CN112259300A

CN112259300A - Forming processing method for communication cable core

Info

Publication number: CN112259300A
Application number: CN202011117201.1A
Authority: CN
Inventors: 潘学英; 陈先明
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-19
Filing date: 2020-10-19
Publication date: 2021-01-22

Abstract

The invention relates to a communication cable core forming processing method, which relates to the technical field of communication cable preparation, and uses a communication cable core twisting device, the device comprises an underframe, a guide device, an adjusting twisting device and a rotary winding device are sequentially arranged on the upper side edge of the underframe along the extension direction of the underframe, the guide device comprises a fixed frame, a conical guide cylinder, a connecting rod, a sliding block, an elastic supporting rod, an arc-shaped limiting block, a first limiting block, a second limiting block, a driving pressure spring and a locking piece, and the adjusting twisting device comprises a limiting disc, a wire guide groove, a fixing rod, a rotating cylinder, a pressing rod, a pressing block, a driving motor and a limiting ring; the invention has the effects of higher efficiency and lower cost in the process of twisting the communication cable.

Description

Forming processing method for communication cable core

Technical Field

The invention relates to the technical field of communication cable preparation, in particular to a method for forming and processing a core of a communication cable.

Background

The communication cable is a cable for transmitting telephone, telegraph, fax document, television and radio program data and other electric signals; is formed by twisting one or more pairs of mutually insulated wires. Compared with an overhead open wire, the communication cable has the advantages of large communication capacity, high transmission stability, good confidentiality, less influence of natural conditions and external interference and the like, so that the communication cable is more and more favored.

The sinle silk of current communication cable is made by many mutual insulated wire transposition, and when many sinle silks at the in-process of transposition, need use the stranding machine, with communication cable's sinle silk fixed take-up on the stranding machine, through the rotation of stranding machine to strand many sinle silks, at last with the sinle silk of accomplishing the transposition pass through the extruding machine to with sinle silk surface mould package insulating skin can.

The above prior art solutions have the following drawbacks: when the existing stranding machine twists the wire cores, only the wire cores with specific number can be twisted at one time, when the number of the wire cores in the communication cable is different, different stranding machines need to be replaced to twist the wire cores with different numbers, and the replacement of the stranding machine undoubtedly increases the workload and reduces the working efficiency; in addition, the mode that a stranding machine can only strand a specific number of cores makes the practicality of the stranding machine decline to improve manufacturing cost, so when strand the core, still have the space that can improve.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a method for forming and processing a core of a communication cable, which has the effects of higher efficiency and lower cost in the process of stranding the communication cable.

The above object of the present invention is achieved by the following technical solutions:

a communication cable core forming processing method uses a communication cable core stranding device which comprises an underframe, wherein a guide device, an adjusting stranding device and a rotary winding device are sequentially arranged on the upper side edge of the underframe along the extension direction of the underframe, wherein the guide device, the adjusting stranding device and the rotary winding device are arranged on the upper side edge of the underframe;

the guiding device comprises a fixing frame, a conical guiding barrel, a connecting rod, sliding blocks, an elastic supporting rod, an arc-shaped limiting block, a first limiting block, a second limiting block, a driving pressure spring and a locking piece, wherein the fixing frame is arranged on the upper side face of the underframe and extends upwards, the conical guiding barrel is fixedly arranged on the fixing frame and is arranged in parallel along the extension direction of the underframe, the connecting rod is fixedly arranged in the inner cavity of the conical guiding barrel and is also arranged in parallel along the extension direction of the underframe, a plurality of sliding blocks are arranged on the connecting rod in a sliding way, the side walls of the adjacent sliding blocks are in sliding contact with each other, the locking piece is arranged on the side wall of the sliding block and locks the adjacent sliding blocks, the elastic supporting rod is arranged on the side wall of the sliding block and extends towards the inner side wall of the conical guiding barrel to be, the first limiting block and the second limiting block are fixed at two ends of the connecting rod in a threaded manner, the driving pressure spring is arranged between the first limiting block and the sliding block, and two ends of the driving pressure spring respectively abut against the first limiting block and the sliding block so as to drive the sliding block to be compressed towards the direction of the second limiting block;

