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A system and method for fully automatic arrangement of crane beams in a three-dimensional workshop equipment room

A crane beam and equipment room technology, applied in the direction of instruments, geometric CAD, calculation, etc., can solve the problems of relying on the experience of designers, low degree of standardization, and high design cost, so as to save manpower and time, reduce error rate, and improve model The effect of accuracy

Active Publication Date: 2020-11-06
中广核工程有限公司 +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The whole design process has disadvantages such as time-consuming, high error rate, high design cost, and too much reliance on the experience of designers, and low degree of standardization.

Method used

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  • A system and method for fully automatic arrangement of crane beams in a three-dimensional workshop equipment room
  • A system and method for fully automatic arrangement of crane beams in a three-dimensional workshop equipment room
  • A system and method for fully automatic arrangement of crane beams in a three-dimensional workshop equipment room

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Effect test

Embodiment 1

[0071] Such as figure 1 As shown, the first embodiment of the present invention provides a three-dimensional plant equipment room crane beam automatic layout system, including: database construction and information collection module 1, used to build the crane parameter database and collect all the needs of the plant equipment room in the three-dimensional system of the factory The information attributes of the hoisting target equipment; Judgment module 2, connected with the database construction and information collection module 1, used to automatically judge the design tonnage of the crane beam required by the target equipment one by one and automatically judge the various layout environments around the target equipment; The calculation and three-dimensional modeling module 3 is connected with the judgment module 2, and is used for automatically setting and calculating the direction and size of the crane girder, and automatically completing the three-dimensional modeling of th...

Embodiment 2

[0086] Such as figure 2 As shown, Embodiment 2 of the present invention provides a method for fully automatic arrangement of crane beams in a three-dimensional plant equipment room, including the following steps:

[0087] S1. Construct the crane parameter database and collect the information attributes of all target equipment that needs to be hoisted in the plant equipment room in the three-dimensional system of the factory;

[0088] S2. Automatically judge the design tonnage of the crane beam required by the target equipment one by one and automatically judge the various layout environments around the target equipment;

[0089] S3. Automatically set and calculate the direction and size of the crane beam, and automatically complete the three-dimensional modeling of the crane beam.

Embodiment 3

[0091] Such as image 3 As shown, step S1 includes:

[0092] S11. Construct the crane parameter database, including the volume size of cranes of different tonnages, the cross-sectional size and model of the required crane girder, the required reserved height in the vertical direction, the required reserved space length at both ends of the horizontal direction, and the maximum allowable distance between the crane girder supports Dimensional parameters of span and support;

[0093] S12. Automatically collect the information attributes of the target equipment in the plant equipment room in the 3D system.

[0094] Specifically, step S2 includes:

[0095] S21. According to the weight information of the target equipment, automatically judge the design tonnage of the crane girder required by the target equipment one by one, and automatically extract the cross-sectional size model of the crane beam of the corresponding tonnage from the crane parameter database;

[0096] S22. Automati...

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Abstract

The invention discloses a full-automatic arrangement system for crane beams among three-dimensional plant equipment. The system comprises a database establishment and information collection module used for establishing a crane parameter database and collecting information attributes of all target equipment needed to be lifted among the plant equipment in a three-dimensional system of a plant, a judgment module connected with the database establishment and information collection module and used for automatically judging design tonnages of the crane beams needed by the target equipment one by one and automatically judging various arrangement environments around the target equipment, and a calculation and three-dimensional modeling module connected with the judgment module and used for automatically setting and calculating the directions and sizes of the crane beams and automatically finishing three-dimensional modeling of the crane beams. In addition, the invention provides a full-automatic arrangement method for the crane beams among the three-dimensional plant equipment. According to the full-automatic arrangement system and method for the crane beams among the three-dimensional plant equipment, provided by the invention, the arrangement design efficiency and accuracy of the crane beams of the three-dimensional plant can be improved.

Description

technical field [0001] The invention relates to the field of three-dimensional plant layout design, in particular to a three-dimensional fully automatic layout system and method for crane beams in a plant equipment room of a layout design management system (PDMS) / integrated wiring system (PDS). Background technique [0002] The crane is a common lifting equipment in the factory building, and the layout design of the crane beam is an important part of the layout of the three-dimensional factory building equipment room. [0003] At present, the layout design of the crane beam in the plant equipment room mainly relies on manually querying the equipment (including large valves) information in the 3D PDMS / PDS system, visually judging the environment of various layout items around the hoisting equipment, and manually completing the 3D construction of the crane beam. Model and layout design, the selection of the tonnage of the crane, the judgment of the placement position of the cr...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F30/13G06T17/00
CPCG06F30/13G06T17/00
Inventor 刘永刘帆
Owner 中广核工程有限公司
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