CN214600530U

CN214600530U - Conductor cleaning device for cable manufacturing

Info

Publication number: CN214600530U
Application number: CN202022670203.5U
Authority: CN
Inventors: 李金涛; 俞俊; 谢清新; 邱绍坤
Original assignee: Youyi Cable Zhangjiagang Co ltd
Current assignee: Youyi Cable Zhangjiagang Co ltd
Priority date: 2020-11-18
Filing date: 2020-11-18
Publication date: 2021-11-05
Anticipated expiration: 2030-11-18

Abstract

The utility model discloses a conductor cleaning device for cable manufacture relates to cable manufacture equipment technical field, include: wire passing mechanism and cleaning mechanism. The cleaning mechanism is provided with a cleaning rotating wheel, a first flow passage, a second flow passage and a brush. The brush is driven to rotate around the cylindrical conductor in a rotating mode, no dead angle cleaning is carried out, the situation that dead angles exist on the surface of the cylindrical conductor or stress points exist is avoided, bonded impurities are difficult to clean, even if part of impurities in the brush are stained with the conductor again, and when the brush is rotated, the other part of the brush can also clean the impurities stained with the conductor again. In addition, through the dead zone region between the brushes separated by the second flow channel, the air flow suction through the second flow channel is adopted, the pressure of the brushes on the conductor is enhanced, the cleaning effect is further enhanced, impurities cleaned by the brushes can enter the second flow channel along the dead zone region, the cleaning of the impurities is enhanced, and the situation that the conductor is stained with new impurities is avoided.

Description

Conductor cleaning device for cable manufacturing

Technical Field

The invention relates to the technical field of cable manufacturing equipment, in particular to a conductor cleaning device for cable manufacturing.

Background

Cable is a generic term for optical cables, electrical cables, and the like. The cable has many purposes, is mainly used for controlling installation, connecting equipment, transmitting power and other multiple functions, and is a common and indispensable object in daily life.

In the manufacturing process of the cable, the conductor of the cable is inevitably stained with impurities no matter processed or transported, so that the impurities on the surface of the conductor are removed by a traditional cleaning device in a mode of two pieces of felts to clean the impurities, and the conductor penetrates through the two pieces of felts. However, the felt falls off due to friction between the conductor and the felt in the production process, so that the cable is stained with new impurities, the felt needs to be frequently replaced in the production process to avoid the situation, the frequent replacement of the felt affects the production efficiency, and the production cost is also increased.

Disclosure of Invention

The invention aims to solve the problem that the conductor of the cable is stained with new impurities due to the fact that the felt falls off due to friction between the conductor and the felt in the production process in the prior art.

The invention also aims to provide a method for cleaning the conductor for manufacturing the cable.

In order to achieve one of the purposes, the invention adopts the following technical scheme: a conductor cleaning apparatus for cable manufacturing, comprising: wire passing mechanism and cleaning mechanism.

The wire passing mechanism is provided with a wire passing cavity, the wire passing cavity penetrates through the left side and the right side, and the wire passing cavity is used for enabling a conductor to pass through.

The cleaning mechanism is arranged in the wire passing cavity and provided with: cleaning wheel, ring gear, first runner, brush board, second runner, brush.

The cleaning rotating wheel is rotatably arranged in the wire passing cavity, and the cleaning rotating wheel is of a hollow structure and is used for enabling a conductor to pass through. The toothed ring is fixedly connected with the side end of the cleaning rotating wheel.

The first flow channel is arranged on the cleaning rotating wheel and communicated with the negative pressure cavity in the wire passing mechanism. The brush plate is arranged on the inner wall of the hollow structure of the cleaning rotating wheel in a built-in mode, the second flow channel is arranged on the brush plate, and the second flow channel is communicated with the first flow channel and the hollow structure of the cleaning rotating wheel.

The hairbrush is arranged on the brush plates, the hairbrush extends to the hollow structure of the cleaning rotating wheel, and the hairbrush on each brush plate is separated by the second flow channel to form a dead zone area.

