A data cable cleaning device

The rotating cleaning and quick-fixing structure of the data cable cleaning device solves the problems of cleaning dead corners and inconvenient fixing of connector shells in data cable cleaning devices, achieving efficient cleaning and protection and simplifying the operation process.

CN224423629UActive Publication Date: 2026-06-30DONGGUAN JIEXUN ELECTRONIC TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGGUAN JIEXUN ELECTRONIC TECH CO LTD
Filing Date
2025-07-16
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing data cable cleaning devices are prone to creating blind spots during the cleaning process, and the connector housing is inconvenient to fix and easily damaged.

Method used

A data cable cleaning device was designed. By fixing a second motor to the connecting block and opening a slot in the fixing block, the data cable body is rotated. Combined with a hydraulic cylinder and a motor-driven slider system, the data cable is rotated for cleaning. A pull rod and spring structure is used to quickly fix the connector shell, a flexible rubber block is used to reduce friction damage, and a collection box is set to collect the dripping cleaning fluid.

Benefits of technology

It effectively reduces cleaning dead spots, improves cleaning efficiency, simplifies the fixing process of connector housing, protects connector housing, and facilitates the recycling of cleaning fluid.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224423629U_ABST
    Figure CN224423629U_ABST
Patent Text Reader

Abstract

This utility model belongs to the field of data cable manufacturing technology, specifically a data cable cleaning device, including a housing. A first motor is fixedly connected to the housing, and a screw is fixedly connected to the output end of the first motor. The screw and the housing are connected through each other. The output end of the second motor and a connecting block are connected through each other. A slot is provided on the fixing block, and a fixing component is provided on the fixing block. A feed inlet is provided on the water tank, and a filling port is provided on the housing. By fixing a second motor to the connecting block and fixing a fixing block to the output end of the second motor, and by fixing a slot on the fixing block, when the data cable body is fixed between a pair of fixing blocks during use, the data cable body can be rotated by activating a pair of second motors. This allows the cleaning sponge to better clean the data cable body and reduces the possibility of cleaning dead corners when cleaning stationary data cables.
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Description

Technical Field

[0001] This utility model belongs to the field of data cable production technology, specifically a data cable cleaning device. Background Technology

[0002] A data cable is a cable used to connect electronic devices such as mobile phones, computers, and tablets to power or data transmission interfaces. It typically consists of the cable itself, connectors such as USB plugs, adapters, data plugs, and protective sleeves.

[0003] Data cable cleaning devices are tools specifically designed to clean dust, stains, or debris from the surface of data cables. They improve cleaning efficiency and protect device interfaces. They consist of a sliding collar, cleaning cotton, a control box containing a pressure sensor, a battery, a microcontroller, and a cleaning agent spraying system.

[0004] Existing data cable cleaning devices typically clean the data cable by using a sliding collar or cleaning cotton on the outside of the cable. However, after long-term use and observation, it has been found that this cleaning method creates blind spots for cleaning because the data cable is stationary. Therefore, a new data cable cleaning device is proposed to address this problem. Utility Model Content

[0005] To overcome the shortcomings of existing technologies and address the problems existing in current equipment, this utility model proposes a data cable cleaning device.

[0006] The technical solution adopted by this utility model to solve its technical problem is a data cable cleaning device, including a housing, a first motor fixedly connected to the housing, a screw fixedly connected to the output end of the first motor, the screw and the housing being through-connected, a slider threadedly connected to the screw, a guide groove provided on the housing, the slider and the guide groove being in sliding fit, a water tank fixedly connected to the slider, a connecting plate fixedly connected to the bottom of the slider, the connecting plate being a hollow structure, a connecting pipe connecting the water tank and the connecting pipe, an electronic control valve provided at the connection point of the water tank and the connecting pipe, a cleaning sponge connected to the connecting plate, a pair of hydraulic cylinders fixedly connected to the inner side wall of the housing, a connecting block fixedly connected to the output end of the hydraulic cylinders, the connecting block... A second motor is fixedly connected to the top, and a fixing block is fixedly connected to the output end of the second motor. The output end of the second motor and the connecting block are connected through each other. A slot is opened on the fixing block, and a fixing component is provided on the fixing block. A feed inlet is opened on the water tank, and a filling port is opened on the box body. By fixing the second motor to the connecting block and the fixing block to the output end of the second motor, and by opening a slot on the fixing block, when the data cable body is fixed between a pair of fixing blocks during use, the data cable body can be rotated by turning on a pair of second motors. This allows the cleaning sponge to clean the data cable body better and reduces the situation of cleaning dead corners when cleaning a stationary data cable during use.

