CN219003880U - Energy-saving cleaning device for wire winding tube - Google Patents

Abstract

The utility model discloses an energy-saving cleaning device for a wire winding tube, which relates to the technical field of cleaning equipment for wire winding tubes. The device comprises an execution device, a driving brush roller and a spraying device, wherein a gap capable of accommodating a piece to be cleaned is formed in the middle of each driving brush roller, a rotation output end of the driving device is connected with and drives the driving brush roller to rotate, a spraying opening of the spraying device is located at the upper portion of the gap and faces the gap so as to spray cleaning liquid to the piece to be cleaned, and the control device is in signal connection with the driving device and the spraying device. Above-mentioned belt cleaning device produces the friction through the rotation of initiative brush roll with wait to clean the piece to with wait to clean dirty the washing of piece surface, can clean a clean piece of waiting fast, effectively improve work efficiency, and need not artifical scrubbing, greatly reduced artificial intensity of labour.

Description

Energy-saving cleaning device for wire winding tube

Technical Field

The utility model relates to the technical field of cleaning equipment, in particular to an energy-saving cleaning device for a wire winding tube.

Background

The method mainly uses a textile material type winding tube (such as polyester-nylon material) for winding glass fibers in the roving drawing process of glass fibers, the organic matters on the outer surface of the winding tube accumulate to form scales, the glass fibers are adhered after being dried, namely, the glass fibers are adhered, the tap quantity of the inner layer and the outer layer of a spinning cake is obviously increased under the condition of sticking, the yield loss of a finished product is caused, the scales on the surface of the winding tube can drop slag to pollute the finished product of the glass fibers, and the grade of the finished product is reduced, and the production cost is increased under the conditions.

At present, the cleaning work of the polyester-nylon wire forming tube must be continuously carried out under the condition that no better material is replaced. At present, acetone or a chemical cleaning agent is commonly used in the glass fiber industry for soaking and then manually scrubbing, and because the chemical cleaning agent has obvious peculiar smell and has certain health risks to human bodies, better ventilation and explosion prevention conditions and more safety protection measures are required in manual operation. And the manual reuse of the steel wire ball is used for brushing, so that the operation efficiency is low, and each wire winding tube is generally required to be cleaned for about 1 minute, so that the cleaning efficiency of the polyester-nylon wire winding tube is extremely low, and the production cost of glass fibers is influenced.

In view of the above, it is a problem to be solved by those skilled in the art at present how to change the current situation of low cleaning efficiency of the forming tube.

Disclosure of Invention

Therefore, the utility model aims to provide the energy-saving cleaning device for the wire winding tube, which has the advantages of high working efficiency, labor cost saving, safety and environmental protection.

In order to achieve the above object, the present utility model provides the following technical solutions:

an energy efficient cleaning apparatus for forming tubes, comprising:

the actuating device comprises a driving device, a driving brush roller and a spraying device, a gap capable of accommodating a piece to be cleaned is arranged between the two driving brush rollers, a rotation output end of the driving device is connected with and drives the driving brush roller to rotate, and a spraying opening of the spraying device is positioned at the upper part of the gap and faces the gap so as to spray cleaning liquid to the piece to be cleaned;

and the control device is in signal connection with the driving device and the spraying device.

Preferably, the executing device further comprises an adjusting device, the driving brush rollers are arranged in parallel, the number of the driving brush rollers on the upper layer is equal to that of the driving brush rollers on the lower layer, a gap for accommodating a piece to be cleaned is arranged between the driving brush rollers, and the adjusting device can be used for respectively adjusting the rotating speed and the rotating direction of the driving brush rollers on the upper layer and the driving brush rollers on the lower layer.

Preferably, the executing device further comprises a driven brush roller, and the driven brush roller is rotatably arranged between the adjacent driving brush rollers in the same layer so as to assist in driving the cleaning piece.

