CN115818361B - Cable winding device - Google Patents

Abstract

The invention relates to the technical field of cable winding, and provides a cable winding device which comprises a cable winding platform; the quick-change scroll mechanism comprises a driving table and a reciprocating mechanism; a roll-up drive assembly; the clamping assembly comprises a rotary mounting frame, a first electric cylinder and a first conical clamping block; the reciprocating wire arranging mechanism is arranged on the cable winding platform; the synchronous pressing assembly comprises a synchronous moving part and a pressing part, the pressing part is arranged on the synchronous moving part, and the synchronous moving part is arranged on the cable winding platform; the movable rail is arranged at the top of the cable winding platform and used for supporting the cable winding, and the dampers are arranged on two sides of the movable rail and used for slowing down the falling speed of the cable winding shaft.

Description

Cable winding device

Technical Field

The invention relates to the technical field of cable winding, in particular to a cable winding device.

Background

The cable is mainly used for controlling multiple functions such as installation, connecting equipment and power transmission, is a common and indispensable thing in daily life, and the cable is required to be reeled by using a cable reeling device after being produced and then is packaged.

The current cable winding device usually uses the motor to drive the cable spool to rotate and reel the cable, and the cable is around establishing on the cable spool, and the cable spool is installed in the pivot of support, and the motor drives the pivot rotation, realizes the purpose of coiling cable, but current cable spool is inconvenient to install and dismantle, and the pivot is usually connected with the bearing on the both sides support, need with one side bearing and one side support separation, then can follow the one side with the support separation, overlaps the cable spool in the pivot to can lead to the reel installation to dismantle the process comparatively troublesome, simultaneously because the quality of cable spool is great, is inconvenient to dismantle it from the winding device, needs many people to carry jointly or uses lifting device to dismantle it, comparatively extravagant time.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a cable winding device, which solves the problems that the prior art proposed in the background art is inconvenient to detach a wound cable reel from the cable winding device and wastes time.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: a cable winding device comprising a cable reel for winding a cable, characterized by further comprising:

a cable winding platform;

the quick-change reel mechanism comprises a driving table and a reciprocating mechanism for driving the driving table to reciprocate, the driving table is slidably arranged at the top of the cable winding platform, two cable reels are respectively arranged at two sides of the driving table, a winding driving assembly for driving the cable reels to rotate is arranged on the driving table, and the reciprocating mechanism is arranged on the cable winding platform;

the clamping assembly is arranged on the driving platform and used for pressing the cable reel on the winding driving assembly and realizing the rotation of the cable reel;

the cable winding platform comprises a cable winding platform, a moving rail, a damper and a support, wherein the moving rail is arranged at the top of the cable winding platform, two sides of the moving rail are in a slide shape, and the dampers are arranged at two sides of the moving rail.

For driving slide and drive platform to remove, drive cable spool reciprocating motion, further, reciprocating motion mechanism includes first motor, slide and ball, first motor is installed on the cable roll-up platform, ball with the output shaft of first motor, slide slidable mounting is in on the cable roll-up platform, be provided with on the slide with the nut of ball adaptation.

For driving the cable spool to rotate, furl the cable, still further, roll up actuating mechanism includes second motor, bevel gear group, drive shaft and two second toper clamping blocks, the second motor is installed on the drive table, the drive shaft rotates and installs on the drive table, the drive shaft passes through bevel gear group with the output transmission of second motor is connected, two the second toper clamping blocks are installed respectively the both ends of drive shaft, the cable spool is installed corresponding first toper clamping block with corresponding between the second toper clamping block.

For realizing reciprocal winding displacement, with the cable roll-up on the cable spool, on the basis of the aforesaid scheme, install reciprocal winding displacement mechanism on the cable roll-up platform, reciprocal winding displacement mechanism includes third motor, reciprocal screw rod, winding displacement seat, slide bar and winding displacement axle, cable roll-up platform fixedly connected with two support frames, reciprocal screw rod rotates to be installed two between the support frame, the third motor is installed on corresponding support frame, reciprocal screw rod with the output of third motor is connected, winding displacement seat threaded connection is in reciprocal screw rod's periphery, the slide bar is installed between two support frames, the winding displacement seat with the slide bar is sliding fit, the winding displacement axle rotates to be installed on the winding displacement seat for support and spacing the cable.