[0007] Preferably, the fixing component includes a pull rod, the pull rod and the fixing block are connected through each other, a pressure block is fixed to the end of the pull rod, a first spring is fixed to the outside of the pull rod, the pull rod is located inside the first spring, a pair of first telescopic rods are fixed between the pressure block and the fixing block, a second spring is fixed to the outside of the first telescopic rods, and a rubber pad is fixed to the pressure block. By fixing a pressure block to the end of the pull rod and fixing a first spring to the outside of the pull rod, the connector housing can be placed in the slot and fixed more quickly during use, reducing the inconvenience of fixing the connector housing during use.

[0008] Preferably, two sets of second telescopic rods are fixedly connected in the slot, and a clamping block is fixedly connected to the end of one set of second telescopic rods. A third spring is fixedly connected between the slot and the clamping block, and the second telescopic rod is located inside the third spring. By fixing the clamping block to the end of the second telescopic rod and providing a third spring outside the second telescopic rod, the connector housing can be clamped and fixed when placed between a pair of clamping blocks during use. This reduces the possibility of the connector housing sliding inside the slot when the fixing block rotates during use because there is no support on both sides of the connector housing.

[0009] Preferably, a pair of fixing strips are fixedly connected to the clamping block, and a roller is rotatably connected between the pair of fixing strips. By rotatably connecting multiple rubber blocks between the pair of fixing strips, the connector housing can be made to contact multiple rollers during use, reducing the possibility of damage to the connector housing due to excessive friction when the connector housing contacts the clamping block.

[0010] Preferably, a rubber block is fixed to the clamping block. The rubber block is made of a flexible material. By fixing the clamping block to the clamping block, the rubber block can be made to contact the connector housing during use, reducing the possibility of the slot sliding due to low friction when the clamping block and the connector housing are in contact. At the same time, it can reduce the possibility of damage to the connector housing when a pair of clamping blocks directly clamp and fix the connector housing.

[0011] Preferably, a collection box is fixed to the inner side wall of the box, and the collection box and the cleaning sponge are correspondingly set. By fixing the collection box to the box, the dripping cleaning liquid can be collected in a unified manner during use, which facilitates the unified treatment and recycling of the collected cleaning liquid in the future. At the same time, it can reduce the situation where the cleaning liquid falls onto the surface of the box and causes pollution to the surface of the box.

[0012] The advantages of this utility model are:

[0013] This utility model provides a data cable cleaning device. By fixing a second motor to the connecting block and fixing a fixed block to the output end of the second motor, and providing a slot on the fixed block, the data cable body can be rotated by turning on the pair of second motors after the data cable body is fixed between a pair of fixed blocks during use. This allows the cleaning sponge to clean the data cable body more effectively and reduces the possibility of cleaning dead corners when cleaning stationary data cables.

[0014] This utility model provides a data cable cleaning device. By fixing a pressure block to the end of the pull rod and fixing a first spring to the outside of the pull rod, the connector shell can be placed in the slot and fixed more quickly during use, reducing the inconvenience of fixing the connector shell during use. Attached Figure Description

[0015] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0016] Figure 1 This is a schematic diagram of the main body of this utility model;

[0017] Figure 2 This is a schematic diagram of the hydraulic cylinder in this utility model;

[0018] Figure 3 This is a schematic diagram of the water tank structure in this utility model;

[0019] Figure 4 This is a schematic diagram of the structure of the fixing block in this utility model;

[0020] Figure 5 This is a schematic diagram of the tie rod in this utility model;

[0021] Figure 6 This is a schematic diagram of the structure of the roller in this utility model;

[0022] Figure 7 This is a schematic diagram of the structure of the collection box in this utility model.

