CN219581238U - Four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device - Google Patents

Abstract

The utility model discloses a four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device, wherein a cleaning module comprises a cleaning water tank and an ultrasonic vibrator, and the ultrasonic vibrator faces the cleaning water tank; the conveying module comprises a sinking conveying guide rail and a lifting transmission mechanism, wherein the sinking conveying guide rail extends from the upper opening of one side of the cleaning water tank to the bottom of the cleaning water tank; the lifting transmission mechanism comprises a transmission chain and a lifting conveying part, the lifting conveying part is connected with the transmission chain, and the transmission chain extends from the bottom of the cleaning water tank to the upper opening edge of the other side of the cleaning water tank; the first end of the sinking conveying guide rail, which is positioned at the bottom of the cleaning water tank, is matched with the first end of the transmission chain, which is positioned at the bottom of the cleaning water tank. The four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device solves the problems that an existing cleaning device is low in automation degree, manual intervention is needed for feeding and discharging, and therefore cleaning efficiency is low.

Description

Four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device

Technical Field

The utility model relates to the field of motor part cleaning, in particular to a four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device.

Background

An electric machine is made up of two parts, a rotor and a stator, and the rotor is often referred to as a rotating component in an electric machine. Rotors are an important component of an electric machine and are generally classified into motor rotors and generator rotors. In the actual production and processing process, the rotor is usually required to be cleaned before being assembled, so that the required cleanliness is achieved, friction between the rotor and other parts can be reduced after the rotor is assembled, and the service life can be prolonged.

The patent application number 202110513871.3 of motor stator and rotor ultrasonic cleaner liquid surface cleaning device discloses a cleaning device for cleaning the rotor, including cleaning tank and ultrasonic assembly, but this cleaning device material loading and unloading all need manual operation, need put into the cleaning tank with the rotor promptly, need take out the rotor from the cleaning tank after the washing finishes. Thus, the degree of automation is low, manual intervention is required, and the cleaning efficiency is low.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides a four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device for solving the problems.

The technical scheme adopted for solving the technical problems is as follows: the four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device comprises a cleaning module, a rinsing and rust-preventing module, a feeding level, a discharging level and two conveying modules, wherein the cleaning module, the rinsing and rust-preventing module, the feeding level, the discharging level and the two conveying modules are arranged on a rack; the conveying module sequentially passes through the feeding level, the cleaning module, the rinsing rust-proof module and the discharging level;

the cleaning module comprises a cleaning water tank and an ultrasonic vibrator, and the ultrasonic vibrator faces the cleaning water tank;

the conveying module comprises a sinking conveying guide rail and a lifting transmission mechanism, wherein the sinking conveying guide rail extends from the upper opening of one side of the cleaning water tank to the direction of the bottom of the cleaning water tank;

the lifting transmission mechanism comprises a transmission chain and a lifting conveying part, the lifting conveying part is connected with the transmission chain, the lifting conveying part protrudes outwards relative to the transmission chain, and the transmission chain extends from the bottom of the cleaning water tank to the upper opening edge of the other side of the cleaning water tank;

the first end of the sinking conveying guide rail, which is positioned at the bottom of the cleaning water tank, is matched with the first end of the transmission chain, which is positioned at the bottom of the cleaning water tank;

the rinsing rust-proof module is used for rinsing the rotor cleaned by the cleaning module and coating a rust-proof film.

It is worth to say that each lifting transmission mechanism comprises two transmission chains, the two transmission chains of the same lifting transmission mechanism are arranged in parallel, and one end of the sinking conveying guide rail is arranged between the two transmission chains of the corresponding conveying module; in the two conveying modules, two transmission chains positioned in the middle of the cleaning module are fixed, and the two transmission chains close to the two sides of the cleaning module are movable, so that the width between the two transmission chains of the same lifting transmission mechanism is adjusted through the transmission action of the bevel gear, the screw rod seat and the screw rod.

