A pipe fixing mechanism for architectural design

By adjusting the design of the fixing components and the positioning through-wall components, the problems of pipe twisting and time-consuming and labor-intensive processes caused by pipe clamp installation errors are solved, and a firm and adjustable pipe installation is achieved.

CN224326797UActive Publication Date: 2026-06-05BAODING CONSTR DESIGN INST

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BAODING CONSTR DESIGN INST
Filing Date
2025-07-14
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing pipe clamps are prone to pipe twisting or require time-consuming and laborious reinstallation due to positional errors during installation.

Method used

By employing adjustable fixing components and positioning through-wall components, and fixing them through a combination of sliding clips and fixing half-rings, combined with the secure installation of positioning spikes, the pipes can be adjusted and firmly fixed.

Benefits of technology

It achieves secure pipe installation, avoids pipe twisting and repeated disassembly and assembly, and is simple and efficient to operate.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a pipeline fixing mechanism of architectural design is equipped with the adjusting fixed component on one side of installation rail, and the adjusting sliding block one side is equipped with the sliding card, and the both ends of sliding card and fixed half ring are all linked through connecting screw rod, and the fixed screw is connected through the thread in fixed hole interior, and the rain shelter is bonded in the top of installation rail, and the positioning wall -penetrating component is installed on one side of installation rail, the utility model's pipeline is connected in the sliding card, if the installation position deviates, then can slide through the adjusting sliding block in installation rail, and the position of sliding card is adjusted, until the pipeline is completely embedded to the inside of sliding card, and then the fixed half ring is connected, and the connecting screw rod connects sliding card box fixed half ring, and the preliminary fixed operation of pipeline is completed, and then the pipeline is fine -tuned, makes the pipeline be in vertical state, and the fixed screw is installed in fixed hole, prevents the pipeline from shaking, and the installation is firm and can adjust the position, prevents the pipeline from deforming, also need not to dismantle the pipe card and reinstallation, and the operation is time -saving and laborsaving.
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Description

Technical Field

[0001] This utility model relates to the field of pipe fixing technology, specifically a pipe fixing mechanism for building design. Background Technology

[0002] In architectural design, pipe installation often needs to be considered. Appropriate pipe distribution can effectively accelerate rainwater drainage and reduce the chance of water seepage. Pipe clamps are a type of pipe fitting commonly used in pipe installation to fix pipes to walls. The installation method is to insert the tip of the pipe clamp into the wall for fixation, then clamp the pipe into the pipe clamp, and finally install another part of the clamp to fix it.

[0003] However, the pipe clamps currently on the market are usually installed by first drilling holes, wedging wooden strips into the holes, and then fixing them. After installation, the position of the pipe clamp is fixed. If there is an error during installation, the pipe may be twisted or damaged when fixing it, or the pipe clamp may need to be removed and fixed again, which is time-consuming and laborious. Utility Model Content

[0004] This utility model provides a pipe fixing mechanism for building design, which can effectively solve the problems mentioned in the background art. When installing pipe clamps, it is usually necessary to drill holes first, wed wooden strips into the holes and then fix them. After installation, the position of the pipe clamp is fixed. However, if there is an error during installation, the pipe will be twisted and damaged when fixing it, or the pipe clamps may need to be removed and fixed again, which is time-consuming and laborious.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a pipe fixing mechanism for building design, including an installation rail, wherein an adjustment fixing component is installed on one side of the installation rail, and the adjustment fixing component includes an adjustment slider, a sliding clip, a fixing half ring, a connecting screw, an anti-slip pad, a fixing hole, a fixing screw, and a rain guard;

[0006] An adjusting slider is slidably installed inside the mounting rail. A sliding clip is installed on one side of the adjusting slider. A fixed half-ring is connected to one side of the sliding clip. Both ends of the sliding clip and the fixed half-ring are connected by connecting screws. Anti-slip pads are glued to the inner sides of both the sliding clip and the fixed half-ring.

