CN112941533A

CN112941533A - Heat treatment processing method for communication cable manufacture

Info

Publication number: CN112941533A
Application number: CN202110119065.8A
Authority: CN
Inventors: 王惠玲; 沈晓利
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-28
Filing date: 2021-01-28
Publication date: 2021-06-11

Abstract

The invention relates to the technical field of communication cables, in particular to a communication cable manufacturing heat treatment processing device which comprises a base, a driving device, supporting devices, a connecting device and a cleaning device, wherein the supporting devices are arranged at the left side and the right side of the upper end of the base; through the rotation of push rod, shake first vibrations board always for the second vibrations board shakes the cable, and the vibrations of cable make the acid solvent in the outside drop, tentatively make the cable outside dry.

Description

Heat treatment processing method for communication cable manufacture

Technical Field

The invention relates to the technical field of communication cables, in particular to a heat treatment processing method for manufacturing a communication cable.

Background

The communication cable is a communication line which is composed of a cable core formed by a plurality of mutually insulated wires or conductors and is provided with a sealing sheath outside. And an outer protective layer is also arranged outside the sheath. There are many laying modes such as overhead, direct burial, pipeline and water bottom. The cable is divided into symmetrical, coaxial and comprehensive cables according to the structure; it is divided into field operation and permanent cable (underground and submarine cable) according to the function. The communication cable has wider transmission frequency band, larger communication capacity and small external interference, but is not easy to overhaul. Can transmit telephone, telegraph, data, images and the like; before the communication cable is used, the cable needs to be oxidized, and the cable needs to be subjected to peracid treatment after the cable is oxidized, so that an oxide layer on the outer side of the cable falls off.

The existing heat treatment processing method for manufacturing the communication cable has the following problems:

(1) when the cable is processed, peracid treatment needs to be carried out on the cable, when the cable is peracid, the outer side needs to be sprayed with wet to ensure that one oxide on the outer side of the cable is in contact with an acid solvent, and after the peracid treatment, the acid solvent on the outer side needs to be treated to ensure the drying of the surface of the cable for later use;

(2) when drying the cable, although the transmission device can dry the surface of the cable, during the drying process, the cable is easily damaged, the drying effect is not ideal, and the drying efficiency is easily affected.

Disclosure of Invention

The technical scheme adopted by the invention to solve the technical problem is as follows: a communication cable manufacturing heat treatment processing method uses communication cable manufacturing heat treatment processing equipment which comprises a base, a driving device, a supporting device, a connecting device and a cleaning device, and the communication cable manufacturing heat treatment processing equipment is adopted to carry out heat treatment processing on the communication cable, and the specific method comprises the following steps:

s1, starting driving: the cleaning device is driven to rotate by starting the driving device, so that the cable is cleaned;

s2, peracid treatment: an acid solvent is externally connected with the acid pipeline, so that the acid solvent is sprayed out from the atomizing spray head, the cable is subjected to peracid treatment, and an oxide layer on the outer side of the cable is removed;

s3, vibration cable: vibrating the cable through the vibration of the vibration mechanism to enable the acid solvent on the cable to fall off;

s4, cable drying: through the arrangement of the cleaning bracket and the drying bracket, the residual acid solvent on the outer side of the cable is treated, so that the surface of the cable is dried;

the upper end of the base is provided with supporting devices at the left side and the right side, a connecting device is arranged above the base and between the two supporting devices, a driving device is arranged at the upper end of the base and below the supporting devices, and a cleaning device is arranged at the upper end of the base and outside the connecting device;

the connecting device comprises connecting rods and a first cylinder, the upper end of the base is fixedly connected with a plurality of groups of connecting rods, each group of connecting rods is provided with two connecting rods, the upper end of each group of connecting rods is fixedly connected with the first cylinder, and the two ends of the first cylinder are both open;

the cleaning device comprises a peracid mechanism, a vibration mechanism and a cleaning mechanism, wherein the peracid mechanism, the vibration mechanism and the cleaning mechanism are arranged on the outer side of the connecting device at equal intervals from left to right;

