CN116341047A

CN116341047A - Simulation system for bridge planning design

Info

Publication number: CN116341047A
Application number: CN202211549983.5A
Authority: CN
Inventors: 上官兵; 单晓方; 刘晓宇
Original assignee: Guangdong Metallurgical Construction Construction Drawing Review Center Co ltd
Current assignee: Guangdong Metallurgical Construction Construction Drawing Review Center Co ltd
Priority date: 2022-12-05
Filing date: 2022-12-05
Publication date: 2023-06-27

Abstract

The invention discloses a simulation system for bridge planning and design, which structurally comprises a simulation system, wherein the simulation system comprises a data acquisition module, a modeling module, a parameter adjustment module, an analysis module and a drawing editing module; the data acquisition module is used for inputting data of an environment to be built, data of bridge engineering and drawing input; the modeling module is used for establishing a three-dimensional bridge model by using the recorded bridge data through simulation, and the parameter adjustment module is used for performing parameter adjustment according to the environmental conditions and performing simulated pressure test on the bridge; the analysis module is used for comparing the models before and after parameter adjustment. The invention can realize modeling of the combined environment of the bridge engineering and carry out simulation analysis, so that engineering staff can conveniently and intuitively review the bridge planned and designed, and when the unreasonable place appears in the bridge planned and designed, the planning and designed staff can carry out corresponding drawing modification at any time, thereby improving the rationality and reliability of the bridge design.

Description

Simulation system for bridge planning design

Technical Field

The invention relates to the technical field of storage battery terminal code plates, in particular to a simulation system for bridge planning and design.

Background

Bridge is a structure which is generally erected on rivers, lakes and seas and can smoothly pass vehicles, pedestrians and the like. In order to adapt to the traffic industry of modern high-speed development, bridges are also spreading to span mountain stream, poor geology or buildings which are erected to meet other traffic requirements and are more convenient to pass, and planning and design are needed in the bridge construction process.

At present, the existing simulation system for bridge planning and design cannot model the combined environment of bridge engineering and cannot carry out simulation analysis, so that engineering personnel cannot review a planned and designed bridge intuitively, and when the unreasonable place appears in bridge planning and design, the planning and design personnel cannot modify corresponding drawings at any time, and the rationality and reliability of the bridge design are reduced. For this reason, new solutions need to be designed to solve.

Disclosure of Invention

The invention aims to provide a simulation system for bridge planning and design, which solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the simulation system for the bridge planning design comprises a simulation system, wherein the simulation system comprises a data acquisition module, a modeling module, a parameter adjustment module, an analysis module and a drawing editing module;

the data acquisition module is used for inputting data of an environment to be built, data of bridge engineering and drawing input;

the modeling module is used for establishing a three-dimensional bridge model by using the recorded bridge data through simulation, and the parameter adjustment module is used for performing parameter adjustment according to the environmental conditions and performing simulated pressure test on the bridge;

the analysis module is used for comparing the models before and after parameter adjustment, analyzing and obtaining results;

the drawing editing module is used for correspondingly adjusting the drawing according to the result given by the analysis module.

As a preferred embodiment of the invention, the modeling module comprises a modeling center, a data storage module, a modeling engine and a data structure module, wherein the modeling engine comprises a data classification ordering module and a modeling parameter module.

As a preferred embodiment of the present invention, the data receiving module sends the entered bridge data to a modeling center;

the modeling center is used for performing task management, classifying and sequencing the received data through the data classification sequencing module, and distributing the modeling tasks to the modeling engine in an idle state according to the sequence;

the modeling parameter module is used for acquiring modeling data according to the modeling data after the modeling center receives the modeling data, wherein the modeling data is a data packet corresponding to a modeling method meeting task requirements in the modeling module;

the task demand receives the bridge data information trigger through the data receiving module, sends the bridge data information to the modeling module, analyzes the modeling task through the modeling module to obtain modeling parameters, downloads the modeling data from the modeling module according to the modeling parameters, so as to select a modeling engine in an idle state, and models according to the modeling task and the modeling data;

the state of the modeling engine is confirmed by the bridge data information sent by the modeling center through the modeling module, modeling information is converted into tiled data to be archived, a modeling result is sent to the data storage module, the data storage module is used for storing the modeling result, and the modeling result is sent to the modeling module according to the modeling data information of the modeling center, so that the modeling result is presented by the modeling module.