In order to realize that the compressing part moves along with the increase of the diameter of the cable winding, the cable winding platform is provided with a synchronous compressing assembly, the synchronous compressing assembly comprises a synchronous moving part and a compressing part, the compressing part is arranged on the synchronous moving part and is used for compressing the wound cable, and the synchronous moving part is arranged on the cable winding platform and is used for driving the compressing part to move along with the winding of the cable;

the synchronous moving part comprises a second electric cylinder and a moving platform, the moving platform is slidably mounted on the cable winding platform, the second electric cylinder is mounted on the cable winding platform, the moving platform is mounted at the output end of the second electric cylinder, and the pressing part is mounted at the top of the moving platform;

the compressing part comprises a compressing wheel, two rotating arms, a compressing plate and a fixing plate, wherein the rotating arms are rotatably arranged at the top of the synchronous moving part, the compressing wheel is rotatably arranged between the two rotating arms, the fixing plate is connected at the top of the synchronous moving part, the compressing plate is connected between the two rotating arms, and a plurality of compressing springs are connected between the compressing plate and the fixing plate.

For realizing the support of the cable reel and assisting the cable reel to slide down, preferably, the moving track comprises two support rotating rollers and two inclined sliding frames, the two support rotating rollers are rotatably arranged between the two inclined sliding frames, and the support rotating rollers are contacted with the bottom edge of the cable reel and used for supporting and limiting the cable reel.

In order to slow down the landing speed of cable spool, the attenuator includes damping conveyer belt and a plurality of damping roller, damping roller rotates the top of installing the cable roll-up platform, the damping conveyer belt transmission is connected a plurality of damping roller is between.

The clamping assemblies are arranged in two, each clamping assembly comprises a rotary mounting frame, a first electric cylinder and a first conical clamping block, the first electric cylinder is mounted on the driving table through the rotary mounting frame, and the first conical clamping block is rotatably mounted at the output end of the first electric cylinder.

For realizing the buffer protection to the cable spool, further on the basis of the aforesaid scheme, the buffer board is all installed at the both ends of removal track, the buffer board is connected with the buffer backing plate through a plurality of bumper shock absorbers.

(III) beneficial effects

Compared with the prior art, the invention provides a cable winding device, which has the following beneficial effects:

according to the invention, the driving table can be driven to reciprocate through the reciprocating mechanism, the cable scroll is pressed on the winding driving assembly through the clamping assembly, the cable scroll is driven to rotate through the winding driving assembly, the cable scroll after winding is completed is driven to move to one side by the reciprocating mechanism, the new cable scroll after winding is moved to a winding position, the cable scroll after winding is moved to a position which does not interfere winding, the clamping effect of the clamping assembly on the cable scroll is relieved, the cable scroll can be detached from the winding driving assembly, the cable scroll slides along a rail and is transported, and compared with the prior art, the cable scroll after winding is detached from the cable winding device, the cable scroll can be conveniently collected and replaced in the winding process, the time is saved, and meanwhile, the manual conveying or hoisting work is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

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

FIG. 2 is a schematic view of a partial enlarged structure of the present invention at A in FIG. 1;

FIG. 3 is a schematic view of a partially enlarged structure of the present invention at B in FIG. 1;

FIG. 4 is a schematic perspective view of another angle of the present invention;

FIG. 5 is a schematic view of a partially enlarged structure of the present invention at C in FIG. 4;

FIG. 6 is a schematic view of a partially cut-away perspective view of the present invention cooperating quick change reel mechanism, reciprocating mechanism, retraction drive assembly, clamping assembly, and the like;

fig. 7 is a schematic perspective view of a synchronous moving part according to the present invention.

