CN116727356A - Ten-groove full-automatic intelligent ultrasonic cleaning equipment for cutter machining and method thereof - Google Patents

Abstract

The application relates to the technical field of ultrasonic cleaning, in particular to ten-groove full-automatic intelligent ultrasonic cleaning equipment for cutter processing and a method thereof, wherein the equipment comprises a support frame body and a ten-groove cleaning bin, and a driving mechanism is horizontally arranged on an upper guide strip in a sliding manner; the driving mechanism comprises a driving supporting plate, a transverse servo motor and a longitudinal servo motor, and the ten-tank cleaning bin comprises a high-pressure spraying cleaning tank, an ultrasonic rough cleaning tank, a pure water rinsing tank I, an ultrasonic fine cleaning tank, a pure water rinsing tank II, an ultrasonic rinsing tank, a pure water rinsing tank III, a manual water blowing tank, a hot air drying tank I and a hot air drying tank II. According to the application, the cutters are placed in the net cages, then the net cages are respectively placed in the ten-groove cleaning bins through the driving mechanism, the cutters are respectively cleaned and later-period dried through the ten grooves on the ten-groove cleaning bins, and the cutters do not need to be transported in the treatment process, so that a large amount of manpower and material resources are saved, and the treatment efficiency of the cutters is greatly improved.

Description

Ten-groove full-automatic intelligent ultrasonic cleaning equipment for cutter machining and method thereof

Technical Field

The application relates to ultrasonic cleaning equipment and a method thereof, in particular to ten-groove full-automatic intelligent ultrasonic cleaning equipment for cutter machining and a method thereof, belonging to the technical field of ultrasonic cleaning.

Background

The ultrasonic cleaning utilizes cavitation, acceleration and direct flow action of ultrasonic wave in liquid to directly and indirectly act on liquid and dirt, so that dirt layer is dispersed, emulsified and stripped to attain the goal of cleaning, the ultrasonic wave can produce particle vibration, and the acceleration of particle vibration is proportional to square of ultrasonic frequency, so that the ultrasonic wave of several tens kilohertz can produce extremely large acting force, and when the strong ultrasonic wave propagates in the liquid, due to nonlinear action, acoustic cavitation can be produced, and the shock wave produced when cavitation bubble is suddenly closed can produce thousands of atmospheric pressure around it, so that on one hand the adsorption of dirt and cleaning piece surface can be damaged, on the other hand the damage of dirt layer can be caused, and can be separated from cleaning piece surface and dispersed into cleaning liquid.

At present, the cutter is often cleaned by ultra-high sound waves, but the cutter is sequentially washed, ultrasonically cleaned and then dried by the traditional method, so that a great deal of transferring time is wasted in the cutter treatment process, the cutter is placed in different cleaning tanks, a great deal of labor force is consumed, the degree of automation is low, and the treatment efficiency is greatly reduced.

Accordingly, there is a need for an improvement in the ultrasonic cleaning apparatus to solve the above-mentioned problems.

Disclosure of Invention

The application aims to provide ten-groove full-automatic intelligent ultrasonic cleaning equipment for cutter processing and a method thereof, wherein the cutter is placed in a net cage, then the net cage is respectively placed in a ten-groove cleaning bin through a driving mechanism, the cutter is respectively cleaned and later-period dried through ten grooves on the ten-groove cleaning bin, the transportation is not needed in the treatment process, a large amount of manpower and material resources are saved, and the treatment efficiency of the cutter is greatly improved.

In order to achieve the above purpose, the main technical scheme adopted by the application comprises the following steps:

the ten-groove full-automatic intelligent ultrasonic cleaning equipment for cutter machining comprises a support frame body and a ten-groove cleaning bin arranged on the support frame body, wherein an upper guide strip and a lower guide strip are fixedly arranged on the support frame body, and a driving mechanism is horizontally arranged on the upper guide strip in a sliding manner;

the driving mechanism comprises a driving supporting plate, a transverse servo motor and a longitudinal servo motor, wherein the transverse servo motor and the longitudinal servo motor are fixedly arranged on the driving supporting plate, a driving wheel is arranged at the output end of the transverse servo motor, a driving groove is formed in the upper side surface of the lower guide strip, driving teeth which are in meshed connection with the driving wheel are fixedly arranged in the driving groove, and the transverse servo motor is used for horizontally pushing the driving mechanism;

