Water pipeline clamp
By employing a combination design of clamp body, clamp arm, screw, screw head, through hole, groove, end, and screw in the hydraulic pipe clamp, a double locking mechanism is formed, which solves the problem of loosening or slippage of the pipe clamp during long-term use or external impact, and achieves a higher fastening effect and system stability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 代春霞
- Filing Date
- 2025-09-17
- Publication Date
- 2026-07-07
AI Technical Summary
Conventional pipe clamps are prone to loosening or slippage during prolonged use or when subjected to external impacts, affecting the stability and durability of the pipe clamp system.
Design a water conservancy pipeline clamp that uses a combination of clamp body, clamp arm, screw rod, screw head, through hole, groove, end, and screw to form a double locking mechanism. The secondary fastening point of the screw and screw rod prevents loosening and slippage.
It effectively prevents the screw from loosening or slipping during long-term use or external impact, enhances the fastening effect and reliability of the pipe clamp, and improves the stability and durability of the system.
Smart Images

Figure CN224469833U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of pipe clamp technology, and in particular to a water conservancy pipe clamp. Background Technology
[0002] Water pipe clamps are used to securely fix water pipes, ensuring their stability during transportation, installation, and use, and preventing loosening or detachment due to vibration, displacement, or external forces. This is crucial for ensuring the normal operation of water systems.
[0003] Conventional pipe clamps, after closing and clamping the pipe, can be tightened with tools to achieve a secure clamping. However, the bolts are prone to loosening or slippage after long-term use or when subjected to external impact, affecting the stability and durability of the entire pipe clamp system. Therefore, a water conservancy pipe clamp with a double locking mechanism is designed, which makes its clamping of the pipe more reliable and less prone to loosening or detachment. Utility Model Content
[0004] The purpose of this invention is to at least solve one of the aforementioned technical defects.
[0005] Therefore, one objective of this utility model is to provide a water conservancy pipeline clamp to solve the problems mentioned in the background art and overcome the shortcomings of the existing technology.
[0006] To achieve the above objectives, one embodiment of the present invention provides a water conservancy pipeline clamp, including a base and a clamping body. The clamping body is fixedly connected to the top of the base, the clamping body is arc-shaped, the end of the clamping body is upturned, and the end of the clamping body is movably connected to a clamping arm.
[0007] A screw rod passes through the base, and a screw head is fixedly connected to the end of the screw rod;
[0008] The screw head has a through hole, and the ends of both sides of the screw head have grooves. One side of the end of the clamping arm abuts against an end head, which is threadedly connected to the screw rod. The screw rod passes through the end of the clamping arm.
[0009] The screw head is tightened onto the end face of the base;
[0010] A screw is threaded onto a predetermined part of the screw rod, and the end of the screw is tightened onto the bottom surface of the base.
[0011] Preferably, of any of the above solutions, the base is a hollow structure, and the base and the clamp are integrally welded together.
[0012] The above technical solution is adopted: This device is specifically designed for the field of water conservancy engineering, and is a pipe clamp for water conservancy pipelines.
[0013] Preferably, in any of the above solutions, the clamping arm, clamping body, and base together enclose a clamping area, and the clamping arm is made of stainless steel.
[0014] By adopting the above technical solution, this pipe clamp can firmly fix the water conservancy pipeline, ensuring the stability of the pipeline during transportation, installation, and use, and preventing the pipeline from loosening or falling off due to vibration, displacement, or external forces. This is crucial for ensuring the normal operation of the water conservancy system.
[0015] Preferably, in any of the above solutions, the screw has a pre-drilled hole adapted to the screw, and the hole passes through the screw head.
[0016] Using the above technical solution: the pipe is positioned inside the clamp, the clamp arm is closed, and the screw is inserted. The screw passes through the end of the seat and the clamp arm, and the end of the screw is connected to the end head. The screw head is rotated, and the screw is threaded to the end head. The screw head is tightened on the end face of the seat. At this time, the end head presses the clamp arm, and the clamp arm cooperates with the seat and clamp to tightly clamp the pipe. Subsequently, the screw is threaded to the reserved hole on the screw and the screw is tightened to complete the clamping operation of the water conservancy pipeline.
[0017] Preferably, of any of the above solutions, the screw head is T-shaped and the end is square.
[0018] Preferably, in any of the above solutions, the screw locks the position of the screw rod.
[0019] The core structure of this device, employing the above technical solution, consists of: a clamp body, clamping arms, a screw, a tightening head, a through hole, a groove, an end cap, and a screw. The core advantages of this device are: a novel hydraulic pipe clamp structure; after the clamp body, clamping arms, and base enclose the pipe, the end cap and screw structure are installed to tighten the tightening head. The tightening head has a through hole, and grooves are provided on both sides of the end cap for easier manual gripping. The groove design increases friction during hand operation, preventing slippage and making it easier to tighten the tightening head to secure the pipe; ensuring the stability and safety of the tightening action.
