CN112938633A

CN112938633A - High-efficient coiling mechanism of cable

Info

Publication number: CN112938633A
Application number: CN202110451801.XA
Authority: CN
Inventors: 马帅旗
Original assignee: Shaanxi University of Technology
Current assignee: Shaanxi University of Technology
Priority date: 2021-04-26
Filing date: 2021-04-26
Publication date: 2021-06-11

Abstract

The invention is suitable for the technical field of power cables, and provides a high-efficiency cable winding device, which comprises: the main machine box is internally and rotatably connected with a main rotating part; the first output piece is arranged on the main rotating piece, and a fixed assembly is arranged at the output end of the first output piece; the winding component is matched with the fixing component and used for realizing the winding work of the cable; the transmission assembly is arranged on the side part of the main case and is used for transmitting a cable into the winding assembly; the automatic replacing and fixing assembly is arranged in the mainframe box and used for automatically replacing other winding assemblies and fixing the winding assemblies after the current winding assembly is wound; the device makes the rolling subassembly can also remove automatically fixedly and automatically switch next rolling subassembly when can be fixed through setting up automatic change fixed subassembly, removes too much manual operation from, and degree of automation is higher, labour saving and time saving.

Description

High-efficient coiling mechanism of cable

Technical Field

The invention belongs to the technical field of power cables, and particularly relates to a high-efficiency cable winding device.

Background

The cable is the transmission assembly of an electric energy or signal, and it is formed by the combination of multiunit wire mostly, and present electric power system spreads all over the places, consequently need bury the cable underground or set up with the electricity tower on ensure the normal transmission of electric power, and need use a large amount of cables at the in-process of construction, consequently need come the cable to roll in advance through the cable coiling mechanism for reserve, prevent that the cable is mixed and disorderly, be not convenient for use.

At present when carrying out the rolling to the cable, can fix the rolling pole on the rotating electrical machines earlier, then the starter motor drives the rolling pole rotatory in order to realize the rolling, and the other end of rolling pole is not fixed, centrifugal force can appear at rotatory in-process rolling pole and lead to skew or fracture, for solving this problem most can also add a fixing device at the rolling pole other end, and then can need a large amount of operations at installation rolling pole this moment, need to control the fixed at rolling pole both ends, still need manual removal fixed and manual change after the rolling is accomplished, waste time and energy, difficult operation.

Disclosure of Invention

The embodiment of the invention aims to provide a high-efficiency cable winding device, and aims to solve the problems that when a cable is wound at present, a large amount of operation is needed when a winding rod is installed, the fixation of two ends of the winding rod needs to be controlled, the fixation needs to be manually released and manually replaced after the winding is finished, time and labor are wasted, and the operation is difficult.

The embodiment of the invention is realized in such a way that the efficient cable winding device comprises:

the main machine box is internally and rotatably connected with a main rotating part;

the first output piece is arranged on the main rotating piece, and a fixed assembly is arranged at the output end of the first output piece;

the winding component is matched with the fixing component and used for realizing the winding work of the cable;

the transmission assembly is arranged on the side part of the main case and is used for transmitting a cable into the winding assembly;

the automatic replacing and fixing assembly is arranged in the mainframe box and used for automatically replacing other winding assemblies and fixing the winding assemblies after the current winding assembly is wound;

wherein, the automatic fixed subassembly of changing includes:

the automatic fixing component is used for realizing automatic fixing and automatic fixing releasing of the winding component;

and the automatic replacing assembly is used for driving the automatic fixing assembly to operate and automatically replacing the winding assembly.

The embodiment of the invention provides a high-efficiency cable winding device, which has the following beneficial effects:

the device makes the rolling subassembly when can obtaining complete fixed, can also remove automatically that fixed and automatic switch next rolling subassembly through setting up automatic change fixed subassembly, removes too much manual operation from, and degree of automation is higher, labour saving and time saving.

