CN111524662A - Cable wiping device and cable wiping method - Google Patents

Abstract

The invention relates to a cable wiping device and a cable wiping method. The cable wiping device includes a disposable wiping assembly, a solvent supply assembly, and a solvent recovery station. The disposable wiping assembly includes a first flexible member, a second flexible member, and a first pressure member. The first flexible piece and the second flexible piece are arranged oppositely, the surfaces of the first flexible piece opposite to the surfaces of the second flexible piece are mutually attached, and the first pressure piece applies acting force to enable the surfaces of the first flexible piece and the second flexible piece, which are mutually attached, to be mutually extruded. A solvent supply assembly is used to supply solvent to the disposable wiping assembly. A solvent recovery station is disposed below the disposable wiping assembly. Adopt above-mentioned cable wiping arrangement to carry out reworking to the cable and clean, clean efficiently, and the printing ink typeface on cable surface gets rid of cleaner, cleans effectually.

Description

Cable wiping device and cable wiping method

Technical Field

The invention relates to the technical field of cable production, in particular to a cable wiping device and a cable wiping method.

Background

In the production process of the cable, the fonts such as numbers and marks need to be printed on the surface of the cable by ink. In the printing process, the printing on the surface of the cable is unqualified due to the factors such as abnormal code spraying equipment or wrong input of a printing program, and the cable needs to be reworked and wiped to erase unqualified fonts on the surface of the cable. However, at present, the cable is frequently cleaned in a way of manual wiping, and the wiping efficiency is low.

Disclosure of Invention

Therefore, it is necessary to provide a cable wiping device and a cable wiping method for solving the problem of low wiping efficiency of the conventional manual rework wiping method.

A cable wiping device for wiping a surface of a cable, the cable wiping device comprising:

the disposable wiping component comprises a first flexible part, a second flexible part and a first pressure part, wherein the first flexible part and the second flexible part are arranged oppositely, the opposite surfaces of the first flexible part and the second flexible part are mutually attached, and the first pressure part applies acting force to press the mutually attached surfaces of the first flexible part and the second flexible part;

a solvent supply assembly for supplying solvent to the disposable wiping assembly; and

a solvent recovery station disposed below the disposable wiping assembly.

In one embodiment, the cable wiping device further comprises a secondary wiping assembly, the secondary wiping assembly comprises a third flexible member, a fourth flexible member and a second pressure member, the third flexible member and the fourth flexible member are arranged oppositely, opposite surfaces of the third flexible member and the fourth flexible member are attached to each other, the second pressure member applies force to enable the surfaces, attached to each other, of the third flexible member and the fourth flexible member to be pressed against each other, the solvent recovery station is provided with a mounting surface, the first flexible member is parallel to the mounting surface, and the third flexible member is perpendicular to the mounting surface.

In one embodiment, the second pressure piece is arranged on one side of the fourth flexible piece, which is far away from the third flexible piece, the second pressure piece comprises two elastic structures, each elastic structure comprises a fixing part and a spring part, the fixing part is fixed on the solvent recovery table, one end of the spring part abuts against the fixing part, and the other end of the spring part abuts against the fourth flexible piece and applies pressure to the fourth flexible piece.

In one embodiment, the first pressure member exerts pressure on the second flexible member, and the pressure exerted by the first pressure member on the second flexible member is greater than the pressure exerted by the second pressure member on the fourth flexible member.

In one embodiment, the first pressure member includes two pneumatic structures, the pneumatic structures include a cylinder portion and a pressing portion, the cylinder portion is filled with gas, and the pressing portion applies pressure to the second flexible member by the gas pressure in the cylinder.

In one embodiment, the solvent supply assembly includes a conduit, an air pump, and a storage tank, the storage tank storing the solvent, one end of the conduit being in contact with the first flexible member or the second flexible member, the other end of the conduit extending into the storage tank, the air pump providing a pumping force to the solvent in the storage tank, so that the solvent reaches the disposable wiping assembly through the conduit.

