CN110944288A - Power plant underground pipe network checking method based on Bluetooth beacon and APP - Google Patents

Abstract

The invention discloses a power plant underground pipe network checking method based on Bluetooth beacons and APP, which comprises the following steps: step S1: establishing an underground pipe network three-dimensional model; step S2: the information source numbers and the serial numbers are in one-to-one correspondence, and the Bluetooth beacons are deployed to corresponding places; step S3: according to the pipe network information, a server program is set up, and the state information of each underground pipeline is recorded in real time or read from other systems; step S4: functional logic of popping up a corresponding underground pipe network three-dimensional model according to the received Bluetooth message label is realized in the APP; step S5: real-time status information of the pipeline is read from the server in real-time. According to the method for checking the underground pipe network of the power plant, manual positioning is not needed, key points can be automatically positioned according to the Bluetooth beacon information, corresponding underground pipe network information is displayed, the geometric position information and state information of the pipe network can be quickly, conveniently and real-timely checked, and assistance and reference are provided for site investigation, maintenance, construction and design.

Description

Power plant underground pipe network checking method based on Bluetooth beacon and APP

Technical Field

The invention relates to the field of management of underground pipe networks, in particular to a power plant underground pipe network checking method based on Bluetooth beacons and APP, which is used for accurately positioning and checking underground pipe network information of a power plant under the condition of not excavating ground clogs.

Background

The power plant is the main artery of the country, the underground pipelines are the blood vessels and the nerves inside the power plant, the underground pipelines inside the power plant are particularly complex, more than ten underground pipelines are related to industrial water, fire water, circulating water, compressed air, auxiliary steam, ammonia gas, hydrogen gas, chemical desalted water, domestic water, various waste sewage, power supply cables, communication cable pipelines and the like, and an intricate and complex underground pipeline network is formed.

The pipelines of the power plant are constructed in stages under most conditions, the construction can continue for decades from the beginning of capital construction, the early drawings are lost and damaged, and the design drawings of the dozens of pipelines are crossed and compounded, so that no method is used for intuitively and accurately displaying the spatial position relation of the crossed arrangement of the underground pipelines, and the difficulty is brought to later construction and maintenance.

Although there is a three-dimensional underground pipe network model checking means based on GIS and three-dimensional technology, when a plant area is large and underground pipelines are complex in distribution, there is still no quick and effective way to quickly locate underground pipe network details at a location (including inside a building) on site.

Based on the situation, in order to quickly and accurately locate key points of the power plant and check information such as geometric distribution conditions, pipeline parameters, medium states and the like of the underground pipe network in real time, the invention provides a checking method of the underground pipe network of the power plant by using a Bluetooth beacon and an intelligent mobile device APP, and the problems can be effectively solved.

Disclosure of Invention

The invention aims to provide a power plant underground pipe network checking method based on Bluetooth beacons and APP. The checking method of the underground pipe network of the power plant based on the Bluetooth beacon and the APP can accurately position and check the information of the underground pipe network of the power plant under the condition of not excavating ground soil, and the method can check key information of underground industrial water, fire water, circulating water, compressed air, auxiliary steam, ammonia gas, hydrogen gas, chemical desalted water, domestic water, various waste water, power supply cables, communication cable pipelines, geometric distribution of pipeline parameters, media and the like.

In order to solve the technical problems, the technical scheme provided by the invention is as follows:

a power plant underground pipe network viewing method based on Bluetooth beacons and APP comprises the following steps:

step S1: firstly, collecting construction drawings of various underground pipe networks of a power plant, then establishing a unified coordinate reference, drawing a (whole) three-dimensional model of the underground pipe network faithfully at a computer end by using three-dimensional drawing software according to the construction drawings, uniquely coding all pipelines, and recording pipeline numbers, geometric dimensions, geometric distribution relations, pipe diameters, lengths, materials, elevations, construction dates, pipeline purposes, pipeline starting ends, maintenance information and geographic positions;

step S2: then selecting a plurality of key places, cutting the three-dimensional models of the key places to form numbers, then distributing a Bluetooth beacon for each place, corresponding the information source number to the number one by one, and deploying the Bluetooth beacon to the corresponding place;

step S3: according to the pipe network information, a server program is set up, and the state information of each underground pipeline, including the pipeline number, the geometric size, the geometric distribution relation, the pipe diameter, the length, the material, the elevation, the construction date, the pipeline use, the pipeline starting end, the maintenance information and the geographic position, is recorded in real time or read from other systems;

step S4: writing the underground pipe network three-dimensional models of all key places and the corresponding conditions of the Bluetooth beacons into the APP, and popping up the corresponding underground pipe network three-dimensional models according to the received Bluetooth beacon numbers in the APP;

step S5: when clicking interaction is carried out on the APP and the underground pipe network three-dimensional model, real-time state information of the pipeline is read from the server in real time.

