A pipeline arrangement device that is easy to install

Through lightweight design and active flame-retardant mechanism, the pipeline layout device solves the problems of low installation efficiency, insufficient fire safety and low space utilization of traditional pipeline supports, and achieves efficient installation and improved safety.

CN224502777UActive Publication Date: 2026-07-14SHANDONG DADI INFORMATION ENGINEERING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANDONG DADI INFORMATION ENGINEERING CO LTD
Filing Date
2025-08-19
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing pipeline support systems suffer from low installation efficiency, insufficient fire safety, low space utilization, and heavy structure, making them difficult to adapt to complex building environments.

Method used

Design an easy-to-install pipeline layout device that adopts a lightweight structure and an active flame-retardant mechanism. It combines full-section and weight-reduced section structures, and sets up fixing parts and flame-retardant units, including vertical strip holes, horizontal strip holes, T-shaped through grooves and flame retardant storage positions. It utilizes a heat-sensitive protective layer and sensors to improve installation flexibility and safety.

Benefits of technology

It improves installation efficiency, enhances fire safety, increases space utilization and structural stability, reduces weight, and enables flexible installation and active flame retardancy.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224502777U_ABST
Patent Text Reader

Abstract

The utility model discloses a pipeline arrangement device convenient to installation, including the load bearing main part for the pipeline of load bearing and with the fixed part of load bearing main part is connected, load bearing main part includes the all structure section and the weight reduction structure section of interconnection, and the whole structure of cross section of all structure section is I -shaped, including the first horizontal section of setting in turn from top to bottom along the vertical direction, intermediate vertical section and second horizontal section, the inside of intermediate vertical section is provided with main weight reduction chamber, and the inside of both ends of first horizontal section and second horizontal section is provided with vice weight reduction chamber, the weight reduction structure section includes the third horizontal section of forming by first horizontal section extension and the extension vertical section of forming by intermediate vertical section extension. While guaranteeing the load bearing capacity of pipe row arrangement device, the adaptability for different installation environment is promoted, realizes flexible installation, stable arrangement, and through the lightweight design of structure, integrates more effective antiskid and long -term fire -retardant mechanism, to promote the overall performance, security and economy of wiring system.
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Description

Technical Field

[0001] This utility model relates to the field of cable support structure technology, specifically to a pipeline layout device that is easy to install. Background Technology

[0002] In modern buildings, data centers, industrial plants, and other environments, the standardized installation and management of cables (such as power cables and optical fiber cables) is crucial. As a fundamental and widely used cabling support structure, the cable carrier plays a vital role in supporting, securing, and protecting cables. Its performance directly affects the security, neatness, maintainability, and cost-effectiveness of the cabling system.

[0003] With the increasing complexity of modern architectural spaces and the intensification of electromechanical system density, especially in scenarios such as tunnels and underground utility tunnels, traditional pipeline supports face multiple challenges:

[0004] 1. Low installation efficiency: Existing traditional pipeline supports usually consist of a support structure fixed to the building structure and a load-bearing body connected to the support structure. The support structure is usually fixed to the building structure by pre-embedding, while the load-bearing body is mostly connected to the support structure by mounting plates with single bolt holes or fixed positions. This makes it difficult to adapt to structural errors on the construction site, such as poor wall flatness, misalignment of the pre-embedded support structure, and non-adjustable bolt hole spacing. This makes it difficult for the support structure to fit the wall or for the mounting plate on the load-bearing body to fit the support structure, requiring on-site hole enlargement or additional welding operations, which increases the construction difficulty.

[0005] 2. Insufficient fire safety: Traditional pipeline support structures typically only have passive fire protection design and lack active fire extinguishing means. Although some pipeline support surfaces are coated with flame retardant materials, they cannot actively respond to extinguish fires in the early stages of a fire. Furthermore, once the fire is severe, the flame retardant coating is prone to peeling off and failing under high temperature conditions, completely losing its fireproof and flame-retardant capabilities.

[0006] 3. Conflict between space utilization and structure: When conventional pipeline support structures encounter poor surface flatness of building structures, it is usually necessary to set up a clearance space between the support structure and the building structure. This can easily lead to the load-bearing main body excessively encroaching into the tunnel or underground utility tunnel, resulting in a reduction in space utilization. In addition, the self-weight of conventional I-beam supports is too large. Combined with the weight of the pipelines they support, the load-bearing main body is prone to bending deformation after long-term pressure, which can eventually lead to pipeline detachment.

