CN217577726U

CN217577726U - Continuous pay-off and coiling device for cables

Info

Publication number: CN217577726U
Application number: CN202221014307.3U
Authority: CN
Inventors: 许润普; 李润芳; 陈江敏
Original assignee: Hebei Guoqian Wires Co ltd
Current assignee: Hebei Guoqian Wires Co ltd
Priority date: 2022-04-28
Filing date: 2022-04-28
Publication date: 2022-10-14
Anticipated expiration: 2032-04-28

Abstract

The utility model relates to a cable production facility technical field has proposed a continuous paying out coiling device that cable was used, including the operation panel, be equipped with coiling mechanism on the operation panel, cutting mechanism, operation panel one side is equipped with paying out mechanism, the treater, cutting mechanism is located paying out mechanism and coiling mechanism intermediate position, coiling mechanism includes the coiled hair, the objective table, first power machine sets up on the operation panel and is connected with the treater electricity, the coiled hair sets up the output at first power machine, the objective table rotates and sets up on the operation panel, the objective table has the recess, the coiled hair is close to or keeps away from the recess when removing with the help of first power machine; through the technical scheme, the problem that the finished wire coil is loose due to the fact that the wire head is difficult to separate from the wire coiling mechanism when the finished wire coil is separated from the wire coiling mechanism in the related technology is solved.

Description

Continuous pay-off and coiling device for cables

Technical Field

The utility model relates to a cable production facility technical field, specificly relate to a continuous unwrapping wire coiling device that cable was used.

Background

When the cable is used in actual life, the distance between two ends connected with the cable is short, so the cable is usually cut into a specified length and coiled into a wire coil during production, the cable is convenient to arrange, store and transport, at present, the existing cable production enterprises usually fix the cable of the whole shaft on a wire laying rod, then fix a wire end on a wire coiling mechanism, start a motor to wind the cable, then cut the cable into the wire coil of the specified length, and tie up and paste a label; before winding, the end of a thread needs to be fixed on a coiling mechanism, generally, the end of a thread is fixed in a clamping groove or a through hole of a fixed disc on the coiling mechanism, when the coiling mechanism rotates, a cable is coiled on the fixed disc of the coiling mechanism, when the winding operation is completed, the coiling mechanism and the coil are required to be separated, the end of the thread is fixed in the clamping groove or the through hole of the fixed disc, the end of the thread is not easy to separate, loose coils even loose coils appear when the coiled coil is taken down, manual coiling needs to be carried out again, the manual reworking amount is large, the overall operation efficiency is low, the existing technology needs to be improved and promoted, the paying-off and coiling device is provided, the phenomenon that the coil loosens is avoided, the manual reworking operation amount is reduced, and the operation efficiency is improved.

SUMMERY OF THE UTILITY MODEL

The utility model provides a continuous unwrapping wire coiling mechanism that cable was used has solved among the correlation technique finished product drum because the loose problem of drum that the end of a thread and coiling mechanism separation difficulty caused when separating with coiling mechanism.

The technical scheme of the utility model as follows:

the utility model provides a continuous unwrapping wire coiling device that cable was used, includes the operation panel, be equipped with wire coiling mechanism, decide the mechanism on the operation panel, operation panel one side is equipped with paying out machine structure, treater, it is located to decide the mechanism paying out machine structure with in the middle of the wire coiling mechanism, wire coiling mechanism includes coiled hair, objective table, first engine sets up on the operation panel and with the treater electricity is connected, coiled hair sets up the output of first engine, the objective table rotates and sets up on the operation panel, the recess has on the objective table, the coiled hair with the help of be close to during the removal of first engine or keep away from the recess.

As a further technical scheme, the wire coiling mechanism further comprises a limiting plate and an auxiliary wire coiling assembly, the auxiliary wire coiling assembly is located between the pay-off mechanism and the coiled head, the auxiliary wire coiling assembly comprises a supporting frame, limiting rods, a second power machine and guide rods, the limiting plate is arranged at the output end of the first power machine, the limiting plate and the objective table are respectively located at two sides of the coiled head, the second power machine is arranged on the operating table and electrically connected with the processor, the supporting frame is movably arranged at the output end of the second power machine, the guide rods are arranged on the operating table and penetrate through the supporting frame, the limiting rods are rotatably arranged on the supporting frame in quantity, and a gap for passing a cable is formed between every two adjacent limiting rods.