According to the power plant underground pipe network viewing method based on the Bluetooth beacon and the APP, the Bluetooth beacon and the APP are utilized, manual positioning of a user is not needed, the key point can be automatically positioned according to the Bluetooth beacon information, corresponding underground pipe network information is displayed, the geometric position information and the state information of the pipe network can be rapidly, conveniently and timely viewed, and assistance and reference are provided for field investigation, maintenance, construction and design.

By adopting the power plant underground pipe network checking method based on the Bluetooth beacon and the APP, the intelligent mobile device APP of the user can receive GNSS signals and quickly locate the current position, and calls the underground pipe network three-dimensional model built in the APP, and obtains the state information of each pipeline from the server through the mobile internet, thereby providing assistance and reference for on-site investigation, maintenance, construction and design.

The method for checking the underground pipe network of the power plant based on the Bluetooth beacon and the APP realizes the one-to-one correspondence between the three-dimensional model of the underground pipe network and the Bluetooth beacon information source number;

the function logic of reading and displaying the corresponding underground pipe network three-dimensional model according to the Bluetooth beacon information source number is realized;

the operation of a user on the three-dimensional model of the underground pipe network is realized, the operation comprises rotation, scaling, translation, clicking and double clicking, the pipeline is clicked or double clicked, and the functional logic of reading the pipeline state information from the server-side program is realized;

the functional logic for inputting the pipeline number and returning the pipeline state information is realized.

According to the above technical solution, as a further preferable technical solution of the above technical solution, the three-dimensional model of the underground pipe network is a three-dimensional model including accurate pipeline number, geometric size, geometric distribution relationship, pipe diameter, length, material, elevation, construction date, pipeline usage, pipeline start end, maintenance information, and geographical location, which is established by using a three-dimensional modeling technique.

According to the above technical solution, as a further preferable technical solution of the above technical solution, the APP is an intelligent mobile device APP with a built-in three-dimensional model of an underground pipe network.

According to the above technical solution, as a further preferable technical solution of the above technical solution, the APP is a mobile phone APP.

According to the technical scheme, as a further preferable technical scheme of the technical scheme, a user can operate the underground pipe network three-dimensional model through APP.

According to the above technical solution, as a further preferable technical solution of the above technical solution, the operation includes rotation, zooming, translation, clicking, and double clicking.

The invention discloses a method for checking an underground pipe network of a power plant by using a Bluetooth beacon and an intelligent mobile device APP, which is used for accurately positioning and checking the information of the underground pipe network of the power plant under the condition of not excavating ground soil, and can check key information such as industrial water, fire water, circulating water, compressed air, auxiliary steam, ammonia gas, hydrogen gas, chemical desalted water, domestic water, various waste water, geometrical distribution of power supply cables and communication cable pipelines, pipeline parameters, media and the like in the underground of a power plant area, and relates to the technical field of information. The invention relates to a Bluetooth beacon, an underground pipe network three-dimensional model with a plurality of key points, an intelligent mobile device APP with an underground three-dimensional model built in, and a server-side program for recording real-time state information of a pipeline. The Bluetooth beacons are deployed at a plurality of key points of a power plant, and simultaneously, the underground pipe network three-dimensional model of the key points is accurately drawn according to a plant actual construction drawing, an intelligent mobile device APP is developed later, the underground pipe network three-dimensional model is arranged in the APP, when a user uses the intelligent mobile device APP to approach the plant key points, APP automatic detection Bluetooth beacon information source numbers and signal intensity are used for calling the corresponding underground pipe network three-dimensional model, and through a mobile internet synchronous request server terminal program, the state information of various underground pipelines is displayed in a real-time refreshing mode.

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

according to the power plant underground pipe network viewing method based on the Bluetooth beacon and the APP, the Bluetooth beacon and the APP are utilized, manual positioning of a user is not needed, the key point can be automatically positioned according to the Bluetooth beacon information, corresponding underground pipe network information is displayed, the geometric position information and the state information of the pipe network can be rapidly, conveniently and timely viewed, and assistance and reference are provided for field investigation, maintenance, construction and design.