the output end of the longitudinal servo motor is provided with a transmission shaft, the transmission shaft is provided with a net cage supporting piece, the net cage supporting piece is provided with a net cage, and the longitudinal servo motor is used for pushing the net cage up and down;

the ten-tank cleaning bin comprises a high-pressure spray cleaning tank, an ultrasonic rough cleaning tank, a pure water rinsing tank I, an ultrasonic fine cleaning tank, a pure water rinsing tank II, an ultrasonic rinsing tank, a pure water rinsing tank III, a manual water blowing tank, a hot air drying tank I and a hot air drying tank II.

Preferably, the high-pressure spray washing tank is fixedly provided with a high-pressure spray washer in the high-pressure spray washing tank, the ultrasonic rough washing tank, the ultrasonic fine washing tank and the ultrasonic rinsing tank are fixedly provided with an ultrasonic cleaner in the high-pressure spray washing tank, and the hot air drying tank I and the hot air drying tank II are fixedly provided with a dryer in the high-pressure spray washing tank.

Preferably, a motor support member is fixedly connected to one side of the driving support plate, and the motor support member is fixedly connected with the transverse servo motor.

Preferably, a lateral side of the transverse servo motor, which is far away from the driving support plate, is fixedly provided with a lower guide clamping piece, a lateral side of the lower guide strip is provided with a guide groove, and the lower guide clamping piece is slidably arranged in the guide groove.

Preferably, the support frame body is fixedly provided with a driving support arm and a guiding support arm, the lower guiding strip is fixedly arranged on the driving support arm, the upper guiding strip is fixedly arranged on the guiding support arm, the upper guiding strip is arranged right above the lower guiding strip, a limiting clamping head is arranged on the upper guiding strip, an upper guiding clamping piece is arranged at the upper end of the driving support plate, and the upper guiding clamping piece abuts against the limiting clamping head.

Preferably, the support piece driving head is fixedly arranged on the net cage support piece, a guide groove which is in sliding connection with the support piece driving head is formed in the driving support plate, the support piece driving head is in screwed connection with the transmission shaft through threads, the transmission shaft support piece is arranged at the bottom of the driving support plate, the transmission shaft is in rotary connection with the transmission shaft support piece, and the upper end of the net cage is in sliding connection with the net cage support piece.

Preferably, pure water and a cleaning agent are arranged in the high-pressure spray cleaning tank, the ultrasonic rough cleaning tank and the ultrasonic fine cleaning tank, and pure water is arranged in the pure water rinsing tank I, the pure water rinsing tank II, the ultrasonic rinsing tank and the pure water rinsing tank III.

Preferably, a fan is fixedly arranged in the pure water rinsing tank III, and a heating wire is fixedly arranged on the fan.

Preferably, the two sides of the ten-groove cleaning bin are fixedly provided with conveyors, and the conveyors are arranged right below the lower guide strips.

The application method of the ten-groove full-automatic intelligent ultrasonic cleaning equipment for cutter machining comprises the following steps:

step one: after the lower guide bar and the upper guide bar are fixed on the support frame body, the driving mechanism is fixed on the lower guide bar and the upper guide bar;

step two: preventing the knife from being inside the cage and then on a conveyor in which the cage is placed;

step three: the net cage supporting piece on the driving mechanism slides downwards under the braking of the longitudinal servo motor, and after being in interactive connection with the net cage, the net cage supporting piece is pushed upwards;

step four: the net cage is lifted to the upper part of the ten-groove cleaning bin under the action of the longitudinal servo motor, and then horizontally slides under the action of the transverse servo motor on the driving mechanism;

step five: the net cage is orderly penetrated into the ten-groove cleaning bin for cleaning;

step six: after the cleaning is finished, the net cage is placed on another conveyor for transferring.

The application has at least the following beneficial effects:

through placing the cutter in the box with a net, then will place the box with a net respectively in ten groove washings storehouse through actuating mechanism, clear up and wash the stoving of later stage to the cutter respectively through ten grooves on the ten groove washings storehouse, need not to transport in the handling process, save a large amount of manpowers and material resources, promote the treatment effeciency to the cutter greatly.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

FIG. 1 is a perspective view of the present application;

FIG. 2 is a second perspective view of the present application;

FIG. 3 is a block diagram of the first embodiment of the present application;

FIG. 4 is a schematic view of a ten-tank cleaning bin according to the present application;

FIG. 5 is a block diagram of a drive mechanism according to the present application;

FIG. 6 is a first view of the cage support structure of the present application;

FIG. 7 is a second block diagram of the cage support of the present application.

