CN116986395A - A kind of combined cable pay-off frame structure for electric power construction - Google Patents

Abstract

The utility model discloses a combined cable pay-off rack structure for electric power construction, and particularly relates to the technical field of electric power construction auxiliary equipment. According to the utility model, the two positioning sliding support plates are mutually far away, the lifting assembly supports the paying-off roller, the auxiliary support plate is raised in height and is used for supporting the paying-off roller in an auxiliary manner, so that the paying-off roller is ensured to be stable, when the paying-off roller is removed, the lifting assembly descends and drives the paying-off roller to vertically downwards, the two baffle plates on the paying-off roller enter the corresponding positioning arc cavities, the paying-off roller is positioned and placed, the workload is reduced, the top surface of the retracted height of the auxiliary support plate is lower than the bottom surface of the shaft rod, the paying-off roller does not collide with the auxiliary support plate in a moving manner when the moving plate moves, and the normal transmission of the paying-off roller is ensured.

Description

Combined cable pay-off rack structure for electric power construction

Technical Field

The utility model relates to the technical field of auxiliary equipment for power construction, in particular to a combined cable pay-off rack structure for power construction.

Background

Cable pay-off frames, also referred to as cable reel holders, wire reel holders, cable pay-off holders, etc., are often used in power construction processes, requiring a pay-off operation of the cable in the cable reel.

Through searching, the utility model patent with the publication number of CN113104681A discloses a combined cable pay-off rack structure for electric power construction, a take-up rod fully wound with a cable is reversely put, then the take-up rod is pushed into a reserved groove, the take-up rod and a hydraulic telescopic rod are positioned on the same vertical plane, then the hydraulic telescopic rod is extended until a sleeve ring is aligned with a through hole of the take-up rod, an inserting shaft rod penetrates through the sleeve ring on the right side and the take-up rod until the inserting rod is inserted into an inserting groove in the sleeve rod, then the hydraulic telescopic rod is contracted, the whole take-up rod is suspended, then a cable source on the surface of the take-up rod is pulled out to pass through, then a proper threading cylinder is selected to pass through a bottom wall which is closely attached to a movable correcting wheel, and paying-off can be started only by starting a paying-off motor and a correcting motor at the same time, manual participation is not needed in the whole paying-off process, and labor is saved, and the labor amount of workers is greatly reduced.

In the above-mentioned scheme, be difficult for setting out the roller installation location, need to raise the roller to the height of support frame when setting out the roller, and the weight of roller is heavy, and the height of support frame is higher, and the certain height of lifting makes the work load increase.

Disclosure of Invention

The utility model aims to provide a combined cable pay-off rack structure for electric power construction, two positioning sliding support plates are mutually far away, a pay-off roller is supported by a lifting assembly, the height of an auxiliary support plate is increased, the bottom surface of a bracket is in fit contact with the surface of a shaft lever, the pay-off roller is further supported in an auxiliary mode, the stability of the pay-off roller is guaranteed, when the pay-off roller is removed, the lifting assembly descends and drives the pay-off roller to vertically downwards approach towards the direction of a moving plate, two baffle disc plates on the pay-off roller enter corresponding positioning arc cavities, the pay-off roller is positioned and placed, shaking phenomenon of the pay-off roller during moving is avoided, the workload is reduced, and the top surface of the retracted height of the auxiliary support plate is lower than the bottom surface of the shaft lever, so that the pay-off roller does not collide with the auxiliary support plate during movement along with the moving plate, and normal transmission of the pay-off roller is guaranteed, so that the problems in the background technology are solved.