As a further technical scheme, decide the mechanism and include first cut-off knife, second cut-off knife, third engine, fourth engine, the third engine with the fourth engine all sets up on the operation panel and lie in the both sides of the cable that passes through, first cut-off knife with the second cut-off knife is with the help of the third engine with the fourth engine removes the setting on the operation panel, first cut-off knife with first circular arc groove and second circular arc groove have respectively on the second cut-off knife, first cut-off knife with when the second cut-off knife removes first circular arc groove with the second circular arc groove is close to or keeps away from each other.

As a further technical scheme, the pay-off mechanism comprises a feeding assembly, a guide assembly and a pay-off stand, the pay-off stand is arranged on one side of the operating platform, the feeding assembly is arranged on one side of the operating platform through a feeding support, a cable moves from the pay-off stand to the feeding assembly through the guide assembly, the feeding assembly comprises a conduit, a feeding table, a first clamping piece, a second clamping piece, a sixth power machine and a seventh power machine, the feeding table is movably arranged on the feeding support through a fifth power machine, the first clamping piece and the second clamping piece are respectively movably arranged on the feeding table through the sixth power machine and the seventh power machine, the first clamping piece and the second clamping piece are close to or far away from each other when moving, a through hole for the cable to pass through is formed in the feeding table, the through hole is communicated with the conduit, and the fifth power machine, the sixth power machine and the seventh power machine are all electrically connected with the processor.

As a further technical scheme, the direction subassembly includes inlet wire wheel, direction platform, leading wheel, guiding axle, the direction platform sets up feed the subassembly with between the pay off rack, direction platform one side is equipped with the inlet wire support, the inlet wire wheel rotates and sets up on the inlet wire support, leading wheel quantity all rotates for a plurality of and sets up on the direction platform, guiding axle quantity all rotates for a plurality of and sets up on the direction platform, leading wheel pivoted central line with guiding axle pivoted central line mutually perpendicular sets up, and the cable is followed adjacently pass through between the leading wheel and between the adjacent guiding axle.

As a further technical scheme, paying out machine constructs still includes buffering subassembly, the buffering subassembly includes buffer disk, swinging arms, spring, first stand pipe, second stand pipe, buffer disk quantity is a plurality of, rotates respectively to set up the pay off rack with on the swinging arms, the swinging arms with the pay off rack is articulated, first stand pipe with the second stand pipe articulates respectively the pay off rack with on the swinging arms, the both ends of spring respectively with first stand pipe with the second stand pipe links firmly, first guide pipe box is established on the spring, second guide pipe box is established on the first stand pipe.

As a further technical scheme, the pay-off mechanism further comprises an eighth power machine, the eighth power machine is arranged on the pay-off rack and electrically connected with the processor, and an output end of the eighth power machine is fixedly connected with a spool for winding the cable.

As a further technical scheme, the wire rewinding device further comprises a wire rewinding assembly, wherein the wire rewinding assembly comprises a wire rewinding arm, a ninth power machine and a wire rewinding support, the wire rewinding support is movably arranged on the operating platform, the number of the wire rewinding arms is a plurality, the wire rewinding arms are rotatably arranged on the wire rewinding support, the ninth power machine is movably arranged on the operating platform and is electrically connected with the processor, the ninth power machine is fixedly connected with the wire rewinding support, and the wire rewinding arm and the ninth power machine are connected through meshing of a gear sleeve and a rack which are matched with each other.

The utility model discloses a theory of operation and beneficial effect do:

the utility model discloses in, in order to separate the end of a thread and the mechanism of coiling smoothly, avoid the end of a thread card to lead to the loose phenomenon of finished product drum to appear on the mechanism of coiling, the inventor provides a continuous unwrapping wire coiling device that the cable was used, it is specific including the operation panel, the mechanism of coiling, cutting mechanism, paying out machine, a processor, wherein the mechanism of coiling includes the end of a thread, the objective table, first engine, in operation, draw the end of a thread of cable from paying out machine, pass the region that cutting mechanism is located, enter into the objective table department on the mechanism of coiling, then place the end of a thread in the middle of objective table and end of a thread, start first engine, first engine is preferably the combination of motor and telescopic link, the telescopic link extension and drive the end of a thread to the direction removal that is close to the objective table after the motor starts, the end of a thread contacts and extrudes the end of a thread to the recess on the objective table, the recess is spherical recess, until the end of an end of a thread extrudes the contact with the objective table, this moment, the end of a thread is located in the recess; then the processor can give a rotating signal to the first power machine, and then the telescopic rod can drive the pan head to rotate; the wire coil head can drive the objective table to synchronously rotate when rotating, the cable is wound on the wire coil head along with the rotation of the wire coil head, the rotation time of the wire coil head is set according to the actual requirement of a finished wire coil, and the rotation is stopped after the wire coil head rotates for a fixed time, so that the length of the wire coil reaches the requirement; then the first power machine is started to drive the pan head to move towards the direction far away from the objective table, finished wire coils are left on the objective table along with the evacuation of the pan head, and the wire heads are extruded between the pan head and the objective table and cannot be driven to move when the pan head is evacuated, so that the phenomenon that the wire heads evacuate together along with the pan head is avoided, and the problem that loose arrangement and tray scattering of the wire coils are caused is avoided.

Drawings

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

FIG. 1 is a schematic structural view of the cable of the present invention;

FIG. 2 is a schematic structural view of the present invention without a cable as a whole;

fig. 3 is a schematic structural view of the operation table and the wire coiling mechanism of the present invention;

fig. 4 is a schematic structural view of the second angle between the operation table and the wire coiling mechanism of the present invention;

fig. 5 is a schematic structural view of the pay-off mechanism of the present invention;

FIG. 6 is a schematic structural view of the pay-off stand and the buffer assembly of the present invention;

fig. 7 is a schematic structural view of the take-up assembly of the present invention;

fig. 8 is a schematic structural view of the first guide tube and the spring of the present invention;

in the figure: 1. the wire drawing machine comprises an operation table, 2, a processor, 3, a disk head, 4, an object stage, 5, a first power machine, 6, a groove, 7, a limiting plate, 8, a support frame, 9, a limiting rod, 10, a second power machine, 11, a guide rod, 12, a first cutter, 13, a second cutter, 14, a third power machine, 15, a fourth power machine, 16, a first arc groove, 17, a second arc groove, 18, a pay-off rack, 19, a feeding support, 20, a wire guide pipe, 21, a feeding support, 22, a first clamping part, 23, a second clamping part, 24, a sixth power machine, 25, a seventh power machine, 26, a fifth power machine, 27, a wire inlet wheel, 28, a guide platform, 29, a guide wheel, 30, a guide shaft, 31, a wire inlet support, 32, a buffer disk, 33, a swing rod, 34, a spring, 35, a first guide pipe, 36, a second guide pipe, 37, an eighth power machine, 38, a wire take-up arm, 39, a ninth guide bracket, 40, a rack support, a rack sleeve, 42 and a power machine.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive work, are related to the scope of protection of the present invention.

As shown in fig. 1 to 8, the present embodiment proposes

The utility model provides a continuous unwrapping wire coiling device that cable was used, including operation panel 1, be equipped with wire coiling mechanism on the operation panel 1, decide the mechanism, operation panel 1 one side is equipped with wire coiling mechanism, treater 2, it is located in the middle of wire coiling mechanism and wire coiling mechanism to decide the mechanism, wire coiling mechanism includes coiled hair 3, objective table 4, first engine 5 sets up on operation panel 1 and is connected with treater 2 electricity, coiled hair 3 sets up the output at first engine 5, objective table 4 rotates and sets up on operation panel 1, objective table 4 is last to have recess 6, coiled hair 3 is close to or keeps away from recess 6 when removing with the help of first engine 5.