[0023] In the diagram: 1. Box body; 11. First motor; 12. Screw; 13. Slider; 14. Guide groove; 15. Water tank; 16. Connecting plate; 17. Connecting pipe; 18. Cleaning sponge; 19. Hydraulic cylinder; 110. Connecting block; 111. Second motor; 112. Fixing block; 113. Slot; 114. Fixing assembly; 115. Feed inlet; 116. Feeding port; 2. Pull rod; 21. Pressure block; 22. First spring; 23. First telescopic rod; 24. Second spring; 25. Rubber pad; 3. Second telescopic rod; 31. Clamping block; 32. Third spring; 4. Fixing strip; 41. Roller; 5. Rubber block; 6. Collection box; 7. Control box. Detailed Implementation

[0024] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of the present utility model.

[0025] Please see Figures 1-7As shown, a data cable cleaning device includes a housing 1. A first motor 11 is fixedly connected to the housing 1. A screw 12 is fixedly connected to the output end of the first motor 11. The screw 12 and the housing 1 are connected through each other. A slider 13 is threadedly connected to the screw 12. A guide groove 14 is provided on the housing 1. The slider 13 and the guide groove 14 are in sliding fit. A water tank 15 is fixedly connected to the slider 13. A connecting plate 16 is fixedly connected to the bottom of the slider 13. The connecting plate 16 is a hollow structure. A connecting pipe 17 connects the water tank 15 and the connecting plate 16. An electronic control valve is provided at the connection between the water tank 15 and the connecting pipe 17. A cleaning sponge 18 is connected to the connecting plate 16. A pair of hydraulic cylinders are fixedly connected to the inner wall of the housing 1. 19. A connecting block 110 is fixedly connected to the output end of the hydraulic cylinder 19. A second motor 111 is fixedly connected to the connecting block 110. A fixing block 112 is fixedly connected to the output end of the second motor 111. The output end of the second motor 111 and the connecting block 110 are connected through each other. A slot 113 is provided on the fixing block 112. A fixing component 114 is provided on the fixing block 112. A feed inlet 115 is provided on the water tank 15. A filling inlet 116 is provided on the housing 1. When the data cable body is packaged after production, the surface of the data cable body needs to be cleaned to remove the dust that has adhered to the surface of the data cable body during the production process. At this time, a pair of hydraulic cylinders 1 are controlled by the control box 7 provided on the housing 1. 9 drives the connecting block 110 to move away from the cleaning sponge 18. A pair of hydraulic cylinders 19 operate synchronously via a PLC. When the connecting block 110 moves, it drives the fixing block 112 to move accordingly. When the fixing block 112 moves to the designated position, it places the connector shell at the end of the data cable body into the slot 113 opened on the fixing block 112. The data cable body is a standard 1.5-meter data cable. Then, the fixing component 114 is used to fix the connector shell. After fixing, the control box 7 controls the pair of hydraulic cylinders 19 to drive the connecting block 110 to move towards the cleaning sponge 18. When the connecting block 110 moves, it drives the data cable body fixed between the pair of fixing blocks 112 to move. When the data cable body moves to the designated position, the data cable body... When the cleaning sponge 18 comes into contact with the water, the control box 7 on the housing 1 controls a pair of second motors 111 to start. The pair of second motors 111 operate synchronously via a PLC. When the second motors 111 start, they drive the fixing block 112 to rotate. When the fixing blocks 112 rotate, they drive the data cable body to rotate. At this time, the control box 7 on the housing 1 starts the first motor 11. When the first motor 11 starts, it drives the screw 12 to rotate. When the screw 12 rotates, it drives the slider 13 to slide in the guide groove 14 along the direction of the screw 12. When the slider 13 moves, it drives the cleaning sponge 18 to move. At the same time as the cleaning sponge 18 moves, the control box 7 on the housing 1 starts the electronic valve at the connection between the water tank 15 and the connecting pipe 17.When the electronic valve is opened, the cleaning fluid in the water tank 15 flows into the connecting plate 16 through the connecting pipe 17. The cleaning fluid in the water tank 15 is WD-5. 40 Precision Electrical Cleaning Agent: After the cleaning solution flows into the connecting plate 16, it wets the cleaning sponge 18 connected to the connecting plate 16. When the cleaning sponge 18 is fully soaked with cleaning solution, the rotating data cable body comes into contact with the cleaning sponge 18, at which point the cleaning sponge 18 cleans the data cable body. When the slider 13 moves to the end of the screw 12, the control box 7 controls the first motor 11 to reverse, driving the slider 13 and the cleaning sponge 18 to move towards the first motor 11. This process is repeated to clean different positions of the rotating data cable body. After a period of use, the cleaning sponge 18 will wear out. At this time, the old cleaning sponge 18 is removed from the connecting plate 16, and a new cleaning sponge is coated with waterproof adhesive and pasted onto the connecting plate 16. After the cleaning solution has cleaned the data cable body, the cleaning solution remaining on the data cable body evaporates quickly and will not affect the subsequent packaging of the data cable body. When the cleaning solution in the water tank 15 is used up, the slider... After the slider 13 moves to the designated position, the filling port 116 on the housing 1 is opened, and the cleaning fluid is added to the water tank 15 through the inlet 115 on the water tank 15. After cleaning, the control box 7 closes a pair of hydraulic cylinders 19 to move the fixing block 112 away from the slider 13. Then, the cleaned data cable body is removed from the pair of fixing blocks 112, and then the data cable can be packaged. A second motor 111 is fixed to the connecting block 110, and a fixing block 112 is fixed to the output end of the second motor 111. The fixing block 112 has a slot 113. During use, when the data cable body is fixed between the pair of fixing blocks 112, the pair of second motors 111 are turned on to make the data cable body rotate. This allows the cleaning sponge 18 to better clean the data cable body and reduces the possibility of cleaning dead corners when cleaning a stationary data cable.