The utility model can be realized by the following technical scheme: the utility model provides a combined cable pay-off rack structure for electric power construction, includes bearing substrate and unwrapping wire roller, the both ends tip surface of unwrapping wire roller all is provided with the fender dish board, every the tip of fender dish board all is fixed with the axostylus axostyle, slidable mounting has two location backup pads that slide that are used for to unwrapping wire roller location on bearing substrate's the top surface, and bearing substrate's top surface and lie in two location and slide between the backup pad fixed mounting have the lifting subassembly that is used for auxiliary stay unwrapping wire roller, be provided with on the internal face of lifting subassembly and slide and be used for supporting the kinematic plate of location fender dish board on bearing substrate top surface, the kinematic plate is located the below of unwrapping wire roller, and is equipped with on the top surface of kinematic plate and uses and be semi-circular structure's location arc chamber with corresponding fender dish board cooperation.

The utility model further technically improves that: the lifting subassembly includes the fixed frame that is hollow structure with bearing substrate top surface rigid coupling, the inner chamber bottom of fixed frame is provided with the electric putter who links to each other with bearing substrate top surface is fixed, electric putter's push end fixedly connected with is in the gliding piston piece of fixed frame inner chamber, the auxiliary stay board of fixed frame top surface is passed in the up end installation of piston piece, the top surface middle part of auxiliary stay board is equipped with the bracket that laminates mutually with the axostylus axostyle surface, the top surface of auxiliary stay board withdrawal height is less than the bottom surface height of axostylus axostyle.

The utility model further technically improves that: the middle part of the bottom surface of the motion plate is provided with an installation cavity, the bottom surface of the inner cavity of the installation cavity is fixedly connected with a transmission table, and the middle part of the top surface of the bearing substrate is provided with a linear guide rail which is of a strip-shaped structure and used for sliding the transmission table.

The utility model further technically improves that: the locating sleeve is arranged on the inner wall surface of each locating sliding support plate in a rotating mode, the locating sleeve is matched with the shaft rod in a mounting mode, a clamping groove protruding outwards is formed in the inner wall surface of the locating sleeve, and a protruding block which is connected with the clamping groove in a sliding mode is arranged on the end portion surface of the shaft rod.

The utility model further technically improves that: the bearing substrate comprises a bearing substrate body and is characterized in that two guide sliding grooves are formed in the top surface of the bearing substrate body, a sliding block fixedly connected with the bottom surface of a positioning sliding supporting plate is slidably arranged in each guide sliding groove, a vacant cavity communicated with the two guide sliding grooves is formed in the bottom surface of the bearing substrate body, two limiting sliding rods which are arranged in parallel are fixed in the vacant cavity body, a fixed transverse plate used for the sliding of the limiting sliding rods is fixedly arranged on the inner wall surface of the vacant cavity body, two sliding sleeve blocks are sleeved on the surfaces of the limiting sliding rods in a sliding mode, two connecting transverse plates fixedly connected with the bottom surfaces of the sliding sleeve blocks are jointly arranged on the top surfaces of the sliding sleeve blocks on the same side, and two connecting transverse plates are arranged.

The utility model further technically improves that: one of them fixed mounting has sharp cylinder on the bottom surface of connection diaphragm, the promotion end of sharp cylinder is fixed with the surface mounting of fixed diaphragm, the top surface middle part rotation of fixed diaphragm is provided with the deflection piece, the both ends tip of deflection piece all articulates there is the transfer line, two the tip of transfer line articulates with the top surface of corresponding connection diaphragm respectively.

The utility model further technically improves that: lifting frames are arranged on two sides of the middle edge of the top surface of the bearing substrate, a plurality of supporting feet are arranged on the bottom surface of the bearing substrate, and lifting lugs for lifting are arranged on the top surface of each lifting frame.

The utility model further technically improves that: the cable is wound on the surface of the paying-off roller, and the diameter of the paying-off roller is smaller than that of the baffle plate.

