Water conservancy and water source well anti-collapse frame
By combining cement cylinders and curved strips with bolted connections, the stability and protective capabilities of the anti-collapse frame for water source wells are enhanced, solving the problem of the limitations of existing frames under multi-directional pressure and achieving multi-layered protective effects.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DALIAN HEHAI WATER CONSERVANCY & HYDROPOWER SURVEY & DESIGN CO LTD
- Filing Date
- 2025-08-20
- Publication Date
- 2026-07-14
Smart Images

Figure CN224495212U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of preventing water source well collapse, specifically a framework for preventing water source well collapse. Background Technology
[0002] A water well is a well-shaped structure located at the junction of water pipes and is designed for easy inspection and dredging. Water wells are widely used in urban construction.
[0003] For example, the anti-collapse frame for water source wells authorized by announcement number "CN222886876U" solves the problem of high installation costs due to the need for lifting equipment in existing anti-collapse frames for water source wells. The above-mentioned frame forms a stable support structure by connecting the conical cylinders with various connecting parts, which enhances the overall stability and prevents the collapse of the well wall due to local damage. However, considering that the existing anti-collapse frames for water source wells rely on bolts for fixing the symmetrical conical cylinders of the support device, and the stability can be affected if the bolts in the positioning holes of the long plate are loose, the angle adjustment range of the convex groove and square block of the reinforcing device is limited, the adaptability to complex well walls is poor, and the rubber ball buffer range inside the U-shaped block outside the anti-corrosion layer is small, making it difficult to cope with multi-directional pressure, thus the overall protection is limited. Utility Model Content
[0004] The purpose of this utility model is to solve the problem that existing anti-collapse frames for water source wells are unable to cope with multi-directional pressure and have limited overall protection, and to propose an anti-collapse frame for water source wells.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a water source well anti-collapse frame, comprising a cement cylinder and an arc-shaped strip, wherein the upper end of the cement cylinder is fitted with the arc-shaped strip, the outer wall of the arc-shaped strip is fixedly connected to a fixing ring, the lower end of the fixing ring is fitted with the cement cylinder, and the outer wall of the fixing ring is connected to a reinforcement mechanism.
[0006] This design, with the cement cylinder and the curved strip working together, provides initial structural support for the wellhead of the water source, while the fixing ring further securely connects the curved strip and the cement cylinder.
[0007] Preferably, the reinforcement mechanism includes a reinforcement member, which is threadedly connected to a fixing ring by bolts, the outer wall of the reinforcement member is fixedly connected to the reinforcement frame, and the end of the reinforcement frame is inserted into a connector.
[0008] This feature, through the reinforcement mechanism, effectively enhances the load-bearing capacity and deformation resistance of the entire frame. The bolt connection between the reinforcement components and the fixing rings not only facilitates installation and disassembly but also ensures a tight connection. The plug-in fit between the reinforcement frame and the connectors improves the overall stability of the reinforced structure.
[0009] Preferably, the connector is threadedly connected to the retaining ring by bolts, and the outer wall of the reinforcing frame is connected to a protective mechanism.
[0010] This feature, which connects the reinforcing frame and the fixing ring with bolts and threads, further strengthens the connection and prevents the reinforcing frame from loosening or shifting under long-term stress.
[0011] Preferably, the protective mechanism includes a first support ring, which is threadedly connected to the reinforcement frame by bolts, and the lower end of the first support ring is fixedly connected to a wire mesh, and the lower end of the wire mesh is fixedly connected to a second support ring.
[0012] The first and second support rings in this protective mechanism, together with the wire mesh, can provide a certain degree of protection for the structure inside the well, preventing safety hazards caused by partial collapse of the well wall.
[0013] Preferably, the surface of the fixing ring is fixedly connected to the intercepting post, and the outer wall of the intercepting post is fixedly connected to the intercepting rod.
[0014] The surface of the fixing ring is welded to the intercepting column, providing a stable connection for the intercepting column. The intercepting column and the intercepting rod can form a barrier around the wellhead, reducing the direct impact of external factors on the wellhead frame.
[0015] Preferably, the inner wall of the second support ring is machined with through holes.
[0016] The machining of this through hole facilitates control over the depth of the protective mechanism via bolts.
[0017] Preferably, the inner wall of the second support ring is inserted into the square rod, and the square rod is threadedly connected to the cement cylinder by bolts.
