CN115173313B - Cable wiring system - Google Patents

Abstract

The application discloses a cable wiring system relates to the technical field of cable wiring equipment. The device comprises a plurality of cable reels, a jacking mechanism and a limiting mechanism which are sequentially arranged; the jacking mechanism is used for jacking the cable wire between the cable drum and the limiting mechanism; the limiting mechanism is used for controlling the relative positions among the stranded cables. According to the multi-strand cable laying device, the phenomenon that a plurality of strands of cables are wound when being laid simultaneously can be effectively avoided under the action of the limiting mechanism, the laying positions of the guide holes are consistent with the preset parallel positions of the plurality of strands of cables, the subsequent adjustment and positioning operation is reduced, the multi-strand cable laying can be completed simultaneously through single operation of the external traction mechanism, and the wiring efficiency is effectively improved; and a tightening mechanism is arranged between the cable drum and the supporting plate, so that the phenomenon of winding caused by free swing of the wire outlet end of the cable drum is avoided, and smooth running of simultaneous arrangement of multiple cables is effectively ensured.

Description

Cable wiring system

Technical Field

The application relates to the technical field of cable wiring equipment, in particular to a cable wiring system.

Background

Cables are important media for transmitting and distributing electric energy, and are commonly used for urban underground power grids, outgoing lines of power stations, internal power supply of industrial and mining enterprises, underwater power transmission lines crossing rivers and seas, and the like.

At present, the cable often needs stranded cable conductor parallel arrangement when laying, however, when carrying out cloth facility man-hour, in order to avoid stranded cable conductor to lay the in-process simultaneously and take place the winding, often adopt single stranded mode of laying in proper order to carry out wiring construction to satisfy the requirement that stranded cable conductor set up in parallel.

Regarding the related art described above, the inventors consider that there is a defect of low wiring efficiency.

Disclosure of Invention

In order to improve cable routing efficiency, the present application provides a cable routing system.

The cable wiring system provided by the application adopts the following technical scheme:

a cable routing system comprising a plurality of cable drums, each of which is coiled with a single strand of cable; the device also comprises a jacking mechanism and a limiting mechanism which are sequentially arranged;

the jacking mechanism comprises a first base, a plurality of jacking brackets are distributed on the first base at intervals, and the number of the jacking brackets is corresponding to the number of the cable reels;

the limiting mechanism comprises a second base, a guide plate is arranged on the second base, a plurality of guide holes are formed in the guide plate, the number of the guide holes is corresponding to that of the cable reels, and the positions of the guide holes are correspondingly distributed according to preset parallel positions of a plurality of cables;

after each cable wire passes through the corresponding guide hole, the supporting bracket supports and supports the corresponding cable wire.

By adopting the technical scheme, when the cable is laid in the facility, after the multi-strand cable passes through the corresponding guide holes on the guide plate, the phenomenon of winding of the multi-strand cable can be effectively avoided under the action of the limiting mechanism, the laying positions of the guide holes are consistent with the preset parallel positions of the multi-strand cable, the subsequent adjustment and positioning operation is reduced, the multi-strand cable can be laid simultaneously by single operation of the external traction mechanism, and the wiring efficiency is effectively improved; and set up tight mechanism in top between cable drum and deflector, the effectual cable conductor is located the tight spacing of partial top between cable drum and the deflector, avoids cable drum play line end free swing to take place the winding phenomenon, has powerfully ensured going on smoothly that stranded cable conductor laid simultaneously.

Preferably, the jacking support comprises a lifting hydraulic cylinder, and the output end of the lifting hydraulic cylinder is fixedly connected with a U-shaped clamp for supporting a cable.

By adopting the technical scheme, after the cable passes through the guide hole on the guide plate in advance, the corresponding lifting hydraulic cylinder is started, so that the U-shaped clamp has a supporting effect on the cable, and the lifting hydraulic cylinder is continuously controlled to drive the U-shaped clamp to move upwards, so that the cable is tightly jacked; and through the height of the lifting hydraulic cylinder, the cable wires on the cable wire reels at different far and near positions can be tightly jacked, and the application range is effectively improved.

Preferably, the device further comprises a positioning bracket layout mechanism arranged at one end of the limiting mechanism far away from the jacking mechanism;

the positioning bracket layout mechanism comprises a third base, a supporting slide column is horizontally and fixedly connected to the third base, and the axial direction of the supporting slide column is arranged along the central line direction of the preset parallel position of the multi-strand cable;

the support slide column is connected with a plurality of cable positioning brackets in a sliding manner, and the cable positioning brackets are respectively fixedly connected with a plurality of cables and can limit the relative positions of the plurality of cables.