[0026] Please see Figures 4-5As shown, the fixing component 114 includes a pull rod 2, which is connected to the fixing block 112 through the pull rod 2. A pressure block 21 is fixed to the end of the pull rod 2, and a first spring 22 is fixed to the outside of the pull rod 2. The pull rod 2 is located inside the first spring 22. A pair of first telescopic rods 23 are fixed between the pressure block 21 and the fixing block 112. A second spring 24 is fixed to the outside of the first telescopic rods 23. A rubber pad 25 is fixed to the pressure block 21. When it is necessary to fix the data cable shell, the pull rod 2 is pulled. When the pull rod 2 is pulled, the first spring 22 is compressed. When the first spring 22 is compressed, the first telescopic rods 23 and the second spring 24 are compressed accordingly. When the pull rod 2 is pulled upward, the pressure block 21 moves accordingly. When the pressure block 21 moves the rubber pad 25 fixed on the pressure block 21 to the designated position, the data cable connector shell is placed inside the slot 113. Then the pull rod 2 is released. When the pull rod 2 is released, the pressure block 21 is pushed towards the slot 113 under the elastic force of the first spring 22 and the two second springs 24. When the pressure block 21 moves to the designated position, the rubber pad 25 contacts the connector shell and presses and fixes the connector shell. By fixing the pressure block 21 at the end of the pull rod 2 and fixing the first spring 22 outside the pull rod 2, the connector shell can be placed in the slot 113 and fixed more quickly during use, reducing the inconvenience of fixing the connector shell during use.