[0020] This pipe clamp structure employs a double-locking mechanism to prevent loosening. After the screw, screw head, end, clamp body, clamp arm, and clamp seat are engaged with the pipe, a hole is opened at the bottom of the seat body, and a pre-drilled hole is made on the screw. A screw is placed at the bottom of the seat body, aligning with the pre-drilled hole on the screw and threaded together until the screw is tightened. This prevents the screw from loosening or slipping, forming a secondary tightening point. This design effectively prevents the screw from loosening or slipping during prolonged use or under external impact, further enhancing the tightening effect and reliability of the pipe clamp. This makes the pipe clamp more reliable and less prone to loosening or detachment. This design, while ensuring a tighter tightening effect, also improves the stability and durability of the entire pipe clamp system.
[0021] Compared with the prior art, the advantages and beneficial effects of this utility model are as follows:
[0022] 1. This water pipe clamp features a novel structure designed through the coordinated arrangement of a clamp body, clamp arm, screw, screw head, through hole, groove, end, and bolt. After the clamp body, clamp arm, and base enclose the pipe, the end and screw structure are installed to tighten the screw head. The screw head has a through hole, and grooves are provided on both sides of the end for easier manual gripping. The groove design increases the friction during hand operation, preventing slippage and making it easier to tighten the screw head to secure the pipe; thus ensuring the stability and safety of the tightening action.
[0023] 2. This water pipe clamp employs a double-locking mechanism to prevent loosening. After the screw, screw head, end, clamp body, clamp arm, and clamp seat are engaged with the pipe, a hole is opened at the bottom of the seat body, and a pre-drilled hole is made on the screw. A screw is placed at the bottom of the seat body, aligning with the pre-drilled hole on the screw and threaded together until the screw is tightened. This prevents the screw from loosening or slipping, forming a secondary tightening point. This design effectively prevents the screw from loosening or slipping during prolonged use or under external impact, further enhancing the clamping effect and reliability. This makes the pipe clamp more reliable and less prone to loosening or detachment. This design, while ensuring a tighter fit, also improves the stability and durability of the entire pipe clamp system.
[0024] 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
[0025] The above and / or additional aspects and advantages of this utility model will become apparent and readily understood from the description of the embodiments taken in conjunction with the following drawings, in which:
[0026] Figure 1 This is a first-view structural schematic diagram of the present invention;
[0027] Figure 2 This is a structural schematic diagram of the present invention from a second perspective;
[0028] Figure 3 This is a structural schematic diagram of the present invention from a third-view perspective;
[0029] Figure 4 This is a schematic diagram showing the structural relationship between the screw and the threaded rod of this utility model.
[0030] In the diagram: 1-base, 2-clamp, 3-clamp arm, 4-screw, 5-screw head, 6-through hole, 7-groove, 8-end, 9-screw. Detailed Implementation
[0031] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain this utility model, and should not be construed as limiting this utility model.
[0032] In this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0033] like Figure 1-4 As shown, this water conservancy pipeline clamp includes a base 1 and a clamp 2. The top of the base 1 is fixedly connected to the clamp 2. The clamp 2 is arc-shaped, and the end of the clamp 2 is upturned. The end of the clamp 2 is movably connected to the clamp arm 3.
[0034] A screw 4 passes through the base 1, and a screw head 5 is fixedly connected to the end of the screw 4;
[0035] The screw head 5 has a through hole 6, and the ends of both sides of the screw head 5 have grooves 7. One side of the end of the clamping arm 3 abuts against the end 8, and the end 8 is threadedly connected to the screw 4. The screw 4 passes through the end of the clamping arm 3.
[0036] Tighten the screw head 5 onto the end face of the base 1;
[0037] The screw 4 is threaded with a screw 9 at a predetermined position, and the end of the screw 9 is tightened onto the bottom surface of the base 1.
[0038] Example 1: The base 1 is a hollow structure, and the base 1 and clamp 2 are integrally welded. This device is specifically designed for the field of water conservancy engineering, specifically as a pipe clamp for water pipelines. The clamp arm 3, together with the clamp 2 and the base 1, encloses a clamping area; the clamp arm 3 is made of stainless steel. This pipe clamp can firmly fix water pipelines, ensuring the stability of the pipeline during transportation, installation, and use, and preventing the pipeline from loosening or falling off due to vibration, displacement, or external forces. This is crucial for ensuring the normal operation of water conservancy systems.