The lifting transmission mechanism further comprises a driving shaft, a first sprocket, a second sprocket, a bearing seat, a screw rod seat and a screw rod, wherein the driving shaft is in rotary connection with the frame, the first sprocket, the second sprocket and the bearing are all sleeved on the shaft surface of the driving shaft, the first sprocket slides in the axial direction of the driving shaft, one transmission chain is meshed with the first sprocket in the same lifting transmission mechanism, the other transmission chain is meshed with the second sprocket, the bearing is connected with the first sprocket and synchronously rotates with the transmission chain, the bearing is arranged in the bearing seat, the bearing seat is connected with the screw rod seat, the screw rod is parallel to the driving shaft, the screw rod penetrates through the screw rod seat and is in threaded connection with the screw rod seat, and one end of the screw rod, which is far away from the screw rod seat, is provided with a bevel gear.

Preferably, the lifting conveying member comprises an L-shaped connecting plate and an L-shaped hanging plate, a first end of the L-shaped connecting plate is connected with the transmission chain, a second end of the L-shaped connecting plate is connected with the first end of the L-shaped hanging plate, and the second end of the L-shaped hanging plate protrudes outwards relative to the transmission chain.

Optionally, a hanging concave portion is formed at the second end of the L-shaped hanging plate.

Specifically, the rinsing rust-proof module comprises a rinsing rust-proof groove and ultrasonic vibrators, wherein a plurality of ultrasonic vibrators are arranged on the lower surface of the rinsing rust-proof groove, and the sinking conveying guide rail and the lifting transmission mechanism are alternately distributed from the feeding position to the discharging position;

a sinking conveying guide rail close to the feeding level extends from the upper opening of one side of the cleaning water tank to the tank bottom of the cleaning water tank, and a transmission chain of a lifting transmission mechanism close to the feeding level extends from the tank bottom of the cleaning water tank to the upper opening of the other side of the cleaning water tank; the upper opening edge of the other side of the cleaning water tank is connected with the upper opening edge of one side of the rinsing rust-proof tank and is positioned at the same horizontal height;

a sinking conveying guide rail close to the discharging position extends from the upper opening of one side of the rinsing and rust-preventing groove to the groove bottom of the rinsing and rust-preventing groove, and a transmission chain of a lifting transmission mechanism close to the discharging position extends from the groove bottom of the rinsing and rust-preventing groove to the upper opening of the other side of the rinsing and rust-preventing groove;

the sinking conveying guide rail is matched with a transmission chain adjacent to the sinking conveying guide rail.

The four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device comprises a drying module, wherein the drying module is arranged between the rinsing rust-preventing module and the dilute gold water coating module;

the drying module comprises a heating mechanism and a drying conveying guide rail, the heating mechanism comprises a heating pipe and fins, the fins are sleeved on the outer wall of the heating pipe, the heating pipe is arranged above the drying conveying guide rail, and the first end of the drying conveying guide rail is matched with the second end of the transmission chain, which is far away from the bottom of the cleaning water tank.

Preferably, the drying module further comprises an air pipe, and an air outlet of the air pipe faces the drying conveying guide rail.

Specifically, the four-chain two-station motor rotor cleaning, drying and rust preventing integrated device further comprises a thin gold water smearing roller module, wherein the thin gold water smearing roller module is arranged between the drying module and the discharging position and is used for smearing thin gold water on the surface of the rotor.

The four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device further comprises an ultrasonic generator, and all ultrasonic vibrators are electrically connected with the same ultrasonic generator.

The utility model has the beneficial effects that: in the four-chain two-station motor rotor cleaning, drying and rust preventing integrated device, a rotor is placed at the feeding position, the rotor can enter the cleaning water tank along the sinking conveying guide rail, and the ultrasonic vibrator is used for carrying out ultrasonic cleaning on the rotor positioned in the cleaning water tank, so that rough cleaning is realized. After cleaning, the rotor enters the first end of the transmission chain from the first end of the sinking conveying guide rail and is hung at the position of the lifting conveying piece, which protrudes outwards relative to the transmission chain, so that the rotor can move upwards along with the transmission chain, and accordingly, the rotor is output from the upper opening edge of the other side of the cleaning water tank, and is further rinsed through the rinsing rust-proof module, coated with a rust-proof film and conveyed to a discharging position for discharging. Therefore, in the whole cleaning process, manual intervention is not needed, the degree of automation is improved, and the cleaning efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of a four-chain two-station motor rotor cleaning, drying and rust preventing integrated device in an embodiment of the utility model;

FIG. 2 is a cross-sectional view of a four-chain two-station motor rotor cleaning, drying and rust prevention integrated device in one embodiment of the utility model;