Preferably, the driving device comprises a motor, a driving toothed belt wheel, a synchronous belt and a driven toothed belt wheel, an output shaft of the motor is connected with the driving toothed belt wheel, the driving toothed belt wheel and the driven toothed belt wheel are meshed with the synchronous belt, and the driven toothed belt wheel is fixedly connected with a rotating shaft of the driving brush roller.

Preferably, the motor is a speed regulating motor, the adjusting device is a frequency converter, and the frequency converter is connected with the speed regulating motor.

Preferably, the driving device further comprises a sliding rail, the sliding rail is perpendicular to the upper layer and the lower layer of the driving brush roller, and a rotating shaft of the driving brush roller is slidably arranged on the sliding rail.

Preferably, the spraying device comprises a water tank, a pipeline, a spraying pipe and a spraying head, wherein the water tank is connected with the pipeline, the pipeline is connected with the spraying pipe, and the spraying pipe is connected with the spraying head.

Preferably, the spraying device further comprises a water heater, a bypass pipeline and a bypass valve, wherein the water heater is connected with the bypass pipeline, the bypass pipeline is connected with the bypass valve, and the bypass valve is connected with the spraying pipe.

Preferably, the device further comprises a shell, wherein the shell is sleeved outside the executing device, and the shell is provided with a feed inlet and a discharge outlet.

Preferably, the cleaning device further comprises a pre-soaking pool for soaking the cleaning piece, wherein the pre-soaking pool is arranged outside the shell and is positioned at one end of the feeding port.

The utility model provides an energy-saving cleaning device for a wire winding tube, which comprises an executing device and a control device, wherein the control device is communicated with a driving device and a spraying device, so that the starting and stopping of the driving device, the starting and stopping of the spraying device, the water quantity and the like can be controlled, and the cleaning device can run smoothly; the rotation output shaft of the driving device is connected with the driving brush rollers to drive the driving brush rollers to rotate, a gap is arranged between the two driving brush rollers and can accommodate a piece to be cleaned, when the driving brush rollers rotate, the active brush roller rubs with the surface of the to-be-cleaned piece placed in the gap between the active brush roller and the to-be-cleaned piece, so that dirt on the surface of the to-be-cleaned piece can be cleaned; the spraying device is arranged above the gap and faces the gap, so that cleaning liquid can be sprayed to the to-be-cleaned piece.

The spraying device plays a role in soaking the to-be-cleaned piece, the driving brush roller rotates under the driving of the driving device, the to-be-cleaned piece is arranged in a gap between the two driving brush rollers, so that the driving brush roller brushes off dirt on the surface of the to-be-cleaned piece, and at the moment, the spraying device sprays the cleaning liquid to the to-be-cleaned piece to take away the brushed dirt together, so that the cleaning of the to-be-cleaned piece is completed. The cleaning device generates friction with the cleaning piece through the rotation of the driving brush roller, so that dirt on the surface of the cleaning piece is cleaned, the cleaning piece can be quickly cleaned, the working efficiency is effectively improved, manual brushing is not needed, and the manual labor intensity is greatly reduced.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front view of an embodiment of the present utility model;

fig. 2 is a top view of an embodiment of the present utility model.

In fig. 1 and 2, reference numerals include:

the device comprises an executing device 1, a driving device 11, a driving toothed belt wheel 111, a synchronous belt 112, a driven toothed belt wheel 113, a driving brush roller 12, a spraying device 13, a water tank 131, a pipeline 132, a spraying pipe 133, a spraying head 134, a bypass valve 135, a driven brush roller 14, a control device 2, a shell 3, a feed inlet 4, a discharge port 5 and a presoaking tank 6.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The core of the utility model is to provide an energy-saving cleaning device for a wire winding tube, which has high working efficiency, labor cost saving, safety and environmental protection.

Referring to fig. 1 and 2, fig. 1 is a front view of an embodiment of the present utility model; fig. 2 is a top view of an embodiment of the present utility model.

