CN211247506U - Device suitable for internal-combustion engine axle bush self-cleaning and stoving - Google Patents

Abstract

The utility model provides a device suitable for the automatic cleaning and drying of an internal combustion engine bearing bush, which comprises a magnetic conveyor belt, a first cleaning gun, a cleaning tank, a second cleaning gun, a heating furnace and a manipulator, wherein the cleaned bearing bush enters the magnetic conveyor belt through the manipulator and sequentially passes through the first cleaning gun, the cleaning tank, the second cleaning gun and the heating furnace, the utility model can clean the metal iron pin and impurities attached on the bearing bush through three-stage cleaning, thereby improving the cleaning quality, the control system monitors the number of the bearing bushes in the transition area to reasonably control the action frequency of the manipulator and the cleaning number of the bearing bushes, meanwhile, the control system also controls the speed and the quantity of the bearing bushes entering the heating furnace, the drying effect is ensured, the whole system is scientific and reasonable, the working efficiency is high, automatic continuous cleaning and drying of the bearing bushes are realized, the practicability is high, and the device is suitable for popularization and application.

Description

Device suitable for internal-combustion engine axle bush self-cleaning and stoving

Technical Field

The utility model relates to a cleaning equipment field specifically relates to a device suitable for internal-combustion engine axle bush self-cleaning and stoving.

Background

The bearing bush is the part that slide bearing and axle contacted, and is very smooth, generally makes with wear-resisting materials such as bronze, antifriction alloy, and the surface of general bearing bush will have iron fillings impurity etc. after having processed, needs wash, and the abluent equipment of present bearing bush can not be with the complete sanitization of the impurity on bearing bush surface and the complicated inconvenient operation, and the cleaning efficiency is low, and structural design is unreasonable.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model aims at providing a device suitable for internal-combustion engine axle bush self-cleaning and stoving.

According to the utility model provides a device suitable for internal-combustion engine axle bush self-cleaning and stoving, including magnetic conveyor belt 100, multistage washing space 10 and stoving space 20;

the washed bearing bush enters the multistage washing space 10 through the magnetic conveyor belt 100 to be washed in sequence in multistage, and then is conveyed to the drying space 20 to be dried.

Preferably, the multi-stage cleaning space 10 includes a first cleaning gun 200, a cleaning bath 300, and a second cleaning gun 400.

Preferably, the drying space 20 includes a heating furnace 500 and a circulating hot air blower 510.

Preferably, the cleaning tank 300 is an inverted trapezoid-shaped groove, and the cleaning culture solution 310 is filled in the cleaning tank 300;

the portion of the magnetic conveyor belt 100 that is mounted in the wash tank 300 is submerged in the wash culture solution 310.

Preferably, a first delivery pump 320 is also included;

the first delivery pump 320 can deliver the cleaning culture solution 310 to the first cleaning gun 200 and the second cleaning gun 400 respectively;

the cleaning culture solution 310 sprayed by the first cleaning gun 200 and the second cleaning gun 400 flows into the cleaning tank 300.

Preferably, a first detachable filter screen 321 is arranged on the # 1 inlet pipeline 322 of the first conveying pump 320;

the number of the first filter screens 321 is one or more;

the plurality of first filters 321 are installed in parallel.

Preferably, a transition zone 30 and a robot 600;

the transition zone 30 is disposed between the multistage washing space 10 and the drying space 20;

a robot 600 is mounted at one end of the magnetic conveyor 100 near the bearing shells to be cleaned.

Preferably, a second delivery pump 340 is also included;

a labyrinth type waste residue collecting tank 330 is arranged at the bottom of the cleaning tank 300;

a No. 2 inlet pipeline 341 of the second conveying pump 340 is connected with the bottom of the labyrinth type waste residue collecting tank 330;

the outlet pipeline of the second delivery pump 340 is provided with a second filter screen 342.

Preferably, a monitoring device 11 and a bearing shell turnup 120 are installed in the multi-stage cleaning space 10.

