CN116451332B - Quick processing method for main pipe of comprehensive pipeline - Google Patents

Abstract

The application relates to a rapid processing method for a main pipe of a comprehensive pipeline, which comprises the following steps: acquiring comprehensive pipeline trunk pipeline routing data by utilizing wall body data on two sides of the comprehensive pipeline trunk pipeline; by utilizing the comprehensive pipeline trunk route data to rapidly process the comprehensive pipeline trunk, a subway station trunk pipeline adjustment mode is innovated, the efficiency of the comprehensive pipeline trunk adjustment is improved, the flexibility and the visibility of adjustment are improved, and the adjustment of a BIM electromechanical comprehensive model of a subway station is greatly promoted.

Description

Quick processing method for main pipe of comprehensive pipeline

Technical Field

The application relates to the field of adjustment of electromechanical pipelines of subway stations and application of BIM models, in particular to a rapid processing method for a main pipe of a comprehensive pipeline.

Background

Along with the rapid development of the field of subway engineering design and building information model (namely BIM) technology in China, the precise and accurate working requirements of subway design are continuously improved, and particularly, the space in a subway station is tense, so that extremely high requirements are provided for the layout of electromechanical pipelines in the station. BIM technology helping hand subway engineering improves design and construction precision and quality, but the adjustment operation degree of difficulty of BIM model is big simultaneously, and BIM model adjustment need operate under the multiview window, and there is linkage relation in the electromechanical pipeline in the BIM model, and the pipeline arrangement in other regions can be influenced in the linkage of adjustment in one place. The workload and adjustment difficulty of a designer are greatly increased in the mode, and the engineering progress is retarded.

Disclosure of Invention

Aiming at the problems of multi-window view adjustment, pipeline linkage, difficult adjustment and the like of a comprehensive pipeline main pipe of a BIM electromechanical model designed in the current subway, the adjustment efficiency is improved by simplifying the main pipe adjustment mode, and the adjustment work of the comprehensive pipeline main pipe is rapidly completed.

To achieve the above object, the present application provides a rapid processing method for an integrated pipeline main pipe, comprising:

acquiring comprehensive pipeline trunk pipeline routing data by utilizing wall body data on two sides of the comprehensive pipeline trunk pipeline;

and rapidly processing the comprehensive pipeline trunk by utilizing the comprehensive pipeline trunk routing data.

Preferably, the obtaining the comprehensive pipeline trunk line routing data by using the wall data on two sides of the comprehensive pipeline trunk line comprises:

obtaining the routing section width of the main pipe of the comprehensive pipeline by utilizing the wall inner side surface spacing data of the walls at the two sides of the main pipe of the comprehensive pipeline;

obtaining route initial data of the main pipe of the comprehensive pipeline by utilizing walls on two sides of the main pipe of the comprehensive pipeline;

using the comprehensive pipeline trunk route section width and the comprehensive pipeline trunk route initial data as comprehensive pipeline trunk route data;

the comprehensive pipeline trunk route starting data are a comprehensive pipeline trunk route starting point and a comprehensive pipeline trunk route starting direction.

Preferably, the fast processing of the integrated pipeline trunk using the integrated pipeline trunk routing data includes:

obtaining the corresponding floor height of the main pipeline routing wall of the comprehensive pipeline by utilizing the main pipeline routing data of the comprehensive pipeline;

establishing a main pipe root section of the comprehensive pipeline by utilizing the height of the main pipe routing wall body of the comprehensive pipeline corresponding to the floor;

acquiring a secondary section of the main pipe of the comprehensive pipeline by utilizing the root section of the main pipe of the comprehensive pipeline;

and rapidly processing the main pipe of the comprehensive pipeline by utilizing the main pipe root section of the comprehensive pipeline and the secondary section of the main pipe of the comprehensive pipeline.

