arranged on the connecting rod 12, the bottom of the connecting plate 3 is provided with a fixed box 13, the bottom of the fixed box 13 is provided with an air hole 18, a bearing 14 and a fixed gear ring 16, the motor 4 is arranged on the connecting plate 3, the motor 4 is provided with a transmission shaft 23, after the transmission shaft 23 penetrates out of the bearing 14, the rotating gear 5 is arranged on the transmission shaft 23, the planetary gear 6 is arranged between the fixed gear ring 16 and the rotating gear 5, the planetary gear 6 is provided with a fixed screw cylinder 24, the inner bottom of the material cylinder 7 is provided with a connecting cylinder 25, a connecting stud 27 is arranged in the connecting cylinder 25, the connecting stud 27 is connected with the fixed screw cylinder 24, a motor stator and rotor needing paint dipping treatment is poured into the material cylinder 7, the connecting stud 27 in the connecting cylinder 25 at the bottom in the material cylinder 7 and the fixed screw cylinder 24, the hydraulic cylinder 2 and the piston rod 11 push the connecting plate 3 to descend, a sealing block 15 on the connecting plate 3 presses the paint liquid tank 10 downwards, the top end of the paint liquid tank 10 is inserted into the sealing groove 19, the material cylinder 7 carries the motor stator and rotor to enter the paint liquid in the paint liquid tank 10, the paint liquid enters the material cylinder 7 through the leakage hole 26 to dip the motor stator and rotor in the material cylinder 7, the motor 4 drives the transmission shaft 23 and the rotating gear 5 on the transmission shaft 23 to rotate, the rotating gear 5 drives the planetary gear 6 to rotate in the fixed gear ring 16, the plurality of planetary gears 6 can drive the plurality of material cylinders 7 to rotate in the material cylinder 10, and further dip the motor stator and rotor in the plurality of material cylinders 7, the paint dipping efficiency of the stator and the rotor of the motor is improved, the blower 21 blows air flow into the fixed box 13 through the air transmission pipe 22, the air flow is discharged downwards from the air holes 18, when the top end of the fixed screw cylinder 24 moves into the limiting groove 17 right below the air vent 18, the fixed screw cylinder 24 can be communicated with the air vent 18, the air flow discharged by the air vent 18 enters the fixed screw cylinder 24, moves downwards along the fixed screw cylinder 24 and the connecting stud 27, enters the charging barrel 7 from the air discharge groove 28 on the connecting stud 27, the motor stator and the motor rotor in the charging barrel 7 are blown, the condition that partial surfaces can not be dipped with paint due to the gathering of the motor stator and the motor rotor is avoided, after the motor stator and rotor are finished being dipped in paint, the air flow enters the charging barrel 7 to blow and wipe the dipped motor stator and rotor, the motor stator and rotor are dried, and the paint dipping quality and the drying quality of the motor stator and rotor are improved.

Preferably, the top of the connecting plate 3 is provided with an air blower 21, the air blower 21 is provided with an air delivery pipe 22, one end of the air delivery pipe 22 extends into the fixed box 13, the air blower 21 blows air into the fixed box 13 through the air delivery pipe 22, the air flow enters the paint liquid box 10 through the air vents 18, air pressure in the fixed box 13 and the paint liquid box 10 is enhanced, paint liquid in the paint liquid box 10 enters the material cylinder 7 to dip paint the motor stator and rotor, the dip paint treatment of the motor stator and rotor under a high pressure state is improved, the dip paint efficiency and the dip paint quality of the motor stator and rotor are improved, on the other hand, after the dip paint of the motor stator and rotor is finished, the air flow enters the material cylinder 7 to dry the dipped motor stator and rotor, the drying efficiency of the motor stator and rotor is improved, in order to improve the safety of the motor stator and rotor in the dip paint process, a pressure gauge can be installed on the outer wall of the fixed box 13, the pressure in the paint liquid tank 10 can be observed in real time, the safety can be improved, and the paint dipping treatment of the motor stator and the motor rotor under the constant pressure state is facilitated, so that the paint dipping quality of the motor stator and the motor rotor is enhanced.