According to the utility model provides a device suitable for internal-combustion engine axle bush self-cleaning and stoving, including magnetic conveyor belt 100, multistage washing space 10 and stoving space 20;

the washed bearing bush enters the multistage washing space 10 through the magnetic conveyor belt 100, is sequentially subjected to multistage washing and then is conveyed to the drying space 20 for drying;

the multi-stage cleaning space 10 includes a first cleaning gun 200, a cleaning tank 300, and a second cleaning gun 400;

the drying space 20 includes a heating furnace 500 and a circulating hot air blower 510;

the cleaning tank 300 is an inverted trapezoidal groove, and a cleaning culture solution 310 is filled in the cleaning tank 300;

the magnetic conveyor belt 100 is arranged in the part of the cleaning tank 300 and is immersed in the cleaning culture solution 310;

a first delivery pump 320;

the first delivery pump 320 can deliver the cleaning culture solution 310 to the first cleaning gun 200 and the second cleaning gun 400 respectively;

the cleaning culture solution 310 sprayed by the first cleaning gun 200 and the second cleaning gun 400 flows into the cleaning tank 300;

a first detachable filter screen 321 is arranged on the No. 1 inlet pipeline 322 of the first conveying pump 320;

the number of the first filter screens 321 is one or more;

the plurality of first filters 321 are installed in parallel;

also includes a transition zone 30 and a manipulator 600;

the transition zone 30 is disposed between the multistage washing space 10 and the drying space 20;

the manipulator 600 is arranged at one end of the magnetic conveyor belt 100 close to the bearing bush to be cleaned;

a second delivery pump 340;

a labyrinth type waste residue collecting tank 330 is arranged at the bottom of the cleaning tank 300;

a No. 2 inlet pipeline 341 of the second conveying pump 340 is connected with the bottom of the labyrinth type waste residue collecting tank 330;

the outlet pipeline of the second conveying pump 340 is provided with a second filter screen 342;

the multistage cleaning space 10 is provided with a monitoring device 11 and a bearing shell flanging device 120.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses rational in infrastructure, nimble practical.

2. Through three-stage cleaning, the metal iron pins and impurities attached to the bearing bush are cleaned up, and the cleaning quality is improved; meanwhile, the manipulator 600 replaces the previous manual operation, the automatic cleaning of the bearing bush is realized, the cleaning quality is guaranteed, the cleaning efficiency is improved, the automation degree is high, and the practicability is high.

3. The import through first delivery pump 320 sets up the first filter screen 321 of detachable and installs in the outside of multistage washing space 10, has both solved the cleaning problem of rinsing in washing tank 300 and banked up impurity in liquid 310, conveniently overhauls the operation again, and reasonable in design has improved work efficiency.

4. Through setting up multistage washing space 10 and monitoring device 11, both protected environment and staff's health, also improved simultaneously greatly and patrolled and examined efficiency, improved work efficiency.

5. The inverted trapezoidal groove structure of the cleaning tank 300 is reasonable in structure, is beneficial to cleaning the bearing bush in the cleaning tank 300, and improves the cleaning quality.

6. The circulating air heater 510 arranged in the drying space 20 is matched with the heating furnace 500, so that the flowability of hot air is greatly improved, the drying efficiency of the bearing bush is improved, and the practicability is high.

7. Through setting up labyrinth type waste residue collecting pit 330 and second delivery pump 340, effectively solved and washd and banked up impurity in the liquid 310 in time and clear away, make to wash and banked up liquid 310 and can recycle, simple structure, reasonable in design, the practicality is strong.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic view of the equipment layout of the present invention;

fig. 2 is a schematic layout view of the first filter 321;

fig. 3 is a schematic structural view of a labyrinth-type waste residue collecting tank 330;

fig. 4 is a schematic structural view of the belt press roller 110.

The figures show that:

Detailed Description

The present invention will be described in detail with reference to the following embodiments. The following examples will assist those skilled in the art in further understanding the present invention, but are not intended to limit the invention in any way. It should be noted that various changes and modifications can be made by one skilled in the art without departing from the spirit of the invention. These all belong to the protection scope of the present invention.

