CN112733229A - BIM technology-based electromechanical integrated pipeline support and hanger design method - Google Patents

Abstract

The invention relates to a design method of an electromechanical integrated pipeline support hanger based on a BIM technology, which comprises the following steps: 1) creating a support and hanger component library; (2) importing the component obtained in the step (1) into BIM software for three-dimensional modeling; (3) after the three-dimensional modeling in the step (2) is formed, adjusting and optimizing a three-dimensional model of the support and hanger according to related construction specifications and mechanical property analysis to complete the distribution, stress calculation and product type selection of the support and hanger; (4) generating a part drawing and an assembly drawing of each component according to the adjusted and optimized support and hanger layout drawing, thereby realizing factory prefabrication production; (5) and carrying out construction and installation on the site according to drawings. The invention carries out industrial production, only needs assembly, positioning punching and installation of components on the installation site, greatly improves the efficiency and reduces the time and labor cost compared with the traditional design of manual supporting and hanging frames and the statistics of engineering quantity.

Description

BIM technology-based electromechanical integrated pipeline support and hanger design method

Technical Field

The invention relates to the technical field of building design, in particular to a design method of an electromechanical integrated pipeline support hanger based on a BIM technology.

Background

A support and hanger for building pipelines is a device for installing and fixing pipelines such as building water pipes, cables, air conditioning ventilation pipes and the like, is an indispensable part in the electromechanical field of buildings, is designed neglectedly all the time, and can only be constructed according to the general requirements described by a national standard drawing set and more project construction site experiences. With the continuous development of the application of the BIM technology, the application of the BIM technology in the building electromechanical installation engineering is more and more emphasized by installation enterprises. Electromechanical BIM applications have been in the field of deep applications such as primary application specific electromechanical prefabrication, support and hanger safety optimization of pipelines, such as pipeline integration, collision inspection, and the like.

Disclosure of Invention

The invention aims to solve the problems existing in the field manufacturing and installation of a support and hanger system, ensure the adaptability of the support and hanger system to the installation field, reduce the time and labor cost, and provide a design method of an electromechanical comprehensive pipeline support and hanger based on a BIM technology to realize the aim, which comprises the following steps: the method is realized by the following technical scheme:

a design method of an electromechanical integrated pipeline support hanger based on a BIM technology comprises the following steps: (1) creating a support and hanger component library;

(2) importing the component obtained in the step (1) into BIM software for three-dimensional modeling;

(3) after the three-dimensional modeling in the step (2) is formed, adjusting and optimizing a three-dimensional model of the support and hanger according to related construction specifications and mechanical property analysis to complete the distribution, stress calculation and product type selection of the support and hanger;

(4) generating a part drawing and an assembly drawing of each component according to the adjusted and optimized support and hanger layout drawing, thereby realizing factory prefabrication production;

(5) and carrying out construction and installation on the site according to drawings.

The design method of the electromechanical integrated pipeline support hanger based on the BIM technology is further designed in that in the step (3), the adjustment optimization comprises integrated adjustment according to collision problems of a bridge, an air pipe and a water supply and drainage pipeline.

When the bridge support is optimized, the bridges are arranged orderly, and the requirement of visual effect is met;

when the bridge frame and the air pipe support are optimized, the distance between the bridge frame and the air pipe support is adjusted to meet the requirements of stress and symmetry;

when the bridge frame and the water supply and drainage support are optimized, the distance between the bridge frame and the distance between the bridge frame and the water supply and drainage pipeline need to meet the requirements of relevant specifications.

And when the optimal adjustment is carried out, the bracket with the position conflict is adjusted by considering the collision problem among the brackets.

The invention has the following advantages:

the invention provides a support and hanger design method, a device and a system based on a three-dimensional BIM model, which are used for acquiring building engineering information data according to a pre-constructed building engineering three-dimensional BIM model, designing the support and hanger three-dimensional BIM model, acquiring a component structure of a support and hanger system, carrying out factory production, and only needing to carry out assembly, positioning punching and installation on an installation site.

Drawings

FIG. 1 is a flow chart of the construction process of the present invention.

FIG. 2 is a three-dimensional model of a standard strut and hanger node provided by the present invention.

Detailed Description

The invention is further illustrated by the following figures and examples in conjunction with the description:

the design method of the electromechanical integrated pipeline support and hanger based on the BIM technology as shown in figure 1 comprises the following steps

And (4) creating a support and hanger component library at the early stage of the construction project. And (3) carrying out three-dimensional deepened design and optimized arrangement on the building pipelines by adopting a BIM technology. And deepening the three-dimensional support hanger in the model according to the optimized BIM model to generate a part drawing and an assembly drawing of each component. And (4) processing and manufacturing the three-dimensional BIM model according to the designed deepened drawing by a manufacturer. And transporting the produced support and hanger to the field for assembly and installation.

When the bridge support is optimized, the bridges are arranged orderly, and the requirement of visual effect is met; when the bridge frame and the air pipe support are optimized, the distance between the bridge frame and the air pipe support is adjusted to meet the requirements of stress and symmetry; when the bridge frame and the water supply and drainage support are optimized, the distance between the bridge frame and the distance between the bridge frame and the water supply and drainage pipeline need to meet the requirements of relevant specifications. And when the optimal adjustment is carried out, the bracket with the position conflict is adjusted by considering the collision problem among the brackets.

Claims (2)

1. A design method of an electromechanical integrated pipeline support hanger based on a BIM technology is characterized by comprising the following steps:

creating a support and hanger component library;

importing the component obtained in the step (1) into BIM software for three-dimensional modeling;

after the three-dimensional modeling in the step (2) is formed, adjusting and optimizing a three-dimensional model of the support and hanger according to related construction specifications and mechanical property analysis to complete the distribution, stress calculation and product type selection of the support and hanger;

generating a part drawing and an assembly drawing of each component according to the adjusted and optimized support and hanger layout drawing, thereby realizing factory prefabrication production;

and carrying out construction and installation on the site according to drawings.

2. The BIM technology-based electromechanical comprehensive pipeline support and hanger design method according to claim 1, characterized in that: in the step (3), the adjustment optimization comprises comprehensive adjustment according to the collision problems of the bridge, the air pipe and the water supply and drainage pipeline.

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