A movable slope safety working device
By designing a mobile slope safety operation device, the safety hazards and low efficiency of channel slope operations have been solved, and the safety and efficiency of slope operations have been improved. It is suitable for the South-to-North Water Diversion Project.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HENAN BRANCH OF CHINA SOUTH TO NORTH WATER TRANSFER GRP MIDDLE LINE CO LTD
- Filing Date
- 2025-07-07
- Publication Date
- 2026-06-23
Smart Images

Figure CN224395487U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of water conservancy engineering technology, and in particular to a mobile slope safety operation device. Background Technology
[0002] In the South-to-North Water Diversion Project, slope work along the canals is frequent and often involves numerous and complex tasks. Construction on slopes typically involves manual safety rope securing workers, but this method presents certain safety hazards, requires multiple workers, is often inefficient, and offers limited safety protection. These issues have become common challenges in water-adjacent slope construction along canals, impacting not only the project's progress and quality but also the safety of workers. Utility Model Content
[0003] The purpose of this invention is to provide a mobile slope safety operation device to solve the above-mentioned problems.
[0004] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:
[0005] This utility model discloses a movable slope safety operation device, including a working platform. Several movable support components are connected to the bottom of the working platform, and the bottom of each movable support component contacts the slope surface. Side plates are connected to both ends of the working platform. A connecting plate is provided below the bottom surface of the two side plates near the slope surface. Grooves are formed on opposite sides of the two connecting plates, and serrations are provided on the upper and lower surfaces of the grooves. Gears meshing with the serrations are provided within the grooves. The gears are driven by a motor connected to a mounting plate. The mounting plate is connected to the end of the working platform near the slope surface, and the other end of the connecting plate is hinged to the mounting components.
[0006] Furthermore, the mobile support assembly includes a support rod connected to the end of the bottom surface of the work platform away from the slope. The support rod is L-shaped and is fixed to the work platform by bolts. Both ends of the support rod are respectively connected to casters and caster pads.
[0007] Furthermore, the work platform has several strip-shaped holes, and a support mesh is connected inside the strip-shaped holes.
[0008] Furthermore, the work platform is equipped with guardrails, and the guardrails are fitted with protective netting.
[0009] Furthermore, the side wall of the connecting plate is provided with several side holes, one of which is into which a fixing hook is inserted. Several fixing holes are provided on each side plate, and the other end of the fixing hook is hooked into the fixing hole.
[0010] Furthermore, the installation assembly includes two symmetrically arranged U-shaped frames straddling the wave-breaking wall and a track connected to the bottom of the front and rear ends of the wave-breaking wall. The two U-shaped frames are connected by a linkage plate. Both ends of the bottom of each U-shaped frame are rotatably connected to a track wheel, which is rolled on the track. Each U-shaped frame has a threaded hole, and a fastening bolt is threaded into the threaded hole. A hinge is connected to the bottom end of the U-shaped frame near the slope, and the hinge is hinged to the top of the connecting plate by a pin.
[0011] Furthermore, the installation assembly includes two symmetrically arranged U-shaped frames 2 straddling the curb, the two U-shaped frames 2 being connected by a linkage plate 2, an extension platform being connected to the bottom of the U-shaped frame 2 away from the slope, a counterweight being installed on the extension platform, and a hinge 2 being connected to the bottom of the U-shaped frame 2 near the slope, the hinge 2 being hinged to the top of the connecting plate by a pin.
[0012] Furthermore, the bottom of the extension platform is provided with an insertion hole, and the bottom of the counterweight is connected to an insertion block that matches the insertion hole, and the insertion block is inserted into the insertion hole.
[0013] Compared with the prior art, the beneficial technical effects of this utility model are as follows:
[0014] This invention enables the equipment to be installed on a wave-breaking wall or curbstone using an installation component, allowing the working platform to be set on a slope. Furthermore, the height of the working platform can be flexibly adjusted according to the construction situation through gear drive, thereby improving the mobility of the equipment. Attached Figure Description
[0015] The present invention will be further described below with reference to the accompanying drawings.
[0016] Figure 1 This is a side view of an embodiment;
[0017] Figure 2 This is a schematic diagram of the operating platform structure in Example 1;
[0018] Figure 3 This is a schematic diagram of the gear mounting structure in Example 1.