In one embodiment, the solvent recovery platform comprises a bottom plate and a side plate, the side plate and the first flexible member are arranged on the same side of the bottom plate, the side plate is connected with the edge of the bottom plate and arranged around the bottom plate along the edge of the bottom plate, a recovery hole is formed in the bottom plate, and the solvent supply assembly further comprises a recovery pipe, one end of the recovery pipe is communicated with the recovery hole, and the other end of the recovery pipe is communicated with the inside of the storage box.

In one embodiment, the cable wiping device further includes a sealing cover, the sealing cover is sleeved on the solvent recovery platform, the sealing cover and the solvent recovery platform together enclose a sealed cavity, and the disposable wiping component is located in the sealed cavity.

A cable wiping method comprising the steps of:

providing a primary wiping component and a solvent, wherein the primary wiping component comprises a first flexible piece and a second flexible piece, the first flexible piece and the second flexible piece are attached to each other and are pressed against each other, and the solvent reaches an interface of the first flexible piece and the second flexible piece;

providing a traction piece, and enabling the cable to enter an interface of the first flexible piece and the second flexible piece by virtue of the traction force of the traction piece to carry out a wiping treatment;

disposing a solvent recovery station below the primary wiping component, the solvent passing through the primary wiping component and then being recovered by the solvent recovery station;

and taking up the cable by using the traction piece.

In one embodiment, after one wiping process and before the cable is subjected to a wire rewinding process, the cable wiping method further includes:

and drawing the cable into a secondary wiping assembly by using the drawing piece to perform secondary wiping, wherein the secondary wiping assembly comprises a third flexible piece and a fourth flexible piece, the third flexible piece and the fourth flexible piece are attached to each other and are pressed against each other, the interface of the third flexible piece and the fourth flexible piece is perpendicular to the interface of the first flexible piece and the second flexible piece, and the cable enters the interface of the third flexible piece and the fourth flexible piece.

According to the cable wiping device, the surfaces, attached to each other, of the first flexible piece and the second flexible piece are mutually extruded, so that when the cable passes through the space between the first flexible piece and the second flexible piece, the surfaces of the cable can be wiped by the first flexible piece and the second flexible piece, ink fonts on the surfaces of the cable are dissolved in a solvent and removed, and the cable is wiped in a reworking mode. Compared with a manual reworking wiping mode, the cable wiping device is adopted for reworking wiping, and efficiency is higher. And the solvent is recovered by arranging the solvent recovery platform, so that the solvent can be recycled, and the waste of the solvent is reduced.

According to the cable wiping method, the cable is pulled by the pulling piece to enter the interface of the first flexible piece and the second flexible piece for primary wiping treatment, and then the cable is taken up by the pulling piece, so that the wiping of the cable is automated, and the wiping efficiency is higher. And the solvent is recovered by arranging the solvent recovery platform, so that the solvent can be recycled, and the waste of the solvent is reduced.

Drawings

FIG. 1 is a schematic view of a cable wiping device according to an embodiment of the present application;

fig. 2 is a schematic view of a primary wiping unit and a secondary wiping unit in the cable wiping device shown in fig. 1.

100, a cable wiping device; 111. a base plate; 112. a mounting surface; 113. a recovery hole; 114. a side plate; 120. a disposable wiping assembly; 121. a first flexible member; 122. a second flexible member; 123. a first pressure member; 124. a cylinder portion; 125. a pressing part; 130. a secondary wiping component; 131. a third flexible member; 132. a fourth flexible member; 133. a second pressure member; 134. a fixed part; 135. a spring portion; 140. a traction member; 151. an air pump; 152. a storage tank; 153. a conduit; 154. a recovery pipe; 160. a sealing cover; 161. a wire inlet hole; 162. a wire outlet hole; 170. a cable.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "inner", "outer", "left", "right" and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1 and 2, a cable wiping device 100 includes a base plate 111, a primary wiping member 120, a secondary wiping member 130, and a pulling member 140. The bottom plate 111 has a mounting surface 112, and the primary wiping component 120 and the secondary wiping component 130 are mounted on the mounting surface 112. And the primary wiping component 120 and the secondary wiping component 130 can wipe the surface of the cable 170 to remove the ink characters on the surface of the cable 170. And the traction member 140 is disposed on a side of the secondary wiping component 130 facing away from the primary wiping component 120, and the traction member 140 can provide traction force to the cable 170 in a direction of a dotted arrow in fig. 1, so as to realize movement of the cable 170, so that the cable 170 leaves the cable wiping device 100 after sequentially passing through the primary wiping component 120 and the secondary wiping component 130 for wiping.