the peracid mechanism comprises a second cylinder, a first threaded rod, a telescopic pipeline, a first arc-shaped plate and an atomizing spray head, wherein both ends of the second cylinder are closed, the outer annular surface of the second cylinder is provided with symmetrical acid pipelines, one end of the acid pipeline, which is far away from the second cylinder, is externally connected with an acid solvent, the opposite sides of the acid pipelines all penetrate through the second cylinder, the inner cavity of the second cylinder is fixedly connected with the symmetrical first threaded cylinder, the inner threads of the first threaded cylinder are connected with first threads, the first threaded rod all penetrates through the second cylinder, the opposite end of the first threaded rod is rotatably connected with the first arc-shaped plate through a bearing, both ends of the first arc-shaped plate are fixedly connected with the telescopic pipeline, the opposite end of the telescopic pipeline is fixedly connected with the atomizing spray head, and one end of the telescopic pipeline, which is far away from the first arc-;

the cleaning mechanism comprises a cleaning support and a drying support, the cleaning support and the drying support are arranged at the left end of the outer side of the connecting device, and the cleaning support and the drying support are rotatably connected through a bearing;

the clearance support is including the fourth drum, the brush board, the second arc, the telescopic link, the second spring, second threaded rod and screw hole, fourth drum both ends are closed, a plurality of telescopic links of interior anchor ring equidistance fixedly connected with of fourth drum, the equal directional centre of a circle of fourth drum of relative one end of a plurality of telescopic links, the equal fixedly connected with second arc of relative one end of telescopic link, the second arc is close to one side of fourth drum interior anchor ring and is located the both sides of telescopic link and all is connected with the second spring of symmetry, the one end that the second arc was kept away from to the second spring all with third drum interior anchor ring fixed connection, one side that the telescopic link was kept away from to the second arc is seted up threaded hole, the internal thread of screw hole is connected with the second threaded rod, the relative one end of second threaded rod all is connected with the brush board through bearing rotation.

Preferably, the drying support is including the fifth drum, the third spring, the third arc, hot-blast cotton, hot-air pipes, the both ends of fifth drum are closed, the interior anchor ring equidistance fixedly connected with multiunit third spring of fifth drum, every group third spring is two, per two common fixedly connected with third arc of third spring, the centre of a circle of the equal directional fifth drum of a plurality of third springs, hot-air pipes has all been run through at the middle part of third arc, hot-air pipes's the one end of keeping away from the third arc all runs through fifth drum and external air heater, hot-air pipes keeps away from the one end of fifth drum and is provided with hot-blast cotton jointly, hot-blast cotton is the ring loop configuration.

Preferably, the vibrations mechanism is including the third drum, the vibrating rod, first vibrations board, first spring, the connecting plate, second screw cylinder and second vibrations board, the both ends of third drum are closed, the outside equidistance of third drum has run through a plurality of vibrating rods, a plurality of vibrating rods are the cross and distribute, the first vibrating plate of one end fixedly connected with of vibrating rod, the other end threaded connection of first vibrating plate has the second screw cylinder, the equal fixedly connected with second vibrations board of the relative one end of second screw cylinder, the outside of vibrating rod just is located the inner chamber fixedly connected with connecting plate of third drum, the first spring of one side fixedly connected with symmetry of keeping away from the second screw cylinder of connecting plate, the one end that the connecting plate was kept away from to first spring is common with the inner wall fixed connection of third drum, first vibrating plate and second vibrations board are convex structure.

Preferably, drive arrangement is including motor, gear, drive shaft and push rod, and the motor is installed near the left side in the upper end of base, and the output fixedly connected with drive shaft of motor, the fixed cover in the outside equidistance of drive shaft has been connected with a plurality of gears, the outside of drive shaft and the gear fixedly connected with push rod that is close to the middle part.

Preferably, the supporting device comprises supporting rods, supporting plates, rotating shafts and rolling shafts, the upper end of the base is located on the symmetrical supporting rods of the left side and the right side, the upper end of each supporting rod is fixedly connected with one side of the supporting plate opposite to the corresponding side of the supporting plate and located above and below the supporting plate, the rotating shafts are connected through bearings in a rotating mode, and the rolling shafts are fixedly sleeved on the outer sides of the rotating shafts.

Preferably, outer gears are fixedly sleeved on the outer sides of the third cylinder and the fourth cylinder and close to the right end of the third cylinder and the fourth cylinder, and the outer gears are meshed with the gears; the two ends of the second cylinder and the third cylinder are rotatably connected with the first cylinder through bearings, and the left end of the fourth cylinder and the right end of the fifth cylinder are rotatably connected with the first cylinder through bearings.