[0039] Example 2: A pre-drilled hole adapted to the screw 9 is provided on the screw 4, and the through hole 6 passes through the screw head 5. The screw head 5 is T-shaped with a square end 8. The screw 9 locks the position of the screw 4. A double-locking mechanism is adopted to prevent loosening. After the screw 4, screw head 5, end 8, clamp body 2, clamp arm 3, and clamp seat 1 are engaged with the pipe, a hole is opened at the bottom of the seat body 1, and a pre-drilled hole is provided on the screw 4. A screw 9 is placed at the bottom of the seat body 1. This screw 9 is aligned with the pre-drilled hole on the screw 4 and threaded together until the screw 9 is tightened, which can prevent the screw 4 from loosening or slipping, forming a secondary tightening point. This design effectively prevents the screw from loosening or slipping during long-term use or when subjected to external impact, further enhancing the tightening effect and reliability of the pipe clamp.
[0040] The working principle of this utility model is as follows:
[0041] The pipe is positioned inside the clamp 2. The clamp arm 3 is closed, and the screw 4 is inserted. The screw 4 passes through the end of the base 1 and the clamp arm 3. The end of the screw 4 is connected to the end head 8. The screw head 5 is rotated, and the screw 4 is threadedly connected to the end head 8. The screw head 5 is tightened on the end face of the base 1. At this time, the end head 8 presses the clamp arm 3. The clamp arm 3 cooperates with the base 1 and the clamp 2 to tightly clamp the pipe. Subsequently, the screw 9 is threadedly connected to the reserved hole on the screw 4 and the screw 9 is tightened to complete the clamping operation of the water conservancy pipe.
[0042] Compared with the prior art, the present invention has the following advantages:
[0043] 1. This water pipe clamp features a novel structure designed through the coordinated arrangement of clamp body 2, clamp arm 3, screw 4, screw head 5, through hole 6, groove 7, end head 8, and screw 9. After clamp body 2, clamp arm 3, and base 1 enclose the pipe, the end head 8 and screw 4 are installed to tighten the screw head 5. The screw head 5 has a through hole 6 and grooves 7 on both sides of the end, making it easier to grip manually. The grooves 7 increase the friction during hand operation, preventing slippage and making it easier to tighten the screw head 5 to secure the pipe, thus ensuring the stability and safety of the tightening action.
[0044] 2. This water pipe clamp employs a double-locking mechanism to prevent loosening. After the screw 4, screw head 5, end 8, clamp body 2, clamp arm 3, and clamp seat 1 are engaged with the pipe, a hole is opened at the bottom of the seat body 1, and a reserved hole is opened on the screw 4. A screw 9 is placed at the bottom of the seat body 1. This screw 9 is aligned with the reserved hole on the screw 4 and threaded together until the screw 9 is tightened, which prevents the screw 4 from loosening or slipping, forming a secondary tightening point. This design effectively prevents the screw from loosening or slipping during long-term use or under external impact, further enhancing the tightening effect and reliability of the pipe clamp. This makes the pipe clamp more reliable and less prone to loosening or detachment. This design, while ensuring the tightening effect, also improves the stability and durability of the entire pipe clamp system.
Claims
1. A water conservancy pipeline clamp, characterized in that, Includes a base (1) and a clamp (2). The top of the base (1) is fixedly connected to the clamp (2). The clamp (2) is arc-shaped, and the end of the clamp (2) is upturned. The end of the clamp (2) is movably connected to a clamp arm (3). A screw (4) is inserted into the seat (1), and a screw head (5) is fixedly connected to the end of the screw (4). The screw head (5) has a through hole (6), and the ends of both sides of the screw head (5) have grooves (7). One side of the end of the clamping arm (3) is abutted by an end (8), and the end (8) is threadedly connected to the screw (4). The screw (4) passes through the end of the clamping arm (3). The screw head (5) is screwed onto the end face of the base (1); The screw (4) is threaded with a screw (9) at a predetermined location, and the end of the screw (9) is tightened to the bottom surface of the seat (1).
2. A water conservancy pipeline clamp as described in claim 1, characterized in that: The seat (1) is a hollow structure, and the seat (1) and the clamp (2) are integrally welded.
3. A water conservancy pipeline clamp as described in claim 2, characterized in that: The clamping arm (3), together with the clamping body (2) and the base (1), encloses a clamping area. The clamping arm (3) is made of stainless steel.
4. A water conservancy pipeline clamp as described in claim 3, characterized in that: The screw (4) has a reserved hole that matches the screw (9), and the through hole (6) passes through the screw head (5).
5. A water conservancy pipeline clamp as described in claim 4, characterized in that: The screw head (5) is T-shaped and the end (8) is square.
6. A water conservancy pipeline clamp as described in claim 5, characterized in that: The screw (9) locks the position of the screw (4).