The utility model provides an energy-saving cleaning device for a wire forming tube, which comprises an executing device 1 and a control device 2. The executing device 1 comprises a driving device 11, a driving brush roller 12 and a spraying device 13, wherein a gap capable of containing a piece to be cleaned is arranged between the two driving brush rollers 12, the rotation output end of the driving device 11 is connected and drives the driving brush roller 12 to rotate, and a spraying opening of the spraying device 13 is positioned at the upper part of the gap and faces the gap so as to spray cleaning liquid to the piece to be cleaned; the control device 2 is in signal connection with the driving device 11 and the spraying device 13.

Specifically, the control device 2 and the driving device 11 are in signal communication, so that the start and stop of the executing device 1, the start and stop of the spraying device 13, the water quantity and the like can be controlled, and the executing device 1 can run smoothly. The driving device 11 in the executing device 1 is connected with the driving brush roller 12 by a rotating output shaft to drive the driving brush roller 12 to rotate, preferably, a nylon brush roller is used as the driving brush roller 12, and nylon brush hair is softer and does not scratch the surface of a piece to be cleaned to influence the cleaning effect; the middle of the two driving brush rolls 12 is provided with a gap, a piece to be cleaned is placed in the gap between the two driving brush rolls 12, and when the driving brush rolls 12 rotate, the bristles of the driving brush rolls 12 rub against the surface of the piece to be cleaned placed in the gap between the two driving brush rolls, so that dirt on the surface of the piece to be cleaned is cleaned; the spraying device 13 is arranged above the gap and sprays cleaning liquid to the to-be-cleaned piece towards the gap, the spraying device 13 plays a role in soaking the to-be-cleaned piece at the beginning, and after dirt on the surface of the to-be-cleaned piece is scrubbed by the driving brush roller 12, the cleaning liquid sprayed by the spraying device 13 flushes the dirt, so that the to-be-cleaned piece is cleaned.

When the cleaning device is used, a power source and a water source are connected, the driving device 11 and the spraying device 13 are controlled by the control device 2 to start working, the spraying device 13 sprays cleaning liquid to infiltrate the cleaning piece, the cleaning piece is placed in a gap between the driving brush rollers 12, the driving brush rollers 12 brush dirt on the surface of the cleaning piece, at the moment, the spraying device 13 still sprays the cleaning liquid to the cleaning piece to take away the dirt brushed by the driving brush rollers 12, and after the cleaning is completed, the cleaning piece is taken away, so that the cleaning of the cleaning piece is completed. The device work efficiency is high, and the operator only needs material loading, unloading, alleviates the cost of labor greatly, and uses to spray and replace chemical reagent to soak greatly reduced operator's dangerous degree and to the pollution of environment.

Further, water with proper temperature is used as cleaning solution, so that dirt adhered to organic matters on the surface of the wire forming tube is softened and washed away, and the environmental pollution of chemical cleaning agents can be reduced to the greatest extent; furthermore, the water receiving tank is arranged below the device, and the wastewater generated in the cleaning process is filtered by the water receiving tank at the lower part and then is uniformly collected, circulated and reused, so that the environmental pollution is reduced and the energy is saved.

On the basis of the above embodiment, the executing device 1 further includes an adjusting device, where a plurality of active brush rollers 12 are arranged in parallel, the number of active brush rollers 12 on the upper layer is equal to that of active brush rollers 12 on the lower layer, and a gap for accommodating a cleaning member is provided therebetween, and the adjusting device can be used for respectively adjusting the rotation speed and the rotation direction of the active brush rollers 12 on the upper layer and the active brush rollers 12 on the lower layer.