[0007] This shows that existing technologies still have certain shortcomings. Utility Model Content

[0008] The purpose of this utility model is to provide an easy-to-install conduit layout device that enhances adaptability to different installation environments while ensuring the load-bearing capacity of the conduit layout device, enabling flexible installation and stable layout. Furthermore, through lightweight structural design and the integration of more effective anti-slip and long-lasting flame-retardant mechanisms, it improves the overall performance, safety, and economy of the cabling system.

[0009] To achieve the above objectives, this utility model provides a pipeline layout device that is easy to install, which includes a supporting body for carrying pipelines and a fixing part connected to the supporting body. The fixing part is used to connect to an external structure to fix the supporting body in a predetermined position.

[0010] Along the length of the supporting body, the supporting body includes interconnected full structural sections and weight-reducing structural sections. The overall cross-sectional structure of the full structural section is I-shaped, including a first horizontal section, a middle vertical section, and a second horizontal section arranged sequentially from top to bottom along the vertical direction. A main weight-reducing cavity is provided inside the middle vertical section, and secondary weight-reducing cavities are provided inside both ends of the first and second horizontal sections along the width direction of the supporting body. The weight-reducing structural section includes a third horizontal section extending from the first horizontal section and an extended vertical section extending from the middle vertical section. The projection of the extended vertical section in the width direction of the supporting body is a right trapezoid.

[0011] In the above-described scheme, the fixing part allows the load-bearing body of this application to be easily and quickly connected to auxiliary structures such as columns, as well as directly connected to the tunnel wall structure, greatly improving the flexibility and adaptability of the load-bearing body during installation and significantly enhancing installation fault tolerance. Simultaneously, while ensuring the structural strength of the load-bearing body, the weight-reducing structural section effectively reduces the weight of the load-bearing body while maintaining its load-bearing capacity, preventing bending under the influence of cables and its own weight. This further enhances its load-bearing capacity and ensures the stability between the load-bearing body and external structures such as columns and tunnel walls. Furthermore, the main and secondary weight-reducing cavities facilitate the placement of flame retardants inside the load-bearing body, giving it active flame-retardant measures and greatly improving safety.

[0012] In a preferred embodiment of this application, the fixing part is a fixing plate disposed at the end of the full structural segment, the full structural segment is connected to the middle of the fixing plate, and the fixing plate is provided with a plurality of fixing holes arranged around the circumference of the full structural segment.

[0013] In the above scheme, the structure of the fixing plate and fixing holes is simple and easy to use, which facilitates the installation and fixing of the load-bearing body. In addition, the multiple fixing holes make it easy to adjust the installation position of the load-bearing body according to the actual installation structure.

[0014] In a preferred embodiment of this application, the fixing hole includes a vertical strip hole and a horizontal strip hole.

[0015] In the above scheme, the use of vertical and horizontal strip holes makes it easier to adjust the bolt position during installation, eliminating the need for hole enlargement work on the installation site and improving construction efficiency.

[0016] In a preferred embodiment of this application, the vertical strip holes are arranged symmetrically with the connection between the supporting body and the fixing plate as the center, and the horizontal strip holes are arranged symmetrically with respect to the center.

[0017] In the above scheme, the above structure is adopted. The setting of vertical and horizontal strip holes facilitates the position adjustment of the load-bearing body in the vertical and / or horizontal directions during the installation process, thereby better adapting to the errors of the actual installation structure.

[0018] In a preferred embodiment of this application, along the extension direction of the supporting body, the middle of the first horizontal segment and the third horizontal segment are provided with T-shaped through grooves that open upward and penetrate the first horizontal segment and the third horizontal segment, and the middle of the second horizontal segment is provided with T-shaped through grooves that open downward and penetrate the second horizontal segment.

[0019] With the above structure, the fasteners used to fix the pipeline can move along the T-shaped groove within the entire length of the supporting body, and the T-shaped groove structure is also easy to match with fasteners of different specifications and sizes, which greatly improves the flexibility of pipeline fixing and facilitates the installation and adjustment of pipeline position.

[0020] As a preferred embodiment of this application, it further includes a flame retardant unit, which includes a pre-stored flame retardant. Multiple flame retardant storage positions are provided inside the T-shaped through grooves of the first horizontal section, the second horizontal section, and the third horizontal section, as well as at the lower part of the third horizontal section. The flame retardant storage positions store the pre-stored flame retardant.

