CN113506015A - Construction method and system of underground pipe network - Google Patents

Abstract

The application relates to a construction method and a system of an underground pipe network, wherein the method comprises the following steps: the method comprises the steps that a handheld terminal is obtained to identify an electronic tag on a current pipeline to be installed so as to obtain pipeline information stored in the electronic tag; calling out preset installation opinion information based on the pipeline information and sending the preset installation opinion information to the handheld terminal; and acquiring an image of the current pipeline installation operation performed by the constructor shot by the handheld terminal according to the installation opinion information as actual installation information, storing the actual installation information and forming a file. The images of the pipeline installation operation are shot and recorded as actual installation information, the actual installation information is stored and files are formed, so that management and maintenance personnel except constructors can fully know the actual situation of the underground pipe network, and the underground pipe network can be managed and maintained conveniently.

Description

Construction method and system of underground pipe network

Technical Field

The application relates to the field of underground pipe network laying, in particular to a construction method and a system of an underground pipe network.

Background

The underground pipe network is formed by splicing a plurality of pipelines, is buried underground and used for conveying liquid, gas or loose solids, and is one of important components of urban underground engineering.

When the pipeline is installed to finish the laying of the underground pipe network, a constructor checks a design drawing, buries the pipeline into the dug ditch according to the design requirements (gradient, depth and the like) on the design drawing, and finishes the installation of the pipeline after a manager confirms that the pipeline installation meets the design requirements.

The underground pipe network completes construction, regular maintenance in the later period is needed, and maintenance personnel and construction personnel are possibly not the same group of people, so that the maintenance personnel can only know the basic information of the underground pipe network from the design drawing, the actual condition of the underground pipe network is limited, and the underground pipe network is not convenient to manage and maintain.

Disclosure of Invention

In order to facilitate management and maintenance of the underground pipe network, the application provides a construction method and a system of the underground pipe network.

In a first aspect, the present application provides a construction method for an underground pipe network, which adopts the following technical scheme:

a construction method of an underground pipe network comprises the following steps:

the method comprises the steps that a handheld terminal is obtained to identify an electronic tag on a current pipeline to be installed so as to obtain pipeline information stored in the electronic tag;

calling out preset installation opinion information based on the pipeline information and sending the preset installation opinion information to the handheld terminal;

and acquiring an image of the current pipeline installation operation performed by the constructor shot by the handheld terminal according to the installation opinion information as actual installation information, storing the actual installation information and forming a file.

By adopting the technical scheme, the image of the pipeline installation operation is shot and recorded as the actual installation information, the actual installation information is stored and a file is formed, so that the management and maintenance personnel except the construction personnel can fully know the actual condition of the underground pipe network, and the management and maintenance of the underground pipe network are facilitated.

Preferably, after the step of storing the actual installation information and forming the archive, the method further comprises the following steps:

and when the obtained actual installation information is successfully matched with the installation opinion information, storing the actual installation information, forming a file and generating a real-time pipe network model.

Preferably, the method further comprises the following steps:

generating a pipe network preset model based on preset installation opinion information, wherein the pipe network preset model comprises a plurality of pipeline preset models corresponding to the installation opinion information.

Preferably, the step of generating the real-time pipe network model includes: and marking one or more pipeline preset models corresponding to the installation opinion information matched with the stored actual installation information in the pipe network preset models to generate a real-time pipe network model.

By adopting the technical scheme, managers can know the real-time progress of construction from the real-time pipe network model.

Preferably, the preset model of the pipe network comprises a two-dimensional model and a three-dimensional model, wherein the two-dimensional model is a projection of the pipe network on a horizontal plane.

Preferably, the method further comprises the following steps:

when the obtained actual installation information is unsuccessfully matched with the preset installation opinion information of each pipeline, generating a reinstallation instruction based on a matching result;

acquiring an image recorded by a handheld terminal when a constructor carries out current pipeline installation operation according to the reinstallation instruction as actual installation information;

and when the actual installation information is received and successfully matched with the installation opinion information, storing the actual installation information, forming a file and generating a real-time pipe network model.

Preferably, the actual installation information includes a video and an image during the pipeline installation work.

By adopting the technical scheme, the pictures shot by the specific nodes are stored as images, so that the actual condition of the pipeline can be rapidly known; wherein the specific node may be a measurement of the inclination of the pipe.

Preferably, the pipeline information includes elevation, pipe diameter, material, thickness.

Preferably, the installation opinion information includes inclination and depth.