Through adopting above-mentioned technical scheme, set up locating support and lay the mechanism at stop gear output, stranded cable wire just installs a cable wire locating support after laying certain length, can effectively avoid the cable wire loose winding's that leads to because of the cable wire overlength phenomenon to just lay the cable wire locating support in advance when the cable wire still is subaerial, can effectively reduce constructor's high altitude construction volume, when improving constructor's construction safety, effectively guaranteed going on smoothly of stranded cable wire laying the construction simultaneously, improved wiring efficiency greatly.

Preferably, the cable positioning bracket comprises a support ring in sliding connection with the support sliding column, a plurality of positioning clamps are fixedly connected to the peripheral side of the support ring at intervals, and each positioning clamp is sleeved on one cable wire correspondingly;

when the positioning clamp is in a locking state, the corresponding positioning clamp can move along with the cable; and when the positioning clamp is in an unlocked state, the positioning clamp and the cable relatively slide correspondingly.

Through adopting above-mentioned technical scheme, the cable conductor locating support can dismantle with the cable conductor and be connected to adopt the location clamp to realize being connected with the cable conductor, conveniently lay the quantity of construction in-process increase cable conductor locating support at the cable conductor, conveniently in time supplement cable conductor locating support.

Preferably, a boosting assembly is arranged at one end of the supporting sliding column, which is close to the limiting mechanism, and the boosting assembly is used for pushing the cable locating bracket along the cable moving direction;

one end of the supporting sliding column, which is far away from the limiting mechanism, is provided with a positioning assembly, and the positioning assembly is used for limiting the position of the unlocked cable positioning bracket.

Through adopting above-mentioned technical scheme, set up the boosting subassembly that is used for promoting cable conductor locating support in support traveller front end, set up the locating component that the restriction did not lock cable conductor locating support position at support traveller rear end for after every installation accomplishes a cable conductor locating support, promote subsequent cable conductor locating support to fixed position department through boosting subassembly, make things convenient for constructor to stand in same position department and install fixedly cable conductor locating support, reduce constructor's movable range, and then effectively reduced constructor's amount of labour.

Preferably, the boosting assembly comprises a boosting hydraulic cylinder fixed on the third base, the output end of the boosting hydraulic cylinder is fixedly connected with a boosting ring, and the boosting ring is slidingly connected to the supporting slide column; the positioning assembly comprises two supporting plates fixed on the third base, the two supporting plates are respectively located on two sides of the supporting sliding column, each supporting plate is fixedly connected with an elastic plate, and the two elastic plates limit the cable positioning support which is not locked to be separated from the supporting sliding column.

By adopting the technical scheme, during the cable laying facility, the unlocked cable positioning bracket and the cable keep sliding relatively, and the cable positioning bracket and the cable are prevented from being separated from the support sliding column under the combined action of the two elastic plates; when the cable positioning bracket is required to be installed, the cable positioning bracket which is in direct contact with the elastic plate is fixed with the cable, the cable positioning bracket moves along with the cable so as to break the limit of the elastic plate on the cable, and meanwhile, the boosting hydraulic cylinder is started to move the thickness distance of one cable positioning bracket, so that the next cable positioning bracket moves to the contact position with the elastic plate; manual operation is reduced, and the labor capacity of constructors is reduced.

Preferably, the support ring is of a hoop structure.

Through adopting above-mentioned technical scheme, set up the boosting subassembly at support strut front end, under the circumstances that the rear end set up locating component, set up the holding ring into the staple bolt structure, avoid installing the cable wire locating support from locating component's one end and reduce locating component's life, conveniently insert from support strut pole portion position department and establish and add the cable wire locating support, be convenient for operate.

Preferably, the guide plate is detachably connected with the second base.

Through adopting above-mentioned technical scheme, the deflector can be dismantled with the second base and be connected to be convenient for lay the stranded cable wire that has different preset distance requirements, improve application scope.

Preferably, the guide plates are arranged in a plurality, the guide plates are arranged at intervals along the moving direction of the cable, and the synchronizing rods are arranged between every two adjacent guide plates.

Through adopting above-mentioned technical scheme, the deflector sets up to a plurality ofly, further guarantees the positional stability when stranded cable wire lays.