Preferably, the bottom of the fixed box 13 on the connecting plate 3 is provided with a sealing block 15, a sealing groove 19 is formed in the sealing block 15, the hydraulic cylinder 2 and the piston rod 11 push the connecting plate 3 to descend, the sealing block 15 on the connecting plate 3 presses the paint liquid box 10 downwards, the top end of the paint liquid box 10 is inserted into the sealing groove 19, the sealing performance between the fixed box 13 and the paint liquid box 10 is improved through the sealing block 15, the paint liquid is prevented from overflowing from the top of the paint liquid box 10 in the stirring process, the waste of the paint liquid is reduced, on the other hand, the paint liquid box 10 is sealed through the sealing block 15, the interior of the paint liquid box 10 is pressurized conveniently, the pressure in the paint liquid box 10 is enhanced, the motor stator and rotor are subjected to paint dipping treatment under high pressure, and the paint dipping efficiency and the paint dipping quality of the motor stator and rotor are improved.

Preferably, the sealing layer 20 is arranged on the inner wall of the sealing groove 19, the sealing performance between the paint liquid tank 10 and the sealing block 15 is further improved through the sealing layer 20, the interior of the paint liquid tank 10 is rapidly pressurized, and the paint dipping efficiency of the motor stator and rotor is improved.

Preferably, the bottom of the fixed box 13 is provided with a limit groove 17, the limit groove 17 is communicated with the air vent 18, the top end of a fixed screw cylinder 24 on the planetary gear 6 extends into the limit groove 17, the motor 4 drives the transmission shaft 23 and a rotary gear 5 on the transmission shaft 23 to rotate, the rotary gear 5 drives the planetary gear 6 to rotate in the fixed gear ring 16, the top end of the fixed screw cylinder 24 on the planetary gear 6 rotates in the limit groove 17, the fixed screw cylinder 24 in the moving process can be limited by the limit groove 17, the stability of the planetary gear 6 in the rotating process is further improved, on the other hand, the blower 21 blows air flow into the fixed box 13 through the air transmission pipe 22, the air flow is discharged downwards from the air vent 18, when the top end of the fixed screw cylinder 24 moves into the limit groove 17 under the air vent 18, the fixed screw cylinder 24 can be communicated with the air vent 18, the air flow discharged from the air vent 18 enters the fixed screw cylinder 24, the motor stator and rotor air flow blowing device moves downwards along the fixed screw cylinder 24 and the connecting screw stud 27, air enters the material cylinder 7 from the air exhaust grooves 28 in the connecting screw stud 27, the motor stator and rotor in the material cylinder 7 are blown, the situation that partial surfaces cannot be subjected to paint dipping due to the fact that the motor stator and rotor are gathered together is avoided, after paint dipping of the motor stator and rotor is completed, air flow enters the material cylinder 7 to blow and wipe the painted motor stator and rotor, drying treatment is conducted on the motor stator and rotor, and paint dipping quality and drying quality of the motor stator and rotor are improved.

Preferably, the number of the planetary gears 6 is 3, the motor 4 drives the transmission shaft 23 and the rotating gear 5 on the transmission shaft 23 to rotate, the rotating gear 5 drives the planetary gears 6 to rotate in the fixed gear ring 16, the plurality of the planetary gears 6 can drive the plurality of the charging barrels 7 to rotate in the paint liquid tank 10, further, the motor stators and rotors in the plurality of charging barrels 7 are dipped with paint at the same time, so that the paint dipping efficiency of the motor stators and rotors is improved, in order to further improve the paint dipping efficiency and the paint dipping quality of the motor stators and rotors, the motor 4 can adopt a servo motor 4, the motor 4 drives the transmission shaft 23 and the rotating gear 5 to rotate forward or reversely, the planetary gear 6 rotates forward or reversely in the fixed gear ring 16, thereby drive feed cylinder 7 and make a round trip to rotate in lacquer liquid case 10, make lacquer liquid can advance out feed cylinder 7 through small opening 26 fast, carry out abundant dip coating to the motor stator rotor in feed cylinder 7 fast and handle.