Drawings

Fig. 1 is a schematic structural diagram of a cable efficient winding device according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B;

fig. 4 is a diagram of an operating state of an automatic fixing assembly in an efficient cable winding device according to an embodiment of the present invention 1;

fig. 5 is a diagram 2 illustrating an operating state of an automatic fixing assembly in an efficient cable winding device according to an embodiment of the present invention;

fig. 6 is a diagram of an operating state of an automatic fixing assembly in the efficient cable winding device according to the embodiment of the present invention, which is shown in fig. 3;

fig. 7 is a diagram of an operating state of an automatic fixing assembly in an efficient cable winding device according to an embodiment of the present invention 4;

fig. 8 is a partial perspective structural view of a high-efficiency cable winding device according to an embodiment of the present invention, which is shown in fig. 1;

fig. 9 is a partial perspective structural view of a high-efficiency cable winding device according to an embodiment of the present invention, which is shown in fig. 2;

fig. 10 is a schematic structural diagram of a unidirectional rotating assembly in an efficient cable winding device according to an embodiment of the present invention.

In the drawings: 1. a main chassis; 2. a main rotating member; 3. a first output member; 4. a fixing assembly; 41. a mounting member; 42. a first slider; 43. a second slider; 44. a first elastic member; 45. a first fixing member; 5. a winding component; 51. a winding shaft; 52. a catch tray; 53. an interface; 54. a first fixed block; 55. a second fixed block; 56. fixing grooves; 6. a transmission assembly; 61. a mounting frame; 62. a rotation transmission member; 63. a second output member; 64. a first rotating member; 65. a first linkage member; 66. a linkage block; 67. a cable guide; 7. automatically replacing the fixed component; 71. a fixing plate; 72. a second support member; 73. a moving member; 74. a moving groove; 75. a rack; 76. a second elastic member; 77. rolling a ball; 78. a third support member; 79. a gear; 710. a fourth rotating member; 711. a fourth support member; 712. a fifth rotating member; 713. a sixth rotating member; 714. a second linkage member; 715. a first support member; 716. a first shaft member; 717. a second rotating member; 718. a third rotating member; 719. a trough body; 720. a master control; 721. a first connecting member; 722. a first telescoping member; 723. a third slider; 724. a fourth slider; 725. a second telescoping member; 726. a second fixing member; 727. a guide member; 728. a fifth support member; 729. a seventh rotating member; 730. a first tooth member; 731. a third linkage member; 732. a second tooth member; 733. a rotating member; 734. a stop lever; 735. a third elastic member; 736. a control slot; 737. and a limiting member.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

Example 1:

as shown in fig. 1, in an embodiment of the present invention, the efficient cable winding device includes:

the main frame box 1, the inside of the main frame box 1 is rotatably connected with a main rotating part 2;

the first output piece 3 is arranged on the main rotating piece 2, and a fixed assembly 4 is arranged at the output end of the first output piece 3;

the winding component 5 is matched with the fixing component 4 and used for winding the cable;

a transmission assembly 6 installed at a side of the main cabinet 1 for transmitting a cable into the winding assembly 5;

the automatic replacing and fixing assembly 7 is installed inside the mainframe box 1 and used for automatically replacing other winding assemblies 5 and fixing the winding assemblies after the current winding assembly 5 finishes winding;

wherein the automatic change fixing assembly 7 comprises:

the automatic fixing component is used for realizing automatic fixing and automatic fixing releasing of the winding component 5;

and the automatic replacing assembly is used for driving the automatic fixing assembly to operate and automatically replacing the winding assembly 5.

In this embodiment, the structure of the first output member 3 is not limited to a rotating motor, and all components capable of driving rotation are required, which is not described herein; the structure of the fixing component 4 is not limited to the structure described later, and the winding component 5 can be clamped by a hinged buckle to realize fixing, or other structures capable of fixing the winding component 5 can be realized.

