CN117728319B - Device for installing cable - Google Patents

Abstract

The invention discloses a device for installing cables, which comprises a supporting frame, a lifting frame and a clamping frame; a lifting frame is arranged in the supporting frame; clamping frames are arranged on the front side and the rear side of the lifting frame; two first driving rollers and a second driving roller are respectively arranged on the side plates at the front end and the rear end of the lifting frame; the clamping piece is installed to the lower extreme of clamping frame to accessible rotation motor control clamping piece is to be laid the cable centre gripping and is removed, and will wait to lay the cable and remove to the central point of two first driving rollers and a second driving roller, thereby reduced the wearing and tearing of two first driving rollers, increased life.

Description

Device for installing cable

Technical Field

The invention relates to the technical field of cable installation, in particular to a device for installing a cable.

Background

The electric wire and the cable are made of one or more conductors which are insulated from each other and an outer insulating protective layer, and electric power or information is transmitted from one place to the other place through the conductors; in addition, when the cable is pulled manually, the outer skin of the cable is rubbed with the ground, the surface layer of the cable is damaged, the surface layer is an insulating layer, and the insulating effect is reduced after the damage.

The Chinese patent publication No. CN115663727B discloses a tightness adjusting device for installation of wires and cables, which comprises a mounting frame, two supporting devices correspondingly arranged on two sides of the mounting frame, two lateral conduction devices correspondingly arranged on two sides of the mounting frame, and a jacking conduction device arranged on the mounting frame; the lateral conduction device comprises an angle adjusting arm arranged on the mounting frame, a first mounting seat arranged on the angle adjusting arm and a conduction assembly arranged on the first mounting seat; the angle adjusting arm drives the mounting seat to move so that the angle between the conduction assembly and the angle adjusting arm is increased or decreased; the jacking and conducting device is arranged right above a gap between the two conducting components, the two conducting components support the outer peripheral surfaces of two sides of the bottom of the cable, and the jacking and conducting device abuts against the outer peripheral surface of the top of the cable; the two conductive components are opposite to the two contact surfaces of the cable and are of a V-shaped structure, a gap between the bottoms of the two conductive components is a cable inlet, the cable can be installed into the tightness adjusting device by lifting the cable by a small height, time and labor are saved, and the cable laying efficiency can be effectively improved.

The problem that traditional cable laying exists has been fine solved to above-mentioned scheme, but its transportation inconvenience only can grasp the transport through the manual work, and its use a plurality of driving motor to equipment control, has increased electric power cost and control cost to it lifts up the cable from ground through two conductive component rotations, can make the focus of cable be located the lower extreme position of two conductive components, can accelerate conductive component's wearing and tearing, thereby reduces its life.

Disclosure of Invention

The technical problems to be solved are as follows:

aiming at the defects of the prior art, the invention provides a device for installing a cable, which can lift the cable to the central positions of two first driving rollers and two second driving rollers through a clamping frame, thereby reducing the abrasion of the two first driving rollers, prolonging the service life of the two first driving rollers and solving the technical problems mentioned in the background art.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

A device for installing cables comprises a supporting frame, a lifting frame and a clamping frame; the lifting frame is arranged in the supporting frame; clamping frames are arranged at the front end and the rear end of the lifting frame; a driving motor is fixedly arranged at the lower end of the middle part of the top plate of the supporting frame; the driving motor drives the lifting frame and the clamping frame to lift; a plurality of driving rollers are respectively arranged on the front side and the rear side of the lifting frame; the plurality of driving rollers are used for lifting and supporting the cable.

In one possible implementation, the plurality of driven rollers includes a first driven roller and a second driven roller.