In a second aspect, the present application provides a construction system for an underground pipe network, which adopts the following technical scheme:

a construction system of an underground pipe network comprises an electronic tag, a server and a handheld terminal;

the electronic tag is arranged on the pipeline, and pipeline information stored in the electronic tag is stored in the electronic tag;

the server is used for storing preset installation opinion information and actual installation information;

the handheld terminal is used for identifying the electronic tag on the pipeline so as to acquire the pipeline information stored in the electronic tag;

the server is used for calling out preset installation opinion information based on the pipeline information and sending the preset installation opinion information to the handheld terminal

The handheld terminal is also used for acquiring actual installation information during pipeline installation operation and sending the actual installation information to the server;

the handheld terminal is used for recording an image of the current pipeline installation operation performed by the constructor according to the installation opinion information and taking the image as actual installation information;

and the server acquires and stores the actual installation information and forms a file.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the method comprises the following steps of shooting an image of pipeline installation operation as actual installation information, storing the actual installation information and forming a file, so that management and maintenance personnel except constructors can fully know the actual condition of an underground pipe network, and the underground pipe network can be managed and maintained conveniently;

2. establishing a real-time pipe network model based on the actual installation information of the pipeline, and enabling managers to know the real-time progress of construction from the real-time pipe network model;

3. when the actual installation of pipeline does not conform to the design requirement, in time remind constructor through handheld terminal to adjust or install again the pipeline.

Drawings

Fig. 1 is a block diagram of a construction system.

Fig. 2 is a flow chart schematic of the construction method.

Description of reference numerals: 1. an electronic tag; 2. a server; 21. a modeling module; 22. a database; 23. a fixed communication module; 24. a background processing module; 3. a handheld terminal; 31. a positioning module; 32. a reading module; 33. a mobile communication module; 34. a front-end processing module; 35. and a display module.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The underground pipe network is formed by splicing a plurality of pipelines and is buried underground. When the pipeline is installed to finish the laying of the underground pipe network, a constructor checks a design drawing, buries the pipeline into the dug ditch according to the design requirements (gradient, depth and the like) on the design drawing, and finishes the installation of the pipeline after a manager confirms that the pipeline installation meets the design requirements.

The application provides a construction method and a system of an underground pipe network, which are used for acquiring the actual installation condition of a pipeline in the process of pipeline installation and forming a file so as to facilitate later-stage management and maintenance of the underground pipe network.

The embodiment of the application discloses a construction system of an underground pipe network.

Referring to fig. 1, the system includes an electronic tag 1, a server 2, and a handheld terminal 3.

Electronic tags 1 are arranged on the pipeline, and pipeline information is stored in electronic tags 1 and comprises the elevation, the pipe diameter, the material, the thickness and the like of the pipeline.

The server 2 is provided with a modeling module 21, a database 22, a fixed communication module 23 and a background processing module 24.

The modeling module 21 generates a pipe network preset model and corresponding installation opinion information based on an electronic map, and received design drawings and design requirements input by designers through a mouse, a keyboard, a scanner and other devices.

Moreover, the design drawing and design requirement input by the designer and received by the modeling module 21 include design information of a single pipeline and design information of a pipe network. Wherein, the design information of pipe network includes the actual position of pipe network, if: the starting position and the end position of the pipe network and the like can be represented by longitude and latitude.

Accordingly, the modeling module 21 generates a preset pipeline model based on the design information of a single pipeline. The pipeline preset model comprises a two-dimensional model and a three-dimensional model, and the two-dimensional model is the projection of the pipeline on the horizontal plane. Meanwhile, the modeling module 21 splices the plurality of pipeline preset models to form a pipeline preset model based on the pipeline preset model, the design information of the pipeline network and the electronic map.

The installation opinion information corresponds to each pipeline preset model, including inclination, depth, etc.

The fixed communication module 23 is used for communicating with the handheld terminal 3 through a wireless network; the background processing module 24 is used for processing the data received by the fixed communication module 23 from the handheld terminal 3.

The hand-held terminal 3 is configured for a constructor, and is provided with a positioning module 31, a reading module 32, a mobile communication module 33, a front-end processing module 34 and a display module 35.

The positioning module 31 is configured to obtain position information of a current position, and send the position information to the front-end processing module 34; the position information can adopt longitude and latitude.

In one embodiment, the reading module 32 recognizes and acquires the pipe information stored in the electronic tag 1 based on the RFID implementation, and the reading module 32 transmits the acquired pipe information to the front-end processing module 34. In another embodiment, the electronic tag 1 may be a two-dimensional code, and the two-dimensional code is adhered to the surface of the pipeline.