Compared with the prior art, the utility model has the following beneficial effects:

1. the two positioning sliding support plates are far away from each other, the paying-off roller is supported by the lifting assembly, the height of the auxiliary support plate is increased, the bottom surface of the bracket is in fit contact with the surface of the shaft rod, the auxiliary support is further carried out on the paying-off roller, the stability of the paying-off roller is guaranteed, when the paying-off roller is removed, the lifting assembly descends and drives the paying-off roller to vertically downwards to approach towards the direction of the moving plate, the two baffle plates on the paying-off roller enter the corresponding positioning arc cavity, the paying-off roller is positioned and placed, the workload is reduced, the shaking phenomenon of the paying-off roller during moving is avoided, and the paying-off roller does not collide with the auxiliary support plate during moving along with the moving plate due to the fact that the top surface of the retraction height of the auxiliary support plate is lower than the bottom surface of the shaft rod, and normal transmission of the paying-off roller is guaranteed;

2. the paying-off roller is downwards caused by the movement of the auxiliary supporting plate and the fixed frame, the transmission table slides on the linear guide rail to drive the moving plate to leave between the two positioning sliding supporting plates until the moving plate moves to the end part of the bearing substrate, so that the paying-off roller on the moving plate is conveniently taken out and removed, then the replaced paying-off roller is mounted on the moving plate, and the moving plate moves back to between the two positioning sliding supporting plates;

3. the pushing end of the linear cylinder is not elongated, the two positioning sliding support plates are close to each other and support the paying-off roller in a positioning manner, when the paying-off roller is dismounted, the pushing end of the linear cylinder is abutted to the fixed transverse plate, under the action of a reaction force, the connecting transverse plate is subjected to a reverse thrust external force, the connecting transverse plate is fixed with the sliding sleeve barrel block, the sliding sleeve barrel block is driven to slide in the limiting sliding rod, the stability of the connecting transverse plate in movement is guaranteed, one transmission rod is pulled to synchronously move in the movement of the connecting transverse plate, the deflection block rotates, the other end of the deflection block pushes the corresponding connecting transverse plate to move through the other transmission rod, and at the moment, the two connecting transverse plates are mutually far away, so that the synchronous movement of the positioning sliding support plates is realized.

Drawings

The present utility model is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic plan view of the present utility model;

FIG. 2 is a schematic view of the structural connection of the connecting cross plate and the transmission rod of the present utility model;

FIG. 3 is a schematic view of the structural connection of the baffle plate and the motion plate of the present utility model;

FIG. 4 is a schematic diagram showing the connection of a three-dimensional structure of a paying-off roller and a positioning sliding support plate;

fig. 5 is a schematic structural connection diagram of the accessory supporting plate and the fixing frame.

In the figure: 1. a carrier substrate; 2. a guide chute; 3. a hollow cavity; 4. a limit slide bar; 5. a baffle plate; 6. paying-off roller; 7. positioning a sliding support plate; 8. a fixed frame; 9. a motion plate; 10. fixing the transverse plate; 11. a connecting transverse plate; 12. a deflection block; 13. a transmission rod; 14. a straight line cylinder; 15. an auxiliary supporting plate; 16. a shaft lever; 17. a mounting cavity; 18. a linear guide rail; 19. a transmission table; 20. positioning the arc cavity; 21. an electric push rod; 22. a piston block; 23. a bracket; 24. positioning a sleeve; 25. a clamping groove; 26. a bump; 27. a slide block; 28. a lifting frame; 29. and sliding the sleeve block.

Detailed Description

In order to further describe the technical means and effects adopted by the utility model for achieving the preset aim, the following detailed description is given below of the specific implementation, structure, characteristics and effects according to the utility model with reference to the attached drawings and the preferred embodiment.