In the figure, 1-support frame body, 101-drive support arm, 102-guide support arm, 2-ten tank cleaning bin, 201-high pressure spray cleaning tank, 202-ultrasonic rough cleaning tank, 203-pure water rinsing tank I, 204-ultrasonic fine cleaning tank, 205-pure water rinsing tank II, 206-ultrasonic rinsing tank, 207-pure water rinsing tank III, 208-manual blowing tank, 209-hot air drying tank I, 210-hot air drying tank II, 3-drive mechanism, 301-upper guide clamping piece, 302-transmission shaft support piece, 303-guide tank, 304-motor support piece, 305-lower guide clamping piece, 306-drive support plate, 4-lower guide strip, 401-guide tank, 402-drive tank, 403-drive tooth, 5-upper guide strip, 501-limit clamping head, 7-longitudinal servo motor, 701-transmission shaft, 8-net cage support piece, 801-support piece drive head, 9-transverse servo motor, 901-drive wheel, 10-net cage, 11-transmission machine.

Detailed Description

The following detailed description of embodiments of the present application will be given with reference to the accompanying drawings and examples, by which the implementation process of how the present application can be applied to solve the technical problems and achieve the technical effects can be fully understood and implemented.

As shown in fig. 1-7, the ten-groove full-automatic intelligent ultrasonic cleaning device for cutter processing and the method thereof provided by the embodiment comprise a support frame body 1 and a ten-groove cleaning bin 2 arranged on the support frame body 1, wherein an upper guide bar 5 and a lower guide bar 4 are fixedly arranged on the support frame body 1, a driving mechanism 3 is horizontally arranged on the upper guide bar 5 in a sliding manner, and at present, the cutters are often cleaned by ultra-high sound waves when being cleaned, but the cutters are sequentially washed, ultrasonically cleaned and then dried by the traditional method, so that a great deal of transferring time is wasted in the cutter processing process, the cutters are placed in different cleaning tanks, a great deal of labor force is consumed, the automation degree is low, the processing efficiency is greatly reduced, the cutters are placed in a net cage 10 through the driving mechanism 3, then the net cage 10 is respectively placed in the ten-groove cleaning bin 2, the cutters are cleaned and cleaned respectively through ten grooves on the ten-groove cleaning bin 2, and the later drying is not needed in the processing process, a great deal of manpower is saved, and the processing efficiency is greatly improved;

the driving mechanism 3 comprises a driving supporting plate 306, a transverse servo motor 9 and a longitudinal servo motor 7 which are fixedly arranged on the driving supporting plate 306, a driving wheel 901 is arranged at the output end of the transverse servo motor 9, a driving groove 402 is formed in the upper side surface of the lower guide strip 4, driving teeth 403 which are meshed with the driving wheel 901 are fixedly arranged in the driving groove 402, the transverse servo motor 9 is used for horizontally pushing the driving mechanism 3, a transmission shaft 701 is arranged at the output end of the longitudinal servo motor 7, a net cage support 8 is arranged on the transmission shaft 701, a net cage 10 is arranged on the net cage support 8, the longitudinal servo motor 7 is used for pushing the net cage 10 up and down, the longitudinal servo motor 7 drives the transmission shaft 701 to rotate when the longitudinal servo motor 7 on the driving mechanism 3 rotates, and drives the driving head 801 of the upper support 8 to move up and down when the transmission shaft 701 rotates, so that the net cage 10 on the net cage support 8 can be driven to move up and down, the net cage 10 can be placed in different ten grooves 2, and cutters in the net cage 10 can be processed, the structure is simple, the use is convenient, the longitudinal servo motor can slide up and down through the longitudinal servo motor 7 conveniently and can slide up and down through the net cage 7;

meanwhile, the driving wheel 901 is meshed with the driving teeth 403 in the driving groove 402 while the driving wheel 901 is driven by the transverse servo motor 9 to rotate, so that the transverse servo motor 9 drives the driving mechanism 3 to transversely move, the degree of automation is high, and the efficiency of cutter treatment is greatly improved;