Preferably, the charging barrel 7 is set to be a structure which can be taken down from the fixed screw barrel 24 through the connecting stud 27, the connecting stud 27 is set to be a hollow structure, the connecting stud 27 is provided with the air exhaust groove 28, the connecting stud 27 is connected with the fixed screw barrel 24 through threads, the connecting stud 27 is convenient to mount or replace on the fixed screw barrel 24, the stator and rotor of the motor after being soaked with paint can be quickly taken down along with the charging barrel 7, the blanking speed is improved, the air blower 21 blows air flow into the fixed box 13 through the air duct 22, the air flow is exhausted downwards from the air vent 18, when the top end of the fixed screw barrel 24 moves to the limiting groove 17 right below the air vent 18, the fixed screw barrel 24 can be communicated with the air vent 18, the air flow exhausted from the air vent 18 enters the fixed screw barrel 24, moves downwards along the fixed screw barrel 24 and the connecting stud 27, and enters the charging barrel 7 from the air exhaust groove 28 on the connecting stud 27, the motor stator and rotor in the charging barrel 7 are blown, the condition that partial surfaces cannot be subjected to paint dipping due to the fact that the motor stator and rotor are gathered together is avoided, after the paint dipping of the motor stator and rotor is completed, air flow enters the charging barrel 7 to blow and wipe the motor stator and rotor after the paint dipping, the motor stator and rotor are subjected to drying treatment, and the paint dipping quality and the drying quality of the motor stator and rotor are improved.

Preferably, feed cylinder 7 set up to the structure that can follow connecting stud 27 and take off to all be provided with small opening 26 on feed cylinder 7 lateral wall and bottom, at motor stator and rotor dip coating in-process, feed cylinder 7 is at the rotation of lacquer liquid case 10, be convenient for lacquer liquid through small opening 26 and advance a feed cylinder 7 fast, carry out abundant dip coating to the motor stator and rotor in the feed cylinder 7 fast and handle, after motor stator and rotor dip coating is accomplished, the lacquer liquid in the feed cylinder 7 spills from small opening 26 fast, the air current enters into in the lacquer liquid case 10 and carries out drying process to the motor stator and rotor after the dip coating, can improve the drying efficiency of the motor stator and rotor after the dip coating.

An operating method suitable for the motor stator and rotor paint dipping equipment according to the claim, characterized in that: the operation method comprises the following steps:

firstly, the method comprises the following steps: moving the motor stator and rotor paint dipping equipment to a proper position, and checking whether the circuit of the motor stator and rotor paint dipping equipment is normal or not and whether the hydraulic cylinder 2, the motor 4 and the blower 21 can work normally or not;

secondly, the method comprises the following steps: connecting the hydraulic cylinder 2, the motor 4 and the blower 21 with an external control system, and connecting the control system with a power supply;

thirdly, the method comprises the following steps: pouring a motor stator and a motor rotor which need to be subjected to paint dipping treatment into the charging barrel 7, and installing a connecting stud 27 on the charging barrel 7 in the fixed screw barrel 24;

fourthly: starting the hydraulic cylinder 2, pushing the connecting plate 3 to descend by the hydraulic cylinder 2 and the piston rod 11, pressing the paint liquid tank 10 downwards by the sealing block 15 on the connecting plate 3, inserting the top end of the paint liquid tank 10 into the sealing groove 19, enabling the charging barrel 7 to carry the motor stator and rotor to enter the paint liquid in the paint liquid tank 10, enabling the paint liquid to enter the charging barrel 7 through the leakage hole 26, and performing paint dipping treatment on the motor stator and rotor in the charging barrel 7;

fifth, the method comprises the following steps: starting the blower 21, blowing air flow into the fixed box 13 through the air transmission pipe 22 by the blower 21, enabling the air flow to enter the paint liquid box 10 through the air holes 18, enhancing the air pressure in the fixed box 13 and the paint liquid box 10, and enabling the paint liquid in the paint liquid box 10 to enter the charging barrel 7 to dip the motor stator and rotor;