When the cable winding device is used, as shown in fig. 1, the first output part 3 and the transmission component 6 corresponding to the winding component 5 wound with the cable are started, the first output part 3 takes the winding component 5 to rotate, the cable is wound into the winding component 5, and meanwhile, the transmission component 6 drives the cable to perform reciprocating type lifting motion, so that the cable is uniformly wound into the winding component 5; along with the cable progressively twines to the rolling component 5 in, can make the gradual grow of external diameter of rolling component 5, and then promote automatic change fixed subassembly 7, when the winding external diameter of rolling component 5 reachd the limit, automatic fixed subassembly can remove the fixed to rolling component 5 this moment, then stop first output 3 this moment, take off this rolling component 5 with the winding completion, then automatic change fixed subassembly 7 this moment can automatic re-setting, can drive main rotation piece 2 rotation through automatic change subassembly simultaneously, it prepares the winding to change next rolling component 5, automatic fixed subassembly also can be automatic to this rolling component 5 complete fixation simultaneously.

As shown in fig. 1 and 8, in the embodiment of the present invention, the winding assembly 5 includes:

the winding device comprises a winding shaft 51, wherein baffle discs 52 are arranged at two ends of the winding shaft 51, and an interface 53 is arranged on the winding shaft 51;

the first fixing block 54 and the second fixing block 55 are mounted on the blocking discs 52 on two sides of the winding shaft 51, the second fixing block 55 is rotatably connected with the blocking discs 52, fixing grooves 56 are formed in the side portions of the first fixing block 54 and the second fixing block 55, and the fixing grooves 56 are used for being matched with the fixing component 4 to preliminarily fix the winding component 5.

Example 2:

as shown in fig. 1 and 3, in the embodiment of the present invention, the fixing assembly 4 includes:

the mounting part 41 is connected with the output end of the first output part 3, a first sliding part 42 is mounted on the mounting part 41, and a second sliding part 43 is arranged in the first sliding part 42;

the first elastic piece 44 is arranged between the inner wall of the first sliding piece 42 and the side wall of the second sliding piece 43 and used for pushing the second sliding piece 43 to reset;

and the first fixing piece 45 is installed on the second sliding piece 43 and is used for being matched with the fixing groove 56 to fix the rolling component 5.

In the present embodiment, the structure of the first sliding member 42 is a sliding groove structure, and the structure of the second sliding member 43 is a sliding block structure; the first elastic member 44 may be a metal spring, or any other structure capable of elastically pushing the second sliding member 43 to return, wherein a metal spring is preferred.

When the winding device is used, the second sliding piece 43 is controlled to slide in the first sliding piece 42, so that the first fixing piece 45 is matched with or separated from the fixing groove 56, the fixing relation of the winding assembly 5 is changed, the second sliding piece 43 can be automatically pushed through the first elastic piece 44, and the first fixing piece 45 can preliminarily fix the winding assembly 5.

Example 3:

as shown in fig. 1, in the embodiment of the present invention, the transmission assembly 6 includes:

a mounting frame 61 mounted on the side wall of the main cabinet 1, wherein a rotation transmission member 62 is rotatably connected to the mounting frame 61;

a second output member 63 installed on the main cabinet 1, wherein an output end of the second output member 63 is connected with a first rotating member 64;

the first linkage member 65 is wound on the first rotation member 64 and the rotation transmission member 62, and a linkage block 66 is mounted on the first linkage member 65;

the first linkage member 65 is used for converting the rotary motion of the first rotation member 64 into a linear motion;

and the cable guide 67 is arranged on the linkage block 66 and is used for arranging and conveying the cables into the rolling component 5.

In the present embodiment, the structure of the second output 63 is a reciprocating rotary motor structure, and the reciprocating frequency thereof depends on the length of the winding shaft 51 and the rotation speed of the second output 63; the first linking member 65 is a crawler-type structure, and is preferably made of rubber; the structure of the rotary transmission member 62 is a roller type structure; the structure of the cable guide 67 is not limited to a specific structure, and any structure having the function of arranging cables may be omitted herein.