Specifically, the disposable wipe assembly 120 includes a first flexible member 121, a second flexible member 122, and a first pressure member 123. The first flexible member 121 is fixed on the mounting surface 112, the second flexible member 122 is disposed opposite to the first flexible member 121, and opposite surfaces of the second flexible member 122 and the first flexible member 121 are attached to each other. The first pressure member 123 is disposed on a side of the second flexible member 122 away from the first flexible member 121, and the first pressure member 123 applies pressure to the second flexible member 122, so that the surfaces of the first flexible member 121 and the second flexible member 122, which are attached to each other, are pressed against each other. In this way, when the cable 170 passes between the first flexible part 121 and the second flexible part 122, the first flexible part 121 and the second flexible part 122 cover the surface of the cable 170 and generate a squeezing action on the surface of the cable 170, and in cooperation with the movement of the cable 170 itself, the first flexible part 121 and the second flexible part 122 can perform a wiping action on the surface of the cable 170. In addition, the secondary wiping member 130 includes a third flexible member 131, a fourth flexible member 132, and a second pressure member 133. The third flexible member 131 is fixed on the mounting surface 112, the fourth flexible member 132 is disposed opposite to the third flexible member 131, and opposite surfaces of the fourth flexible member 132 and the third flexible member 131 are attached to each other. The second pressure member 133 is disposed on a side of the fourth flexible member 132 away from the third flexible member 131, and the second pressure member 133 applies pressure to the fourth flexible member 132, so that the surfaces of the third flexible member 131 and the fourth flexible member 132, which are attached to each other, are pressed against each other. In this way, when the cable 170 passes between the third flexible member 131 and the fourth flexible member 132, the third flexible member 131 and the fourth flexible member 132 can also perform a wiping action on the surface of the cable 170.

Further, the cable wiping device 100 also comprises a solvent supply assembly. And in some embodiments, the solvent supply assembly includes an air pump 151, a storage tank 152, and a conduit 153. The storage tank 152 stores a solvent for wiping the surface of the cable 170, and the conduit 153 passes through the air pump 151, and has one end extending into the storage tank 152 to contact the solvent and the other end contacting the second flexible member 122. When the air pump 151 is operated, an air pressure difference is generated inside the air pump 151 to generate an extraction force on the solvent at one end of the conduit 153, so that the solvent reaches the second flexible member 122 through the conduit 153, and permeates from the second flexible member 122 to reach the surface of the cable 170 between the first flexible member 121 and the second flexible member 122. In this way, when the cable 170 moves between the first flexible member 121 and the second flexible member 122, due to the wiping action of the first flexible member 121 and the second flexible member 122 on the surface of the cable 170, the ink fonts on the surface of the cable 170 fall off and are dissolved in the solvent to be removed, so that the rework wiping effect on the cable 170 is realized.

In the cable wiping device 100, the primary wiping component 120 and the secondary wiping component 130 are arranged and matched with the solvent supply component, and only the traction member 140 is required to provide traction force for the cable 170, so that the cable 170 sequentially moves between the first flexible member 121 and the second flexible member 122 and between the third flexible member 131 and the fourth flexible member 132, and thus the reworking wiping effect on the cable 170 can be achieved. Therefore, manual wiping is not needed, labor cost is saved, and wiping efficiency is higher. Moreover, as the cable 170 is wiped twice, the ink characters on the surface can be removed more completely, and the wiping effect is better.