In one possible implementation manner, a driving motor is fixedly arranged at the lower end of the middle part of the top plate of the support frame, and the driving motor is a motor with double output ends; the lower end output end of the driving motor is fixedly provided with a first driving rod, and threads are arranged on the first driving rod; the upper end output end of the driving motor penetrates through the top plate of the support frame and is fixedly provided with a first gear; the periphery of the first gear is synchronously rotatably installed with the middle part of the first belt; the front end and the rear end of the first belt are respectively and synchronously rotatably installed with two second gears on one side of the first belt; the two second gears are respectively rotatably arranged on the first mounting plate at one side of the second gears; the two first mounting plates are fixedly arranged at the front end and the rear end of the top plate of the support frame; the lower ends of the two second gears penetrate through the first mounting plate on one side of the second gears and are fixedly provided with a bidirectional threaded rod, the bidirectional threaded rod is provided with bidirectional threads, and the thread pitch of the bidirectional threaded rod is larger than that of the first driving rod; the clamping frame is driven to lift by the bidirectional threaded rod.

In one possible implementation manner, a first control groove is formed in the middle of the lifting frame, a thread groove is formed in the lifting frame, and the lifting frame is matched with threads on the outer side of the first driving rod; control motors are fixedly arranged on the left sides above the front end and the rear end of the lifting frame top plate; the output ends of the left side and the right side of the two control motors are fixedly provided with second driving rods; the four second driving rods are respectively rotatably arranged on the corresponding second mounting plates; one ends of the four second driving rods, which are far away from the corresponding control motors, respectively penetrate through the corresponding second mounting plates and are fixedly provided with third gears; the peripheries of the four third gears are respectively and synchronously rotatably installed with the upper ends of the corresponding second belts; the lower ends of the four second belts are respectively and synchronously rotatably installed with the corresponding fourth gears; the four first control rods are fixedly arranged on one sides of the fourth gears, which are close to the corresponding control motors, and are provided with threads, and the directions of the threads on the two first control rods positioned on the same front side and the same rear side of the lifting frame are opposite;

The four first control rods are respectively rotatably arranged on the third mounting plates corresponding to the first control rods; the four first control rods are provided with first sliding parts in a threaded manner, and the four first sliding parts are slidably arranged on the side walls of the front end and the rear end of the lifting frame on one side of the first sliding parts; one ends of the four first sliding parts far away from the first control groove penetrate through the side walls of the front end and the rear end of the lifting frame at one side of the first sliding parts and are fixedly provided with first installation parts; the four first installation pieces are respectively provided with a first driving roller in a rotating way, and the two first driving rollers positioned on the same side of the front side and the rear side of the lifting frame are oppositely arranged.

In one possible implementation manner, a first bevel gear is fixedly arranged on the second driving rod at the right output end of the two control motors; the lower ends of the two first bevel gears are respectively meshed with a second bevel gear; the lower ends of the two second bevel gears penetrate through the top plate of the lifting frame and are fixedly provided with second control rods, and the peripheries of the two second control rods are provided with threads; the lower ends of the two second control rods are respectively and rotatably arranged on the corresponding fourth mounting plates, and the two fourth mounting plates are fixedly arranged on the side plates at the front end and the rear end of the lifting frame; the two second control rods are provided with second sliding parts in a threaded fit manner, and the second sliding parts are slidably arranged on the side plates at the front end and the rear end of the lifting frame; the two second sliding parts penetrate through the front end side plates and the rear end side plates of the corresponding lifting frame and are fixedly provided with second installation parts; and the two second mounting pieces are rotatably provided with second driving rollers.

In one possible implementation manner, first sliding grooves are formed in the front side and the rear side of the side walls at the left end and the right end of the support frame; the left end and the right end of the lifting frame top plate are fixedly provided with first sliding parts on the front side and the rear side, and the four first sliding parts are respectively vertically and slidably installed with corresponding first sliding grooves on the supporting frame.

In one possible implementation manner, universal wheels are mounted at four corners of the lower end of the support frame.