During the use, start second output 63, second output 63 can drive first rotating member 64 and be reciprocating type rotation, and then can drive first rotating member 65 operation, rotatory transmission member 62 can play the support to first rotating member 65, the effect of motion transmission, then under the reciprocating type rotation of first rotating member 64, can drive interlock piece 66 and be reciprocating type elevating movement, rolling subassembly 5 can constantly rotate simultaneously will be through the cable winding of cable guide 67, and the reciprocating type elevating movement of cable guide 67 then can make the winding that the cable can be even on rolling subassembly 5.

Example 4:

as shown in fig. 1 to 9, in the embodiment of the present invention, the automatic replacement fixing assembly 7 further includes:

a fixing plate 71 installed on an inner wall of the main cabinet 1, wherein a second supporting member 72 is installed on the fixing plate 71;

a moving member 73, wherein a moving groove 74 is formed in the moving member 73, the second supporting member 72 is located in the moving groove 74, and a second elastic member 76 is arranged between the second supporting member 72 and the inner wall of the moving groove 74;

a third support 78 mounted on the fixing plate 71, the third support 78 having a moving assembly mounted thereon, the moving assembly including: a gear 79 and a rack 75, wherein the rack 75 is arranged on the side part of the moving member 73, and the gear 79 is meshed with the rack 75;

and a transmission assembly mounted on the gear 79 for transmitting the rotational force output from the gear 79 to the automatic fixing assembly.

In this embodiment, a rolling ball 77 is disposed at one end of the moving member 73, the rolling ball 77 is connected with the moving member 73 through a universal bearing, the rolling ball 77 is used for reducing friction between the cable and the moving member 73 and preventing the cable from being damaged by abrasion, and when the moving member 73 moves from a free position to a cable winding limit position, the rack 75 drives the gear 79 to rotate a quarter of a turn; the structure of the moving component is not limited to the transmission of the gear 79 and the rack 75, and any other components capable of performing rotary transmission are all suitable, which are not described herein.

During the use, after the cable winding makes the external diameter of rolling axle 51 increase gradually at rolling axle 51, can promote moving member 73 through spin 77, moving member 73 can drive gear 79 through rack 75 and rotate, and then drives the operation of automatic fixed subassembly through transmission assembly.

As shown in fig. 1 to 9, in an embodiment of the present invention, the transmission assembly includes:

a fourth rotation member 710 installed at the middle of the gear 79;

a fourth supporting member 711 mounted on the fixed plate 71, the fourth supporting member 711 being rotatably connected to a fifth rotating member 712;

a sixth rotating member 713 installed in the automatic fixing assembly, and second linking members 714 are disposed between the fourth rotating member 710 and the fifth rotating member 712 and between the fifth rotating member 712 and the sixth rotating member 713;

the second linkage 714 is used to enable the automatic fixing component and the gear 79 to rotate synchronously.

In the present embodiment, the fourth, fifth and sixth

rotating members

710, 712 and 713 are plate-shaped structures, preferably circular plate-shaped structures; the second linking member 714 is a crawler-type structure, and is preferably made of rubber.

In use, the rotation of the gear 79 drives the fourth rotating member 710 to rotate, and further drives the fifth rotating member 711 and the sixth rotating member 713 to rotate synchronously via the second linking member 714, and drives the automatic fixing assembly to operate via the sixth rotating member 713.

As shown in fig. 1 to 9, in an embodiment of the present invention, the automatic fixing assembly includes:

a first support 715 installed inside the main cabinet 1, wherein a first shaft 716 is rotatably connected to the first support 715, and the sixth rotating member 713 is installed on the first shaft 716;

a second rotating member 717 and a third rotating member 718 respectively mounted at two ends of the first shaft 716, wherein the second rotating member 717 and the third rotating member 718 are provided with groove bodies 719;

a main control 720, which is disposed on one side of the second rotating member 717 and the third rotating member 718, wherein a first connecting member 721 is installed on the main control 720, a first telescopic member 722 is installed on the side of the main control 720, and the first telescopic member 722 is used for limiting the movement track of the main control 720;

a third sliding member 723 which is opened on the main control 720, wherein a fourth sliding member 724 is arranged inside the third sliding member 723;

the second telescopic member 725 is installed on the fourth sliding member 724, a second fixing member 726 is installed at the side of the second telescopic member 725, a guide member 727 is installed on the second telescopic member 725 and the first connecting member 721, and the guide member 727 is located inside the groove body 719;

the guide 727 is used for controlling the second telescopic member 725 to operate, and the second fixing member 726 is used for achieving complete fixation of the winding assembly 5.

