An inner partition wall integrated with pipelines and decoration

By using bolted connections and support components for vertical and horizontal square tubes, the problem of long construction time and low efficiency caused by welding during the installation of internal partitions and pipelines is solved, enabling fast and precise modular construction.

CN224338544UActive Publication Date: 2026-06-09BEIJING HONG KONG YUAN CONSTR DECORATION ENG

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
BEIJING HONG KONG YUAN CONSTR DECORATION ENG
Filing Date
2025-02-21
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

The existing method of installing interior partitions and pipelines requires on-site welding of steel frames, which results in long construction time, low efficiency, and high cost, making it difficult to meet the needs of rapid construction.

Method used

The system uses vertical and horizontal square tube components, which are fixed with bolts and connecting brackets to avoid welding. Combined with support components and reserved pipeline structures, it enables modular installation.

Benefits of technology

Shorten construction time, improve efficiency, reduce environmental pollution and personal injury, enhance construction precision, and meet the needs of rapid construction.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224338544U_ABST
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Abstract

The utility model discloses an inner partition wall and pipeline, decoration integrated structure, including vertical square, and multiple vertical square are in a straight line array type setting, horizontal square, and multiple horizontal square are detachably set between two vertical square, and horizontal square is in a straight line array type setting, and the first connecting angle code is fixed with the second pair of through bolt and is set between vertical square and horizontal square through the first pair of through bolt, install subassembly, it is fixedly installed in vertical square end, pipeline structure, it sets up in the inside of horizontal square, support subassembly, it is fixedly set in pipeline structure bottom, the utility model discloses install subassembly through the setting, can according to the size of inner partition wall with corresponding vertical square fixed installation, utilize the first pair of through bolt and second pair of through bolt and first connecting angle code, can with horizontal square fast fixed between two vertical square, further can avoid welding to vertical square and horizontal square, has improved the field construction efficiency.
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Description

Technical Field

[0001] This utility model belongs to the field of decoration technology, and more specifically, it relates to an integrated structure of interior partition walls, pipelines, and decoration. Background Technology

[0002] Interior partitions are non-load-bearing walls used to separate spaces within a building. Their main function is to distinguish different functional areas without bearing the weight of the building structure. Interior partitions are usually made of lightweight, thin materials and have good sound insulation, moisture resistance, and fire resistance.

[0003] Interior partition walls and pipelines are common construction methods in home renovation. Current installation methods typically require on-site welding of the steel frame, a traditional practice that has revealed a series of problems in practice. First, on-site welding of the steel frame significantly extends construction time. Welding requires not only precise operational skills but also waiting for the weld to cool and solidify, a time-consuming and unpredictable process that prolongs the entire construction cycle and affects the overall progress of the renovation project. Second, low construction efficiency is also a major drawback of current installation methods. On-site welding often requires multiple workers to work together, and limitations in welding equipment and the working environment make it difficult to achieve an efficient and continuous construction process. This not only increases construction costs but also reduces work efficiency, failing to meet the demands of modern renovation projects for rapid construction. Utility Model Content

[0004] The purpose of this utility model is to provide an integrated structure for internal partition walls, pipelines, and decoration to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides an integrated structure for internal partition walls, pipelines, and decoration, comprising:

[0006] Vertical square tubes are arranged in a straight line, and there are multiple sets of vertical square tubes.

[0007] A horizontal square tube, multiple sets of horizontal square tubes are detachably set between two sets of vertical square tubes, and the horizontal square tubes are arranged in a straight line. A first through bolt is installed inside the vertical square tube, and a second through bolt is installed inside the horizontal square tube. A first connecting angle bracket is fixed between the vertical square tube and the horizontal square tube by the first through bolt and the second through bolt.

[0008] The mounting components are fixedly installed at the ends of the vertical square tubes;

[0009] Pipeline structure, the pipeline structure is set inside the horizontal square tube;

[0010] The support component is fixedly installed at the bottom of the pipeline structure and at the top of the horizontal square tube.

[0011] In a preferred embodiment, both the vertical and horizontal square tubes are hot-dip galvanized square tubes, and the first connecting angle bracket is a hot-dip galvanized angle bracket. The horizontal square tube has a pipe hole inside, and the pipe hole completely penetrates the horizontal square tube.

[0012] In a preferred embodiment, the mounting assembly includes: a third through bolt, a second connecting angle bracket, an embedded plate, and an expansion bolt; the third through bolt is installed inside the end side of the vertical square tube, the second connecting angle bracket is fixedly installed on the outside of the vertical square tube by the third through bolt, and the second connecting angle bracket is a hot-dip galvanized angle bracket, the embedded plate is installed on the outside of the second connecting angle bracket, and the expansion bolt is movably installed between the second connecting angle bracket and the inside of the embedded plate, and the expansion bolt is fixed inside the foundation concrete.

