CN110795583A - Intelligent management method for pump station trash remover - Google Patents

Abstract

The invention provides an intelligent management method of a pump station trash remover, which comprises the steps of establishing a three-dimensional model of the trash remover; collecting operation data and working video pictures of the trash remover, and uploading the operation data and the working video pictures to a database; fusing the operation data, the video picture and the three-dimensional model on a webpage to form a three-dimensional scene and displaying the three-dimensional scene; and acquiring abnormal information and displaying the abnormal information in the three-dimensional scene. The invention combines three-dimensional visualization, remote control and video monitoring, and displays the real-time running state of the trash remover by combining the three-dimensional model and the video monitoring, so that an operator can achieve the purposes of operating and checking equipment and realizing vividness, intuition and visualization without going to the field.

Description

Intelligent management method for pump station trash remover

Technical Field

The invention relates to the technical field of pump stations, in particular to an intelligent management method for a pump station trash remover.

Background

The pump station engineering in the water conservancy system is an engineering with functions of water transfer, water supply, irrigation, waterlogging drainage and the like, influences management and scheduling of water resources, water conservancy pump stations are usually remote and far away from a monitoring center, the management of pump station monitoring is inconvenient, along with continuous development and improvement of the computer communication technology level, the management requirements of a management department of the water conservancy system on pump station equipment and pump station workers are continuously improved, the remote monitoring, monitoring and supervision of the water conservancy pump station equipment and a pump station decontamination device are realized by means of advanced information technology, electronic equipment and an information automatic system, the operation management level of a decontamination machine is enhanced, and the decontamination efficiency is inevitably improved.

The operation monitoring work of the current pump station trash remover depends on manual supervision operation to a great extent, along with the development of computer technology, the operation monitoring information of the pump station trash remover is gradually stored in a centralized manner, but some problems still exist, along with the rapid increase of the complex actual requirements of the pump station trash remover and the environment, operators are increasingly unfamiliar with the field scenes and equipment conditions of the trash remover, especially under the conditions that the trash remover equipment is abnormal and has faults, the operators are limited by the current video monitoring system, and the operators lack necessary means for visually checking the conditions of the field trash remover equipment in time.

Disclosure of Invention

The invention provides an intelligent management method for a pump station trash remover, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention adopts the following technical scheme:

a pump station trash remover intelligent management method comprises the following steps:

establishing a three-dimensional model of the trash remover;

collecting operation data and working video pictures of the trash remover, and uploading the operation data and the working video pictures to a database;

fusing the operation data, the video picture and the three-dimensional model on a webpage to form a three-dimensional scene and displaying the three-dimensional scene;

and acquiring abnormal information, displaying in the three-dimensional scene and warning.

Further, the specific method for fusing the operation data, the video picture and the three-dimensional model on the webpage to form a three-dimensional scene and displaying the three-dimensional scene comprises the following steps:

step one, creating a three-dimensional scene through a WebGL technology, and loading a derived three-dimensional model source file into the scene;

step two, obtaining operation data, encoding the operation data, and loading the operation data into a three-dimensional model through JDBC technology for displaying;

and step three, integrating the field monitoring video into the model through an ActiveX playing plug-in, fusing the integrated field monitoring video into the model, and displaying the fused field monitoring video in a webpage.

Further, the specific method for establishing the three-dimensional model of the trash remover comprises the following steps:

step one, collecting a structure diagram of a trash remover;

step two, importing the data into 3D drawing software to establish a trash cleaning machine model;

and step three, baking the trash cleaning machine model to obtain a real trash cleaning machine model.

Further, the specific method for collecting the operation data and the working video pictures of the trash remover comprises the following steps:

step one, collecting operation data of a trash remover in real time;

checking the operation data, and storing the operation data to a database in a classified manner;

and step three, acquiring a real-time video picture in the working process of the trash remover and uploading the real-time video picture to a database.

Further, the operation data specifically includes: voltage, current, running time and on-off state of the trash remover.

Further, the specific method for acquiring and displaying the abnormal information in the three-dimensional scene includes: and loading the collected abnormal information of the trash remover into a three-dimensional scene, and displaying the fault position after matching with the trash remover in the three-dimensional scene.

According to the technical scheme, the invention has the following beneficial effects: the invention combines three-dimensional visualization, remote control and video monitoring, and displays the real-time running state of the trash remover by combining the three-dimensional model and the video monitoring, so that an operator can achieve the purposes of operating and checking equipment and realizing vividness, intuition and visualization without going to the field.

Drawings

FIG. 1 is a schematic diagram of the work flow structure of the present invention.

