A hydraulic engineering auxiliary device
The design of the guide structure and support fixing structure simplifies the installation process of water conservancy pipelines, realizes automatic coaxial setting and radial fixing of pipelines, reduces production costs, and is suitable for mass production.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGXIA QUANTANG ENVIRONMENTAL CONSTR CO LTD
- Filing Date
- 2025-06-19
- Publication Date
- 2026-06-30
AI Technical Summary
Traditional water conservancy pipelines are difficult to install and operate due to their complex structure, resulting in high production costs and difficulty in mass production.
The system employs a guide structure and a support and fixing structure. The guide structure is an n-shaped structure, and the support and fixing structure is a T-shaped structure. Multiple support blocks are spliced and fixed by connecting them with bolts and nuts, simplifying the pipeline installation process.
It enables automatic coaxial setting and radial fixing of pipelines, reducing operational difficulty and production costs, and is suitable for mass production.
Smart Images

Figure CN224433612U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of water conservancy engineering equipment technology, specifically to an auxiliary device for water conservancy engineering. Background Technology
[0002] In water conservancy project construction, the laying and fixing of pipelines are crucial to ensuring the safety and stability of the water conveyance system. Traditional water conservancy pipeline installation often uses clamping and fixing devices to position and secure the pipelines. For example, a water conservancy pipeline construction auxiliary positioning device with publication number CN219734443U includes a base, two parallel support plates on top of the base, the support plates being perpendicular to the base, a slot 1 on the surface of the base, a threaded rod inside the slot 1, a motor connected to the end of the threaded rod, the threaded rod passing through a moving block, a connecting rod hinged above the moving block, the top of the connecting rod being connected to a crossbar, the top of the crossbar being fixedly connected to an arc-shaped clamping plate 1, a slot 2 on the side of the support plate near the arc-shaped clamping plate 1, a slider 1 and a slider 2 inside the slot 2, an arc-shaped plate above the slider 1 and slider 2, a rotating rod passing through the middle of the arc-shaped plate, the bottom end of the rotating rod being connected to the arc-shaped clamping plate 2 through a bearing, the rotating rod surface having threads that mesh with the arc-shaped plate; when placing the pipeline on the device, multiple devices need to be installed independently, so that the multiple devices are at the same height and in a straight line, and the pipeline needs to be moved along the axial direction of the pipeline to be placed on the device, which is difficult to operate and has a complex structure, resulting in high production costs and difficulty in mass production.
[0003] While existing technologies may already offer solutions to the aforementioned problems, this case aims to provide an alternative or replacement technical solution. Utility Model Content
[0004] To solve the problems mentioned in the background art, the present invention is achieved through the following technical solution: an auxiliary device for water conservancy projects, including a guide structure, on which a supporting and fixing structure is provided;
[0005] The guiding structure includes a guide bar, which is an n-shaped structure. Multiple first through holes are equally spaced on both sides of the guide bar. Both sides of the guide bar are provided with flanges. One end of the flange is provided with an outer extension edge, and the other end of the flange is provided with a groove that matches the outer extension edge.
[0006] The supporting and fixing structure includes a support block, which is a T-shaped structure. The lower wall of the support block has an n-shaped notch that matches the guide strip. The upper part of the support block has a second through hole corresponding to the n-shaped notch. The upper wall of the support block has a V-shaped notch. Both ends of the upper wall of the support block have mounting holes.
[0007] Preferably, the guide strip and the flange are an integral structure, and the flange has multiple fixing holes.
[0008] Preferably, a first bolt is movably inserted into the first through hole and the second through hole, and a first nut is fitted onto the first bolt.
[0009] Preferably, a second bolt is movably inserted into the mounting hole, and a second nut is fitted onto the second bolt.
[0010] Preferably, the upper wall surface of the outer extension edge and the upper wall surface of the flange are on the same plane, and the upper wall surface of the groove and the lower wall surface of the outer extension edge are on the same plane.