Referring to fig. 1-5, the utility model provides a combined cable pay-off rack structure for electric power construction, which comprises a bearing substrate 1 and a pay-off roller 6, wherein end surfaces of two ends of the pay-off roller 6 are respectively provided with a baffle plate 5, the end of each baffle plate 5 is fixedly provided with a shaft lever 16, two positioning sliding support plates 7 for positioning the pay-off roller 6 are slidably arranged on the top surface of the bearing substrate 1, a lifting component for supporting the pay-off roller 6 is fixedly arranged between the two positioning sliding support plates 7 on the top surface of the bearing substrate 1, a moving plate 9 which slides on the top surface of the bearing substrate 1 and is used for supporting the positioning baffle plate 5 is arranged on the inner wall surface of the lifting component, the moving plate 9 is positioned below the pay-off roller 6, a positioning arc cavity 20 which is matched with the corresponding baffle plate 5 and takes a semicircular structure is arranged on the top surface of the moving plate 9, in the use state, the two positioning sliding support plates 7 support and position the end parts of the two shaft rods 16, the lifting assemblies are in contact with the surfaces of the shaft rods 16, the auxiliary support of the paying-off roller 6 is realized, the stability of the paying-off roller 6 in operation is ensured, the paying-off roller 6 cannot interfere with the lifting assemblies in motion when paying-off is rotated, when the paying-off roller 6 needs to be removed and replaced, the two positioning sliding support plates 7 slide on the bearing substrate 1, the two positioning sliding support plates 7 are far away from each other, the paying-off roller 6 is supported by the lifting assemblies, the lifting assemblies descend and drive the paying-off roller 6 to vertically downwards approach towards the direction of the moving plate 9, the two baffle disc plates 5 on the paying-off roller 6 enter the corresponding positioning arc cavities 20, the paying-off roller 6 is positioned and placed, the shaking phenomenon of the paying-off roller 6 is avoided when moving, the paying-off roller 6 is driven by the moving plate 9 to synchronously slide on the bearing substrate 1 until the moving plate 9 moves to the end part of the bearing substrate 1, so that the paying-off roller 6 on the moving plate 9 is conveniently taken out and removed, and then the replaced paying-off roller 6 is mounted on the moving plate 9.

The lifting assembly comprises a fixed frame 8 fixedly connected with the top surface of a bearing substrate 1 and in a hollow structure, an electric push rod 21 fixedly connected with the top surface of the bearing substrate 1 is arranged at the bottom of an inner cavity of the fixed frame 8, a piston block 22 fixedly connected with the pushing end of the electric push rod 21 and sliding in the inner cavity of the fixed frame 8 is arranged at the upper end surface of the piston block 22, an auxiliary support plate 15 penetrating through the top surface of the fixed frame 8 is arranged in the middle of the top surface of the auxiliary support plate 15, a bracket 23 attached to the surface of a shaft rod 16 is arranged in the middle of the top surface of the auxiliary support plate 15, the top surface of the retraction height of the auxiliary support plate 15 is lower than the bottom surface of the shaft rod 16, the electric push rod 21 is located in the inner cavity of the fixed frame 8, the fixed end of the electric push rod 21 is fixed with the top surface of the bearing substrate 1, in an initial state, the telescopic end of the electric push rod 21 pushes the piston block 22 to slide in the inner cavity of the fixed frame 8, at the moment, the height of the auxiliary support plate 15 is raised, the bottom surface of the bracket 23 is attached to the surface of the shaft rod 16, and then supports the auxiliary support plate 6, so that the auxiliary support plate 6 is ensured, when the paying-off roller 6 is removed, the auxiliary support plate 15 is retracted and pulled into the inner cavity of the fixed, the fixed on the surface of the fixed surface 8, and the roller 8, and the auxiliary support plate 15 is guaranteed.

The middle part of the bottom surface of the moving plate 9 is provided with a mounting cavity 17, the bottom surface of the inner cavity of the mounting cavity 17 is fixedly connected with a transmission table 19, the middle part of the top surface of the bearing substrate 1 is provided with a linear guide 18 which is in a strip-shaped structure and used for sliding the transmission table 19, the paying-off roller 6 is downwards caused by the movement of the auxiliary support plate 15 and the fixed frame 8, and the transmission table 19 slides on the linear guide 18 to drive the moving plate 9 to leave between the two positioning sliding support plates 7.