According to the utility model provides a pair of device suitable for internal-combustion engine axle bush self-cleaning and stoving, as shown in fig. 1, including magnetic conveyor 100, multistage washing space 10 and stoving space 20, conveying after carrying out multistage washing in proper order in getting into multistage washing space 10 through magnetic conveyor 100 by the washing axle bush and drying to stoving space 20, multistage washing space 10 includes first washing rifle 200, washing tank 300, second washing rifle 400, stoving space 20 includes heating furnace 500 and circulation air heater 510, magnetic conveyor 100 has magnetism, can rely on magnetic force to adsorb the axle bush on magnetic conveyor 100, place on magnetic conveyor 100 through manipulator 600 by the washing axle bush, magnetic conveyor 100 carries the axle bush and passes through first washing rifle 200 in proper order, washing tank 300, second washing rifle 400, heating furnace 500. The first cleaning gun 200 and the second cleaning gun 400 spray cleaning culture solution 310 with certain pressure through the first conveying pump 320, the bearing bush is firstly washed by the first cleaning gun 200 to wash down metal iron pins and impurities attached to the bearing bush, the washed bearing bush is conveyed to the cleaning tank 300 through the magnetic conveyor belt 100 and is immersed into the cleaning culture solution 310, the metal iron pins and the impurities attached or loosened to the bearing bush fall into the cleaning culture solution 310, after the washing by the cleaning culture solution 310 in the cleaning tank 300, the metal iron pins and the impurities which are not washed down on the bearing bush are washed again by the second cleaning gun 400, and various impurities attached to the bearing bush are cleaned up through three times of washing, so that the cleaning quality is improved; meanwhile, through the matched operation of the mechanical arm 600 and the magnetic conveyor belt 100, the continuous automatic cleaning of the bearing bush is realized, the cleaning quality is guaranteed, the cleaning efficiency is improved, and the practicability is high.

Further, as shown in fig. 1, a bearing bush flanging device 120 is further arranged on the magnetic conveyor belt 100, after the bearing bushes on the magnetic conveyor belt 100 are cleaned by the first cleaning gun 200, the bearing bushes on the magnetic conveyor belt 100 can be firstly turned over by the bearing bush flanging device 120, so that the bearing bushes adsorbed on the magnetic conveyor belt 100 are exposed on the front surface of the bearing bush adsorbed on the magnetic conveyor belt 100, and then the cleaning and culturing liquid 310 is introduced for cleaning, so that the cleaning quality and efficiency are improved, and the practicability is high.

Furthermore, as shown in fig. 1, the part of the magnetic conveyor belt 100 submerged in the cleaning and baking liquid 310 is provided with a conveyor belt pressing roller 110, and in a preferred embodiment, as shown in fig. 4, the conveyor belt pressing roller 110 is a flange type pressing roller, which not only changes the conveying direction of the magnetic conveyor belt 100, but also avoids blocking the axle bush conveying, and flexibly solves the problem of axle bush conveying.

Specifically, as shown in fig. 3, the cleaning system further comprises a first delivery pump 320, the first delivery pump 320 can respectively deliver the cleaning culture solution 310 to the first cleaning gun 200 and the second cleaning gun 400, and provide pressure for the cleaning culture solution in the cleaning guns, in practical applications, the spraying pressure and flow rate of the first cleaning gun 200 and the second cleaning gun 400 can be designed according to the practical requirements of cleaning, and the matched first delivery pump 320 can be selected according to the required spraying pressure, for example, the spraying pressure of the cleaning gun is 0.5MPa, the flow rate is 20m3/h, the lift of the first delivery pump 320 can be selected from 80 to 100m, the flow rate can be selected from 40 to 80m3/h, the model of the first delivery pump 320 can also be selected according to the practical cleaning effect, and the density and chemical properties of the cleaning culture solution 310 are also considered, the material suitable for the cleaning culture solution 310 is considered on the type of the first delivery pump 320, through reasonable design and the model selection of the first delivery pump 320, the cost is saved, a good cleaning effect can be achieved, and the actual cleaning requirement is met.

Specifically, the cleaning culture solution 310 sprayed by the first cleaning gun 200 and the second cleaning gun 400 flows into the cleaning tank 300, so that the cleaning culture solution 310 can be reused, and with repeated cleaning of the cleaning culture solution 310, the impurities in the cleaning tank 300 are more and more, and to solve the problem of impurity cleaning, the inlet of the first delivery pump 320 is provided with a detachable first filter screen 321, as shown in fig. 2, one end of the 1# inlet pipeline 322 of the first delivery pump 320 extending into the cleaning tank 300 is installed on the upper layer of the cleaning culture solution 310 in the cleaning tank 300, so as to reduce the influence of the impurities in the cleaning culture solution 310 on the output pressure and flow rate of the first delivery pump 320, and meanwhile, the 1# inlet pipeline 322 of the first delivery pump 320 is provided with a detachable first filter screen 321, and for facilitating the maintenance and cleaning operation, in one embodiment, the 1# inlet pipeline 322 of the first delivery pump 320 is preferably provided with two first filter screens 321 connected in parallel, the valves are arranged on two sides of each filter screen, one is opened and the other is prepared, so that the first filter screen 321 can be cleaned on the premise of not influencing the cleaning operation, when the first filter screen 321 needs to be cleaned, the valves on two sides of the first filter screen 321 needing to be cleaned are only required to be closed, the valves on two sides of the other first filter screen 321 are opened, at the moment, the first filter screen 321 needing to be cleaned can be detached and cleaned while the cleaning operation is not influenced, the first filter screen 321 is arranged outside the multistage cleaning space 10, and the cleaning operation can be completed without a worker entering the multistage cleaning space 10; in a variation, 3 first filter screens 321 are installed in parallel in the 1# inlet pipeline 322 of the first conveying pump 320, the design of the first filter screens 321 is to select quantity and mesh number according to the reality, the detachable first filter screens 321 are arranged through the inlet of the first conveying pump 320 and are installed outside the multistage cleaning space 10, the influence of impurities in the cleaning and culture solution 310 on the first conveying pump 320 in the cleaning tank 300 is avoided, the maintenance operation of cleaning the impurities is convenient, the design is reasonable, and the working efficiency is improved.