[0011] Preferably, a third through hole is provided on the outer edge, and a threaded groove corresponding to the third through hole is provided on the groove. Beneficial effects
[0012] This utility model provides an auxiliary device for water conservancy projects, which has the following advantages compared with the prior art: Multiple guide bars can be spliced together, and the n-shaped notches of multiple support blocks are placed on the guide bars. The multiple support blocks are arranged in a straight line. After two pipes are placed on the V-shaped notches of the support blocks, they are automatically coaxially aligned, preventing radial movement of the pipes during laying and ensuring the connection quality. The water pipes can be placed on the support blocks from top to bottom without needing to move along the pipe axis, making operation simple and convenient. Multiple support blocks can then be taken and symmetrically installed on the support blocks on the guide bars to clamp and fix the pipes, facilitating the connection of two pipes. Using two support blocks with identical structures is sufficient to fix the pipes, reducing the difficulty and cost of device production and making it suitable for mass production. Attached Figure Description
[0013] Figure 1 This is a top-view three-dimensional structural diagram of an auxiliary device for water conservancy engineering according to this utility model.
[0014] Figure 2 This is a three-dimensional structural diagram of an auxiliary device for water conservancy engineering, viewed from below.
[0015] Figure 3 This is a partial three-dimensional structural schematic diagram of an auxiliary device for water conservancy engineering according to the present invention.
[0016] In the diagram: 1. Guide strip, 2. First through hole, 3. Flanged edge, 4. Outer edge, 5. Groove, 6. Support block, 7. N-shaped notch, 8. Second through hole, 9. V-shaped notch, 10. Mounting hole, 11. Fixing hole, 12. First bolt, 13. First nut, 14. Second bolt, 15. Second nut, 16. Third through hole, 17. Threaded groove. Detailed Implementation
[0017] Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.
[0018] Example: Please refer to Figure 1-3 In order to solve the problems of the traditional water conservancy pipeline laying work, which requires the independent installation of multiple water conservancy pipeline clamping and fixing devices, so that the multiple devices are at the same height and in a straight line, and the pipeline needs to be moved along the axial direction of the pipeline to be placed on the device, the operation is difficult and the structure is complex, resulting in high production cost and difficulty in mass production, this technical solution is designed. The detailed technical solution is as follows.
[0019] A hydraulic engineering auxiliary device includes a guide structure, on which a supporting and fixing structure is provided;
[0020] It should be noted that a guide structure should be laid first at the location where the water pipe needs to be installed, and then the support and fixing structure should be installed on the guide structure. The support and fixing structure is used to support and fix the water pipe. Multiple support and fixing structures can be set on the guide structure to ensure the stable support of the water pipe.
[0021] Specifically, the guide structure includes a guide bar 1, which is an n-shaped structure. Multiple first through holes 2 are equally spaced on both sides of the guide bar 1. Both sides of the guide bar 1 are provided with flanges 3. One end of the flange 3 is provided with an outer extension edge 4, and the other end of the flange 3 is provided with a groove 5 that matches the outer extension edge 4.
[0022] It should be noted that the guide strip 1 adopts an n-shaped channel steel structure. The flanges 3 on both sides facilitate fitting into the water pipe laying position and also improve the bending resistance of the two side walls of the guide strip 1. When laying the guide structure, multiple guide strips 1 can be spliced according to the required length. That is, the outer edge 4 of the adjacent guide strip 1 is installed in the groove 5 of another guide strip 1. Preferably, the outer edge 4 is provided with a third through hole 16, and the groove 5 is provided with a threaded groove 17 corresponding to the third through hole 16. Threaded connectors can be inserted into the third through hole 16 and the threaded groove 17 to realize the connection of adjacent guide strips 1. Preferably, the guide strip 1 and the flange 3 are integrated structures. The flange 3 is provided with multiple fixing holes 11. The multiple fixing holes 11 are used to insert threaded connectors for fixed connection to the ground. The threaded connectors can be bolts or screws.