FIG. 3 is a schematic diagram of a transport module according to an embodiment of the utility model;

FIG. 4 is a schematic diagram of a lifting transmission mechanism according to an embodiment of the present utility model;

FIG. 5 is an enlarged schematic view of the dashed circle A of FIG. 4;

fig. 6 is a schematic structural view of a drying module according to an embodiment of the present utility model;

FIG. 7 is a schematic view of a drive chain according to an embodiment of the present utility model;

FIG. 8 is a schematic view of a driving chain according to another embodiment of the present utility model;

in the figure: 1, cleaning a module; 11, cleaning a water tank; 12 ultrasonic vibrators; 2, feeding the material level; 3, discharging the material; 4, a conveying module; 41 sinking the conveying guide rail; 42 lifting the transmission mechanism; 421 drive chains; 422 lifting the transport; 423L-shaped connecting plates; 424L-shaped hanging plate; 425 hang the concave part; 5, a drying module; 51 a heating mechanism; 511 a heating tube; 512 fins; 52 drying the conveying guide rail; 53 wind pipes; 6, rinsing the rust-proof module; 61 rinsing the rust-proof tank; 71 a drive shaft; 72 a first sprocket; 73 a second sprocket; a 74 bearing; 75 bearing seats; 76 screw rod seats; 77 screw rods; 78 bevel gears; 79 hand wheels; 8, a rotor; 9, a dilute gold water smearing roller module; 10 frames.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings. The description of these embodiments is provided to assist understanding of the present utility model, but is not intended to limit the present utility model. In addition, the technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

As shown in fig. 1-8, a four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device comprises a cleaning module 1, a rinsing and rust-preventing module 6, a feeding level 2, a discharging level 3 and two conveying modules 4 which are arranged on a frame 10; the conveying module 4 sequentially passes through the feeding level 2, the cleaning module 1, the rinsing rust-proof module 6 and the discharging level 3; specifically, as shown in fig. 1 and 2, the feeding level 2 is located at the front side of the four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device, and the discharging level 3 is located at the rear side of the four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device;

the cleaning module 1 comprises a cleaning water tank 11 and an ultrasonic vibrator 12, wherein the ultrasonic vibrator 12 faces the cleaning water tank 11; specifically, the plurality of ultrasonic vibrators 12 are provided on the lower surface of the cleaning water tank and are attached to the outer wall of the lower surface of the cleaning water tank, so that the effect of ultrasonic cleaning can be improved;

the conveying module 4 comprises a sinking conveying guide rail 41 and a lifting transmission mechanism 42, wherein the sinking conveying guide rail 41 extends from an upper opening of one side of the cleaning water tank 11 along the direction towards the bottom of the cleaning water tank 11; the lifting transmission mechanism 42 comprises a transmission chain 421 and a lifting conveying member 422, the lifting conveying member 422 is connected with the transmission chain 421, the lifting conveying member 422 protrudes outwards relative to the transmission chain 421, and the transmission chain 421 extends from the bottom of the cleaning water tank 11 to the upper opening edge of the other side of the cleaning water tank 11; one side of the cleaning water tank 11 is close to the feeding level 2, and the other side of the cleaning water tank 11 is close to the discharging level 3; the first end of the sinking conveying rail 41 positioned at the bottom of the cleaning water tank 11 is matched with the first end of the transmission chain 421 positioned at the bottom of the cleaning water tank 11;

the rinsing rust-proof module 6 is used for rinsing and coating a rust-proof film on the rotor 8 which is cleaned by the cleaning module 1.

Before use, the water and the cleaning agent are heated to a specified temperature in the water tank and then injected into the cleaning tank. In the four-chain two-station motor rotor cleaning, drying and rust preventing integrated device, a rotor 8 is placed at the feeding position 2, the rotor 8 can enter the cleaning water tank 11 along the sinking conveying guide rail 41, and the ultrasonic vibrator 12 performs ultrasonic cleaning on the rotor 8 positioned in the cleaning water tank 11, so that rough cleaning is realized. After cleaning, the rotor 8 enters the first end of the sinking conveying rail 41 from the first end of the driving chain 421 and is hung at the position of the lifting conveying member 422 protruding outwards relative to the driving chain 421, so as to move upwards along the driving chain 421, and then output from the upper edge of the other side of the cleaning water tank 11, and the cleaning water tank is further rinsed by the rinsing anti-rust module 6, coated with an anti-rust film and conveyed to the drying module. Therefore, in the whole cleaning process, manual intervention is not needed, the degree of automation is improved, and the cleaning efficiency is improved. The plurality of conveying modules 4 can simultaneously convey to improve the cleaning efficiency, realize multi-station work and further improve the cleaning efficiency. As shown in fig. 1 and 3, in this embodiment, the cleaning, drying and rust-preventing integrated device for a four-chain two-station motor rotor includes two conveying modules 4.