the adjusting and twisting device comprises a limiting disc, a wire groove, a fixing rod, a rotating cylinder, a pressing rod, a pressing block, a driving motor and a limiting ring, wherein the fixing rod is installed on one side of the connecting rod in a threaded manner, the limiting disc is integrally arranged on one side, away from the second limiting block, of the fixing rod, the wire groove is sequentially formed in the circumferential side wall of the limiting disc and used for embedding and limiting a wire core, the limiting ring is symmetrically and fixedly installed on the upper side surface of the underframe and located on one side, away from the fixing rod, of the limiting disc, the rotating cylinder is rotatably installed between the limiting rings, the driving motor is arranged on the underframe and drives the rotating cylinder to rotate, the pressing rod is installed on the rotating cylinder in a threaded manner and circumferentially arranged along the extension direction of the rotating cylinder and extends into the inner cavity of the rotating cylinder, and the pressing block is;

the rotary winding device comprises a winding roller, a winding frame and a winding motor, wherein the winding frame is fixedly arranged on the bottom frame, the winding roller is rotatably arranged on the winding frame, and the winding motor is arranged on the bottom frame and drives the winding roller to rotate;

the method for forming and processing the communication cable core by using the communication cable core stranding equipment comprises the following steps:

s1: positioning the lead, namely fixing and positioning the lead to be stranded by a guide device;

s2: fixing in a strand manner, and extruding the conducting wire positioned in the step S1 into a strand through an adjusting and twisting device;

s3: stranding into a strand, namely stranding and winding the wires which are stranded in the step S2 by the driving of a driving motor, so that a plurality of wires are stranded and wound into a strand;

s4: and (4) winding and collecting, wherein the conducting wire stranded into a strand in the step S3 is wound and collected by a rotary winding device.

According to a preferred technical scheme of the invention, the elastic supporting rod comprises a sleeving barrel, a connecting column, an extrusion pressure spring, a connecting hook and a sliding groove, the sleeving barrel is integrally arranged on the sliding block, the connecting column is inserted and arranged on the sleeving barrel and is abutted against the inner side wall of the conical guide barrel, the extrusion pressure spring is arranged in an inner cavity of the sleeving barrel and is abutted against the end part of the connecting column, the connecting hook is arranged at the end part of the sleeving barrel close to the connecting column and is abutted against the outer side wall of the connecting column in a sliding manner, and the sliding groove is formed in the connecting column and is used for limiting the sliding of the.

As a preferred technical scheme, the locking part comprises locking holes, locking columns, a movable disc, a locking pressure spring, a tensioning line, a collision disc and a mounting groove, the locking holes are uniformly formed in one side of a sliding block and are arranged in a circumferential mode, the mounting groove is formed in one side, away from the locking holes, of the sliding block, the movable disc is installed in the mounting groove in a sliding mode, the locking columns are fixedly installed on one side, away from the bottom of the mounting groove, of the movable disc and are clamped and limited in the locking holes, the locking pressure spring is arranged between the bottom of the mounting groove and the movable disc to drive the movable disc to slide outwards, the tensioning line is fixedly connected with one side, away from the locking columns, of the movable disc, a penetrating groove for the tensioning line to penetrate through and is communicated with the mounting groove is formed in the sliding block, and the collision disc is fixedly connected with one.

As a preferable technical scheme of the invention, one side of the interference disc, which is far away from the tension line, is integrally provided with a pull ring.

As a preferable technical scheme of the invention, one side of the pressing block, which is abutted against the wire, is rotatably provided with a rolling rod which is slidably abutted against the wire.

According to the preferable technical scheme, the winding roller comprises winding plates, arc-shaped pressing air bags, a connecting plate and through grooves, the winding plates are symmetrically arranged, two ends of the connecting plate are fixedly connected with the winding plates, the arc-shaped pressing air bags are fixedly arranged on one sides, far away from the connecting plate, of the winding plates, the through grooves are formed in the winding plates and penetrate through the winding plates, and penetrating grooves for the lead to penetrate through are formed between the winding plates.

As a preferred technical scheme of the invention, the outer surface of the arc-shaped pressing air bag is provided with a plurality of embedded grooves which are arranged in sequence.