In one possible implementation manner, a lifting rod is fixedly arranged above the front end of the middle part of the top plate of the clamping frame; the lifting rod is internally provided with a second control groove, and the second control groove is internally provided with a bidirectional thread groove and is matched with the bidirectional thread on the bidirectional threaded rod; a rotating motor is fixedly arranged below the rear end of the middle part of the top plate of the clamping frame, and the rotating motor is a double-output-shaft motor; third driving rods are fixedly arranged at the output ends of the left side and the right side of the rotating motor; the two third driving rods penetrate through the side walls of the left end and the right end of the clamping frame and are fixedly provided with fifth gears; the two fifth gears are respectively and synchronously rotatably installed with the upper ends of the corresponding third belts; the lower ends of the two third belts are respectively and synchronously rotatably installed with the corresponding sixth gears, and the two sixth gears are respectively and rotatably installed on the side walls of the left end and the right end of the clamping frame; the two sixth gears are internally provided with third control rods in a threaded fit manner, and the two third control rods respectively penetrate through the side walls of the clamping frames at one side of the two third control rods and are fixedly provided with clamping pieces; and limiting parts are fixedly arranged at the lower ends of the two clamping parts, which are far away from each other.

In one possible implementation manner, the front end and the rear end of the side plates at the left end and the right end of the support frame are respectively provided with a second sliding groove; the left side and the right side of the rear end of the clamping frame are fixedly provided with second sliding parts, and the two second sliding parts are respectively vertically and slidably arranged in the corresponding second sliding grooves.

In one possible implementation, both of the clamping members have an arcuate surface, and the arcuate surface is composed of an elastic material having a relatively high surface friction coefficient.

Compared with the prior art, the beneficial effects are that:

The invention can be conveniently pushed manually by the universal wheels arranged at the four corners of the support frame during transportation, and can control the lifting frame to fall down when a cable is laid, thereby limiting the whole device and ensuring the stability of the whole device.

The invention can drive the clamping plate to descend while descending the lifting frame, clamp the cable to be laid through the clamping piece, and move the cable to the middle position of the two first driving rollers and the second driving rollers after clamping is completed, thereby reducing the abrasion of the two first driving rollers and prolonging the service life of the cable.

According to the invention, the tightness of the cable can be adjusted through the clamping piece, and an additional device is not needed, so that the electric cost and the control cost of the whole device are reduced.

According to the invention, the installed cable is close to the ground through the movement of the lifting frame, so that the bending degree in the cable transmission process is small, the cable can be transmitted more stably, and the damage to the cable is small.

Drawings

The foregoing description is only an overview of the present invention, and is intended to provide a better understanding of the present invention, as it is embodied in the following description, with reference to the preferred embodiments of the present invention and the accompanying drawings.

FIG. 1 is a schematic view of the overall device structure of the present invention;

FIG. 2 is an exploded view of the overall device structure of the present invention;

FIG. 3 is a schematic view of a first view angle lower support frame according to the present invention;

FIG. 4 is a schematic view of a second view angle lower support frame according to the present invention;

FIG. 5 is a schematic view of a first view of the lift structure according to the present invention;

FIG. 6 is a schematic view of a second view of the lift structure according to the present invention;

Fig. 7 is a schematic view of a clamping frame according to the present invention.

Legend description: 100. a support frame; 101. a first sliding groove; 102. a second sliding groove; 110. a driving motor; 111. a first driving lever; 112. a first gear; 113. a first belt; 114. a second gear; 115. a first mounting plate; 116. a two-way threaded rod; 200. a lifting frame; 201. a first control slot; 202. a first sliding portion; 210. controlling a motor; 211. a second driving lever; 212. a second mounting plate; 213. a third gear; 214. a second belt; 215. a fourth gear; 216. a first control lever; 217. a third mounting plate; 218. a first slider; 219. a first mounting member; 220. a first driving roller; 230. a first bevel gear; 231. a second bevel gear; 232. a second control lever; 233. a fourth mounting plate; 234. a second slider; 235. a second mounting member; 240. a second driving roller; 300. a clamping frame; 301. a second sliding part; 310. a lifting rod; 311. a second control slot; 320. a rotating motor; 321. a third driving lever; 322. a fifth gear; 323. a third belt; 324. a sixth gear; 325. a third control lever; 326. a clamping member; 327. and a limiting piece.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention may be embodied in various forms, and thus the present invention is not limited to the embodiments described below, and in addition, components not connected to the present invention will be omitted from the drawings for the sake of more clarity of description of the present invention;

the technical scheme in the embodiment of the application aims to solve the problems of the background technology, and the general thought is as follows:

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention may be embodied in various forms, and thus the present invention is not limited to the embodiments described below, and in addition, components not connected to the present invention will be omitted from the drawings for the sake of more clarity of description of the present invention;

As shown in fig. 1 and 2, an apparatus for installing a cable includes: a supporting frame 100, a lifting frame 200 and a clamping frame 300; universal wheels are arranged at four corners of the lower end of the support frame 100 so as to facilitate the movement of the whole device; the lifting frame 200 is installed inside the supporting frame 100; clamping frames 300 are arranged at the front end and the rear end of the lifting frame 200;

As shown in fig. 1-4, the front and rear sides of the side walls at the left and right ends of the support 100 are provided with first sliding grooves 101; the front end and the rear end of the side plates at the left end and the right end of the supporting frame 100 are respectively provided with a second sliding groove 102; a driving motor 110 is fixedly arranged at the lower end of the middle part of the top plate of the supporting frame 100, and the driving motor 110 is a motor with double output ends; the lower end output end of the driving motor 110 is fixedly provided with a first driving rod 111, and the first driving rod 111 is provided with threads; the upper output end of the driving motor 110 passes through the top plate of the supporting frame 100 and is fixedly provided with a first gear 112; the periphery of the first gear 112 is rotatably installed in synchronization with the middle part of the first belt 113; the front end and the rear end of the first belt 113 are respectively and synchronously rotatably installed with two second gears 114 on one side of the first belt 113, namely when the first gear 112 rotates, the first belt 113 drives the two second gears 114 to synchronously rotate;

Two second gears 114 are rotatably mounted on a first mounting plate 115 at one side thereof, respectively; the two first mounting plates 115 are fixedly arranged at the front end and the rear end of the top plate of the support frame 100; the lower ends of the two second gears 114 penetrate through a first mounting plate 115 at one side of the second gears and are fixedly provided with a bidirectional threaded rod 116, the bidirectional threaded rod 116 is provided with bidirectional threads, and the thread pitch of the bidirectional threaded rod is larger than that of the first driving rod 111;

as shown in fig. 5-6, the middle part of the lifting frame 200 is provided with a first control groove 201, and the inside of the lifting frame is provided with a thread groove, and the first control groove is mounted in cooperation with the thread on the outer side of the first driving rod 111, so that the lifting of the lifting frame 200 can be controlled by the rotation of the first driving rod 111;

The front side and the rear side of the left end and the right end of the top plate of the lifting frame 200 are fixedly provided with first sliding parts 202, and the four first sliding parts 202 are respectively vertically and slidably arranged with the corresponding first sliding grooves 101 on the supporting frame 100, namely the lifting frame 200 can vertically slide relative to the supporting frame 100; the left sides above the front end and the rear end of the top plate of the lifting frame 200 are fixedly provided with control motors 210, and the two control motors 210 are double-output-end motors; the output ends of the left side and the right side of the two control motors 210 are fixedly provided with second driving rods 211; the four second driving rods 211 are respectively rotatably mounted on the corresponding second mounting plates 212; the four second mounting plates 212 are respectively and fixedly arranged at four corners of the upper end of the top plate of the lifting frame 200; one ends of the four second driving rods 211, which are far away from the corresponding control motors 210, respectively penetrate through the corresponding second mounting plates 212 and are fixedly provided with third gears 213; the peripheries of the four third gears 213 are respectively and synchronously rotatably installed with the upper ends of the corresponding second belts 214; the lower ends of the four second belts 214 are respectively and synchronously rotatably installed with the corresponding fourth gears 215, namely when the third gears 213 rotate, the fourth gears 215 are driven to synchronously rotate by the second belts 214;