In this embodiment, as shown in fig. 1 to 4, in order to smoothly separate the wire end from the wire coiling mechanism and avoid the wire end from being clamped on the wire coiling mechanism to cause the loosening of the wire coil of the finished wire coil, the inventor provides a continuous wire releasing and coiling device for a cable, which specifically comprises an operation table 1, a wire coiling mechanism, a cutting mechanism, a wire releasing mechanism and a processor 2, wherein the wire coiling mechanism comprises a wire coiling head 3, an object table 4 and a first power machine 5, when the device works, the wire end of the cable is led out from the wire releasing mechanism, passes through the area where the cutting mechanism is located, enters the object table 4 on the wire coiling mechanism, then the wire end is placed between the object table 4 and the wire coiling head 3, the first power machine 5 is started, the first power machine 5 is preferably a combination of a motor and a telescopic rod, after the motor is started, the telescopic rod extends and drives the wire coiling head 3 to move towards the direction close to the object table 4, the wire coiling head 3 contacts with the wire end and extrudes the wire end of the groove 6 on the object table 4, the groove 6 is a groove-shaped groove, and the wire end of the wire coiling head is located in the spherical groove 6; then the processor 2 gives a rotating signal to the first power machine 5, and then the telescopic rod drives the pan head 3 to rotate; the wire coil 3 can drive the objective table 4 to synchronously rotate when rotating, the cable is wound on the wire coil 3 along with the rotation of the wire coil 3, the rotation time of the wire coil 3 is set according to the actual requirement of the finished wire coil, and the rotation is stopped after the wire coil 3 rotates for a fixed time, so that the length of the wire coil meets the requirement; then the first power machine 5 is started to drive the pan head 3 to move towards the direction far away from the objective table 4, finished wire coils are left on the objective table 4 along with the evacuation of the pan head 3, and the wire coils are extruded between the pan head 3 and the objective table 4, so that the phenomenon that the wire coils are evacuated along with the pan head 3 can be avoided, and the problem that the wire coils are loosely arranged and scattered is avoided.

Further, the wire coiling mechanism further comprises a limiting plate 7 and an auxiliary wire coiling assembly, the auxiliary wire coiling assembly is located between the pay-off mechanism and the wire coiling head 3, the auxiliary wire coiling assembly comprises a supporting frame 8, limiting rods 9, a second power machine 10 and guide rods 11, the limiting plate 7 is arranged at the output end of the first power machine 5, the limiting plate 7 and the objective table 4 are respectively located on two sides of the wire coiling head 3, the second power machine 10 is arranged on the operating table 1 and electrically connected with the processor 2, the supporting frame 8 is movably arranged at the output end of the second power machine 10, the guide rods 11 are arranged on the operating table 1 and penetrate through the supporting frame 8, the limiting rods 9 are arranged on the supporting frame 8 in a plurality of numbers in a rotating mode, and a gap for a cable to pass through is formed between every two adjacent limiting rods 9.

In the embodiment, as shown in fig. 1 to 4, in order to ensure consistency of states of finished wire coils, an inventor improves and optimizes a wire coiling mechanism, and a limiting plate 7, a supporting frame 8, a limiting rod 9, a second power machine 10 and a guide rod 11 are added to a wire coiling device, wherein the number of the limiting rods 9 is preferably two; when the wire-end winder works, a wire end is extruded on an object stage 4 by a wire end 3, then the wire end 3 and the object stage 4 start to synchronously rotate, when the wire end 3 rotates, a wire cable enters between two adjacent limiting rods 9 under the driving action of the wire end, at the moment, a processor 2 starts a second power machine 10 to work, the second power machine 10 is preferably a combination of a motor and a screw rod, the screw rod drives a support frame 8 to move up and down on a guide rod 11 along with the starting of the second power machine 10, the limiting rods 9 are driven to synchronously move by the up and down movement of the support frame 8, and the wire cable also synchronously moves up and down along with the limiting rods 9; along with the removal of gag lever post 9, the cable that coils on coiled 3 is continuous to take place reciprocal gradual change between limiting plate 7 and objective table 4, makes the cable form annular drum, then decides the cable, and supplementary coiled wire subassembly resumes initial position, prepares next coiled wire operation, makes the cable coil out the good finished product drum of uniformity on coiled 3 with the help of limiting plate 7 and supplementary coiled wire subassembly.

Further, the cutting mechanism comprises a first cutter 12, a second cutter 13, a third power machine 14 and a fourth power machine 15, the third power machine 14 and the fourth power machine 15 are both arranged on the operating platform 1 and located on two sides of the passing cable, the first cutter 12 and the second cutter 13 are movably arranged on the operating platform 1 through the third power machine 14 and the fourth power machine 15 respectively, the first cutter 12 and the second cutter 13 are respectively provided with a first arc groove 16 and a second arc groove 17, and the first arc groove 16 and the second arc groove 17 are close to or far away from each other when the first cutter 12 and the second cutter 13 move.