Reference numerals in the drawings represent respectively:

1. a buffer plate; 2. a damper; 3. a cushion pad;

100. a cable winding platform; 101. a bottom frame; 102. a top platform; 103. a support leg;

200. a quick-change reel mechanism; 201. a drive table; 202. a slide;

300. a reciprocating mechanism; 301. a first motor; 302. a ball screw;

400. a roll-up drive assembly; 401. a second motor; 402. a drive shaft; 403. a second tapered clamping block; 404. a bevel gear set;

500. a clamping assembly; 501. rotating the mounting frame; 502. a first electric cylinder; 503. a first tapered clamping block;

600. a reciprocating wire arrangement mechanism; 601. a third motor; 602. a reciprocating screw; 603. a wire arrangement seat; 604. a slide bar; 605. a spool; 606. a support frame;

700. a synchronous moving part; 701. a second electric cylinder; 702. a mobile station;

800. a pressing part; 801. a pinch roller; 802. a rotating arm; 803. a compacting plate; 804. a fixing plate;

900. a moving track; 901. supporting a rotating roller; 902. a tilting slide-down frame; 1000. a damper; 1001. damping the conveyor belt; 1002. damping roller.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

Referring to fig. 1 to 7, a cable winding device includes a cable winding platform 100, a quick-change reel mechanism 200, a winding driving assembly 400, a clamping assembly 500, a reciprocating winding mechanism 600, a synchronous pressing assembly and a moving rail 900.

Referring to fig. 1 and 3, the cable winding platform 100 includes a bottom frame 101 and a top platform 102, and the top platform 102 is fixedly connected to the top end of the bottom frame 101 through a plurality of legs 103.

Referring to fig. 1 and 6, the quick-change spool mechanism 200 is used for performing quick-change shaft operation on two cable spools, the quick-change spool mechanism 200 includes a driving platform 201 and a reciprocating mechanism 300 for driving the driving platform 201 to reciprocate, the driving platform 201 is slidably mounted on the top of the cable winding platform 100 through a sliding seat 202, a sliding groove matched with the sliding seat 202 is formed in the top platform 102, the sliding seat 202 is used for realizing sliding fit between the driving platform 201 and the cable winding platform 100 through the inside of the sliding groove, the two cable spools are respectively mounted on two sides of the driving platform 201, the reciprocating mechanism 300 is mounted on the cable winding platform 100, the reciprocating mechanism 300 includes a first motor 301 and a ball screw 302, a mounting groove is formed in the top platform 102, the first motor 301 is mounted in the mounting groove, the ball screw 302 and an output shaft of the first motor 301 are connected, a nut matched with the ball screw 302 is arranged on the sliding seat 202, the ball screw 302 can be driven to rotate through the first motor 301, and the sliding seat 202 and the driving platform 202 can realize movement of the driving platform 202 and the driving platform 201 through the matching of the nut and the ball screw 302.

Referring to fig. 6, a winding driving assembly 400 is installed on a driving table 201 and is used for driving a cable reel to rotate, the winding driving mechanism comprises a second motor 401, a bevel gear set 404, a driving shaft 402 and two second taper clamping blocks 403, the second motor 401 is installed on the driving table 201, the driving shaft 402 is rotatably installed inside the driving table 201, two ends of the driving shaft 402 penetrate through the driving table 201 to extend out and are fixedly connected with the second taper clamping blocks 403, the bevel gear set 404 comprises a driving bevel gear and a driven bevel gear which are meshed with each other, an output end of the second motor 401 extends into the driving table 201 and is fixedly connected with the driving bevel gear, and the driven bevel gear is fixedly sleeved on the periphery of the driving shaft 402;