The inner wall surface of each positioning sliding support plate 7 is rotatably provided with a positioning sleeve 24 which is matched with the shaft lever 16, the inner wall surface of the positioning sleeve 24 is provided with an outwards protruding clamping groove 25, the end surface of the shaft lever 16 is provided with a protruding block 26 which is in sliding connection with the clamping groove 25, the side surface of one positioning sliding support plate 7 is provided with a servo motor for driving the positioning sleeve 24 to rotate, when the paying-off roller 6 is dismounted, the two positioning sliding support plates 7 are mutually separated, the protruding block 26 slides in the clamping groove 25, the positioning sleeve 24 on the positioning sliding support plate 7 is separated from the shaft lever 16, when the two positioning sliding support plates 7 are mutually close, the two protruding blocks 26 on the end surface of the shaft lever 16 are vertically placed, the positioning sliding support plate 7 drives the positioning sleeve 24 to be close to the position of the shaft lever 16 on the paying-off roller 6 in a sliding manner, the protruding block 26 is conveniently slid into the clamping groove 25, and the positioning sliding support plate 7 and the paying-off roller 6 are rapidly mounted.

The top surface of the bearing substrate 1 is provided with two guide sliding grooves 2, the inside of each guide sliding groove 2 is slidably provided with a sliding block 27 fixedly connected with the bottom surface of the positioning sliding supporting plate 7, the bottom surface of the bearing substrate 1 is provided with a vacant cavity 3 communicated with the two guide sliding grooves 2, the inside of the vacant cavity 3 is fixedly provided with two parallel limiting sliding rods 4, the inner wall surface of the vacant cavity 3 is fixedly provided with a fixed transverse plate 10 for the sliding penetration of the limiting sliding rods 4, the surface of each limiting sliding rod 4 is slidably sleeved with two sliding sleeve blocks 29, the top surfaces of the two sliding sleeve blocks 29 on the same side are jointly provided with a connecting transverse plate 11 fixedly connected with the bottom surface of the sliding block 27, and the connecting transverse plate 11 is provided with two connecting transverse plates, so that the two connecting transverse plates 11 can move close to or away from each other simultaneously; the bottom surface of one of them connects diaphragm 11 is last fixed mounting has sharp cylinder 14, the push end of sharp cylinder 14 is fixed with the surface of fixed diaphragm 10, the top surface middle part of fixed diaphragm 10 rotates and is provided with deflection piece 12, deflection piece 12's both ends tip all articulates there is transfer line 13, the tip of two transfer lines 13 respectively with the top surface of corresponding connection diaphragm 11 articulates, in the initial state, the push end of sharp cylinder 14 does not lengthen, two location slip backup pads 7 are close to each other and to pay off roller 6 location support, when dismantling to pay off roller 6, the push end of sharp cylinder 14 is supported fixed diaphragm 10, under the effect of reaction force, make connection diaphragm 11 receive the thrust external force, because connection diaphragm 11 is fixed with sliding sleeve piece 29, drive sliding sleeve piece 29 in spacing slide bar 4 slides, guarantee connection diaphragm 11's stability in the motion, connection diaphragm 11 is pulling one of them transfer line 13 synchronous motion this moment, make deflection piece 12's the other end through another transfer line 13 promotion corresponding connection diaphragm 11 motion, two connection diaphragm 11 keep away from each other, the synchronous motion of backup pad 7 has been realized to the location slip of mutual keeping away from.

Lifting frames 28 are arranged on two sides of the middle edge of the top surface of the bearing substrate 1, a plurality of supporting feet are arranged on the bottom surface of the bearing substrate 1, lifting lugs for lifting are arranged on the top surface of each lifting frame 28, the bearing substrate 1 is lifted and transferred by lifting equipment, lifted to a paying-off position by a transport vehicle, lifting operation of the lifting equipment is facilitated through connection of the lifting lugs and lifting ropes, and after the ropes are connected with the lifting ropes, the lifting frames 28 drive the bearing substrate 1 to rise or fall, so that transfer of the bearing substrate 1 is facilitated.