Preferably, the guide hole is provided with balls on an inner peripheral side thereof.

Through adopting above-mentioned technical scheme, set up the ball on the guiding hole inner periphery side, can effectively reduce the frictional force between deflector and the cable conductor, reduce external traction mechanism's idle work, reduce the energy extravagant.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the cable is laid and constructed, after the multi-strand cable passes through the corresponding guide holes on the guide plate, the phenomenon of winding when the multi-strand cable is simultaneously laid can be effectively avoided under the action of the limiting mechanism, the laying positions of the guide holes are consistent with the preset parallel positions of the multi-strand cable, the subsequent adjustment and positioning operation is reduced, the multi-strand cable can be simultaneously laid through single operation of the external traction mechanism, and the wiring efficiency is effectively improved; the jacking mechanism is arranged between the cable drum and the guide plate, so that the part of the cable positioned between the cable drum and the guide plate is effectively jacked and limited, the phenomenon that the wire outlet end of the cable drum swings freely is avoided, and the smooth running of the simultaneous arrangement of multiple strands of cables is effectively ensured;

2. the positioning bracket laying mechanism is arranged at the output end of the limiting mechanism, after a plurality of strands of cables are laid for a certain length, one cable positioning bracket is installed, so that the phenomenon of loose winding of the cables caused by overlong cables can be effectively avoided, the cable positioning brackets are laid in advance when the cables are still on the ground, the overhead workload of constructors can be effectively reduced, the construction safety of the constructors is improved, the smooth running of the simultaneous laying construction of the plurality of strands of cables is effectively ensured, and the wiring efficiency is greatly improved;

3. when the cable wire cloth facility is carried out, the unlocked cable wire positioning bracket and the cable wire keep sliding relatively, and the cable wire positioning bracket and the cable wire are prevented from being separated from the support sliding column under the combined action of the two elastic plates; when the cable positioning bracket is required to be installed, the cable positioning bracket which is in direct contact with the elastic plate is fixed with the cable, the cable positioning bracket moves along with the cable so as to break the limit of the elastic plate on the cable, and meanwhile, the boosting hydraulic cylinder is started to move the thickness distance of one cable positioning bracket, so that the next cable positioning bracket moves to the contact position with the elastic plate; manual operation is reduced, and the labor capacity of constructors is reduced.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is an enlarged partial schematic view of the portion a in fig. 1.

Fig. 3 is a schematic diagram showing the overall structure of the positioning bracket layout mechanism in the embodiment of the application.

Fig. 4 is a schematic diagram showing the overall structure of the cable positioning bracket in the embodiment of the application.

Reference numerals illustrate: 1. a cable drum; 2. a jacking mechanism; 21. a first base; 22. tightly pushing the support; 221. a lifting hydraulic cylinder; 222. a U-shaped card; 3. a limiting mechanism; 31. a second base; 311. a clamping groove; 312. a cylinder is tightly propped; 313. a rubber gasket; 314. a synchronizing lever; 32. a guide plate; 321. a guide hole; 4. a positioning bracket layout mechanism; 41. a third base; 411. a vertical plate; 42. supporting a strut; 43. a cable positioning bracket; 431. a support ring; 432. positioning a clamp; 51. a boosting assembly; 511. a boosting hydraulic cylinder; 512. a boost ring; 52. a positioning assembly; 521. a support plate; 522. an elastic plate.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a cable wiring system.

Examples

Referring to fig. 1, a cable routing system includes a plurality of cable reels 1, a tightening mechanism 2 and a limiting mechanism 3 that are disposed in sequence. Each cable drum 1 is wound with a single cable, and the number of the cable drums 1 is adjusted according to actual layout requirements. The limiting mechanism 3 is used for limiting the parallel positions of the multi-strand cables, so that the multi-strand cables meet the requirement of the preset parallel positions, and the main body part of the cables is prevented from winding. The jacking mechanism 2 is used for supporting and jacking the part of the cable between the cable drum 1 and the limiting mechanism 3, so that the phenomenon that the cable drum 1 swings freely to cause winding is avoided. Therefore, the effect that the external traction mechanism can drive a plurality of cables to move simultaneously by single operation is achieved, and the wiring efficiency is greatly improved.