In this embodiment, as shown in fig. 1 to 3, the inventor has improved and optimized a cutting mechanism to improve the stability of cable cutting, and the specific cutting mechanism includes a first cutter 12, a second cutter 13, a third power machine 14, and a fourth power machine 15; during work, when the pan head 3 stops rotating, the processor 2 starts the third power machine 14 and the fourth power machine 15, the third power machine 14 and the fourth power machine 15 are preferably a combination of a motor and a telescopic rod, and after the third power machine 14 and the fourth power machine 15 are started, the first cut-off knife 12 and the second cut-off knife 13 are respectively driven to approach each other; in the process of approaching, the cable is folded between the first arc groove 16 and the second arc groove 17 until the first cut-off knife 12 and the second cut-off knife 13 are mutually staggered to finish the cutting operation; with the help of first circular arc groove 16 and second circular arc groove 17 avoid when deciding that the cable takes place the dislocation from top to bottom, lead to deciding the inefficacy.

Further, the pay-off mechanism comprises a feeding component, a guiding component and a pay-off rack 18, the pay-off rack 18 is arranged on one side of the operating platform 1, the feeding component is arranged on one side of the operating platform 1 through a feeding bracket 19, the cable moves from the pay-off rack 18 to the feeding component through the guiding component, the feeding component comprises a conduit 20, a feeding platform 21, a first clamping piece 22, a second clamping piece 23, a sixth power machine 24 and a seventh power machine 25, the feeding platform 21 is movably arranged on the feeding bracket 19 through a fifth power machine 26, the first clamping piece 22 and the second clamping piece 23 are respectively movably arranged on the feeding platform 21 through the sixth power machine 24 and the seventh power machine 25, the first clamping piece 22 and the second clamping piece 23 are close to or far away from each other when moving upwards, a through hole for the cable to pass through is formed in the feeding platform 21, the through hole is communicated with the conduit 20, and the fifth power machine 26, the sixth power machine 24 and the seventh power machine 25 are electrically connected with the processor 2.

In this embodiment, as shown in fig. 1 to 2 and fig. 5 to 6, the inventor improves and upgrades the pay-off mechanism, specifically including a feeding assembly, a guiding assembly, and a pay-off rack 18, where the feeding assembly includes a conduit 20, a feeding table 21, a first clamping member 22, a second clamping member 23, a sixth power machine 24, and a seventh power machine 25, and the fifth power machine 26, the sixth power machine 24, and the seventh power machine 25 are preferably a combination of a pneumatic expansion cylinder and an expansion rod; when the automatic feeding device works, a cable is led out from the pay-off rack 18, enters the feeding assembly through the guiding of the guiding assembly, and the automatic feeding operation of the cable is completed through the operation of the feeding assembly; firstly, the processor 2 starts a sixth power machine 24 and a seventh power machine 25, under the action of the sixth power machine 24 and the seventh power machine 25, the first clamping piece 22 and the second clamping piece 23 are close to each other and clamp and fix the cable between the first clamping piece 22 and the second clamping piece 23, and the positions of the first clamping piece 22 and the second clamping piece 23, which are contacted with the cable, are arc surfaces; then the processor 2 starts a fifth power machine 26, the fifth power machine 26 pushes the feeding table 21 to move towards the direction close to the objective table 4 until the position is limited, at the moment, the wire end of the cable in the conduit 20 is just positioned between the pan head 3 and the objective table 4, the wire coiling mechanism is started, and the pan head 3 presses the wire end; then the processor 2 adjusts the sixth power machine 24 and the seventh power machine 25, removes the clamping force of the first clamping piece 22 and the second clamping piece 23 to the cable, and enables the first clamping piece 22 and the second clamping piece 23 to restore the initial positions; then the processor 2 adjusts the fifth power machine 26 to restore the initial position of the feeding table 21, at this time, the feeding operation of the cable is completed, and the automatic feeding operation of the cable is completed by the feeding assembly and the guiding assembly.

Further, the direction subassembly includes inlet wire wheel 27, direction platform 28, leading wheel 29, guiding axle 30, direction platform 28 sets up between feeding subassembly and pay off rack 18, direction platform 28 one side is equipped with inlet wire support 31, inlet wire wheel 27 rotates and sets up on inlet wire support 31, leading wheel 29 quantity all rotates for a plurality of and sets up on direction platform 28, guiding axle 30 quantity all rotates for a plurality of and sets up on direction platform 28, leading wheel 29 pivoted central line and guiding axle 30 pivoted central line mutually perpendicular set up, the cable passes through between from adjacent leading wheel 29 and between the adjacent guiding axle 30.