In the technical scheme, when the cleaning device is used, the conductor of the cable is pushed along the wire passing cavity of the wire passing mechanism, so that the conductor enters the wire passing cavity and enters the cleaning rotating wheel of the cleaning mechanism along the wire passing cavity, and the brush in the cleaning rotating wheel is contacted with the conductor;

the tooth ring is controlled to drive the cleaning rotating wheel to rotate, so that the hairbrush rotates around the cylindrical conductor to clean impurities on the circumferential surface of the cylindrical conductor, the circumferential surface of the cylindrical conductor is uniformly stressed, and the problems that dead corners exist on the surface of the cylindrical conductor or stress points exist on the surface of the cylindrical conductor, and the bonded impurities are difficult to clean are avoided;

simultaneously, the first flow channel of the cleaning rotating wheel and the second flow channel of the brush plate are sucked through the negative pressure cavity, so that the brushes on the two sides of the dead zone are sucked by the air flow of the second flow channel and are bent towards the direction of the second flow channel, on one hand, impurities on the brushes can be sucked into the negative pressure cavity through the second flow channel to be cleaned, the situation that the impurities are stuck on the conductor again is avoided, and on the other hand, the pressure of the brushes on the conductor is enabled to strengthen the cleaning effect of the impurities on the conductor.

Further, in the embodiment of the invention, the wire passing mechanism is also provided with a driving motor and a driving gear. The driving gear is connected with the driving motor, and the driving gear is meshed with a tooth groove formed in the outer surface of the gear ring.

Further, in the embodiment of the present invention, the ring gear and the cleaning wheel are located on the same central axis.

Further, in the embodiment of the present invention, the wire passing mechanism further has a flow port, the flow port is located below the negative pressure cavity, and the flow port is communicated with the negative pressure cavity.

Furthermore, in the embodiment of the present invention, the wire passing mechanism further includes a sliding cover, and an opening communicating with the negative pressure chamber is provided under the sliding cover.

The negative pressure cavity is connected with a negative pressure system through a circulation port at the lower end, so that the generation of suction of the negative pressure cavity is realized. According to needs, open the sliding closure on the line mechanism of crossing, make opening and water supply system under the sliding closure be linked together, and then make rivers enter into to the negative pressure chamber along the opening, the negative pressure chamber gets into rivers back, close negative pressure system earlier, make rivers enter into the second runner along the negative pressure chamber, finally make rivers wash away brush and conductor, not only can reduce the cohesiveness between conductor and the impurity, can also make the impurity on the brush change and break away from with the brush, after washing away, close the sliding closure, start negative pressure system, it handles to siphon away rivers. The cleaning effect on the brush is enhanced, and the brush is stuck on the conductor again.

Further, in the embodiment of the invention, the brush is made of soft bristles, and the tail part of the brush is of a branched structure. The pointed end of the brush is prevented from directly abutting against the conductor, the quality of the conductor is prevented from being influenced, and the brush with the branched structure is favorable for being in contact with the conductor better under the suction force of the second flow channel, so that the cleaning effect on the conductor is enhanced.

Further, in the embodiment of the invention, the brush plate is connected with the cleaning rotating wheel in a sliding mode.

Further, in the embodiment of the present invention, a wire inlet is disposed on the left side of the wire passing mechanism, the wire inlet has a wire inlet, the wire inlet is communicated with the left side of the wire passing cavity, a wire outlet is disposed on the right side of the wire passing mechanism, the wire outlet has a wire outlet, and the wire outlet is communicated with the right side of the wire passing cavity.

Furthermore, in the embodiment of the invention, a slag discharging bin is arranged between the wire outlet and the wire passing mechanism. Be equipped with in the row's cinder bin and extrude the mechanism, it has to extrude the mechanism: a thread leading port, a limiting port, a ball, an air bag, an air pipe, a pressurizing cavity and an extruding block.

The lead port is communicated with the wire passing cavity and the limiting port, and the limiting port is communicated with the wire outlet. The limiting opening is matched with the size of the conductor, and the size of the lead opening is larger than that of the conductor.

And a slag discharging port is arranged in the slag discharging bin and is positioned below the lead port.

The ball is movably embedded in the side wall of the limiting opening, the air bag is mounted at the side end of the ball, the air pipe is communicated with the air bag and the pressurization cavity, the extrusion block is movably embedded in the side wall of the lead opening, and the extrusion block is positioned in the pressurization cavity.