sixth: after the motor stator and rotor is finished with paint dipping, the hydraulic cylinder 2 and the connecting plate 3 are lifted by the piston rod 11, the charging barrel 7 is lifted from the paint liquid box 10, the paint liquid in the charging barrel 7 is quickly leaked from the leakage hole 26, the air flow enters the paint liquid box 10 to dry the dipped motor stator and rotor, the charging barrel 7 is taken down after the paint liquid on the surface of the motor stator and rotor is dried, the dipped motor stator and rotor is taken out, the hydraulic cylinder 2, the motor 4 and the air blower 21 are closed, impurities generated in the paint dipping process of the motor stator and rotor are cleaned, the purification equipment for umbilical cord mesenchymal stem cells is cleaned, and the power supply is cut off.

Example two:

as shown in the attached figure 6, the motor stator and rotor paint dipping equipment comprises a bottom plate 1, a hydraulic cylinder 2, a connecting plate 3, a motor 4, a rotating gear 5, a planetary gear 6 and a charging barrel 7, and is characterized in that: the bottom plate 1 is arranged on a bracket 8, the bottom plate 1 is provided with a stand column 9 and a paint liquid box 10, the top end of the stand column 9 is provided with a top plate 29, the hydraulic cylinder 2 is arranged on the top plate 29, the hydraulic cylinder 2 is provided with a piston rod 11, the piston rod 11 is provided with a connecting rod 12, the connecting plate 3 is arranged on the connecting rod 12, the bottom of the connecting plate 3 is provided with a fixed box 13, the bottom of the fixed box 13 is provided with an air hole 18, a bearing 14 and a fixed gear ring 16, the motor 4 is arranged on the connecting plate 3, the motor 4 is provided with a transmission shaft 23, after the transmission shaft 23 penetrates out of the bearing 14, the rotating gear 5 is arranged on the transmission shaft 23, the planetary gear 6 is arranged between the fixed gear ring 16 and the rotating gear 5, the planetary gear 6 is provided with a fixed screw cylinder 24, the inner bottom of the material cylinder 7 is provided with a connecting cylinder 25, a connecting stud 27 is arranged in the connecting cylinder 25, the connecting stud 27 is connected with the fixed screw cylinder 24, a motor stator and rotor needing paint dipping treatment is poured into the material cylinder 7, the connecting stud 27 in the connecting cylinder 25 at the bottom in the material cylinder 7 and the fixed screw cylinder 24, the hydraulic cylinder 2 and the piston rod 11 push the connecting plate 3 to descend, a sealing block 15 on the connecting plate 3 presses the paint liquid tank 10 downwards, the top end of the paint liquid tank 10 is inserted into the sealing groove 19, the material cylinder 7 carries the motor stator and rotor to enter the paint liquid in the paint liquid tank 10, the paint liquid enters the material cylinder 7 through the leakage hole 26 to dip the motor stator and rotor in the material cylinder 7, the motor 4 drives the transmission shaft 23 and the rotating gear 5 on the transmission shaft 23 to rotate, the rotating gear 5 drives the planetary gear 6 to rotate in the fixed gear ring 16, the plurality of planetary gears 6 can drive the plurality of material cylinders 7 to rotate in the material cylinder 10, and further dip the motor stator and rotor in the plurality of material cylinders 7, the paint dipping efficiency of the stator and the rotor of the motor is improved, the blower 21 blows air flow into the fixed box 13 through the air transmission pipe 22, the air flow is discharged downwards from the air holes 18, when the top end of the fixed screw cylinder 24 moves into the limiting groove 17 right below the air vent 18, the fixed screw cylinder 24 can be communicated with the air vent 18, the air flow discharged by the air vent 18 enters the fixed screw cylinder 24, moves downwards along the fixed screw cylinder 24 and the connecting stud 27 and enters the charging barrel 7 from the air discharge groove 28 on the connecting stud 27, the motor stator and the motor rotor in the charging barrel 7 are blown, the condition that partial surfaces can not be dipped with paint due to the gathering of the motor stator and the motor rotor is avoided, after the motor stator and rotor are finished being dipped in paint, the air flow enters the charging barrel 7 to blow and wipe the dipped motor stator and rotor, the motor stator and rotor are dried, and the paint dipping quality and the drying quality of the motor stator and rotor are improved.

