CN114920076A - Dedicated cable winding equipment is erect in construction of power transmission cable - Google Patents

Abstract

The invention discloses a special cable winding device for construction and erection of electric power transmission cables, which belongs to the technical field of cable construction, and comprises a placing component, wherein the placing component comprises a moving box, a winding component is arranged in the moving box, a driving component is arranged on the moving box, the driving component is connected with the winding component, a traction component is arranged in the moving box, a cable is connected between the traction component and the winding component, the traction component is connected with a reciprocating component movably arranged in the moving box, the reciprocating component comprises a first rotating rod, a first guide rod, a first sliding strip, a movable worm, a moving seat, a moving groove, a movable rod, a worm wheel, a first connecting rod, a first connecting column, a second connecting column and a second connecting rod, an adjusting component is arranged in the moving box, and is connected with the winding component and provided with a reciprocating motion, The device has the advantages of uniform winding, flexible linkage, capability of meeting the requirements of traction and winding of cables with different calibers and high working efficiency.

Description

Special cable winding equipment for construction and erection of power transmission cables

Technical Field

The invention relates to the technical field of cable construction, in particular to a special cable winding device for construction and erection of power transmission cables.

Background

The power cable is a cable product used for transmitting and distributing high-power electric energy in a trunk line of a power system, and is commonly used for urban underground power grids, power station leading-out lines, power supply inside industrial and mining enterprises and power transmission lines under river-crossing seawater. The basic structure of the power cable is composed of four parts, namely a wire core (conductor), an insulating layer, a shielding layer and a protective layer. In the power lines, the cable is increasing in specific gravity. Power cables are cable products used in the trunk lines of electric power systems to transmit and distribute high power electric energy, including various voltage classes, 1-500KV and above, and various insulated power cables.

Power cable erects the in-process in the construction, need carry out rolling and winding operation to power cable, present power cable rolling winding equipment can handle the rolling to the cable, however, need artifically to carry out real-time adjustment to the rolling position of cable, otherwise the cable will be twined at the fixed position of winding drum all the time, the rolling efficiency has been reduced, staff's work burden has been aggravated, from top to bottom, current power cable rolling winding equipment exists and needs artifically to carry out the shortcoming of real-time adjustment to the rolling position of cable, be difficult to obtain popularization and application.

Therefore, it is necessary to provide a cable winding apparatus dedicated to construction and erection of power transmission cables, aiming to solve the above problems.

Disclosure of Invention

In view of the defects in the prior art, an embodiment of the present invention provides a cable winding apparatus for construction and erection of power transmission cables, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

a special cable winding device for construction and erection of electric power transmission cables comprises a placement component, wherein the placement component comprises a moving box, a winding component is arranged in the moving box, a driving component is arranged on the moving box and connected with the winding component, a traction component is arranged in the moving box, a cable is connected between the traction component and the winding component, the traction component is connected with a reciprocating motion component movably arranged in the moving box, the reciprocating motion component comprises a first rotating rod rotatably arranged in the moving box and a first guide rod fixedly arranged in the moving box, one end of the first rotating rod penetrates through the moving box and is connected with the driving component, a first sliding strip is arranged on the first rotating rod and is connected with a moving worm in a sliding manner through the first sliding strip, a moving seat is arranged on the first guide rod in a sliding manner, a moving groove matched with the moving worm is arranged at one end, close to the first rotating rod, of the moving seat, the movable seat is rotatably provided with a movable rod, the movable rod is provided with a worm wheel meshed with a movable worm, one end of the movable rod, far away from the movable seat, is connected with a first connecting rod, one end of the first connecting rod, far away from the movable rod, is provided with a first connecting post, a second connecting post is arranged in the movable box, a second connecting rod is movably connected between the first connecting post and the second connecting post, the driving component drives the first connecting rod to rotate, the first connecting rod drives the movable worm to rotate through a first sliding strip, the movable worm drives the movable rod to rotate through a mode meshed with the worm wheel, the movable rod drives the first connecting rod to synchronously rotate, the first connecting rod drives the second connecting rod to do reciprocating swing around the second connecting post through movable connection between the first connecting post and the second connecting rod, the first connecting rod rotates around the first connecting post, the first connecting rod drives the movable seat to do reciprocating motion on the first connecting rod through the movable rod, the movable base drives the movable groove to move, the movable groove is connected with the worm gear in a meshing mode of driving the movable worm to move synchronously, the movable base drives the traction assembly to move in a reciprocating mode, and the traction assembly evenly winds the cable in a mode of driving the cable to move in a reciprocating mode.