The mobile communication module 33 is used for communicating with the fixed communication module 23 through a wireless network; and, the front-end processing module 34 transmits the received location information and pipe information to the server 2 through the mobile communication module.

The fixed communication module 23 receives the position information and the pipeline information and sends the position information and the pipeline information to the background processing module 24, the background processing module 24 calls out a corresponding pipeline preset model and installation opinion information from the modeling module 21 based on the pipeline information and sends the pipeline preset model and the installation opinion information to the fixed communication module 23, and the fixed communication module 23 sends the pipeline preset model and the installation opinion information to the handheld terminal 3.

The mobile communication module 33 receives the pipeline preset model and the installation opinion information and sends the pipeline preset model and the installation opinion information to the front-end processing module 34, and the front-end processing module 34 decodes the pipeline preset model and the installation opinion information and sends the data to the display module 35 for image display and text display so as to be viewed by workers.

Meanwhile, the handheld terminal 3 further comprises a shooting module. When the constructor performs the installation operation of the current pipeline according to the image and the text displayed by the display module 35, the camera module can acquire the image during the installation operation by using the camera and use the image as the actual installation information. Wherein the actual installation information includes video and images.

The camera module sends the actual installation information to the server 2 through the mobile communication module 33, and the background processing module 24 stores the actual installation information into the database 22 to form a file when the actual installation information is received and successfully matched with the installation opinion information.

Meanwhile, the actual installation information is received and successfully matched with the installation opinion information, the background processing module 24 sends a marking instruction to the modeling module 21, and the modeling module 21 marks one or more pipeline preset models corresponding to the installation opinion information matched with the successfully matched actual installation information in the pipeline preset models based on the marking instruction to generate a real-time pipeline model. Wherein, the marks can be distinguished by colors, such as: and displaying the successfully matched pipeline preset model as green, and displaying the unsuccessfully matched pipeline preset model as yellow. Meanwhile, the server 2 may be connected to a display for personnel to view the archives or the real-time pipe network model in the database 22.

And when the background processing module 24 receives the actual installation information and fails to match with the installation opinion information, feeding back a re-installation instruction to the handheld terminal 3. The shooting module acquires actual installation information of the constructor when the constructor carries out the current pipeline installation operation again based on the re-installation instruction, the pipeline preset model and the installation opinion information, and sends the actual installation information to the server 2.

The embodiment of the application also discloses a construction method of the underground pipe network.

Referring to fig. 2, the method includes the steps of:

and S10, the acquiring handheld terminal 3 identifies the electronic tag 1 on the current pipeline to be installed so as to acquire the pipeline information stored in the electronic tag 1.

Specifically, the handheld terminal 3 identifies the electronic tag 1 on the pipeline to be installed, acquires the pipeline information stored in the electronic tag 1, and the handheld terminal 3 sends the acquired pipeline information to the server 2 through the wireless network.

It should be noted that, a constructor places a pipeline to be installed on one side of a station corresponding to a ditch, and the constructor is provided with a handheld terminal 3, identifies the electronic tag 1 on the pipeline to be installed by using the handheld terminal 3, and acquires the pipeline information stored in the electronic tag 1. The pipeline information includes the elevation, pipe diameter, material, thickness, etc. of the pipeline.

And, the handheld terminal 3 is configured with a positioning module 31, and the positioning module 31 determines the current position of the handheld terminal 3 as the position information of the pipeline and represents the current position by using longitude and latitude. Meanwhile, when the handheld terminal 3 sends the pipeline information to the server 2, the position information of the pipeline is embedded into the pipeline information and sent to the server 2.

And S20, calling out preset installation opinion information based on the pipeline information and sending the installation opinion information to the handheld terminal 3.

Specifically, the method comprises the following steps: a pipe network preset model generated based on an electronic map, a design drawing and a design requirement is stored in the server 2, and the pipe network preset model comprises a plurality of pipeline preset models and corresponding installation suggestion information; the installation opinion information can be understood as the mark of a preset pipeline model, including the material, the pipe diameter, the preset position, the inclination, the depth and the like of the pipeline, wherein the preset position is the installation position of the pipeline and can be represented by a longitude and latitude range. For example, the pipe a 2: reinforced concrete, the pipe diameter is 200mm, (east longitude 120.04905-120.04906 degrees, north latitude 29.2161-29.2162 degrees), the inclination is 2-3 degrees (one end of the connecting pipeline A1 is high), and the depth is 2-2.3M (depth of a ditch); pipe B2: steel, pipe diameter of 100mm, (east longitude 120.04917-120.04918 degrees, north latitude 29.2172-29.2173 degrees), horizontal 0 degree and depth of 2-3M (depth of ditch).