Compared with the prior art, the invention has at least one of the following beneficial technical effects:

1. in the actual operation process, the acid solvent is sprayed out of the atomizing nozzle to directly spray the acid solvent on the surface of the cable, so that the acid solvent can be ensured to be always in contact with the cable, and the later-stage treatment is facilitated;

2. in the actual operation process, the first vibration plate is always vibrated through the rotation of the push rod, so that the second vibration plate vibrates the cable, the acid solvent on the outer side drops due to the vibration of the cable, and the outer side of the cable is preliminarily dried;

3. in the actual operation process, the fourth cylinder is driven to rotate through the rotation of the outer gear, the brush plate is further driven to rotate, the acid solvent on the outer side of the cable is brushed to ensure the drying of the surface of the cable, and the residual acid solvent on the outer side of the cable is dried through the hot air cotton to ensure the drying of the cable.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic process flow diagram of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic elevation view of the present invention;

FIG. 4 is a schematic view of the support device of the present invention;

FIG. 5 is a schematic view of a cleaning support of the present invention;

FIG. 6 is a schematic of the peracid mechanism of the present invention;

FIG. 7 is a schematic view of the vibration mechanism of the present invention;

fig. 8 is a schematic view of a drying rack of the present invention.

In the figure: the device comprises a base 1, a driving device 2, a motor 21, a gear 22, a driving shaft 23, a push rod 24, a supporting device 3, a supporting rod 31, a supporting plate 32, a rotating shaft 33, a rolling shaft 34, a connecting device 4, a connecting rod 41, a first cylinder 42, a cleaning device 5, a peracid mechanism 51, a second cylinder 511, a first threaded cylinder 512, a first threaded rod 513, a telescopic pipeline 514, a first arc-shaped plate 515, an atomizing nozzle 516 and a vibration mechanism 52, the device comprises a third cylinder 521, a vibration rod 522, a first vibration plate 523, a first spring 524, a connecting plate 525, a second threaded cylinder 526, a second vibration plate 527, a cleaning mechanism 53, a cleaning support 531, a fourth cylinder 5311, a brush plate 5312, a second arc-shaped plate 5313, a telescopic rod 5314, a second spring 5315, a second threaded rod 5316, a threaded hole 5317, a drying support 532, a fifth cylinder 5321, a third spring 5322, a third arc-shaped plate 5323, hot air cotton 5324 and a hot air pipeline 5325.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained in the following with reference to fig. 1-8.

A communication cable manufacturing heat treatment processing method uses communication cable manufacturing heat treatment processing equipment, which comprises a base 1, a driving device 2, a supporting device 3, a connecting device 4 and a cleaning device 5, and the communication cable manufacturing heat treatment processing equipment is adopted to carry out heat treatment processing on the communication cable, and the specific method comprises the following steps:

s1, starting driving: the cleaning device 5 is driven to rotate by starting the driving device 2, so that the cable is cleaned;

s2, peracid treatment: an acid solvent is externally connected with the acid pipeline, so that the acid solvent is sprayed out from the atomizing nozzle 516, the cable is subjected to peracid treatment, and an oxide layer on the outer side of the cable is removed;

s3, vibration cable: the cable is vibrated by the vibration of the vibration mechanism 52, so that the acid solvent on the cable falls;

s4, cable drying: through the arrangement of the cleaning bracket 531 and the drying bracket 532, the acid solvent remained on the outer side of the cable is treated, so that the surface of the cable is dried;

the upper end of the base 1 is provided with supporting devices 3 at the left side and the right side, a connecting device 4 is arranged above the base 1 and between the two supporting devices 3, a driving device 2 is arranged at the upper end of the base 1 and below the supporting devices 3, and a cleaning device 5 is arranged at the upper end of the base 1 and outside the connecting device 4;

the connecting device 4 comprises connecting rods 41 and first cylinders 42, the upper end of the base 1 is fixedly connected with a plurality of groups of connecting rods 41, each group of connecting rods 41 is provided with two, the upper end of each group of connecting rods 41 is fixedly connected with the first cylinder 42, and two ends of the first cylinder 42 are both open; the cable can be supported by the first cylinder 42 making the cable more stable.