The four fourth gears 215 are fixedly provided with first control rods 216 at one side close to the corresponding control motor 210, threads are arranged on the four first control rods 216, and the directions of the threads on the two first control rods 216 positioned at the same front side and the same rear side of the lifting frame 200 are opposite;

The four first control rods 216 are respectively rotatably mounted on the corresponding third mounting plates 217;

The four third mounting plates 217 are respectively and fixedly arranged on the side walls of the front end and the rear end of the lifting frame 200 at one side of the third mounting plates; the four first control rods 216 are respectively provided with a first sliding member 218 in a threaded manner, and the four first sliding members 218 are slidably mounted on the front and rear end side walls of the lifting frame 200 on one side thereof, that is, when the four first control rods 216 rotate, the two first sliding members 218 on the same front and rear side of the lifting frame 200 can be controlled to horizontally move in opposite directions;

the four first sliding members 218 are disposed at the ends far from the first control slot 201 and penetrate through the side walls of the front and rear ends of the lifting frame 200 at one side thereof, and are fixedly provided with first mounting members 219; the four first mounting pieces 219 are rotatably provided with first driving rollers 220, and the two first driving rollers 220 positioned on the same front and rear sides of the lifting frame 200 are oppositely arranged, so that limit support can be provided for the cable and the cable can be conveniently moved;

a first bevel gear 230 is fixedly arranged on the second driving rod 211 at the right output end of the two control motors 210;

the lower ends of the two first bevel gears 230 are engaged with a second bevel gear 231;

the lower ends of the two second bevel gears 231 penetrate through the top plate of the lifting frame 200 and are fixedly provided with second control rods 232, and the peripheries of the two second control rods 232 are provided with threads;

The lower ends of the two second control rods 232 are respectively rotatably mounted on the corresponding fourth mounting plates 233, and the two fourth mounting plates 233 are fixedly arranged on the side plates at the front end and the rear end of the lifting frame 200;

The second control rods 232 are respectively provided with a second sliding piece 234 in a threaded fit manner, and the second sliding pieces 234 are slidably arranged on the side plates at the front end and the rear end of the lifting frame 200, namely, the rotation of the two second control rods 232 can control the corresponding second sliding pieces 234 to vertically move;

Two second sliding members 234 pass through the front and rear end side plates of the corresponding lifting frame 200 and are fixedly provided with second mounting members 235;

A second driving roller 240 is rotatably mounted on both the second mounting members 235, so as to limit and support the cable and facilitate movement thereof;

As shown in fig. 3 and 7, the left and right sides of the rear end of the clamping frame (300) are fixedly provided with second sliding parts (301), and the two second sliding parts (301) are respectively vertically and slidably mounted in the corresponding second sliding grooves (102), that is, the clamping frame 300 can vertically move relative to the supporting frame 100; lifting rods (310) are fixedly arranged above the front end of the middle part of the top plate of the clamping frame (300);

A second control groove (311) is formed in the lifting rod (310), and a bidirectional thread groove is formed in the second control groove (311) and matched with the bidirectional thread on the bidirectional threaded rod (116), namely, when the bidirectional threaded rod (116) rotates, the second control groove (311) is controlled to reciprocate up and down;

a rotating motor (320) is fixedly arranged below the rear end of the middle part of the top plate of the clamping frame (300), and the rotating motor (320) is a double-output-shaft motor;

Third driving rods (321) are fixedly arranged at the output ends of the left side and the right side of the rotating motor (320);

the two third driving rods (321) penetrate through the side walls of the left end and the right end of the clamping frame (300) and are fixedly provided with fifth gears (322);

