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A three-dimensional simulation and monitoring system for shield machine risk source crossing based on bim and gis

A technology for monitoring systems and shield machines, applied in resources, structured data retrieval, instruments, etc., can solve problems such as inability to collect monitoring data, potential safety hazards of monitoring personnel, and lack of intuitive experience in the traversing process

Active Publication Date: 2021-10-01
北京住总集团有限责任公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Newly built subway lines not only need to consider crossing existing buildings and structures, but also cross various operating lines (railways, highways, expressways, subways, etc.), which greatly increases the safety risk of construction
At present, the crossing risk of subway construction still relies on manual monitoring, especially for the situation of crossing highways, it is necessary to manually monitor the road surface, and passing vehicles bring great safety hazards to monitoring personnel; secondly, for the current crossing risk The management and control of the system is mainly based on two-dimensional data sources, which lacks an intuitive experience of the traversal process, and due to various factors, the monitoring data cannot be collected, and real-time dynamic control of the traversal process cannot be realized.

Method used

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  • A three-dimensional simulation and monitoring system for shield machine risk source crossing based on bim and gis
  • A three-dimensional simulation and monitoring system for shield machine risk source crossing based on bim and gis

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] This embodiment discloses a three-dimensional simulation and monitoring system for shield machine risk source crossing based on BIM and GIS. like figure 1 A preferred system is shown. It includes a monitoring platform 100 and a laser scanning monitoring platform 200 . The laser scanning monitoring platform 200 and the BIM sub-module realize the transmission of deformation data in a wireless manner. Both the BIM sub-module and the GIS sub-module can be installed on a computing device. The supervisory platform 100 can also be installed on the same computing device for fusing model data of at least one risk sub-source and geographic information spatial data of its surrounding environment. The supervision platform is a platform that integrates the data of the BIM sub-module and the data of the GIS sub-module to simulate the dynamic changes of the risk sub-source when the shield machine passes through the risk sub-source.

[0037] Model data includes deformation data and...

Embodiment 2

[0061] This embodiment may be a further improvement and / or supplement to Embodiment 1, and repeated content will not be repeated here. In the case of no conflict or contradiction, the whole and / or part of the content of the preferred implementations of other embodiments may serve as supplements to this embodiment.

[0062]Preferably, the geographic information spatial data includes spatial location data for describing geographic location relationships between risk sub-sources. In a shield tunnel construction project, especially in an urban tunnel construction project, the number of risk sub-sources that need to be monitored is large, and the distance between the risk sub-sources is generally small. Therefore, in order to enable the command center or the command sub-center to implement on-site monitoring data acquisition, preferably, the GIS sub-module includes spatial position data for describing the geographic location relationship between risk sub-sources for the monitoring ...

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Abstract

The invention relates to a BIM and GIS-based three-dimensional simulation and monitoring system for shield machine risk source crossing, including: a monitoring platform for fusing at least one risk sub-source model data and real-time geographic information spatial data of its surrounding environment; The model data includes deformation data and static data, wherein the deformation data is collected when the laser scanning monitoring platform monitors the at least one risk sub-source during the shield machine crossing process; the supervision platform includes a BIM sub-module and a GIS A submodule, wherein the BIM submodule can acquire the deformed data when the GIS acquires real-time geographic information spatial data, and compare the deformed data with the static data to generate a comparison result for The supervision platform can dynamically manage and control the risk sub-sources.

Description

technical field [0001] The invention relates to the field, in particular to a three-dimensional simulation and monitoring system for shield machine risk source crossing based on BIM and GIS. Background technique [0002] With the increase of urban subway construction density, the construction risks are also increasing. Newly built subway lines not only need to consider crossing existing buildings and structures, but also cross various operating lines (railway, highway, expressway, subway, etc.), which greatly increases the safety risk of construction. At present, the crossing risk of subway construction still relies on manual monitoring, especially for crossing highways, it is necessary to manually monitor the road surface, and passing vehicles bring great safety hazards to monitoring personnel; secondly, for the current crossing risk The management and control of the system is mainly based on two-dimensional data sources, which lacks an intuitive experience of the traversa...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E21D9/093E21F17/18G06F16/29G06Q10/06G06Q50/08
CPCE21F17/18E21D9/093G06Q10/0635G06Q50/08G06F16/29
Inventor 付春青田世文钱新王昱刘猛刘彤张志坚
Owner 北京住总集团有限责任公司
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