Illustratively, in the embodiment of the present application, the cable coil 1 is provided with four cable wires, and four corresponding cable wires are provided. The jacking mechanism 2 comprises a first base 21, and four jacking brackets 22 which are arranged corresponding to the number of the cables are distributed on the first base 21 at intervals. The jacking bracket 22 comprises a lifting hydraulic cylinder 221 fixed on the first base 21, the output end of the lifting hydraulic cylinder 221 is fixedly connected with a U-shaped clamp 222, and the U-shaped clamp 222 is used for supporting a cable. The limiting mechanism 3 comprises a second base 31 fixedly connected with the first base 21, and at least one guide plate 32 is arranged on the second base 31. In the embodiment of the application, two guide plates 32 are provided, and the two guide plates 32 are coaxially arranged at intervals. Four guide holes 321 corresponding to the number of strands of cables are arranged on each guide plate 32 at intervals according to the preset parallel position requirement of the plurality of strands of cables.

Meanwhile, when the multi-strand cable wire arranging facility works, firstly, cables on different cable reels 1 sequentially pass through two guide holes 321 at corresponding positions on two guide plates 32, so that the positions of the multi-strand cables are positioned, and the stability of the positions of the cables can be further improved by arranging the two guide plates 32 at intervals. After the multi-strand cables are all penetrated, the free ends of the multi-strand cables are connected with an external traction mechanism, and the external traction mechanism is started to enable the multi-strand cables to be in a tensioning state. And then a plurality of lifting hydraulic cylinders 221 are started in sequence, so that the lifting hydraulic cylinders 221 drive the U-shaped clamps 222 to move upwards to support and jack up the part of the cable wire between the cable drum 1 and the limiting mechanism 3, and the cable wire is prevented from swinging randomly to be wound.

Referring to fig. 1 and 2, in order to facilitate replacement of the guide plates 32 of corresponding specifications according to different preset parallel position requirements, the guide plates 32 are detachably connected with the second base 31. The second base 31 is provided with a clamping groove 311 at a position corresponding to the guide plate 32, and the guide plate 32 can be inserted into the clamping groove 311, so as to play a role in limiting the movement of the guide plate 32 along the axial direction. Two groups of connecting components are oppositely arranged on two sides of the corresponding clamping groove 311, each group of connecting components comprises a jacking cylinder 312 which is horizontally and fixedly connected to the second base 31, the output end of the jacking cylinder 312 is arranged in the direction close to the clamping groove 311, and the output end of the jacking cylinder 312 is fixedly connected with a rubber gasket 313. The pushing cylinder 312 can drive the rubber gasket 313 to be pressed or separated from the guide plate 32 inserted into the clamping groove 311, so as to facilitate the fixing and the dismounting of the guide plate 32.

In order to ensure that the positions of the guide holes 321 on the two guide plates 32 remain corresponding, two synchronizing rods 314 are provided between the two guide plates 32. The synchronizing rods 314 are threaded rods, and the two synchronizing rods 314 are respectively connected with the two guide plates 32 through bolts, so that the two guide plates 32 are coaxially arranged, and the guide holes 321 in the two guide plates 32 are correspondingly arranged.

The guide plate 32 is rotatably connected with a plurality of balls at positions corresponding to the inner periphery of each guide hole 321, and after a cable passes through the guide holes 321, friction force is reduced under the action of the balls, so that the efficiency of an external traction mechanism is improved, and energy waste is reduced.

With reference to fig. 1 and 3, a positioning bracket layout mechanism 4 is disposed at one end of the limiting mechanism 3 away from the tightening mechanism 2. The positioning bracket laying mechanism 4 includes a third base 41 fixedly connected to an end of the second base 31 remote from the first base 21. The third base 41 is fixedly connected with a vertical plate 411, the vertical plate 411 is horizontally and fixedly connected with a support slide column 42, and the axial direction of the support slide column 42 is arranged along the central line direction of the preset parallel positions of the multi-strand cables. And one end of the support slide column 42 in the axial direction is fixedly connected with the vertical plate 411, and the other end is suspended.

Referring to fig. 3 and 4, a plurality of cable positioning brackets 43 are slidably connected to the support slide column 42, and the cable positioning brackets 43 can limit the relative positions of the cable positioning brackets after being fixedly connected with a plurality of cables. The cable positioning bracket 43 comprises a supporting ring 431 sleeved on the supporting slide column 42, four positioning clamps 432 which are arranged corresponding to the number of cable strands are fixedly connected to the circumferential side of the supporting ring 431 at intervals, after the supporting ring 431 is sleeved on the supporting slide column 42, the positioning clamps 432 are opened to be sleeved on corresponding cable wires, the pre-connection is realized, and at the moment, the positioning clamps 432 and the corresponding cable wires are in a relative sliding state.