Specifically, still include second delivery pump 340, the bottom of washing tank 300 is provided with labyrinth type waste residue collecting pit 330, the bottom of labyrinth type waste residue collecting pit 330 is connected to 2# inlet pipeline 341 of second delivery pump 340, the outlet pipeline of second delivery pump 340 is provided with second filter screen 342, in a preferred example, as shown in fig. 1, fig. 3, for can in time clear away the impurity in the liquid 310 is banked up with earth in the washing, do not influence the circulation use that the liquid 310 is banked up with earth in the washing, labyrinth type waste residue collecting pit 330 designs into the notch cuttype sedimentation tank that fig. 3 shows, 2# inlet pipeline 341 is connected the bottom of labyrinth type waste residue collecting pit 330, can in time take away the impurity that the washing tank 300 is sedimentated, simultaneously, be provided with second filter screen 342 in the export of second delivery pump 340, second filter screen 342 can filter the impurity that takes away from labyrinth type waste residue collecting pit 330 bottom, thereby get rid of, meanwhile, the cleaning culture solution 310 filtered by the second filter screen 342 flows into the cleaning tank 300 again for recycling, in order to prevent the 2# inlet pipe 341 from being blocked, the outlet pipeline of the first delivery pump 320 can be connected to the 2# inlet pipe 341 of the second delivery pump 340, and a control valve is arranged on the pipeline to flush the 2# inlet pipe 341, so as to avoid the pipelines from being silted and blocked; in one variation, the labyrinth type slag collection tank 330 is a conical settling tank disposed at the bottom of the cleaning tank 300. Through setting up labyrinth type waste residue collecting pit 330 and second delivery pump 340, effectively solved and washd and banked up impurity in the liquid 310 in time and clear away, make to wash and banked up liquid 310 and can recycle, simple structure, reasonable in design, the practicality is strong.

Specifically, the cleaning culture solution 310 may be water, alcohol or tetrachloroethylene, in a preferred example, the cleaning culture solution 310 is alcohol, and the multistage cleaning space 10 is a closed space due to strong volatility of alcohol, so that the cleaning culture solution 310 can be prevented from volatilizing to other areas, the first cleaning gun 200, the cleaning tank 300 and the second cleaning gun 400 are installed in the multistage cleaning space 10, the monitoring device 11 is further installed in the multistage cleaning space 10, and a worker can observe the operation conditions of the magnetic conveyor belt 100, the first cleaning gun 200 and the second cleaning gun 400 through the monitoring device 11, so as to replace manual inspection; in one variation, the cleaning medium 310 is tetrachloroethylene; in another variation, water is used as the wash culture 310. Through setting up multistage washing space 10 and monitoring device 11, both protected environment and staff's health, also improved simultaneously greatly and patrolled and examined efficiency, improved work efficiency.

Specifically, as shown in fig. 1, the cleaning tank 300 is an inverted trapezoid groove, the cleaning solution 310 is filled in the cleaning tank 300, the part of the magnetic conveyor belt 100 installed in the cleaning tank 300 is immersed in the cleaning solution 310, and the inverted trapezoid groove structure of the cleaning tank 300 is beneficial for the magnetic conveyor belt 100 carrying the bearing bush to enter the cleaning solution 310 in the cleaning tank 300, and the structural design is reasonable, thereby being beneficial for the cleaning of the bearing bush in the cleaning tank 300.