After the conductor passes through the cleaning mechanism, the conductor penetrates into the limiting opening along the lead opening, and in the process that the conductor penetrates through the limiting opening, the ball is pushed to slide to extrude the air bag, so that gas in the air bag enters the pressurizing cavity along the air pipe, the gas pressure of the pressurizing cavity is increased at the moment, the extruding blocks around the lead opening are pushed to move radially to be in contact with the conductor, and the conductor is extruded. When the conductor is moving, the impurities stubborn on the conductor can be removed by the acting force of the squeezing block, the impurities stuck on the conductor again are removed, and the cleaning effect is greatly enhanced.

The invention has the beneficial effects that:

the brush is driven to rotate around the cylindrical conductor in a rotating mode, so that the cleaning without dead angles is carried out, the defects that the surface of the cylindrical conductor has dead angles or stress points are insufficient and the bonded impurities are difficult to clean are avoided, and even if one part of the impurities in the brush are re-contaminated with the conductor, the other part of the brush can also be used for cleaning the impurities re-contaminated with the conductor again when the brush rotates. In addition, through the dead zone region between the brushes separated by the second flow channel, the air flow suction through the second flow channel is adopted, the pressure of the brushes on the conductor is enhanced, the cleaning effect is further enhanced, impurities cleaned by the brushes can enter the second flow channel along the dead zone region, the cleaning of the impurities is enhanced, and the situation that the conductor is stained with new impurities is avoided.

In order to achieve the second purpose, the invention adopts the following technical scheme: a method for cleaning a conductor for cable manufacture, comprising the steps of:

pushing a conductor of the cable along a wire passing cavity of the wire passing mechanism to enable the conductor to enter the wire passing cavity and enter a cleaning rotating wheel of the cleaning mechanism along the wire passing cavity, so that a brush in the cleaning rotating wheel is in contact with the conductor;

Further, in the embodiment of the invention, the negative pressure cavity is connected with the negative pressure system through the flow port at the lower end, and the sliding cover on the wire passing mechanism is opened as required, so that the opening under the sliding cover is communicated with the water supply system, and further water flow enters the negative pressure cavity along the opening, after entering the water flow, the negative pressure system is firstly closed, so that the water flow enters the second flow channel along the negative pressure cavity, and finally the brush and the conductor are flushed by the water flow, so that not only can the cohesiveness between the conductor and the impurities be reduced, but also the impurities on the brush can be separated from the brush more easily, and after flushing, the sliding cover is closed, the negative pressure system is started, and the water flow is sucked away for treatment.

Drawings

FIG. 1 is a schematic plan view of a conductor cleaning apparatus for cable manufacturing according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a conductor cleaning device for manufacturing cables according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a gear ring according to an embodiment of the present invention.

FIG. 4 is a schematic structural diagram of a cleaning wheel according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a wire passing mechanism according to an embodiment of the invention.

FIG. 6 is a schematic view of a brush according to an embodiment of the present invention.

FIG. 7 is a schematic structural diagram of an extruding mechanism according to an embodiment of the present invention.

FIG. 8 is a schematic side view of an extrusion mechanism according to an embodiment of the present invention.

FIG. 9 is a schematic diagram of the movement effect of the extruding mechanism according to the embodiment of the present invention.

FIG. 10 is a schematic diagram of the side movement effect of the extruding mechanism according to the embodiment of the present invention.

In the attached drawings

10. Wire passing mechanism 11, wire passing cavity 12 and negative pressure cavity

13. Drive motor 14, drive gear 15, circulation mouth

16. Sliding closure

20. Cleaning mechanism 21, cleaning runner 22, ring gear

23. First flow channel 24, brush plate 25, second flow channel

26. Brush with brush head

30. Wire inlet head 31 and wire inlet

40. Outlet 41, outlet

50. Slag discharge bin 51 and slag discharge port

60. Extrusion mechanism 61, lead port 62, restriction port

63. Ball 64, air bag 65 and air pipe

66. Pressurizing cavity 67, extrusion block

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clear and fully described, embodiments of the present invention are further described in detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of some embodiments of the invention and are not limiting of the invention, and that all other embodiments obtained by those of ordinary skill in the art without the exercise of inventive faculty are within the scope of the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "inner", "outer", "top", "bottom", "side", "vertical", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "a," "an," "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

For the purposes of simplicity and explanation, the principles of the embodiments are described by referring mainly to examples. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the embodiments. But it is obvious. To one of ordinary skill in the art, the embodiments may be practiced without limitation to these specific details. In some instances, well-known cable manufacturing conductor cleaning methods and structures have not been described in detail to avoid unnecessarily obscuring the embodiments. In addition, all embodiments may be used in combination with each other.