As a preferred implementation mode of the invention, the modeling parameter module provides corresponding data parameters for the bridge data information received by the modeling engine, extracts corresponding data information from the data information to perform modeling, and then performs parameter adjustment according to environmental conditions by the parameter adjustment module to perform simulated pressure test on the bridge.

As a preferred embodiment of the invention, the drawing editing module comprises a processor, wherein the processor comprises a drawing data module, a drawing measurement data module and a drawing report data module;

the drawing data module is used for drawing numbering, drawing size extraction, drawing information inquiry and drawing labeling;

the drawing report data module is used for creating report data, extracting serial number file import data and measuring report import data;

the drawing measurement data module is used for linking the measurement program, the table number report data and the number drawing data, and interactively compiling a three-coordinate number data extraction program, a number report and a number drawing association query.

The editing steps of the drawing editing module as a preferred embodiment of the invention are as follows: firstly, partitioning and information labeling are carried out on a drawing, serial number labeling is automatically carried out on each size, size values are extracted to form drawing data, then the drawing data are imported into a drawing report data module to form a drawing report, then measurement programming is carried out on the drawing report and drawing measurement data module, the measurement data are imported into the drawing report data module to form a drawing report association model, and the drawing editing module is enabled to automatically process the drawing data, the drawing report and the measurement data.

Compared with the prior art, the invention has the following beneficial effects:

the invention can realize modeling of the combined environment of the bridge engineering and carry out simulation analysis, so that engineering staff can conveniently and intuitively review the bridge planned and designed, and when the unreasonable place appears in the bridge planned and designed, the planning and designed staff can carry out corresponding drawing modification at any time, thereby improving the rationality and reliability of the bridge design.

Drawings

Other features, objects and advantages of the present invention will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a flow chart of a simulation system of bridge planning and design according to the present invention;

FIG. 2 is a flow chart of a modeling module of the present invention;

FIG. 3 is a flow chart of the drawing editing module of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-3, the present invention provides a technical solution: the simulation system for the bridge planning design comprises a simulation system, wherein the simulation system comprises a data acquisition module, a modeling module, a parameter adjustment module, an analysis module and a drawing editing module;

in an alternative embodiment, the data acquisition module is used for inputting data of an environment to be built, data of bridge engineering and drawing input;

in an alternative embodiment, the modeling module uses the entered bridge data for simulation to establish a three-dimensional bridge model, the modeling module comprises a modeling center, the modeling center also comprises a data storage module, a modeling engine and a data structure module, the modeling engine comprises a data classification and sorting module and a modeling parameter module, and the data receiving module sends the entered bridge data to the modeling center; the modeling center is used for performing task management, classifying and sequencing the received data through the data classification sequencing module, and distributing the modeling tasks to the modeling engine in an idle state according to the sequence; the modeling parameter module is used for acquiring modeling data according to the modeling data after the modeling center receives the modeling data, wherein the modeling data is a data packet corresponding to a modeling method meeting task requirements in the modeling module; the task demand receives the bridge data information trigger through the data receiving module, sends the bridge data information to the modeling module, analyzes the modeling task through the modeling module to obtain modeling parameters, downloads the modeling data from the modeling module according to the modeling parameters, so as to select a modeling engine in an idle state, and models according to the modeling task and the modeling data; the state of the modeling engine receives the bridge data information confirmation sent by the modeling center through the modeling module, converts the modeling information into tiled data for archiving, sends a modeling result to the data storage module, and the data storage module is used for storing the modeling result and sending the modeling result to the modeling module according to the modeling data information of the modeling center, so that the modeling module presents the modeling result, the parameter adjustment module carries out parameter adjustment according to the environment condition, carries out simulated pressure test on the bridge, and the modeling parameter module provides corresponding data parameters for the bridge data information received by the modeling engine, extracts corresponding data information from the bridge data information for modeling, and carries out parameter adjustment according to the environment condition by the parameter adjustment module, and carries out simulated pressure test on the bridge;

in an alternative embodiment, the analysis module is used for comparing the models before and after parameter adjustment, analyzing and obtaining the result;