As a further aspect of the invention, the pulling assembly comprises:

the traction box is arranged on the moving seat, and a connecting plate is movably arranged in the traction box;

the lifting plate is movably arranged on the outer side of the traction box, one side of the lifting plate is connected with a supporting rod, and one end of the supporting rod penetrates through the traction box and is connected with the connecting plate;

the traction rollers are symmetrically arranged on one sides of the traction box and the lifting plate, which are close to each other;

the sliding rod is arranged in the traction box, a sliding block is arranged on the sliding rod in a sliding mode, and a spring is connected between the sliding block and the traction box;

the rotating cam is movably arranged in the traction box and positioned between the lifting plate and the connecting plate, the outer end of the rotating cam is connected with the connecting plate in a sliding mode, and a third connecting column is arranged at the outer end of the rotating cam;

and one end of the third connecting rod is movably connected with the third connecting column, and the other end of the third connecting rod is movably connected with the sliding block.

As a further aspect of the present invention, the winding assembly includes:

the supporting plates are symmetrically arranged on the inner wall of the movable box;

the winding drum is movably arranged on the supporting plate, and a plurality of limiting holes are formed in two sides of the winding drum;

the movable plate is symmetrically and movably arranged in the movable box, the movable plate is respectively positioned on two sides of the winding drum, and a plurality of limiting columns matched with the limiting holes are arranged at one end, close to the winding drum, of the movable plate.

As a further scheme of the invention, an adjusting component is arranged in the moving box and connected with the winding component.

As a further aspect of the present invention, the adjusting assembly includes:

the second guide rod is arranged in the movable box, an adjusting gear is movably arranged on the second guide rod, and the adjusting gear is connected with an adjusting motor;

the adjusting plates are symmetrically arranged on the second guide rod in a sliding manner;

the ring groove is arranged at the outer end of the moving plate, a clamping plate is arranged in the ring groove in a sliding mode, and the clamping plate is connected with the adjusting plate;

the adjusting gear rack is provided with two adjusting plates which are respectively connected with the two sides, and the adjusting gear racks are distributed on the two sides of the adjusting gear and meshed with the adjusting gear.

As a further aspect of the present invention, the driving assembly includes:

the second rotating rod is movably arranged in the moving box, a second sliding strip is arranged on the second rotating rod, the second rotating rod is connected with the moving plate in a sliding mode through the second sliding strip, and one end of the second rotating rod penetrates through the moving box and is connected with the first gear;

the fourth connecting rod is movably arranged in the moving box, two ends of the fourth connecting rod respectively penetrate through the moving box and are connected with the second gear, and the first gear chain is connected between the first gear and the second gear;

the third gear is arranged on the second rotating rod;

the fourth gear is arranged on the first rotating rod, and a second chain is connected between the third gear and the fourth gear;

and the output end of the driving motor is connected with the second rotating rod.

As a further aspect of the present invention, the placing assembly further comprises:

the wire inlet is arranged on the side wall of the movable box;

the base is positioned at the bottom of the movable box, and a plurality of movable wheels are arranged on one side of the base, which is far away from the movable box;

the push plate is arranged at one end of the base and is connected with the driving motor.

In summary, compared with the prior art, the embodiment of the invention has the following beneficial effects:

the invention can effectively wind the cable by matching the traction component, the winding component and the driving component, meets the traction and winding requirements of the cables with different calibers, the driving component drives the first rotating rod to rotate, the first rotating rod drives the movable worm to rotate by the first slide bar, the movable worm drives the movable rod to rotate by a mode of meshing with the worm wheel, the movable rod drives the first connecting rod to synchronously rotate, the first connecting rod drives the second connecting rod to reciprocate around the second connecting rod by the movable connection between the first connecting rod and the second connecting rod, the first connecting rod drives the movable seat to reciprocate on the first connecting rod by the movable rod, the movable seat drives the movable worm to synchronously move by the movable groove, thereby fixing the meshing connection between the movable worm and the worm wheel, the movable seat drives the cable to reciprocate by the traction component, therefore, the cable can be uniformly wound, and the winding device has the effects of reciprocating movement, uniform winding, flexible linkage, meeting the requirements of traction and winding of cables with different calibers and being high in working efficiency.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a partially enlarged view of a in example a of the invention.