Specifically, as shown in fig. 1, the driving brush rollers 12 are arranged in pairs in two layers parallel up and down, and each driving brush roller 12 is parallel, so that under the transmission of a plurality of pairs of driving brush rollers 12, along with the rotation of the driving brush rollers 12, the cleaning piece moves towards the tangential direction of the rotation of the driving brush rollers 12; in addition, the adjusting device can respectively adjust the rotation speed and the rotation direction of the upper layer driving brush roller 12 and the lower layer driving brush roller 12, so that the cleaning piece can move towards the tangential direction of rotation, and the driving brush roller 12 can brush off dirt on the surface of the cleaning piece, for example, the lower layer driving brush roller 12 rotates clockwise and has high rotation speed, so that the cleaning piece is transmitted to the right end, and the upper layer driving brush roller 12 rotates anticlockwise, so that the dirt on the surface of the cleaning piece is brushed. Of course, the rotational speed and the steering of the upper and lower driving brush rolls 12 are not limited to the above examples, as long as the cleaning member can be driven between the two driving brush rolls 12 and the dirt on the surface of the cleaning member can be brushed off.

When the cleaning device is used, a power source and a water source are connected, the driving device 11 and the spraying device 13 are controlled by the control device 2 to start working, the spraying device 13 sprays cleaning liquid to infiltrate the cleaning piece, at the moment, an operator places the cleaning piece at the inlet position of the two layers of driving brush rollers 12, the cleaning piece can move forwards under the driving of friction force generated by rotation of the driving brush rollers 12, in the forward moving process, the cleaning piece is continuously sprayed by the cleaning liquid, after repeatedly passing through a plurality of pairs of driving brush rollers 12, dirt adhered on the surface of the cleaning piece is quickly cleaned by the friction force after being expanded and softened by the cleaning agent, and the cleaning piece is washed away from the surface of the cleaning piece under the flushing of the cleaning liquid sprayed by the spraying device 13, and finally the cleaned cleaning piece is sent out from the outlet position of the two layers of driving brush rollers 12, so that one-time cleaning work flow of the cleaning piece is completed.

The friction force of the double-layer brush roller rotating rapidly cleans the organic matter adhesive dirt on the surface of the piece to be cleaned, so that one piece to be cleaned can be cleaned rapidly and once, the cleaning efficiency of the piece to be cleaned is greatly improved, and the industrial mass production is facilitated; the operator is only responsible for putting in and not taking out, so that the labor intensity is greatly reduced.

Further, the plane where the upper and lower driving brush rolls 12 are located is inclined, and one end of the cleaning piece is higher than one end of the cleaning piece, which is moved out, so that the cleaning piece can smoothly move between the upper and lower driving brush rolls 12, and the clamping phenomenon of the cleaning piece in the transmission process is effectively avoided.

On the basis of the above embodiment, the executing device 1 further comprises a driven brush roller 14, wherein the driven brush roller 14 is rotatably arranged between the adjacent driving brush rollers 12 in the same layer to assist in driving the cleaning member.

Specifically, as shown in fig. 1, the driven brush roller 14 is disposed between two adjacent driving brush rollers 12 on the same layer, and when the cleaning member is driven to the position of the driven brush roller 14, the driven brush roller 14 can rotate along with the movement of the cleaning member. When the cleaning device is used, a cleaning piece reaches the position of the driven brush roller 14 after being brushed by the pair of driving brush rollers 12, the driven brush roller 14 rotates along with the movement of the cleaning piece, the cleaning piece is effectively prevented from being clamped between two adjacent driving brush rollers 12, the cleaning piece is guided to move towards the next driving brush roller 12 correctly, and the possibility that the cleaning piece reaches the outlet positions of the two layers of driving brush rollers 12 and the driven brush roller 14 smoothly is improved. Of course, any other method may be used herein, as long as the cleaning member is prevented from being clamped to the adjacent active brush roller 12, so as to perform a guiding function.

On the basis of the above embodiment, the driving device 11 includes a motor, a driving toothed belt pulley 111, a synchronous belt 112, and a driven toothed belt pulley 113, wherein an output shaft of the motor is connected to the driving toothed belt pulley 111, the driving toothed belt pulley 111 and the driven toothed belt pulley 113 are both meshed with the synchronous belt 112, and the driven toothed belt pulley 113 is fixedly connected to a rotating shaft of the driving brush roller 12.

