WO2023246167A1

WO2023246167A1 - Bim-based adjustable comprehensive support and hanger system

Info

Publication number: WO2023246167A1
Application number: PCT/CN2023/079201
Authority: WO
Inventors: 何刚; 谢锦鸿; 梁茂; 陈守权; 付希良; 邓亚东; 邱茂乙; 郑智迁; 李沐林; 文泉鸿
Original assignee: 中国五冶集团有限公司
Priority date: 2022-06-21
Filing date: 2023-03-02
Publication date: 2023-12-28
Also published as: CN115013600A

Abstract

A BIM-based adjustable comprehensive support and hanger system comprises at least two vertical rods, a buried plate is arranged on an upper portion of each vertical rod, fixing cross arms are connected between the vertical rods, and opposite hanger plates are arranged on every two adjacent vertical rods. An upper portion of a lead screw passes through a hanger plate, and an upper nut which is snap-fit with the upper portion of the hanger plate is provided on the lead screw, a lower portion of the lead screw passes through a movable cross arm, and a lower nut which is snap-fit with the lower portion of the movable cross arm is arranged on the lead screw. The present invention has the beneficial effects that the comprehensive support and hanger system has simple manufacturing process and convenient material selection, and is green, environment-friendly and energy-saving. The comprehensive support and hanger system is of an adjustable structure, has high universality and wide application range, is flexible and convenient to install and disassemble, and is capable of reducing material loss and reducing material cost. By using the comprehensive support and hanger system for construction of the electromechanical comprehensive pipeline of a long and narrow corridor of a basement, the height of the pipeline is flexibly controlled by adjusting the heights of the cross arms and tightening the lower nuts of the lead screws, and the construction efficiency is improved.

Description

Adjustable integrated support and hanger system based on BIM

Technical field

The invention belongs to the construction of electromechanical integrated pipelines in a long and narrow corridor in the basement. Specifically, it is a BIM-based adjustable integrated support and hanger system used to carry and fix various electromechanical professional pipelines at the lowered slab and non-descended slab.

Background technique

During the installation process of traditional mechanical and electrical integrated pipelines in the basement, the pipelines of various disciplines cross each other and the construction sequence is chaotic, which often affects the construction progress, appearance and rational use of space in this and related professions. Compared with the traditional electromechanical integrated pipeline installation method, BIM technology is used to simulate the pipeline layout, avoid collision points in advance and design a comprehensive support and hanger system. BIM software is used to quickly generate comprehensive support and hanger plane positioning drawings, cross-sections and fixings. Component embedded drawings, etc., before the installation and construction of the electromechanical integrated pipeline, virtual three-dimensional templates and VR visualization technology are used to assist in technical explanations on the construction site. Communication is convenient and efficient, and can effectively optimize the layout of each professional pipeline, and accurately reserve pipeline insulation and maintenance. space and improve the visual quality.

The existing comprehensive support and hanger system mainly has two structures, one is a fixed support and hanger, the position and space of the support cannot be changed, and it cannot flexibly adapt to the position and space relationship of each pipeline, and the other is an adjustable one. The support and hanger can flexibly adjust its position, but due to the movable connection structure, its overall frame structure is unstable, prone to shaking and unstable support, and can only support lighter weight pipelines.

Contents of the invention

The purpose of the present invention is to provide an adjustable comprehensive support and hanger system based on BIM, which solves the problems of many disadvantages of the existing comprehensive support and hanger system.

The object of the present invention is achieved through the following technical solutions:

An adjustable comprehensive support and hanger system based on BIM, including at least two vertical poles. The upper parts of the vertical poles are provided with embedded plates. Fixed cross arms are connected between the vertical poles. Two adjacent vertical poles are provided with opposite hangers. The upper part of the screw passes through the hanging plate. The screw is provided with an upper nut that clamps the upper part of the hanging plate. The lower part of the screw passes through the movable cross arm. The screw is provided with a lower nut that clamps the lower part of the movable cross arm. cap.

Further, the vertical pole includes a first vertical pole, a second vertical pole and a third vertical pole, and the fixed cross arm package It includes an integrated cross arm, a long cross arm and a short cross arm. The first vertical pole, the second vertical pole and the third vertical pole are all connected to the integrated cross arm. There is a long connecting rod between the first vertical pole and the second vertical pole. Cross arm, a short cross arm is connected between the second vertical pole and the third vertical pole.