[0021] In the above scheme, setting up flame retardant storage positions in structures such as the inside of the T-shaped channel and the lower part of the third horizontal section to pre-store flame retardant can effectively utilize the internal space of structures such as the inside of the T-shaped channel and the lower part of the third horizontal section. It can also utilize the internal space of the main weight reduction cavity and the secondary weight reduction cavity, thereby improving the space utilization rate of the structure itself, and there is no need to set up additional installation structures.

[0022] In a preferred embodiment of this application, the flame retardant storage position is a mounting hole, and a plurality of mounting holes are evenly distributed on the lower wall of the T-shaped through groove of the first horizontal section and the third horizontal section, the upper wall of the T-shaped through groove of the second horizontal section, the lower wall of the third horizontal section, and the side wall of the extended vertical section.

[0023] In the above scheme, the structure of the flame retardant storage position is simple and easy to set up. The use of a perforated structure can reduce the exposed area of ​​the pre-stored flame retardant, which helps to avoid the influence of environmental humidity on the flame retardant effect.

[0024] In a preferred embodiment of this application, the pre-stored flame retardant includes a solid flame retardant body and a heat-sensitive protective layer covering the outside of the solid flame retardant body.

[0025] In the above scheme, the heat-sensitive protective layer can further isolate and protect the solid flame retardant under normal conditions, preventing moisture in the outside air from causing the solid flame retardant to become damp and clump, which would reduce or disable the flame retardant's flame retardant ability. Moreover, when the heat-sensitive protective layer reaches the critical temperature in the event of a fire, it will directly rupture / dissolve and release the solid flame retardant, ensuring that the solid flame retardant can be dispersed in time at the fire point and ensure the flame retardant effect.

[0026] In a preferred embodiment of this application, the flame-retardant unit further includes a flame-retardant coating applied to the surface of the fixing plate and the supporting body, and a thermal sensor is also provided on the supporting body or the fixing plate.

[0027] In the above solution, the flame-retardant coating on the surface of the fixing plate and the supporting body can directly block or delay the spread of fire, further improving the fire resistance and flame retardancy of the entire structure. At the same time, the setting of thermal sensors is conducive to timely detection of fire, so that fire protection / maintenance personnel can arrive at the scene in time to deal with the fire and avoid greater losses.

[0028] In a preferred embodiment of this application, the inner wall of the main weight reduction cavity has a recessed portion, which extends through the main weight reduction cavity along the extension direction of the supporting body.

[0029] In the above scheme, by setting the recessed part, the material reduction and weight reduction of the main body can be further realized. The recessed part further expands the installation space on the side wall of the main weight reduction cavity, which makes it easier to set the flame retardant storage position and store the pre-stored flame retardant. Attached Figure Description

[0030] The accompanying drawings, which are included to provide a further understanding of the present invention and constitute a part of this invention, illustrate exemplary embodiments of the present invention and, together with the description thereof, serve to explain the present invention and do not constitute an undue limitation thereof. In the drawings:

[0031] Figure 1 This is a schematic diagram of a pipeline layout device for easy installation, as shown in the example.

[0032] Figure 2This is a side view of a pipeline layout device for easy installation, as shown in the example.

[0033] Figure 3 This is a structural cross-sectional view of a pipeline layout device for easy installation, as shown in the example.

[0034] Figure 4 This is a structural cross-sectional view of a pipeline layout device for easy installation, as shown in another example.

[0035] List of components and reference numerals:

[0036] 1. Load-bearing main body, 11. Full structural section, 111. First horizontal section, 112. Middle vertical section, 113. Second horizontal section, 114. Main weight-reducing cavity, 115. Secondary weight-reducing cavity, 12. Weight-reducing structural section, 121. Third horizontal section, 122. Extended vertical section, 13. T-shaped through groove, 14. Recessed part.

[0037] 2. Fixing part, 21. Fixing plate, 211. Vertical strip hole, 212. Horizontal strip hole;

[0038] 3 Flame retardant storage location. Detailed Implementation

[0039] To more clearly illustrate the overall concept of this utility model, a detailed description will be provided below with reference to the accompanying drawings.

[0040] It should be noted that many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Therefore, the scope of protection of the present invention is not limited to the specific embodiments disclosed below.