The two fifth gears (322) are respectively and synchronously rotatably installed with the upper ends of the corresponding third belts (323); the lower ends of the two third belts (323) are respectively and synchronously rotatably installed with the corresponding sixth gears (324), the two sixth gears (324) are respectively and rotatably installed on the side walls of the left end and the right end of the clamping frame (300), and the rotation of the two fifth gears 322 can drive the corresponding sixth gears 324 to synchronously rotate through the corresponding third belts 323;

The third control rods (325) are mounted in the two sixth gears (324) in a threaded fit manner, and the threaded fit directions between the sixth gears and the third control rods 325 on the left side and the right side of the clamping frame 300 are opposite, namely when the two sixth gears 324 rotate, the two third control rods 325 are controlled to move in opposite directions, and the two third control rods (325) respectively penetrate through the side walls of the clamping frame (300) on one side of the clamping frame and are fixedly provided with clamping pieces (326); both clamping members (326) are provided with arc-shaped surfaces, and the arc-shaped surfaces are made of elastic materials with high surface friction coefficients; and limiting pieces (327) are fixedly arranged at the lower ends of the two clamping pieces (326) far away from each other, and the limiting pieces (327) can horizontally slide relative to the side walls at the left end and the right end of the corresponding clamping frame (300) so as to limit the movement of the third control rod 325.

Working principle:

When the cable needs to be laid: the support frame 100 is manually moved to the upper end of the cable, the cable is positioned at the lower ends of the two second driving rollers 240, the first driving rod 111 and the first gear 112 are controlled to rotate by the driving motor 110, so that the lifting frame 200 descends along the first sliding groove 101 through the threaded fit of the first driving rod 111 and the first control groove 201, and when the first gear 112 rotates, the two second gears 114 are driven to rotate by the first belt 113, so that the bidirectional threaded rods 116 at the lower ends of the two second gears 114 are driven to rotate, the two clamping frames 300 are both downwards moved through the threaded fit of the two bidirectional threaded rods 116 and the corresponding second control grooves 311 until the four clamping pieces 326 are all contacted with the ground, at the moment, the two bidirectional threaded rods 116 are positioned at the top ends of the corresponding second control grooves 311, then the driving motor 110 stops working, and the third driving rods 321 at the two sides of the bidirectional threaded rods 116 are controlled to rotate by the two rotating motors 320, thereby driving the fifth gear 322 to rotate and driving the sixth gear 324 to rotate through the third belt 323, thereby driving the two clamping members 326 positioned at the same side to move towards each other through the screw thread fit between the sixth gear 324 and the third control rod 325 inside the sixth gear until the two clamping members 326 positioned at the same side are contacted with the cable to be laid, then controlling the driving motor 110 to continue to operate so as to control the lifting frame 200 to continuously descend, simultaneously, the continued rotation of the two bidirectional threaded rods 116 drives the two clamping frames 300 to move upwards, thereby driving the cable to be laid to move upwards until the axial center position of the cable to be laid coincides with the center position of the two first driving rollers 220 and the second driving rollers 240 positioned at the same side, then stopping the driving motor 110, then controlling the second driving rods 211 at both sides of the driving motor 210 to rotate, thereby drive the third gear 213 to rotate, and drive the fourth gear 215 through the second belt 214 to rotate, thereby control the first control rod 216 to rotate, and through the screw thread cooperation of first control rod 216 and first slider 218, thereby drive first slider 218 to be laid cable direction remove, so as to drive first mounting piece 219 and first driving roller 220 synchronous movement, until two first driving rollers 220 of same side all support with the cable to be laid, and when two second actuating levers 211 rotate, first bevel gear 230 on it can drive the second bevel gear 231 to rotate, thereby drive second control rod 232 to rotate, and through the screw thread cooperation of second control rod 232 and second slider 234, make second slider 234, second mounting piece 235, second driving roller 240 down move, until second driving roller 240 all supports with the cable to be laid, then control motor 210 stops working and controls two rotation motors 320 to reverse, make two clamping pieces 326 of same side break away from the cable to be laid, and then continue to drive first gear frame 111 through driving motor 110 and first gear 326, so as to rotate with the first clamping frame 200, and can not move to the top end of the clamping piece to the same degree of freedom of rotation, and can be adjusted through the screw thread cooperation of the clamping frame 200, and can be satisfied with the two-way rotation of clamping device, and the top end of the clamping frame 200 can be moved down through the screw thread cooperation of the clamping frame, and the clamping device is reached through the screw thread cooperation of the first clamping piece 326, and can be moved down through the clamping frame of the clamping piece to the top end of the clamping piece to the clamping device to the top end of the two-way can be moved down, and the clamping device is required to the top to the clamping device to move.