Further, obtaining the floor height corresponding to the main pipeline routing wall body of the comprehensive pipeline by utilizing the main pipeline routing data of the comprehensive pipeline comprises the following steps:

acquiring floor elevation and bottom elevation of a floor top structural plate corresponding to the comprehensive pipeline trunk pipeline routing data by utilizing the comprehensive pipeline trunk pipeline routing data;

the floor elevation is used as a section bottom, and the bottom elevation of the floor top structural plate is used as a section top;

and obtaining the corresponding floor height of the main pipeline routing wall of the comprehensive pipeline by using the section bottom and the section top.

Further, the obtaining the secondary profile of the main pipe of the comprehensive pipeline by using the root profile of the main pipe of the comprehensive pipeline comprises:

when the air pipe sectional area of the main pipe of the comprehensive pipeline is changed, a secondary section is established by utilizing the routing direction of the main pipe of the comprehensive pipeline;

judging whether the number of the secondary sections within the range of 1 meter is larger than 1, if so, reserving the last section within the range of 1 meter, otherwise, reserving all sections.

Further, the fast processing of the composite pipeline trunk pipe by using the composite pipeline trunk pipe root section and the composite pipeline trunk pipe secondary section comprises:

and rapidly processing the pipeline corresponding to the profile by utilizing the comprehensive pipeline trunk pipe root profile and the comprehensive pipeline trunk pipe secondary profile based on the comprehensive pipeline trunk pipe profile adjustment sequence rule and the comprehensive pipeline trunk pipe adjustment rule.

Further, the comprehensive pipeline main pipe profile adjustment sequence rule comprises:

judging whether collision exists in the section of the main pipe root of the comprehensive pipeline, if so, adjusting the section of the main pipe root of the comprehensive pipeline, and then adjusting the section of the main pipe root of the comprehensive pipeline to correspond to the secondary section, otherwise, directly adjusting the secondary section;

when the main pipe root section or the secondary section of the comprehensive pipeline is adjusted, the pipeline corresponding to the main pipe root section or the secondary section of the comprehensive pipeline is adjusted in a linkage way;

when the main pipe root section or the secondary section of the comprehensive pipeline is adjusted, judging whether the pipeline corresponding to the adjacent last section has influence, if so, cutting off the pipeline corresponding to the current section, and reconnecting the corresponding pipeline after adjustment, otherwise, directly adjusting;

the collision is that the main pipeline of the comprehensive pipeline has physical collision with each other or the main pipeline of the comprehensive pipeline has physical collision with the adjacent wall body.

Further, the integrated pipeline main pipeline adjustment rule includes:

when an air pipe, a cable bridge and a pipeline exist in the main pipeline of the comprehensive pipeline at the same time, the air pipe is arranged on the upper layer, the cable bridge is arranged on the middle layer, the pipeline is arranged on the lower layer, the air pipe is aligned with the cable bridge at the bottom, and the pipeline is aligned at the center;

when the main pipelines of the comprehensive pipelines are arranged in the same layer, the large-diameter pipelines of the main pipelines of the comprehensive pipelines are arranged close to the wall side, and the small-diameter pipelines of the main pipelines of the comprehensive pipelines are arranged centrally;

when the central line of the main pipeline of the comprehensive pipeline is positioned at the left side of the central line of the corridor, the pipelines are distributed leftwards;

when the central line of the main pipeline of the comprehensive pipeline is positioned on the right side of the central line of the corridor, the pipelines are distributed on the right.

Based on the same inventive concept, the application also provides a comprehensive pipeline main pipe rapid processing system, which comprises:

the acquisition module is used for acquiring comprehensive pipeline trunk pipeline routing data by utilizing comprehensive pipeline trunk pipeline wall data;

and the adjusting module is used for rapidly processing the comprehensive pipeline trunk by utilizing the comprehensive pipeline trunk routing data.

Compared with the closest prior art, the application has the following beneficial effects:

the novel adjustment mode of the main pipeline of the subway station is provided, the efficiency of adjusting the main pipeline of the comprehensive pipeline is improved through linkage adjustment of the section and the pipeline, the basic adjustment rules of the section and the pipeline are set, the adjustment flexibility and the visibility are improved, and the adjustment of the BIM electromechanical comprehensive pipeline model of the subway station is greatly promoted.