in an alternative embodiment, the drawing editing module is used for correspondingly adjusting the drawing according to the result given by the analysis module, and the drawing editing module comprises a processor, wherein the processor comprises a drawing data module, a drawing measurement data module and a drawing report data module, and the drawing data module is used for drawing numbering, drawing size extraction, drawing information inquiry and drawing labeling; the drawing report data module is used for creating report data, extracting serial number file import data and measuring report import data; the drawing measurement data module is used for linking a measurement program, form number report data and number drawing data, interactively compiling a three-coordinate number data extraction program, a number report and a number drawing association query, and comprises the following editing steps of: firstly, partitioning and information labeling are carried out on a drawing, serial number labeling is automatically carried out on each size, size values are extracted to form drawing data, then the drawing data are imported into a drawing report data module to form a drawing report, then measurement programming is carried out on the drawing report and drawing measurement data module, the measurement data are imported into the drawing report data module to form a drawing report association model, and the drawing editing module is enabled to automatically process the drawing data, the drawing report and the measurement data.

Working principle: when the simulation system operates, firstly, the data acquisition module is used for inputting data of an environment to be built, data of bridge engineering and drawing input, then the data receiving module is used for transmitting the input bridge data to the modeling center, the modeling center classifies and sorts the received data through the data classification and sorting module, the modeling tasks are distributed to the modeling engine in an idle state according to the sequence, the modeling parameter module is used for receiving the modeling data for the modeling center, the modeling parameter module is obtained according to the modeling data, the data receiving module is used for receiving bridge data information to trigger, then the bridge data information is transmitted to the modeling module, the modeling module is used for analyzing the modeling tasks to obtain modeling parameters, the modeling data is downloaded from the modeling module according to the modeling parameters, so that the modeling engine in the idle state is selected, modeling is carried out according to the modeling tasks and the modeling data, the state of the modeling engine is received by the modeling module, the modeling engine is converted into tiled data to be archived, the modeling result is transmitted to the data storage module, the modeling result is stored according to the modeling data information of the modeling center, the modeling module is transmitted to the modeling module, the modeling result is presented by the modeling module, then the modeling parameter is used for receiving the bridge data information, the modeling environment is adjusted according to the modeling data information, the modeling data information of the modeling center is transmitted to the modeling module, the drawing is analyzed, the drawing is obtained, the drawing is automatically adjusted according to the parameter is obtained, the drawing is edited, the drawing value is formed, the drawing value is edited, and the drawing value is edited, at last, when the drawing value is edited, and the drawing value is set according to the drawing value is edited, and the drawing value is set to the drawing value according to the drawing value, and the drawing value is edited, and the drawing value according to the drawing value and the drawing value is obtained. And then, carrying out measurement programming by associating the drawing report with the drawing measurement data module, and importing the measurement data into the drawing report data module to form a drawing report association model, so that the drawing editing module automatically processes the drawing data, the drawing report and the measurement data.

While the fundamental and principal features of the invention and advantages of the invention have been shown and described, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. The simulation system for bridge planning design comprises a simulation system and is characterized in that: the simulation system comprises a data acquisition module, a modeling module, a parameter adjustment module, an analysis module and a drawing editing module;

2. The simulation system of bridge planning and design of claim 1, wherein: the modeling module comprises a modeling center, a data storage module, a modeling engine and a data structure module, wherein the modeling engine comprises a data classification and sorting module and a modeling parameter module.

3. The simulation system of bridge planning and design of claim 2, wherein: the data receiving module is used for sending the recorded bridge data to a modeling center;

4. The simulation system of bridge planning and design of claim 2, wherein: the modeling parameter module is used for providing corresponding data parameters for the bridge data information received by the modeling engine, extracting corresponding data information from the data information to perform modeling, and performing parameter adjustment by the parameter adjustment module according to the environmental condition to perform simulated pressure test on the bridge.

5. The simulation system of bridge planning and design of claim 1, wherein: the drawing editing module comprises a processor, wherein the processor comprises a drawing data module, a drawing measurement data module and a drawing report data module;

6. The simulation system of bridge planning and design of claim 5, wherein: the editing steps of the drawing editing module are as follows: firstly, partitioning and information labeling are carried out on a drawing, serial number labeling is automatically carried out on each size, size values are extracted to form drawing data, then the drawing data are imported into a drawing report data module to form a drawing report, then measurement programming is carried out on the drawing report and drawing measurement data module, the measurement data are imported into the drawing report data module to form a drawing report association model, and the drawing editing module is enabled to automatically process the drawing data, the drawing report and the measurement data.