By adopting the power plant underground pipe network checking method based on the Bluetooth beacon and the APP, the intelligent mobile device APP of the user can receive GNSS signals and quickly locate the current position, and calls the underground pipe network three-dimensional model built in the APP, and obtains the state information of each pipeline from the server through the mobile internet, thereby providing assistance and reference for on-site investigation, maintenance, construction and design.

The method for checking the underground pipe network of the power plant based on the Bluetooth beacon and the APP realizes the one-to-one correspondence between the three-dimensional model of the underground pipe network and the Bluetooth beacon information source number;

the function logic of reading and displaying the corresponding underground pipe network three-dimensional model according to the Bluetooth beacon information source number is realized;

the operation of a user on the three-dimensional model of the underground pipe network is realized, the operation comprises rotation, scaling, translation, clicking and double clicking, the pipeline is clicked or double clicked, and the functional logic of reading the pipeline state information from the server-side program is realized;

the functional logic for inputting the pipeline number and returning the pipeline state information is realized.

Drawings

FIG. 1 is a schematic diagram of the present invention.

1. A truly distributed underground pipe network; 2. a bluetooth beacon deployed at a particular location; 3. the intelligent mobile device APP is internally provided with an underground three-dimensional model; 4. and recording the real-time state information of the pipeline.

Detailed Description

In order that those skilled in the art will better understand the technical solutions of the present invention, the following description of the preferred embodiments of the present invention is provided in conjunction with specific examples, but it should be understood that the drawings are for illustrative purposes only and should not be construed as limiting the patent; for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationships depicted in the drawings are for illustrative purposes only and are not to be construed as limiting the present patent.

Example 1:

a power plant underground pipe network viewing method based on Bluetooth beacons and APP comprises the following steps:

step S1: firstly, collecting construction drawings of various underground pipe networks of a power plant, then establishing a unified coordinate reference, drawing a (whole) three-dimensional model of the underground pipe network faithfully at a computer end by using three-dimensional drawing software according to the construction drawings, uniquely coding all pipelines, and recording pipeline numbers, geometric dimensions, geometric distribution relations, pipe diameters, lengths, materials, elevations, construction dates, pipeline purposes, pipeline starting ends, maintenance information and geographic positions;

step S2: then selecting a plurality of key places, cutting the three-dimensional models of the key places to form numbers, then distributing a Bluetooth beacon for each place, corresponding the information source number to the number one by one, and deploying the Bluetooth beacon to the corresponding place;

step S3: according to the pipe network information, a server program is set up, and the state information of each underground pipeline, including the pipeline number, the geometric size, the geometric distribution relation, the pipe diameter, the length, the material, the elevation, the construction date, the pipeline use, the pipeline starting end, the maintenance information and the geographic position, is recorded in real time or read from other systems;

step S4: writing the underground pipe network three-dimensional models of all key places and the corresponding conditions of the Bluetooth beacons into the APP, and popping up the corresponding underground pipe network three-dimensional models according to the received Bluetooth beacon numbers in the APP;

step S5: when clicking interaction is carried out on the APP and the underground pipe network three-dimensional model, real-time state information of the pipeline is read from the server in real time.

Further, the three-dimensional model of the underground pipe network is a three-dimensional model which is established by utilizing a three-dimensional modeling technology and contains accurate pipeline numbers, geometric dimensions, geometric distribution relations, pipe diameters, lengths, materials, elevations, construction dates, pipeline purposes, pipeline starting ends, maintenance information and geographic positions.

Further, the APP is an intelligent mobile device APP with a built-in underground pipe network three-dimensional model.

Further, the APP is a mobile phone APP.

Further, the user can operate the underground pipe network three-dimensional model through the APP.

Further, the operations include rotating, zooming, translating, clicking, double clicking.

The user (user) holds the mobile intelligent equipment and opens the APP to the site, the APP opens the Bluetooth module of the mobile intelligent equipment, and a Bluetooth information source number with a specific identifier nearby is searched, when a Bluetooth information source with a specific identifier nearby exists and the strength meets a certain requirement, the corresponding underground pipe network three-dimensional model is called and displayed inside the APP according to the corresponding relation between the built-in Bluetooth information source signal of the APP and the underground pipe network three-dimensional model, the user can interact with the underground pipe network three-dimensional model inside the APP, the interaction comprises translation, rotation, scaling, clicking and double clicking, when the user clicks and double clicking the APP, the user can access the server according to the unique number of the pipeline, and the state information of the pipeline is obtained in real time, so that the geometric distribution and the state information of the underground pipe network can be rapidly and conveniently checked in real time under the condition of not excavating the ground, and the method is used, And the maintenance, construction and design provide assistance and reference.