In summary, the invention includes at least one of the following beneficial technical effects:

1. in the process of twisting a plurality of wires, the plurality of wires can be conveniently and uniformly fixed through the guide device, the operation is convenient and quick, when the number of the wires is increased or reduced, the operation can be quickly carried out, the equipment does not need to be replaced, and the practicability of the equipment is improved so as to reduce the cost; in addition, the stranded wires can be conveniently stranded into one strand by adjusting the stranding device and the rotary winding device, and the stranded wires are rapidly and synchronously wound to facilitate actual collection;

2. the elastic support rod is arranged, so that the device can be suitable for traction and fixation of wires with different thicknesses, the utilization rate of the device is further improved, and the production cost is reduced;

3. the setting of retaining member, when the radical of wire is different, angle between the adjustment sliding block that can be quick to the wire homoenergetic of different radicals can be in even angle and pull fixedly.

Drawings

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

Fig. 2 is a schematic diagram of the main structure of the present invention.

Fig. 3 is a schematic view of the structure of the guide device.

Fig. 4 is a schematic structural view of the retaining member.

Fig. 5 is a schematic structural view of an adjusting twisting device.

Fig. 6 is a schematic view of the structure of the rotary winding device and the winding roller.

In the figure, 1, a chassis; 2. a guide device; 3. adjusting the stranding device; 4. rotating the winding device; 21. a fixed mount; 22. a tapered guide barrel; 23. a connecting rod; 24. a sliding block; 25. an elastic support bar; 26. an arc-shaped limiting block; 27. a first stopper; 28. a second limiting block; 29. driving a pressure spring; 5. a locking member; 31. a limiting disc; 32. a wire guide groove; 33. fixing the rod; 34. a rotating cylinder; 35. a hold down bar; 36. a compression block; 37. a drive motor; 38. a limiting ring; 41. a winding roller; 42. a bobbin; 43. a winding motor; 251. sleeving a cylinder; 252. connecting columns; 253. extruding the pressure spring; 254. a connecting hook; 255. a sliding groove; 51. a locking hole; 52. a locking post; 53. a movable tray; 54. locking a pressure spring; 55. tensioning the wire; 56. a touch pad; 57. mounting grooves; 241. a groove is penetrated; 561. pulling the ring; 361. a roll bar; 411. a wire winding plate; 412. an arc-shaped pressing air bag; 413. a connecting plate; 414. a through groove; 415. a groove is arranged in a penetrating way; 4121. the groove is embedded.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 2, in order to more conveniently and rapidly twist the core of the communication cable, the method for forming and processing the core of the communication cable disclosed by the invention uses a communication cable core twisting device, which comprises a chassis 1, wherein a guide device 2, an adjusting twisting device 3 and a rotary winding device 4 are sequentially arranged on the upper side edge of the chassis 1 along the extension direction of the chassis 1; in the process of twisting a plurality of wires, the plurality of wires can be conveniently and uniformly fixed through the guide device 2, the operation is convenient and quick, when the number of the wires is increased or reduced, the operation can be quickly carried out, the equipment does not need to be replaced, and the practicability of the equipment is improved so as to reduce the cost; in addition, can put convenient stranding with the wire one strand through adjusting transposition device 3 and rotatory winding device 4, and carry out quick synchronous winding with the wire of stranding one strand, make things convenient for actual collection.