Specifically, the output shaft of the motor is connected with a driving toothed belt pulley 111, so that the output shaft of the motor rotates to drive the driving toothed belt pulley 111 connected with the motor to rotate; the peripheral surfaces of the driving toothed belt wheel 111 and the driven toothed belt wheel 113 are provided with gear teeth which can be meshed with the gear teeth of the synchronous belt 112, and when the driving toothed belt wheel 111 rotates, the gear teeth of the driving toothed belt wheel are meshed with the gear teeth of the synchronous belt 112, so that the synchronous belt 112 can move, and the driven toothed belt wheel 113 can be driven to rotate; the driven toothed pulley 113 is fixed to the rotation shaft of the driving brush roller 12, and the driving brush roller 12 rotates synchronously with the driven toothed pulley 113 by welding, coupling, or the like.

When the cleaning device is used, the power supply is connected to provide power for the executing device 1, the output shaft of the motor starts to rotate to drive the driving toothed belt wheel 111, the rotation of the driving toothed belt wheel 111 drives the synchronous belt 112 to move, the synchronous belt 112 drives the driven toothed belt wheel 113 to rotate, and then the driving brush roller 12 starts to rotate under the drive of the driven toothed belt wheel 113, so that the cleaning device is more energy-saving, and is rapid in response and improves the cleaning efficiency. Of course, any other type of driving device 11 may be used as long as the actuator 1 can be driven.

Furthermore, the circuits and the electric devices such as the motors in the driving device 11 adopt waterproof insulation designs such as water isolation and the like, so that the risks of electric leakage, electric shock and the like are avoided; furthermore, the metal parts which can be contacted with water are all made of stainless steel, so that the phenomena of part damage or unclean cleaning caused by rust are avoided.

On the basis of the embodiment, the motor is a speed regulating motor, the adjusting device is a frequency converter, and the frequency converter is connected with the speed regulating motor.

Specifically, a speed-adjusting motor is used, the adjusting devices capable of respectively adjusting the rotation speed and the rotation direction of the upper active brush roll 12 and the lower active brush roll 12 are frequency converters, and the motor is connected with the frequency converters.

When the cleaning device is used, after the power is switched on, the frequency device outputs proper current to the motor, the motor rotates at proper speed and direction, and the rotating speed and the steering direction of the driven toothed belt wheel 113 are regulated through the synchronous belt 112, so that the rotating speed and the steering direction of the driving brush roller 12 fixedly connected with the motor are regulated, the regulation of the rotating speed and the steering direction of the driving brush roller 12 is realized, the proper rotating speed and the steering direction are matched for a cleaning piece, the energy consumption can be reduced, bearable brushing force which does not damage the surface of the cleaning piece is applied to the cleaning piece, and the surface of the cleaning piece is protected from being damaged.

On the basis of the above embodiment, the driving device 11 further includes a sliding rail perpendicular to the upper and lower driving brush rollers 12, and the rotating shaft of the driving brush roller 12 is slidably disposed on the sliding rail.

Specifically, the sliding rail is perpendicular to the upper layer and the lower layer of driving brush roller 12, and the rotating shaft of the driving brush roller 12 can slide along the sliding rail, so that the perpendicular distance between the two layers of driving brush rollers 12 can be adjusted, and the cleaning piece can be guaranteed to pass through and be scrubbed cleanly. It should be noted that the sliding rail is not limited herein, as long as the vertical distance between the two active brush rolls 12 can be adjusted.

Further, a locking device may be disposed on the sliding rail, for example, a locking screw may be disposed at a position where the driving brush roller 12 moves along the sliding rail, or a sliding rail with a locking function may be adopted to fix the driving brush roller 12 at different positions, so as to prevent a vertical distance between the upper and lower driving brush rollers 12 from being changed when the device cleans a workpiece to be cleaned.