the ten-tank washing bin 2 includes a high-pressure spray washing tank 201, an ultrasonic rough washing tank 202, a pure water washing tank first 203, an ultrasonic fine washing tank 204, a pure water washing tank second 205, an ultrasonic washing tank 206, a pure water washing tank third 207, a manual blowing tank 208, a hot air drying tank first 209, and a hot air drying tank second 210, and after the net cage 10 is put into the interior of the ten-tank washing bin 2, pure water and a cleaning agent are provided in the high-pressure spray washing tank 201, the ultrasonic rough washing tank 202, the pure water washing tank first 203, the ultrasonic fine washing tank 204, the pure water washing tank second 205, the ultrasonic washing tank 206, the pure water washing tank third 207, the manual blowing tank 208, the hot air drying tank first 209, and the hot air drying tank second 210 by high-pressure spraying the interior of the washing tank 201, the ultrasonic rough washing tank 202, and the ultrasonic fine washing tank 204, pure water is arranged in the pure water rinsing tank I203, the pure water rinsing tank II 205, the ultrasonic rinsing tank 206 and the pure water rinsing tank III 207, a fan is fixedly arranged in the pure water rinsing tank III 207, a heating wire is fixedly arranged on the fan, a high-pressure spray washer is fixedly arranged in the high-pressure spray cleaning tank 201, ultrasonic cleaners are fixedly arranged in the ultrasonic rough rinsing tank 202, the ultrasonic fine rinsing tank 204 and the ultrasonic rinsing tank 206, dryers are fixedly arranged in the hot air drying tank I209 and the hot air drying tank II 210, and operations such as cleaning, ultrasonic cleaning, checking and drying are performed, so that the treatment efficiency is greatly improved;

further, as shown in fig. 5, a motor support 304 is fixedly connected to one side of the driving support plate 306, the motor support 304 is fixedly connected with the transverse servo motor 9, the transverse servo motor 9 is fixed on the motor support 304, the stability of the transverse servo motor 9 is improved, a lower guide clamping piece 305 is fixedly arranged on one side surface of the transverse servo motor 9 away from the driving support plate 306, a guide groove 401 is formed on one side surface of the lower guide strip 4, the lower guide clamping piece 305 is slidably arranged in the guide groove 401, and in the sliding process of the driving support plate 306, the upper guide clamping piece 301 and the lower guide clamping piece 305 on the driving support plate 306 play a role in guiding and positioning the driving support plate 306, so that the stability of transmission of the driving mechanism 3 is ensured;

simultaneously, fixedly provided with drive support arm 101 and direction support arm 102 on the support frame body 1, lower guide bar 4 is fixed to be set up on drive support arm 101, go up guide bar 5 and fixedly set up on guide support arm 102, go up guide bar 5 and set up directly over lower guide bar 4, be provided with spacing dop 501 on going up guide bar 5, the upper end of drive support plate 306 is provided with and goes up direction fastener 301, go up direction fastener 301 and spacing dop 501 and offset, go up the spacing dop 501 on direction fastener 301 and the last guide bar 5 and offset, consequently go up the gliding in-process of direction fastener 301, spacing dop 501 plays certain supporting role.

Further, as shown in fig. 6 and 7, the supporting member driving head 801 is fixedly disposed on the cage supporting member 8, the driving support plate 306 is provided with a guiding slot 303 slidably connected with the supporting member driving head 801, the supporting member driving head 801 is screwed with the driving shaft 701, the bottom of the driving support plate 306 is provided with a driving shaft supporting member 302, the driving shaft 701 is rotatably connected with the driving shaft supporting member 302, the upper end of the cage 10 is slidably connected with the cage supporting member 8, and in the process of rotating the driving shaft 701, the supporting member driving head 801 on the cage supporting member 8 penetrates through the guiding slot 303 and is rotatably connected with the driving shaft 701, so that the driving shaft 701 can drive the cage supporting member 8 and the cage 10 on the cage supporting member 8 to move up and down.

