CN219643448U - Power cable buries underground traction equipment - Google Patents

Abstract

The utility model discloses power cable embedded traction equipment, which comprises a bottom plate, wherein the top surface of the bottom plate is provided with a fixed block, a guide rail and two mounting seats, each mounting seat comprises a movable mounting seat, a sliding groove matched with the guide rail is arranged on each movable mounting seat, an adjusting screw is rotatably arranged on each fixed block, a threaded hole matched with each adjusting screw is formed in each movable mounting seat, and a handle is arranged at the end part of each adjusting screw; the power motor is arranged in the mounting seat, the top surface of the mounting seat is provided with a fixed shell, openings are formed in the inner sides of the two fixed shells, a plurality of driving rollers are arranged between the mounting seat and the fixed shell, the output end of the power motor is in transmission connection with at least one driving roller, flexible transmission belts are arranged on the driving rollers, the front side and the rear side of the top surface of the bottom plate are provided with guide limit seats, and the guide limit seats are provided with connectors; the utility model has the advantages of convenient use, high traction efficiency and stable operation.

Description

Power cable buries underground traction equipment

Technical Field

The utility model belongs to the technical field of cable traction, and particularly relates to power cable embedded traction equipment.

Background

The cable conveyor is an electromechanical machine for cabling. The cable laying machine can be matched with a cable tractor, a lifter and other cable laying machines, is convenient and quick to construct, can greatly save manpower and material resources, and effectively reduces construction cost.

The cable conveyor has the advantages of large thrust, small volume, light weight and convenient carrying, and is particularly suitable for cable transportation occasions. The cable is pulled by clamping the cable between the roller tracks and then driving the roller tracks to move by the rotation of the motor. The use of the cable conveyor greatly reduces the workload of manually pulling the cable and improves the working efficiency.

In the prior art, when the cable conveyor is used, the incoming line and the appearance position of the cable are not fixed, the cable is easy to deviate from the position of the roller track, manual incoming line alignment and wire feeding are needed, and the operation is inconvenient; the roller track width of the cable conveyor is inconvenient to adjust, and the stability is insufficient when the cable is clamped.

Disclosure of Invention

The utility model aims at solving the problems existing in the prior art and provides power cable embedded traction equipment which has the advantages of convenience in use, high traction efficiency and stable operation.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the power cable embedded traction equipment comprises a bottom plate, wherein a fixed block, a guide rail and two mounting seats are arranged on the top surface of the bottom plate, each mounting seat comprises a fixed mounting seat and a movable mounting seat, a sliding groove matched with the guide rail is arranged on each movable mounting seat, an adjusting screw is rotatably arranged on each fixed block, a threaded hole matched with each adjusting screw is formed in each movable mounting seat, and a handle is arranged at the end part of each adjusting screw; the power motor is arranged in the mounting seat, the top surface of the mounting seat is provided with a fixed shell, openings are formed in the inner sides of the two fixed shells, a plurality of driving rollers are arranged between the mounting seat and the fixed shells, the output end of the power motor is in transmission connection with at least one driving roller, flexible transmission belts are arranged on the driving rollers, guide limit seats are arranged on the front side and the rear side of the top surface of the bottom plate, and connecting ports are arranged on the guide limit seats.

In the scheme, support fixedly through the bottom plate to the mount pad, fixed mounting seat fixed connection is at the top surface of bottom plate, movable mounting seat can slide along the guide rail, thereby adjust the interval between the drive belt of two mount pads, adjust the adjusting screw on the fixed block through the hand (hold), thereby drive movable mounting seat along the guide rail removal, screw thread lift angle on the adjusting screw does not exceed 5 in order to guarantee self-locking performance, thereby guarantee that the during operation flexible drive belt is tight with the cable clamp, power motor can drive the driving roller and rotate, and then drive the flexible drive belt and rotate, give the cable with power transmission, realize the traction to the cable, power motor's output can with driving roller fixed connection, the shaft coupling is connected or teeth of a cogwheel structure transmission is connected and is transmitted, the axis department of driving roller is provided with the axis of rotation, thereby provide the holding power when driving roller receives cable pressure, guarantee transmission stability, fixed housing is guaranteeing driving roller connection stability, the outside that can protect the flexible drive belt supplies flexible drive belt to press from both sides tight and flexible drive belt and presss from both sides tight with the connector or the flexible drive belt, avoid the flexible drive belt to tie up with the connection through the connector, the flexible drive belt is broken knots, the flexible drive belt is difficult to the position is avoided, the flexible drive belt is connected through the connection, the flexible drive roller is passed through the connector, the flexible drive cable is convenient to be broken away from both sides.

