CN113879914A

CN113879914A - Cable perforation traction device

Info

Publication number: CN113879914A
Application number: CN202111121368.XA
Authority: CN
Inventors: 白国岩; 张存龙; 邵长青; 马继慧; 张雷; 秦哲; 张晶
Original assignee: China Railway 16th Bureau Group Co Ltd; Electrification Engineering Co Ltd of China Railway 16th Bureau Group Co Ltd
Current assignee: China Railway 16th Bureau Group Co Ltd; Electrification Engineering Co Ltd of China Railway 16th Bureau Group Co Ltd
Priority date: 2021-09-24
Filing date: 2021-09-24
Publication date: 2022-01-04
Anticipated expiration: 2041-09-24
Also published as: CN113879914B

Abstract

The invention relates to the field of cable transportation, in particular to a cable perforation traction device, which comprises: a fixed plate, one side of which is provided with a roller convenient for moving the device body; the mounting grooves are fixedly mounted on the fixing plate and symmetrically distributed on two sides, connecting plates for connecting the mounting grooves on the two sides are fixedly arranged between the mounting grooves on the two sides, and through grooves for cables to pass through are formed in the connecting plates; the transmission mechanism is arranged in the mounting groove and is used for carrying out transmission and guide on the drawing of the cable; the winding mechanism is fixedly installed on one side of the installation groove and used for winding or releasing the cable, and the winding mechanism comprises a rotating assembly used for drawing the cable and a locking assembly used for fixing the rotating assembly. The cable perforation traction device provided by the invention can be used for winding and releasing the cable through the winding mechanism and the transmission mechanism, and can also be used for fixing the cable through the locking assembly, so that the cable is prevented from loosening, the operation is simple, and the practicability is high.

Description

Cable perforation traction device

Technical Field

The invention relates to the field of cable transportation, in particular to a cable perforation traction device.

Background

When carrying out electric power transmission, the cable is the indispensable transport medium, and the electric energy needs the cable to enter into the user after the power plant sends, and the cable need be earlier with the cable after the processing rolling when laying, releases the laying in the position that needs to act as go-between again.

Although current cable perforation draw-off gear can carry out the rolling with the cable and release, but often difficult cable after with the rolling carries out the rolling fixed, and when the transportation, the cable has not hard up risk, so needs a cable perforation draw-off gear in order to solve above-mentioned problem.

Disclosure of Invention

The embodiment of the invention aims to provide a cable perforation traction device, aiming at solving the following problems: the existing cable is not easy to fix after being rolled, and the cable has loose risk during transportation.

The embodiment of the invention is realized in such a way that a cable perforation traction device comprises: a fixed plate, one side of which is provided with a roller convenient for moving the device body; the mounting grooves are fixedly mounted on the fixing plate and distributed on two sides, connecting plates for connecting the mounting grooves on the two sides are fixedly arranged between the mounting grooves on the two sides, and through grooves for cables to pass through are formed in the connecting plates; the transmission mechanism is arranged in the mounting groove and is used for carrying out transmission and guide on the drawing of the cable; winding mechanism, its fixed mounting is in mounting groove one side for the rolling or release cable, winding mechanism carries out the runner assembly of tractive and is used for the locking Assembly fixed with the runner assembly including being used for carrying out the cable, and locking Assembly includes linkage part, limit commentaries on classics part and control unit, and linkage part and both sides limit commentaries on classics part are articulated so that both sides limit commentaries on classics part is inwards shrunk simultaneously, and control unit fixed mounting is on one side limit commentaries on classics part for control limit commentaries on classics part expansion or shrink.