[0007] The top of the mounting rail is provided with evenly spaced fixing holes, and fixing screws are threaded into the fixing holes. A rain shield is attached to the top of the mounting rail.

[0008] According to the above technical solution, the sliding card and the fixed half ring are combined into a circular hole, and the fixed half ring is provided with a threaded hole at the corresponding connecting screw.

[0009] According to the above technical solution, the length of the rain shield is equal to the length of the mounting rail, and the side of the rain shield is shaped like a "7".

[0010] According to the above technical solution, a positioning through-wall assembly is installed on one side of the mounting rail. The positioning through-wall assembly includes an adjusting stud, an inner extrusion ring, an extrusion ring, a positioning spike, a through-wall rod, a storage groove, and a spring plate.

[0011] An adjusting stud is welded to the middle of the side of the mounting rail away from the adjusting slider. An extrusion inner thread ring is threaded onto the outside of the adjusting stud. An extrusion ring is slidably sleeved on the side of the adjusting stud on the extrusion inner thread ring. Positioning spikes are symmetrically welded to one side of the extrusion ring.

[0012] The adjusting stud is welded with a through-wall rod on the side away from the mounting rail. The through-wall rod has symmetrical storage slots at the end away from the mounting rail, and a spring plate is welded to one end of the storage slot.

[0013] According to the above technical solution, the end face of the extrusion inner ring is a regular hexagonal block with a threaded hole in the middle, the end face of the extrusion ring is annular, and the inner side of the extrusion ring is a smooth curved surface.

[0014] According to the above technical solution, the width of the storage groove is the same as the width of the spring sheet, and the included angle between the two spring sheets is an acute angle.

[0015] Compared with the prior art, the advantages of this utility model are: the structure of this utility model is scientific and reasonable, and it is safe and convenient to use;

[0016] 1. An adjustable fixing component is provided to clamp the pipe into the sliding clip. If the installation position is off, the position of the sliding clip can be adjusted by sliding the slider in the installation rail until the pipe is completely embedded in the sliding clip. Then, the fixing half ring is clamped and the connecting screw is connected to the sliding clip box to fix the half ring, completing the initial fixing operation of the pipe.

[0017] Next, fine-tune the pipe to make it vertical, and install fixing screws in the fixing holes to prevent the pipe from shaking, completing the secondary fixing. The installation is firm and the position can be adjusted to prevent pipe deformation. There is no need to remove the pipe clamps for reinstallation, which saves time and effort.

[0018] 2. A positioning through-wall component is provided. The positioning pin is driven into the wall until the adjusting stud contacts the wall surface. Then, the inner screw ring is rotated and squeezed, pushing the squeezing ring closer to the wall surface until the positioning pin is embedded in the wall surface. During this process, the positioning pin tends to be pulled out of the installation position, but the spring plate in the storage groove acts like a barb, preventing the positioning pin from being pulled out, thus making the positioning pin firmly fixed in the installation position, securely installed and not easy to loosen. Attached Figure Description

[0019] The accompanying drawings are provided to further understand the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention and do not constitute a limitation thereof.

[0020] In the attached diagram:

[0021] Figure 1 This is a schematic diagram of the structure of this utility model;

[0022] Figure 2 This is a schematic diagram of the structure of the adjusting and fixing component of this utility model;

[0023] Figure 3 This is a schematic diagram of the installation structure of the adjusting slider of this utility model;

[0024] Figure 4 This is a structural schematic diagram of the positioning through-wall component of this utility model;

[0025] Numbered in the diagram: 1. Mounting rail;

[0026] 2. Adjusting and fixing components; 201. Adjusting slider; 202. Sliding clip; 203. Fixing half ring; 204. Connecting screw; 205. Anti-slip pad; 206. Fixing hole; 207. Fixing screw; 208. Rain cover;

[0027] 3. Positioning through-wall assembly; 301. Adjusting stud; 302. Extrusion inner thread ring; 303. Extrusion ring; 304. Positioning spike; 305. Through-wall rod; 306. Storage slot; 307. Spring plate. Detailed Implementation

[0028] The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for illustration and explanation only and are not intended to limit the present invention.