It is understood that, in the cable wiping apparatus 100, the faster the pulling speed of the pulling member 140 to the cable 170, the stronger the solubility of the solvent to the ink, and the greater the stiffness of the first flexible member 121, the second flexible member 122, the third flexible member 131, and the fourth flexible member 132, the higher the wiping efficiency. Therefore, in some embodiments, the pulling speed of the cable 170 by the pulling member 140 can be increased appropriately, a solvent with stronger solubility to ink can be used, and the hardness of the first flexible member 121, the second flexible member 122, the third flexible member 131 and the fourth flexible member 132 can be increased appropriately to increase the wiping efficiency. Also, it should be noted that the wiping efficiency should be improved while the ink character removing effect on the surface of the cable 170 should be ensured without damaging the cable 170.

Specifically, in some embodiments, the pulling member 140 pulls the cable 170 at a speed of 80 m/min, so that the cable 170 is not damaged by excessive friction and pulling force while ensuring high wiping efficiency. In some embodiments, the solvent is Tiannaoi (Banana oil), which contains toluene, butyl acetate, cyclohexanone, isoamyl acetate, glycol ethyl ether acetate, etc. as main components and has better solubility to the ink. The Tianna solution is used as the solvent, so that the ink characters on the surface of the cable 170 can be effectively dissolved by the solvent to ensure the wiping effect, and meanwhile, the cable 170 cannot be damaged due to corrosion of the solvent. Of course, in other embodiments, the solvent may also be a liquid capable of dissolving the ink, such as alcohol. Moreover, in some embodiments, wool felt is used as the first flexible member 121, the second flexible member 122, the third flexible member 131 and the fourth flexible member 132, and wool felt with certain hardness is used as the flexible member having a friction effect in the wiping process, so that the wiping requirement can be met, and the cable 170 cannot be damaged due to scraping of the surface of the cable 170 due to excessive hardness. Of course, the pulling speed of the cable 170, the setting of the solvent and the first flexible element 121, the second flexible element 122, the third flexible element 131 and the fourth flexible element 132 by the pulling element 140 can be selected, so that the wiping efficiency can be ensured while the cable 170 is prevented from being damaged in the wiping process.

Of course, the other end of the conduit 153 may be located at other positions, for example, in some embodiments, the other end of the conduit 153 may also be in contact with the first flexible member 121, as long as the solvent flowing out from the other end of the conduit 153 can penetrate into the first flexible member 121 and the second flexible member 122 and reach the surface of the cable 170 located between the first flexible member 121 and the second flexible member 122. Also, in some embodiments, referring to fig. 1, the other end of the conduit 153 may extend with two ports, which are respectively in contact with different portions of the second flexible member 122, so as to ensure that the solvent can reach various portions of the surface of the cable 170 between the first flexible member 121 and the second flexible member 122. In addition, since solvent remaining on the surface of the cable 170 after the cable 170 is wiped by the primary wiping component 120 moves to the secondary wiping component 130 along with the cable 170 to assist in wiping the cable 170 by the secondary wiping component 130, in some embodiments, the other end of the conduit 153 does not extend into the secondary wiping component 130, so as to avoid wasting the solvent. Of course, in other embodiments, the other end of the conduit 153 may also extend into the secondary wiping component 130 to contact the third flexible member 131 or the fourth flexible member 132 so that the solvent can reach the surface of the cable 170 between the third flexible member 131 and the fourth flexible member 132.

Further, the arrangement directions of the primary wiping unit 120 and the secondary wiping unit 130 can be selected differently, as long as the cable 170 can pass through the first flexible member 121 and the second flexible member 122 and the third flexible member 131 and the fourth flexible member 132 in sequence to perform two wiping operations. Specifically, in some embodiments, the first flexible member 121 is mounted on the mounting surface 112 in parallel, the second flexible member 122 is disposed on a side of the first flexible member 121 facing away from the base plate 111, and the third flexible member 131 is mounted on the mounting surface 112 perpendicularly. Further, in some embodiments, the first flexible element 121 and the third flexible element 131 can be fixed on the mounting surface 112 by screwing. It can be understood that after the first flexible element 121 and the third flexible element 131 are fixed on the mounting surface 112, the first pressure element 123 applies pressure to the second flexible element 122 to make the second flexible element 122 and the first flexible element 121 attached to each other, and the second pressure element 133 applies pressure to the fourth flexible element 132 to make the fourth flexible element 132 and the third flexible element 131 attached to each other, so as to implement the installation of the third flexible element 131 and the fourth flexible element 132. Also, in some embodiments, the portion of the second flexible member 122 pressed by the first pressing member 123 is fixedly connected to the second flexible member 122, and the portion of the fourth flexible member 132 pressed by the second pressing member 133 is fixedly connected to the fourth flexible member 132. Thus, the third flexible member 131 and the fourth flexible member 132 are not easily deviated by the movement of the cable 170 during the wiping process.