In this embodiment, as shown in fig. 1 to 2 and fig. 5 to 6, in order to ensure the consistency of the operation state before coiling the cable and avoid the phenomenon of winding on the cable, the inventor refines the guide assembly, and the specific guide assembly includes a wire feeding wheel 27, a guide platform 28, guide wheels 29 and guide shafts 30, wherein the number of the guide wheels 29 is preferably two, the guide wheels are symmetrically distributed on the upper and lower sides of the cable, the number of the guide shafts 30 is preferably four, each two guide shafts 30 are a group, the total number of the guide shafts is two, and the cable is located in the middle gap between the two guide shafts 30 in each group; a group of guide shafts 30 are respectively arranged at the front side and the rear side of the guide wheel 29 along the advancing direction of the cable; during operation, the cable is firstly led in through the wire inlet wheel 27, then the cable sequentially passes through the first group of guide shafts 30, the middle of the two guide wheels 29 and the second group of guide shafts 30, and under the guide action of the guide wheels 29 and the guide shafts 30, the cable is changed into a linear state, so that the cable is prevented from being bent and affecting the coiling effect of the cable on the pan head 3.

Further, paying out machine constructs still includes buffering subassembly, buffering subassembly includes buffering dish 32, swinging arms 33, spring 34, first stand pipe 35, second stand pipe 36, buffering dish 32 quantity is a plurality of, rotate respectively and set up on pay off rack 18 and swinging arms 33, swinging arms 33 is articulated with pay off rack 18, first stand pipe 35 and second stand pipe 36 articulate respectively on pay off rack 18 and swinging arms 33, the both ends of spring 34 link firmly with first stand pipe 35 and second stand pipe 36 respectively, first stand pipe 35 cover is established on spring 34, second stand pipe 36 cover is established on first stand pipe 35.

In this embodiment, as shown in fig. 1 to 2, 6 and 8, during the cable feeding operation, the cable needs to be conveyed forward by a section under the clamping action of the first clamping piece 22 and the second clamping piece 23, the cable needs to be pulled during the conveying process, and in order to reduce the pulling force applied to the cable, the inventor adds a buffer assembly to the paying-off mechanism, where the specific buffer assembly includes a buffer disc 32, a swing rod 33, a spring 34, a first guide pipe 35, and a second guide pipe 36, and the number of the buffer discs 32 is preferably two; in normal operation, the cable is wound with a plurality of turns of cable between the two buffer discs 32, the spring 34 being in a compressed state; when the cable is required to be fed, the cable is conveyed forwards continuously under the clamping action of the first clamping piece 22 and the second clamping piece 23, when the cable is conveyed forwards, the buffer disc 32 on the swinging rod 33 gradually approaches the buffer disc 32 on the pay-off rack 18, at the moment, the spring 34 extends to gradually release part of the compression to generate elastic force, the swinging speed of the swinging rod 33 is buffered, the swinging direction consistency of the swinging rod 33 is ensured by the guiding action of the first guide pipe 35 and the second guide pipe 36, and the phenomenon that the cable is separated from the buffer disc 32 when the swinging rod 33 swings randomly is avoided.

Further, the pay-off mechanism further comprises an eighth power machine 37, the eighth power machine 37 is arranged on the pay-off rack 18 and electrically connected with the processor 2, and the output end of the eighth power machine 37 is fixedly connected with the spool on which the cable is wound.

In this embodiment, as shown in fig. 1 to fig. 2 and fig. 6, most of the input sources of the cables on the coiling device are large spools, the spools are heavy, the diameters of the cables are generally small, if the spools are rotated to reel out the cables by pulling the cables, the cables are stretched, which means that the cross sections of the cables become small and the conductivity of the cables is affected, so that the inventor adds an eighth power motor 37 to the paying-off mechanism, and the eighth power motor 37 is preferably a combination of a motor and a reducer, when the cables start to be coiled on the drum head 3, the processor 2 simultaneously starts the first power motor 5 and the eighth power motor 37, and the spools actively reel out the cables by the action of the eighth power motor 37, so as to reduce the pulling force received in the cable coiling process and ensure good conductivity of the cables.