[0018] This design, which involves the insertion and connection of the square rod with the second support ring, combined with the fixing of the bolts and the cement cylinder, further connects the protective mechanism with the foundation structure as a whole, thereby improving the stability of the protective layer inside the well.
[0019] The present invention proposes a hydraulic well anti-collapse frame, which has the following advantages: the base layer is made of cement cylinder and arc strip, and the fixing ring enhances the connection stability; the reinforcement layer is connected by bolts of reinforcement parts, reinforcement frame and connectors, which improves the deformation resistance and facilitates disassembly and assembly; the protective layer uses wire mesh with support rings to prevent well wall detachment; the through holes can adjust the protection depth; the outer interception columns and interception rods form a barrier, which can coordinate multiple layers of structure, take into account both support strength and protection comprehensiveness, and adapt to different scenarios. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the structure of this utility model;
[0021] Figure 2 for Figure 1 Schematic diagram of the reinforcement mechanism;
[0022] Figure 3 for Figure 1 Schematic diagram of the middle connector structure;
[0023] Figure 4 for Figure 1 Schematic diagram of the central protective mechanism;
[0024] Figure 5 for Figure 4 Schematic diagram of the second support ring structure;
[0025] Figure 6 for Figure 1 Schematic diagram of the central interception post and interception bar;
[0026] Figure 7 for Figure 1 Schematic diagram of the fixed ring structure.
[0027] In the diagram: 1. Cement cylinder, 2. Arc-shaped strip, 3. Fixing ring, 4. Reinforcing mechanism, 401. Reinforcing component, 402. Reinforcing frame, 403. Connector, 5. Protective mechanism, 501. First support ring, 502. Wire mesh, 503. Second support ring, 6. Interception post, 7. Interception rod, 8. Through hole, 9. Square rod. Detailed Implementation
[0028] The present invention will be further described below with reference to the accompanying drawings:
[0029] Please see Figures 1-7 In this embodiment, a water source well anti-collapse frame includes a cement cylinder 1 and an arc-shaped strip 2. The upper end of the cement cylinder 1 is attached to the arc-shaped strip 2, the outer wall of the arc-shaped strip 2 is fixedly connected to a fixing ring 3, the lower end of the fixing ring 3 is attached to the cement cylinder 1, and the outer wall of the fixing ring 3 is connected to a reinforcement mechanism 4.
[0030] The reinforcement mechanism 4 includes a reinforcement member 401, which is threadedly connected to the fixing ring 3 by bolts. The outer wall of the reinforcement member 401 is fixedly connected to the reinforcement frame 402, and the end of the reinforcement frame 402 is inserted into the connector 403.
[0031] The connector 403 is threadedly connected to the fixing ring 3 by bolts. The outer wall of the reinforcing frame 402 is connected to the protective mechanism 5. The protective mechanism 5 includes a first support ring 501. The first support ring 501 is threadedly connected to the reinforcing frame 402 by bolts. The lower end of the first support ring 501 is fixedly connected to the wire mesh 502. The lower end of the wire mesh 502 is fixedly connected to the second support ring 503.
[0032] The base layer consists of a cement cylinder 1 bonded to an arc-shaped strip 2, with a fixing ring 3 enhancing connection stability. The reinforcement layer is connected by bolts through a reinforcement member 401, a reinforcement frame 402, and a connector 403, improving resistance to deformation and facilitating disassembly and assembly. The protective layer uses a wire mesh 502 in conjunction with a support ring to prevent well wall detachment. The through holes allow for adjustment of the protection depth. The outer interception column 6 and the interception rod 6 form a barrier, enabling multi-layered structural collaboration that balances support strength and comprehensive protection, making it suitable for different scenarios.
[0033] The surface of the fixing ring 3 is fixedly connected to the intercepting post 6, the outer wall of the intercepting post 6 is fixedly connected to the intercepting rod 7, the inner wall of the second support ring 503 is machined with a through hole 8, the inner wall of the second support ring 503 is inserted into the square rod 9, and the square rod 9 is threadedly connected to the cement cylinder 1 by bolts.
[0034] Working principle:
[0035] During the installation and assembly process, multiple cement cylinders 1 are first arranged vertically at the wellhead of the water source as a basic support structure. The arc-shaped strip 2, which is fixed to the outer wall of the fixing ring 3, is inserted into the uppermost cement cylinder 1, so that the lower outer wall of the fixing ring 3 is tightly fitted with the cement cylinder 1, and the arc-shaped strip 2 is also fitted to the upper end of the cement cylinder 1, thus initially completing the basic frame construction of the wellhead.
