A device for constructing a slope surface
By using a combination of rail wheels, nylon ropes, and roller assemblies, automated transportation of hexagonal bricks was achieved, solving the problems of heavy workload and safety hazards associated with manual handling of hexagonal bricks, and improving construction efficiency and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI TENGTAI CONSTR ENG CO LTD
- Filing Date
- 2025-07-30
- Publication Date
- 2026-06-23
AI Technical Summary
In the current slope protection construction, the manual handling of hexagonal bricks is labor-intensive and poses significant safety hazards, which urgently needs to be improved.
Using a combination of rail wheels, nylon ropes, and roller assemblies, hexagonal bricks are placed in the brick storage trough. The motor drives the nylon rope to wind up, moving the trolley up the trough to the slope, where personnel can retrieve them. This cyclical operation replaces manual transportation.
It reduces manpower burden, improves construction safety, reduces frictional resistance and noise pollution, and lowers power supply costs.
Smart Images

Figure CN224395598U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of slope construction technology, specifically a slope protection construction device. Background Technology
[0002] A slope is a slope with a certain gradient that is made on both sides of the roadbed to ensure the stability of the roadbed. During the construction of the slope protection, hexagonal bricks need to be laid in some areas.
[0003] In the process of realizing this utility model, the inventors discovered that the following problems in the prior art have not been solved: In the existing slope protection construction process, in order to reduce costs, some people do not use large equipment to transport hexagonal bricks, but instead rely on manpower to carry hexagonal bricks from a low position to the vicinity of the slope laying personnel. This method is labor-intensive and has great safety hazards, and urgently needs to be improved. Therefore, we propose a slope protection construction device. Utility Model Content
[0004] The purpose of this invention is to provide a slope protection construction device that solves the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a slope protection construction device, comprising a concave plate, a trolley placed at the bottom of the concave plate, and a gantry frame fixedly installed on one side of the bottom of the concave plate;
[0006] The concave plate has rolling grooves on both sides of its sidewalls, and a strip groove is formed on the side of the concave plate near the rolling groove.
[0007] The trolley has an integrally formed brick storage trough. At each of the four corners of the trolley, a rail wheel is rotatably connected via a wheel frame, and the rail wheel is located in a groove. A connecting rod is fixedly installed on the top of the trolley.
[0008] A wheel frame is fixedly installed on one side of the top of the concave plate. A guide wheel is rotatably connected to the inner side of the wheel frame through a bearing. A nylon rope is placed in the middle of the groove of the guide wheel.
[0009] A motor is fixedly installed on the outside of the gantry frame, and a roller is fixedly installed on the inside of the motor's drive shaft. One end of a nylon rope is wound and fixed on the roller. The device can be used in conjunction with components such as rail wheels, nylon rope, and roller. During the construction process, hexagonal bricks can be placed in the brick storage trough. Then, the motor drives the roller to rotate, and the roller can wind up the nylon rope. With the help of guide wheels, the nylon rope can move the trolley upward. The trolley moves along the chute to the vicinity of the personnel laying bricks on the slope. The personnel take the bricks, and then the roller rotates back to reset the trolley. This cycle is repeated. This simple brick-carrying structure replaces manual labor, reduces the burden of manpower, and is relatively safe.
[0010] As an optional solution to the technical solution of this application, anti-detachment blocks are fixedly installed on both sides of the middle part of the trolley, and the anti-detachment blocks are located in the strip groove. The front and rear end faces and both sides of the ends of the anti-detachment blocks are provided with ball grooves. Rolling balls are movably locked in the ball grooves. The anti-detachment blocks and strip grooves can be used in conjunction with other components. During the movement of the trolley, the anti-detachment blocks can move in the strip grooves to prevent the trolley from detaching. At the same time, the setting of the rolling balls can reduce frictional resistance when the anti-detachment blocks contact the concave plate, making the lifting and lowering of the trolley smoother and avoiding excessive noise pollution.
[0011] As an optional solution to the technical solution of this application, a storage battery is fixedly installed at the bottom of the gantry frame, and the storage battery is electrically connected to the motor through a wire. Power can be provided by the storage battery, avoiding the need to pull excessively long wires and reducing the cost of power supply.
[0012] As an optional solution to the technical solution of this application, ear plates are fixedly installed on both sides of the concave plate, and an indicator sign is fixedly installed on the side of the concave plate near the gantry. The ear plates can temporarily limit the concave plate, and the indicator sign can introduce and promote the product, which meets the requirements.
[0013] As an optional solution to the technical solution of this application, a hanging ring is fixedly installed on the top of the connecting rod, and a nylon rope is wound and fixed on the hanging ring, so that the rope is wound and fixed to the hanging ring. Compared with directly winding it on the connecting rod, this can prevent the nylon rope from slipping and wearing out, and extend its service life.