It can be understood that when the first flexible element 121 and the second flexible element 122 are parallel to the mounting surface, and the third flexible element 131 and the fourth flexible element 132 are perpendicular to the mounting surface 112, the pressure-side emphasis of the first flexible element 121 and the second flexible element 122 and the pressure-side emphasis of the third flexible element 131 and the pressure-side emphasis of the fourth flexible element 132 on the surface of the cable 170 are different during the first wiping and the second wiping. In one wiping process, the first flexible part 121 and the second flexible part 122 exert larger pressure on the part of the surface of the cable 170 close to the mounting surface 112 and the part far from the mounting surface 112. In the second wiping process, the third flexible member 131 and the fourth flexible member 132 exert a larger pressure on the portion of the surface of the cable 170, which is directly opposite to the third flexible member 131 and the fourth flexible member 132. And the larger the pressure that receives on the surface of cable 170, the better the wiping effect, so set up, through the cooperation of wiping twice, cable wiping arrangement 100 can all play better wiping effect to each part on the surface of cable 170.

The first pressure member 123 and the second pressure member 133 are not limited to be provided, as long as the pressure requirement on the surface of the cable 170 during wiping can be satisfied. In some embodiments, the first pressure member 123 includes two pneumatic structures, wherein the pneumatic structures include a cylinder portion 124 and a pressure portion 125. The cylinder portion 124 is filled with gas, one end of the pressing portion 125 abuts against the second flexible member 122, and the other end of the pressing portion 125 extends into the cylinder portion 124, so that the pressing portion 125 can be pressed by the gas pressure in the cylinder portion 124, and the pressing portion 125 applies pressure to the second flexible member 122. Of course, the amount of pressure exerted by the first pressure member 123 on the second flexible member 122 also affects the wiping effect, and the greater the air pressure in the cylinder portion 124, the greater the pressure exerted by the first pressure member 123 on the second flexible member 122. In some embodiments, the pressure of the first pressure member 123 on the second flexible member 122 is 0.2MPa, so that the first flexible member 121 and the second flexible member 122 exert enough pressure on the surface of the cable 170 during the wiping process, which can ensure the removal effect of the ink font on the surface of the cable 170, and meanwhile, the cable 170 is not damaged due to too much pressure.

Further, by using a pneumatic structure as the first pressure member 123, a stable and sufficient pressure can be applied to the second flexible member 122, and the ink font on the surface is substantially removed after the cable 170 is wiped by the one-time wiping component 120. Therefore, during the wiping process of the secondary wiping member 130, the pressure applied by the second pressure member 133 to the fourth flexible member 132 may be smaller than the pressure applied by the first pressure member 123 to the second flexible member 122. Specifically, in some embodiments, the second pressure member 133 includes two elastic structures, wherein the elastic structures include a fixing portion 134 and a spring portion 135, the fixing portion 134 is fixed on the mounting surface 112, and one end of the spring portion 135 abuts against the fixing portion 134, and the other end abuts against the fourth flexible member 132 and applies pressure to the fourth flexible member 132. The secondary wiping component 130 is arranged to wipe the cable 170 for the second time, and the wiping effect can be better by matching with the primary wiping component 120. And the secondary wiping component 130 adopts an elastic structure as the second pressure piece 133, so that the setting cost is far lower than that of a pneumatic structure, the pressure requirement of secondary wiping can be met, and the production cost of the cable wiping device 100 can also be reduced. More specifically, in some embodiments, the pressure of the second pressure member 133 to the fourth flexible member 132 is 0.12 MPa.