Preferably, the transmission mechanism comprises: one end of each buffer component is fixedly arranged in the mounting groove and is provided with a plurality of buffer components used for providing necessary buffer for the transmission mechanism to convey the cables; the fixing frame is fixedly connected with the other end of the buffering assembly, and a through groove convenient for mounting the transmission mechanism is formed in the fixing frame; the transmission wheels are arranged in the fixing frame and are provided with a plurality of transmission parts, one side of each transmission wheel is provided with a transmission part in a sliding mode, the transmission parts connect the transmission wheels, one end of each transmission wheel is a driving wheel, and the transmission wheel at one end drives other transmission wheels to rotate through the transmission parts.

Preferably, the buffer assembly comprises: one end of the sleeve is fixedly arranged on the inner wall of the mounting groove, and a loop bar capable of sliding in the sleeve is arranged on the sleeve in a matching manner; one end of the first elastic piece is fixedly connected in the sleeve, the first elastic piece is fixedly provided with a baffle, and the baffle is fixedly connected with one end of the sleeve rod, which is arranged in the sleeve; and the limiting block is fixed on the side wall of the sleeve and can be in contact with the baffle to limit the maximum distance moved by the baffle.

Preferably, the rotating assembly includes: the mounting frame is fixedly provided with a connecting piece, and one end of the connecting piece, which is far away from the mounting frame, is fixedly connected with one side of the mounting groove; the rotary column is rotatably arranged on the mounting frame, and one end of the rotary column penetrates through the mounting frame to extend to the outside of the mounting frame; the power part is fixedly arranged outside the mounting frame and positioned on one side of the rotary column extending to the outside of the mounting frame, and an output shaft of the power part is fixedly connected with the rotary column; the rotary drum, it cup joints on the rotary column and can rotate under the drive of rotary column for carry out the rolling or release to the cable.

Preferably, the linkage member includes: the fixing pieces are distributed on two sides of the mounting rack and fixedly connected with the inner wall of the mounting rack, and sliding sleeves capable of sliding along the direction of the fixing pieces are arranged on the fixing pieces; one end of the hinge piece is hinged with the sliding sleeve and is distributed on two sides of the fixing piece; the gear is arranged on the inner side of the rotation limiting component in a matching way, and rotating shafts at two ends of the gear are fixedly connected with the rotating columns; and two ends of the second elastic piece are respectively fixedly connected with the rotation limiting component and the mounting frame and used for providing buffer for the contraction or expansion of the rotation limiting component.

Preferably, the rotation restricting member includes: the arc sleeve is internally provided with a cavity and distributed on two sides of the gear, a rack which is meshed with the gear is fixedly arranged on the inner side of the arc sleeve, and the ends, far away from each other, of the arc sleeves on the two sides are fixedly connected with the control part and the second elastic part respectively; the third elastic part is arranged in a cavity formed in the arc sleeve, two ends of the third elastic part are fixedly provided with sliding blocks, and the sliding blocks are in sliding connection with the inner wall of the cavity of the arc sleeve; and the arc rods are arranged on two sides of the gear and fixedly connected with one ends of the fixing pieces far away from the mounting rack, and two ends of each arc rod extend into the arc sleeves and are fixedly connected with the sliding blocks.

Preferably, the control means comprises: one end of the pull rod is fixedly connected with the rotation limiting component and extends to the outside of the mounting rack in a sliding manner, and a limiting groove convenient for limiting the movement of the pull rod is formed in the pull rod; the support plate is fixedly arranged on the mounting frame and is positioned on one side of the pull rod; the stabilizing sleeve is fixedly arranged on the support plate, and a stabilizing rod which can slide along the stabilizing sleeve is arranged on the stabilizing sleeve in a matching way; the inclined block is fixedly connected with one end of the stabilizer bar, which is far away from the stabilizing sleeve, a fourth elastic piece is fixedly arranged between the inclined block and the stabilizing sleeve, and the fourth elastic piece can push the inclined block to enter the limiting groove so as to limit the movement of the pull rod; one end of the control handle is fixedly connected with the inclined block, and the other end of the control handle penetrates through the support plate in a sliding mode and is used for pulling the inclined block to leave the limiting groove.