Specifically, as shown in fig. 1, through the abluent axle bush of second cleaning gun 400, its metal iron round pin everywhere and impurity have been by the sanitization, but the surperficial humidity of axle bush, the corrosion appears in order to avoid the axle bush, the utility model discloses still the design has heating furnace 500 to with heating furnace 500 setting in drying space 20, still be provided with circulation air heater 510 in drying space 20, through the cooperation of circulation air heater 510 and heating furnace 500 that will set up in drying space 20, improved hot-air's mobility greatly, improved the drying efficiency of axle bush, the practicality is strong.

Specifically, as shown in fig. 1, the cleaning device further includes a control system 700 and a transition area 30, the transition area 30 is disposed between the second cleaning gun 400 and the heating furnace 500, the transition area 30 is also installed in the multi-stage cleaning space 10, the transition area 30 can accommodate a certain number of bearing bushes, the transition area 30 can be an area on the magnetic conveyor belt 100, the residence time of the bearing bushes in the transition area 30 can be controlled by controlling the moving speed of the magnetic conveyor belt 100, the transition area 30 can be separately designed into an area, a section of the transition area 30 is connected to the magnetic conveyor belt 100, and a conveying device is further installed at the other end of the transition area 30 to convey the bearing bushes. The washed bearing bush is firstly primarily dried in the transition area 30, part of the washing and baking solution 310 attached to the surface of the bearing bush is volatilized in the transition area 30, part of the washing and baking solution 310 attached to the surface of the bearing bush flows to the transition area 30 due to the action of gravity and finally flows to the washing tank 300, and the bearing bush subjected to primary drying is conveyed to the heating furnace 500 for drying treatment. Meanwhile, the control system 700 can control the rotation speed of the magnetic conveyor belt 100 and the action frequency of the manipulator 600 according to the number of the bearing bushes in the transition area 30, the gravity sensing is arranged in the transition area 30, and the information on the number of the bearing bushes in the transition area 30 can be obtained through the gravity sensing control system 700, so that the action frequency of the manipulator 600 is controlled, the automatic and efficient cleaning of the whole bearing bush cleaning and drying system is realized, and the cleaning efficiency is improved.

The utility model discloses a theory of operation does:

the bearing bush to be cleaned is placed on the magnetic conveyor belt 100 through the manipulator 600, the bearing bush is driven to enter the multistage cleaning space 10 under the magnetic action of the magnetic conveyor belt 100, firstly, the cleaning solution 310 sprayed by the first cleaning gun 200 is used for cleaning for the first time, the cleaned bearing bush is overturned through the bearing bush flanging device 120 to be adsorbed on the magnetic conveyor belt 100, so that the bearing bush is adsorbed on one surface of the magnetic conveyor belt 100 and is exposed on the front surface, the bearing bush enters the cleaning solution 310 in the cleaning tank 300 along with the magnetic conveyor belt 100 to be subjected to sink cleaning, metal iron pins and impurities which are washed and loosened but do not fall off from the bearing bush are soaked in the cleaning solution 310, and water flow formed by the movement of the magnetic conveyor belt 100 in the cleaning solution 310 is used for washing the whole bearing bush by the flowing cleaning solution 310, the cleaning quality is greatly improved, the bearing bush coming out of the cleaning tank 300 is cleaned by the second, make the axle bush by the sanitization through the cubic washing, get into transition zone 30 by the sanitization and carry out preliminary drying, simultaneously, transition zone 30 is provided with gravity sensor, control system 700 passes through transition zone 30 gravity sensor's information, can realize the quantity or the control of weight to axle bush in transition zone 30, thereby control manipulator 600's action frequency, thereby realize the quantity that the control axle bush gets into magnetic conveyor belt 100, control system 700 also controls the speed and the quantity that the axle bush got into heating furnace 500 simultaneously, ensure dry effect, entire system scientific and reasonable, high working efficiency, the automatic continuous washing and the stoving of axle bush have been realized, therefore, the clothes hanger is strong in practicability, and is suitable for popularization and application.

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

The foregoing description of the specific embodiments of the invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by those skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (9)

1. The device is characterized by comprising a magnetic conveyor belt (100), a multi-stage cleaning space (10) and a drying space (20);

the washed bearing bushes enter a multistage washing space (10) through a magnetic conveyor belt (100) to be sequentially washed in multistage and then are conveyed to a drying space (20) to be dried;

the multi-stage cleaning space (10) comprises a first cleaning gun (200), a cleaning tank (300) and a second cleaning gun (400);

a cleaning culture solution (310) is filled in the cleaning tank (300);

the part of the magnetic conveyor belt (100) installed on the cleaning tank (300) is immersed in the cleaning culture solution (310).