Furthermore, the vertical rods and overall cross arms are all made of U-shaped steel.

Furthermore, the movable cross arms are angle steel arranged laterally.

Furthermore, the long cross arm and the short cross arm are angle steel arranged laterally.

Furthermore, the middle part of the screw is provided with fixed cross arms and movable cross arms.

Further, the vertical rod and the embedded plate are welded together.

Further, the vertical rod and the fixed cross arm are welded together.

Furthermore, the hanging plate is an angle steel with its end fixed on the vertical pole.

Further, the screw is provided with a washer located at the contact end of the upper nut and the lower nut.

Beneficial effects of the present invention:

1. This comprehensive support and hanger system has a simple manufacturing process, convenient material selection, and is green, environmentally friendly, and energy-saving.

2. The comprehensive support and hanger system has an adjustable structure, strong versatility, wide range of use, flexible and convenient installation and disassembly, reducing material loss and material costs.

3. Use this comprehensive support and hanger system to carry out the construction of electromechanical integrated pipelines in the narrow corridor in the basement. By adjusting the height of the cross arm and tightening the nut at the bottom of the screw rod, the height of the pipeline can be flexibly controlled to improve construction efficiency.

The aforementioned main scheme of the present invention and its further options can be freely combined to form multiple schemes, all of which are schemes that can be adopted and claimed for protection by the present invention; and in the present invention, (non-conflicting options) between choices and between other choices Rooms can also be freely combined. After understanding the solution of the present invention, those skilled in the art will understand that there are many combinations according to the existing technology and common knowledge, all of which are the technical solutions to be protected by the present invention, and an exhaustive list will not be made here.

Description of the drawings

Figure 1 is a schematic structural diagram of the present invention.

In the picture: 1-vertical rod, 2-embedded plate, 3-fixed cross arm, 4-hanging plate, 5-screw, 6-upper nut, 7-movable cross arm, 8-lower nut; 11-No. One vertical pole, 12-the second vertical pole, 13-the third vertical pole, 31-the whole cross arm, 32-the long cross arm, 33-the short cross arm.

Detailed ways

The following non-limiting examples illustrate the invention.

Example 1:

Referring to Figure 1, an adjustable comprehensive support and hanger system based on BIM includes a vertical rod 1, an embedded plate 2, a fixed cross arm 3, a hanging plate 4, a screw 5, an upper nut 6, and a movable cross arm 7 and lower nut 8. The vertical pole 1 includes a first vertical pole 11 , a second vertical pole 12 and a third vertical pole 13 . The fixed cross arm 3 includes a straight cross arm 31 , a long cross arm 32 and a short cross arm 33 .

The vertical pole 1 and the entire cross arm 31 are both U-shaped steel. The upper parts of the first vertical pole 11, the second vertical pole 12 and the third vertical pole 13 are all welded with rectangular embedded plates 2, so that the top of the vertical pole 1 is at the top of the corridor. embedded fixation. The lower parts of the first vertical pole 11, the second vertical pole 12 and the third vertical pole 13 are all welded and connected with the integrated cross arm 31. The integrated cross arm connects the three vertical poles as a whole, and the integrated cross arm 31 has pipelines. Supporting effect.

The long cross arm 32 and the short cross arm 33 are both angle steels arranged laterally. The long cross arm 32 is welded between the first vertical pole 11 and the second vertical pole 12, and between the second vertical pole 12 and the third vertical pole 13 There is a short cross arm 33 in the welding connection. The long cross arm 32 and the short cross arm 33 connect the adjacent vertical rods to strengthen the overall structure and have a pipeline support function.

The length of the long cross arm 32 is longer than that of the short cross arm 33, forming a large span support space between the first vertical pole 11 and the second vertical pole 12, and forming a small span between the second vertical pole 12 and the third vertical pole 13. Support space to meet the laying needs of pipelines without spans.

Opposite hanging plates 4 are welded on two adjacent vertical poles 1. The hanging plates 4 are equilateral angle steels whose ends are welded and fixed on the vertical poles 1. The angle steel is 10cm long and has a model of 60*60*5mm. On the equilateral angle steel Mill the hole in the center. The hole diameter is slightly larger than the rod diameter of the screw. The hanging plate is 200mm away from the top buried plate. One side of the hanging plate 4 is used to pass the screw 5, and the other side has a certain limiting effect facing the screw 5 to avoid The lead screw 5 swings back and forth greatly.