In this embodiment, the first expansion member 722 and the second expansion member 725 have a rod-like structure with expansion effect, and preferably have a straight rod structure with expansion effect.

In use, the sixth rotating member 713 rotates the first shaft 716, and thus the second rotating member 717 and the third rotating member 718, as shown in fig. 4 to 5 and 6 to 7, the second rotating member 717 and the third rotating member 718 rotate a quarter turn by the sixth rotating member 713 as shown in fig. 4 to 5, the second telescopic member 725 moves to both sides by the groove body 719 and the guide member 727, meanwhile, the third slider 723 and the fourth slider 724 can limit the moving track of the second telescopic member 725, and the movement of the second telescopic member 725 to both sides can make the second fixing member 726 separate from the fixing groove 56, release the fixing of the winding assembly 5, meanwhile, as shown in fig. 6 to 7, the first connecting part 721 drives the main control part 720 to move upwards through the guide part 727 and the slot body, so that the second fixing part 726 also moves upwards, and the obstruction in detaching the winding assembly 5 is reduced;

after the disassembly is completed, the transmission assembly can reset, so that other components move reversely, and the automatic replacement assembly can drive the next winding assembly 5 to move to the lower part of the automatic fixing assembly, and then the automatic fixing assembly can completely fix the winding assembly 5 through the second fixing part 726.

In this embodiment, the groove 719 is preferably shaped as an oval groove, and when the guide 727 is located at the end of the long axis or end shaft of the oval groove, the guide 727 gradually and gently changes its position as the second rotating member 717 and the third rotating member 718 rotate, so as to alleviate the friction between the second fixing member 726 and the fixing groove 56; similarly, if the groove 719 is diamond-shaped, the movement speed of the guide 727 is faster than that of the elliptical groove 719, and the friction force between the second fixing member 726 and the fixing groove 56 is increased, so that the second fixing member is not easily separated.

As shown in fig. 1 to 9, in an embodiment of the present invention, the automatic exchange assembly includes:

a fifth supporting member 728 mounted on the fixed plate 71, wherein a seventh rotating member 729 is rotatably connected to the fifth supporting member 728, a first gear 730 is mounted on the seventh rotating member 729, and a third linkage 731 is disposed between the seventh rotating member 729 and the fourth rotating member 710;

a second tooth 732 installed at the middle of the main rotor 2 and engaged with the first tooth 730 for rotating the main rotor 2 by the rotation of the first tooth 730;

and a unidirectional rotation component, which is disposed at a connection position between the second tooth 732 and the main rotation member 2, and is used for enabling the second tooth 732 to drive the main rotation member 2 to rotate only in one direction.

In this embodiment, the structure of the unidirectional rotation assembly is not limited to the structure described later, and may be other structures, and all structures capable of realizing that the second gear 732 unidirectionally drives the main rotation member 2 to rotate are all possible, which are not described herein; the first gear 730 and the second gear 732 may be configured as a trapezoidal gear, and may be configured to transmit rotational power in a steering manner.

When in use, the rotation of the gear 79 drives the fourth rotating member 710 to rotate, and further drives the seventh rotating member 729 to rotate through the third linking member 731, and transmits the rotation to the second tooth member 732 through the first tooth member 730;

when the outer diameter of the winding shaft 51 gradually increases and the moving member 73 drives the gear 79 to rotate, the second tooth 732 does not drive the main rotating member 2 to rotate due to the unidirectional rotating assembly, and when the moving member 73 resets under the action of the first elastic member 76, the second tooth 732 drives the main rotating member 2 to rotate and drives the next winding assembly 5 to move to the lower part of the automatic fixing assembly, so that the effect of automatically replacing the winding assembly 5 is realized.