[0027] Please see Figure 5 Figure 6 As shown, two sets of second telescopic rods 3 are fixedly connected inside the slot 113. A clamping block 31 is fixedly connected to the end of one set of second telescopic rods 3. A third spring 32 is fixedly connected between the slot 113 and the clamping block 31. The second telescopic rod 3 is located inside the third spring 32. When the connector housing is placed inside the slot 113, the third spring 32 is compressed. When the third spring 32 is compressed, the clamping block 31 moves accordingly. After the connector housing is placed inside the slot 113, under the action of multiple third springs 32, a pair of clamping blocks 31 are pushed towards the middle of the slot 113. At this time, a pair of clamping blocks 31 clamp and fix the connector housing placed inside the slot 113. By fixing the clamping block 31 to the end of the second telescopic rod 3 and setting the third spring 32 outside the second telescopic rod 3, the connector housing can be clamped and fixed when placed between a pair of clamping blocks 31 during use. This reduces the situation where the connector housing slides inside the slot 113 due to the lack of support on both sides when the fixing block 112 rotates during use.

[0028] Please see Figure 6As shown, a pair of fixing bars 4 are fixedly connected to the clamping block 31, and rollers 41 are rotatably connected between the pair of fixing bars 4. When the connector housing is placed into the slot 113, the connector housing contacts the multiple rollers 41. When the connector housing continues to move into the slot 113, the rollers 41 rotate, and the connector housing smoothly enters the slot 113. By rotatably connecting multiple rubber blocks 5 between the pair of fixing bars 4, the connector housing can contact the multiple rollers 41 during use, reducing the possibility of damage to the connector housing due to excessive friction when the connector housing contacts the clamping block 31.

[0029] Please see Figure 6 As shown, a rubber block 5 is fixedly attached to the clamping block 31. The rubber block 5 is made of flexible material. When the connector housing is placed between a pair of clamping blocks 31, the pair of clamping blocks 31 move toward the center of the slot 113 to fix the connector housing. When the clamping block 31 moves to the designated position, the rubber block 5 contacts the connector housing. At this time, due to the large friction between the rubber block 5 and the connector housing, the connector housing is fixed between a pair of slots 113. By fixing the clamping block 31 to the clamping block 31, the rubber block 5 can contact the connector housing during use, reducing the possibility of the slot 113 sliding due to the small friction when the clamping block 31 contacts the connector housing. At the same time, it can reduce the possibility of damage to the connector housing when the pair of clamping blocks 31 directly clamp and fix the connector housing.

[0030] Please see Figure 7 As shown, a collection box 6 is fixedly connected to the inner wall of the housing 1. The collection box 6 and the cleaning sponge 18 are correspondingly arranged. When the cleaning fluid in the water tank 15 enters the cleaning sponge 18, a small amount of cleaning fluid will drip from the cleaning sponge 18 and the data cable body when the cleaning sponge 18 cleans the data cable body. At this time, the collection box 6 collects the dripping cleaning fluid, which is convenient for the subsequent unified collection and treatment of the recovered cleaning fluid. By fixing the collection box 6 to the housing 1, the dripping cleaning fluid can be collected in a unified manner during use, which is convenient for the subsequent unified treatment and recycling of the collected cleaning fluid. At the same time, it can reduce the situation where the cleaning fluid falls onto the surface of the housing 1 and causes pollution to the surface of the housing 1.