[0036] The reinforcement mechanism 4 is installed by threading the reinforcement component 401 to the fixing ring 3 with bolts. The reinforcement component 401 drives the reinforcement frame 402 to be fixed on the outer wall of the fixing ring 3. Then, the end of the reinforcement frame 402 is inserted into the connector 403, and the connector 403 is threaded to the fixing ring 3 with bolts to further enhance the overall stability of the frame.
[0037] The protective mechanism 5 is installed by using bolts to thread the first support ring 501 to the reinforcement frame 402. The first support ring 501, wire mesh 502 and second support ring 503 are pre-fixed as a whole. After installation, the depth of the protective mechanism 5 can be controlled by increasing the number of structures of the protective mechanism 5 through the through hole 8 in the inner wall of the second support ring 503 with the help of bolts. According to the depth requirements, a square rod 9 can be used to insert and cooperate with the second support ring 503. Combined with the fixing of bolts and cement cylinder 1, the protective mechanism is further connected to the foundation structure as a whole, which improves the stability of the protective mechanism 5 in the well.
[0038] For the external protection installation, the intercepting column 6 is fixed on the surface of the fixing ring 3, and then the intercepting rod 7 is fixed on the outer wall of the intercepting column 6 to form a barrier around the wellhead.
[0039] Usage effect
[0040] The cement cylinder 1 and the arc-shaped strip 2 work together to provide initial support for the wellhead. The fixing ring 3 further stabilizes the connection between the two. The reinforcement mechanism 4, through the synergistic effect of the reinforcement components, reinforcement frame and connectors, greatly enhances the load-bearing capacity and anti-deformation performance of the frame, avoiding loosening or displacement caused by long-term stress. In the protection mechanism 5, the first support ring 501 and the second support ring 503, together with the wire mesh 502, can effectively prevent local detachment of the well wall, reduce safety hazards and ensure the safety of the structure inside the well. The outer barrier composed of the interception column 6 and the interception rod 7 can reduce the direct impact of external factors on the wellhead frame and reduce the risk of frame damage. Since all components are connected by bolts, it is easy to install, disassemble and maintain. The depth of the protection mechanism can be adjusted according to actual needs, and it is suitable for water source well protection in different scenarios.
[0041] 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 frame for preventing collapse of a water source well, comprising a cement cylinder (1) and an arc-shaped strip (2), wherein the upper end of the cement cylinder (1) is fitted with the arc-shaped strip (2), characterized in that: The outer wall of the arc-shaped strip (2) is fixedly connected to the fixing ring (3), the outer wall of the lower end of the fixing ring (3) is in contact with the cement cylinder (1), and the outer wall of the fixing ring (3) is connected to the reinforcing mechanism (4).
2. The anti-collapse frame for water source wells according to claim 1, characterized in that: The reinforcement mechanism (4) includes a reinforcement member (401), which is threadedly connected to the fixing ring (3) by bolts. The outer wall of the reinforcement member (401) is fixedly connected to the reinforcement frame (402), and the end of the reinforcement frame (402) is inserted into the connector (403).
3. The anti-collapse frame for water source wells according to claim 2, characterized in that: The connector (403) is threadedly connected to the fixing ring (3) by bolts, and the outer wall of the reinforcing frame (402) is connected to the protective mechanism (5).
4. The anti-collapse frame for water source wells according to claim 3, characterized in that: The protective mechanism (5) includes a first support ring (501), which is threadedly connected to the reinforcing frame (402) by bolts. The lower end of the first support ring (501) is fixedly connected to the wire mesh (502), and the lower end of the wire mesh (502) is fixedly connected to the second support ring (503).
5. The anti-collapse frame for water source wells according to claim 1, characterized in that: The surface of the fixing ring (3) is fixedly connected to the intercepting post (6), and the outer wall of the intercepting post (6) is fixedly connected to the intercepting rod (7).
6. The anti-collapse frame for water source wells according to claim 4, characterized in that: The inner wall of the second support ring (503) is machined with through holes (8).
7. The anti-collapse frame for water source wells according to claim 6, characterized in that: The inner wall of the second support ring (503) is inserted into the square rod (9), which is threadedly connected to the cement cylinder (1) by bolts.