Optionally, the sliding rail may further include a plurality of slots vertically disposed on the upper and lower active brush rolls 12, and the rotating shaft of the active brush roll 12 may be clamped in the slots, and when in use, the rotating shaft of the active brush roll 12 is adjusted to be clamped in different slots, so as to adjust the vertical distance between the two active brush rolls 12.

On the basis of any one of the above embodiments, the spraying device 13 includes a water tank 131, a pipeline 132, a spraying pipe 133 and a spraying head 134, the water tank 131 is connected with the pipeline 132, the pipeline 132 is connected with the spraying pipe 133, and the spraying pipe 133 is connected with the spraying head 134.

Specifically, the water tank 131 is filled with water at a certain temperature, and when the water tank is used as cleaning solution, warm water flows into the spray pipe 133 through the pipeline 132, so that the warm water is sent to the spray header 134, and the spray header 134 sprays the warm water into a gap between the two driving brush rollers 12 arranged in pairs, so that a piece to be cleaned is immersed or flushed.

Further, a reserve tank is provided to provide water to the tube forming device for stable operation when the tank 131 is not providing sufficient water at a temperature. Furthermore, the water tank 131 can be used for recycling the heated water in the production process, such as the warm water generated by heating the heat exchange coil of the glass fiber tank furnace, so as to save energy and reduce consumption. Furthermore, a flow control device, such as a throttle valve, is arranged on the bypass pipeline, and is regulated according to the actual conditions of the dirt on the surface of the to-be-cleaned piece or the brushed condition of the to-be-cleaned piece, so that a proper amount of water is sprayed to the to-be-cleaned piece, and the energy consumption is saved and the environment is protected on the premise of meeting the actual requirements.

On the basis of the above embodiment, the spraying device 13 further comprises a water heater, a bypass pipeline and a bypass valve 135, wherein the water heater is connected with the bypass pipeline, the bypass pipeline is connected with the bypass valve 135, and the bypass valve 135 is connected with the spraying pipe 133.

Specifically, the water heater is a device for heating water, and the bypass valve 135 is connected to the bypass line, and the bypass valve 135 controls whether or not water of a predetermined temperature flowing from the water heater flows into the shower pipe 133. In use, when the water tank 131 is not able to provide water of sufficient temperature, the bypass valve 135 is opened and the water heater is switched to supply water.

Further, the solar water heater has the advantages of environmental protection, easy acquisition and the like, so that the wire winding tube cleaning device is more commonly used by people and has lower cost.

On the basis of any one of the embodiments, the device further comprises a shell 3, the shell 3 is sleeved outside the execution device 1, and the shell 3 is provided with a feed inlet 4 and a discharge outlet 5.

Specifically, the outer cover 3 of the actuator 1 is covered to prevent splashing of the cleaning liquid; and the shell 3 is provided with a feed inlet 4 and a discharge outlet 5, so that operators are protected from being injured by the rotating driving brush roller 12. Preferably, the feeding hole 4 is arranged obliquely above the driving brush roller 12, so that an operator can put a piece to be cleaned into the middle of the driving brush roller 12 from the feeding hole, and the piece to be cleaned can enter the middle of the driving brush roller 12 autonomously, so that the operator is protected from being injured due to overfeeding.

On the basis of the embodiment, the cleaning device further comprises a pre-soaking tank 6 for soaking the to-be-cleaned piece, and the pre-soaking tank is arranged outside the shell 3 and is positioned at one end of the feed inlet 4.