In this embodiment, as shown in fig. 1 and 2, the two sides of the ten-groove cleaning bin 2 are fixedly provided with the conveyors 11, the conveyors 11 are arranged under the lower guide strips 4, in the process of processing the cutters, the cutters are only required to be placed in the net cage 10, then the net cage 10 can be transported by placing the net cage 10 on the conveyors 11, and the processing efficiency is greatly improved.

As shown in fig. 1 to 7, the application method of the ten-groove full-automatic intelligent ultrasonic cleaning device for tool machining provided by the embodiment includes the following steps:

step one: after the lower guide bar 4 and the upper guide bar 5 are fixed on the support frame body 1, the driving mechanism 3 is fixed on the lower guide bar 4 and the upper guide bar 5;

step two: preventing the knife from being inside the cage 10 and then on one conveyor 11 in which the cage 10 is placed;

step three: the net cage support 8 on the driving mechanism 3 slides downwards under the braking of the longitudinal servo motor 7, and after being in interactive connection with the net cage 10, the net cage support 8 is pushed upwards;

step four: the net cage 10 is lifted to the upper part of the ten-groove cleaning bin 2 under the action of the longitudinal servo motor 7, and then horizontally slides under the action of the transverse servo motor 9 on the driving mechanism 3;

step five: the net cage 10 is sequentially penetrated into the ten-groove cleaning bin 2 for cleaning;

step six: after the cleaning is finished, the net cage 10 is placed on another conveyor 11 for transferring.

Certain terms are used throughout the description and claims to refer to particular components. Those of skill in the art will appreciate that a hardware manufacturer may refer to the same component by different names. The description and claims do not take the form of an element differentiated by name, but rather by functionality. As used throughout the specification and claims, the word "comprise" is an open-ended term, and thus should be interpreted to mean "include, but not limited to. By "substantially" is meant that within an acceptable error range, a person skilled in the art can solve the technical problem within a certain error range, substantially achieving the technical effect.

It should be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a product or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such product or system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude that an additional identical element is present in a commodity or system comprising the element.

While the foregoing description illustrates and describes the preferred embodiments of the present application, it is to be understood that the application is not limited to the forms disclosed herein, but is not to be construed as limited to other embodiments, and is capable of numerous other combinations, modifications and environments and is capable of changes or modifications within the scope of the inventive concept as described herein, either as a result of the foregoing teachings or as a result of the knowledge or technology in the relevant art. And that modifications and variations which do not depart from the spirit and scope of the application are intended to be within the scope of the appended claims.

Claims (10)

1. The ten-groove full-automatic intelligent ultrasonic cleaning equipment for cutter machining comprises a support frame body (1) and a ten-groove cleaning bin (2) arranged on the support frame body (1), and is characterized in that an upper guide strip (5) and a lower guide strip (4) are fixedly arranged on the support frame body (1), and a driving mechanism (3) is horizontally arranged on the upper guide strip (5) in a sliding manner;

the driving mechanism (3) comprises a driving support plate (306), a transverse servo motor (9) and a longitudinal servo motor (7) which are fixedly arranged on the driving support plate (306), a driving wheel (901) is arranged at the output end of the transverse servo motor (9), a driving groove (402) is formed in the upper side surface of the lower guide strip (4), driving teeth (403) which are meshed with the driving wheel (901) are fixedly arranged in the driving groove (402), and the transverse servo motor (9) is used for horizontally pushing the driving mechanism (3);

the output end of the longitudinal servo motor (7) is provided with a transmission shaft (701), the transmission shaft (701) is provided with a net cage support piece (8), the net cage support piece (8) is provided with a net cage (10), and the longitudinal servo motor (7) is used for pushing the net cage (10) up and down;

the ten-tank cleaning bin (2) comprises a high-pressure spraying cleaning tank (201), an ultrasonic rough cleaning tank (202), a pure water rinsing tank I (203), an ultrasonic fine cleaning tank (204), a pure water rinsing tank II (205), an ultrasonic rinsing tank (206), a pure water rinsing tank III (207), a manual water blowing tank (208), a hot air drying tank I (209) and a hot air drying tank II (210).

2. The ten-groove full-automatic intelligent ultrasonic cleaning device for cutter machining according to claim 1, wherein: the inside of high-pressure spray washing tank (201) is fixedly provided with the high-pressure spray washer, ultrasonic wave rough wash tank (202) ultrasonic wave fine wash tank (204) and the inside of ultrasonic wave potcher (206) is all fixedly provided with the ultrasonic cleaner, hot-blast drying tank one (209) with the inside of hot-blast drying tank two (210) is fixedly provided with the desicator.