The supporting device 3 comprises a supporting rod 31, a supporting plate 32, a rotating shaft 33 and rolling shafts 34, the upper end of the base 1 is fixedly connected with the symmetrical supporting rods 31 at the left side and the right side, the upper end of the supporting rod 31 is fixedly connected with one side opposite to the supporting plate 32 and positioned above and below the supporting rod and is rotatably connected with the rotating shaft 33 through bearings, and the outer sides of the rotating shaft 33 are fixedly sleeved with the rolling shafts 34; the cable can be rolled by the rolling shaft 34, so that the cable can be moved conveniently.

The driving device 2 comprises a motor 21, a gear 22, a driving shaft 23 and a push rod 24, the motor 21 is installed at the upper end of the base 1 close to the left side, the driving shaft 23 is fixedly connected to the output end of the motor 21, the plurality of gears 22 are fixedly sleeved on the outer side of the driving shaft 23 at equal intervals, and the push rod 24 is fixedly connected to the gear 22 on the outer side of the driving shaft 23 and close to the middle part; through the rotation of motor 21, drive a plurality of gears 22 and rotate, and then make cleaning device 5 rotate, clear up the cable.

The cleaning device 5 comprises an peracid mechanism 51, a vibration mechanism 52 and a cleaning mechanism 53, and the peracid mechanism 51, the vibration mechanism 52 and the cleaning mechanism 53 are arranged on the outer side of the connecting device 4 at equal intervals from left to right;

the peracid mechanism 51 includes a second cylinder 511, a first threaded cylinder 512, a first threaded rod 513, the device comprises a telescopic pipeline 514, a first arc-shaped plate 515 and an atomizing nozzle 516, wherein two ends of a second cylinder 511 are closed, the outer ring surface of the second cylinder 511 is provided with symmetrical acid pipelines, one end of the acid pipeline, which is far away from the second cylinder 511, is externally connected with an acid solvent, opposite sides of the acid pipeline penetrate through the second cylinder 511, an inner cavity of the second cylinder 511 is fixedly connected with symmetrical first threaded cylinders 512, the inner threads of the first threaded cylinders 512 are connected with first threads 513, the first threaded rods 513 penetrate through the second cylinder 511, opposite ends of the first threaded rods 513 are rotatably connected with the first arc-shaped plate 515 through bearings, two ends of the first arc-shaped plate 515 are fixedly connected with the telescopic pipeline 514, the opposite ends of the telescopic pipeline 514 are fixedly connected with the atomizing nozzle 516, and one end of the telescopic pipeline 514, which is far away from the first arc-shaped plate 515, penetrates through the; by rotating the first threaded rod 513, the first arc-shaped plate 515 is driven to move, and then the distance between the atomizing nozzle 516 and the cable can be adjusted, so that the cables with different sizes can be subjected to acid treatment.

The vibration mechanism 52 comprises a third cylinder 521, a vibration rod 522, a first vibration plate 523, a first spring 524, a connecting plate 525, a second threaded cylinder 526 and a second vibration plate 527, both ends of the third cylinder 521 are closed, a plurality of vibration rods 522 penetrate through the outer side of the third cylinder 521 at equal intervals, the vibration rods 522 are distributed in a cross shape, one end of each vibration rod 522 is fixedly connected with a first vibration plate 523, the other end of each first vibration plate 523 is in threaded connection with a second threaded cylinder 526, the opposite end of each second threaded cylinder 526 is fixedly connected with a second vibration plate 527, a connecting plate 525 is fixedly connected to the outer side of each vibration rod 522 and the inner cavity of the third cylinder 521, one side of the connecting plate 525 far away from the second threaded cylinder 526 is fixedly connected with a symmetrical first spring 524, one end of the first spring 524 far away from the connecting plate 525 is fixedly connected with the inner wall of the third cylinder 521, and the first vibration plate 523 and the second vibration plate 527 are both in circular arc structures; through the rotation of motor 21, drive shaft 23 and push rod 24 rotate, and the rotation of push rod 24 promotes first vibrations board 523 and shakes, and then shakes second vibrations board 527 through vibrations pole 522 for the cable shakes, makes the acid solvent in the cable outside drop.

The cleaning mechanism 53 comprises a cleaning bracket 531 and a drying bracket 532, the cleaning bracket 531 and the drying bracket 532 are arranged at the left end of the outer side of the connecting device 4, and the cleaning bracket 531 and the drying bracket 532 are rotatably connected through a bearing; can be convenient for a plurality of supports rotate.