[0023] Specifically, the support and fixing structure includes a support block 6, which is a T-shaped structure. The lower wall of the support block 6 is provided with an n-shaped notch 7 that matches the guide strip 1. The upper part of the support block 6, corresponding to the n-shaped notch 7, is provided with a second through hole 8. The upper wall of the support block 6 is provided with a V-shaped notch 9. Both ends of the upper wall of the support block 6 are provided with mounting holes 10.
[0024] It should be noted that after the guide bar 1 is fixed, the n-shaped notches 7 of multiple support blocks 6 are placed on the guide bar 1. With the guide bar 1 connected, the multiple support blocks 6 are arranged in a straight line. The V-shaped notches 9 are used to support the water pipes, so that the two pipes are automatically coaxially arranged after being placed on the V-shaped notches 9 of the support blocks 6. This also prevents the pipes from moving radially in the pipe laying area, ensuring the connection quality of the pipes. The water pipes can be placed on the support blocks 6 from top to bottom of the device without moving along the pipe axis. The operation is simple and convenient. Then, multiple support blocks 6 are taken and symmetrically installed on the support blocks 6 on the guide bar 1 to clamp and fix the pipes, which facilitates the connection operation of the two pipes. The pipes can be fixed by using two support blocks 6 with the same structure, which reduces the difficulty of device production and reduces the cost of device production, making it suitable for mass production.
[0025] As a preferred and further option, a first bolt 12 is movably inserted into the first through hole 2 and the second through hole 8, and a first nut 13 is fitted onto the first bolt 12 for the fixed connection between the guide bar 1 and the support block 6.
[0026] As a preferred and further option, a second bolt 14 is movably inserted into the mounting hole 10, and a second nut 15 is fitted onto the second bolt 14 for fixing the two symmetrically arranged support blocks 6 together.
[0027] Preferably, the upper wall surface of the outer edge 4 and the upper wall surface of the flange 3 are on the same plane, and the upper wall surface of the groove 5 and the lower wall surface of the outer edge 4 are on the same plane.
[0028] Although embodiments of the present invention 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 to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A hydraulic engineering auxiliary device characterized by comprising: Includes a guide structure, on which a supporting and fixing structure is provided; The guiding structure includes a guide strip (1), which is an n-shaped structure. Multiple first through holes (2) are equally spaced on both sides of the guide strip (1). Both sides of the guide strip (1) are provided with flanges (3). One end of the flange (3) is provided with an outer extension edge (4), and the other end of the flange (3) is provided with a groove (5) that matches the outer extension edge (4). The supporting and fixing structure includes a support block (6), which is a T-shaped structure. The lower wall of the support block (6) is provided with an n-shaped notch (7) that matches the guide strip (1). A second through hole (8) is provided on the upper part of the support block (6) at the position corresponding to the n-shaped notch (7). A V-shaped notch (9) is provided on the upper wall of the support block (6). Mounting holes (10) are provided at both ends of the upper wall of the support block (6).
2. The auxiliary device for hydraulic engineering according to claim 1, characterized in that, The guide strip (1) and the flange (3) are an integral structure, and the flange (3) has multiple fixing holes (11).
3. The auxiliary device for hydraulic engineering according to claim 1, characterized in that, A first bolt (12) is movably inserted into the first through hole (2) and the second through hole (8), and a first nut (13) is fitted onto the first bolt (12).
4. The auxiliary device for hydraulic engineering according to claim 1, characterized in that, A second bolt (14) is movably inserted into the mounting hole (10), and a second nut (15) is fitted onto the second bolt (14).
5. The auxiliary device for hydraulic engineering according to claim 1, characterized in that, The upper wall surface of the outer edge (4) and the upper wall surface of the flange (3) are on the same plane, and the upper wall surface of the groove (5) and the lower wall surface of the outer edge (4) are on the same plane.
6. The auxiliary device for hydraulic engineering according to claim 1, characterized in that, The outer edge (4) is provided with a third through hole (16), and the groove (5) is provided with a threaded groove (17) corresponding to the third through hole (16).