Fig. 3 is a partially enlarged view of B in the invention example.

Fig. 4 is a partially enlarged view of C in the invention example.

Fig. 5 is a schematic structural diagram of a support plate in an embodiment of the invention.

Reference numerals: 1-placing component, 101-moving box, 102-incoming line, 103-base, 104-moving wheel, 105-push plate, 2-reciprocating moving component, 201-first guide rod, 202-first rotating rod, 203-first slide bar, 204-moving worm, 205-moving seat, 206-moving groove, 207-moving rod, 208-worm wheel, 209-first connecting rod, 210-first connecting column, 211-second connecting rod, 212-second connecting column, 3-traction component, 301-traction box, 302-lifting plate, 303-supporting rod, 304-connecting plate, 305-traction roller, 306-rotating cam, 307-third connecting column, 308-third connecting rod, 309-sliding block, 310-sliding rod, 311-spring, 4-winding component, 401-supporting plate, 402-winding drum, 403-limiting hole, 404-moving plate, 405-limiting column, 5-adjusting component, 501-second guide rod, 502-adjusting motor, 503-adjusting gear, 504-adjusting rack, 505-adjusting plate, 506-clamping plate, 507-ring groove, 6-driving component, 601-second rotating rod, 602-first gear, 603-first toothed chain, 604-second gear, 605-fourth connecting rod, 606-driving motor, 607-third gear, 608-second toothed chain, 609-fourth gear and 610-second sliding strip.

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.

In an embodiment of the invention, referring to fig. 1 and fig. 2, the cable winding apparatus specially used for electric power transmission cable construction erection comprises a placing assembly 1, the placing assembly 1 comprises a moving box 101, a winding assembly 4 is arranged in the moving box 101, a driving assembly 6 is arranged on the moving box 101, the driving assembly 6 is connected with the winding assembly 4, a traction assembly 3 is arranged in the moving box 101, a cable is connected between the traction assembly 3 and the winding assembly 4, the traction assembly 3 is connected with a reciprocating assembly 2 movably arranged in the moving box 101, the reciprocating assembly 2 comprises a first rotating rod 202 rotatably arranged in the moving box 101 and a first guide rod 201 fixedly arranged in the moving box 101, one end of the first rotating rod 202 penetrates through the moving box 101 and is connected with the driving assembly 6, a first sliding strip 203 is arranged on the first rotating rod 202, first bull stick 202 is through first draw runner 203 and removal worm 204 sliding connection, it is equipped with the removal seat 205 to slide on the first guide arm 201, the removal seat 205 one end that is close to first bull stick 202 is equipped with the shifting chute 206 with removal worm 204 looks adaptation, it is equipped with the movable rod 207 to rotate on the removal seat 205, install on the movable rod 207 and remove worm 204 engaged with worm wheel 208, the one end that the removal seat 205 was kept away from to the movable rod 207 is connected with first link 209, the one end that the movable rod 207 was kept away from to first link 209 is provided with first spliced pole 210, be equipped with second spliced pole 212 in the removal case 101, swing joint has second connecting rod 211 between first spliced pole 210 and the second spliced pole 212.

In this embodiment, the cable can be rapidly wound by matching the traction assembly 3 and the winding assembly 4, so as to meet the requirements of traction and winding for cables with different calibers, the driving assembly 6 drives the first rotating rod 202 to rotate, the first rotating rod 202 drives the movable worm 204 to rotate through the first slide bar 203, the movable worm 204 drives the movable rod 207 to rotate through meshing with the worm wheel 208, the movable rod 207 drives the first connecting rod 209 to synchronously rotate, the first connecting rod 209 drives the second connecting rod 211 to reciprocally swing around the second connecting rod 212 through the movable connection between the first connecting rod 210 and the second connecting rod 211, the first connecting rod 209 rotates around the first connecting rod 210, the first connecting rod 209 drives the movable seat 205 to reciprocally move on the first guide rod 201 through the movable rod 207, the movable seat 205 drives the movable groove 206 to move, the movable groove 206 fixes the meshing connection between the movable worm 204 and the worm wheel 208 through driving the movable worm 204 to synchronously move, the moving seat 205 drives the traction assembly 3 to reciprocate, and the traction assembly 3 uniformly winds the cable in a manner of driving the cable to reciprocate.