It should be noted that, as shown in fig. 3 and 4, each lifting transmission mechanism 42 includes two transmission chains 421, the two transmission chains 421 of the same lifting transmission mechanism 42 are disposed in parallel, and one end of the sinking conveying rail 41 is disposed between the two transmission chains 421 of the corresponding conveying module 4; in the two conveying modules 4, two transmission chains 421 located in the middle of the cleaning module 1 are fixed, and the two transmission chains 421 located near the two sides of the cleaning module 1 are movable, so that the width between the two transmission chains 421 of the same lifting transmission mechanism 42 is adjusted through the transmission actions of the bevel gear 78, the screw seat 76 and the screw 77.

In this embodiment, all the transmission chains 421 are arranged in parallel, so that two conveyor modules 4, i.e. two stations, are cleaned simultaneously. Two transmission chains 421 are provided, and the two ends of the rotor 8 can be hung by lifting conveying members 422 corresponding to the two transmission chains 421. When the rotor 8 is conveyed along the sinking conveying rail 41 to the first end of the sinking conveying rail 41, which is positioned at the bottom of the cleaning water tank 11, the rotor 8 can be clamped on the lifting conveying member 422 arranged on the transmission chain 421 due to the fact that the movement direction of the transmission chain 421 is staggered with the conveying direction of the sinking conveying rail 41, so that the rotor 8 can be lifted along with the movement of the transmission chain 421, and can be sent out of the cleaning water tank 11 and move towards the direction of the downward material level 3.

As shown in fig. 7 and 8, the lifting transmission mechanism 42 further includes a driving shaft 71, a first sprocket 72, a second sprocket 73, a bearing 74, a bearing seat 75, a screw rod seat 76 and a screw rod 77, the driving shaft 71 is rotatably connected with the frame 10, the first sprocket 72, the second sprocket 73 and the bearing 74 are all sleeved on the shaft surface of the driving shaft 71, the first sprocket 72 slides in the axial direction of the driving shaft 71, one of the transmission chains 421 is meshed with the first sprocket 72, the other transmission chain 421 is meshed with the second sprocket 73, the bearing 74 is connected with the first sprocket 72 and rotates synchronously with the transmission chain 421, the bearing 74 is disposed in the bearing seat 75, the bearing seat 75 is connected with the screw rod seat 76, the screw rod 77 is parallel to the driving shaft 71, the screw rod 77 passes through the screw rod seat 76 and is in threaded connection with the screw rod seat 76, and one end of the screw rod 77, which is far from the screw rod seat 76, is provided with the bevel gear 78. The rotation of the driving shaft 71 drives the first sprocket 72 and the second sprocket 73 to rotate synchronously, so as to drive the driving chain 421 of the corresponding lifting driving mechanism 42 to act. When the screw rod 77 is rotated, the screw rod 77 rotates in the screw rod seat 76 and is in threaded connection with the screw rod seat 76, so that the screw rod seat 76 is driven to move along the axial direction of the driving shaft 71, and the bearing 74 and the bearing seat 75 are driven to move in the same direction, and the first sprocket 72 and the corresponding transmission chain 421 are driven to move in the same direction, so that the width between the transmission chain 421 and the transmission chain 421 meshed with the second sprocket 73 can be adjusted. The two drive chains 421 of the two lifting drive mechanisms 42 can each be individually adjustable in width so as to accommodate simultaneous cleaning of rotors 8 of different diameters. The two lift transmission mechanisms 42 can be simultaneously driven to synchronously rotate four transmission chains 421 in total by one drive shaft 71. Specifically, one end of the screw rod 77 is fixedly connected with a bevel gear 78, and the bevel gear 78 is connected with a hand wheel 79 through a plurality of gear sets and connecting rods, so that the bevel gear 78 can be driven to rotate by rotating the hand wheel 79, and the screw rod 77 is driven to rotate.