The first embodiment is as follows:

a conductor cleaning apparatus for cable manufacturing, as shown in fig. 1, comprising: a wire passing mechanism 10 and a cleaning mechanism 20.

As shown in fig. 2, the wire passing mechanism 10 has a wire passing cavity 11, the wire passing cavity 11 penetrates through the left and right sides, and the wire passing cavity 11 is used for passing a conductor.

As shown in fig. 2, a cleaning mechanism 20 is provided in the wire passing chamber 11, the cleaning mechanism 20 having: cleaning wheel 21, ring gear 22, first flow channel 23, brush plate 24, second flow channel 25, brush 26.

As shown in fig. 2, 3 and 4, the cleaning rotor 21 is rotatably installed in the wire passing chamber 11, and the cleaning rotor 21 has a hollow structure for passing a conductor. The toothed ring 22 is fixedly connected with the side end of the cleaning rotating wheel 21, and the toothed ring 22 and the cleaning rotating wheel 21 are positioned on the same central axis.

As shown in fig. 2 and 5, a first flow passage 23 is provided on the cleaning rotor, and the first flow passage 23 is communicated with the negative pressure chamber 12 in the thread passing mechanism 10. The brush plate 24 is arranged in the inner wall of the hollow structure of the cleaning rotating wheel 21, the brush plate 24 is connected with the cleaning rotating wheel 21 in a sliding way, the second flow passage 25 is arranged on the brush plate 24, and the second flow passage 25 is communicated with the first flow passage 23 and the hollow structure of the cleaning rotating wheel 21.

The brushes 26 are installed on the brush plates 24, the brushes 26 extend to the hollow structure of the cleaning wheel 21, and the brushes 26 on each brush plate 24 are blocked by the second flow passage 25 to form a vacant area.

As shown in fig. 1 and 2, a wire inlet 30 is provided on the left side of the wire passing mechanism 10, the wire inlet 30 has a wire inlet 31, the wire inlet 31 communicates with the left side of the wire passing cavity 11, a wire outlet 40 is provided on the right side of the wire passing mechanism 10, the wire outlet 40 has a wire outlet 41, and the wire outlet 41 communicates with the right side of the wire passing cavity 11.

The implementation steps are as follows: pushing the conductor of the cable along the wire passing cavity 11 of the wire passing mechanism 10, so that the conductor enters the wire passing cavity 11 and enters the cleaning rotating wheel 21 of the cleaning mechanism 20 along the wire passing cavity 11, and the brush 26 in the cleaning rotating wheel 21 is in contact with the conductor;

the control gear ring 22 drives the cleaning rotating wheel 21 to rotate, so that the hairbrush 26 rotates around the cylindrical conductor to clean impurities on the circumferential surface of the cylindrical conductor, the circumferential surface of the cylindrical conductor is uniformly stressed, and dead corners or insufficient stress points on the surface of the cylindrical conductor are avoided, and the adhered impurities are difficult to clean;

simultaneously, the first flow channel 23 of the cleaning rotating wheel 21 and the second flow channel 25 of the brush plate 24 are sucked through the negative pressure cavity 12, so that the brushes 26 on two sides of the dead zone area are sucked by the airflow of the second flow channel 25 and are bent towards the direction of the second flow channel 25, on one hand, impurities on the brushes 26 can be sucked into the negative pressure cavity 12 through the second flow channel 25 to be cleaned, the phenomenon that the impurities are stained on the conductor again is avoided, on the other hand, the pressure of the brushes 26 on the conductor is enabled, and the cleaning effect of the impurities on the conductor is enhanced.