[0031] Working principle: When the data cable body is packaged after production, the surface of the data cable body needs to be cleaned to remove the dust that adhered to the surface of the data cable body during the production process. At this time, the control box 7 set on the housing 1 controls a pair of hydraulic cylinders 19 to drive the connecting block 110 to move away from the cleaning sponge 18. The pair of hydraulic cylinders 19 are synchronized by the PLC. When the connecting block 110 moves, it drives the fixing block 112 to move accordingly. When the fixing block 112 moves to the designated position, it places the connector shell at the end of the data cable body into the slot 113 opened on the fixing block 112. The data cable body is standard 1.A 5-meter data cable is then used, followed by fixing the connector housing with fixing component 114. After fixing, the control box 7 controls a pair of hydraulic cylinders 19 to move the connecting block 110 towards the cleaning sponge 18. When the connecting block 110 moves, it drives the data cable body fixed between a pair of fixing blocks 112 to move. When the data cable body moves to the designated position, it contacts the cleaning sponge 18. At this time, the control box 7 on the housing 1 controls a pair of second motors 111 to start. The pair of second motors 111 are synchronized through a PLC. When the second motors 111 start, they drive the fixing blocks 112 to rotate accordingly. When the fixed block 112 rotates, it drives the data cable body to rotate. At this time, the first motor 11 is turned on by the control box 7 on the housing 1. When the first motor 11 is turned on, it drives the screw 12 to rotate. When the screw 12 rotates, it drives the slider 13 to slide in the guide groove 14 along the direction of the screw 12. When the slider 13 moves, it drives the cleaning sponge 18 to move. At the same time as the cleaning sponge 18 moves, the electronic valve at the connection between the water tank 15 and the connecting pipe 17 is turned on by the control box 7 on the housing 1. When the electronic valve is turned on, the cleaning fluid in the water tank 15 flows into the connecting plate 16 through the connecting pipe 17. The cleaning fluid in the water tank 15 is WD-999. 40 Precision Electrical Cleaning Agent: After the cleaning solution flows into the connecting plate 16, it wets the cleaning sponge 18 connected to the connecting plate 16. When the cleaning sponge 18 is fully soaked with cleaning solution, the rotating data cable body comes into contact with the cleaning sponge 18, at which point the cleaning sponge 18 cleans the data cable body. When the slider 13 moves to the end of the screw 12, the control box 7 controls the first motor 11 to reverse, driving the slider 13 and the cleaning sponge 18 to move towards the first motor 11. This process is repeated to clean different positions of the rotating data cable body. After a period of use, the cleaning sponge 18 will wear out. At this time, the old cleaning sponge 18 is removed from the connecting plate 16, and a new cleaning sponge 18 is installed. The sponge is coated with waterproof adhesive and attached to the connecting plate 16. After the cleaning fluid has cleaned the data cable body, any remaining cleaning fluid on the data cable body evaporates quickly and will not affect the subsequent packaging of the data cable body. When the cleaning fluid in the water tank 15 is used up, the slider 13 is moved to the designated position, and then the filling port 116 on the box 1 is opened to add the cleaning fluid into the water tank 15 through the inlet 115. After cleaning is completed, the control box 7 closes a pair of hydraulic cylinders 19 to move the fixing block 112 away from the slider 13. Then, the cleaned data cable body is removed from the pair of fixing blocks 112, and then the data cable can be packaged.

[0032] When it is necessary to fix the data cable shell, pull rod 2. When pull rod 2 is pulled, the first spring 22 is compressed. When the first spring 22 is compressed, the first telescopic rod 23 and the second spring 24 are compressed accordingly. When pull rod 2 is pulled upward, pressure block 21 moves accordingly. When pressure block 21 moves the rubber pad 25 fixed on pressure block 21 to the designated position, the data cable connector shell is placed inside the slot 113. Then release pull rod 2. When pull rod 2 is released, pressure block 21 is pushed towards slot 113 under the elastic force of the first spring 22 and the two second springs 24. When pressure block 21 moves to the designated position, rubber pad 25 contacts the connector shell and presses and fixes the connector shell.

[0033] When the connector housing is placed into the slot 113, the third spring 32 is compressed. When the third spring 32 is compressed, the clamping block 31 moves accordingly. After the connector housing is placed into the slot 113, under the action of multiple third springs 32, a pair of clamping blocks 31 are pushed towards the center of the slot 113. At this time, the pair of clamping blocks 31 clamp and fix the connector housing placed inside the slot 113. When the connector housing is placed into the slot 113, the connector housing contacts multiple rollers 41. When the connector housing continues to move into the slot 113, the rollers 41 rotate. At this time, the connector housing smoothly enters the slot 113.