[0041] like Figures 1-4 As shown, this application provides an easy-to-install pipeline layout device, which includes a support body 1 for carrying pipelines and a fixing part 2 connected to the support body 1. The fixing part 2 is used to connect to an external structure to fix the support body 1 in a predetermined position. By setting the fixing part 2, the support body 1 in this application can be easily and quickly connected to auxiliary structures such as columns, and can also be easily connected directly to the tunnel wall structure. This eliminates the need for auxiliary structures such as columns and the clearance space that may exist between the auxiliary structures such as columns and the tunnel wall, which helps to prevent the support body 1 from encroaching too much on the tunnel interior space, improves the tunnel space utilization rate, and greatly improves the flexibility and adaptability of the support body 1 during installation, significantly increasing installation fault tolerance.

[0042] Continue to refer to Figure 1 , Figure 2 as well as Figure 3As shown, along the length of the supporting body 1, the supporting body 1 includes an interconnected full structural section 11 and a weight-reducing structural section 12. The overall cross-sectional structure of the full structural section 11 is I-shaped, including a first horizontal section 111, a middle vertical section 112, and a second horizontal section 113 arranged sequentially from top to bottom along the vertical direction. The middle vertical section 112 has a main weight-reducing cavity 114 inside, and the first horizontal section 111 and the second horizontal section 113 have auxiliary weight-reducing cavities 115 inside both ends along the width direction of the supporting body 1. The weight-reducing structural section 12 includes a third horizontal section 121 extended from the first horizontal section 111 and an extended vertical section 122 extended from the middle vertical section 112. The projection of the extended vertical section 122 in the width direction of the supporting body 1 is a right trapezoid. This structure ensures the structural strength of the load-bearing body while effectively reducing the weight of the load-bearing body 1 by setting the weight-reducing structural section 12. This prevents the load-bearing body 1 from bending under the influence of cables and its own weight, which helps to further improve its load-bearing capacity and ensure the stability between the load-bearing body 1 and external structures such as columns and tunnel walls. In addition, by setting the main weight-reducing cavity 114 and the secondary weight-reducing cavity 115, it is easy to put flame retardants inside the load-bearing body 1, so that the load-bearing body 1 in this application has active flame-retardant measures, which greatly improves safety.

[0043] Furthermore, referring to Figure 1 and Figure 2 As shown, the fixing part 2 is a fixing plate 21 disposed at the end of the full structural section 11. The full structural section 11 is connected to the middle of the fixing plate 21. The fixing plate 21 has multiple fixing holes arranged around the circumference of the full structural section 11. In one example, refer to... Figure 2 As shown, the fixing holes include vertical strip holes 211 and horizontal strip holes 212. Preferably, the vertical strip holes 211 and the horizontal strip holes 212 are arranged symmetrically around the connection between the supporting body 1 and the fixing plate 21.

[0044] In the above scheme, the structure of the fixing plate 21 and the fixing holes are simple and easy to use, facilitating the installation and fixing of the supporting body 1. The multiple fixing holes also allow for adjustment of the installation position of the supporting body 1 according to the actual installation structure. In particular, the use of vertical strip holes 211 and horizontal strip holes 212 makes it easier to adjust the bolt position during installation, eliminating the need for on-site hole enlargement, thus improving construction efficiency. Furthermore, the symmetrical arrangement of the vertical strip holes 211 and horizontal strip holes 212 facilitates positional adjustments of the supporting body 1 in the vertical and / or horizontal directions during installation, thereby better adapting to errors in the actual installation structure.

[0045] It should be noted that the structure of the fixing part 2 and the shape and arrangement of the fixing holes on the fixing part 2 in this application are not limited to the above example. The above example is only a preferred example of this application. Other fixing part 2 structures can also be used, and other connection structures can also be used on the fixing part 2. For example, a connecting plate with a split structure or a partially flip-up structure can be used as the fixing part 2. Connection structures such as fixing grooves, buckles, and protrusions can also be used for the connection between the fixing part 2 and the bearing body 1. Of course, many more different settings can be used. This application does not make specific limitations on this.

[0046] Continue to refer to Figure 2 , Figure 3 and Figure 4 As shown, along the extension direction of the supporting body 1, the middle of the first horizontal segment 111 and the third horizontal segment 121 are provided with T-shaped through grooves 13 that open upwards and penetrate through the first horizontal segment 111 and the third horizontal segment 121, respectively. The middle of the second horizontal segment 113 is provided with a T-shaped through groove 13 that opens downwards and penetrates through the second horizontal segment 113. With the above structure, the fixing component used to fix the pipeline can move along the T-shaped through groove 13 within the entire length of the supporting body 1, and the structure of the T-shaped through groove 13 is also convenient for cooperation with fixing components of different specifications and sizes, greatly improving the flexibility of pipeline fixing and facilitating the installation and adjustment of pipeline positions.