Preferably, the top of the connecting plate 3 is provided with an air blower 21, the air blower 21 is provided with an air delivery pipe 22, one end of the air delivery pipe 22 extends into the fixed box 13, the air blower 21 blows air into the fixed box 13 through the air delivery pipe 22, the air flow enters the paint liquid box 10 through the air vents 18, air pressure in the fixed box 13 and the paint liquid box 10 is enhanced, paint liquid in the paint liquid box 10 enters the material cylinder 7 to dip paint the motor stator and rotor, the dip paint treatment of the motor stator and rotor under a high pressure state is improved, the dip paint efficiency and the dip paint quality of the motor stator and rotor are improved, on the other hand, after the dip paint of the motor stator and rotor is finished, the air flow enters the material cylinder 7 to dry the dipped motor stator and rotor, the drying efficiency of the motor stator and rotor is improved, in order to improve the safety of the motor stator and rotor in the dip paint process, a pressure gauge can be installed on the outer wall of the fixed box 13, the pressure in the paint liquid tank 10 can be observed in real time, the safety can be improved, and the paint dipping treatment of the motor stator and the motor rotor under the constant pressure state is facilitated, so that the paint dipping quality of the motor stator and the motor rotor is enhanced.

Preferably, the bottom of the fixed box 13 on the connecting plate 3 is provided with a sealing block 15, a sealing groove 19 is formed in the sealing block 15, the hydraulic cylinder 2 and the piston rod 11 push the connecting plate 3 to descend, the sealing block 15 on the connecting plate 3 presses the paint liquid box 10 downwards, the top end of the paint liquid box 10 is inserted into the sealing groove 19, the sealing performance between the fixed box 13 and the paint liquid box 10 is improved through the sealing block 15, the paint liquid is prevented from overflowing from the top of the paint liquid box 10 in the stirring process, the waste of the paint liquid is reduced, on the other hand, the paint liquid box 10 is sealed through the sealing block 15, the interior of the paint liquid box 10 is pressurized conveniently, the pressure in the paint liquid box 10 is enhanced, the motor stator and rotor are subjected to paint dipping treatment under high pressure, and the paint dipping efficiency and the paint dipping quality of the motor stator and rotor are improved.

Preferably, the sealing layer 20 is arranged on the inner wall of the sealing groove 19, the sealing performance between the paint liquid tank 10 and the sealing block 15 is further improved through the sealing layer 20, the interior of the paint liquid tank 10 is rapidly pressurized, and the paint dipping efficiency of the motor stator and rotor is improved.

Preferably, the bottom of the fixed box 13 is provided with a limit groove 17, the limit groove 17 is communicated with the air vent 18, the top end of a fixed screw cylinder 24 on the planetary gear 6 extends into the limit groove 17, the motor 4 drives the transmission shaft 23 and a rotary gear 5 on the transmission shaft 23 to rotate, the rotary gear 5 drives the planetary gear 6 to rotate in the fixed gear ring 16, the top end of the fixed screw cylinder 24 on the planetary gear 6 rotates in the limit groove 17, the fixed screw cylinder 24 in the moving process can be limited by the limit groove 17, the stability of the planetary gear 6 in the rotating process is further improved, on the other hand, the blower 21 blows air flow into the fixed box 13 through the air transmission pipe 22, the air flow is discharged downwards from the air vent 18, when the top end of the fixed screw cylinder 24 moves into the limit groove 17 under the air vent 18, the fixed screw cylinder 24 can be communicated with the air vent 18, the air flow discharged from the air vent 18 enters the fixed screw cylinder 24, move down along fixed screw barrel 24, connecting stud 27 to in entering into feed cylinder 7 from exhaust duct 28 on connecting stud 27, blow the motor stator rotor in feed cylinder 7, avoid motor stator rotor to gather together and lead to the condition emergence that partial surface can not the dip coating, after motor stator rotor dip coating is accomplished, the air current enters into and blows and wipes away the motor stator rotor after the dip coating in feed cylinder 7, carry out drying process to motor stator rotor, improve motor stator rotor's dip coating quality and drying quality.