Preferably, as shown in fig. 5, the lifting and conveying member 422 includes an L-shaped connection plate 423 and an L-shaped hanging plate 424, a first end of the L-shaped connection plate 423 is connected to the driving chain 421, a second end of the L-shaped connection plate 423 is connected to the first end of the L-shaped hanging plate 424, and a second end of the L-shaped hanging plate 424 protrudes outwards with respect to the driving chain 421. Specifically, the first end of the L-shaped connecting plate 423 is parallel to the second end of the L-shaped hanging plate 424, and the second end of the L-shaped connecting plate 423 is parallel to the first end of the L-shaped hanging plate 424, so that the L-shaped hanging plate 424 can be fixed on the transmission chain 421 through the L-shaped connecting plate 423, so as to follow the motion of the transmission chain 421.

Optionally, a hanging recess 425 is formed at the second end of the L-shaped hanging plate 424. The hanging recess 425 is provided to hang the rotor 8 when the L-shaped hanging plate 424 is lifted up, so that the rotor 8 does not fall.

Specifically, the rinsing rust-proof module 6 comprises a rinsing rust-proof tank 61 and ultrasonic vibrators 12, wherein a plurality of ultrasonic vibrators 12 are arranged on the lower surface of the rinsing rust-proof tank 61, and the sinking conveying guide rail 41 and the lifting transmission mechanism 42 are alternately distributed from the feeding level 2 to the discharging level 3;

a sinking conveying rail 41 near the feeding level 2 extends from an upper opening of one side of the cleaning water tank 11 in a direction toward a bottom of the cleaning water tank 11, and a transmission chain 421 near a lifting transmission mechanism 42 of the feeding level 2 extends from the bottom of the cleaning water tank 11 in a direction toward an upper opening of the other side of the cleaning water tank 11; the upper edge of the other side of the cleaning water tank 11 is connected with the upper edge of one side of the rinsing and rust-preventing tank 61 and is positioned at the same horizontal height;

a sinking conveying rail 41 near the discharging level 3 extends from an upper opening of one side of the rinsing and rust-preventing tank 61 in a direction toward a tank bottom of the rinsing and rust-preventing tank 61, and a transmission chain 421 of a lifting transmission mechanism 42 near the discharging level 3 extends from the tank bottom of the rinsing and rust-preventing tank 61 in a direction toward an upper opening of the other side of the rinsing and rust-preventing tank 61;

the sinking conveyor rail 41 is engaged with a drive chain 421 adjacent thereto.

As shown in fig. 1 and 2, in the present embodiment, the second end of the sinking conveying rail 41 located at the upper edge of one side of the rinsing and rust-preventing groove 61 is disposed between two driving chains 421 located at the upper edge of the other side of the rinsing and rust-preventing groove 11, since the moving direction of the driving chains 421 is staggered with the conveying direction of the sinking conveying rail 41, the rotor 8 lifted by the lifting driving mechanism 42 in the rinsing and rust-preventing groove 11 falls into the sinking conveying rail 41 extending from the upper edge of one side of the rinsing and rust-preventing groove 61 toward the bottom of the rinsing and rust-preventing groove 61, and then enters the rinsing and rust-preventing groove 61 along the sinking conveying rail 41, the mixed liquid of hot water and rust-preventing agent is injected into the rinsing and rust-preventing groove 61 in advance, after the rotor 8 enters the rinsing and rust-preventing groove 61, the rust-preventing agent is rinsed by the ultrasonic vibrator 12, and then forms a rust-preventing film on the surface of the rotor, and after the rinsing and rust-preventing, the rust-preventing agent is matched with the lifting conveying member 422, and the upper edge of the other side of the rinsing and rust-preventing groove 61 is lifted and conveyed.