referring to fig. 6, two clamping assemblies 500 are provided, each clamping assembly 500 includes a rotary mounting frame 501, a first electric cylinder 502 and a first tapered clamping block 503, the rotary mounting frame 501 is rotationally connected to the driving table 201, and the two rotary mounting frames 501 are symmetrically arranged, the first electric cylinder 502 is fixedly mounted on the rotary mounting frame 501, and the first tapered clamping block 503 is rotationally mounted at an output end of the first electric cylinder 502;

when the cable reel is required to be installed on the cable winding device, one side of the empty cable reel is sleeved on the periphery of the second conical clamping block 403, a certain rotation damping exists on the rotation mounting frame 501, the stability of the rotation mounting frame 501 and the first electric cylinder 502 can be ensured, the rotation mounting frame 501 comprises a connecting plate, a rotating shaft and a rotating plate, the connecting plate is fixedly connected with the driving table 201, the rotating shaft is rotationally connected with the connecting plate, the other end of the rotating plate is fixedly connected with the rotating shaft, a baffle plate can be arranged on the connecting plate, a positioning plate is fixedly connected on the periphery of the rotating shaft, the rotating shaft and the rotating plate are limited, when the baffle plate is contacted with the positioning plate, the positions of the first conical clamping block 503 and the second conical clamping block 403 are aligned, the first electric cylinder 502 drives the first conical clamping block 503 to move towards the direction close to the second conical clamping block 403, the cable reel is tightly pressed between the first conical clamping block 503 and the second conical clamping block 403 to limit the cable reel, the second motor 401 drives the driving bevel gear to rotate, so that the driven bevel gear and the driving shaft 402 are driven to rotate, the driving shaft 402 drives the second conical clamping block 403 to rotate, the cable reel is driven to rotate, the cable reel is wound up, the first conical clamping block 503 and the second conical clamping block 403 are identical in shape, cone tops are mutually close, the cable reel and the first conical clamping block 503 are coaxial with the second conical clamping block 403 in the process that the first conical clamping block 503 approaches the second conical clamping block 403, and damping between the cable reel and the second conical clamping block 403 is large, so that the cable reel can be driven to rotate through the second conical clamping block 403.

Referring to fig. 5, a reciprocating wire arranging mechanism 600 is installed on a cable winding platform 100 and is used for supporting and reciprocating wire arranging, the reciprocating wire arranging mechanism 600 comprises a third motor 601, a reciprocating screw 602, a wire arranging seat 603, a sliding rod 604 and a wire arranging shaft 605, the cable winding platform 100 is fixedly connected with two supporting frames 606, the reciprocating screw 602 is rotatably installed between the two supporting frames 606, the length of the reciprocating screw 602 is adapted to the length of a cable reel, the third motor 601 is installed on the corresponding supporting frames 606, the output ends of the reciprocating screw 602 and the third motor 601 are fixedly connected, the wire arranging seat 603 is in threaded connection with the periphery of the reciprocating screw 602, the sliding rod 604 is installed between the two supporting frames 606, the wire arranging seat 603 and the sliding rod 604 are in sliding fit, and the wire arranging shaft 605 is rotatably installed on the wire arranging seat 603 and is used for supporting and limiting the cable;

the third motor 601 can drive the reciprocating screw 602 to rotate, the wire arranging seat 603 and the wire arranging shaft 605 can be driven to reciprocate along the reciprocating screw 602 through the threaded fit of the wire arranging seat 603 and the reciprocating screw 602 and the limit function of the sliding rod 604 on the wire arranging seat 603, the two ends of the wire arranging shaft 605 are fixedly connected with the blocking pieces, the wires are limited on the wire arranging shaft 605, the wire arranging shaft 605 drives the wires to reciprocate along the axial direction of the wire arranging shaft, the wires are uniformly wound on the periphery of the wire arranging shaft under the rotation of the wire arranging shaft, and the blocking of the wires is reduced through the rotation of the wire arranging shaft 605.