Preferably, the number of the planetary gears 6 is 4, the motor 4 drives the transmission shaft 23 and the rotating gear 5 on the transmission shaft 23 to rotate, the rotating gear 5 drives the planetary gears 6 to rotate in the fixed gear ring 16, the plurality of the planetary gears 6 can drive the plurality of the charging barrels 7 to rotate in the paint liquid tank 10, further, the motor stators and rotors in the plurality of charging barrels 7 are dipped with paint at the same time, so that the paint dipping efficiency of the motor stators and rotors is improved, in order to further improve the paint dipping efficiency and the paint dipping quality of the motor stators and rotors, the motor 4 can be a servo motor 4, the motor 4 drives the transmission shaft 23 and the rotating gear 5 to rotate forward or reversely, the planetary gear 6 rotates forward or reversely in the fixed gear ring 16, thereby drive feed cylinder 7 and make a round trip to rotate in lacquer liquid case 10, make lacquer liquid can advance out feed cylinder 7 through small opening 26 fast, carry out abundant dip coating to the motor stator rotor in feed cylinder 7 fast and handle.

Preferably, the charging barrel 7 is set to be a structure which can be taken down from the fixed screw barrel 24 through the connecting stud 27, the connecting stud 27 is set to be a hollow structure, the connecting stud 27 is provided with the air exhaust groove 28, the connecting stud 27 is connected with the fixed screw barrel 24 through threads, the connecting stud 27 is convenient to mount or replace on the fixed screw barrel 24, the stator and rotor of the motor after being soaked with paint can be quickly taken down along with the charging barrel 7, the blanking speed is improved, the air blower 21 blows air flow into the fixed box 13 through the air duct 22, the air flow is exhausted downwards from the air vent 18, when the top end of the fixed screw barrel 24 moves to the limiting groove 17 right below the air vent 18, the fixed screw barrel 24 can be communicated with the air vent 18, the air flow exhausted from the air vent 18 enters the fixed screw barrel 24, moves downwards along the fixed screw barrel 24 and the connecting stud 27, and enters the charging barrel 7 from the air exhaust groove 28 on the connecting stud 27, the motor stator and rotor in the charging barrel 7 are blown, the condition that partial surfaces cannot be subjected to paint dipping due to the fact that the motor stator and rotor are gathered together is avoided, after the paint dipping of the motor stator and rotor is completed, air flow enters the charging barrel 7 to blow and wipe the motor stator and rotor after the paint dipping, the motor stator and rotor are subjected to drying treatment, and the paint dipping quality and the drying quality of the motor stator and rotor are improved.

Preferably, feed cylinder 7 set up to the structure that can take off from connecting stud 27 to all be provided with the small opening 26 on feed cylinder 7 lateral wall and bottom, at the motor stator and rotor paint dipping in-process, feed cylinder 7 is at the rotation of lacquer liquid case 10, be convenient for lacquer liquid through small opening 26 and advance out feed cylinder 7 fast, carry out abundant dip coating to the motor stator and rotor in the feed cylinder 7 fast and handle, after motor stator and rotor paint dipping is accomplished, the lacquer liquid in the feed cylinder 7 spills from small opening 26 fast, the air current enters into in the lacquer liquid case 10 and carries out drying process to the motor stator and rotor after the dip coating, can improve the drying efficiency of the motor stator and rotor after the dip coating.

Preferably, the transmission shaft 23 passes through the driving gear, the transmission shaft 23 is set to be a hollow structure, an air inlet hole 30 is formed in the transmission shaft 23 in the fixed box 13, an air outlet hole 31 is formed in the outer wall of the bottom of the transmission shaft 23, air flow in the fixed box 13 enters the hollow transmission shaft 23 through the air inlet hole 30 and is discharged into paint liquid in the paint liquid box 10 through the air outlet hole 31, the paint liquid is blown to tumble, the paint liquid is prevented from precipitating, the uniformity of the paint liquid is improved, and therefore the paint dipping quality of the stator and the rotor of the motor is improved.