The cleaning bracket 531 comprises a fourth cylinder 5311, a brush plate 5312, a second arc-shaped plate 5313, a telescopic rod 5314, a second spring 5315, a second threaded rod 5316 and a threaded hole 5317, both ends of the fourth cylinder 5311 are closed, a plurality of telescopic rods 5314 are fixedly connected to the inner annular surface of the fourth cylinder 5311 at equal intervals, opposite ends of the plurality of telescopic rods 5314 all point to the center of the fourth cylinder 5311, opposite ends of the telescopic rods 5314 are fixedly connected with second arc-shaped plates 5313, one side, close to the inner annular surface of the fourth cylinder 5311, of the second arc-shaped plates 5313 and located on both sides of the telescopic rods 5314 are connected with symmetrical second springs 5315, one ends, far away from the second arc-shaped plates 5313, of the second springs 5315 are fixedly connected with the inner annular surface of the third cylinder 5311, one side, far away from the telescopic rods 5314, of the second arc-shaped plates 5313 is provided with threaded holes 5317, the inner threads of the threaded holes 5317 are connected with second threaded rods 5316, and opposite ends of the second threaded rods 5316 are rotatably connected with brush; the connection of the brush plate 5312 brushes the outside acid solvent of the cable, and the second spring 5315 enables the brush plate 5312 to be always attached to the outside of the cable.

The drying support 532 comprises a fifth cylinder 5321, third springs 5322, third arc-shaped plates 5323, hot air cotton 5324 and hot air pipes 5325, wherein two ends of the fifth cylinder 5321 are closed, a plurality of groups of third springs 5322 are fixedly connected to the inner annular surface of the fifth cylinder 5321 at equal intervals, each group of third springs 5322 is two, each two third springs 5322 are fixedly connected with the third arc-shaped plate 5323, the plurality of third springs 5322 point to the center of the fifth cylinder 5321, the hot air pipes 5325 penetrate through the middle parts of the third arc-shaped plates 5323, one ends of the hot air pipes 5325 far away from the third arc-shaped plates 5323 penetrate through the fifth cylinder 5321 and are externally connected with the hot air blower, the hot air cotton 5324 is arranged at one end of the hot air pipes 5325 far away from the fifth cylinder 5321, the hot air cotton 5324 is of a circular ring-shaped structure, the external fan is started, so that hot air enters the hot air cotton 5324 from the hot air pipes 5325 to heat the hot air cotton 5324 and connect the third springs 5322, so that the third arc-shaped plate 5323 can be attached to the hot air cotton 5324, and then the hot air cotton 5324 is attached to the outer side of the cable all the time to dry the cable.

Outer gears are fixedly sleeved on the outer sides and close to the right ends of the third cylinder 521 and the fourth cylinder 5311, and the outer gears are meshed with the gear 22; both ends of the second cylinder 511 and the third cylinder 521 are rotatably connected to the first cylinder 42 through bearings, and both the left end of the fourth cylinder 5311 and the right end of the fifth cylinder 5321 are rotatably connected to the first cylinder 42 through bearings.

The working principle is as follows:

when the cable drying device is used, the gear 22, the driving shaft 23 and the push rod 24 are driven to rotate by starting the motor 21, the driving shaft 23 rotates to drive the gear 22 fixedly sleeved on the outer side to rotate, the gear 22 rotates to drive the outer gear to rotate, the outer gear rotates, the third cylinder 521 and the fourth cylinder 5311 rotate, the fourth cylinder 5311 rotates to drive the hairbrush plate 5312 to rotate by connection of the telescopic rod 5314, acid solvent on the outer side of the cable is brushed, a hot air pipeline 5325 is externally connected with a hot air blower, hot air flows out of the hot air pipeline 5325 and flows into the hot air cotton 5324, the hot air cotton 5324 is heated all the time, and the hot air cotton 5324 is heated to dry the cable all the time;

the third cylinder 521 rotates to drive the vibration rod 522 to rotate, and then the push rod 24 rotates to push the first vibration plate 523 to move the first vibration plate 523, so that the first vibration plate 523 moves and the second vibration plate 527 is driven to vibrate through the connection of the vibration rod 522 to vibrate the cable, and the acid solvent outside the cable falls;

