A pipeline protection device during scaffolding
By using protective covers made of high-strength composite materials and a real-time monitoring and early warning system, the problem of insufficient pipeline protection during scaffolding erection has been solved, achieving all-round protection and safe construction.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- THE THIRD CONSTR OF CHINA CONSTR EIGHTH ENG BUREAU
- Filing Date
- 2025-07-22
- Publication Date
- 2026-07-14
AI Technical Summary
Existing technologies offer simple protection measures for pipelines during scaffolding erection and lack real-time monitoring and early warning, making pipelines susceptible to damage and posing safety hazards.
The protective cover, made of high-strength, corrosion-resistant, and insulating composite materials, is combined with fixing components, buffer components, and pressure sensors to form a comprehensive protection device, and is equipped with a real-time monitoring and early warning system.
It provides comprehensive protection for pipelines, reduces the risk of damage, improves construction safety, and is flexible, adaptable, and durable.
Smart Images

Figure CN224497965U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of pipeline protection technology, specifically a pipeline protection device for scaffolding erection. Background Technology
[0002] Scaffolding is a commonly used construction facility in the building, decoration, and maintenance of various structures. However, during scaffolding erection, construction sites often contain various pipelines, such as water supply and drainage pipes, gas pipelines, and cables. Damage to these pipelines can not only lead to construction interruptions, delays, and increased costs, but also potentially cause safety accidents such as gas leaks and electric shocks, posing a serious threat to the lives of construction workers and the normal lives of nearby residents.
[0003] Currently, pipeline protection measures during scaffolding erection are relatively simple and rudimentary. A common approach is to determine pipeline locations through on-site observation before construction and then try to avoid them during scaffolding erection. However, this method has several drawbacks: firstly, on-site observation can lead to errors in judging pipeline height, resulting in pipelines running parallel to the scaffolding; secondly, even if the pipeline location is determined, damage to the pipeline is still difficult to completely avoid during actual erection due to worker errors, accidental falling scaffolding components, or other reasons. Furthermore, traditional protection methods lack effective real-time monitoring and early warning functions, failing to promptly alert workers to potential threats to pipelines, thus increasing the risk of pipeline damage. Therefore, developing an efficient, reliable pipeline protection device for scaffolding erection with real-time monitoring and early warning capabilities is of significant practical importance. Utility Model Content
[0004] In view of the above-mentioned prior art, this utility model proposes a pipeline protection device during scaffolding erection, which aims to solve the problem of insufficient pipeline protection during the existing scaffolding erection process, realize all-round and real-time protection of pipelines, effectively reduce the risk of pipeline damage during scaffolding erection, and ensure construction safety and smooth progress.
[0005] This utility model provides a pipeline protection device during scaffolding erection, comprising:
[0006] Protective covers are used to wrap around the outer perimeter of pipelines. The protective covers are made of high-strength, corrosion-resistant, and insulating composite materials, such as carbon fiber reinforced plastic. Their shapes can be customized according to the distribution and direction of different pipelines, including but not limited to circular and arc shapes, and can tightly wrap around the pipelines that need protection.
[0007] A fixing component for securing the protective cover to the surrounding building structure;
[0008] A buffer assembly is disposed between the protective cover and the pipeline;
[0009] A pressure sensor is located between the buffer assembly and the pipeline;
[0010] The integrated signal sensor and alarm unit is connected to the pressure sensor.
[0011] Preferably, the protective cover includes two semi-circular covers, which are connected and fixed by a number of fixing clips and bolt assemblies.
[0012] Preferably, the fixing component includes a U-shaped fixing seat, the top of which is fixed to the wall by fixing screws and expansion bolts.
[0013] Preferably, the buffer assembly consists of an elastic fiber fabric layer, a polyurethane foam layer, and a rubber pad, from the outside in.
[0014] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0015] 1. Comprehensive protection: The synergistic effect of protective covers, fixing components, and buffer components provides comprehensive protection for pipelines from a physical perspective, effectively preventing damage to pipelines caused by collisions, squeezing, or other reasons during scaffolding erection.
[0016] 2. Real-time monitoring and early warning: The monitoring and early warning system can keep track of the pipeline status in real time. Once an abnormality is detected, an alarm will be issued immediately to provide timely reminders to construction personnel, which greatly reduces the risk of pipeline damage and improves construction safety.
[0017] 3. High adaptability: The main structure and fixing components of the protection device can be flexibly adjusted and installed according to different pipeline types, specifications and building structures, and have wide applicability.
[0018] 4. High durability: The protective cover is made of high-strength, corrosion-resistant, and insulating composite materials, and the buffer components are designed with a multi-layer structure, which gives the device a long service life and reduces the cost and time wasted due to frequent replacement of protective devices. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the pipeline protection device during scaffolding erection in an embodiment of this utility model.
[0020] Figure 2 This is a schematic diagram of the internal structure of the pipeline protection device during scaffolding erection in an embodiment of this utility model.
[0021] Figure 3 This is a disassembly diagram of the pipeline protection device during scaffolding erection in an embodiment of this utility model.
