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Power monitoring system interactively integrated with BIM model and interaction integration method

A power monitoring and integration method technology, applied in the direction of electrical components, circuit devices, geometric CAD, etc., can solve problems such as difficult to ensure data accuracy and data mapping relationship accuracy, to improve integration interaction efficiency, compress modeling time and work The effect of high volume and high degree of refinement

Active Publication Date: 2021-08-13
CHINA RAILWAY ENG CONSULTING GRP CO LTD +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This method needs to invest a lot of resources in surveying and mapping, acquisition, 3D modeling and model configuration, and it is difficult to guarantee the accuracy of data and data mapping relationship

Method used

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  • Power monitoring system interactively integrated with BIM model and interaction integration method
  • Power monitoring system interactively integrated with BIM model and interaction integration method
  • Power monitoring system interactively integrated with BIM model and interaction integration method

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Experimental program
Comparison scheme
Effect test

Embodiment approach 1

[0055] like Figure 1 to Figure 5 As shown, this embodiment provides a power monitoring system interactively integrated with the BIM model, including a generation module 1, a matching module 2 and an output module 3; the generation module includes a BIM generation module and a power monitoring system generation module, wherein the The above BIM module includes BIM structure and data reading plug-ins, which can be developed and compatible with different modeling software. The staff can import the BIM model generated in the construction or design stage through the reading plug-ins; meanwhile, the BIM module also includes The first equipment and parts list generation module, after the BIM model is converted into a three-dimensional model, the staff uses this module to name the three-dimensional model and generate the first name list;

[0056] The generation module of the power monitoring system includes a second device and attribute list generation module and a necessary item set...

Embodiment approach 2

[0060] This embodiment, as another basic embodiment of the present invention, discloses an interactive integration method between a BIM model and a power monitoring system, including the following steps:

[0061] S1. Formulate corresponding naming rules according to the actual working conditions. In this embodiment, the encoding and naming rules combining the equipment name and the internal number of the equipment are adopted. The naming expression for the entire set of equipment is: equipment name + operation number; if the number is The transformer equipment of 1B is named transformer_1B; at the same time, the naming expression of the parts is: the name expression of the equipment it belongs to + the name of the part + the running number; for example, the iron core with the number 01 in the transformer should be named transformer_ 1B_01; For the sub-components under the component, the naming expression is the naming expression of the belonging component + the name of the sub-...

Embodiment approach 3

[0071] This embodiment, as another preferred embodiment of the present invention, discloses an interactive integration method between a BIM model and a power monitoring system, including the following steps:

[0072] S2. Obtain BIM models of various power supply equipment from the construction department or equipment design and manufacturing department, and input the above models into the generation module through the BIM structure and data reading plug-in compatible with the BIM model, and the generation module automatically converts the above BIM models into 3D models compatible with power monitoring systems;

[0073] Based on the naming rules in step S1, the staff uses the first device and component list generation module to name each power supply device and the components and subcomponents it contains one by one. After all the devices and components are named, the first device and The parts list generation module summarizes the above naming and generates a corresponding fi...

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Abstract

The invention discloses a power monitoring system interactively integrated with a BIM model and an interaction integration method. The power monitoring system comprises a generation module, a matching module and an output module, wherein the generation module converts the BIM model generated in a construction or design stage into a three-dimensional model, the matching module matches the equipment three-dimensional model with equipment in the power monitoring system according to a name consistency criterion and establishes a mapping relation, and the output module interactively integrates the three-dimensional model and the power monitoring system according to the mapping relation. According to the power monitoring system, the three-dimensional model is generated by directly using the existing BIM model, the modeling workload is greatly reduced, naming integration is performed on the three-dimensional model and an equipment database through using the same naming rule, and a computer can realize rapid matching and interactive integration of the three-dimensional model and the power monitoring system based on the principle of the same name, thereby the interactive integration efficiency is greatly improved, and the workload is reduced; and the matching rule and the naming rule are simple, the calculation amount of a computer is reduced to the maximum extent, and the matching efficiency and accuracy are improved.

Description

technical field [0001] The invention relates to the technical field of electric power control equipment, in particular to an electric power monitoring system and an interactive integration method interactively integrated with a BIM model. Background technique [0002] In recent years, with the refinement, intelligence and high-efficiency management development requirements in China's railway power supply dispatching field, the human-computer interaction requirements for PSCADA are also continuously increasing. The HMI module is one of the most important parts of the PSCADA system. At present, its monitoring screen diagrams are mostly displayed in the form of two-dimensional logic diagrams, and the telemetry and remote signaling information of the power supply equipment received by the PSCADA background is displayed on the device icon. In order to improve the interactive ability of PSCADA system HMI module, it is a feasible way to introduce three-dimensional presentation and ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J13/00G06F30/10
CPCH02J13/00002H02J13/00001G06F30/10
Inventor 赵春艳魏宏伟王潘潘赵勇张高洪
Owner CHINA RAILWAY ENG CONSULTING GRP CO LTD
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