The cable perforation traction device provided by the invention can be used for winding and releasing the cable through the winding mechanism and the transmission mechanism, and can also be used for fixing the cable through the locking assembly, so that the cable is prevented from loosening, the operation is simple, and the practicability is high.

Drawings

Fig. 1 is a schematic structural view of a cable perforation pulling device.

Fig. 2 is a schematic view of a buffer assembly of the cable perforation pulling device.

Fig. 3 is a schematic view of a transmission assembly of the cable perforation pulling device.

Fig. 4 is a schematic view of a locking assembly of the cable piercing pull.

Fig. 5 is a schematic view of the control components of the cable perforation-pulling device.

In the drawings: 1-a fixed plate, 2-a roller, 3-a first mounting groove, 4-a second mounting groove, 5-a connecting plate, 6-a transmission mechanism, 7-a winding mechanism, 8-a rotating component, 9-a locking component, 10-a mounting groove, 61-a buffer component, 62-a fixed frame, 63-a transmission wheel, 64-a transmission component, 611-a sleeve, 612-a loop bar, 613-a first elastic component, 614-a baffle, 615-a limiting block, 81-a mounting frame, 82-a connecting component, 83-a rotating column, 84-a power component, 85-a rotating drum, 90-a linkage component, 91-a fixed component, 92-a sliding sleeve, 93-a hinge component, 94-a rotation limiting component, 95-a gear, 96-a control component, 97-a second elastic component, 941-circular arc sleeve, 942-rack, 943-third elastic piece, 944-slide block, 945-circular arc rod, 961-pull rod, 962-limit groove, 963-support plate, 964-stabilizing sleeve, 965-stabilizing rod, 966-oblique block, 967-fourth elastic piece, 968-control handle.

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 do not limit the invention.

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

Referring to fig. 1, 3 and 4, a cable perforation pulling device according to an embodiment of the present invention includes:

a fixed plate 1, one side of which is provided with a roller 2 convenient for moving the device body; the mounting grooves 10 are fixedly mounted on the fixing plate 1 and distributed on two sides, a connecting plate 5 for connecting the mounting grooves 10 on the two sides is fixedly arranged between the mounting grooves 10 on the two sides, and a through groove for a cable to pass through is formed in the connecting plate 5; the transmission mechanism 6 is arranged in the mounting groove 10 and is used for carrying out transmission and guide on the drawing of the cable; the winding mechanism 7 is fixedly installed on one side of the installation groove 10 and used for winding or releasing cables, the winding mechanism 7 comprises a rotating assembly 8 used for drawing the cables and a locking assembly 9 used for fixing the rotating assembly, the locking assembly 9 comprises a linkage part 90, a rotation limiting part 94 and a control part 96, the linkage part 90 is hinged to the rotation limiting parts 94 on the two sides, so that the rotation limiting parts 94 on the two sides can be retracted inwards at the same time, and the control part 96 is fixedly installed on the rotation limiting part 94 on one side and used for controlling the rotation limiting part 94 to expand or contract.

In this embodiment, the mounting groove 10 includes a first mounting groove 3 and a second mounting groove 4, the first mounting groove 3 and the second mounting groove 4 are symmetrically distributed, and the connecting plate 5 is fixedly disposed between the first mounting groove 3 and the second mounting groove 4.

This embodiment is when specifically using, at first will treat the cable of tractive and pass the logical groove that connecting plate 5 was seted up, open drive mechanism 6 in mounting groove 10, when drive mechanism 6 transmitted the cable to the right side, close drive mechanism 6, go up the zip fastener 9, the outside expansion of locking Assembly 9, make rotating assembly 8 be in the state of relaxing, twine the cable on winding mechanism 7 afterwards, rotating assembly 8 rotates and to get up the cable gradually, the rolling is accomplished the back, pulling locking Assembly 9, make locking Assembly 9 inwards shrink, thereby it is fixed to lock rotating assembly 8, prevent rotating assembly 8 antiport, only need loosen driving assembly 8 through locking Assembly 9, reverse open drive mechanism 6, the cable can be followed the left side and derived.