and the acid solvent is externally connected with the acid pipeline, so that the acid solvent always flows into the second cylinder 511, and then is sprayed out from the atomizing nozzle 516 through the telescopic pipeline 514 and the atomizing nozzle 516, so as to perform acid treatment on the cable.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A communication cable manufacturing heat treatment processing method uses a communication cable manufacturing heat treatment processing device, which comprises a base (1), a driving device (2), a supporting device (3), a connecting device (4) and a cleaning device (5), and is characterized in that: the specific method for carrying out heat treatment processing on the communication cable by adopting the heat treatment processing equipment for manufacturing the communication cable comprises the following steps:

s1, starting driving: the cleaning device (5) is driven to rotate by starting the driving device (2), so that the cable is cleaned;

s2, peracid treatment: an acid solvent is externally connected with the acid pipeline, so that the acid solvent is sprayed out from the atomizing spray head (516), the cable is subjected to peracid treatment, and an oxide layer on the outer side of the cable is removed;

s3, vibration cable: vibrating the cable by the vibration of the vibrating mechanism (52) to enable the acid solvent on the cable to fall;

s4, cable drying: through the arrangement of the cleaning bracket (531) and the drying bracket (532), the acid solvent remained on the outer side of the cable is treated, so that the surface of the cable is dried;

the upper end of the base (1) is provided with supporting devices (3) at the left side and the right side, a connecting device (4) is arranged above the base (1) and between the two supporting devices (3), a driving device (2) is arranged at the upper end of the base (1) and below the supporting devices (3), and a cleaning device (5) is arranged at the upper end of the base (1) and outside the connecting device (4);

the connecting device (4) comprises connecting rods (41) and first cylinders (42), the upper end of the base (1) is fixedly connected with a plurality of groups of connecting rods (41), two connecting rods (41) are arranged in each group, the upper end of each connecting rod (41) is fixedly connected with the first cylinder (42), and two ends of the first cylinder (42) are both in an open mode;

the cleaning device (5) comprises a peracid mechanism (51), a vibration mechanism (52) and a cleaning mechanism (53), and the peracid mechanism (51), the vibration mechanism (52) and the cleaning mechanism (53) are arranged on the outer side of the connecting device (4) at equal intervals from left to right;

the peracid mechanism (51) comprises a second cylinder (511), a first threaded cylinder (512), a first threaded rod (513), a telescopic pipeline (514), a first arc-shaped plate (515) and an atomizing spray head (516), wherein both ends of the second cylinder (511) are closed, a symmetrical acid pipeline is arranged on the outer annular surface of the second cylinder (511), one end of the acid pipeline, far away from the second cylinder (511), is externally connected with an acid solvent, the opposite sides of the acid pipeline penetrate through the second cylinder (511), a first symmetrical threaded cylinder (512) is fixedly connected with an inner cavity of the second cylinder (511), a first thread (513) is connected with the inner thread of the first threaded cylinder (512), the first threaded rod (513) penetrates through the second cylinder (511), the opposite end of the first threaded rod (513) is rotatably connected with the first arc-shaped plate (515) through a bearing, both ends of the first arc-shaped plate (515) are fixedly connected with the telescopic pipeline (514), the opposite ends of the telescopic pipelines (514) are fixedly connected with atomizing nozzles (516), and one ends of the telescopic pipelines (514) far away from the first arc-shaped plate (515) penetrate through the second cylinder (511);

the cleaning mechanism (53) comprises a cleaning support (531) and a drying support (532), the cleaning support (531) and the drying support (532) are arranged at the left end of the outer side of the connecting device (4), and the cleaning support (531) is rotatably connected with the drying support (532) through a bearing;

the cleaning support (531) comprises a fourth cylinder (5311), a brush plate (5312), a second arc-shaped plate (5313), a telescopic rod (5314), a second spring (5315), a second threaded rod (5316) and a threaded hole (5317), both ends of the fourth cylinder (5311) are closed, a plurality of telescopic rods (5314) are fixedly connected to the inner annular surface of the fourth cylinder (5311) at equal intervals, opposite ends of the plurality of telescopic rods (5314) point to the circle center of the fourth cylinder (5311), opposite ends of the telescopic rods (5314) are fixedly connected with the second arc-shaped plate (5313), one end of the second arc-shaped plate (5313) close to the inner annular surface of the fourth cylinder (5311) and located at two sides of the telescopic rods (5314) are connected with the symmetrical second spring (5315), one end of the second spring (5315) far away from the second arc-shaped plate (5313) is fixedly connected with the inner annular surface of the third cylinder (5311), and one side of the second arc-shaped plate (5313) far away from the threaded hole (5317) is provided with the threaded hole, the inner thread of the threaded hole (5317) is connected with a second threaded rod (5316), and the opposite ends of the second threaded rod (5316) are rotatably connected with a brush plate (5312) through bearings.