Also, in some embodiments, to recover solvent that flows onto the bottom panel 111 via the disposable wiping component 120, the cable wiping device 100 further includes a side panel 114. The side plate 114 and the first flexible element 121 are disposed on the same side of the bottom plate 111, and the side plate 114 is connected to an edge of the bottom plate 111 and disposed around the bottom plate 111 along the edge of the bottom plate 111. The bottom plate 111 is further provided with a recovery hole 113, the solvent supply assembly further comprises a recovery pipe 154, one end of the recovery pipe 154 is communicated with the recovery hole 113, and the other end is communicated with the inside of the storage tank 152. In this way, the side plate 114 and the bottom plate 111 together form a solvent recovery platform, wherein the side plate 114 can prevent the solvent from flowing out of the cable wiping device 100 along the edge of the bottom plate 111, and the solvent flowing onto the mounting surface 112 of the bottom plate 111 can reach the storage tank 152 from the recovery hole 113 through the recovery pipe 154. And then reaches the primary wiping component 120 again through the conduit 153 for wiping, thereby realizing the recycling of the solvent and saving the cost.

Further, if the primary wiping unit 120 and the secondary wiping unit 130 are exposed to the air during the wiping process, the solvent is easily volatilized into the air, which affects the human body and causes a large waste. Therefore, in some embodiments, the cable wiping device 100 further includes a sealing cover 160, and during the wiping process, the sealing cover 160 is disposed on the solvent recovery platform and abuts against the side plate 114 around the bottom plate 111. Thus, the sealing cover 160 and the solvent recovery platform formed by the side plates 114 and the bottom plate 111 together enclose a sealed cavity with slow air flow, and the primary wiping component 120 and the secondary wiping component 130 are located in the sealed cavity. Therefore, in the wiping process, because the air flow is slow, the solvent volatilization speed is slow, the volatilization waste of the solvent can be reduced, and the blocking of the sealing cover 160 can also avoid the influence of the solvent volatilized into the air on the human body. Of course, in some embodiments, the opposite sides of the sealing cover 160 are respectively provided with an inlet hole 161 and an outlet hole 162, so that the cable 170 enters the cable wiping device 100 from the inlet hole 161 for wiping and leaves the cable wiping device 100 from the outlet hole 162.

In addition, according to the cable wiping apparatus 100, the present application also provides a cable wiping method, which can wipe the cable 170 by using the cable wiping apparatus 100. Specifically, the cable wiping method comprises the following steps:

providing a disposable wiping component 120 and a solvent, wherein the disposable wiping component 120 comprises a first flexible member 121 and a second flexible member 122, the first flexible member 121 and the second flexible member 122 are attached to each other and pressed against each other, and the solvent reaches the interface of the first flexible member 121 and the second flexible member 122;

providing a traction member 140, and enabling the cable 170 to enter the interface of the first flexible member 121 and the second flexible member 122 for a wiping process by virtue of the traction force of the traction member 140;

the cable 170 is pulled by the pulling member 140 to enter the secondary wiping component 130 for secondary wiping, wherein the secondary wiping component 130 includes a third flexible member 131 and a fourth flexible member 132, and the third flexible member 131 and the fourth flexible member 132 are attached to each other and pressed against each other. Moreover, the interface of the third flexible member 131 and the fourth flexible member 132 is perpendicular to the interface of the first flexible member 121 and the second flexible member 122, and the cable 170 enters the interface of the third flexible member 131 and the fourth flexible member 132;

the solvent recovery station is arranged below the primary wiping component 120, and the solvent is recovered by the solvent recovery station after passing through the primary wiping component 120;

the cable 170 is taken up by the pulling member 140.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A cable wiping device for wiping a surface of a cable, the cable wiping device comprising:

the disposable wiping component comprises a first flexible part, a second flexible part and a first pressure part, wherein the first flexible part and the second flexible part are arranged oppositely, the opposite surfaces of the first flexible part and the second flexible part are mutually attached, and the first pressure part applies acting force to press the mutually attached surfaces of the first flexible part and the second flexible part;

a solvent supply assembly for supplying solvent to the disposable wiping assembly; and

a solvent recovery station disposed below the disposable wiping assembly.