After each cable is laid for a certain length, the cable locating support 43 positioned at the outermost side of the supporting sliding column 42 is fixedly connected with the multi-strand cable, and the specific fixing mode is to screw a bolt on the locating clamp 432, so that the locating clamp 432 and the cable are adjusted to be in a locking state from a pre-connection state, and the fixation of the cable locating support 43 and the multi-strand cable is realized. The cable locating support can move along with the movement of the cable after locking, the phenomenon that the cable is loosely wound due to overlong cables is effectively avoided, the cable locating support 43 is arranged in advance when the cables are still on the ground, the overhead work load of constructors can be effectively reduced, the construction safety of the constructors is improved, the smooth operation of simultaneous arrangement construction of a plurality of cables is effectively guaranteed, and the wiring efficiency is greatly improved.

In order to facilitate the installation and fixation of the cable positioning bracket and the cable wire in the fixing area for constructors, a boosting component 51 is arranged at one end of the supporting sliding column 42, which is close to the limiting mechanism 3, and a positioning component 52 is arranged at one end of the supporting sliding column 42, which is far away from the limiting mechanism 3. The positioning component 52 is used for limiting the position of the cable positioning bracket 43 which is not locked, and the boosting component 51 is used for pushing the cable positioning bracket 43 along the moving direction of the cable, so that the fact that constructors can install the cable positioning bracket 43 at the same position is guaranteed, the moving range of the constructors is reduced, and the labor capacity of the constructors is effectively reduced.

The boosting assembly 51 comprises two boosting hydraulic cylinders 511 fixed on the vertical plate 411, the output ends of the two boosting hydraulic cylinders 511 respectively penetrate through the vertical plate 411, the output ends of the two hydraulic cylinders are fixedly connected with a boosting ring 512, and the boosting ring 512 is slidably connected to the supporting slide column 42. The positioning assembly 52 comprises two support plates 521 fixed on the third base 41, the two support plates 521 are respectively located at two opposite sides of the support slide column 42, an elastic plate 522 is fixedly connected to each support plate 521, a plurality of cable brackets are located between the booster ring 512 and the elastic plate 522, and the two elastic plates 522 cooperate to prevent the unlocked cable brackets from being separated from the support slide column 42.

In the process of cable laying facilities, the unlocked cable positioning bracket 43 and the cable keep sliding relatively, and the cable positioning bracket is prevented from being separated from the supporting sliding column 42 under the combined action of the two elastic plates 522; when the cable positioning bracket 43 needs to be installed, the cable positioning bracket 43 which is in direct contact with the elastic plate 522 is fixed with the cable, the cable positioning bracket 43 moves along with the cable so as to break the limit of the elastic plate 522, and meanwhile, the boosting hydraulic cylinder 511 is started to move the thickness distance of one cable positioning bracket 43, so that the next cable positioning bracket 43 moves to the contact position with the elastic plate 522; and further, the position fixing of the cable positioning bracket 43 is ensured every time, so that the manual operation is reduced, and the labor capacity of constructors is reduced.

To facilitate timely replenishment of the cable positioning bracket 43 and to avoid damage to the positioning assembly 52 when replenishing the cable positioning bracket 43. In this embodiment of the present application, the supporting ring 431 is set to be a hoop structure, and by adopting this structure, the supporting ring 431 is conveniently and directly sleeved on the supporting sliding column 42 from the rod portion of the supporting sliding column 42 in an inserting manner, so that the supporting ring 431 is prevented from being sleeved on the supporting sliding column 42 in a penetrating manner from the suspension end of the supporting sliding column 42 after the positioning component 52 is set.

The implementation principle of the embodiment is as follows:

meanwhile, in the working hours of multi-strand cable laying facilities, the cables on different cable reels 1 are sequentially passed through two guide holes 321 at corresponding positions on two guide plates 32, so that the positions of the multi-strand cables are positioned. After the cable passes through the guide holes 321, the cable sequentially passes through the corresponding positioning clamps 432 on the plurality of cable positioning brackets 43, so that the cable and the cable positioning brackets are connected in advance, after the multi-strand cable is all penetrated, the free ends of the multi-strand cable are connected with an external traction mechanism, and the external traction mechanism is started to enable the multi-strand cable to be in a tensioning state. And then a plurality of lifting hydraulic cylinders 221 are started in sequence, so that the lifting hydraulic cylinders 221 drive the U-shaped clamps 222 to move upwards to support and jack up the part of the cable wire between the cable drum 1 and the limiting mechanism 3, and the cable wire is prevented from swinging randomly to be wound.