Further, the inner surface of the transmission belt is provided with a tooth-shaped connecting groove, and the side surface of the transmission roller is provided with a gear tooth structure clamped with the tooth-shaped connecting groove.

Through the tooth-shaped connecting grooves on the inner surface of the transmission belt and the gear tooth structure of the transmission roller, the transmission efficiency is improved, and the transmission belt is prevented from slipping during transmission.

Further, the guide limit seat comprises two upright posts, an upper rotating shaft and a lower rotating shaft are arranged between the two upright posts, and a guide roller is rotatably arranged on the rotating shaft.

The upright posts and the rollers form rectangular connectors, and the cable inlet and outlet ends are supported and guided by rolling of the guide rollers on the rotating shaft, so that the resistance of cable movement is reduced.

Further, a scissor type hydraulic lifting platform is arranged at the bottom of the bottom plate and comprises a hydraulic cylinder.

Can drive hydraulic lifting platform through the pneumatic cylinder and go up and down, be convenient for according to the height of cable under the different occasions, adjust the height of flexible drive belt on the mount pad, the convenient traction work to the cable.

Further, a plurality of elastic attaching parts are arranged on the surface of the transmission belt in parallel, and the elastic attaching parts are in a block shape or a strip shape.

The elastic attaching part is arranged on the surface of the transmission belt to improve the friction effect between the flexible transmission belt and the cable, and improve the transmission efficiency and the transmission stability.

Further, an arc-shaped positioning groove I is formed in the middle of the driving roller, and an arc-shaped positioning groove II corresponding to the arc-shaped positioning groove I is formed in the surface of the driving belt.

Through setting up arc constant head tank one, arc constant head tank two, carry out the location of vertical direction to the cable, avoid taking place the displacement from top to bottom between cable and the flexible drive belt, guarantee the stability of cable traction process, improve transmission efficiency.

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

1. the guide limiting seat is arranged to guide and limit the inlet and outlet ends of the cable, so that the cable is conveniently connected and matched with the flexible transmission belt, the workload of manual alignment wire feeding is reduced, and the cable is convenient to use; the arc-shaped positioning grooves are formed in the driving roller and the flexible driving belt, so that the cable can be further automatically guided and limited, the contact area is enlarged, and the traction effect is improved;

2. the distance between the movable mounting seat and the fixed mounting seat is adjusted by arranging the guide rail and the adjusting screw, so that the flexible transmission belt is convenient to use, and the stability of transmission between the flexible transmission belt and the cable is ensured;

3. the flexible transmission belt is provided with the tooth-shaped connecting grooves, the transmission roller is provided with the tooth-shaped structure, and the surface of the flexible transmission belt is provided with the elastic attaching part so as to improve the stability of transmission between the transmission belt and the transmission roller and between the transmission belt and the cable, avoid slipping and improve the traction efficiency;

4. the hydraulic lifting platform is arranged at the bottom of the bottom plate, so that the height of the flexible transmission belt on the mounting seat can be conveniently adjusted according to the height of the cable, and the hydraulic lifting platform is suitable for traction of cables with various heights and is convenient to use.

Drawings

Fig. 1 is a perspective view of embodiment 1 of the present utility model;

FIG. 2 is a top view of embodiment 1 of the present utility model;

FIG. 3 is a schematic diagram showing connection of a power motor in embodiment 1 of the present utility model;

FIG. 4 is a schematic diagram showing the connection of the supporting roller in embodiment 1 of the present utility model;

FIG. 5 is a schematic view showing the structure of a flexible transmission belt in embodiment 2 of the present utility model;

FIG. 6 is a schematic diagram showing the connection of a flexible transmission belt in embodiment 3 of the present utility model;

in the figure: 1. a bottom plate; 2. a fixed block; 3. a guide rail; 4. fixing the mounting base; 5. a movable mounting seat; 6. a chute; 7. adjusting a screw; 8. a handle; 9. a power motor; 10. a fixed housing; 11. an opening; 12. a driving roller; 13. a flexible drive belt; 14. a guide limit seat; 141. a column; 142. a rotating shaft; 143. a guide roller; 15. a connection port; 16. tooth-shaped connecting grooves; 17. a gear tooth structure; 18. a hydraulic lifting platform; 19. a hydraulic cylinder; 20. an elastic bonding part; 21. arc-shaped positioning grooves I; 22. arc-shaped positioning grooves II; 23. a supporting roller; 24. a cover plate; 25. a shaft shoulder.