The wire rewinding device further comprises a wire rewinding assembly, wherein the wire rewinding assembly comprises a wire rewinding arm 38, a ninth power machine 39 and a wire rewinding support 40, the wire rewinding support 40 is movably arranged on the operating platform 1, the number of the wire rewinding arms 38 is multiple, the wire rewinding arms 38 are rotatably arranged on the wire rewinding support 40, the ninth power machine 39 is movably arranged on the operating platform 1 and is electrically connected with the processor 2, the ninth power machine 39 is fixedly connected with the wire rewinding support 40, and the wire rewinding arm 38 and the ninth power machine 39 are meshed and connected through a gear sleeve 41 and a rack 42 which are matched with each other.

In the embodiment, as shown in fig. 1 to 4 and 7, a finished wire coil is positioned below a pan head 3, in order to improve the collection efficiency and avoid an accident situation that a person moves below the pan head 3 in the process of collecting the wire coil, the inventor adds a wire collection assembly on a wire coiling device, wherein the wire collection assembly specifically comprises four wire collection arms 38, a ninth power machine 39 and a wire collection bracket 40, the number of the wire collection arms 38 is preferably four, the number of the ninth power machine 39 and the number of the wire collection bracket 40 are both preferably two, the two ninth power machines 39 are symmetrically distributed on two sides of the pan head 3, two wire collection arms 38 are symmetrically arranged on two sides of each ninth power machine 39, and the ninth power machine 39 is preferably a combination of a motor and a telescopic rod; when the wire coil winding machine works, after one wire coil is successfully wound, the pan head 3 is separated from the objective table 4, the processor 2 starts the two ninth power machines 39, telescopic rods of the ninth power machines 39 pull the racks 42 to be far away from the pan head 3, the wire winding arms 38 rotate towards the direction close to the wire coil under the meshing action of the racks 42 and the gear sleeves 41, the rotation is stopped after the wire winding arms rotate for a certain angle, and at the moment, the four wire winding arms 38 surround the wire coil; then the ninth power machine 39 and the wire take-up bracket 40 move away from the objective table 4 under the action of external power, the wire take-up bracket 40 drives the wire take-up arm 38, the wire take-up arm 38 pushes the wire coil to move synchronously until the wire coil reaches the specified take-up position, and then each part of the wire take-up assembly recovers to the initial turntable to wait for the next wire coil take-up operation.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a continuous unwrapping wire coiling mechanism that cable was used, includes operation panel (1), be equipped with wire coiling mechanism on operation panel (1), decide the mechanism, operation panel (1) one side is equipped with paying out machine structure, treater (2), it is located to decide the mechanism pay out machine structure with in the middle of the wire coiling mechanism, its characterized in that, wire coiling mechanism is including coiled hair (3), objective table (4), first engine (5) set up on operation panel (1) and with treater (2) electricity is connected, coiled hair (3) set up the output of first engine (5), objective table (4) rotate and set up on operation panel (1), recess (6) have on objective table (4), coiled hair (3) with the help of be close to or keep away from when first engine (5) remove recess (6).

2. The continuous pay-off and take-up device for cables according to claim 1, further comprising a limiting plate (7) and an auxiliary take-up assembly, wherein the auxiliary take-up assembly is located between the pay-off mechanism and the pan head (3), the auxiliary take-up assembly comprises a supporting frame (8), a limiting rod (9), a second power machine (10) and a guide rod (11), the limiting plate (7) is arranged at an output end of the first power machine (5), the limiting plate (7) and the object stage (4) are respectively located at two sides of the pan head (3), the second power machine (10) is arranged on the operating platform (1) and electrically connected with the processor (2), the supporting frame (8) is movably arranged at an output end of the second power machine (10), the guide rod (11) is arranged on the operating platform (1) and penetrates through the supporting frame (8), the number of the limiting rods (9) is that a plurality of the limiting rods are rotatably arranged on the supporting frame (8), and a gap for passing through the cables is formed between two adjacent limiting rods (9).