2. The cable wiping device of claim 1, further comprising a secondary wiping assembly including a third flexible member, a fourth flexible member, and a second pressure member, the third flexible member being disposed opposite the fourth flexible member and facing surfaces of the third flexible member and the fourth flexible member, the second pressure member applying a force to press the facing surfaces of the third flexible member and the fourth flexible member against each other, the solvent recovery station having a mounting surface, the first flexible member being parallel to the mounting surface, and the third flexible member being perpendicular to the mounting surface.

3. The cable wiping device of claim 2, wherein the second pressure member is disposed on a side of the fourth flexible member facing away from the third flexible member, the second pressure member comprising two elastic structures, the elastic structures comprising a fixed portion and a spring portion, the fixed portion being fixed to the solvent recovery stage, the spring portion abutting the fixed portion at one end and abutting and applying pressure to the fourth flexible member at the other end.

4. The cable wiping device of claim 2, wherein the first pressure member exerts pressure on the second flexible member, and the first pressure member exerts greater pressure on the second flexible member than the second pressure member exerts on the fourth flexible member.

5. The cable wiping device of claim 1, wherein the first pressure member comprises two pneumatic structures, the pneumatic structures comprise a cylinder portion and a pressing portion, the cylinder portion is filled with gas, and the gas pressure in the cylinder causes the pressing portion to apply pressure to the second flexible member.

6. The cable wiping device according to any one of claims 1 to 5, wherein the solvent supply assembly includes a conduit, an air pump and a storage tank, the storage tank storing the solvent, one end of the conduit being in contact with the first flexible member or the second flexible member, the other end of the conduit extending into the storage tank, the air pump providing a suction force to the solvent in the storage tank, so that the solvent reaches the disposable wiping assembly through the conduit.

7. The cable wiping device according to claim 6, wherein the solvent recovery platform comprises a bottom plate and a side plate, the side plate and the first flexible member are disposed on the same side of the bottom plate, the side plate is connected to an edge of the bottom plate and disposed around the bottom plate along the edge of the bottom plate, the bottom plate is opened with a recovery hole, the solvent supply assembly further comprises a recovery pipe, one end of the recovery pipe is communicated with the recovery hole, and the other end of the recovery pipe is communicated with the inside of the storage box.

8. The cable wiping device of any one of claims 1 to 5, further comprising a sealing cover, wherein the sealing cover is sleeved on the solvent recovery platform, the sealing cover and the solvent recovery platform together enclose a sealed cavity, and the disposable wiping component is located in the sealed cavity.

9. A cable wiping method, comprising the steps of:

providing a primary wiping component and a solvent, wherein the primary wiping component comprises a first flexible piece and a second flexible piece, the first flexible piece and the second flexible piece are attached to each other and are pressed against each other, and the solvent reaches an interface of the first flexible piece and the second flexible piece;

providing a traction piece, and enabling the cable to enter an interface of the first flexible piece and the second flexible piece by virtue of the traction force of the traction piece to carry out a wiping treatment;

disposing a solvent recovery station below the primary wiping component, the solvent passing through the primary wiping component and then being recovered by the solvent recovery station;

and taking up the cable by using the traction piece.

10. The cable wiping method according to claim 9, wherein after one wiping process, before the cable is subjected to a take-up process, the cable wiping method further comprises:

and drawing the cable into a secondary wiping assembly by using the drawing piece to perform secondary wiping, wherein the secondary wiping assembly comprises a third flexible piece and a fourth flexible piece, the third flexible piece and the fourth flexible piece are attached to each other and are pressed against each other, the interface of the third flexible piece and the fourth flexible piece is perpendicular to the interface of the first flexible piece and the second flexible piece, and the cable enters the interface of the third flexible piece and the fourth flexible piece.

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