It should be noted that, as shown in fig. 2 and 6, the four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device further includes a drying module 5, where the drying module 5 is disposed between the rinsing and rust-preventing module 6 and the discharging level 3; the drying module 5 comprises a heating mechanism 51 and a drying conveying guide rail 52, the heating mechanism 51 comprises a heating pipe 511 and a fin 512, the fin 512 is sleeved on the outer wall of the heating pipe 511, the heating pipe 511 is arranged above the drying conveying guide rail 52, and a first end of the drying conveying guide rail 52 is matched with a second end of the transmission chain 421, which is far away from the bottom of the cleaning water tank 11. Specifically, the first end of the drying and conveying rail 52 is disposed between the two driving chains 421 located at the upper edge of the other side of the rinsing and rust-preventing slot 61, and the rotor 8 lifted by the lifting driving mechanism 42 can fall into the drying and conveying rail 52 due to the movement direction of the driving chains 421 being staggered with the conveying direction of the drying and conveying rail 52. The fins 512 can increase the heat dissipation area, thereby increasing the heating efficiency, and thus enabling the water on the surface of the rotor 8 to evaporate rapidly, thereby achieving the purpose of drying.

Preferably, the drying module 5 further includes an air duct 53, and an air outlet of the air duct 53 faces the drying and conveying rail 52. The air flow in the drying module 5 is increased by the compressed air blown out from the air outlet of the air duct 53, thereby blowing off the moisture in the small hole of the rotor 8.

Specifically, the four-chain two-station motor rotor cleaning, drying and rust preventing integrated device further comprises a thin gold water coating roller module 9, wherein the thin gold water coating roller module 9 is arranged between the drying module 5 and the discharging position 3, and the thin gold water coating roller module 9 is used for coating thin gold water on the surface of the rotor. In this embodiment, the thin-metal water smearing roller module 9 includes a smearing roller and a smearing and conveying rail, the smearing roller is disposed above the smearing and conveying rail, thin-metal water is disposed on the surface of the smearing roller, the rotor 8 output from the drying module 5 enters the smearing and conveying rail and is located between the smearing roller and the smearing and conveying rail, so that the rotor 8 can contact with the surface of the smearing roller, and thin-metal water is smeared on the circumferential surface of the rotor 8.

The four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device further comprises an ultrasonic generator, and all the ultrasonic vibrators 12 are electrically connected with the same ultrasonic generator. All ultrasonic vibrators 12 in the whole equipment are driven by a single ultrasonic power supply, the same-frequency homopolar work of all ultrasonic vibrators 12 is realized, the noise is reduced, and the efficiency is improved.

The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the utility model, and yet fall within the scope of the utility model.

Claims (10)

1. Four chain two station motor rotor washs rust-resistant integrated device of stoving, its characterized in that: the device comprises a cleaning module, a rinsing rust-proof module, a feeding level, a discharging level and two conveying modules which are arranged on a rack; the conveying module sequentially passes through the feeding level, the cleaning module, the rinsing rust-proof module and the discharging level;

the cleaning module comprises a cleaning water tank and an ultrasonic vibrator, and the ultrasonic vibrator faces the cleaning water tank;

the conveying module comprises a sinking conveying guide rail and a lifting transmission mechanism, wherein the sinking conveying guide rail extends from the upper opening of one side of the cleaning water tank to the direction of the bottom of the cleaning water tank;

the lifting transmission mechanism comprises a transmission chain and a lifting conveying part, the lifting conveying part is connected with the transmission chain, the lifting conveying part protrudes outwards relative to the transmission chain, and the transmission chain extends from the bottom of the cleaning water tank to the upper opening edge of the other side of the cleaning water tank;

the first end of the sinking conveying guide rail, which is positioned at the bottom of the cleaning water tank, is matched with the first end of the transmission chain, which is positioned at the bottom of the cleaning water tank;

the rinsing rust-proof module is used for rinsing the rotor cleaned by the cleaning module and coating a rust-proof film.

2. The four-chain two-station motor rotor cleaning, drying and rust preventing integrated device is characterized in that: each lifting transmission mechanism comprises two transmission chains, the two transmission chains of the same lifting transmission mechanism are arranged in parallel, and one end of the sinking conveying guide rail is arranged between the two transmission chains of the corresponding conveying module; in the two conveying modules, two transmission chains positioned in the middle of the cleaning module are fixed, and the two transmission chains close to the two sides of the cleaning module are movable, so that the width between the two transmission chains of the same lifting transmission mechanism is adjusted through the transmission action of the bevel gear, the screw rod seat and the screw rod.