Example 2:

a method for checking an underground pipe network by utilizing GNSS positioning and intelligent mobile equipment APP mainly comprises the following steps: the system comprises a Bluetooth beacon, an underground pipe network three-dimensional model with a plurality of key points, an intelligent mobile device APP with an underground three-dimensional model built in, and a server-side program for recording pipeline real-time state information. The Bluetooth beacons are deployed at a plurality of key points of a power plant, and simultaneously, the underground pipe network three-dimensional model of the key points is accurately drawn according to a plant actual construction drawing, an intelligent mobile device APP is developed later, the underground pipe network three-dimensional model is arranged in the APP, when a user uses the intelligent mobile device APP to approach the plant key points, APP automatic detection Bluetooth beacon information source numbers and signal intensity are used for calling the corresponding underground pipe network three-dimensional model, and through a mobile internet synchronous request server terminal program, the state information of various underground pipelines is displayed in a real-time refreshing mode. According to the actual requirements of the power plant, the low-power-consumption Bluetooth beacon device is used for positioning, the intelligent mobile device is used for bearing APP, and the geometric position information and the pipeline state information of industrial water, fire water, circulating water, compressed air, auxiliary steam, ammonia gas, hydrogen gas, chemical demineralized water, living water, waste sewage, a power supply cable and a communication cable pipeline in the power plant are positioned and displayed in real time and comprise a pipeline number, a geometric size, a geometric distribution relation, a pipe diameter, a length, a material, an elevation, a construction date, a pipeline application, a pipeline starting end, maintenance information and a geographic position.

The above is only a preferred embodiment of the present invention, and it should be noted that the above preferred embodiment should not be considered as limiting the present invention, and the protection scope of the present invention should be subject to the scope defined by the claims. It will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the spirit and scope of the invention, and these modifications and adaptations should be considered within the scope of the invention.

Claims (6)

1. A power plant underground pipe network viewing method based on Bluetooth beacons and APP is characterized by comprising the following steps:

step S1: firstly, collecting construction drawings of various underground pipe networks of a power plant, then establishing a unified coordinate reference, drawing a three-dimensional model of the underground pipe network faithfully by using three-dimensional drawing software at a computer end according to the construction drawings, uniquely coding all pipelines, and recording pipeline numbers, geometric dimensions, geometric distribution relations, pipe diameters, lengths, materials, elevations, construction dates, pipeline purposes, pipeline starting ends, maintenance information and geographic positions;

step S2: then selecting a plurality of key places, cutting the three-dimensional models of the key places to form numbers, then distributing a Bluetooth beacon for each place, corresponding the information source number to the number one by one, and deploying the Bluetooth beacon to the corresponding place;

step S3: according to the pipe network information, a server program is set up, and the state information of each underground pipeline, including the pipeline number, the geometric size, the geometric distribution relation, the pipe diameter, the length, the material, the elevation, the construction date, the pipeline use, the pipeline starting end, the maintenance information and the geographic position, is recorded in real time or read from other systems;

step S4: writing the underground pipe network three-dimensional models of all key places and the corresponding conditions of the Bluetooth beacons into the APP, and popping up the corresponding underground pipe network three-dimensional models according to the received Bluetooth beacon numbers in the APP;

step S5: when clicking interaction is carried out on the APP and the underground pipe network three-dimensional model, real-time state information of the pipeline is read from the server in real time.

2. The method for viewing the underground pipe network of the power plant based on the Bluetooth beacon and the APP, according to claim 1, wherein: the underground pipe network three-dimensional model is a three-dimensional model which is established by utilizing a three-dimensional modeling technology and contains accurate pipeline serial numbers, geometric dimensions, geometric distribution relations, pipe diameters, lengths, materials, elevations, construction dates, pipeline purposes, pipeline starting ends, maintenance information and geographic positions.

3. The method for viewing the underground pipe network of the power plant based on the Bluetooth beacon and the APP, according to claim 1, wherein: the APP is an intelligent mobile device APP with a built-in underground pipe network three-dimensional model.

4. The method for viewing the underground pipe network of the power plant based on the Bluetooth beacon and the APP, according to claim 1, wherein: the APP is a mobile phone APP.

5. The method for viewing the underground pipe network of the power plant based on the Bluetooth beacon and the APP, according to claim 1, wherein: and the user can operate the three-dimensional model of the underground pipe network through the APP.

6. The method for viewing the underground pipe network of the power plant based on the Bluetooth beacon and the APP, according to claim 5, wherein: the operations include rotation, zoom, pan, click, double click.

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