As shown in fig. 1, as a preferred embodiment of the present invention, the transmission mechanism 6 includes: one end of each buffer component 61 is fixedly arranged in the mounting groove 10 and is provided with a plurality of buffer components for providing necessary buffer for the transmission mechanism 6 to transmit the cables; the fixing frame 62 is fixedly connected with the other end of the buffer component 61, and a through groove convenient for mounting the transmission mechanism 6 is formed in the fixing frame 62; the driving wheels 63 are arranged in the fixing frame 62 and are provided with a plurality of driving wheels, a transmission member 64 is arranged on the periphery of the driving wheel 63 in a sliding manner, the transmission member 64 connects the plurality of driving wheels 63, the driving wheel 63 at one end is a driving wheel, and the driving wheel 63 at one end drives other driving wheels 63 to rotate through the transmission member 64.

In this embodiment, the transmission member 64 is embodied as a belt.

This embodiment is when specifically using, penetrate the cable by the logical groove that connecting plate 5 was seted up, open the drive wheel 63 of one end, the drive wheel 63 power source of one end is the motor, the drive wheel 63 of one end rotates and drives other drive wheel 63 rotations through driving medium 64, thereby carry the right-hand member with the cable, conveniently roll, buffer module 61 can play the cushioning effect to drive wheel 63 in addition, when the cable diameter is great, one section distance can be kept away from each other to the drive wheel 63 of both sides in order to adapt to the diameter of cable, make things convenient for the transport of different diameter cables, when needing the unwrapping wire, the reverse drive wheel 63 of opening one end can be followed the left side with the cable and derived.

As shown in fig. 2, as a preferred embodiment of the present invention, the buffer assembly 61 includes: a sleeve 611, one end of which is fixedly installed on the inner wall of the installation groove 10, and a sleeve rod 612 which can slide in the sleeve 611 is arranged on the sleeve 611 in a matching manner; a first elastic member 613, one end of which is fixedly connected in the sleeve 611, the first elastic member 613 is fixedly provided with a baffle 614, and the baffle 614 and one end of the sleeve rod 612 which is arranged in the sleeve 611 are fixedly connected; and a limiting block 615 fixed on the side wall of the sleeve 611 and capable of contacting with the baffle 614 to limit the maximum moving distance of the baffle 614.

After the cable is put into the driving wheel 63 at the left end, the driving wheel 63 at the left end conveys the cable to the inner sides of the driving wheels 63 at the two sides, at this time, the driving wheels 63 at the two sides drive the fixing frame 62 to move away from each other, so as to drive the baffle 614 on the sleeve rod 612 to move inwards along the inner wall of the sleeve 611 and compress the first elastic piece 613, so that the driving wheels 63 at the two sides have certain pressure on the cable, and ensure that the cable can be conveyed to the right side for rolling, the limiting block 615 can limit the nearest distance of the driving wheels 63 at the two sides, and the cable is prevented from being inserted difficultly due to the over-small distance.

As shown in fig. 3, as a preferred embodiment of the present invention, the rotating assembly 8 includes: the mounting rack 81 is fixedly provided with a connecting piece 82, and one end of the connecting piece 82 far away from the mounting rack 81 is fixedly connected with one side of the mounting groove 10; the rotary column 83 is rotatably mounted on the mounting frame 81, and one end of the rotary column 83 penetrates through the mounting frame 81 and extends to the outside of the mounting frame 81; the power piece 84 is fixedly arranged outside the mounting frame 81 and positioned on one side of the rotating column 83 extending to the outside of the mounting frame 81, and an output shaft of the power piece 84 is fixedly connected with the rotating column 83; and the rotating drum 85 is sleeved on the rotating column 83 and can rotate under the driving of the rotating column 83, and is used for winding or releasing the cable.