[0014] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0015] 1. This utility model discloses a slope protection construction device. By setting up a track wheel, nylon rope, and roller, hexagonal bricks can be placed in the brick storage trough during the construction process. Then, the motor drives the roller to rotate, and the roller can wind up the nylon rope. With the help of the guide wheel, the nylon rope can drive the trolley to move upward. The trolley moves along the roller trough to the vicinity of the personnel laying bricks on the slope. The personnel take the bricks away, and then the roller rotates back to reset the trolley. This cycle is repeated. This simple brick transportation structure replaces manual labor, reduces the burden of manpower, and is relatively safe.
[0016] 2. This utility model discloses a slope protection construction device. By setting anti-detachment blocks and strip grooves, the anti-detachment blocks can move in the strip grooves during the movement of the trolley, which can prevent the trolley from detaching. At the same time, the setting of ball bearings can reduce frictional resistance when the anti-detachment blocks contact the concave plate, making the trolley lifting and lowering smoother and avoiding excessive noise pollution. Attached Figure Description
[0017] Other features, objects, and advantages of this invention will become more apparent from the following detailed description of non-limiting embodiments with reference to the accompanying drawings:
[0018] Figure 1 This is a schematic diagram of the overall main structure of a slope protection construction device according to the present invention;
[0019] Figure 2 This is a schematic diagram of the connection between the trolley and the concave plate of a slope protection construction device according to this utility model.
[0020] Figure 3 This is a schematic diagram of the enlarged cross-section of point A of the slope protection construction device of this utility model.
[0021] In the diagram: 1. Concave plate; 11. Ear plate; 12. Roller groove; 13. Strip groove; 2. Trolley; 21. Brick storage trough; 22. Track wheel; 23. Connecting rod; 24. Anti-detachment block; 25. Ball bearing; 26. Ball groove; 3. Gantry frame; 31. Motor; 32. Wire roller; 4. Guide wheel; 41. Wheel frame; 42. Nylon rope; 43. Hanging ring. Detailed Implementation
[0022] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0023] Please see Figure 1-3 This utility model provides a technical solution: a slope protection construction device, including a concave plate 1, with ear plates 11 fixedly installed on both sides of the concave plate 1. An indicator sign is fixedly installed on the side of the concave plate 1 near the gantry 3, which can temporarily limit the concave plate 1 through the ear plates 11, and at the same time introduce and promote products through the indicator sign to meet the needs. A trolley 2 is placed at the bottom inside the concave plate 1, and a gantry 3 is fixedly installed on the bottom of one side of the concave plate 1. Rolling grooves 12 are opened on both sides of the concave plate 1, and a strip groove 13 is opened on the side of the side wall of the concave plate 1 near the rolling groove 12. A brick storage trough 21 is integrally formed inside the trolley 2. The four corners of the trolley 2 are rotatably connected to rail wheels 22 through wheel frames, and the rail wheels 22 are located in the rolling grooves 12. A connecting rod 23 is fixedly installed on the top of the trolley 2. A hanging ring 43 is fixedly installed on the top of the connecting rod 23, and a nylon rope 42 is wound and fixed on the hanging ring 43. The rope is wound and fixed to the hanging ring 43, which can prevent the nylon rope 42 from slipping and wearing compared to directly winding it on the connecting rod 23, thus extending its service life. A wheel frame 41 is fixedly installed on one side of the top of the concave plate 1. A guide wheel 4 is rotatably connected to the inner side of the wheel frame 41 through a bearing. A nylon rope 42 is placed in the middle of the groove of the guide wheel 4. A motor 31 is fixedly installed on the outer side of the gantry frame 3. A battery is fixedly installed at the bottom of the gantry frame 3. The battery is electrically connected to the motor 31 through a wire. Power can be provided by the battery, avoiding the need to pull excessively long wires and reducing the cost of power supply. A wire roller 32 is fixedly installed on the inner side of the drive shaft of the motor 31. One end of the nylon rope 42 is wound and fixed on the wire roller 32.
[0024] In this technical solution, components such as rail wheels 22, nylon ropes 42, and wire rollers 32 can be used together. During the construction process, hexagonal bricks can be placed in the brick storage trough 21. Then, the motor 31 drives the wire rollers 32 to rotate, and the wire rollers 32 can wind up the nylon ropes 42. With the help of the guide wheels 4, the nylon ropes 42 can drive the trolley 2 to move upward. The trolley 2 moves along the roller trough 12 to the vicinity of the personnel laying bricks on the slope. The personnel take the bricks away, and then the wire rollers 32 are rotated to reset the trolley 2. This cycle is repeated. This simple brick-carrying structure replaces manpower, reduces the burden of manpower, and is relatively safe.
