A dynamic multi-regulation coupled wall component arrangement method

By using BIM technology and the visual programming platform Dynamo, efficient and automated layout of wall components with structural columns under dynamic boundary constraints has been achieved, solving the problems of poor adaptability and material waste in traditional methods, and realizing efficient and automated layout of wall components of various specifications.

CN115688220BActive Publication Date: 2026-06-19NANCHANG UNIV +2

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
NANCHANG UNIV
Filing Date
2022-08-29
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing technologies cannot effectively solve the problem of automated layout of wall components with structural columns under dynamic boundary constraints, resulting in material waste and potential quality risks. Furthermore, traditional methods have poor adaptability and cannot achieve efficient automated layout of wall components of various specifications.

Method used

The BIM-based dynamic multi-plan coupling method is adopted to realize the automated layout of wall components, including the dynamic layout of structural columns, bricks, and blocks, by creating wall models, designing automated layout of structural columns, analyzing boundary constraints, and using the Dynamo visual programming platform for parametric programming.

Benefits of technology

It improves the efficiency of creating wall component models, enables efficient and automated layout of wall components of various specifications, reduces material waste, complies with industry standards, and avoids potential quality problems.

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Abstract

This invention relates to the field of building construction technology and discloses a dynamic multi-plan coupling method for arranging wall components. The main steps include dividing the target wall into longitudinal zones, obtaining structural column location data based on the longitudinal zone height and wall component specifications, automatically creating structural columns, analyzing the lateral boundary constraints of the wall with structural columns, setting lateral arrangement rules for wall components under dynamic boundary constraints, and completing the arrangement. This invention can be based on a visual programming platform, calling corresponding functions of its application interface to achieve adaptive arrangement of structural columns and wall components. The geometric parameters of the wall structural columns are continuously updated as the wall zones and component specifications change, and the presence of the structural columns affects the boundary constraints of the wall component arrangement area. This method provides a new approach to modeling wall structural columns and solves the problem of refined arrangement of components in walls containing structural columns, improving construction efficiency and project quality.
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