The screw is φ10mm. The upper part of the screw 5 passes through the hanging plate 4. The screw 5 is threaded with an upper nut 6 that clamps the upper part of the hanging plate 4. The lower part of the screw 5 passes through the movable cross arm 7. The screw 5 The upper thread is connected with a lower nut 8 that clamps the lower part of the movable cross arm 7, and the screw 5 is provided with a washer located at the contact end of the upper nut 6 and the lower nut 8. The movable cross arm 7 is an equilateral angle steel of 60*60*5mm. Holes are milled at both ends of the equilateral angle steel. The hole diameter is consistent with the hole diameter on the hanging plate and the hole center is on the same straight line.

Through the clamping effect of the upper and lower nuts, the vertical rod 1 supports the movable cross arm 7. The movable cross arm 7 is an angle steel arranged laterally and has a pipeline support function. By rotating and adjusting the upper and lower nuts, the relative distance between the hanging plate 4 and the movable cross arm 7 can be changed, and the height of the movable cross arm 7 can be adjusted.

The middle part of the screw 5 is provided with a fixed cross arm 3 and a movable cross arm 7. The fixed cross arm 3 in the middle can be used to limit the position of the screw 5 to prevent the screw 5 from swinging back and forth, and at the same time realize multi-layer movable cross arms 7 settings to realize the adjustment of multiple support positions.

The aforementioned basic embodiments of the present invention and their further optional embodiments can be freely combined to form multiple embodiments, which are all applicable and claimed embodiments of the present invention. In the solution of the present invention, each optional example can be arbitrarily combined with any other basic examples and optional examples.

The above descriptions are only preferred embodiments of the present invention and are not intended to limit the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention shall be included in the protection of the present invention. within the range.

Claims

An adjustable comprehensive support and hanger system based on BIM, including at least two vertical rods (1), characterized in that: the upper part of the vertical rod (1) is provided with an embedded plate (2), and the vertical rod (1) There are fixed cross arms (3) connected between them, and opposite hanging plates (4) are provided on the two adjacent vertical rods (1). The upper part of the screw (5) passes through the hanging plate (4), and the screw (5) There is an upper nut (6) that clamps the upper part of the hanging plate (4). The lower part of the screw (5) passes through the movable cross arm (7). The screw (5) is provided with a clamped movable cross arm (7). ) the lower nut (8) on the lower part.
The BIM-based adjustable comprehensive support and hanger system according to claim 1, characterized in that: the vertical rod (1) includes a first vertical rod (11), a second vertical rod (12) and a third vertical rod. The rod (13), the fixed cross arm (3) includes the whole cross arm (31), the long cross arm (32) and the short cross arm (33), the first vertical rod (11), the second vertical rod (12) and The third vertical rods (13) are all connected with the integral cross arm (31). A long cross arm (32) is connected between the first vertical rod (11) and the second vertical rod (12). The second vertical rod (12) ) and the third vertical rod (13) are connected with a short cross arm (33).
The BIM-based adjustable comprehensive support and hanger system according to claim 2, characterized in that: the vertical rod (1) and the integral cross arm (31) are both U-shaped steel.
The BIM-based adjustable comprehensive support and hanger system according to claim 1 or 2, characterized in that: the movable cross arm (7) is an angle steel arranged laterally.
The BIM-based adjustable comprehensive support and hanger system according to claim 2, characterized in that: the long cross arm (32) and the short cross arm (33) are angle steels arranged laterally.
The BIM-based adjustable comprehensive support and hanger system according to claim 1 or 2, characterized in that: the middle part of the screw (5) is provided with a fixed cross arm (3) and a movable cross arm (7). .
The BIM-based adjustable comprehensive support and hanger system according to claim 1, characterized in that: the vertical rod (1) and the embedded plate (2) are welded and connected.
The BIM-based adjustable comprehensive support and hanger system according to claim 1 or 7, characterized in that: the vertical rod (1) and the fixed cross arm (3) are welded and connected.
The BIM-based adjustable comprehensive support and hanger system according to claim 1 or 2, characterized in that: the hanging plate (4) is an angle steel with an end fixed on the vertical pole (1).
The BIM-based adjustable comprehensive support and hanger system according to claim 1 or 2, characterized in that: the screw (5) is provided with an upper nut (6) and a lower nut (8) in contact with each other. end washer.