The surface of the paying-off roller 6 is wound with a cable, and the diameter of the paying-off roller 6 is smaller than that of the baffle plate 5.

When the paying-off roller is used, the two positioning sliding support plates 7 are far away from each other, the paying-off roller 6 is supported by the lifting assembly, the height of the auxiliary support plate 15 is increased, the bottom surface of the bracket 23 is in fit contact with the surface of the shaft lever 16, the paying-off roller 6 is supported in an auxiliary mode, the stability of the paying-off roller 6 is guaranteed, when the paying-off roller 6 is removed, the lifting assembly descends and drives the paying-off roller 6 to vertically downwards approach towards the direction of the moving plate 9, the two baffle plates 5 on the paying-off roller 6 enter the corresponding positioning arc cavities 20, the paying-off roller 6 is positioned and placed, the shaking phenomenon of the paying-off roller 6 during moving is avoided, and the top surface of the retracted height of the auxiliary support plate 15 is lower than the bottom surface of the shaft lever 16, so that the paying-off roller 6 does not collide with the auxiliary support plate 15 during movement along with the moving plate 9, and normal transmission of the paying-off roller 6 is guaranteed;

the paying-off roller 6 is downwards caused by the movement of the auxiliary supporting plate 15 and the fixed frame 8, the transmission table 19 slides on the linear guide rail 18 to drive the moving plate 9 to leave between the two positioning sliding supporting plates 7 until the moving plate 9 moves to the end part of the bearing substrate 1, so that the paying-off roller 6 on the moving plate 9 is conveniently taken out and removed, then the replaced paying-off roller 6 is mounted on the moving plate 9, and the moving plate 9 moves back to between the two positioning sliding supporting plates 7;

the pushing end of the linear air cylinder 14 does not stretch, the two positioning sliding support plates 7 are close to each other and position and support the paying-off roller 6, when the paying-off roller 6 is dismounted, the pushing end of the linear air cylinder 14 is abutted to the fixed transverse plate 10, the connecting transverse plate 11 is subjected to a reverse pushing external force under the action of a reaction force, the connecting transverse plate 11 is fixed with the sliding sleeve barrel block 29, the sliding sleeve barrel block 29 is driven to slide in the limiting slide rod 4, the stability of the connecting transverse plate 11 in movement is guaranteed, one transmission rod 13 is pulled to synchronously move in the movement of the connecting transverse plate 11, the deflection block 12 rotates, the other end of the deflection block 12 pushes the corresponding connecting transverse plate 11 to move through the other transmission rod 13, and at the moment, the two connecting transverse plates 11 are mutually far away, so that the synchronous movement of the positioning sliding support plates 7 is realized.

The present utility model is not limited to the above embodiments, but is capable of modification and variation in all aspects, including those of ordinary skill in the art, without departing from the spirit and scope of the present utility model.

Claims (8)

1. The utility model provides a combined type cable pay off rack structure for electric power construction, includes load-bearing substrate (1) and unwrapping wire roller (6), its characterized in that: the paying-off roller is characterized in that baffle disc plates (5) are arranged on the surfaces of the two end parts of the paying-off roller (6), each baffle disc plate (5) is fixedly provided with a shaft rod (16) at the end part, two positioning sliding support plates (7) for positioning the paying-off roller (6) are slidably arranged on the top surface of the bearing substrate (1), lifting assemblies for supporting the paying-off roller (6) in an auxiliary mode are fixedly arranged between the two positioning sliding support plates (7) and are arranged on the inner wall surface of each lifting assembly, the moving plates (9) sliding on the top surface of the bearing substrate (1) and used for supporting the corresponding baffle disc plates (5), the moving plates (9) are located below the paying-off roller (6), and positioning arc cavities (20) which are matched with the corresponding baffle disc plates (5) and are in semicircular structures are arranged on the top surface of the moving plates (9).