[0013] In a preferred embodiment, the pipeline structure includes: a reserved pipeline and a socket box; the reserved pipeline is disposed inside the pipeline hole, and the top of the reserved pipeline has a reserved pipeline connection part, and the socket box is fixedly disposed at the bottom of the reserved pipeline.

[0014] In a preferred embodiment, the support assembly includes: a support cylinder, a fourth through bolt, a third connecting angle bracket, a fifth through bolt, and a support column; the support cylinder is movably disposed on the top of the transverse square tube, the fourth through bolt is disposed inside the bottom side of the support cylinder, the third connecting angle bracket is fixed between the transverse square tube and the support cylinder by the fourth through bolt and the fifth through bolt, and the third connecting angle bracket is a hot-dip galvanized angle bracket, the support column is slidably disposed inside the support cylinder, and the support column is fixedly disposed at the bottom of the socket box.

[0015] In a preferred embodiment, the support assembly further includes: a threaded cylinder and an internal hexagon bolt; the threaded cylinder is fixedly disposed inside the top side of the support cylinder, and the internal hexagon bolt is disposed inside the threaded cylinder through a threaded connection, with the end of the internal hexagon bolt tightly fitted to the outer side of the support column.

[0016] Compared with the prior art, the present invention has the following beneficial effects:

[0017] 1. In this utility model, by providing an installation component, the corresponding vertical square tubes can be fixedly installed according to the size of the inner partition wall. At the same time, by using the first through bolt, the second through bolt, and the first connecting angle bracket, the horizontal square tubes can be quickly fixed between the two sets of vertical square tubes. This avoids welding the vertical and horizontal square tubes, greatly shortens the on-site construction time, improves on-site construction efficiency, eliminates the environmental pollution and human harm caused by on-site welding, and enhances installation efficiency.

[0018] 2. In this utility model, by providing a support component, the socket box can be fixed in a designated position according to construction requirements, and the reserved pipeline can be fixed inside the pipeline hole. Then, the pipeline connection part at the top of the reserved pipeline can be used to connect with the overall electromechanical pipeline. This allows the process of originally needing to cut grooves and lay pipes on site to be prefabricated in the back-end, which greatly increases the construction accuracy and frees up manpower. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model.

[0020] Figure 2 This is a schematic diagram of the vertical square tube structure of this utility model.

[0021] Figure 3 This is a schematic diagram of the installation component of this utility model.

[0022] Figure 4 This is a schematic diagram of the structure of the horizontal square tube of this utility model.

[0023] Figure 5 This is a schematic diagram of the connection structure between the pipeline structure and the support components of this utility model.

[0024] Figure 6 This is a structural schematic diagram of the support component of this utility model.

[0025] Explanation of reference numerals in the attached figures:

[0026] 1. Vertical square tube; 101. First through bolt; 102. First connecting angle bracket; 103. Second through bolt; 2. Horizontal square tube; 201. Pipe hole; 3. Mounting assembly; 301. Third through bolt; 302. Second connecting angle bracket; 303. Embedded plate; 304. Expansion bolt; 4. Pipe structure; 401. Reserved pipeline; 402. Socket box; 5. Support assembly; 501. Support cylinder; 502. Fourth through bolt; 503. Third connecting angle bracket; 504. Fifth through bolt; 505. Support column; 506. Threaded cylinder; 507. Socket head bolt. Detailed Implementation

[0027] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples.

[0028] Example 1:

[0029] As attached Figure 1 To be continued Figure 6As shown, the integrated structure of interior partition walls, pipelines, and decoration provided by this utility model includes vertical square tubes 1, horizontal square tubes 2, installation components 3, pipeline structures 4, and support components 5. The vertical square tubes 1 are arranged in a straight line, and there are five sets of vertical square tubes 1. The horizontal square tubes 2 are movably arranged between two sets of vertical square tubes 1, and are also arranged in a straight line. A first through bolt 101 is installed inside the vertical square tube 1, and a second through bolt 103 is installed inside the horizontal square tube 2. A first connecting bracket 102 is fixedly installed between the vertical square tubes 1 and the horizontal square tubes 2 through the first through bolt 101 and the second through bolt 103. Installation components 3 are fixedly installed at the ends of the vertical square tubes 1, and pipeline structures 4 are arranged inside the horizontal square tubes 2. Support components 5 are fixedly installed at the bottom of the pipeline structures 4 and are fixedly installed at the top of the horizontal square tubes 2.