In one embodiment of the present invention, referring to fig. 1 and 3, the traction assembly 3 includes a traction box 301, the traction box 301 is mounted on the moving seat 205, and a connecting plate 304 is movably arranged in the traction box 301; the lifting plate 302 is movably arranged on the outer side of the traction box 301, one side of the lifting plate 302 is connected with a supporting rod 303, and one end of the supporting rod 303 penetrates through the traction box 301 and is connected with a connecting plate 304; the traction rollers 305 are symmetrically arranged on one side, close to each other, of the traction box 301 and the lifting plate 302; the sliding rod 310 is arranged in the traction box 301, a sliding block 309 is arranged on the sliding rod 310 in a sliding manner, and a spring 311 is connected between the sliding block 309 and the traction box 301; the rotating cam 306 is movably arranged in the traction box 301 and is positioned between the lifting plate 302 and the connecting plate 304, the outer end of the rotating cam 306 is connected with the connecting plate 304 in a sliding manner, and the outer end of the rotating cam 306 is provided with a third connecting column 307; one end of the third connecting rod 308 is movably connected with the third connecting column 307, and the other end of the third connecting rod 308 is movably connected with the sliding block 309.

In this embodiment, at the initial position, the link plate 304 is at the lowest position and the spring 311 is at the original length, when the cable needs to be pulled, the lifting plate 302 is pulled upwards, the distance between the symmetrically arranged pulling rollers 305 increases, the lifting plate 302 drives the link plate 304 to move upwards through the support rod 303, the link plate 304 drives the rotating cam 306 to rotate, the rotating cam 306 drives the sliders 309 to approach the inner wall of the pulling box 301 through the movable connection between the third connecting post 307 and the third connecting rod 308, the symmetrically arranged sliders 309 are away from each other, the spring 311 is stressed to contract, the cable is placed between the symmetrically arranged pulling rollers 305, the lifting plate 302 is released, the spring 311 restores the original length and pushes the symmetrically arranged sliders 309 to approach each other, the sliders 309 drives the rotating cam 306 to reversely rotate through the movable connection between the third connecting rod 308 and the third connecting post 307, the rotating cam 306 drives the link plate 304 to move downwards, even board 304 passes through bracing piece 303 and drives lifter plate 302 and move down to reduce the distance between the traction roller 305 that the symmetry set up, can effectively fasten the cable, satisfy the cable of different bores and pull the demand, improve the suitability of device.

In one embodiment of the present invention, referring to fig. 1, 4 and 5, the rolling assembly 4 comprises a support plate 401, and the support plate 401 is symmetrically arranged on the inner wall of the moving box 101; the winding drum 402 is movably placed on the supporting plate 401, and a plurality of limiting holes 403 are formed in two sides of the winding drum 402; the movable plates 404 are symmetrically and movably arranged in the movable box 101, the movable plates 404 are respectively located on two sides of the winding drum 402, and a plurality of limiting columns 405 matched with the limiting holes 403 are arranged at one end, close to the winding drum 402, of each movable plate 404.

An adjusting component 5 is arranged in the movable box 101, and the adjusting component 5 is connected with the winding component 4.

The adjusting assembly 5 comprises a second guide rod 501, the second guide rod 501 is arranged in the moving box 101, an adjusting gear 503 is movably arranged on the second guide rod 501, and the adjusting gear 503 is connected with an adjusting motor 502; the adjusting plate 505 is symmetrically and slidably arranged on the second guide rod 501; the ring groove 507 is formed in the outer end of the moving plate 404, a clamping plate 506 is arranged in the ring groove 507 in a sliding mode, and the clamping plate 506 is connected with the adjusting plate 505; and the adjusting racks 504 are provided with two adjusting plates 505 which are respectively connected with the two sides, and the adjusting racks 504 are distributed on the two sides of the adjusting gear 503 and are meshed with the adjusting gear 503.