2. The combined cable pay-off rack structure for electric power construction according to claim 1, wherein the lifting assembly comprises a fixed frame (8) fixedly connected with the top surface of the bearing substrate (1) and in a hollow structure, an electric push rod (21) fixedly connected with the top surface of the bearing substrate (1) is arranged at the bottom of an inner cavity of the fixed frame (8), a piston block (22) sliding in the inner cavity of the fixed frame (8) is fixedly connected with the pushing end of the electric push rod (21), an auxiliary support plate (15) penetrating through the top surface of the fixed frame (8) is mounted on the upper end surface of the piston block (22), a bracket (23) attached to the surface of the shaft lever (16) is arranged in the middle of the top surface of the auxiliary support plate (15), and the top surface of the retraction height of the auxiliary support plate (15) is lower than the bottom surface of the shaft lever (16).

3. The combined cable pay-off rack structure for electric power construction according to claim 1, wherein an installation cavity (17) is arranged in the middle of the bottom surface of the moving plate (9), a transmission table (19) is fixedly connected to the bottom surface of the inner cavity of the installation cavity (17), and a linear guide rail (18) which is in a strip-shaped structure and used for sliding of the transmission table (19) is arranged in the middle of the top surface of the bearing substrate (1).

4. The combined cable pay-off rack structure for electric power construction according to claim 1, wherein a positioning sleeve (24) which is matched with the shaft lever (16) is rotatably installed on the inner wall surface of each positioning sliding support plate (7), a clamping groove (25) which protrudes outwards is formed in the inner wall surface of the positioning sleeve (24), and a lug (26) which is in sliding connection with the clamping groove (25) is installed on the end surface of the shaft lever (16).

5. The combined cable pay-off rack structure for electric power construction according to claim 1, characterized in that two guide sliding grooves (2) are formed in the top surface of the bearing substrate (1), sliding blocks (27) fixedly connected with the bottom surface of the positioning sliding support plate (7) are slidably mounted in the guide sliding grooves (2), empty cavities (3) communicated with the two guide sliding grooves (2) are formed in the bottom surface of the bearing substrate (1), two limit sliding rods (4) which are arranged in parallel are fixed in the empty cavities (3), a fixed transverse plate (10) through which the limit sliding rods (4) slide is fixedly mounted on the inner wall surface of the empty cavities (3), two sliding sleeve blocks (29) are sleeved on the surface of each limit sliding rod (4), a connecting transverse plate (11) fixedly connected with the bottom surface of each sliding sleeve block (27) is mounted on the top surface of each sliding sleeve block (29), and the connecting transverse plate (11) is provided with two connecting transverse plates.

6. The combined cable pay-off rack structure for electric power construction according to claim 5, wherein a linear air cylinder (14) is fixedly installed on the bottom surface of one connecting transverse plate (11), the pushing end of the linear air cylinder (14) is fixed with the outer surface of the fixed transverse plate (10), a deflection block (12) is rotatably arranged in the middle of the top surface of the fixed transverse plate (10), transmission rods (13) are hinged to the end parts of two ends of the deflection block (12), and the end parts of two transmission rods (13) are hinged to the top surfaces of the corresponding connecting transverse plates (11) respectively.

7. The combined cable pay-off rack structure for electric power construction according to claim 1, wherein lifting frames (28) are mounted on two sides of the middle edge of the top surface of the bearing substrate (1), a plurality of supporting feet are mounted on the bottom surface of the bearing substrate (1), and lifting eyes for lifting are arranged on the top surface of each lifting frame (28).

8. The combined cable pay-off rack structure for electric power construction according to claim 1, wherein cables are wound on the surface of the pay-off roller (6), and the diameter of the pay-off roller (6) is smaller than that of the baffle plate (5).