As shown in fig. 10, in the embodiment of the present invention, the unidirectional rotation assembly includes:

a rotating member 733 mounted on the second gear 732, the rotating member 733 being laterally rotatably connected to a stopper bar 734;

a third elastic member 735 installed between the blocking lever 734 and the rotating member 733, for pushing the blocking lever 734 to reset;

the control groove 736 is opened on the main rotation member 2, a limiting member 737 is installed on the inner wall of the control groove 736, and the limiting member 737 is matched with the stop lever 734 to realize the effect of unidirectional rotation.

In this embodiment, the third elastic member 735 is configured as a gas spring, and may be other components capable of pushing the stop lever 734 to reset, wherein the structure of the gas spring is preferred; the limiting member 737 is a triangular clip.

When the device is used, as shown in fig. 10, when the second tooth 732 drives the rotating member 733 to rotate counterclockwise, the inclined surface of the blocking rod 734 contacts with the inclined surface of the limiting member 737, and at this time, since the main rotating member 2 is limited by the automatic fixing assembly and the winding assembly 5 to rotate, the third elastic member 735 is compressed, so that the blocking rod 734 cannot be limited to rotate by the limiting member 737, and the rotating member 733 cannot drive the main rotating member 2 to rotate; when the rotating component 733 rotates clockwise, the rotation of the main rotating component 2 is not limited, and the end of the blocking rod 734 contacts with the straight edge of the limiting component 737, so that the blocking rod 734 pushes the main rotating component 2 to rotate through the limiting component 737, thereby achieving the effect of unidirectional rotation.

In summary, when the efficient cable winding device is used, the first output member 3 and the transmission member 6 corresponding to the winding member 5 wound with the cable are started first, the first output member 3 drives the winding member 5 to rotate, the cable is wound into the winding member 5, and meanwhile, the transmission member 6 drives the cable to perform reciprocating type lifting motion, so that the cable is uniformly wound into the winding member 5; along with the cable progressively twines to the rolling component 5 in, can make the gradual grow of external diameter of rolling component 5, and then promote automatic change fixed subassembly 7, when the winding external diameter of rolling component 5 reachd the limit, automatic fixed subassembly can remove the fixed to rolling component 5 this moment, then stop first output 3 this moment, take off this rolling component 5 with the winding completion, then automatic change fixed subassembly 7 this moment can automatic re-setting, can drive main rotation piece 2 rotation through automatic change subassembly simultaneously, it prepares the winding to change next rolling component 5, automatic fixed subassembly also can be automatic to this rolling component 5 complete fixation simultaneously.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a high-efficient coiling mechanism of cable which characterized in that, the high-efficient coiling mechanism of cable includes:

the winding component is matched with the fixing component and used for winding the cable and limiting the rotation position of the cable;

the automatic replacing and fixing assembly is arranged inside the mainframe box and is used for automatically replacing and fixing the winding assembly;

wherein, the automatic fixed subassembly of changing includes:

2. The efficient cable wrap-up device of claim 1, wherein the wrap-up assembly comprises:

the two ends of the winding shaft are provided with baffle discs;

first fixed block and second fixed block install keep off on the dish, the second fixed block with keep off the dish and rotate and be connected, the fixed slot has been seted up to first fixed block and second fixed block one side, the fixed slot be used for with fixed subassembly matches and is right the rolling component is fixed.

3. The efficient cable wrap-up device of claim 2, wherein the securing assembly comprises:

the mounting piece is connected with the output end of the first output piece, a first sliding piece is mounted on the mounting piece, and a second sliding piece is arranged in the first sliding piece;

the first elastic piece is arranged between the inner wall of the first sliding piece and the side wall of the second sliding piece;

and the first fixing piece is arranged on the second sliding piece and used for being matched with the fixing groove to fix the winding assembly.