In the laying process, after a certain distance is laid for each multi-strand cable, a cable positioning bracket 43 is installed, the phenomenon of loose winding of the cable caused by overlong cables is effectively avoided, the cable positioning bracket 43 is laid in advance when the cables are still on the ground, the overhead workload of constructors can be effectively reduced, the construction safety of the constructors is improved, the smooth running of simultaneous laying construction of the multi-strand cables is effectively ensured, and the wiring efficiency is greatly improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (5)

1. A cable routing system, characterized by: the cable wire coil comprises a plurality of cable wire coils (1), wherein a single strand of cable wire is coiled on each cable wire coil (1); the device also comprises a jacking mechanism (2) and a limiting mechanism (3) which are sequentially arranged; the jacking mechanism (2) comprises a first base (21), a plurality of jacking brackets (22) are distributed on the first base (21) at intervals, and the number of the jacking brackets (22) is corresponding to the number of the cable reels (1); the limiting mechanism (3) comprises a second base (31), a guide plate (32) is arranged on the second base (31), a plurality of guide holes (321) are formed in the guide plate (32), the number of the guide holes (321) is corresponding to that of the cable reels (1), and the positions of the guide holes (321) are correspondingly distributed according to preset parallel positions of a plurality of cables; after each cable passes through the corresponding guide hole (321), the supporting bracket (22) supports and supports the corresponding cable tightly; the positioning support layout mechanism (4) is arranged at one end, far away from the jacking mechanism (2), of the limiting mechanism (3); the positioning bracket laying mechanism (4) comprises a third base (41), a supporting sliding column (42) is horizontally and fixedly connected to the third base (41), and the axial direction of the supporting sliding column (42) is arranged along the central line direction of the preset parallel positions of the multi-strand cables; the support sliding column (42) is connected with a plurality of cable positioning brackets (43) in a sliding manner, and the cable positioning brackets (43) are fixedly connected with a plurality of strands of cables respectively and then can limit the relative positions of the plurality of strands of cables; the cable positioning bracket (43) comprises a support ring (431) which is in sliding connection with the support sliding column (42), a plurality of positioning clamps (432) are fixedly connected to the periphery of the support ring (431) at intervals, and each positioning clamp (432) is respectively sleeved on one cable wire correspondingly; when the positioning clamp (432) is in a locking state, the corresponding positioning clamp (432) can move along with the cable; when the positioning clamp (432) is in an unlocked state, the positioning clamp (432) and the cable relatively slide; a boosting assembly (51) is arranged at one end, close to the limiting mechanism (3), of the supporting sliding column (42), and the boosting assembly (51) is used for pushing the cable positioning bracket (43) along the cable moving direction; one end of the supporting slide column (42) far away from the limiting mechanism (3) is provided with a positioning assembly (52), and the positioning assembly (52) is used for limiting the position of the cable positioning bracket (43) which is not locked; the boosting assembly (51) comprises a boosting hydraulic cylinder (511) fixed on the third base (41), the output end of the boosting hydraulic cylinder (511) is connected with a boosting ring (512), and the boosting ring (512) is connected onto the supporting sliding column (42) in a sliding manner; the positioning assembly (52) comprises two supporting plates (521) fixed on the third base (41), the two supporting plates (521) are respectively positioned at two sides of the supporting slide column (42), an elastic plate (522) is fixedly connected to each supporting plate (521), and the two elastic plates (522) limit the unlocked cable positioning support (43) to be separated from the supporting slide column (42); the supporting ring (431) is of a hoop structure.

2. A cable routing system according to claim 1, wherein: the jacking support (22) comprises a lifting hydraulic cylinder (221), and the output end of the lifting hydraulic cylinder (221) is fixedly connected with a U-shaped clamp (222) for supporting a cable.

3. A cable routing system according to claim 1, wherein: the guide plate (32) is detachably connected with the second base (31).

4. A cable routing system according to claim 3, wherein: the guide plates (32) are arranged in a plurality, the guide plates (32) are arranged at intervals along the moving direction of the cable, and a synchronizing rod (314) is arranged between every two adjacent guide plates (32).

5. A cable routing system according to claim 1, wherein: the inner peripheral side of the guide hole (321) is provided with a ball.