[0047] It should also be noted that the use of the T-shaped through groove 13 for limiting and fixing the cable fastener is only a preferred example of this application. The T-shaped through groove 13 facilitates the movement of the fastener and allows for direct limiting of the cable fastener in a direction perpendicular to the extension direction of the T-shaped through groove 13. Compared to using a conventional straight groove, this eliminates the need for an additional limiting structure for fixing the cable fastener. Furthermore, compared to drilling or slotting in the supporting body 1, this reduces the impact of drilling / slotting on the structural strength of the supporting body 1. Of course, other different configurations can also be used, and this application does not specifically limit these.

[0048] As a preferred embodiment of this application, refer to Figure 4As shown, the pipeline layout device in this application is also equipped with a flame retardant unit. The flame retardant unit mainly includes a pre-stored flame retardant disposed on the supporting body 1. In one example, multiple flame retardant storage positions 3 are provided inside the T-shaped through groove 13 of the first horizontal section 111, the second horizontal section 113, and the third horizontal section 121, as well as at the lower part of the third horizontal section 121. The flame retardant storage positions 3 store the pre-stored flame retardant. The pre-stored flame retardant in the flame retardant storage positions 3 in the T-shaped through groove 13, the lower part of the third horizontal section 121, and other structures can effectively utilize the internal space of the T-shaped through groove 13, the lower part of the third horizontal section 121, and other structures. It can also utilize the internal space of the main weight reduction cavity 114 and the secondary weight reduction cavity 115, thereby improving the space utilization rate of the structure itself, and without the need for additional installation structures. Preferably, the flame retardant storage position 3 is a mounting hole. Multiple mounting holes are evenly distributed on the lower wall of the T-shaped through groove 13 of the first horizontal section 111 and the third horizontal section 121, the upper wall of the T-shaped through groove 13 of the second horizontal section 113, the lower wall of the third horizontal section 121, and the side wall of the extended vertical section 122. This flame retardant storage position 3 has a simple structure and is easy to set up. Moreover, the use of a hole structure can reduce the exposed area of ​​the pre-stored flame retardant, which helps to avoid the influence of environmental humidity on the flame retardant effect. Meanwhile, the pre-stored flame retardant includes a solid flame retardant body and a heat-sensitive protective layer covering the outside of the solid flame retardant body. The heat-sensitive protective layer can further isolate and protect the solid flame retardant under normal conditions, preventing moisture carried by the outside air from causing the solid flame retardant to become damp and clump, which would reduce or disable the flame retardant's flame retardant ability. Moreover, when the heat-sensitive protective layer reaches the critical temperature in the event of a fire, it will directly rupture / disintegrate and release the solid flame retardant, ensuring that the solid flame retardant can be dispersed in time at the fire point, ensuring the flame retardant effect.

[0049] It should be noted that the specific structure of the flame retardant storage position 3 and the pre-stored flame retardant, as well as the way they are combined, are not limited to the examples described above. The examples described above are merely preferred examples of this application. The flame retardant storage position 3 can also be a separately provided mounting box that can be magnetically attached to the carrier body 1. The pre-stored flame retardant can also be a simple solid flame retardant without a heat-sensitive protective layer. After the flame retardant is filled into the flame retardant storage position 3, it is only necessary to seal the flame retardant storage position 3 with heat-sensitive protective material. Of course, other different configuration methods can also be adopted, and this application does not specifically limit them.

[0050] As a preferred embodiment of this application, refer to Figure 4As shown, the inner wall of the main weight-reducing cavity 114 also has a recess 14, which extends through the main weight-reducing cavity 114 along the extension direction of the supporting body 1. By setting the recess 14, the material reduction and weight reduction of the supporting body 1 can be further realized, and the recess 14 further expands the installation space on the side wall of the main weight-reducing cavity 114, which makes it easier to set the flame retardant storage position 3 and store the pre-stored flame retardant.