4. The efficient cable wrap-up device of claim 1, wherein the transmission assembly comprises:

the mounting frame is mounted on the side wall of the main case, and a rotary transmission piece is rotatably connected to the mounting frame;

the second output piece is arranged on the main case, and the output end of the second output piece is connected with the first rotating piece;

the first linkage piece is arranged on the first rotating piece and the rotary transmission piece, and a linkage block is arranged on the first linkage piece;

and the cable guide piece is arranged on the linkage block and used for arranging and conveying the cables into the winding component.

5. The efficient cable take-up device of claim 1, wherein the automatic change fixture assembly further comprises:

the fixing plate is arranged on the inner wall of the mainframe box, and a second supporting piece is arranged on the fixing plate;

the moving piece is internally provided with a moving groove, the second supporting piece is positioned in the moving groove, and a second elastic piece is arranged between the second supporting piece and the inner wall of the moving groove;

the third supporting piece is arranged on the fixing plate, and a moving assembly is rotatably connected onto the third supporting piece;

and the transmission assembly is arranged on the moving assembly and is used for transmitting the rotating force output by the moving assembly to the automatic fixing assembly.

6. The efficient cable take-up device of claim 5, wherein the transmission assembly comprises:

the fourth rotating piece is arranged in the middle of the moving assembly;

the fourth supporting piece is arranged on the fixed plate, and a fifth rotating piece is connected to the fourth supporting piece in a rotating mode;

the sixth rotating part is arranged in the automatic fixing assembly, and second linkage parts are arranged between the fourth rotating part and the fifth rotating part and between the fifth rotating part and the sixth rotating part;

the second linkage piece is used for enabling the automatic fixing assembly and the moving assembly to synchronously rotate.

7. The efficient cable winder of claim 6, wherein the automated fastening assembly comprises:

the first supporting piece is arranged in the main case, a first shaft piece is connected to the first supporting piece in a rotating mode, and the sixth rotating piece is arranged on the first shaft piece;

the second rotating piece and the third rotating piece are respectively arranged at two ends of the first shaft piece, and groove bodies are formed in the second rotating piece and the third rotating piece;

the main control part is arranged on one side of the second rotating part and one side of the third rotating part, a first connecting piece is arranged on the main control part, a first telescopic piece is arranged on the side part of the main control part, and the first telescopic piece is used for limiting the motion track of the main control part;

the third sliding part is arranged on the main control part, and a fourth sliding part is arranged in the third sliding part;

the second telescopic piece is arranged on the fourth sliding piece, a second fixing piece is arranged on the side part of the second telescopic piece, guide pieces are arranged on the second telescopic piece and the first connecting piece, and the guide pieces are positioned in the groove body;

the guide piece is used for controlling the second telescopic piece to operate, and the second fixing piece is used for completely fixing the winding assembly.

8. The efficient cable wrap-up device of claim 6, wherein the automatic change assembly comprises:

the fifth supporting piece is arranged on the fixed plate, a seventh rotating piece is connected to the fifth supporting piece in a rotating mode, a first tooth piece is arranged on the seventh rotating piece, and a third linkage piece is arranged between the seventh rotating piece and the fourth rotating piece;

the second tooth piece is arranged in the middle of the main rotating piece, is meshed with the first tooth piece and is used for driving the main rotating piece to rotate through the rotation of the first tooth piece;

and the unidirectional rotating assembly is arranged at the joint of the second tooth part and the main rotating part and is used for enabling the second tooth part to only drive the main rotating part to rotate towards one direction.

9. The efficient cable winder of claim 8, wherein the unidirectional rotation assembly comprises:

the rotating piece is arranged on the second gear piece, and the side part of the rotating piece is rotatably connected with a stop lever;

the third elastic piece is arranged between the stop lever and the rotating piece and used for pushing the stop lever to reset;

the control groove is arranged on the main rotating part, a limiting part is arranged on the inner wall of the control groove, and the limiting part is matched with the stop lever.