Referring to fig. 7, the synchronous compressing assembly includes a synchronous moving part 700 and a compressing part 800, the compressing part 800 is mounted on the synchronous moving part 700 for compressing a wound cable, the synchronous moving part 700 is mounted on the cable winding platform 100 for driving the compressing part 800 to move along with winding of the cable, the synchronous moving part 700 includes a second electric cylinder 701 and a moving table 702, the moving table 702 is slidably mounted on the cable winding platform 100, the second electric cylinder 701 is mounted on the cable winding platform 100, the moving table 702 is mounted at an output end of the second electric cylinder 701, the compressing part 800 is mounted at a top of the moving table 702, the compressing part 800 includes a compressing wheel 801, two rotating arms 802, a compressing plate 803 and a fixing plate 804, the rotating arm 802 is rotatably mounted at a top of the moving table 702 through a hinge base, the compressing wheel 801 is rotatably mounted between the two rotating arms 802, the fixing plate 804 is connected at a top of the moving table 702, the compressing plate 803 is fixedly connected between the two rotating arms 803 and the fixing plate 804 is connected with a plurality of compressing springs;

the fixing plate 804 can be driven to move through the second electric cylinder 701, so that the moving table 702 is driven to move, the compression wheel 801 is driven to move, the distance between the compression wheel 801 and the cable reel is adjusted, the change of the diameter of a wound cable is adapted, the initial compression wheel 801 is close to the cable reel, the diameter of the cable on the cable reel is gradually increased along with winding of the cable, the second electric cylinder 701 drives the fixing plate 804 and the moving table 702 to move in the direction away from the cable reel, the increase of the diameter of the cable is adapted, the stability of the compression plate 803 and the rotating arm 802 is maintained through the elasticity of the compression spring, and the compression wheel 801 is driven to compress the cable on the surface of the cable reel, so that the winding tightness is ensured.

Referring to fig. 1 and 2, a moving rail 900 is installed at the top of the cable winding platform 100 for supporting the cable winding, the moving rail 900 includes two supporting rollers 901 and two inclined sliding frames 902, the two supporting rollers 901 are rotatably installed between the two inclined sliding frames 902, the supporting rollers 901 are in contact with the bottom edges of the cable winding shafts for supporting and limiting the cable winding shafts, the inclined sliding frames 902 and the supporting rollers 901 are in seamless connection, the diameters of the inclined sliding frames 902 and the supporting rollers 901 are the same, dampers 1000 are installed at the two inclined sliding frames 902 for slowing down the falling speed of the cable winding shafts, the dampers 1000 include a damping conveyor belt 1001 and a plurality of damping rollers 1002, the top end of the bottom frame 101 is fixedly connected with a plurality of pairs of rotating frames, the damping roller 1002 is rotatably installed between the corresponding two rotating frames, the damping conveyor belt 1001 is in transmission connection between the plurality of damping rollers 1002, the surface of the damping conveyor belt is provided with a plurality of protrusions 1001, one end of the two inclined sliding frames 902 are mutually far away from each other is provided with a plurality of buffer plates 1, and a plurality of buffer plates 3 are connected through a plurality of buffer plates 1;

the cable reel can be supported through the support roller 901, the cable reel can be matched with the rotation winding work of the cable reel through the rotation of the support roller 901, the cable reel can slide along the support roller 901 and the inclined sliding frame 902, when the cable reel moves to the inclined sliding frame 902, the cable reel contacts with the top of the damping conveyor belt 1001, the cable reel is limited through the bulge of the damping conveyor belt 1001, the slipping phenomenon is reduced, stability of the cable reel is guaranteed, the damping roller 1002 has larger damping, meanwhile, the damping effect of the damping conveyor belt 1001 and the damping roller 1002 is also achieved, the cable reel slowly falls down through the damping effect of the damping conveyor belt 1001 and the damping roller 1002, the cable reel is in a horizontal state when the cable reel slides to the bottom, the impact of the cable reel is absorbed and buffered through the buffer pad 3 when the cable reel slides down, so that the cable reel is protected, collision damage of the cable reel is reduced, and then the cable reel is taken down from the inclined sliding frame 902.