Referring to fig. 3, the guiding device 2 includes a fixing frame 21, a tapered guiding cylinder 22, a connecting rod 23, a sliding block 24, an elastic supporting rod 25, an arc-shaped limiting block 26, a first limiting block 27, a second limiting block 28, a driving pressure spring 29 and a locking member 5, the fixing frame 21 is arranged on the upper side surface of the chassis 1 in a welding manner and extends upwards, the tapered guiding cylinder 22 is fixedly arranged on the fixing frame 21 and is arranged in parallel along the extending direction of the chassis 1, and as shown in the drawing, the diameters of the tapered guiding cylinder 22 are sequentially reduced from left to right; the connecting rod 23 is fixedly arranged in the inner cavity of the conical guide cylinder 22 in a welding mode and is also arranged in parallel along the extension direction of the underframe 1, the plurality of sliding blocks 24 are arranged on the connecting rod 23 in a sliding mode, the side walls of the adjacent sliding blocks 24 are in sliding contact, two sliding blocks 24 are taken as an example in the drawing, and the sliding blocks 24 are of annular metal structures; the locking piece 5 is arranged on the side wall of the sliding block 24 and locks the adjacent sliding blocks 24, and the arrangement of the locking piece 5 prevents the sliding blocks 24 from relatively rotating; the elastic support rod 25 is arranged on the side wall of the sliding block 24 and extends towards the inner side wall of the conical guide cylinder 22 to be abutted against the inner side wall of the conical guide cylinder 22, and the arc-shaped limiting block 26 is arranged at one end of the elastic support rod 25 abutted against the conical guide cylinder 22; in the process of actually fixing the wires, the wires are embedded into the arc-shaped limiting block 26 and are tightly pressed against the inner side wall of the conical guide cylinder 22 through the elasticity of the elastic supporting rod 25, so that the uniform dispersion among a plurality of wires is ensured, and the wires are convenient to be not interfered with each other when the wires are actually twisted; the first limiting block 27 and the second limiting block 28 are rectangular metal structures, the first limiting block 27 and the second limiting block 28 are fixed at two ends of the connecting rod 23 in a threaded manner, the driving pressure spring 29 is arranged between the first limiting block 27 and the sliding block 24, and two ends of the driving pressure spring respectively abut against the first limiting block 27 and the sliding block 24 so as to drive the sliding block 24 to be pressed towards the second limiting block 28; in the actual use process, the sliding block 24 is pressed on the second limiting block 28 by the driving force of the driving pressure spring 29, so that the sliding block 24 is not easy to rotate on the connecting rod 23 in the actual use process, the position of the wire is not easy to change in the actual use process, and the wire is convenient to twist.

With continued reference to fig. 3, in order to ensure that wires with different thicknesses can be pressed onto the inner side wall of the tapered guiding cylinder 22, the elastic supporting rod 25 is provided with a telescopic pressing structure, and the specific structure of the telescopic pressing is as follows:

the elastic support rod 25 comprises a sleeve 251, a connecting column 252, an extrusion pressure spring 253, a connecting hook 254 and a sliding groove 255; in this embodiment, the sleeving barrel 251 and the connecting column 252 are made of metal materials, the sleeving barrel 251 is integrally arranged on the sliding block 24 in a welding manner, the connecting column 252 is inserted and installed on the sleeving barrel 251 and is abutted against the inner side wall of the tapered guiding barrel 22, the extrusion pressure spring 253 is arranged in the inner cavity of the sleeving barrel 251 and is abutted against the end part of the connecting column 252, the wires with different thicknesses can penetrate through the arc-shaped limiting block 26 by the resilience of the extrusion pressure spring 253, and the wires can be pressed against the inner side wall of the tapered guiding barrel 22 by the resilience of the extrusion pressure spring 253; the connecting hook 254 is arranged at the end part of the sleeve tube 251 close to the connecting column 252 and is in sliding contact with the outer side wall of the connecting column 252, and the sliding groove 255 is arranged on the connecting column 252 and is used for limiting the sliding of the connecting hook 254. Through the mutual cooperation between the connecting hook 254 and the sliding groove 255, the connecting column 252 is limited by the connecting hook 254 and is not easy to fall off from the sleeved barrel 251, and the mounting stability of the sleeved barrel 251 is improved.

Referring to fig. 4, the locking member 5 includes locking holes 51, locking posts 52, a moving plate 53, a locking compression spring 54, a tightening line 55, an abutting plate 56 and a mounting groove 57, the locking holes 51 are uniformly formed on one side of the sliding block 24 and are circumferentially arranged, and in this embodiment, the locking holes 51 are formed densely; the mounting groove 57 is opened in one side that the sliding block 24 keeps away from the locking hole 51, the movable tray 53 is rectangular block-shaped structure and is slidably installed in the mounting groove 57, the locking column 52 is fixedly installed in one side of the movable tray 53 that keeps away from the bottom of the mounting groove 57 and is clamped in the locking hole 51 in a limiting manner, when two sliding blocks 24 are mutually contradicted, the locking column 52 only needs to be clamped in the locking hole 51, mutual rotation between two sliding blocks 24 cannot easily occur, and therefore it is guaranteed that the sliding blocks 24 are installed more stably. Locking pressure spring 54 is located between mounting groove 57 tank bottom and the removal dish 53 in order to drive removal dish 53 and outwards slide, and the groove 241 that walks that supplies the taut line 55 to walk and communicate each other with mounting groove 57 is seted up to one side fixed connection that locking post 52 was kept away from to taut line 55 and removal dish 53 on the sliding block 24, and conflict dish 56 and the one side fixed connection that the removal dish 53 was kept away from to taut line 55. In the in-process of actual installation and operation, only need outside pulling to touch the dish 56, drive taut line 55 through touching the dish 56 and remove to make and remove dish 53 and remove in to mounting groove 57, after the relative angle modulation between the elastic support pole 25 on sliding block 24 is accomplished, release touching the dish 56, make locking post 52 and locking hole 51 on the removal dish 53 carry out the joint, thereby can be convenient and fast's the angle between the regulation sliding block 24.

