An electrical power engineering cable laying device

The universal wheel structure, which combines a drive motor and a threaded sleeve, solves the problem of poor stability in traditional cable laying devices, achieving stable support and flexible movement of cables, and improving the efficiency of cable winding and laying.

CN224401024UActive Publication Date: 2026-06-23SHANDONG GUOKUN ELECTRIC POWER ENGINEERING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG GUOKUN ELECTRIC POWER ENGINEERING CO LTD
Filing Date
2025-07-29
Publication Date
2026-06-23

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    Figure CN224401024U_ABST
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Abstract

The utility model discloses a kind of electric power engineering cable laying device, it includes: moving frame, the upper side of the moving frame is fixedly connected with side plate frame, the inside of the side plate frame is rotatably connected with winding roller, the upper surface rear side one end of the moving frame is fixedly connected with motor box, the one end of motor box and winding roller is fixedly connected with belt pulley, belt main body is sleeved between the belt pulley, the upper side front side middle part of the moving frame is fixedly connected with fixed sleeve block, the front side middle part of the moving frame is fixedly connected with support base plate, the upper side of the support base plate is fixedly connected with rotating frame, the bottom end of the moving frame four corners is fixedly connected with support sleeve seat. By being provided with: motor box, belt main body and winding roller, when cable is wound, motor box drives the rotation of belt pulley, belt main body can be rotated, winding roller is wound, and cable is recycled conveniently.
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Description

Technical Field

[0001] This utility model relates to the field of cable laying technology, and in particular to a cable laying device for power engineering. Background Technology

[0002] Cable laying is a core component of infrastructure construction for power, communications, and other industries. It primarily involves safely laying cables to their target locations through methods such as direct burial, conduit installation, cable trays, or overhead laying. Construction must strictly adhere to standardized procedures, including route planning, trench excavation, cable laying, insulation testing, and backfilling protection, to ensure waterproofing, pressure resistance, and interference prevention. Professional teams select specialized cables such as armored and flame-retardant cables based on the environment and employ mechanical traction or manual laying to improve efficiency. Widely used in urban power grid upgrades, rail transit, and 5G base station construction, it is a key technology for ensuring energy transmission and information connectivity.

[0003] In existing technologies, cables need to be wound up and released during the laying process to pass through the duct. However, traditional equipment uses a roller frame structure to facilitate winding and position movement. However, the cable itself is heavy during use, resulting in poor stability. Workers need to use a plate structure to limit the position of the rollers to prevent position movement, thus causing poor stability during use. Utility Model Content

[0004] The purpose of this utility model is to provide a power engineering cable laying device, which solves the problem that traditional equipment uses a roller frame structure for easy winding and position movement, but the cable itself is heavy during use, resulting in poor stability, and requires workers to limit the rollers by using a plate structure.

[0005] To achieve the above objectives, a power engineering cable laying device is provided, comprising: a movable frame, side plate frames fixedly connected to both sides of the upper part of the movable frame, a winding roller rotatably connected to the inner side of the side plate frames, a motor box fixedly connected to one end of the upper surface of the movable frame, pulleys fixedly connected to one end of the motor box and the winding roller, a belt body sleeved between the pulleys, a fixed sleeve block fixedly connected to the middle of the upper front side of the movable frame, a support base plate fixedly connected to the middle of the front side of the movable frame, a rotating frame fixedly connected above the support base plate, and support sleeve seats fixedly connected to the four corners of the bottom of the movable frame.

[0006] According to the aforementioned power engineering cable laying device, a fixed wheel is fixedly connected to the top of the inner side of the fixed sleeve, and a buffer auxiliary wheel is provided at the bottom of the inner side of the fixed sleeve.

[0007] According to the aforementioned power engineering cable laying device, a support spring is fixedly connected between the bottom end of the buffer auxiliary wheel and the fixed sleeve block.

[0008] According to the aforementioned power engineering cable laying device, a handle is fixedly connected to the rear top of the mobile frame.

[0009] According to the aforementioned power engineering cable laying device, a drive motor is fixedly connected to the top of the inner part of the support sleeve base, and a threaded sleeve is fixedly connected to the drive end of the drive motor.

[0010] According to the aforementioned power engineering cable laying device, the internal thread of the threaded sleeve is connected to a threaded post, and the bottom end of the threaded post is rotatably connected to a caster wheel.