[0030] In this embodiment, both the vertical square tube 1 and the horizontal square tube 2 are hot-dip galvanized square tubes, and the first connecting angle bracket 102 is a hot-dip galvanized angle bracket. A pipe hole 201 is provided inside the horizontal square tube 2, and the pipe hole 201 completely penetrates the horizontal square tube 2.

[0031] The mounting assembly 3 includes: a third through bolt 301, a second connecting angle bracket 302, an embedded plate 303, and an expansion bolt 304. The third through bolt 301 is installed inside the end side of the vertical square tube 1. The second connecting angle bracket 302 is fixed to the outside of the vertical square tube 1 by the third through bolt 301, and the second connecting angle bracket 302 is a hot-dip galvanized angle bracket. The embedded plate 303 is located outside the second connecting angle bracket 302. The expansion bolt 304 is movably located between the second connecting angle bracket 302 and the embedded plate 303, and the expansion bolt 304 is fixed inside the foundation concrete. With the installation component 3, the corresponding vertical square tube 1 can be fixedly installed according to the size of the inner partition wall. At the same time, the horizontal square tube 2 can be quickly fixed between the two sets of vertical square tubes 1 by using the first through bolt 101, the second through bolt 103 and the first connecting angle bracket 102. This avoids welding the vertical square tube 1 and the horizontal square tube 2, greatly shortens the on-site construction time, improves the on-site construction efficiency, and eliminates the environmental pollution and human health harm caused by on-site welding.

[0032] Example 2:

[0033] As attached Figure 1 With appendix Figure 5As shown, based on Embodiment 1, the pipeline structure 4 includes: a reserved pipeline 401 and a socket box 402; the reserved pipeline 401 is disposed inside the pipeline hole 201, and a pipeline connection portion is reserved at the top of the reserved pipeline 401; the socket box 402 is fixedly disposed at the bottom of the reserved pipeline 401. The pipeline connection portion at the top of the reserved pipeline 401 facilitates connection with the overall electromechanical pipeline, thereby enabling the process that originally required on-site trenching and pipe laying to be prefabricated in the back-end.

[0034] Example 3:

[0035] As attached Figure 1 Appendix Figure 5 With appendix Figure 6 As shown, based on Embodiments 1 and 2, the support assembly 5 includes: a support cylinder 501, a fourth through bolt 502, a third connecting angle bracket 503, a fifth through bolt 504, a support column 505, a threaded cylinder 506, and an internal hex bolt 507; the support cylinder 501 is movably disposed on the top of the transverse square tube 2; the fourth through bolt 502 is disposed inside the bottom side of the support cylinder 501; the third connecting angle bracket 503 is fixed between the transverse square tube 2 and the support cylinder 501 by the fourth through bolt 502 and the fifth through bolt 504, and the third connecting angle bracket 503 is a hot-dip galvanized angle bracket; the support column 505 is slidably disposed inside the support cylinder 501, and the support column 505 is fixedly disposed at the bottom of the socket bottom box 402; the threaded cylinder 506 is fixedly disposed inside the top side of the support cylinder 501; the internal hex bolt 507 is disposed inside the threaded cylinder 506 by threaded connection, and the end of the internal hex bolt 507 is tightly fitted to the outside of the support column 505. By incorporating an internal hex bolt 507 and a threaded sleeve 506, the height of the support column 505 can be adjusted, thereby enabling it to be supported and fixed according to the actual height of the socket box 402.

[0036] The specific usage and function of this embodiment are described below:

[0037] In this invention, the height and width of the partition wall are determined based on its location, and the partition wall modules are determined through comprehensive analysis. Then, based on the electromechanical point location drawings and their positioning drawings, the positions of the electromechanical points within the partition wall are determined. These points are pre-positioned on the modular steel frame partition wall, and suitable vertical square tubes 1 and horizontal square tubes 2 are selected according to the partition wall's height and width. The second connecting bracket 302 is fixed to the building floor slab using expansion bolts 304 and embedded plates 303, and the vertical square tubes 1 are fixed to the outside of the second connecting bracket 302 using third through bolts 301, resulting in a straight-line arrangement of the vertical square tubes 1. Then, based on the electromechanical point locations, pipe holes 201 are pre-drilled in the horizontal square tubes 2, and pre-installed pipes 401 are inserted into the pipe holes 201. A pipe connection portion is pre-installed at the top of the pre-installed pipes 401 for easy connection to the overall electromechanical pipeline system. The horizontal square tube 2 is fixed between the two sets of vertical square tubes 1 using the first through bolt 101, the second through bolt 103, and the first connecting bracket 102. Then, the support cylinder 501 is fixed to the top of the horizontal square tube 2 using the fourth through bolt 502, the fifth through bolt 504, and the third connecting bracket 503. The support column 505 is pulled to position the socket box 402 at a suitable height. Then, the internal hex bolt 507 is rotated to make the end of the internal hex bolt 507 fit tightly against the outside of the support column 505, so that the support column 505 and the socket box 402 are fixed in the designated position, and the socket box 402 is fixedly connected to the reserved pipeline 401. Then, a suitable decorative panel material is selected and the decorative panel is fixedly installed between the outside of the vertical square tube 1 and the horizontal square tube 2, finally forming a steel frame partition wall.