The handheld terminal 3 sends the pipeline information embedded with the position information to the server 2 through a wireless network; the server 2 receives the pipeline information embedded with the position information, and issues the corresponding pipeline preset model and the installation suggestion information to the handheld terminal 3. Such as: if the position information is (east longitude 120.049051 °, north latitude 29.21615 °), the server 2 transmits the pipeline preset model of the pipeline a2 and the installation opinion information to the handheld terminal 3.

Meanwhile, step S20 further includes:

the server 2 receives the pipeline information embedded with the position information, the server 2 calls preset installation suggestion information of the pipeline based on the position information, and outputs the installation suggestion information to the handheld terminal 3 when the materials, the pipe diameters and the like in the pipeline information are successfully matched with the materials, the pipe diameters and the like in the preset installation suggestion information of each pipeline; if the matching fails, a tube replacement command is output to the handheld terminal 3, and the process returns to step S10.

Specifically, the position of the handheld terminal 3 is (east longitude 120.049051 °, north latitude 29.21615 °), and the pipeline information obtained after the handheld terminal 3 identifies the electronic tag 1 is: reinforced concrete, pipe diameter 180 mm; at this time, the server 2 retrieves the installation opinion information of the pipeline a2 based on the position information (120.049051 ° east longitude and 29.21615 ° north latitude), and matches the reinforced concrete and the pipe diameter of 180mm in the pipeline information with the reinforced concrete and the pipe diameter of 200mm in the installation opinion information of the pipeline a2, so that the matching is unsuccessful, and the server 2 outputs a pipe replacing instruction to the handheld terminal 3 to request a constructor to replace a correct pipeline.

After the constructor changes the pipeline, handheld terminal 3 reacquires the pipeline information in this pipeline electronic tags 1 to send the pipeline information that has embedded positional information to server 2 through wireless network.

And S30, acquiring an image of the current pipeline installation operation performed by the constructor shot by the handheld terminal 3 according to the installation opinion information as actual installation information, storing the actual installation information and forming a file.

Specifically, the constructor checks the pipeline preset model and the installation suggestion information on the handheld terminal 3, and performs the installation operation of the current pipeline.

The handheld terminal 3 shoots and records an image of the installation operation as actual installation information; the actual installation information includes video and images such as: before a pipeline is placed in a ditch, shooting a process video of measuring the depth of the ditch by using equipment such as a tape measure, a range finder and the like, and independently shooting at least one picture of a measuring result as an image; after the pipeline is placed in the ditch, shooting a process video for measuring the inclination of the pipeline by utilizing equipment such as a level bar and the like, and independently shooting at least one picture of a measurement result as an image; the process of sealing between pipelines is photographed.

The handheld terminal 3 sends the actual installation information to the server 2 through the wireless network, in one embodiment, the server 2 performs data processing (matching with manual correction if necessary) in a mode of image recognition and the like on the actual installation information to obtain the actual inclination and depth of the pipeline, and matches the actual inclination and depth with the installation opinion information, and if the matching is successful, the actual installation information and the corresponding position information are stored in the database 22 to form a file. Therefore, the actual situation of pipeline installation can be known by calling the actual installation information in the database 22 in the later stage, and the management and maintenance of the underground pipe network in the later stage are facilitated.

Step S30 further includes: when the actual installation information received by the server 2 fails to match the preset installation opinion information of each pipeline, a reinstallation instruction is generated based on the matching result.

For example: server 2 sends pipeline A2's installation suggestion information to handheld terminal 3, constructor accomplishes the installation and sends actual installation information to server 2 through handheld terminal 3, server 2 receives actual installation information and carries out data processing, obtain 2.5 (the one end of connecting tube A1 is high), dark 1.9M of slope, and slope 2-3 (the one end of connecting tube A1 is high) with pipeline A2's installation suggestion information, dark 2-2.3M (the ditch depth) matches, then the matching fails, and the matching result is: the depth is not satisfactory.

The server 2 generates a reinstallation instruction based on the depth unsatisfactory matching result and feeds the reinstallation instruction back to the handheld terminal 3 for the worker to refer to adjust the position of the pipeline or reinstall the pipeline.

And the constructor records the process of reinstallation of the pipeline by the handheld terminal 3 according to the reinstallation instruction, forms and sends new actual installation information to the server 2, and the server 2 receives the new actual installation information and matches the new actual installation information with the installation opinion information again. If the matching is successful, the server 2 stores the actual installation information and forms a file; if the matching fails, the server 2 generates a reinstallation instruction again and sends the reinstallation instruction to the handheld terminal 3.