With continued reference to fig. 4, a pull ring 561 is integrally formed on the side of the interference plate 56 remote from the tension line 55. The setting through pulling ring 561 can be more convenient and fast when pulling the contact disc 56, improve the convenience of actual operation.

Referring to fig. 5, the adjusting and twisting device 3 includes a limiting disc 31, a wire guide groove 32, a fixing rod 33, a rotating cylinder 34, a pressing rod 35, a pressing block 36, a driving motor 37 and a limiting ring 38; in this embodiment, dead lever 33 is made for the metal material, and fixed mounting is in one side of connecting rod 23, and the integrative one side of keeping away from second stopper 28 of dead lever 33 that locates of spacing dish 31, wire casing 32 is seted up in proper order on spacing dish 31 circumference lateral wall and is supplied the refill to inlay and establish spacingly, it needs to explain that, the diameter of spacing dish 31 is greater than the diameter on toper guide cylinder 22 right side for the wire is walked around spacing dish 31 and is gone up one inflection occasionally, improves the tensioning effect between the wire. The limiting rings 38 are symmetrically and fixedly installed on the upper side face of the underframe 1 and located on one side of the limiting disc 31 away from the fixing rod 33, the rotating cylinders 34 are rotatably installed between the limiting rings 38, the driving motor 37 is arranged on the underframe 1 and drives the rotating cylinders 34 to rotate, the pressing rods 35 are installed on the rotating cylinders 34 in a threaded mode and circumferentially arranged along the extension direction of the rotating cylinders 34 and extend into the inner cavities of the rotating cylinders 34, and the pressing blocks 36 are rotatably installed at one ends of the pressing rods 35 close to the inner cavities of the rotating cylinders 34 to press the wire cores; in the actual use process, the rotating cylinder 34 is driven to rotate through the rotation of the topping motor, the pressing block 36 and the pressing rod 35 are matched with each other to enable a plurality of wires to be twisted to form a certain optional angle and to be pressed in the rotating cylinder 34, and then the wires can be twisted through the rotation of the rotating cylinder 34.

With continued reference to fig. 5, in order to ensure that the twisted wires can pass through the pressing block 36 smoothly, a rolling rod 361 slidably abutting against the wires is rotatably disposed on the side of the pressing block 36 abutting against the wires. By the arrangement of the rolling rod 361, the wire can still run after being twisted.

Referring to fig. 6, the rotary winding device 4 includes a winding roller 41, a winding frame 42 and a winding motor 43, the winding frame 42 is fixedly mounted on the chassis 1, the winding roller 41 is rotatably mounted on the winding frame 42, and the winding motor 43 is disposed on the chassis 1 and drives the winding roller 41 to rotate; in the in-process of in-service use, fix the wire of stranding into the thigh on winding roller 41, rethread winding motor 43's drive drives winding roller 41 and takes place to rotate to convenient and fast twines the wire to winding roller 41 on, the convenient collection to the wire.