[0051] Furthermore, as a preferred embodiment of this application, the flame-retardant unit further includes a flame-retardant coating applied to the surfaces of the fixing plate 21 and the supporting body 1, and a thermal sensor is also provided on the supporting body 1 or the fixing plate 21. The flame-retardant coating on the surfaces of the fixing plate 21 and the supporting body 1 can directly block or delay the spread of fire, further enhancing the fire resistance of the entire structure. Simultaneously, the thermal sensor facilitates timely detection of fires, enabling firefighters / maintenance personnel to arrive promptly and handle the fire, preventing greater losses.

[0052] It should be noted that this application does not specify the specific composition of the flame-retardant coating or the specific model of the thermal sensor. The most cost-effective existing mature shelving products can be selected based on actual construction requirements and actual cost considerations.

[0053] The technical solutions protected by this utility model are not limited to the above embodiments. It should be noted that any combination of the technical solutions of any embodiment with one or more other embodiments is within the protection scope of this utility model. Although this utility model has been described in detail above with general descriptions and specific embodiments, some modifications or improvements can be made to it, which will be obvious to those skilled in the art. Therefore, all such modifications or improvements made without departing from the spirit of this utility model are within the scope of protection claimed by this utility model.

Claims

1. A pipeline layout device that is easy to install, characterized in that, It includes a support body for carrying pipelines and a fixing part connected to the support body, the fixing part being used to connect to an external structure to fix the support body in a predetermined position; Along the length of the supporting body, the supporting body includes interconnected full structural sections and weight-reducing structural sections. The overall cross-sectional structure of the full structural section is I-shaped, including a first horizontal section, a middle vertical section, and a second horizontal section arranged sequentially from top to bottom along the vertical direction. A main weight-reducing cavity is provided inside the middle vertical section, and secondary weight-reducing cavities are provided inside both ends of the first and second horizontal sections along the width direction of the supporting body. The weight-reducing structural section includes a third horizontal section extending from the first horizontal section and an extended vertical section extending from the middle vertical section. The projection of the extended vertical section in the width direction of the supporting body is a right trapezoid.

2. The pipeline layout device for easy installation as described in claim 1, characterized in that, The fixing part is a fixing plate disposed at the end of the full structural segment. The full structural segment is connected to the middle of the fixing plate. The fixing plate has multiple fixing holes arranged around the circumference of the full structural segment.

3. The pipeline layout device for easy installation as described in claim 2, characterized in that, The fixing holes include vertical strip holes and horizontal strip holes.

4. The pipeline layout device for easy installation as described in claim 3, characterized in that, With the connection between the supporting body and the fixing plate as the center, the vertical strip holes are arranged in a centrally symmetrical manner, and the horizontal strip holes are arranged in a centrally symmetrical manner.

5. The pipeline layout device for easy installation as described in claim 2, characterized in that, Along the extension direction of the supporting body, the middle of the first horizontal segment and the third horizontal segment is provided with a T-shaped through groove that opens upward and penetrates the first horizontal segment and the third horizontal segment, and the middle of the second horizontal segment is provided with a T-shaped through groove that opens downward and penetrates the second horizontal segment.

6. The pipeline layout device for easy installation as described in claim 5, characterized in that, It also includes a flame retardant unit, which includes a pre-stored flame retardant. Multiple flame retardant storage positions are provided inside the T-shaped through grooves of the first horizontal section, the second horizontal section, and the third horizontal section, as well as at the lower part of the third horizontal section. The flame retardant storage positions store the pre-stored flame retardant.

7. The pipeline layout device for easy installation as described in claim 6, characterized in that, The flame retardant storage location is a mounting hole, and a plurality of mounting holes are evenly distributed on the lower wall of the T-shaped through groove of the first horizontal section and the third horizontal section, the upper wall of the T-shaped through groove of the second horizontal section, the lower wall of the third horizontal section, and the side wall of the extended vertical section.

8. The pipeline layout device for easy installation as described in claim 6, characterized in that, The pre-stored flame retardant includes a solid flame retardant body and a heat-sensitive protective layer covering the outside of the solid flame retardant body.

9. The pipeline layout device for easy installation as described in claim 6, characterized in that, The flame-retardant unit also includes a flame-retardant coating applied to the surface of the fixing plate and the supporting body, and a thermal sensor is also provided on the supporting body or the fixing plate.

10. The pipeline layout device for easy installation as described in claim 1, characterized in that, The inner wall of the main weight reduction cavity has a recessed portion, which extends through the main weight reduction cavity along the extension direction of the supporting body.