[0011] According to the aforementioned power engineering cable laying device, both sides of the threaded column are fixedly connected to limit crossbars, and the limit crossbars and the support sleeve seat are in sliding fit.

[0012] According to the aforementioned power engineering cable laying device, a control switch is fixedly connected to the front side of the support sleeve seat.

[0013] The above-mentioned solution has the following beneficial effects:

[0014] 1. This utility model is equipped with a drive motor, a threaded sleeve, a threaded column, a universal wheel, and a support sleeve seat. The drive motor drives the threaded sleeve to rotate, and the threaded sleeve engages with the threaded column to achieve threaded movement. During the movement, the two sides of the limiting crossbar and the support sleeve seat slide to maintain the limiting function. This ensures that the universal wheel extends downward and the thread retracts inside the support sleeve seat, which is convenient for adjustment and control as needed. This structure facilitates stable support and intelligent adjustment and control of position movement.

[0015] 2. This utility model is equipped with a motor box, a belt body and a winding roller. When the cable needs to be wound up, the motor box drives the belt pulley to rotate, which in turn rotates the belt body and winds up the winding roller, making it convenient to recycle the cable.

[0016] Additional aspects and advantages of this invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description

[0017] The present invention will be further described below with reference to the accompanying drawings and embodiments;

[0018] Figure 1 This is a three-dimensional structural diagram of a power engineering cable laying device according to the present invention;

[0019] Figure 2 This is a front view of a power engineering cable laying device according to the present invention;

[0020] Figure 3 This is an enlarged three-dimensional view of the fixed wheel structure of a power engineering cable laying device according to this utility model;

[0021] Figure 4 This is a front view of the cross-section of a support sleeve seat for a power engineering cable laying device according to this utility model.

[0022] Legend:

[0023] The components include: 1. Movable frame; 2. Rewinding roller; 3. Handle; 4. Fixed sleeve block; 5. Rotating frame; 6. Support base plate; 7. Side plate frame; 8. Motor box; 9. Belt body; 10. Control switch; 11. Casters; 12. Fixed wheels; 13. Buffer auxiliary wheels; 14. Drive motor; 15. Threaded sleeve; 16. Threaded column; 17. Limiting crossbar; 18. Support sleeve seat. Detailed Implementation

[0024] This section will describe in detail the specific embodiments of the present utility model. The preferred embodiments of the present utility model are shown in the accompanying drawings. The purpose of the drawings is to supplement the textual description with graphics, so that people can intuitively and vividly understand each technical feature and the overall technical solution of the present utility model, but they should not be construed as limiting the scope of protection of the present utility model.

[0025] Reference Figure 1-4This utility model discloses a power engineering cable laying device, comprising: a movable frame 1, with side plate frames 7 fixedly connected to both sides of the upper part of the movable frame 1, and a winding roller 2 rotatably connected to the inner side of the side plate frames 7. A motor box 8 is fixedly connected to one end of the upper surface of the movable frame 1. When the cable needs to be wound up, the motor box 8 drives the pulley to rotate, which in turn rotates the belt body 9, thereby winding up the winding roller 2 and facilitating cable recovery. A pulley is fixedly connected to one end of both the motor box 8 and the winding roller 2, and the belt body 9 is sleeved between the pulleys. A fixed sleeve block 4 is fixedly connected to the middle of the upper front side of the movable frame 1. By passing the cable through the fixed sleeve block 4 and supporting it with the rotating frame 5, the cable can be discharged, realizing the laying position as required. For laying, a support base plate 6 is fixedly connected to the front center of the movable frame 1. A rotating frame 5 is fixedly connected above the support base plate 6. Support sleeve seats 18 are fixedly connected to the four corners of the bottom of the movable frame 1. A drive motor 14 is fixedly connected to the top of the inside of the support sleeve seat 18. A threaded sleeve 15 is fixedly connected to the drive end of the drive motor 14. When the threaded sleeve 15 rotates, it engages with the threaded post 16 to achieve threaded movement. The threaded post 16 is threadedly connected inside the threaded sleeve 15. A universal wheel 11 is rotatably connected to the bottom of the threaded post 16. The universal wheel 11 can achieve telescopic control, which facilitates position movement and provides stable support. The downward extension and thread retraction of the universal wheel 11 are inside the support sleeve seat 18, which facilitates adjustment and control as needed.