With continued reference to fig. 6, in order to fix the wire on the winding roller 41 and take the wire off more conveniently, the winding roller 41 is set to be a quick-release structure, which is as follows:

winding roller 41 compresses tightly gasbag 412, connecting plate 413 and leads to groove 414 including winder 411, arc, and winder 411 symmetry sets up, and connecting plate 413 both ends and winder 411 fixed connection, arc compress tightly gasbag 412 fixed mounting in one side that connector 413 was kept away from to winder 411, lead to groove 414 and offer on winder 411 and run through winder 411 setting, form between the winder 411 and supply the wire to wear to establish groove 415. In the in-process of in-service use, insert the wire of stranding into the thigh to wearing to establish groove 415 in, again compress tightly aerify in the gasbag 412 to the arc, after the arc compresses tightly and is full of gas in gasbag 412, the arc extrusion gasbag is worn out to extrude in wearing to establish groove 415 from leading to the groove, in order to compress tightly the wire and prevent that the wire from coming off, and two arc extrusion gasbags that are full of gas form a cylindric structure and supply the wire to twine, when need take off the wire after the winding completion, only need bleed in the arc extrusion gasbag, make the volume of arc extrusion gasbag reduce, thereby convenient and fast takes off the wire of winding on arc extrusion gasbag, convenient and practical's operation.

With continued reference to fig. 6, to prevent the wire from slipping during winding, the outer surface of the arc-shaped pressing air bag 412 is provided with a plurality of embedded grooves 4121 arranged in sequence. The installation of the embedded groove 4121 enables the wires to be arranged and wound along the embedded groove 4121, and the actual winding effect is improved.

Referring back to fig. 1, the method for forming and processing the core of the communication cable by using the above-mentioned equipment for stranding the core of the communication cable comprises the following steps:

s1: positioning the lead, namely fixing and positioning the lead to be stranded through the guide device 2;

s2: fixing the strands, and extruding the wires positioned in the step S1 into one strand through the adjusting and stranding device 3;

s3: stranding into a strand, namely stranding and winding the wire stranded in the step S2 by the driving of the driving motor 37, so that a plurality of wires are stranded and wound into a strand;

s4: and winding and collecting the wire stranded into a strand in the step S3 by the rotary winding device 4.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. A method for forming and processing a core of a communication cable is characterized by comprising the following steps: the equipment uses a communication cable core twisting device, and comprises an underframe (1), wherein a guide device (2), an adjusting twisting device (3) and a rotary winding device (4) are sequentially arranged on the upper side edge of the underframe (1) along the extension direction of the underframe (1);

the guide device (2) comprises a fixing frame (21), a conical guide cylinder (22), a connecting rod (23), a sliding block (24), an elastic supporting rod (25), an arc-shaped limiting block (26), a first limiting block (27), a second limiting block (28), a driving pressure spring (29) and a locking piece (5), wherein the fixing frame (21) is arranged on the upper side surface of the chassis (1) and extends upwards, the conical guide cylinder (22) is fixedly arranged on the fixing frame (21) and arranged in parallel along the extension direction of the chassis (1), the connecting rod (23) is fixedly arranged in the inner cavity of the conical guide cylinder (22) and also arranged in parallel along the extension direction of the chassis (1), a plurality of sliding blocks (24) are arranged on the connecting rod (23) in a sliding manner, the side walls of the adjacent sliding blocks (24) are in a sliding manner and abutted against, the locking piece (5) is arranged on the side walls of the sliding, the elastic support rod (25) is arranged on the side wall of the sliding block (24) and extends towards the inner side wall of the conical guide cylinder (22) to be abutted against the inner side wall of the conical guide cylinder (22), the arc-shaped limit block (26) is arranged at one end of the elastic support rod (25) abutted against the conical guide cylinder (22), the first limit block (27) and the second limit block (28) are fixed at two ends of the connecting rod (23) in a threaded manner, the driving pressure spring (29) is arranged between the first limit block (27) and the sliding block (24), and two ends of the driving pressure spring are respectively abutted against the first limit block (27) and the sliding block (24) to drive the sliding block (24) to be compressed towards the second limit block (28);

adjust transposition device (3) including spacing dish (31), metallic channel (32), dead lever (33), a rotation section of thick bamboo (34), compression bar (35), compact heap (36), driving motor (37) and spacing ring (38), dead lever (33) threaded mounting is in one side of connecting rod (23), one side that second stopper (28) were kept away from in dead lever (33) is located to spacing dish (31) an organic whole, metallic channel (32) are seted up in proper order and are established the spacing on spacing dish (31) circumference lateral wall and supply the line core to inlay, spacing ring (38) symmetry fixed mounting just is located one side that dead lever (33) were kept away from in spacing dish (31) on chassis (1), rotation section of thick bamboo (34) are rotated and are installed between spacing ring (38), driving motor (37) are located chassis (1) and are rotated a rotation section of thick bamboo (34), compression bar (35) threaded mounting is on a rotation section of thick bamboo (34) and is the cylinder along a rotation section of thick bamboo (34) extending direction and is the circle The pressing block (36) is rotatably arranged at one end of the pressing rod (35) close to the inner cavity of the rotating cylinder (34) to press the wire core;