Preferably, connecting plate 3 on be provided with spacing ring 32, and vertically pass spacing ring 32 with stand 9, connecting plate 3 is at pneumatic cylinder 2, vertical movement under the effect of piston rod 11, spacing ring 32 is along stand 9 vertical movement, play limiting displacement to connecting plate 3 that reciprocates the in-process, make seal block 15 can accurate card post lacquer liquid case 10 top, improve the leakproofness between seal block 15 and the lacquer liquid case 10, can avoid lacquer liquid to be stirred the in-process and spill over from lacquer liquid case 10 top, the waste of lacquer liquid has been reduced, be convenient for again pressurize lacquer liquid case 10 inside, strengthen the pressure in the lacquer liquid case 10, make motor stator and rotor carry out the dip coating under the high pressure and handle, and then improve the dip coating efficiency and the dip coating quality of motor stator and rotor.

An operating method suitable for the motor stator and rotor paint dipping equipment according to the claim, characterized in that: the operation method comprises the following steps:

firstly, the method comprises the following steps: moving the motor stator and rotor paint dipping equipment to a proper position, and checking whether the circuit of the motor stator and rotor paint dipping equipment is normal or not and whether the hydraulic cylinder 2, the motor 4 and the blower 21 can work normally or not;

secondly, the method comprises the following steps: connecting the hydraulic cylinder 2, the motor 4 and the blower 21 with an external control system, and connecting the control system with a power supply;

thirdly, the method comprises the following steps: pouring a motor stator and a motor rotor which need to be subjected to paint dipping treatment into the charging barrel 7, and installing a connecting stud 27 on the charging barrel 7 in the fixed screw barrel 24;

fourthly: starting the hydraulic cylinder 2, pushing the connecting plate 3 to descend by the hydraulic cylinder 2 and the piston rod 11, pressing the paint liquid tank 10 downwards by the sealing block 15 on the connecting plate 3, inserting the top end of the paint liquid tank 10 into the sealing groove 19, enabling the charging barrel 7 to carry the motor stator and rotor to enter the paint liquid in the paint liquid tank 10, enabling the paint liquid to enter the charging barrel 7 through the leakage hole 26, and performing paint dipping treatment on the motor stator and rotor in the charging barrel 7;

fifth, the method comprises the following steps: starting the blower 21, blowing air flow into the fixed box 13 through the air transmission pipe 22 by the blower 21, enabling the air flow to enter the paint liquid box 10 through the air holes 18, enhancing the air pressure in the fixed box 13 and the paint liquid box 10, and enabling the paint liquid in the paint liquid box 10 to enter the charging barrel 7 to dip the motor stator and rotor;

sixth: after the motor stator and rotor is finished with paint dipping, the hydraulic cylinder 2 and the connecting plate 3 are lifted by the piston rod 11, the charging barrel 7 is lifted from the paint liquid box 10, the paint liquid in the charging barrel 7 is quickly leaked from the leakage hole 26, the air flow enters the paint liquid box 10 to dry the dipped motor stator and rotor, the charging barrel 7 is taken down after the paint liquid on the surface of the motor stator and rotor is dried, the dipped motor stator and rotor is taken out, the hydraulic cylinder 2, the motor 4 and the air blower 21 are closed, impurities generated in the paint dipping process of the motor stator and rotor are cleaned, the purification equipment for umbilical cord mesenchymal stem cells is cleaned, and the power supply is cut off.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The parts not involved in the present invention are the same as or can be implemented using the prior art.

Claims (9)

1. The utility model provides a motor stator and rotor dip coating equipment, includes bottom plate, pneumatic cylinder, connecting plate, motor, rotating gear, planetary gear and feed cylinder, its characterized in that: the bottom plate setting on the support, be provided with stand, lacquer liquid case on the bottom plate to be provided with the roof on the stand top, the pneumatic cylinder setting on the roof, be provided with the piston rod on the pneumatic cylinder to be provided with the connecting rod on the piston rod, the connecting plate setting on the connecting rod, be provided with fixed case bottom the connecting plate to be provided with bleeder vent, bearing, fixed ring gear in fixed bottom of the case portion, the motor setting on the connecting plate, be provided with the transmission shaft on the motor to wear out the transmission shaft from the bearing after, swing gear set up on the transmission shaft, planetary gear set up between fixed ring gear and swing gear to be provided with fixed barrel on planetary gear, the feed cylinder in the bottom be provided with the connecting cylinder, be provided with connecting stud in the connecting cylinder to be connected connecting stud and fixed barrel.