Drawings

FIG. 1 is a flow chart of a rapid processing method for a composite pipeline main pipe provided by the application;

FIG. 2 is a schematic illustration of a rapid processing method for a main pipe of an integrated pipeline with no adjustment in cross section, provided by the present application;

FIG. 3 is a schematic cross-sectional view of a rapid processing method for a main pipe of an integrated pipeline according to the present application.

Detailed Description

The following describes the embodiments of the present application in further detail with reference to the drawings.

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Example 1

The application provides a rapid processing method for a main pipe of a comprehensive pipeline, which is shown in figure 1 and comprises the following steps:

step 1: acquiring comprehensive pipeline trunk pipeline routing data by utilizing wall body data on two sides of the comprehensive pipeline trunk pipeline;

step 2: and rapidly processing the comprehensive pipeline trunk by utilizing the comprehensive pipeline trunk routing data.

The step 1 specifically comprises the following steps:

1-1: obtaining the routing section width of the main pipe of the comprehensive pipeline by utilizing the wall inner side surface spacing data of the walls at the two sides of the main pipe of the comprehensive pipeline;

1-2: obtaining route initial data of the main pipe of the comprehensive pipeline by utilizing walls on two sides of the main pipe of the comprehensive pipeline;

1-3: using the comprehensive pipeline trunk route section width and the comprehensive pipeline trunk route initial data as comprehensive pipeline trunk route data;

the comprehensive pipeline trunk route starting data are a comprehensive pipeline trunk route starting point and a comprehensive pipeline trunk route starting direction.

The step 2 specifically comprises the following steps:

2-1: obtaining the corresponding floor height of the main pipeline routing wall of the comprehensive pipeline by utilizing the main pipeline routing data of the comprehensive pipeline;

2-2: establishing a main pipe root section of the comprehensive pipeline by utilizing the height of the main pipe routing wall body of the comprehensive pipeline corresponding to the floor;

2-3: acquiring a secondary section of the main pipe of the comprehensive pipeline by utilizing the root section of the main pipe of the comprehensive pipeline;

2-4: and rapidly processing the main pipe of the comprehensive pipeline by utilizing the main pipe root section of the comprehensive pipeline and the secondary section of the main pipe of the comprehensive pipeline.

The step 2-1 specifically comprises the following steps:

2-1-1: acquiring floor elevation and bottom elevation of a floor top structural plate corresponding to the comprehensive pipeline trunk pipeline routing data by utilizing the comprehensive pipeline trunk pipeline routing data;

2-1-2: the floor elevation is used as a section bottom, and the bottom elevation of the floor top structural plate is used as a section top;

2-1-3: and obtaining the corresponding floor height of the main pipeline routing wall of the comprehensive pipeline by using the section bottom and the section top.

The step 2-3 specifically comprises the following steps:

2-3-1: when the air pipe sectional area of the main pipe of the comprehensive pipeline is changed, a secondary section is established by utilizing the routing direction of the main pipe of the comprehensive pipeline;

2-3-2: judging whether the number of the secondary sections within the range of 1 meter is larger than 1, if so, reserving the last section within the range of 1 meter, otherwise, reserving all sections.

In this embodiment, a rapid processing method for a main pipe of an integrated pipeline is provided, wherein the number of secondary sections in the range of 1 meter is the number of secondary sections in each 1 meter from the root section.

The steps 2-4 specifically comprise:

2-4-1: and rapidly processing the pipeline corresponding to the profile by utilizing the comprehensive pipeline trunk pipe root profile and the comprehensive pipeline trunk pipe secondary profile based on the comprehensive pipeline trunk pipe profile adjustment sequence rule and the comprehensive pipeline trunk pipe adjustment rule.