the rotary winding device (4) comprises a winding roller (41), a winding frame (42) and a winding motor (43), wherein the winding frame (42) is fixedly arranged on the bottom frame (1), the winding roller (41) is rotatably arranged on the winding frame (42), and the winding motor (43) is arranged on the bottom frame (1) and drives the winding roller (41) to rotate;

s1: conducting wire positioning, namely fixing and positioning the conducting wires needing to be stranded through a guide device (2);

s2: fixing in a strand manner, and extruding the conducting wire positioned in the step S1 into a strand through an adjusting and stranding device (3);

s3: stranding into a strand, namely stranding and winding the wires which are stranded in the step S2 by the driving of a driving motor (37) to ensure that a plurality of wires are stranded and wound into the strand;

s4: and winding and collecting the conducting wire stranded into a strand in the step S3 by a rotary winding device (4).

2. The method of claim 1, wherein the method comprises the steps of: elastic support pole (25) are established a section of thick bamboo (251), spliced pole (252), extrusion pressure spring (253), coupling hook (254) and glide groove (255) including the cover, the cover is established a section of thick bamboo (251) an organic whole and is located on glide block (24), spliced pole (252) are inserted and are established and install on the cover is established a section of thick bamboo (251) and contradict with toper guide section of thick bamboo (22) inside wall, extrusion pressure spring (253) are located the cover and are established in a section of thick bamboo (251) inner chamber and contradict with spliced pole (252) tip, coupling hook (254) are located the cover and are established a tip that a section of thick bamboo (251) is close to spliced pole (252) and are slided with spliced pole (252) lateral wall and contradict, glide groove (255) are seted up on spliced pole (252) and.

3. The method of claim 1, wherein the method comprises the steps of: the locking part (5) comprises locking holes (51), locking columns (52), a moving disc (53), locking compression springs (54), a tightening line (55), a contact disc (56) and mounting grooves (57), the locking holes (51) are uniformly formed in one side of the sliding block (24) and are arranged in a circumferential manner, the mounting grooves (57) are formed in one side, away from the locking holes (51), of the sliding block (24), the moving disc (53) is installed in the mounting grooves (57) in a sliding manner, the locking columns (52) are fixedly installed on one side, away from the bottom of the mounting grooves (57), of the moving disc (53) and are clamped and limited in the locking holes (51), the locking compression springs (54) are arranged between the bottom of the mounting grooves (57) and the moving disc (53) to drive the moving disc (53) to slide outwards, and the tightening line (55) is fixedly connected with one side, away from the locking columns (52), of the moving disc (53), the sliding block (24) is provided with a penetrating groove (241) for the tensioning line (55) to penetrate through and communicated with the mounting groove (57), and the contact disc (56) is fixedly connected with one side, far away from the moving disc (53), of the tensioning line (55).

4. The method of claim 3, wherein the method comprises the steps of: a pulling ring (561) is integrally arranged on one side, away from the tensioning line (55), of the abutting disc (56).

5. The method of claim 1, wherein the method comprises the steps of: and a rolling rod (361) which is in sliding contact with the lead is rotatably arranged at one side of the pressing block (36) which is in contact with the lead.

6. The method of claim 1, wherein the method comprises the steps of: wire winding roller (41) compresses tightly gasbag (412), connecting plate (413) and leads to groove (414) including winder (411), arc, winder (411) symmetry sets up, connecting plate (413) both ends and winder (411) fixed connection, the arc compresses tightly gasbag (412) fixed mounting in one side that winder (411) kept away from connecting plate (413), lead to groove (414) set up on winder (411) and run through winder (411) setting, form between winder (411) and supply the wire to wear to establish groove (415).

7. The method of claim 6, wherein the method comprises the steps of: the outer surface of the arc-shaped pressing air bag (412) is provided with a plurality of embedded grooves (4121) which are arranged in sequence.