2. The apparatus for automatically cleaning and drying bearing shells of internal combustion engines as claimed in claim 1, wherein said drying space (20) comprises a heating furnace (500) and a circulating hot air blower (510).

3. The device for automatically cleaning and drying the bearing bush of the internal combustion engine as claimed in claim 1, wherein the cleaning groove (300) is an inverted trapezoidal groove.

4. The apparatus for automatically cleaning and drying bearing shells of internal combustion engines as claimed in claim 1, further comprising a first delivery pump (320);

the first conveying pump (320) can convey the cleaning culture solution (310) to the first cleaning gun (200) and the second cleaning gun (400) respectively;

the cleaning culture solution (310) sprayed by the first cleaning gun (200) and the second cleaning gun (400) flows into the cleaning tank (300).

5. The device for automatically cleaning and drying the bearing bush of the internal combustion engine as claimed in claim 4, wherein a first detachable filter screen (321) is arranged on a No. 1 inlet pipeline (322) of the first delivery pump (320);

the number of the first filter screens (321) is one or more;

the plurality of first filter screens (321) are installed in parallel.

6. The device for automatically cleaning and drying the bearing shell of the internal combustion engine as claimed in claim 1, further comprising a transition area (30) and a manipulator (600);

the transition area (30) is arranged between the multi-stage cleaning space (10) and the drying space (20);

the manipulator (600) is arranged at one end of the magnetic conveyor belt (100) close to the bearing bush to be cleaned.

7. The device for automatically cleaning and drying bearing shells of internal combustion engines as claimed in claim 3, further comprising a second delivery pump (340);

a labyrinth type waste residue collecting tank (330) is arranged at the bottom of the cleaning tank (300);

a No. 2 inlet pipeline (341) of the second conveying pump (340) is connected with the bottom of the labyrinth type waste residue collecting tank (330);

and the outlet pipeline of the second conveying pump (340) is provided with a second filter screen (342).

8. The device for automatically cleaning and drying bearing shells of internal combustion engines according to claim 1, wherein the multistage cleaning space (10) is provided with a monitoring device (11) and a bearing shell flanging device (120).

9. The device is characterized by comprising a magnetic conveyor belt (100), a multi-stage cleaning space (10) and a drying space (20);

the washed bearing bushes enter a multistage washing space (10) through a magnetic conveyor belt (100) to be sequentially washed in multistage and then are conveyed to a drying space (20) to be dried;

the multi-stage cleaning space (10) comprises a first cleaning gun (200), a cleaning tank (300) and a second cleaning gun (400);

the drying space (20) comprises a heating furnace (500) and a circulating hot air blower (510);

the cleaning tank (300) is an inverted trapezoidal groove, and cleaning culture solution (310) is filled in the cleaning tank (300);

the magnetic conveyor belt (100) is arranged in a part of the cleaning tank (300) and is immersed in the cleaning culture solution (310);

further comprising a first delivery pump (320);

the first conveying pump (320) can convey the cleaning culture solution (310) to the first cleaning gun (200) and the second cleaning gun (400) respectively;

the cleaning culture solution (310) sprayed by the first cleaning gun (200) and the second cleaning gun (400) flows into the cleaning tank (300);

a first detachable filter screen (321) is arranged on a No. 1 inlet pipeline (322) of the first conveying pump (320);

the number of the first filter screens (321) is one or more;

a plurality of first filter screens (321) are installed in parallel;

the device also comprises a transition area (30) and a manipulator (600);

the transition area (30) is arranged between the multi-stage cleaning space (10) and the drying space (20);

the manipulator (600) is arranged at one end of the magnetic conveyor belt (100) close to the bearing bush to be cleaned;

further comprising a second delivery pump (340);

a labyrinth type waste residue collecting tank (330) is arranged at the bottom of the cleaning tank (300);

a No. 2 inlet pipeline (341) of the second conveying pump (340) is connected with the bottom of the labyrinth type waste residue collecting tank (330);

the outlet pipeline of the second conveying pump (340) is provided with a second filter screen (342);

and a monitoring device (11) and a bearing bush flanging device (120) are arranged in the multi-stage cleaning space (10).

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