[0022] In the diagram, 1. Fixing component; 101. Expansion bolt; 102. Fixing screw; 103. U-shaped fixing seat; 2. Protective cover; 201. Semi-circular cover; 202. Fixing clamp; 3. Buffer component; 301. Elastic fiber fabric layer; 302. Polyurethane foam layer; 303. Rubber pad; 4. Pressure sensor; 5. Signal sensor and alarm integrated unit; 6. Pipeline. Detailed Implementation
[0023] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0024] Example: Figure 1-3 The pipeline protection device shown includes:
[0025] The protective cover 2 is used to wrap around the outer periphery of the pipeline 6. The protective cover 2 includes two semi-circular covers 201, which are connected and fixed by several fixing clips 202 and bolt assemblies.
[0026] Fixing component 1 is used to fix the protective cover 2 to the surrounding wall. Fixing component 1 includes a U-shaped fixing base 103. The top of the U-shaped fixing base 103 is connected and fixed to the wall via fixing screws 102 and expansion bolts 101. The expansion bolts 101 are installed by drilling holes in the wall, providing stable anchor points. The top of both sides of the U-shaped fixing base 103 has connecting holes that mate with the fixing screws 102. Tightening the nuts secures the U-shaped fixing base 103 firmly to the expansion bolts 101.
[0027] A buffer assembly 3 is located between the protective cover 2 and the pipeline 6. From the outside in, the buffer assembly 3 consists of an elastic fiber fabric layer 301, a polyurethane foam layer 302, and a rubber pad 303. The buffer assembly 3 is used to absorb and disperse external forces that may impact the pipeline 6. The buffer assembly 3 adopts a multi-layer structure design. The inner layer is a soft rubber pad that directly contacts the pipeline 6, effectively preventing scratches from the protective cover 2 on the surface of the pipeline 6. The middle layer is a honeycomb-shaped polyurethane foam material with good cushioning performance, capable of absorbing most of the impact force. The outer layer is a high-strength elastic fiber fabric, enhancing the overall strength and wear resistance of the buffer assembly 3.
[0028] Pressure sensor 4 is located between buffer assembly 3 and pipeline 6, and is connected to signal sensing and alarm integrated unit 5. Pressure sensors 4 are evenly distributed on the surface of pipeline 6 to monitor pressure changes in pipeline 6 in real time. When the pressure exceeds a preset safety threshold, the sensor transmits a signal to the signal processor. After analyzing and processing the signal, the signal processor triggers the alarm to issue an audible and visual alarm. Simultaneously, the alarm information is transmitted wirelessly to the mobile terminal of construction management personnel, such as a mobile phone or tablet, so that appropriate protective measures can be taken promptly.
[0029] The specific construction method in this embodiment includes:
[0030] S1. At the construction site, determine the location and direction of pipeline 6, and select a protective cover 2 of appropriate size and shape based on the outer diameter of pipeline 6 and the actual installation space.
[0031] S2. Use drilling equipment to drill holes in the wall around pipeline 6 to install expansion bolts 101, and install and fix expansion bolts 101.
[0032] S3. Connect the U-shaped fixing seat 103 to the expansion bolt 101 through the connecting hole and the fixing screw 102, and initially tighten the nut.
[0033] S4. Adjust the length of the fixing screw 102 according to the distance between the pipeline 6 and the wall so that the protective cover 2 is aligned with the pipeline 6 for installation.
[0034] S5. Place the protective cover 2 onto the pipeline 6, ensuring that the pipeline 6 is fully embedded. Then, tighten the nuts on the fixing clamp 202 to secure the protective cover 2 firmly around the pipeline 6.
[0035] S6. Install pressure sensor 4 on the surface of pipeline 6, and connect the sensor to the signal processor and alarm to complete the installation and commissioning of the monitoring and early warning system.
[0036] S7. During the scaffolding erection process, construction workers can view the pressure data of pipeline 6 at any time through the signal processor's display screen. If any abnormality is detected, the alarm will sound immediately, reminding the construction workers to stop work and investigate the cause.
[0037] The pipeline protection device for scaffolding erection in this embodiment can be effectively applied to the protection of different types of pipelines. It is easy to operate, has a significant protection effect, and has good value for promotion and application.
[0038] The above are merely embodiments of this utility model and do not limit the patent scope of this utility model. Any equivalent solutions made using the contents of this utility model specification, whether directly or indirectly applied to other related technical fields, are also within the patent protection scope of this utility model.
Claims
1. A pipeline protection device for scaffolding erection, characterized in that, include: A protective cover, used to wrap around the outer perimeter of the pipeline; A fixing component for securing the protective cover to the surrounding building structure; A buffer assembly is disposed between the protective cover and the pipeline; A pressure sensor is located between the buffer assembly and the pipeline; The integrated signal sensor and alarm unit is connected to the pressure sensor.
2. The pipeline protection device during scaffolding erection as described in claim 1, characterized in that, The protective cover includes two semi-circular covers, which are connected and fixed by a number of fixing clips and bolt assemblies.
3. The pipeline protection device during scaffolding erection as described in claim 1 or 2, characterized in that, The fixing component includes a U-shaped fixing seat, the top of which is connected and fixed to the wall by fixing screws and expansion bolts.
4. The pipeline protection device during scaffolding erection as described in claim 1 or 2, characterized in that, The buffer assembly consists of, from the outside in, an elastic fiber fabric layer, a polyurethane foam layer, and a rubber pad.