2. The heat treatment processing method for manufacturing communication cables as claimed in claim 1, wherein: the drying bracket (532) comprises a fifth cylinder (5321), a third spring (5322), a third arc-shaped plate (5323), hot air cotton (5324) and a hot air pipeline (5325), both ends of the fifth cylinder (5321) are closed, multiple groups of third springs (5322) are fixedly connected to the inner annular surface of the fifth cylinder (5321) at equal intervals, each group of the third springs (5322) is two, every two third springs (5322) are fixedly connected with a third arc-shaped plate (5323) together, the multiple third springs (5322) point to the center of the fifth cylinder (5321), a hot air pipeline (5325) penetrates through the middle of the third arc-shaped plate (5323), one end of the hot air pipeline (5325) far away from the third arc-shaped plate (5323) penetrates through the fifth cylinder (5321) and is externally connected with a hot air blower, hot air cotton (5324) is arranged at one end of the hot air pipeline (5325) far away from the fifth cylinder (5321) together, and the hot air cotton (5324) is of a circular ring structure.

3. The heat treatment processing method for manufacturing communication cables as claimed in claim 1, wherein: the vibration mechanism (52) comprises a third cylinder (521), vibration rods (522), a first vibration plate (523), a first spring (524), a connecting plate (525), a second threaded cylinder (526) and a second vibration plate (527), both ends of the third cylinder (521) are closed, a plurality of vibration rods (522) penetrate through the outer side of the third cylinder (521) at equal intervals, the vibration rods (522) are distributed in a cross shape, one end of each vibration rod (522) is fixedly connected with the first vibration plate (523), the other end of each first vibration plate (523) is in threaded connection with the second threaded cylinder (526), the opposite ends of the second threaded cylinders (526) are fixedly connected with the second vibration plates (527), the outer side of each vibration rod (522) is fixedly connected with the connecting plate (525) in the inner cavity of the third cylinder (521), one side of the connecting plate (525) far away from the second threaded cylinder (526) is fixedly connected with the symmetrical first spring (524), one end of the first spring (524) far away from the connecting plate (525) is fixedly connected with the inner wall of the third cylinder (521), and the first vibration plate (523) and the second vibration plate (527) are both of circular arc structures.

4. The heat treatment processing method for manufacturing communication cables as claimed in claim 1, wherein: drive arrangement (2) are including motor (21), gear (22), drive shaft (23) and push rod (24), and motor (21) are installed near the left side to the upper end of base (1), and the output fixedly connected with drive shaft (23) of motor (21), and a plurality of gears (22) have been cup jointed to the equidistance in the outside of drive shaft (23) equidistance fixed, and the outside of drive shaft (23) just is close to gear (22) fixedly connected with push rod (24) in middle part.

5. The heat treatment processing method for manufacturing communication cables as claimed in claim 1, wherein: strutting arrangement (3) are including bracing piece (31), backup pad (32), pivot (33) and rolling shaft (34), and the upper end of base (1) is located bracing piece (31) of left and right sides fixedly connected with symmetry, and the relative one side of the upper end fixedly connected with backup pad (32) of bracing piece (31) just is located the upper and lower side and all is connected with pivot (33) through the bearing rotation, and rolling shaft (34) have all been connected to the outside of pivot (33) fixed the cup jointing.

6. The method of claim 4, wherein the heat treatment process comprises: outer gears are fixedly sleeved on the outer sides and close to the right ends of the third cylinder (521) and the fourth cylinder (5311), and the outer gears are meshed with the gear (22); the two ends of the second cylinder (511) and the third cylinder (521) are rotatably connected with the first cylinder (42) through bearings, and the left end of the fourth cylinder (5311) and the right end of the fifth cylinder (5321) are rotatably connected with the first cylinder (42) through bearings.