The step 2-4-1 specifically comprises the following steps:

2-4-1-1: judging whether collision exists in the section of the main pipe root of the comprehensive pipeline, if so, adjusting the section of the main pipe root of the comprehensive pipeline, and then adjusting the section of the main pipe root of the comprehensive pipeline to correspond to the secondary section, otherwise, directly adjusting the secondary section;

2-4-1-2: when the main pipe root section or the secondary section of the comprehensive pipeline is adjusted, the pipeline corresponding to the main pipe root section or the secondary section of the comprehensive pipeline is adjusted in a linkage way;

2-4-1-3: when the main pipe root section or the secondary section of the comprehensive pipeline is adjusted, judging whether the pipeline corresponding to the adjacent last section has influence, if so, cutting off the pipeline corresponding to the current section, and reconnecting the corresponding pipeline after adjustment, otherwise, directly adjusting;

the collision is that the main pipeline of the comprehensive pipeline has physical collision with each other or the main pipeline of the comprehensive pipeline has physical collision with the adjacent wall body, and when the influence is that the current section has adjustment change, the adjacent section has passive change.

In this embodiment, a rapid processing method for a main pipe of an integrated pipeline is shown in fig. 2, and when there is a section collision, the section with the collision needs to be adjusted according to the actual environmental conditions, and as shown in fig. 3, the section schematic diagram after the adjustment is sequentially performed, wherein the adjustment is performed sequentially on the sections.

2-4-1-4: when an air pipe, a cable bridge and a pipeline exist in the main pipeline of the comprehensive pipeline at the same time, the air pipe is arranged on the upper layer, the cable bridge is arranged on the middle layer, the pipeline is arranged on the lower layer, the air pipe is aligned with the cable bridge at the bottom, and the pipeline is aligned at the center;

2-4-1-5: when the main pipelines of the comprehensive pipelines are arranged in the same layer, the large-diameter pipelines of the main pipelines of the comprehensive pipelines are arranged close to the wall side, and the small-diameter pipelines of the main pipelines of the comprehensive pipelines are arranged centrally;

2-4-1-6: when the central line of the main pipeline of the comprehensive pipeline is positioned at the left side of the central line of the corridor, the pipelines are distributed leftwards;

2-4-1-7: when the central line of the main pipeline of the comprehensive pipeline is positioned on the right side of the central line of the corridor, the pipelines are distributed on the right.

In this embodiment, a quick processing method for a main pipe of a comprehensive pipeline may be divided into automatic pipeline arrangement in a specific implementation process: the automatic arrangement can be carried out according to a set rule; manual arrangement: adjustment is performed by inputting a numerical value or dragging, wherein alignment capture can be achieved when dragging is performed manually.

In this embodiment, a method for rapid processing of a composite pipeline trunk pipe, the minimum clear distance between pipelines or between pipelines and walls, beams/plates, default set distances are as follows:

it will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Finally, it should be noted that: the above embodiments are only for illustrating the technical aspects of the present application and not for limiting the same, and although the present application has been described in detail with reference to the above embodiments, it should be understood by those of ordinary skill in the art that: modifications and equivalents may be made to the specific embodiments of the application without departing from the spirit and scope of the application, which is intended to be covered by the claims.

Claims (1)

1. A rapid processing method for an integrated pipeline main, comprising:

s1, acquiring comprehensive pipeline trunk pipeline routing data by utilizing wall body data on two sides of a comprehensive pipeline trunk pipeline;

s1-1, obtaining the routing section width of the main pipe of the comprehensive pipeline by utilizing the wall inner side surface spacing data of the walls at two sides of the main pipe of the comprehensive pipeline;

s1-2, obtaining route starting data of a main pipe of the comprehensive pipeline by utilizing walls on two sides of the main pipe of the comprehensive pipeline;

s1-3, utilizing the width of the comprehensive pipeline trunk route section and the comprehensive pipeline trunk route initial data as comprehensive pipeline trunk route data;

the comprehensive pipeline trunk pipeline route starting data are a comprehensive pipeline trunk pipeline route starting point and a comprehensive pipeline trunk pipeline route starting direction;

s2, rapidly processing the main pipe of the comprehensive pipeline by utilizing the main pipe routing data of the comprehensive pipeline;