When the cable is finished laying: the above steps are reversed.

Claims (5)

1. The device for installing the cable comprises a supporting frame (100), a lifting frame (200) and a clamping frame (300); the method is characterized in that: the lifting frame (200) is arranged in the supporting frame (100); clamping frames (300) are arranged at the front end and the rear end of the lifting frame (200); a driving motor (110) is fixedly arranged at the lower end of the middle part of the top plate of the supporting frame (100); the driving motor (110) drives the lifting frame (200) and the clamping frame (300) to lift; a plurality of driving rollers are respectively arranged on the front side and the rear side of the lifting frame (200); the plurality of driving rollers are used for lifting and supporting the cable;

The plurality of driving rollers includes a first driving roller (220) and a second driving roller (240);

A driving motor (110) is fixedly arranged at the lower end of the middle part of the top plate of the supporting frame (100), and the driving motor (110) is a motor with double output ends; the lower end output end of the driving motor (110) is fixedly provided with a first driving rod (111), and threads are arranged on the first driving rod (111); the upper end output end of the driving motor (110) penetrates through the top plate of the supporting frame (100) and is fixedly provided with a first gear (112); the periphery of the first gear (112) is rotationally installed synchronously with the middle part of the first belt (113); the front end and the rear end of the first belt (113) are respectively and synchronously rotatably installed with two second gears (114) on one side of the first belt; two second gears (114) are respectively rotatably mounted on a first mounting plate (115) at one side of the second gears; the two first mounting plates (115) are fixedly arranged at the front end and the rear end of the top plate of the support frame (100); the lower ends of the two second gears (114) penetrate through a first mounting plate (115) on one side of the second gears and are fixedly provided with a bidirectional threaded rod (116), the bidirectional threaded rod (116) is provided with bidirectional threads, and the thread pitch of the bidirectional threaded rod is larger than that of the first driving rod (111); the clamping frame (300) is driven to lift by the bidirectional threaded rod (116);

The middle part of the lifting frame (200) is provided with a first control groove (201), and the inside of the lifting frame is provided with a thread groove which is matched with the thread on the outer side of the first driving rod (111); a control motor (210) is fixedly arranged on the left side above the front end and the rear end of the top plate of the lifting frame (200); the output ends of the left side and the right side of the two control motors (210) are fixedly provided with second driving rods (211); the four second driving rods (211) are respectively rotatably mounted on the corresponding second mounting plates (212); one ends of the four second driving rods (211) far away from the corresponding control motors (210) respectively penetrate through the corresponding second mounting plates (212) and are fixedly provided with third gears (213);

The peripheries of the four third gears (213) are respectively and synchronously rotatably installed with the upper ends of the corresponding second belts (214); the lower ends of the four second belts (214) are respectively and synchronously rotatably installed with the corresponding fourth gears (215); the four fourth gears (215) are fixedly provided with first control rods (216) at one side close to the corresponding control motor (210), threads are arranged on the four first control rods (216), and the directions of the threads on the two first control rods (216) positioned at the same front side and the same rear side of the lifting frame (200) are opposite;