Detailed Description

The following description of the embodiments of the present utility model will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by one of ordinary skill in the art without undue burden on the person of ordinary skill in the art based on embodiments of the present utility model, are within the scope of the present utility model. In the description of the present utility model, it should be noted that, the terms front, rear, left, right, and the like indicate an azimuth or a positional relationship based on that shown in the drawings, or an azimuth or a positional relationship conventionally put in use of the inventive product, are merely for convenience of describing the present utility model or simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific azimuth, be configured or operated in a specific azimuth, and thus should not be construed as limiting the present utility model.

Example 1

As shown in fig. 1-4, the power cable embedded traction device of the embodiment comprises a bottom plate 1, wherein a fixed block 2, a guide rail 3 and two mounting seats are arranged on the top surface of the bottom plate 1, each mounting seat comprises a fixed mounting seat 4 and a movable mounting seat 5, a sliding groove 6 matched with the guide rail 3 is arranged on each movable mounting seat 5, an adjusting screw 7 is rotatably arranged on each fixed block 2, a threaded hole matched with each adjusting screw 7 is formed in each movable mounting seat 5, and a handle 8 is arranged at the end part of each adjusting screw 7; the power motor 9 is arranged in the mounting seat, the top surface of the mounting seat is provided with a fixed shell 10, openings 11 are formed in the inner sides of the two fixed shells 10, a plurality of driving rollers 12 are arranged between the mounting seat and the fixed shells 10, the output end of the power motor 9 is in transmission connection with at least one driving roller 12, flexible driving belts 13 are arranged on the rotating rollers, guide limit seats 14 are arranged on the front side and the rear side of the top surface of the bottom plate 1, and connecting ports 15 are arranged on the guide limit seats 14.

In the scheme, support fixedly through bottom plate 1 to the mount pad, fixed mount pad 4 fixed connection is at the top surface of bottom plate 1, movable mount pad 5 can slide along guide rail 3, thereby adjust the interval between the drive belt of two mount pads, rotate adjusting screw 7 on the fixed block 2 through handle 8, thereby drive movable mount pad 5 along guide rail 3 removal, the screw thread lift angle on adjusting screw 7 is no longer than 5 in order to guarantee self-locking performance, thereby guarantee during operation flexible drive belt 13 with the cable clamp, power motor 9 can drive driving roller 12 rotation, and then drive flexible drive belt 13 rotates, give the cable with power transmission, realize the traction to the cable, the output of power motor 9 can be transmitted with driving roller 12 fixed connection, shaft coupling or tooth structure 17 transmission, the axis department of driving roller 12 is provided with the axis of rotation, fixed shell 10, be provided with respectively on the mount pad and be used for with the both ends normal running fit's of axis of rotation connecting hole, thereby provide the holding power when driving roller 12 receives cable pressure, guarantee transmission stability, fixed shell 10 is guaranteeing that driving roller 12 link stability, can carry out the flexible drive belt 13 with the flexible drive belt 13, the flexible drive belt 13 is connected with the flexible drive belt 13, the flexible drive belt is avoided carrying out the flexible drive belt 13 through the connection of connecting hole, the flexible drive roller 13 is realized, the flexible drive belt is realized, the flexible drive roller 13 is connected with the flexible drive belt is realized, the flexible drive roller 13 is realized, the flexible drive 13 is realized, the joint is realized and is passed through the joint, and is realized.

Two driving rollers 12 and a plurality of supporting rollers 23 are arranged between the mounting seat and the fixed shell 10, the supporting rollers 23 are arranged on the attaching side of the flexible driving belt 13 and the cable and are attached to the inner surface of the flexible driving belt 13, so that the pressing force between the flexible driving belt 13 and the cable is improved, the driving friction force is further improved, and the driving efficiency is improved. The guide rail 3 is provided with a left guide rail and a right guide rail. The fixed block 2 is provided with a counter bore groove, the end part of the adjusting screw 7 is provided with a shaft shoulder part 25 rotationally connected with the counter bore groove, and the mouth part of the counter bore groove is provided with a cover plate 24 for limiting the shaft shoulder part 25, so that the adjusting screw 7 is axially limited. The power motor 9 is arranged in the shell of the mounting seat. The flexible transmission belt 13 is made of rubber.

The guide limiting seat 14 comprises two upright posts 141, an upper rotating shaft 142 and a lower rotating shaft 142 are arranged between the two upright posts 141, and a guide roller 143 is rotatably arranged on the rotating shaft 142.