2. The motor stator and rotor paint dipping apparatus according to claim 1, wherein: the top of the connecting plate is provided with an air blower, an air delivery pipe is arranged on the air blower, and one end of the air delivery pipe extends into the fixed box.

3. The motor stator-rotor paint dipping apparatus according to claim 1 or 2, wherein: the bottom of the fixed box on the connecting plate is provided with a sealing block, and a sealing groove is formed in the sealing block.

4. The motor stator and rotor paint dipping apparatus according to claim 3 wherein: and a sealing layer is arranged on the inner wall of the sealing groove.

5. An electric machine stator-rotor paint dipping apparatus according to claim 1 or 3 wherein: the bottom of the fixed box is provided with a limit groove, the limit groove is communicated with the air holes, and the top end of a fixed screw cylinder on the planetary gear extends into the limit groove.

6. The electric machine stator-rotor paint dipping apparatus according to claim 1 or 5, wherein: the number of the planetary gears is 2-6.

7. The motor stator and rotor paint dipping apparatus according to claim 1, wherein: the charging barrel is of a structure which can be taken down from the fixed screw barrel through the connecting stud, the connecting stud is of a hollow structure, and the connecting stud is provided with an exhaust groove.

8. The electric machine stator-rotor paint dipping apparatus according to claim 1 or 7, wherein: the charging barrel is of a structure which can be taken down from the connecting stud, and the side wall and the bottom of the charging barrel are provided with leakage holes.

9. A method of operating an electric machine stator-rotor paint dipping apparatus according to any one of claims 1 to 8, characterized in that: the operation method comprises the following steps:

firstly, the method comprises the following steps: moving the motor stator and rotor paint dipping equipment to a proper position, and checking whether the circuit of the motor stator and rotor paint dipping equipment is normal and whether a hydraulic cylinder, a motor and a blower can work normally;

secondly, the method comprises the following steps: connecting the hydraulic cylinder, the motor and the blower with an external control system, and connecting the control system with a power supply;

thirdly, the method comprises the following steps: pouring a motor stator and a motor rotor which need to be subjected to paint dipping treatment into a charging barrel, and installing a connecting stud on the charging barrel in a fixed screw barrel;

fourthly: starting the hydraulic cylinder, pushing the connecting plate to descend by the hydraulic cylinder and the piston rod, pressing the paint liquid tank downwards by the sealing block on the connecting plate, inserting the top end of the paint liquid tank into the sealing groove, enabling the charging barrel to carry the motor stator and rotor to enter paint liquid in the paint liquid tank, enabling the paint liquid to enter the charging barrel through the leakage hole, and performing paint dipping treatment on the motor stator and rotor in the charging barrel;

fifth: starting a blower, blowing air flow into the fixed box through an air conveying pipe by the blower, enabling the air flow to enter the paint liquid box through the air holes, enhancing the air pressure in the fixed box and the paint liquid box, and enabling the paint liquid in the paint liquid box to enter the charging barrel to perform paint dipping treatment on the motor stator and the motor rotor;

sixth: after the motor stator and rotor is finished with paint dipping, the hydraulic cylinder and the piston rod lift the connecting plate, the charging barrel is lifted from the paint liquid box, the paint liquid in the charging barrel is quickly leaked from the leakage hole, the air flow enters the paint liquid box to dry the paint-dipped motor stator and rotor, the charging barrel is taken down after the paint liquid on the surface of the motor stator and rotor is dried, the paint-dipped motor stator and rotor is taken out, the hydraulic cylinder, the motor and the air blower are closed, impurities generated in the paint dipping process of the motor stator and rotor are cleaned, the purification equipment for umbilical cord mesenchymal stem cells is cleaned, and the power supply is cut off.

Images