The invention drives the hairbrush 26 to rotate around the cylindrical conductor in a rotating mode to clean at a dead angle-free angle, so that the defects that the surface of the cylindrical conductor has dead angles or stress points are insufficient and bonded impurities are difficult to clean are avoided, and even if part of the impurities in the hairbrush 26 are re-contaminated with the conductor, the other part of the hairbrush 26 can clean the impurities re-contaminated with the conductor again when the hairbrush 26 rotates. In addition, through the dead zone region between the hairbrushes 26 that the second runner 25 cuts off, not only through the air current suction of second runner 25, strengthen the pressure of hairbrush 26 to the conductor, further strengthen clean effect, can also be favorable to getting into the second runner 25 along the dead zone region by the impurity that the hairbrush 26 cleared up, the reinforcing is to the cleanness of impurity, avoids the conductor to be stained with new impurity.

Preferably, as shown in fig. 2, the thread passing mechanism 10 further has a driving motor 13 and a driving gear 14. The driving gear 14 is connected with the driving motor 13, and the driving gear 14 is engaged with tooth grooves formed on the outer surface of the gear ring 22.

Preferably, the line passing mechanism 10 further has a flow through port 15, the flow through port 15 is located below the negative pressure chamber 12, and the flow through port 15 is communicated with the negative pressure chamber 12.

More preferably, as shown in fig. 5, the wire passing mechanism 10 further has a sliding cover 16, and an opening communicating with the negative pressure chamber 12 is provided under the sliding cover 16.

The negative pressure cavity 12 is connected with a negative pressure system through a flow port 15 at the lower end, so that the generation of suction of the negative pressure cavity 12 is realized. According to needs, open sliding closure 16 on line mechanism 10, make opening and water supply system under the sliding closure 16 be linked together, and then make rivers enter into negative pressure chamber 12 along the opening, negative pressure chamber 12 gets into behind the rivers, close negative pressure system earlier, make rivers enter into second runner 25 along negative pressure chamber 12, finally make rivers wash away brush 26 and conductor, not only can reduce the cohesiveness between conductor and the impurity, can also make the impurity on the brush 26 change and break away from with brush 26, after washing away, close sliding closure 16, start negative pressure system, it handles to siphon away rivers. The cleaning effect of the brush 26 is enhanced and the brush is again stuck on the conductor.

Preferably, as shown in fig. 6, the brush 26 is made of soft bristles, and the tail of the brush 26 has a bifurcated structure. The sharp head of the brush 26 is prevented from directly abutting against the conductor, so that the quality of the conductor is prevented from being affected, and the brush 26 with the branched structure is beneficial to better contact with the conductor under the suction force of the second flow passage 25, so as to enhance the cleaning effect on the conductor.

Example two:

a conductor cleaning device for manufacturing cables has the same characteristic structure as the first embodiment, wherein a slag discharging bin 50 is arranged between a wire outlet 40 and a wire passing mechanism 10 as shown in figures 2, 7 and 8. The slag discharge bin 50 is provided with an extruding mechanism 60, and the extruding mechanism 60 has: a lead port 61, a limiting port 62, a ball 63, an air bag 64, an air pipe 65, a pressurizing cavity 66 and an extruding block 67.

The lead port 61 communicates the wire passage chamber 11 with the restriction port 62, and the restriction port 62 communicates with the outlet port 41. The restricted opening 62 is sized to accommodate the conductor and the lead opening 61 is sized larger than the conductor.

The slag discharging bin 50 is provided with a slag discharging port 51, and the slag discharging port 51 is positioned below the lead port 61.

The ball 63 is movably embedded in the side wall of the limiting opening 62, the air bag 64 is arranged at the side end of the ball 63, the air pipe 65 is communicated with the air bag 64 and the pressurizing cavity 66, the extruding block 67 is movably embedded in the side wall of the lead opening 61, and the extruding block 67 is positioned in the pressurizing cavity 66.