The upright post 141 and the roller form a rectangular connection port 15, and the cable is supported and guided at the entrance and exit end by rolling the guide roller 143 on the rotation shaft 142, thereby reducing the resistance to movement of the cable.

The bottom of the bottom plate 1 is provided with a scissor-type hydraulic lifting platform 18, and the hydraulic lifting platform 18 comprises a hydraulic cylinder 19.

The hydraulic lifting platform 18 can be driven to lift through the hydraulic cylinder 19, so that the height of the flexible transmission belt 13 on the mounting seat can be adjusted according to the heights of cables in different occasions, and the traction work of the cables can be facilitated.

The hydraulic lifting platform 18 comprises two pairs of scissor-type supporting rods and a base positioned at the bottom of the supporting rods, and the upper end and the lower end of each supporting rod are respectively and rotatably connected with the bottom plate 1 and the base.

Example 2

As shown in fig. 5, a power cable embedded traction device of the present embodiment is further optimized on the basis of embodiment 1:

the inner surface of the transmission belt is provided with a tooth-shaped connecting groove 16, and the side surface of the transmission roller 12 is provided with a gear tooth structure 17 clamped with the tooth-shaped connecting groove 16.

The tooth-shaped connecting grooves 16 on the inner surface of the transmission belt are matched with the gear tooth structures 17 of the transmission roller 12, so that the transmission efficiency is improved, and the transmission belt is prevented from slipping during transmission.

The surface parallel of drive belt is provided with a plurality of elasticity laminating portions 20, elasticity laminating portion 20 is cuboid cubic or strip. The elastic bonding portion 20 is made of rubber.

The friction effect between the flexible transmission belt 13 and the cable is improved by arranging the elastic attaching part 20 on the surface of the transmission belt, and the transmission efficiency and the transmission stability are improved.

Example 3

As shown in fig. 6, a power cable embedded traction device of the present embodiment is further optimized on the basis of embodiment 1:

the middle part of the driving roller 12 is provided with an arc-shaped positioning groove I21, and the surface of the driving belt is provided with an arc-shaped positioning groove II 22 corresponding to the arc-shaped positioning groove I21.

Through setting up arc constant head tank one 21, arc constant head tank two 22, carry out the location of vertical direction to the cable, avoid taking place the displacement from top to bottom between cable and flexible drive belt 13, guarantee the stability of cable traction process, improve transmission efficiency.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The power cable embedded traction equipment comprises a bottom plate and is characterized in that a fixed block, a guide rail and two installation seats are arranged on the top surface of the bottom plate, each installation seat comprises a fixed installation seat and a movable installation seat, a sliding groove matched with the guide rail is arranged on each movable installation seat, an adjusting screw is rotatably arranged on each fixed block, a threaded hole matched with each adjusting screw is formed in each movable installation seat, and a handle is arranged at the end part of each adjusting screw; the power motor is arranged in the mounting seat, the top surface of the mounting seat is provided with a fixed shell, openings are formed in the inner sides of the two fixed shells, a plurality of driving rollers are arranged between the mounting seat and the fixed shells, the output end of the power motor is in transmission connection with at least one driving roller, flexible transmission belts are arranged on the driving rollers, guide limit seats are arranged on the front side and the rear side of the top surface of the bottom plate, and connecting ports are arranged on the guide limit seats.

2. The power cable burying traction device as claimed in claim 1, wherein an inner surface of said transmission belt is provided with a tooth-shaped connecting groove, and a side surface of said transmission roller is provided with a tooth structure engaged with said tooth-shaped connecting groove.

3. The power cable burying traction device according to claim 1, wherein the guide limit seat comprises two upright posts, an upper rotating shaft and a lower rotating shaft are arranged between the two upright posts, and a guide roller is rotatably arranged on the rotating shaft.

4. The power cable burying traction device as claimed in claim 1, wherein a hydraulic lifting platform of a scissor fork type is provided at the bottom of said base plate, said hydraulic lifting platform comprising a hydraulic cylinder.

5. The power cable burying traction device as claimed in claim 1, wherein a plurality of elastic attaching portions are arranged on the surface of the transmission belt in parallel, and the elastic attaching portions are in a block shape or a strip shape.

6. The power cable burying traction device according to claim 1, wherein an arc-shaped positioning groove I is formed in the middle of the driving roller, and an arc-shaped positioning groove II corresponding to the arc-shaped positioning groove I is formed in the surface of the driving belt.