When carrying out the cable rolling, at first pulling locking Assembly 9, make the rotary column 83 can freely rotate on mounting bracket 81, open power spare 84, power spare 84 specifically is the motor, power spare 84 output shaft drives rotary column 83 and rotates, rotary column 83 rotates and can drive the rotary drum 85 and rotate, the rotary drum 85 rotates and can carry out the rolling to the cable, when releasing the cable, need not to open power spare 84, reverse opening drive mechanism 6, drive mechanism 6 can pull rotary drum 85 and rotate, thereby carry out the unwrapping wire of cable, if want to restrict rotary drum 85 and rotate, press locking Assembly 9, locking Assembly 9 contracts naturally, thereby restriction rotary column 83 and rotary drum 85 on the rotary column 83 rotate.

As shown in fig. 4, as a preferred embodiment of the present invention, the linkage member 90 includes: the fixing pieces 91 are distributed on two sides of the mounting rack 81 and fixedly connected with the inner wall of the mounting rack 81, and a sliding sleeve 92 capable of sliding along the direction of the fixing pieces 91 is arranged on each fixing piece 91; a hinge member 93, one end of which is hinged to the sliding sleeve 92 and is distributed on both sides of the fixing member 91; the gear 95 is arranged on the inner side of the rotation limiting part 94 in a matching way, and rotating shafts at two ends of the gear 95 are fixedly connected with the rotating column 83; and the second elastic element 97, two ends of which are fixedly connected with the rotation limiting component 94 and the mounting bracket 81 respectively, is used for providing buffer for the contraction or expansion of the rotation limiting component 94.

In this embodiment, the fixing member 91 is formed by two rod members, which can provide a distance for the rotation limiting member 94 to contract or expand.

When the rotating drum 85 is loosened, the control part 96 is pulled upwards, the control part 96 can be naturally locked when moving upwards, the control part 96 can drive the rotation limiting part 94 to expand, when the rotation limiting part 94 expands, the rotation limiting part 94 is not meshed with the gear 95, the hinge 93 (the hinge 93 is specifically a hinge rod) can drive the sliding sleeve 92 to slide on the fixing part 91, and therefore the consistency of the movement of the two sides of the rotation limiting part 94 is ensured, at the moment, the rotating drum 85 can rotate freely, the second elastic part 97 can play a role in buffering the expansion or contraction of the rotation limiting part 94, if the rotating drum 85 is locked, the control part 96 is pressed, the control part 96 moves downwards immediately, the rotation limiting part 94 contracts under the self elasticity and is meshed with the gear 95, and the rotating drum 85 is locked.

As shown in fig. 4, as a preferred embodiment of the present invention, the rotation limiting member 94 includes: the circular arc sleeve 941 is internally provided with a cavity and is distributed on two sides of the gear 95, a rack 942 for meshing with the gear 95 is fixedly arranged on the inner side of the circular arc sleeve 941, and the ends, far away from each other, of the circular arc sleeves 941 on the two sides are fixedly connected with the control part 96 and the second elastic part 97 respectively; a third elastic member 943 disposed in a cavity formed in the arc sleeve 941, wherein two ends of the third elastic member 943 are fixedly provided with a slider 944, and the slider 944 is slidably connected to an inner wall of the cavity of the arc sleeve 941; arc pole 945, it sets up in gear 95 both sides and keeps away from the one end fixed connection of mounting bracket 81 with mounting 91, and arc pole 945 both ends extend to in the circular arc cover 941 with slider 944 fixed connection.