[0026] A fixed wheel 12 is fixedly connected to the top of the fixed sleeve 4. A buffer auxiliary wheel 13 is provided at the bottom of the fixed sleeve 4. A support spring is fixedly connected between the bottom of the buffer auxiliary wheel 13 and the fixed sleeve 4. A handle 3 is fixedly connected to the top of the rear side of the movable frame 1. During use, the movable frame 1 can be pushed by the handle 3. The universal wheel 11 at the bottom supports the ground and can move the position. Limiting crossbars 17 are fixedly connected to both sides of the threaded column 16. During the movement, the two sides of the limiting crossbars 17 and the support sleeve seat 18 slide to maintain the limiting function. The limiting crossbars 17 and the support sleeve seat 18 slide to each other. A control switch 10 is fixedly connected to the front side of the support sleeve seat 18. The control switch 10 drives the drive motor 14 and drives the threaded sleeve 15 to rotate.

[0027] Working Principle: During use, the cable is passed through the fixed sleeve 4 and supported by the rotating frame 5, allowing the cable to be discharged and laid at the desired location. During use, the movable frame 1 can be pushed using the handle 3, while the universal wheels 11 at the bottom support the ground, enabling movement. The universal wheels 11 have a telescopic structure, facilitating movement and providing stable support. At this time, the control switch 10 drives the drive motor 14, causing the threaded sleeve 15 to rotate and engage with the threaded post 16, achieving threaded movement. During movement, the two sides of the limiting crossbar 17 and the supporting sleeve seat 18 slide together, maintaining the limiting function and keeping the downward extension of the universal wheels 11 and the threaded retraction within the supporting sleeve seat 18, allowing for easy adjustment and control. When cable winding is required, the motor box 8 drives the pulley to rotate, which in turn rotates the belt body 9, winding the take-up roller 2 to facilitate cable recovery.

[0028] The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings. However, the present utility model is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present utility model.

Claims

1. A power cable laying device, comprising: The mobile frame (1) is characterized in that side plate frames (7) are fixedly connected to both sides of the upper part of the mobile frame (1), and a winding roller (2) is rotatably connected to the inner side of the side plate frame (7). A motor box (8) is fixedly connected to one end of the upper surface of the mobile frame (1). A pulley is fixedly connected to one end of the motor box (8) and the winding roller (2). A belt body (9) is sleeved between the pulleys. A fixed sleeve block (4) is fixedly connected to the middle of the upper front side of the mobile frame (1). A support base plate (6) is fixedly connected to the middle of the front side of the mobile frame (1). A rotating frame (5) is fixedly connected to the upper part of the support base plate (6). A support sleeve seat (18) is fixedly connected to the four corners of the bottom end of the mobile frame (1).

2. The power engineering cable laying device according to claim 1, characterized in that, The fixed top of the fixed sleeve (4) is fixedly connected to a fixed wheel (12), and the bottom of the fixed sleeve (4) is provided with a buffer auxiliary wheel (13).

3. The power engineering cable laying device according to claim 2, characterized in that, A support spring is fixedly connected between the bottom end of the buffer auxiliary wheel (13) and the fixed sleeve block (4).

4. The power engineering cable laying device according to claim 1, characterized in that, A handle (3) is fixedly connected to the rear top of the mobile frame (1).

5. A power engineering cable laying device according to claim 1, characterized in that, The top of the inner end of the support sleeve (18) is fixedly connected to a drive motor (14), and the drive end of the drive motor (14) is fixedly connected to a threaded sleeve (15).

6. A power engineering cable laying device according to claim 5, characterized in that, The threaded sleeve (15) is internally threaded with a threaded post (16), and the bottom end of the threaded post (16) is rotatably connected with a caster wheel (11).

7. A power engineering cable laying device according to claim 6, characterized in that, Both sides of the threaded column (16) are fixedly connected to limit crossbars (17), and the limit crossbars (17) and the support sleeve seat (18) are in sliding fit.

8. A power engineering cable laying device according to claim 1, characterized in that, A control switch (10) is fixedly connected to the front side of the support sleeve seat (18).