The project department at the construction site passes the precast components to be installed on the project site to the information control system of the precast component company through the BIM platform.

The plan can also be compared with the actual progress to complete the control and optimization of the project progress.

After the component device is in place, the inspector is responsible for checking the orientation and other construction details of the hoisting component.

Through embedding RFID chips rich in component information such as device location and use information in the production process of precast components, storage and inspection personnel and logistics distribution personnel can directly read the relevant information of precast components, Realizing the active comparison of electronic information and reducing the occurrence of problems such as inspection quantity error, component stacking orientation error and inaccurate warehouse out records in the traditional form of manual inspection and logistics can significantly save costs.

Designers can upload the design scheme of the precast building to the “cloud” server of the project, integrate the size, style and other information in the cloud, and build the “family” Library of various precast components of the precast building (such as doors, windows, etc.).

Fixing Socket Waved End Nail Plate

The application value of BIM Technology in the design stage of precast buildings # 1.

3.

This method reduces the occurrence of faults and improves the construction efficiency.

With the continuous accumulation and enrichment of “families” in cloud servers, designers can compare and optimize the same type of “families” to form the standard shape and modulus size of precast building components.

After the on-site hoisting and long-distance visual monitoring of components are determined, the BIM model storing the information of component hoisting orientation and construction sequence is imported into the flat-panel handheld device, and the construction scheme is checked according to the three-dimensional model to realize paperless and visual assistance of construction hoisting.

After the handset updates the construction scheme of the current day, scan the components in the site yard, hoist after accurately identifying the component information, and record the component construction time.

Problem checking refers to the collaborative planning of multiple disciplines in the whole construction planning cycle.

BIM Technology can imitate the construction site environment and plan the crane orientation and approach in advance, which helps to improve the production accuracy of workers, directly affect the accuracy of construction devices, and achieve the purpose of providing optimal construction plan.

Application in the installation of precast components # in the process of component production, the products produced in advance may be sent to the construction site.

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Using various standardized “family” libraries, designers can also accumulate and enrich the design house types of precast buildings, save the time of house type design and adjustment, enrich the house type specifications of precast buildings and better meet the diversified needs of residents.

The relevant management personnel of the factory make preparations in time, understand their own inventory, reflect it into the system in real time, complete the production, accumulation and other work in advance, and then deliver goods on time to complete the task of directly delivering to the project site..

The application value of BIM Technology in the construction stage of precast buildings # 1.

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Improve the inventory and on-site handling of precast components # use BIM skills to contact RFID skills.

The assembly process of all components, the orientation of practical devices and construction time are recorded in the system for easy viewing.

Then, the BIM model is associated with the project progress plan, which can be used at the 5D level of the project.

This policy can be completed through BIM.

Each discipline imports the built BIM model into the BIM problem software, imitates the construction process, carries out the construction problem checking, and then carefully analyzes, sweeps and comments on the problem points, deals with the planning conflicts of various disciplines caused by the lack of information exchange, optimizes the project planning, pre handles the problems before the project construction, and reduces unnecessary design changes and rework.

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Wechat search official account: BIM Industry Alliance pays attention to us! BIM Technology can improve the efficiency of collaborative design of precast buildings, reduce design errors, optimize the production process of precast components, improve the inventory management of precast components, simulate and optimize the construction process, realize the quality management and energy consumption management in the operation and maintenance stage of precast buildings, and effectively improve the efficiency of design, production and construction of precast buildings.

Imitate the hoisting construction, adjust the progress and plan, obtain relevant information through the disassembly of PC components, and provide accurate information for the production of PC components.

The establishment of precast component “family” library is helpful to the establishment of general design specifications and design standards for precast buildings.

Realize the standardized design of precast components # BIM Technology can realize the opening and sharing of design information.

The components must be checked and acknowledged before hoisting.

How to accurately and quickly transport the precast components with different types, standards and quantities from the factory yard directly to the project construction site.

Collaborative operation and problem viewing # the greatest value of BIM skills lies in informatization and collaborative handling, which provides a channel for participants to interact with three-dimensional planning information, and integrates different professional planning models on the same channel, making it possible for all majors and participants to work together.

After passing the inspection, scan the component chip through the on-site handset, acknowledge the completion of the component construction, and record the completion time of the component.

In BIM model, the process of components from production, transportation to hoisting can be related to the corresponding time scale, and the hoisting plan of PC components can be simulated dynamically in three dimensions.

Use the information control system to linkage with various departments and share the information.