[0019] Figure 4 This is a schematic diagram of the installation component structure in Example 1;
[0020] Figure 5 This is a side view of the motor mounting in Example 1;
[0021] Figure 6 This is a side view of Example 2;
[0022] Figure 7This is a schematic diagram of the installation component structure in Example 2;
[0023] Figure 8 This is a schematic diagram of the counterweight installation structure in Example 2;
[0024] Explanation of reference numerals in the attached drawings: 1. Working platform; 2. Side plate; 3. Connecting plate; 4. Groove; 5. Serrated edge; 6. Gear; 7. Mounting plate; 8. Motor; 9. Support rod; 10. Caster wheel; 11. Strip hole; 12. Guardrail; 13. Fixing hook; 14. Fixing hole; 15. U-shaped frame one; 16. Track; 17. Linkage plate one; 18. Track wheel; 19. Hinge one; 20. U-shaped frame two; 21. Linkage plate two; 22. Extension platform; 23. Counterweight; 24. Hinge two; 25. Insertion hole; 26. Insertion block; 27. Side hole; 28. Universal support pad. Detailed Implementation
[0025] Example 1
[0026] like Figure 1-5 As shown, a movable slope safety operation device includes a working platform 1. Several movable support components are connected to the bottom of the working platform 1, with the bottom of each component in contact with the slope surface. Each movable support component includes a support rod 9 connected to the end of the working platform 1 away from the slope surface. The support rod 9 is L-shaped and fixed to the working platform 1 by bolts. A threaded hole is provided on the support rod 9. A fixing plate is connected to the bottom surface of the working platform 1. The bolts pass through a through hole in the fixing plate and are threaded into the threaded hole, thus fixing the support rod 9 to the fixing plate. Universal wheels 10 and universal support pads 28 are connected to both ends of the support rod 9, respectively. The movement of the universal wheels 10 can move the working platform 1 on the slope surface. Alternatively, the support rod 9 can be removed according to actual needs, and the positions of the universal wheels 10 and universal support pads 28 can be interchanged before reinstalling the support rod 9, allowing the universal support pads 28 to contact the ground for support.
[0027] The work platform 1 has several strip-shaped holes 11, and a support net is connected inside the strip-shaped holes 11. This reduces the weight of the work platform 1 without affecting the worker's standing position.
[0028] The work platform 1 is equipped with a guardrail 12, which has a protective net to effectively prevent personnel and construction waste from falling into the channel and improve the protection effect.
[0029] Both ends of the work platform 1 are connected to side plates 2. A connecting plate 3 is provided below the bottom surface of the two side plates 2 near the slope. Grooves 4 are provided on the two opposite sides of the two connecting plates 3. Saw teeth 5 are provided on the upper and lower surfaces of the grooves 4. Gears 6 that mesh with the saw teeth 5 are provided in the grooves 4. The gears 6 are driven by a motor 8 connected to a mounting plate 7. The mounting plate 7 is connected to the end face of the work platform 1 near the slope. The motor 8 drives the gears 6 to move in the grooves 4, thereby driving the side plates 2 and the work platform 1 to move up and down.
[0030] The side wall of the connecting plate 3 has several side holes 27, and a fixing hook 13 is inserted into one of the side holes 27. The side plate 2 has several fixing holes 14. The other end of the fixing hook 13 is hooked into the fixing hole 14. After the working platform 1 is moved to a suitable height, one end of the fixing hook 13 is inserted into the side hole 27 at the appropriate height, and then the other end of the fixing hook 13 is inserted into the appropriate fixing hole 14 to make the working platform more stable.
[0031] The other end of the connecting plate 3 is hinged to the mounting assembly, which includes two symmetrically arranged U-shaped frames 15 spanning the wave-breaking wall and a track 16 connected to the bottom of the front and rear ends of the wave-breaking wall. The two U-shaped frames 15 are connected by a linkage plate 17. Each bottom end of the U-shaped frame 15 is rotatably connected to a track wheel 18, which rolls onto the track 16. The U-shaped frame 15 has threaded holes with fastening bolts threaded into them. A hinge 19 is connected to the bottom end of the U-shaped frame 15 near the slope, and the hinge 19 is hinged to the top of the connecting plate 3 via a pin. The tail of the fastening bolt presses against the wave-breaking wall, thus fixing the U-shaped frame 15 to the wave-breaking wall. By moving the position of the U-shaped frame 15, the lateral position of the working platform 1 can be adjusted, allowing the entire working platform 1 to move along the wave-breaking wall and to the construction position for operation.