As shown in fig. 9 and 10, after the conductor passes through the cleaning mechanism 20, the conductor penetrates into the limiting opening 62 along the lead opening 61, and during the process that the conductor passes through the limiting opening 62, the ball 63 is pushed to slide and press the air bag 64, so that the gas in the air bag 64 enters the pressurizing cavity 66 along the gas pipe 65, at this time, the gas pressure in the pressurizing cavity 66 is increased, and the extruding block 67 around the lead opening 61 is pushed to move radially to contact with the conductor, so that the conductor is extruded. When the conductor is removing, through the effort of crowded removal piece 67, can reject stubborn impurity on the conductor, clear away and be stained with the impurity on the conductor again, strengthened clean effect greatly.

Example three:

a method for cleaning a conductor for cable manufacture, comprising the steps of:

pushing the conductor of the cable along the wire passing cavity 11 of the wire passing mechanism 10, so that the conductor enters the wire passing cavity 11 and enters the cleaning rotating wheel 21 of the cleaning mechanism 20 along the wire passing cavity 11, and the brush 26 in the cleaning rotating wheel 21 is in contact with the conductor;

Preferably, the negative pressure chamber 12 is connected with the negative pressure system through the circulation port 15 of lower extreme, as required, open the sliding closure 16 on the line mechanism 10, make opening and water supply system under the sliding closure 16 be linked together, and then make rivers enter into the negative pressure chamber 12 along the opening, after the negative pressure chamber 12 got into rivers, close the negative pressure system earlier, make rivers enter into second runner 25 along negative pressure chamber 12, finally make rivers erode brush 26 and conductor, not only can reduce the cohesiveness between conductor and the impurity, can also make the impurity on the brush 26 change and break away from with brush 26 more, after scouring, close sliding closure 16, start the negative pressure system, suck away rivers and handle.

Although the illustrative embodiments of the present invention have been described above to enable those skilled in the art to understand the present invention, the present invention is not limited to the scope of the embodiments, and it is apparent to those skilled in the art that all the inventive concepts using the present invention are protected as long as they can be changed within the spirit and scope of the present invention as defined and defined by the appended claims.

Claims

1. A conductor cleaning apparatus for cable manufacturing, comprising:

a thread passing mechanism having:

the wire passing cavity penetrates through the left side and the right side and is used for enabling a conductor to pass through;

a cleaning mechanism disposed in the wire passing cavity, the cleaning mechanism having:

the cleaning rotating wheel is rotatably arranged in the wire passing cavity, and is of a hollow structure used for a conductor to pass through;

the gear ring is fixedly connected with the side end of the cleaning rotating wheel;

the first flow channel is arranged on the cleaning rotating wheel and is communicated with a negative pressure cavity in the wire passing mechanism;

the brush plate is arranged on the inner wall of the hollow structure of the cleaning rotating wheel in a built-in mode;

the second flow channel is arranged on the brush plate and is communicated with the first flow channel and the hollow structure of the cleaning rotating wheel;

2. The conductor cleaning device for cable manufacturing according to claim 1, wherein the wire passing mechanism further comprises:

a drive motor;

and the driving gear is connected with the driving motor, and the driving gear is meshed with a tooth groove formed in the outer surface of the gear ring.

3. The conductor cleaning device for cable manufacturing according to claim 1, wherein the ring gear and the cleaning wheel are on the same central axis.

4. The conductor cleaning device for cable manufacturing according to claim 1, wherein the wire passing mechanism further has a communication port located below the negative pressure chamber, the communication port communicating with the negative pressure chamber.

5. The conductor cleaning device for cable manufacturing according to claim 4, wherein the wire passing mechanism further has a slide cover having an opening under the slide cover communicating with the negative pressure chamber.

6. The cable manufacturing conductor cleaning apparatus as set forth in claim 1, wherein said brush is made of soft bristles, and said brush tail portion has a bifurcated structure.

7. The conductor cleaning apparatus for cable manufacturing according to claim 1, wherein the brush plate is slidably connected to the cleaning wheel.

8. The conductor cleaning device for manufacturing the cable according to claim 1, wherein a wire inlet is arranged on the left side of the wire passing mechanism, the wire inlet is provided with a wire inlet, the wire inlet is communicated with the left side of the wire passing cavity, a wire outlet is arranged on the right side of the wire passing mechanism, the wire outlet is provided with a wire outlet, and the wire outlet is communicated with the right side of the wire passing cavity.