Under the pulling of control unit 96, the circular arc cover 941 of both sides is the motion of keeping away from each other, the rack 942 that drives both sides is the motion of keeping away from each other, lead to gear 95 and rack 942 no longer to mesh, rotary drum 85 can free rotation, and simultaneously, the circular arc pole 945 of both sides pulls the slider 944 outside expansion and makes third elastic component 943 elongate, third elastic component 943 specifically is the spring, when control unit 96 downstream, under the pulling of third elastic component 943, circular arc cover 941 can drive the rack 942 shrink and mesh with gear 95 gradually, and then can restrict the rotary drum and rotate.

As shown in fig. 5, as a preferred embodiment of the present invention, the control part 96 includes: one end of the pull rod 961 is fixedly connected with the rotation limiting component 94 and slidably extends to the outside of the mounting frame 81, and a limiting groove 962 for limiting the movement of the pull rod 961 is formed in the pull rod 961; a support plate 963 fixedly mounted on the mounting frame 81 and located on one side of the pull rod 961; a stabilizer sleeve 964 fixedly mounted on the support plate 963, the stabilizer sleeve 964 being provided with a stabilizer bar 965 slidably movable along the stabilizer sleeve 964; a slant block 966 fixedly connected to an end of the stabilizing rod 965 away from the stabilizing sleeve 964, wherein a fourth elastic member 967 is fixedly disposed between the slant block 966 and the stabilizing sleeve 964, and the fourth elastic member 967 can push the slant block 966 into the limiting groove 962 to limit the movement of the pull rod 961; a control knob 968 is fixedly attached at one end to the ramp 966 and slidably extends through the support plate 963 at the other end for pulling the ramp 966 out of the retention slot 962.

When the rotary drum 85 is loosened, the pull rod 961 is pulled upwards, the pull rod 961 drives the limiting groove 962 thereon to move upwards, when the limiting groove 962 and the inclined block 966 are flush, under the pushing of the fourth elastic member 967, the fourth elastic member 967 is embodied as a spring, the fourth elastic member 967 pushes the stabilizing rod 965 to move outwards, so that the stabilizing rod 965 drives the inclined block 966 to enter the limiting groove 962, thereby limiting the movement of the pull rod 961, if the rotary drum 85 is to be locked, the control handle 968 is pulled, the control handle 968 drives the inclined block 966 to leave the limiting groove 962, and the rotation limiting component 94 can contract under the action of the self-elasticity, thereby completing the locking of the rotary drum 85.

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 perforation draw gear of cable, contains the device body, its characterized in that includes:

a fixed plate, one side of which is provided with a roller convenient for moving the device body;

the mounting grooves are fixedly mounted on the fixing plate and distributed on two sides, connecting plates for connecting the mounting grooves on the two sides are fixedly arranged between the mounting grooves on the two sides, and through grooves for cables to pass through are formed in the connecting plates;

the transmission mechanism is arranged in the mounting groove and is used for carrying out transmission and guide on the drawing of the cable;

winding mechanism, its fixed mounting is in mounting groove one side for the rolling or release cable, winding mechanism carries out the runner assembly of tractive and is used for the locking Assembly fixed with the runner assembly including being used for carrying out the cable, and locking Assembly includes linkage part, limit commentaries on classics part and control unit, and linkage part and both sides limit commentaries on classics part are articulated so that both sides limit commentaries on classics part is inwards shrunk simultaneously, and control unit fixed mounting is on one side limit commentaries on classics part for control limit commentaries on classics part expansion or shrink.

2. The cable perforation pulling apparatus according to claim 1, wherein the transmission mechanism comprises:

one end of each buffer component is fixedly arranged in the mounting groove and is provided with a plurality of buffer components used for providing necessary buffer for the transmission mechanism to convey the cables;

the fixing frame is fixedly connected with the other end of the buffering assembly, and a through groove convenient for mounting the transmission mechanism is formed in the fixing frame;

the transmission wheels are arranged in the fixing frame and are provided with a plurality of transmission parts, one side of each transmission wheel is provided with a transmission part in a sliding mode, the transmission parts connect the transmission wheels, one end of each transmission wheel is a driving wheel, and the transmission wheel at one end drives other transmission wheels to rotate through the transmission parts.