3. The four-chain two-station motor rotor cleaning, drying and rust preventing integrated device is characterized in that: the lifting transmission mechanism further comprises a driving shaft, a first chain wheel, a second chain wheel, a bearing and a bearing seat, wherein the driving shaft is in rotary connection with the frame, the first chain wheel, the second chain wheel and the bearing are all sleeved on the shaft surface of the driving shaft, the first chain wheel slides in the axial direction of the driving shaft, one transmission chain is meshed with the first chain wheel in the same lifting transmission mechanism, the other transmission chain is meshed with the second chain wheel, the bearing is connected with the first chain wheel and synchronously rotates with the transmission chain, the bearing is arranged in the bearing seat, the bearing seat is connected with the screw rod seat, the screw rod is parallel to the driving shaft, the screw rod penetrates through the screw rod seat and is in threaded connection with the screw rod seat, and one end, far away from the screw rod seat, of the screw rod is provided with a bevel gear.

4. The four-chain two-station motor rotor cleaning, drying and rust preventing integrated device is characterized in that: the lifting conveying piece comprises an L-shaped connecting plate and an L-shaped hanging plate, wherein a first end of the L-shaped connecting plate is connected with the transmission chain, a second end of the L-shaped connecting plate is connected with the first end of the L-shaped hanging plate, and the second end of the L-shaped hanging plate protrudes outwards relative to the transmission chain.

5. The four-chain two-station motor rotor cleaning, drying and rust preventing integrated device is characterized in that: the second end of the L-shaped hanging plate is provided with a hanging concave part.

6. The four-chain two-station motor rotor cleaning, drying and rust preventing integrated device is characterized in that: the rinsing rust-proof module comprises a rinsing rust-proof groove and ultrasonic vibrators, wherein a plurality of ultrasonic vibrators are arranged on the lower surface of the rinsing rust-proof groove, and the sinking conveying guide rail and the lifting transmission mechanism are alternately distributed from the feeding position to the discharging position;

a sinking conveying guide rail close to the feeding level extends from the upper opening of one side of the cleaning water tank to the tank bottom of the cleaning water tank, and a transmission chain of a lifting transmission mechanism close to the feeding level extends from the tank bottom of the cleaning water tank to the upper opening of the other side of the cleaning water tank; the upper opening edge of the other side of the cleaning water tank is connected with the upper opening edge of one side of the rinsing rust-proof tank and is positioned at the same horizontal height;

a sinking conveying guide rail close to the discharging position extends from the upper opening of one side of the rinsing and rust-preventing groove to the groove bottom of the rinsing and rust-preventing groove, and a transmission chain of a lifting transmission mechanism close to the discharging position extends from the groove bottom of the rinsing and rust-preventing groove to the upper opening of the other side of the rinsing and rust-preventing groove;

the sinking conveying guide rail is matched with a transmission chain adjacent to the sinking conveying guide rail.

7. The four-chain two-station motor rotor cleaning, drying and rust preventing integrated device is characterized in that: the four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device further comprises a drying module, wherein the drying module is arranged between the rinsing and rust-preventing module and the discharging position;

the drying module comprises a heating mechanism and a drying conveying guide rail, the heating mechanism comprises a heating pipe and fins, the fins are sleeved on the outer wall of the heating pipe, the heating pipe is arranged above the drying conveying guide rail, and the first end of the drying conveying guide rail is matched with the second end of the transmission chain, which is far away from the bottom of the cleaning water tank.

8. The four-chain two-station motor rotor cleaning, drying and rust preventing integrated device is characterized in that: the drying module further comprises an air pipe, and an air outlet of the air pipe faces the drying conveying guide rail.

9. The four-chain two-station motor rotor cleaning, drying and rust preventing integrated device is characterized in that: the four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device further comprises a thin gold water smearing roller module, wherein the thin gold water smearing roller module is arranged between the drying module and the discharging position and is used for smearing thin gold water on the surface of the rotor.

10. The four-chain two-station motor rotor cleaning, drying and rust preventing integrated device is characterized in that: the four-chain two-station motor rotor cleaning, drying and rust-preventing integrated device further comprises an ultrasonic generator, and all ultrasonic vibrators are electrically connected with the same ultrasonic generator.