[0029] Example: Figure 1-4 As shown, this utility model provides a technical solution for a pipe fixing mechanism in building design, including an installation rail 1. An adjustment and fixing component 2 is installed on one side of the installation rail 1. The adjustment and fixing component 2 includes an adjustment slider 201, a sliding clip 202, a fixing half ring 203, a connecting screw 204, an anti-slip pad 205, a fixing hole 206, a fixing screw 207, and a rain shield 208.

[0030] An adjusting slider 201 is slidably installed inside the mounting rail 1. A sliding clip 202 is installed on one side of the adjusting slider 201. A fixed half-ring 203 is connected to one side of the sliding clip 202. Both ends of the sliding clip 202 and the fixed half-ring 203 are connected by connecting screws 204. The interiors of the sliding clip 202 and the fixed half-ring 203 are combined into a circular hole. The fixed half-ring 203 has a threaded hole at the corresponding connecting screw 204 to facilitate the splicing and fixing of the pipe by the sliding clip 202 and the fixed half-ring 203. Anti-slip pads 205 are glued to the inner sides of the sliding clip 202 and the fixed half-ring 203.

[0031] The top of the mounting rail 1 has evenly spaced fixing holes 206. Fixing screws 207 are threaded into the fixing holes 206. A rain shield 208 is attached to the top of the mounting rail 1. The length of the rain shield 208 is equal to the length of the mounting rail 1. The side of the rain shield 208 is shaped like a "7" to facilitate rain protection and reduce the corrosion of the fixing screws 207 by rainwater.

[0032] A positioning through-wall assembly 3 is installed on one side of the mounting rail 1. The positioning through-wall assembly 3 includes an adjusting stud 301, an inner extrusion screw ring 302, an extrusion ring 303, a positioning spike 304, a through-wall rod 305, a storage groove 306, and a spring plate 307.

[0033] An adjusting stud 301 is welded to the middle of the side of the mounting rail away from the adjusting slider 201. An extrusion inner thread ring 302 is threadedly sleeved on the outside of the adjusting stud 301. An extrusion ring 303 is slidably sleeved on the side of the adjusting stud 301 and the extrusion inner thread ring 302. The end face of the extrusion inner thread ring 302 is a regular hexagonal block with a threaded hole in the middle. The end face of the extrusion ring 303 is annular. The inner side of the extrusion ring 303 is a smooth curved surface, which facilitates the movement of the extrusion ring 303 when the extrusion inner thread ring 302 is rotated. A positioning spike 304 is symmetrically welded on one side of the extrusion ring 303.

[0034] A through-wall rod 305 is welded to the side of the adjusting stud 301 away from the mounting rail 1. A storage groove 306 is symmetrically opened at the end of the through-wall rod 305 away from the mounting rail 1. A spring plate 307 is welded to one end of the storage groove 306. The width of the storage groove 306 is the same as the width of the spring plate 307. The included angle between the two spring plates 307 is an acute angle to prevent the positioning spike 304 from falling off after it pierces the wall.

[0035] The working principle and usage process of this utility model are as follows: When pipe clamps need to be installed, mark and drill holes at the installation position, install wooden wedges, and nail the positioning spike 304 into the middle of the wooden wedges until the adjusting stud 301 contacts the wall. Then, rotate the inner screw ring 302 to push the squeezing ring 303 closer to the wall until the positioning spike 304 is embedded in the wall. During this process, the positioning spike 304 tends to be pulled out of the installation position, but the spring plate 307 in the receiving groove 306 acts like a barb to prevent the positioning spike 304 from being pulled out, so that the positioning spike 304 is tightly fixed in the installation position, which is secure and not easy to loosen.