[0032] Example 2
[0033] like Figure 6-8 As shown, in Embodiment 1, with other structures remaining unchanged, the installation assembly includes two symmetrically arranged U-shaped frames 20 spanning the curb. The two U-shaped frames 20 are connected by a linkage plate 21. An extension platform 22 is connected to the bottom of the U-shaped frame 20 away from the slope. A counterweight 23 is installed on the extension platform 22. A hinge 24 is connected to the bottom of the U-shaped frame 20 near the slope. The hinge 24 is hinged to the top of the connecting plate 3 by a pin.
[0034] The bottom of the extension platform 22 is provided with an insertion hole 25, and the bottom of the counterweight block 23 is connected to an insertion block 26 that matches the insertion hole 25. The insertion block 26 is inserted into the insertion hole 25. The extension platform 22 can be equipped with different numbers of counterweight blocks 23 according to different load conditions of the working platform 1, which further improves the safety of the equipment, thereby effectively improving construction efficiency and safety protection. It can be widely used in the construction of various slope projects along the South-to-North Water Diversion Project, and the overall structure is simple, easy to install and operate.
[0035] A dedicated power distribution box can be installed on the wave-breaking wall or curb to facilitate temporary power supply and control of transmission equipment.
[0036] The embodiments described above are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model. Various modifications and improvements made to the technical solutions of the present utility model by those skilled in the art without departing from the spirit of the present utility model should fall within the protection scope defined by the claims of the present utility model.
Claims
1. A mobile slope safety operation device, characterized in that: The system includes a work platform (1), with several movable support components connected to the bottom of the work platform (1). The bottom of the movable support components is in contact with the slope. Both ends of the work platform (1) are connected to side plates (2). A connecting plate (3) is provided below the bottom surface of the two side plates (2) near the slope. Grooves (4) are provided on the two opposite sides of the two connecting plates (3). Sawtooth teeth (5) are provided on the upper and lower surfaces of the grooves (4). Gears (6) that mesh with the sawtooth teeth (5) are provided in the grooves (4). The gears (6) are driven by a motor (8) connected to a mounting plate (7). The mounting plate (7) is connected to the end face of the work platform (1) near the slope. The other end of the connecting plate (3) is hinged to the mounting components.
2. The movable slope safety operation device according to claim 1, characterized in that: The mobile support assembly includes a support rod (9) connected to the end of the bottom surface of the work platform (1) away from the slope. The support rod (9) is L-shaped and is fixed to the work platform (1) by bolts. The two ends of the support rod (9) are respectively connected to casters (10) and casters (28).
3. The movable slope safety operation device according to claim 2, characterized in that: The work platform (1) has several strip holes (11) and a support net is connected inside the strip holes (11).
4. The movable slope safety operation device according to claim 3, characterized in that: The work platform (1) is equipped with a guardrail (12), and the guardrail (12) is provided with a protective net.
5. The movable slope safety operation device according to claim 4, characterized in that: The connecting plate (3) has several side holes (27) on its side wall, and a fixing hook (13) is inserted into one of the side holes (27). The side plate (2) has several fixing holes (14) on each side, and the other end of the fixing hook (13) is hooked into the fixing hole (14).
6. The movable slope safety operation device according to claim 5, characterized in that: The installation assembly includes two symmetrically arranged U-shaped frames (15) spanning the wave-breaking wall and a track (16) connected to the bottom of the front and rear ends of the wave-breaking wall. The two U-shaped frames (15) are connected by a linkage plate (17). Both ends of the bottom of each U-shaped frame (15) are rotatably connected to a track wheel (18), which is rolled on the track (16). The U-shaped frame (15) has a threaded hole, and a fastening bolt is threaded into the threaded hole. A hinge (19) is connected to the bottom end of the U-shaped frame (15) near the slope. The hinge (19) is hinged to the top of the connecting plate (3) by a pin.
7. The movable slope safety operation device according to claim 5, characterized in that: The installation assembly includes two symmetrically arranged U-shaped frames (20) spanning the curb. The two U-shaped frames (20) are connected by a linkage plate (21). An extension platform (22) is connected to the bottom of the U-shaped frame (20) away from the slope. A counterweight (23) is installed on the extension platform (22). A hinge (24) is connected to the bottom of the U-shaped frame (20) near the slope. The hinge (24) is hinged to the top of the connecting plate (3) by a pin.
8. The movable slope safety operation device according to claim 7, characterized in that: The bottom of the extension platform (22) is provided with a socket (25), and the bottom of the counterweight (23) is connected to a plug (26) that matches the socket (25), and the plug (26) is inserted into the socket (25).