3. The ten-groove full-automatic intelligent ultrasonic cleaning device for cutter machining according to claim 1, wherein: one side of the driving support plate (306) is fixedly connected with a motor support piece (304), and the motor support piece (304) is fixedly connected with the transverse servo motor (9).

4. The ten-groove full-automatic intelligent ultrasonic cleaning device for cutter machining according to claim 1, wherein: the horizontal servo motor (9) is kept away from a side face of the driving support plate (306) and is fixedly provided with a lower guide clamping piece (305), a guide groove (401) is formed in a side face of the lower guide strip (4), and the lower guide clamping piece (305) is slidably arranged in the guide groove (401).

5. The ten-groove full-automatic intelligent ultrasonic cleaning device for cutter machining according to claim 1, wherein: the support frame is characterized in that a driving support arm (101) and a guiding support arm (102) are fixedly arranged on the support frame body (1), the lower guiding strip (4) is fixedly arranged on the driving support arm (101), the upper guiding strip (5) is fixedly arranged on the guiding support arm (102), the upper guiding strip (5) is arranged right above the lower guiding strip (4), a limiting clamping head (501) is arranged on the upper guiding strip (5), an upper guiding clamping piece (301) is arranged at the upper end of the driving support plate (306), and the upper guiding clamping piece (301) is propped against the limiting clamping head (501).

6. The ten-groove full-automatic intelligent ultrasonic cleaning device for cutter machining according to claim 1, wherein: support piece driving head (801) is fixedly arranged on the net cage supporting piece (8), guide grooves (303) which are connected with the support piece driving head (801) in a sliding mode are formed in the driving supporting plate (306), the support piece driving head (801) is connected with the transmission shaft (701) in a screwed mode, a transmission shaft supporting piece (302) is arranged at the bottom of the driving supporting plate (306), the transmission shaft (701) is connected with the transmission shaft supporting piece (302) in a rotating mode, and the upper end of the net cage (10) is connected with the net cage supporting piece (8) in a sliding mode.

7. The ten-groove full-automatic intelligent ultrasonic cleaning device for cutter machining according to claim 1, wherein: pure water and a cleaning agent are arranged in the high-pressure spray cleaning tank (201), the ultrasonic rough cleaning tank (202) and the ultrasonic fine cleaning tank (204), and pure water is arranged in the pure water rinsing tank I (203), the pure water rinsing tank II (205), the ultrasonic rinsing tank (206) and the pure water rinsing tank III (207).

8. The ten-groove full-automatic intelligent ultrasonic cleaning device for cutter machining according to claim 1, wherein: and a fan is fixedly arranged in the pure water rinsing tank III (207), and a heating wire is fixedly arranged on the fan.

9. The ten-groove full-automatic intelligent ultrasonic cleaning device for cutter machining according to claim 1, wherein: the two sides of the ten-groove cleaning bin (2) are fixedly provided with a conveyor (11), and the conveyor (11) is arranged right below the lower guide strip (4).

10. The application method of the ten-groove full-automatic intelligent ultrasonic cleaning equipment for cutter machining is characterized by comprising the following steps of: the method comprises the following steps:

step one: after the lower guide strip (4) and the upper guide strip (5) are fixed on the support frame body (1), the driving mechanism (3) is fixed on the lower guide strip (4) and the upper guide strip (5);

step two: preventing the knife from being inside the cage (10) and then on a conveyor (11) in which the cage (10) is placed;

step three: the net cage supporting piece (8) on the driving mechanism (3) slides downwards under the braking of the longitudinal servo motor (7), and after being in interactive connection with the net cage (10), the net cage supporting piece (8) is pushed upwards;

step four: the net cage (10) is lifted to the upper part of the ten-groove cleaning bin (2) under the action of the longitudinal servo motor (7), and then horizontally slides under the action of the transverse servo motor (9) on the driving mechanism (3);

step five: the net cage (10) is sequentially penetrated into the ten-groove cleaning bin (2) for cleaning;

step six: after the cleaning is finished, the net cage (10) is placed on another conveyor (11) for transferring.