Detailed Description

The following describes a preferred embodiment of the intelligent management method for the pump station sewage disposal unit in detail with reference to the accompanying drawings.

As shown in fig. 1, an intelligent management method for a pump station trash remover comprises the following steps:

collecting a design drawing, a structural schematic diagram, design parameters and a physical picture of the trash remover, introducing the design drawing, the structural schematic diagram, the design parameters and the physical picture into 3D drawing software to establish a trash remover model, baking the trash remover model to obtain a real trash remover model, and uploading the trash remover model to interaction software;

collecting voltage, current, running time and opening and closing state running data of the trash remover, and auditing the data, wherein the auditing method is to compare the voltage, the current, the running time and the opening and closing state data with a set value, if the voltage, the current, the running time and the opening and closing state data exceed the set value or are lower than the set value, then the data are excluded, otherwise the data are qualified, the qualified data are classified through the voltage, the current, the running time and the opening and closing state data and then are stored in a database, a real-time video picture in the working process of the trash remover is obtained, and the real-time video picture;

creating a three-dimensional scene through a three-dimensional script technology in a WebGL technology, loading a three-dimensional model source file and lamplight to a proper position in the scene, presenting a three-dimensional model in a webpage, marking the position of an operating point in the three-dimensional model, using a code unique identifier, querying a database according to a code through a JDBC technology, monitoring operating data in real time, loading the operating data into the three-dimensional model for display, integrating a field monitoring video picture into the model through an ActiveX video playing plug-in, realizing organic fusion of the monitoring data, the operating data, the video picture and the three-dimensional model, forming a data three-dimensional model, and enabling a user to browse the three-dimensional live-action model through a Web mode in a webpage fusion-based mode, so that the process that the user installs software and consumes a large amount of time to download the complete three-dimensional scene is avoided;

and step four, loading the collected abnormal information of the trash remover into a three-dimensional scene, and displaying the fault position after matching with the trash remover in the three-dimensional scene.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements made to the technical solution of the present invention by those skilled in the art without departing from the spirit of the present invention should fall within the protection scope defined by the claims of the present invention.

Claims (6)

1. The intelligent management method of the pump station trash remover is characterized by comprising the following steps: the method comprises the following steps:

establishing a three-dimensional model of the trash remover;

collecting operation data and working video pictures of the trash remover, and uploading the operation data and the working video pictures to a database;

fusing the operation data, the video picture and the three-dimensional model on a webpage to form a three-dimensional scene and displaying the three-dimensional scene;

and acquiring abnormal information and displaying the abnormal information in the three-dimensional scene.

2. The intelligent management method for the pump station trash remover according to claim 1, wherein the intelligent management method comprises the following steps: the specific method for fusing the operation data, the video picture and the three-dimensional model on the webpage to form the three-dimensional scene and displaying comprises the following steps:

step one, creating a three-dimensional scene through a WebGL technology, and loading a derived three-dimensional model source file into the scene;

step two, obtaining operation data, encoding the operation data, and loading the operation data into a three-dimensional model through JDBC technology for displaying;

and step three, integrating the field monitoring video into the model through an ActiveX playing plug-in, fusing the integrated field monitoring video into the model, and displaying the fused field monitoring video in a webpage.

3. The intelligent management method for the pump station trash remover according to claim 1, wherein the intelligent management method comprises the following steps: the specific method for establishing the three-dimensional model of the trash remover comprises the following steps:

step one, collecting a structure diagram of a trash remover;

step two, importing the data into 3D drawing software to establish a trash cleaning machine model;

and step three, baking the trash cleaning machine model to obtain a real trash cleaning machine model.

4. The intelligent management method for the pump station trash remover according to claim 1, wherein the intelligent management method comprises the following steps: the specific method for collecting the operation data and the working video pictures of the trash remover comprises the following steps:

step one, collecting operation data of a trash remover in real time;

checking the operation data, and storing the operation data to a database in a classified manner;

and step three, acquiring a real-time video picture in the working process of the trash remover and uploading the real-time video picture to a database.

5. The intelligent management method for the pump station trash remover according to claim 1, wherein the intelligent management method comprises the following steps: the operation data specifically includes: voltage, current, running time and on-off state of the trash remover.

6. The intelligent management method for the pump station trash remover according to claim 1, wherein the intelligent management method comprises the following steps: the specific method for acquiring the abnormal information and displaying the abnormal information in the three-dimensional scene comprises the following steps: and loading the collected abnormal information of the trash remover into a three-dimensional scene, and displaying the fault position after matching with the trash remover in the three-dimensional scene.

Images