s2-1, obtaining the corresponding floor height of the main pipeline routing wall of the comprehensive pipeline by utilizing the main pipeline routing data of the comprehensive pipeline;

s2-1-1, acquiring floor elevation corresponding to the comprehensive pipeline trunk pipeline routing data and bottom elevation of a floor top structural plate by utilizing the comprehensive pipeline trunk pipeline routing data;

s2-1-2, using the floor elevation as a section bottom, and using the bottom elevation of the floor top structural plate as a section top;

s2-1-3, obtaining the corresponding floor height of the main pipeline routing wall of the comprehensive pipeline by utilizing the section bottom and the section top;

s2-2, establishing a main pipe root section of the comprehensive pipeline by utilizing the height of the main pipe routing wall of the comprehensive pipeline corresponding to the floor;

s2-3, acquiring a secondary section of the main pipe of the comprehensive pipeline by utilizing the section of the main pipe root of the comprehensive pipeline;

wherein the number of the secondary sections within the range of 1 meter is the number of the secondary sections within each 1 meter by taking the root section as the starting point;

s2-3-1, when the air pipe sectional area of the main pipe of the comprehensive pipeline is changed, establishing a secondary section by utilizing the routing direction of the main pipe of the comprehensive pipeline;

s2-3-2, judging whether the number of the secondary sections within the range of 1 meter is more than 1, if so, reserving the last section within the range of 1 meter, otherwise, reserving all sections;

s2-4, rapidly processing the main pipe of the comprehensive pipeline by utilizing the main pipe root section of the comprehensive pipeline and the secondary section of the main pipe of the comprehensive pipeline;

s2-4-1, rapidly processing the pipeline with the corresponding profile by utilizing the comprehensive pipeline trunk pipe root profile and the comprehensive pipeline trunk pipe secondary profile based on the comprehensive pipeline trunk pipe profile adjustment sequence rule and the comprehensive pipeline trunk pipe adjustment rule;

s2-4-1-1, judging whether collision exists in the section of the main pipe root of the comprehensive pipeline, if so, adjusting the section of the main pipe root of the comprehensive pipeline, and then adjusting the section of the main pipe root of the comprehensive pipeline to correspond to a secondary section, otherwise, directly adjusting the secondary section;

s2-4-1-2, when the main pipe root section or the secondary section of the comprehensive pipeline is adjusted, carrying out linkage adjustment on the pipeline corresponding to the main pipe root section or the secondary section of the comprehensive pipeline;

s2-4-1-3, judging whether the pipeline corresponding to the adjacent last section has influence when the main pipe root section or the secondary section of the comprehensive pipeline is adjusted, if so, cutting off the pipeline corresponding to the current section, and reconnecting the corresponding pipeline after adjustment, otherwise, directly adjusting;

the collision is that the main pipeline of the comprehensive pipeline has physical collision with each other or the main pipeline of the comprehensive pipeline has physical collision with the adjacent wall, and when the influence is that the current section has adjustment change, the adjacent section has passive change;

s2-4-1-4, when an air pipe, a cable bridge and a pipeline exist in a main pipeline of the comprehensive pipeline at the same time, the air pipe is arranged on an upper layer, the cable bridge is arranged on a middle layer, the pipeline is arranged on a lower layer, the air pipe and the cable bridge are aligned at the bottom, and the pipeline is aligned at the center;

s2-4-1-5, when the main pipelines of the comprehensive pipelines are arranged on the same layer, the large-diameter pipelines of the main pipelines of the comprehensive pipelines are arranged near the wall side, and the small-diameter pipelines of the main pipelines of the comprehensive pipelines are arranged centrally;

s2-4-1-6, when the central line of the main pipeline of the comprehensive pipeline is positioned at the left side of the central line of the corridor, the pipeline is distributed leftwards;

s2-4-1-7, when the central line of the main pipeline of the comprehensive pipeline is positioned on the right side of the central line of the corridor, the pipeline is distributed to the right.