3. The continuous pay-off and take-up device for cables as claimed in claim 1, wherein the cutting mechanism comprises a first cutter (12), a second cutter (13), a third power machine (14) and a fourth power machine (15), the third power machine (14) and the fourth power machine (15) are arranged on the console (1) and located on two sides of a passing cable, the first cutter (12) and the second cutter (13) are respectively arranged on the console (1) through the third power machine (14) and the fourth power machine (15) in a movable manner, the first cutter (12) and the second cutter (13) are respectively provided with a first arc groove (16) and a second arc groove (17), and the first arc groove (16) and the second arc groove (17) are close to or far away from each other when the first cutter (12) and the second cutter (13) move.

4. The continuous pay-off spooling device for cables as claimed in claim 1, the pay-off mechanism comprises a feeding assembly, a guiding assembly and a pay-off rack (18), the pay-off rack (18) is arranged on one side of the operating platform (1), the feeding component is arranged on one side of the operating platform (1) by a feeding bracket (19), the cable is moved from the pay-off rack (18) to the feeding component by the guide component, the feeding assembly comprises a conduit (20), a feeding table (21), a first clamping piece (22), a second clamping piece (23), a sixth power machine (24) and a seventh power machine (25), the feeding table (21) is movably arranged on the feeding bracket (19) by a fifth power machine (26), the first clamping piece (22) and the second clamping piece (23) are respectively arranged on the feeding table (21) in a moving way by means of the sixth power machine (24) and the seventh power machine (25), the first clamping piece (22) and the second clamping piece (23) move close to or away from each other when moving upwards, the feeding table (21) is provided with a through hole for passing the cable, the through hole is communicated with the conduit (20), the fifth power machine (26), the sixth power machine (24) and the seventh power machine (25) are all electrically connected with the processor (2).

5. The continuous pay-off and coiling device for cables as claimed in claim 4, characterized in that the guiding assembly comprises a wire feeding wheel (27), a guiding platform (28), a guiding wheel (29) and a guiding shaft (30), the guiding platform (28) is arranged between the feeding assembly and the pay-off rack (18), a wire feeding support (31) is arranged on one side of the guiding platform (28), the wire feeding wheel (27) is rotatably arranged on the wire feeding support (31), the number of the guiding wheels (29) is a plurality of guiding wheels which are rotatably arranged on the guiding platform (28), the number of the guiding shafts (30) is a plurality of guiding shafts which are rotatably arranged on the guiding platform (28), the rotating center line of the guiding wheel (29) and the rotating center line of the guiding shaft (30) are perpendicular to each other, and cables pass between the adjacent guiding wheels (29) and between the adjacent guiding shafts (30).

6. The continuous pay-off and coiling device for cables as defined in claim 4, wherein the pay-off mechanism further comprises a buffer assembly, the buffer assembly comprises a buffer disc (32), a swinging rod (33) and a spring (34), a first guide tube (35) and a second guide tube (36), the number of the buffer disc (32) is several, the buffer disc is respectively rotatably arranged on the pay-off rack (18) and the swinging rod (33), the swinging rod (33) is hinged to the pay-off rack (18), the first guide tube (35) and the second guide tube (36) are respectively hinged to the pay-off rack (18) and the swinging rod (33), two ends of the spring (34) are respectively fixedly connected with the first guide tube (35) and the second guide tube (36), the first guide tube (35) is sleeved on the spring (34), and the second guide tube (36) is sleeved on the first guide tube (35).

7. The continuous pay-off and coiling device for cables as claimed in claim 4, characterized in that said pay-off mechanism further comprises an eighth power machine (37), said eighth power machine (37) is arranged on said pay-off rack (18) and electrically connected to said processor (2), the output end of said eighth power machine (37) is fixedly connected to the spool on which the cable is wound.

8. The continuous pay-off and take-up device for cables as claimed in claim 1, further comprising a take-up assembly, wherein the take-up assembly comprises a take-up arm (38), a ninth power machine (39) and a take-up bracket (40), the take-up bracket (40) is movably arranged on the operating platform (1), the number of the take-up arms (38) is several, the take-up arms (38) are rotatably arranged on the take-up bracket (40), the ninth power machine (39) is movably arranged on the operating platform (1) and electrically connected with the processor (2), the ninth power machine (39) is fixedly connected with the take-up bracket (40), and the take-up arm (38) and the ninth power machine (39) are meshed and connected with each other through a gear sleeve (41) and a rack (42) which are matched with each other.