Specifically, the pre-soaking pool 6 is a pool filled with cleaning liquid, and the pre-soaking pool 6 is arranged outside the shell 3 and is positioned at one end of the feeding port 5 of the shell 3. During the use, pour into the washing liquid in presoaking pond 6, before putting into executive device 1 to wash to wait to clean the piece, put into presoaking pond 6 to soak to wait to clean the piece, the dirty that waits to clean piece surface bonding carries out the preliminary treatment, can be faster accomplish the washing of a piece of waiting to clean, effectively improve cleaning efficiency, and set up presoaking pond 6 at the one end of the pay-off mouth 5 of shell 3, very easy alright send into executive device 1 with waiting to clean the piece, save time and manpower.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The energy-saving cleaning device for the wire forming tube provided by the utility model is described in detail above. The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (10)

1. An energy efficient cleaning apparatus for forming tubes, comprising:

the execution device (1) comprises a driving device (11), a driving brush roller (12) and a spraying device (13), a gap capable of accommodating a piece to be cleaned is arranged between the two driving brush rollers (12), the rotation output end of the driving device (11) is connected with and drives the driving brush roller (12) to rotate, and a spraying opening of the spraying device (13) is positioned at the upper part of the gap and faces the gap so as to spray cleaning liquid to the piece to be cleaned;

and the control device (2) is in signal connection with the driving device (11) and the spraying device (13).

2. The energy-saving cleaning device for a wire winding tube according to claim 1, wherein the executing device (1) further comprises an adjusting device, a plurality of active brush rollers (12) are arranged in parallel, the number of active brush rollers (12) on the upper layer is equal to that of active brush rollers (12) on the lower layer, a gap for containing a piece to be cleaned is arranged between the active brush rollers (12) on the upper layer and the active brush rollers (12) on the lower layer, and the adjusting device can be used for respectively adjusting the rotating speed and the rotating direction of the active brush rollers (12) on the upper layer and the rotating speed and the rotating direction of the active brush rollers (12) on the lower layer.

3. The energy-efficient cleaning apparatus for forming tubes according to claim 2, wherein the actuator (1) further comprises a driven brush roll (14), the driven brush roll (14) being rotatably disposed between adjacent ones of the driving brush rolls (12) in the same layer to assist in driving the cleaning member.

4. The energy-saving cleaning device for wire winding tubes according to claim 2, wherein the driving device (11) comprises a motor, a driving toothed belt wheel (111), a synchronous belt (112) and a driven toothed belt wheel (113), an output shaft of the motor is connected with the driving toothed belt wheel (111), the driving toothed belt wheel (111) and the driven toothed belt wheel (113) are meshed with the synchronous belt (112), and the driven toothed belt wheel (113) is fixedly connected with a rotating shaft of the driving brush roll (12).

5. The energy efficient cleaning apparatus for forming tubes of claim 4 wherein the motor is a speed motor and the adjusting means is a frequency converter connected to the speed motor.

6. The energy-saving cleaning device for a wire forming tube according to claim 4, wherein the driving device (11) further comprises a sliding rail, the sliding rail is perpendicular to the upper layer and the lower layer of the driving brush roller (12), and a rotating shaft of the driving brush roller (12) is slidably arranged on the sliding rail.

7. The energy-saving cleaning device for forming tubes according to any one of claims 1 to 6, characterized in that the spraying device (13) comprises a water tank (131), a pipeline (132), a spraying pipe (133) and a spraying head (134), the water tank (131) is connected with the pipeline (132), the pipeline (132) is connected with the spraying pipe (133), and the spraying pipe (133) is connected with the spraying head (134).

8. The energy-efficient cleaning apparatus for forming tubes according to claim 7, characterized in that the spraying device (13) further comprises a water heater, a bypass line and a bypass valve (135), the water heater being connected to the bypass line, the bypass line being connected to the bypass valve (135), the bypass valve (135) being connected to the spraying tube (133).

9. The energy-saving cleaning device for forming tubes according to any one of claims 1 to 6, further comprising a housing (3), wherein the housing (3) is sleeved outside the executing device (1), and wherein the housing (3) is provided with a feed inlet (4) and a discharge outlet (5).

10. The energy-saving cleaning device for forming tubes according to claim 9, further comprising a pre-soaking tank (6) for soaking the piece to be cleaned, which is arranged outside the housing (3) and at one end of the feed inlet (4).

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