[0038] 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. An integrated structure for interior partition walls, pipelines, and interior decoration, characterized in that: include: Vertical square tube (1), the vertical square tube (1) is arranged in a straight line, and there are multiple sets of vertical square tube (1); A horizontal square tube (2) is provided. Multiple sets of the horizontal square tubes (2) are detachably arranged between two sets of vertical square tubes (1). The horizontal square tubes (2) are arranged in a straight line. A first through bolt (101) is installed inside the vertical square tube (1). A second through bolt (103) is provided inside the horizontal square tube (2). A first connecting bracket (102) is fixed between the vertical square tube (1) and the horizontal square tube (2) through the first through bolt (101) and the second through bolt (103). Mounting component (3), which is fixedly mounted on the end of the vertical square tube (1); Pipeline structure (4), the pipeline structure (4) is disposed inside the transverse square tube (2); Support component (5) is fixedly installed at the bottom of the pipeline structure (4) and at the top of the transverse square tube (2).

2. The integrated structure of internal partition walls, pipelines, and decoration as described in claim 1, characterized in that: Both the vertical square tube (1) and the horizontal square tube (2) are hot-dip galvanized square tubes, and the first connecting angle bracket (102) is a hot-dip galvanized angle bracket. The horizontal square tube (2) has a pipeline hole (201) inside, and the pipeline hole (201) completely penetrates the horizontal square tube (2).

3. The integrated structure of internal partition walls, pipelines, and decoration as described in claim 1, characterized in that: The installation assembly (3) includes: a third through bolt (301), a second connecting angle bracket (302), an embedded plate (303), and an expansion bolt (304); the third through bolt (301) is installed inside the end side of the vertical square tube (1), the second connecting angle bracket (302) is fixedly set on the outside of the vertical square tube (1) by the third through bolt (301), and the second connecting angle bracket (302) is set as a hot-dip galvanized angle bracket, the embedded plate (303) is set on the outside of the second connecting angle bracket (302), and the expansion bolt (304) is movably set between the second connecting angle bracket (302) and the embedded plate (303), and the expansion bolt (304) is fixed inside the foundation concrete.

4. The integrated structure of internal partition walls, pipelines, and decoration as described in claim 2, characterized in that: The pipeline structure (4) includes: a reserved pipeline (401) and a socket box (402); the reserved pipeline (401) is set inside the pipeline hole (201), and the top of the reserved pipeline (401) has a reserved pipeline connection part, and the socket box (402) is fixedly set at the bottom of the reserved pipeline (401).

5. The integrated structure of internal partition walls, pipelines, and decoration as described in claim 4, characterized in that: The support assembly (5) includes: a support cylinder (501), a fourth through bolt (502), a third connecting angle bracket (503), a fifth through bolt (504), and a support column (505); the support cylinder (501) is movably disposed on the top of the transverse square tube (2), the fourth through bolt (502) is disposed inside the bottom side of the support cylinder (501), the third connecting angle bracket (503) is fixed between the transverse square tube (2) and the support cylinder (501) by the fourth through bolt (502) and the fifth through bolt (504), and the third connecting angle bracket (503) is set as a hot-dip galvanized angle bracket, the support column (505) is slidably disposed inside the support cylinder (501), and the support column (505) is fixedly disposed at the bottom of the socket box (402).

6. The integrated structure of internal partition walls, pipelines, and decoration as described in claim 5, characterized in that: The support assembly (5) further includes: a threaded cylinder (506) and an internal hex bolt (507); the threaded cylinder (506) is fixedly disposed inside the top side of the support cylinder (501), and the internal hex bolt (507) is disposed inside the threaded cylinder (506) by threaded connection, and the end of the internal hex bolt (507) is tightly fitted to the outside of the support column (505).