In this embodiment, at an initial position, the moving plates 404 symmetrically disposed are far away from each other, the winding drum 402 is placed on the supporting plate 401, the adjusting motor 502 drives the adjusting gear 503 to rotate clockwise, the adjusting gear 503 drives the adjusting rack 504 to move in a manner of gear-rack engagement, the adjusting rack 504 drives the adjusting plates 505 symmetrically disposed to approach each other, the adjusting plates 505 drive the moving plate 404 to approach the winding drum 402 through sliding connection between the clamping plate 506 and the ring groove 507, the limiting posts 405 on the moving plate 404 are adapted to the limiting holes 403 on the winding drum 402, so as to achieve synchronous rotation between the moving plate 404 and the winding drum 402, the driving assembly 6 drives the moving plate 404 to rotate, the moving plate 404 drives the winding drum 402 to synchronously rotate through matching connection between the limiting posts 405 and the limiting holes 403, thereby winding and winding the cable, wherein reinforcing ribs are disposed between the supporting plate 401 and the moving box 101, the supporting plate 401 is provided with a placing groove matched with the winding drum 402.

In one embodiment of the present invention, referring to fig. 1, the driving assembly 6 includes a second rotating rod 601, the second rotating rod 601 is movably disposed in the moving box 101, a second sliding bar 610 is disposed on the second rotating rod 601, the second rotating rod 601 is slidably connected to the moving plate 404 through the second sliding bar 610, and one end of the second rotating rod 601 penetrates through the moving box 101 and is connected to the first gear 602; the fourth connecting rod 605 is movably arranged in the moving box 101, two ends of the fourth connecting rod 605 respectively penetrate through the moving box 101 and are connected with the second gear 604, and a first chain gear 603 is connected between the first gear 602 and the second gear 604; a third gear 607, wherein the third gear 607 is arranged on the second rotating rod 601; a fourth gear 609, wherein the fourth gear 609 is arranged on the first rotating rod 202, and a second chain 608 is connected between the third gear 607 and the fourth gear 609; and the output end of the driving motor 606 is connected with the second rotating rod 601.

In this embodiment, the driving motor 606 drives the second rotating rod 601 to rotate, the second rotating rod 601 can drive the moving plate 404 to rotate through the cooperation between the first gear 602, the second gear 604, the first chain 603 and the fourth connecting rod 605, thereby realizing the rotation of the winding drum 402, and can effectively wind and wind the cable, meanwhile, the second rotating rod 601 drives the first rotating rod 202 to rotate through the cooperation between the third gear 607, the fourth gear 609 and the second chain 608, and can drive the cable to reciprocate, thereby realizing the uniform winding of the cable.

In one embodiment of the present invention, referring to fig. 1, the placing assembly 1 further comprises a wire inlet 102, wherein the wire inlet 102 is disposed on a side wall of the movable box 101; the base 103 is positioned at the bottom of the movable box 101, and one side of the base 103, which is far away from the movable box 101, is provided with a plurality of movable wheels 104; the push plate 105, the push plate 105 is arranged at one end of the base 103, and the push plate 105 is connected with the driving motor 606.

In this embodiment, the base 103 and the moving wheel 104 can flexibly move the position of the device, so as to meet the use requirements of different positions.

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 (7)

1. A special cable winding device for construction and erection of electric power transmission cables comprises a placement component, wherein the placement component comprises a moving box, a winding component is arranged in the moving box, a driving component is arranged on the moving box and connected with the winding component, and the special cable winding device is characterized in that a traction component is arranged in the moving box, a cable is connected between the traction component and the winding component, the traction component is connected with a reciprocating component movably arranged in the moving box, the reciprocating component comprises a first rotating rod rotatably arranged in the moving box and a first guide rod fixedly arranged in the moving box, one end of the first rotating rod penetrates through the moving box and is connected with the driving component, a first sliding strip is arranged on the first rotating rod, the first rotating rod is in sliding connection with a moving worm through the first sliding strip, and a moving seat is arranged on the first guide rod in a sliding manner, the movable box is characterized in that a movable groove matched with a movable worm is formed in one end, close to the first rotating rod, of the movable seat, a movable rod is rotatably arranged on the movable seat, a worm wheel meshed with the movable worm is mounted on the movable rod, one end, far away from the movable seat, of the movable rod is connected with a first connecting rod, one end, far away from the movable rod, of the first connecting rod is provided with a first connecting column, a second connecting column is arranged in the movable box, a second connecting rod is movably connected between the first connecting column and the second connecting column, the driving assembly drives the first rotating rod to rotate, the first rotating rod drives the movable worm to rotate through a first sliding strip, the movable worm drives the movable rod to rotate through a mode meshed with the worm wheel, the movable rod drives the first connecting rod to synchronously rotate, the first connecting rod drives the second connecting rod to reciprocate around the second connecting column through movable connection between the first connecting rod and the second connecting rod, and drives the first connecting rod to rotate around the first connecting column, first connecting rod passes through the movable rod and drives the removal seat reciprocating motion on first guide arm, removes the seat and drives the shifting chute removal, and the shifting chute is connected through the meshing between the fixed mobile worm of the mode that drives mobile worm synchronous motion and the worm wheel, removes the seat and drives and pull subassembly reciprocating motion, and the mode that pulls the subassembly through driving cable reciprocating motion carries out even rolling to the cable.