In summary, when the cable winding device is used for winding a cable, the driving platform 201 is located at one side of the cable winding platform 100, the empty cable reel is sleeved on the periphery of the corresponding second conical clamping block 403, then the rotating mounting frame 501 at the side is rotated to a corresponding position, the positioning plate contacts with the baffle plate, the first conical clamping block 503 and the second conical clamping block 403 are aligned, the first electric cylinder 502 is started, the first conical clamping block 503 is driven to compress the cable reel on the second conical clamping block 403, the first motor 301 is started, the first motor 301 drives the ball screw 302 to rotate, the sliding seat 202 and the driving platform 201 are moved to the other side, the mounted cable reel is moved to a winding area, namely to a position corresponding to the position of the reciprocating screw 602 and the compressing wheel 801, in this process, the second electric cylinder 701 drives the compressing wheel 801 to be positioned away from the cable reel, the movement of the cable reel is prevented from being blocked, then the cable is wound around the winding displacement shaft 605 and around the periphery of the cable reel, the end part of the cable is fixed at the periphery of the cable reel, then the second motor 401 and the third motor 601 are started, the driving shaft 402 drives the second conical clamping block 403 and the cable reel to rotate under the action of the second motor 401 and the bevel gear set 404, the cable is wound, the third motor 601 drives the reciprocating screw 602 to rotate in the process, the winding displacement seat 603 and the winding displacement shaft 605 are made to reciprocate, the cable is uniformly arranged at the periphery of the cable reel, in the process, the newly empty cable reel can be placed at the other second conical clamping block 403, the corresponding rotating mounting frame 501 is rotated to the alignment state of the first conical clamping block 503 and the second conical clamping block 403, the first electric cylinder 502 drives the first conical clamping block 503 to press the cable reel on the second conical clamping block 403, after winding is completed, the first motor 301 is started to drive the driving platform 201 to move to the other side, a new cable reel is moved to a winding area, the wound cable reel is moved to one side of the cable winding platform 100, the first electric cylinder 502 on the side drives the first conical clamping block 503 to be far away from the cable reel, limiting and clamping of the cable reel are released, the rotating mounting frame 501 is rotated to other positions, the cable reel is prevented from being blocked, the wound cable reel is moved to the inclined sliding frame 902, the cable reel slides down under the action of gravity, the damping rotating roller 1002 and the damping conveyor 1001 decelerate the cable reel in the sliding process, the cable reel is stably slid down, the cable reel is taken out from the inside of the moving track 900 after sliding to the bottom, the cable reel is collected, and then the new cable reel is mounted at the second conical clamping block 403 on the side, and the cable is wound repeatedly.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A cable winding device comprising a cable reel for winding a cable, characterized by further comprising:

a cable take-up platform (100);

the quick-change spool mechanism (200), the quick-change spool mechanism (200) comprises a driving platform (201) and a reciprocating mechanism (300) for driving the driving platform (201) to reciprocate, the driving platform (201) is slidably mounted on the top of the cable winding platform (100), two cable spools are respectively mounted on two sides of the driving platform (201), a winding driving assembly (400) for driving the cable spools to rotate is mounted on the driving platform (201), the reciprocating mechanism (300) is mounted on the cable winding platform (100), the reciprocating mechanism (300) comprises a first motor (301), a sliding seat (202) and a ball screw (302), the first motor (301) is mounted on the cable winding platform (100), the ball screw (302) is connected with an output shaft of the first motor (301), the sliding seat (202) is slidably mounted on the cable winding platform (100), and a nut matched with the ball screw (302) is arranged on the sliding seat (202);

the clamping assemblies (500) are installed on the driving table (201) and are used for pressing the cable reel on the winding driving assembly (400) and realizing rotation of the cable reel, the two clamping assemblies (500) are arranged, each clamping assembly (500) comprises a rotating installation frame (501), a first electric cylinder (502) and a first conical clamping block (503), the first electric cylinder (502) is installed on the driving table (201) through the rotating installation frame (501), and the first conical clamping block (503) is installed at the output end of the first electric cylinder (502) in a rotating mode;