3. The cable puncturing pull of claim 2, wherein the buffer assembly comprises:

one end of the sleeve is fixedly arranged on the inner wall of the mounting groove, and a loop bar capable of sliding in the sleeve is arranged on the sleeve in a matching manner;

one end of the first elastic piece is fixedly connected in the sleeve, the first elastic piece is fixedly provided with a baffle, and the baffle is fixedly connected with one end of the sleeve rod, which is arranged in the sleeve;

and the limiting block is fixed on the side wall of the sleeve and can be in contact with the baffle to limit the maximum distance moved by the baffle.

4. The cable puncturing pull of claim 1, wherein the rotation assembly comprises:

the mounting frame is fixedly provided with a connecting piece, and one end of the connecting piece, which is far away from the mounting frame, is fixedly connected with one side of the mounting groove;

the rotary column is rotatably arranged on the mounting frame, and one end of the rotary column penetrates through the mounting frame to extend to the outside of the mounting frame;

the power part is fixedly arranged outside the mounting frame and positioned on one side of the rotary column extending to the outside of the mounting frame, and an output shaft of the power part is fixedly connected with the rotary column;

the rotary drum, it cup joints on the rotary column and can rotate under the drive of rotary column for carry out the rolling or release to the cable.

5. The cable perforation pulling apparatus according to claim 1, wherein the linkage member comprises:

the fixing pieces are distributed on two sides of the mounting rack and fixedly connected with the inner wall of the mounting rack, and sliding sleeves capable of sliding along the direction of the fixing pieces are arranged on the fixing pieces;

one end of the hinge piece is hinged with the sliding sleeve and is distributed on two sides of the fixing piece;

the gear is arranged on the inner side of the rotation limiting component in a matching way, and rotating shafts at two ends of the gear are fixedly connected with the rotating columns;

and two ends of the second elastic piece are respectively fixedly connected with the rotation limiting component and the mounting frame and used for providing buffer for the contraction or expansion of the rotation limiting component.

6. The cable puncture pulling apparatus according to claim 1, wherein the rotation restricting member includes:

the arc sleeve is internally provided with a cavity and distributed on two sides of the gear, a rack which is meshed with the gear is fixedly arranged on the inner side of the arc sleeve, and the ends, far away from each other, of the arc sleeves on the two sides are fixedly connected with the control part and the second elastic part respectively;

the third elastic part is arranged in a cavity formed in the arc sleeve, two ends of the third elastic part are fixedly provided with sliding blocks, and the sliding blocks are in sliding connection with the inner wall of the cavity of the arc sleeve;

and the arc rods are arranged on two sides of the gear and fixedly connected with one ends of the fixing pieces far away from the mounting rack, and two ends of each arc rod extend into the arc sleeves and are fixedly connected with the sliding blocks.

7. The cable piercing pulling apparatus according to claim 1, wherein the control member includes:

one end of the pull rod is fixedly connected with the rotation limiting component and extends to the outside of the mounting rack in a sliding manner, and a limiting groove convenient for limiting the movement of the pull rod is formed in the pull rod;

the support plate is fixedly arranged on the mounting frame and is positioned on one side of the pull rod;

the stabilizing sleeve is fixedly arranged on the support plate, and a stabilizing rod which can slide along the stabilizing sleeve is arranged on the stabilizing sleeve in a matching way;

the inclined block is fixedly connected with one end of the stabilizer bar, which is far away from the stabilizing sleeve, a fourth elastic piece is fixedly arranged between the inclined block and the stabilizing sleeve, and the fourth elastic piece can push the inclined block to enter the limiting groove so as to limit the movement of the pull rod;

one end of the control handle is fixedly connected with the inclined block, and the other end of the control handle penetrates through the support plate in a sliding mode and is used for pulling the inclined block to leave the limiting groove.