[0036] Subsequently, the pipe is clamped into the sliding clip 202. If the installation position is off, the position of the sliding clip 202 can be adjusted by sliding the slider 201 within the installation rail 1 until the pipe is completely embedded inside the sliding clip 202. Then, the fixing half ring 203 is clamped in, and the connecting screw 204 connects the sliding clip 202 and the fixing half ring 203 to complete the initial fixing operation of the pipe. Next, the pipe is finely adjusted to make it vertical. The rain shield 208 is pushed to deform and expose the fixing hole 206. The fixing screw 207 is installed in the fixing hole 206. The fixing screw 207 presses the sliding clip 202 to fix it and prevent the pipe from shaking, thus completing the secondary fixing. The installation is firm and the position can be adjusted to prevent pipe deformation. There is no need to disassemble the pipe clamp for reinstallation, which saves time and effort.

[0037] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. A pipe fixing mechanism for building design, comprising a mounting rail (1), characterized in that: An adjustment and fixing assembly (2) is installed on one side of the mounting rail (1). The adjustment and fixing assembly (2) includes an adjustment slider (201), a sliding clip (202), a fixing half ring (203), a connecting screw (204), an anti-slip pad (205), a fixing hole (206), a fixing screw (207), and a rain shield (208). An adjusting slider (201) is slidably installed inside the mounting rail (1). A sliding clip (202) is installed on one side of the adjusting slider (201). A fixed half-ring (203) is connected to one side of the sliding clip (202). Both ends of the sliding clip (202) and the fixed half-ring (203) are connected by connecting screws (204). Anti-slip pads (205) are glued to the inner sides of the sliding clip (202) and the fixed half-ring (203). The mounting rail (1) has uniformly spaced fixing holes (206) at its top end. Fixing screws (207) are threaded into the fixing holes (206). A rain shield (208) is attached to the top end of the mounting rail (1).

2. The pipe fixing mechanism for building design according to claim 1, characterized in that, The sliding clip (202) and the fixed half ring (203) are combined into a circular hole, and the fixed half ring (203) has a threaded hole at the corresponding connecting screw (204).

3. The pipe fixing mechanism for building design according to claim 1, characterized in that, The length of the rain shield (208) is equal to the length of the mounting rail (1), and the side of the rain shield (208) is shaped like the number "7".

4. The pipe fixing mechanism for building design according to claim 1, characterized in that, The mounting rail (1) is equipped with a positioning through-wall assembly (3) on one side. The positioning through-wall assembly (3) includes an adjusting stud (301), an inner extrusion ring (302), an extrusion ring (303), a positioning spike (304), a through-wall rod (305), a storage groove (306), and a spring plate (307). An adjusting stud (301) is welded to the middle of the side of the mounting rail (1) away from the adjusting slider (201). An extrusion inner thread ring (302) is threaded onto the outside of the adjusting stud (301). An extrusion ring (303) is slidably sleeved on the side of the adjusting stud (301) on the extrusion inner thread ring (302). A positioning spike (304) is symmetrically welded to one side of the extrusion ring (303). The adjusting stud (301) is welded with a through-wall rod (305) on the side away from the mounting rail (1). The through-wall rod (305) is symmetrically provided with a storage groove (306) at the end away from the mounting rail (1). A spring plate (307) is welded to one end of the storage groove (306).

5. A pipe fixing mechanism for building design according to claim 4, characterized in that, The end face of the extruded inner thread ring (302) is a regular hexagonal block with a threaded hole in the middle, the end face of the extruded ring (303) is a circular ring, and the inner side of the extruded ring (303) is a smooth curved surface.

6. A pipe fixing mechanism for building design according to claim 4, characterized in that, The width of the storage slot (306) is the same as the width of the spring sheet (307), and the included angle between the two spring sheets (307) is an acute angle.