2. The power transmission cable construction erection dedicated cable winding apparatus of claim 1, wherein said pulling assembly comprises:

the traction box is arranged on the moving seat, and a connecting plate is movably arranged in the traction box;

the lifting plate is movably arranged on the outer side of the traction box, one side of the lifting plate is connected with a supporting rod, and one end of the supporting rod penetrates through the traction box and is connected with the connecting plate;

the traction rollers are symmetrically arranged on one sides of the traction box and the lifting plate, which are close to each other;

the sliding rod is arranged in the traction box, a sliding block is arranged on the sliding rod in a sliding mode, and a spring is connected between the sliding block and the traction box;

the rotating cam is movably arranged in the traction box and is positioned between the lifting plate and the connecting plate, the outer end of the rotating cam is connected with the connecting plate in a sliding manner, and a third connecting column is arranged at the outer end of the rotating cam;

and one end of the third connecting rod is movably connected with the third connecting column, and the other end of the third connecting rod is movably connected with the sliding block.

3. The special cable winding equipment for construction erection of electric power transmission cables as claimed in claim 1, wherein said winding assembly comprises:

the supporting plates are symmetrically arranged on the inner wall of the movable box;

the winding drum is movably arranged on the supporting plate, and a plurality of limiting holes are formed in two sides of the winding drum;

the movable plate is symmetrically and movably arranged in the movable box, the movable plate is respectively positioned on two sides of the winding drum, and a plurality of limiting columns matched with the limiting holes are arranged at one end, close to the winding drum, of the movable plate.

4. The special cable winding equipment for construction and erection of electric power transmission cables as claimed in claim 3, wherein an adjusting assembly is arranged in the moving box, and the adjusting assembly is connected with the winding assembly.

5. The electric power transmission cable construction erection dedicated cable winding apparatus of claim 4, wherein said adjustment assembly comprises:

the second guide rod is arranged in the movable box, an adjusting gear is movably arranged on the second guide rod, and the adjusting gear is connected with an adjusting motor;

the adjusting plates are symmetrically arranged on the second guide rod in a sliding manner;

the ring groove is arranged at the outer end of the moving plate, and a clamping plate is arranged in the ring groove in a sliding manner and connected with the adjusting plate;

the adjusting gear rack is provided with two adjusting plates which are respectively connected with the two sides, and the adjusting gear racks are distributed on the two sides of the adjusting gear and meshed with the adjusting gear.

6. The power transmission cable construction erection dedicated cable winding apparatus of claim 5, wherein said drive assembly comprises:

the second rotating rod is movably arranged in the moving box, a second sliding strip is arranged on the second rotating rod, the second rotating rod is connected with the moving plate in a sliding mode through the second sliding strip, and one end of the second rotating rod penetrates through the moving box and is connected with the first gear;

the fourth connecting rod is movably arranged in the moving box, two ends of the fourth connecting rod respectively penetrate through the moving box and are connected with the second gear, and the first gear chain is connected between the first gear and the second gear;

the third gear is arranged on the second rotating rod;

the fourth gear is arranged on the first rotating rod, and a second chain is connected between the third gear and the fourth gear;

and the output end of the driving motor is connected with the second rotating rod.

7. The electric power transmission cable construction erection dedicated cable winding apparatus of claim 6, wherein said placement assembly further comprises:

the wire inlet is arranged on the side wall of the movable box;

the base is positioned at the bottom of the movable box, and a plurality of movable wheels are arranged on one side of the base, which is far away from the movable box;

the push plate is arranged at one end of the base and is connected with the driving motor.

Images