The four first control rods (216) are respectively rotatably arranged on the third mounting plates (217) corresponding to the first control rods; the four first control rods (216) are respectively provided with a first sliding piece (218) in a threaded manner, and the four first sliding pieces (218) are slidably arranged on the side walls of the front end and the rear end of the lifting frame (200) at one side of the four first sliding pieces; the four first sliding pieces (218) are respectively penetrated through the side walls of the front end and the rear end of the lifting frame (200) at one side of the first sliding pieces far away from the first control groove (201) and are fixedly provided with first mounting pieces (219); the four first mounting pieces (219) are respectively provided with a first driving roller (220) in a rotating way, and the two first driving rollers (220) positioned on the same front side and the same rear side of the lifting frame (200) are oppositely arranged;

A first bevel gear (230) is fixedly arranged on a second driving rod (211) at the right output end of each control motor (210); the lower ends of the two first bevel gears (230) are meshed with second bevel gears (231); the lower ends of the two second bevel gears (231) penetrate through the top plate of the lifting frame (200) and are fixedly provided with second control rods (232), and the peripheries of the two second control rods (232) are provided with threads; the lower ends of the two second control rods (232) are respectively and rotatably arranged on the corresponding fourth mounting plates (233), and the two fourth mounting plates (233) are fixedly arranged on the side plates at the front end and the rear end of the lifting frame (200); the two second control rods (232) are provided with second sliding pieces (234) in a threaded fit manner, and the second sliding pieces (234) are slidably arranged on the side plates at the front end and the rear end of the lifting frame (200); the two second sliding parts (234) penetrate through the side plates at the front end and the rear end of the corresponding lifting frame (200) and are fixedly provided with second installation parts (235); a second driving roller (240) is rotatably arranged on each of the two second mounting pieces (235);

Lifting rods (310) are fixedly arranged above the front end of the middle part of the top plate of the clamping frame (300); a second control groove (311) is formed in the lifting rod (310), and a bidirectional thread groove is formed in the second control groove (311) and matched with the bidirectional thread on the bidirectional threaded rod (116); a rotating motor (320) is fixedly arranged below the rear end of the middle part of the top plate of the clamping frame (300), and the rotating motor (320) is a double-output-shaft motor;

Third driving rods (321) are fixedly arranged at the output ends of the left side and the right side of the rotating motor (320); the two third driving rods (321) penetrate through the side walls of the left end and the right end of the clamping frame (300) and are fixedly provided with fifth gears (322); the two fifth gears (322) are respectively and synchronously rotatably installed with the upper ends of the corresponding third belts (323); the lower ends of the two third belts (323) are respectively and synchronously rotatably installed with the corresponding sixth gears (324), and the two sixth gears (324) are respectively and rotatably installed on the side walls of the left end and the right end of the clamping frame (300); a third control rod (325) is arranged in the two sixth gears (324) in a threaded fit manner, and the two third control rods (325) respectively penetrate through the side wall of the clamping frame (300) at one side of the clamping frame and are fixedly provided with clamping pieces (326); and limiting pieces (327) are fixedly arranged at the lower ends of the two clamping pieces (326) at the sides far away from each other.

2. A device for installing a cable according to claim 1, wherein: the front side and the rear side of the side walls at the left end and the right end of the supporting frame (100) are respectively provided with a first sliding groove (101); the front side and the rear side of the left end and the right end of the top plate of the lifting frame (200) are fixedly provided with first sliding parts (202), and the four first sliding parts (202) are vertically and slidably arranged with corresponding first sliding grooves (101) on the supporting frame (100) respectively.

3. A device for installing a cable according to claim 1, wherein: universal wheels are arranged at four corners of the lower end of the supporting frame (100).

4. A device for installing a cable according to claim 1, wherein: the front end and the rear end of the side plates at the left end and the right end of the support frame (100) are respectively provided with a second sliding groove (102); the left side and the right side of the rear end of the clamping frame (300) are fixedly provided with second sliding parts (301), and the two second sliding parts (301) are vertically and slidably arranged in the corresponding second sliding grooves (102) respectively.

5. A cable installation apparatus according to claim 4, wherein: both clamping members (326) have arcuate surfaces.