[0025] In some technical solutions, anti-detachment blocks 24 are fixedly installed on both sides of the middle part of the trolley 2, and the anti-detachment blocks 24 are located in the strip groove 13. The front and rear end faces and the two sides of the ends of the anti-detachment blocks 24 are provided with ball grooves 26, and the ball grooves 26 are movable and locked with balls 25.
[0026] In this technical solution, components such as anti-detachment block 24 and strip groove 13 can be used together. During the movement of the trolley, the anti-detachment block 24 can move within the strip groove 13 to prevent the trolley from detaching. At the same time, the setting of ball bearing 25 can reduce frictional resistance when the anti-detachment block 24 contacts the concave plate 1, making the lifting and lowering of the trolley 2 smoother and avoiding excessive noise pollution.
[0027] Working principle: It should be noted that this utility model is a slope protection construction device. All components are general standard parts or parts known to those skilled in the art. Its structure and principle can be learned by those skilled in the art through technical manuals or conventional test methods.
[0028] When using a slope protection construction device, the device is placed in the slope protection construction area and then tilted on the slope. The device can be temporarily limited by applying pressure and contact with the bottom of the concave plate 1 by an object, or by the positioning cone penetrating through the positioning hole of the ear plate 11. During this period, the device can provide hexagonal bricks for transmission and conveying, which is beneficial to the slope construction.
[0029] By setting up a track wheel 22, nylon rope 42, and wire roller 32, hexagonal bricks can be placed in the brick storage trough 21 during the construction process. Then, the motor 31 drives the wire roller 32 to rotate, and the wire roller 32 can wind up the nylon rope 42. With the help of the guide wheel 4, the nylon rope 42 can drive the trolley 2 to move upward. The trolley 2 moves along the roller groove 12 to the vicinity of the personnel laying bricks on the slope. The personnel take it away, and then the wire roller 32 rotates back to reset the trolley 2. This cycle is repeated. This simple brick transport structure replaces manpower, reduces the burden of manpower, and is safer. By setting up an anti-detachment block 24 and a strip groove 13, the anti-detachment block 24 can move in the strip groove 13 during the movement of the trolley, which can prevent the trolley from detaching. At the same time, the setting of the ball bearing 25 can reduce the frictional resistance when the anti-detachment block 24 contacts the concave plate 1, making the lifting and lowering of the trolley 2 smoother and avoiding excessive noise pollution.
Claims
1. A slope protection construction device, characterized in that: Includes a concave plate (1), a trolley (2) is placed at the bottom inside the concave plate (1), and a gantry frame (3) is fixedly installed on one side of the bottom of the concave plate (1); The concave plate (1) has rolling grooves (12) on both sides of its sidewalls, and a strip groove (13) is provided on the side of the concave plate (1) near the rolling grooves (12). The trolley (2) is integrally formed with a brick storage trough (21). At the four corners of the trolley (2), there are rail wheels (22) rotatably connected by wheel frames, and the rail wheels (22) are located in the groove (12). A connecting rod (23) is fixedly installed on the top of the trolley (2). A wheel frame (41) is fixedly installed on one side of the top of the concave plate (1). A guide wheel (4) is rotatably connected to the inner side of the wheel frame (41) through a bearing. A nylon rope (42) is placed in the middle of the groove of the guide wheel (4). A motor (31) is fixedly installed on the outside of the gantry frame (3), and a wire roller (32) is fixedly installed on the inside of the drive shaft of the motor (31). One end of a nylon rope (42) is wound and fixed on the wire roller (32).
2. The slope protection construction device according to claim 1, characterized in that: Anti-detachment blocks (24) are fixedly installed on both sides of the middle part of the trolley (2), and the anti-detachment blocks (24) are located in the strip groove (13). The front and rear end faces and the two sides of the end of the anti-detachment blocks (24) are provided with bead grooves (26), and rolling balls (25) are movably locked in the bead grooves (26).
3. The slope protection construction device according to claim 1, characterized in that: A battery is fixedly installed at the bottom of the gantry (3), and the battery is electrically connected to the motor (31) through wires.
4. The slope protection construction device according to claim 1, characterized in that: Ear plates (11) are fixedly installed on both sides of the concave plate (1), and an indicator sign is fixedly installed on the side of the concave plate (1) near the gantry (3).
5. A slope protection construction device according to claim 1, characterized in that: The top of the connecting rod (23) is fixedly equipped with a hanging ring (43), and a nylon rope (42) is wrapped and fixed on the hanging ring (43).