the cable winding platform comprises a moving track (900), wherein the moving track (900) is arranged at the top of the cable winding platform (100), two sides of the moving track (900) are in a slide shape, and dampers (1000) are arranged on two sides of the moving track (900);

the winding driving assembly (400) comprises a second motor (401), a bevel gear set (404), a driving shaft (402) and two second conical clamping blocks (403), wherein the second motor (401) is installed on the driving table (201), the driving shaft (402) is rotatably installed on the driving table (201), the driving shaft (402) is in transmission connection with the output end of the second motor (401) through the bevel gear set (404), the two second conical clamping blocks (403) are respectively installed at two ends of the driving shaft (402), and the cable reel is installed between the corresponding first conical clamping block (503) and the corresponding second conical clamping block (403).

2. The cable winding device according to claim 1, wherein a reciprocating wire arrangement mechanism (600) is mounted on the cable winding platform (100), the reciprocating wire arrangement mechanism (600) comprises a third motor (601), a reciprocating screw rod (602), a wire arrangement seat (603), a sliding rod (604) and a wire arrangement shaft (605), the cable winding platform (100) is fixedly connected with two supporting frames (606), the reciprocating screw rod (602) is rotatably mounted between the two supporting frames (606), the third motor (601) is mounted on the corresponding supporting frames (606), the reciprocating screw rod (602) is connected with the output end of the third motor (601), the wire arrangement seat (603) is in threaded connection with the periphery of the reciprocating screw rod (602), the sliding rod (604) is mounted between the two supporting frames (606), the wire arrangement seat (603) and the sliding rod (604) are in sliding fit, and the wire arrangement shaft (605) is rotatably mounted on the wire arrangement seat (603) for supporting and limiting a cable.

3. A cable reeling device according to claim 2, characterized in that the cable reeling platform (100) is provided with a synchronous compacting assembly, the synchronous compacting assembly comprises a synchronous moving part (700) and a compacting part (800), the compacting part (800) is arranged on the synchronous moving part (700) and is used for compacting the reeled cable, and the synchronous moving part (700) is arranged on the cable reeling platform (100) and is used for driving the compacting part (800) to move along with the reeling of the cable;

the synchronous moving part (700) comprises a second electric cylinder (701) and a moving table (702), the moving table (702) is slidably mounted on the cable reeling platform (100), the second electric cylinder (701) is mounted on the cable reeling platform (100), the moving table (702) is mounted at the output end of the second electric cylinder (701), and the pressing part (800) is mounted at the top of the moving table (702);

the compressing part (800) comprises a compressing wheel (801), two rotating arms (802), a compressing plate (803) and a fixing plate (804), wherein the rotating arms (802) are rotatably arranged at the top of the synchronous moving part (700), the compressing wheel (801) is rotatably arranged between the two rotating arms (802), the fixing plate (804) is connected at the top of the synchronous moving part (700), the compressing plate (803) is connected between the two rotating arms (802), and a plurality of compressing springs are connected between the compressing plate (803) and the fixing plate (804).

4. A cable reeling device according to claim 3, characterized in that the moving track (900) comprises two supporting rollers (901) and two inclined slide-down frames (902), the two supporting rollers (901) being rotatably mounted between the two inclined slide-down frames (902), the supporting rollers (901) being in contact with the bottom edge of the cable reel for supporting and limiting the cable reel.

5. The cable take-up device of claim 4, wherein the damper (1000) comprises a damper belt (1001) and a plurality of damper rollers (1002), the damper rollers (1002) being rotatably mounted on top of the cable take-up platform (100), the damper belt (1001) being drivingly connected between the plurality of damper rollers (1002).

6. The cable winding device according to claim 5, wherein buffer plates (1) are mounted at both ends of the moving rail (900), and the buffer plates (1) are connected with buffer pads (3) through a plurality of shock absorbers (2).