And S40, the server 2 generates a real-time pipe network model based on the stored actual installation information.

Specifically, one or more pipeline preset models corresponding to installation opinion information matched with stored actual installation information in the pipeline preset models are marked to generate a real-time pipeline network model; wherein, the marks can be distinguished by colors, such as: and displaying the successfully matched pipeline preset model as green, and displaying the unsuccessfully matched pipeline preset model as yellow.

For example, data 1: position information (east longitude 120.049051 °, north latitude 29.21615 °), inclination of 2.5 ° (one end of connecting pipe a1 is high), depth of 2.1M; the installation opinion information corresponding to this data 1 is that the pipe a 2: reinforced concrete, the pipe diameter is 200mm, (east longitude 120.04905-120.04906 degrees, north latitude 29.2161-29.2162 degrees), the inclination is 2-3 degrees (one end of the connecting pipeline A1 is high), and the depth is 2-2.3M (depth of a ditch). The preset model of the duct corresponding to duct a2 is displayed as green to indicate that duct a2 is installed and meets design requirements.

The pipeline preset model displayed as green represents that the pipeline is not installed or is installed, so that the construction progress is displayed in real time.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A construction method of an underground pipe network is characterized by comprising the following steps:

the method comprises the steps that a handheld terminal (3) is obtained to identify an electronic tag (1) on a current pipeline to be installed so as to obtain pipeline information stored in the electronic tag (1);

calling out preset installation opinion information based on the pipeline information and sending the preset installation opinion information to the handheld terminal (3);

and acquiring an image of the current pipeline installation operation performed by the constructor shot by the handheld terminal (3) according to the installation opinion information as actual installation information, storing the actual installation information and forming a file.

2. A method of constructing an underground pipe network according to claim 1, wherein after the step of storing the actual installation information and forming the archive, the method further comprises the steps of:

and when the obtained actual installation information is successfully matched with the installation opinion information, storing the actual installation information, forming a file and generating a real-time pipe network model.

3. The method for constructing an underground pipe network according to claim 2, further comprising the steps of:

generating a pipe network preset model based on preset installation opinion information, wherein the pipe network preset model comprises a plurality of pipeline preset models corresponding to the installation opinion information.

4. The method of constructing an underground pipe network according to claim 3, wherein the step of generating a real-time pipe network model comprises: and marking one or more pipeline preset models corresponding to the installation opinion information matched with the stored actual installation information in the pipe network preset models to generate a real-time pipe network model.

5. A method for constructing an underground pipe network according to claim 3, wherein: the pipe network preset model comprises a two-dimensional model and a three-dimensional model, wherein the two-dimensional model is the projection of the pipe network on the horizontal plane.

6. The method for constructing an underground pipe network according to claim 2, further comprising the steps of:

when the obtained actual installation information is unsuccessfully matched with the preset installation opinion information of each pipeline, generating a reinstallation instruction based on a matching result;

acquiring an image shot by the handheld terminal (3) when a constructor carries out current pipeline installation operation according to the reinstallation instruction as actual installation information;

and when the actual installation information is received and successfully matched with the installation opinion information, storing the actual installation information, forming a file and generating a real-time pipe network model.

7. The construction method of an underground pipe network according to claim 1, characterized in that: the actual installation information includes video and images during pipeline installation work.

8. The construction method of an underground pipe network according to claim 1, characterized in that: the pipeline information includes elevation, pipe diameter, material, thickness.

9. The construction method of an underground pipe network according to claim 1, characterized in that: the installation opinion information includes inclination and depth.

10. The utility model provides a construction system of underground pipe network which characterized in that: the system comprises an electronic tag (1), a server (2) and a handheld terminal (3);

the electronic tag (1) is arranged on the pipeline, and pipeline information stored in the electronic tag (1) is stored;

the server (2) is used for storing preset installation opinion information and actual installation information;

the handheld terminal (3) is used for identifying the electronic tag (1) on the pipeline to acquire the pipeline information stored in the electronic tag (1);

the server (2) is used for calling out preset installation opinion information based on the pipeline information and sending the preset installation opinion information to the handheld terminal (3)

The handheld terminal (3) is also used for acquiring actual installation information during pipeline installation operation and sending the actual installation information to the server (2);

the handheld terminal (3) is used for shooting and recording images of the construction personnel for carrying out the current pipeline installation operation according to the installation opinion information and taking the images as actual installation information;

the server (2) acquires and stores the actual installation information and forms a file.

Images