[0034] When the connector housing is placed between a pair of clamping blocks 31, the pair of clamping blocks 31 move toward the center of the slot 113 to fix the connector housing. When the clamping blocks 31 move to the designated position, the rubber block 5 contacts the connector housing. At this time, due to the large friction between the rubber block 5 and the connector housing, the connector housing is fixed between a pair of slots 113.

[0035] When the cleaning fluid in the water tank 15 enters the cleaning sponge 18, a small amount of cleaning fluid will drip from the cleaning sponge 18 and the data cable body when the cleaning sponge 18 cleans the data cable body. At this time, the collection box 6 collects the dripping cleaning fluid, which is convenient for the subsequent unified collection and treatment of the recovered cleaning fluid. At the same time, it can reduce the situation where the cleaning fluid falls onto the surface of the box 1 and causes pollution to the surface of the box 1.

[0036] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0037] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model.

Claims

1. A data cable cleaning device, characterized in that: The device includes a housing (1), on which a first motor (11) is fixedly connected. A screw (12) is fixedly connected to the output end of the first motor (11). The screw (12) and the housing (1) are connected through each other. A slider (13) is threaded onto the screw (12). A guide groove (14) is provided on the housing (1). The slider (13) and the guide groove (14) are in sliding fit. A water tank (15) is fixedly connected to the slider (13). A connecting plate (16) is fixedly connected to the bottom of the slider (13). The connecting plate (16) is a hollow structure. A connecting pipe (17) connects the water tank (15) and the connecting plate (16). An electric current device is provided at the connection between the water tank (15) and the connecting pipe (17). The sub-control valve is connected to a cleaning sponge (18) on the connecting plate (16). A pair of hydraulic cylinders (19) are fixed to the inner wall of the box (1). A connecting block (110) is fixed to the output end of the hydraulic cylinder (19). A second motor (111) is fixed to the connecting block (110). A fixing block (112) is fixed to the output end of the second motor (111). The output end of the second motor (111) and the connecting block (110) are connected through each other. A slot (113) is provided on the fixing block (112). A fixing component (114) is provided on the fixing block (112). A feed inlet (115) is provided on the water tank (15). A filling port (116) is provided on the box (1).

2. The data cable cleaning device according to claim 1, characterized in that: The fixing component (114) includes a pull rod (2), the pull rod (2) and the fixing block (112) are through-connected, a pressure block (21) is fixed to the end of the pull rod (2), a first spring (22) is fixed to the outside of the pull rod (2), the pull rod (2) is located inside the first spring (22), a pair of first telescopic rods (23) are fixed between the pressure block (21) and the fixing block (112), a second spring (24) is fixed to the outside of the first telescopic rods (23), and a rubber pad (25) is fixed to the pressure block (21).

3. The data cable cleaning device according to claim 1, characterized in that: Two sets of second telescopic rods (3) are fixedly connected in the slot (113). A clamping block (31) is fixedly connected to the end of one set of second telescopic rods (3). A third spring (32) is fixedly connected between the slot (113) and the clamping block (31). The second telescopic rod (3) is located inside the third spring (32).

4. A data cable cleaning device according to claim 3, characterized in that: A pair of fixing bars (4) are fixedly connected to the clamp (31), and a roller (41) is rotatably connected between the pair of fixing bars (4).

5. A data cable cleaning device according to claim 3, characterized in that: A rubber block (5) is fixedly attached to the clamp (31), and the rubber block (5) is made of flexible material.

6. A data cable cleaning device according to claim 1, characterized in that: A collection box (6) is fixed to the inner wall of the box (1), and the collection box (6) and the cleaning sponge (18) are set accordingly.

7. A data cable cleaning device according to claim 1, characterized in that: The housing (1) is equipped with a control box (7), which is used for the start and stop control of the electronic valves at the first motor (11), hydraulic cylinder (19), second motor (111) and water tank (15).