CN216791290U - Water-saving detection system based on partition and subentry metering system - Google Patents

Abstract

The utility model relates to a water-saving detection system based on a partition and subentry metering system, which comprises: the equipment layer comprises an ultrasonic intelligent remote water meter and front-end equipment; the data acquisition layer comprises data acquisition equipment, and the data acquisition equipment is used for collecting the ultrasonic intelligent remote water meter of each monitoring point and data detected by front-end equipment; the network transmission layer is used for transmitting the data collected by the data collection layer to a monitoring center; a monitoring center comprising: a first memory for storing data transmitted by the network transport layer; a second memory for storing a big data analysis model; and the processor is used for calling the big data analysis model in the second memory to perform partition and item management, metering monitoring and water-saving analysis on the data in the first memory. The utility model can accurately measure the water consumption of cities or units in detail, and monitor and sense each link of the whole water supply process.

Description

Water-saving detection system based on partition and subentry metering system

Technical Field

The utility model relates to the technical field of tap water metering, in particular to a water-saving detection system based on a partition and subentry metering system.

Background

At present, in the aspects of industrial, agricultural and urban domestic water metering management, partial units gradually perfect water metering facilities through the implementation of water-saving reconstruction projects, but the situations that a water metering system is not established and water metering facilities at all levels are seriously lacked exist in many units, so that how to effectively solve the problem of metering and monitoring the industrial, agricultural and urban domestic water is one of the current important research and development subjects.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a water-saving detection system based on a partition and subentry metering system, which can accurately measure the water consumption of a city or a unit in detail and monitor and sense each link of the whole water supply process.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the water-saving detection system based on the partition and subentry metering system comprises: the equipment layer comprises an ultrasonic intelligent remote water meter and front-end equipment, wherein the ultrasonic intelligent remote water meter is used for detecting water consumption information of each monitoring point, and the front-end equipment is used for detecting geographic information, pressure information, flow information and equipment operation information of each monitoring point; the data acquisition layer comprises data acquisition equipment, and the data acquisition equipment is used for collecting the ultrasonic intelligent remote water meter of each monitoring point and data detected by front-end equipment; the network transmission layer is used for transmitting the data collected by the data collection layer to a monitoring center; a monitoring center comprising: a first memory for storing data transmitted by the network transport layer; a second memory for storing a big data analysis model; and the processor is used for calling the big data analysis model in the second memory to perform partition and item management, metering monitoring and water-saving analysis on the data in the first memory.

The front-end equipment comprises a positioning device, a pressure sensor, a flow sensor and an intelligent control valve.

The data acquisition equipment is a data concentrator or a data acquisition unit.

And the network transmission layer transmits the data collected by the data acquisition layer to a monitoring center through a wired network or a wireless network.

The water-saving detection system based on the partition and subentry metering system further comprises a terminal display layer, and the terminal display layer is used for displaying the processing result of the processor.

Advantageous effects

Due to the adoption of the technical scheme, compared with the prior art, the utility model has the following advantages and positive effects: the utility model realizes the detection of the water consumption of each monitoring point by arranging the ultrasonic intelligent remote water meter at each monitoring point without modifying a pipeline, acquires the data of geographic information, pressure information, flow information, water consumption information, equipment operation information and the like of each monitoring point based on different front-end equipment, transmits the data to the monitoring center through the network transmission layer, stores the data by the monitoring center, and analyzes the data through the existing big data analysis model to realize the subarea and item management, metering monitoring and water-saving analysis of the water consumption information.

Drawings

Fig. 1 is a block diagram of the present invention.

Detailed Description

The utility model will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

The embodiment of the utility model relates to a water-saving detection system based on a partition and subentry metering system, as shown in figure 1, comprising:

the equipment layer comprises an ultrasonic intelligent remote water meter and front-end equipment, wherein the ultrasonic intelligent remote water meter is used for detecting the water consumption information of each monitoring point, and the front-end equipment is used for detecting the geographic information, the pressure information, the flow information and the equipment operation information of each monitoring point. The monitoring points of the ultrasonic intelligent remote water meter are reasonably deployed by combining with the overall planning of a metering system, the ultrasonic intelligent remote water meter is installed at the planned monitoring points, the overall metering system is completely built, the comprehensive monitoring of flow and pressure is realized, high-precision acquisition and high-frequency uploading are realized, and a data basis is provided for water-saving monitoring and analysis. According to the utility model, the ultrasonic intelligent remote water meter is arranged at each monitoring point, so that the water consumption at each monitoring point is detected without modifying a pipeline.

And the data acquisition layer comprises data acquisition equipment, and the data acquisition equipment is used for collecting the ultrasonic intelligent remote water meter of each monitoring point and the data detected by the front-end equipment. The data acquisition equipment adopted in the data acquisition layer can be a data concentrator or a data acquisition unit. Data acquisition equipment will carry out unified access to the front end equipment of each producer through thing networking platform, and the front end in this embodiment includes: the positioning device is used for acquiring the position information of each monitoring point; the pressure sensor is used for acquiring the water flow pressure of each monitoring point; the flow sensor is used for acquiring the water flow of each monitoring point; the intelligent control valve is used for acquiring the equipment running state of each monitoring point, so that the acquisition of data such as geographic information, pressure information, flow information, water use information, equipment running information and the like can be realized.

And the network transmission layer is used for transmitting the data collected by the data collection layer to the monitoring center. In this embodiment, the network transmission layer transmits the data collected by the data collection layer to the monitoring center through a wired network or a wireless network.

A monitoring center comprising: the first memory is used for storing the data transmitted by the network transmission layer, namely storing the data detected by the front-end equipment and the ultrasonic intelligent remote water meter; a second memory for storing big data analysis models, wherein the big data analysis models may include a flow analysis model (such as the flow analysis model in CN 111271605A), a water consumption monitoring model (such as the water consumption prediction model in CN 110939078A), a water saving model (such as the water saving assessment model in CN 112594555A), and the like; and the processor is used for calling the big data analysis model in the second memory to perform partition and item management, metering monitoring and water-saving analysis on the data in the first memory.

The method comprises the steps of setting a reasonable partition scheme according to the actual leakage condition of a unit by taking a pipe network GIS as a core, combining technologies such as partition of a metering area, project metering and the Internet of things, monitoring data of each area in real time, and rapidly finding out the metering area with serious leakage through means such as water supply analysis and leakage rate ranking analysis. Namely, according to the position information and the analysis result of the flow analysis model, determining the leakage condition of each subarea, sequencing the leakage conditions, and finding the area with the most serious leakage.

The intelligent water meter and the intelligent water-saving control instrument of measurement monitoring integrated management ultrasonic wave realize asset management of instrument equipment and measurement monitoring of the water overall process, ensure instrument operation, snatch instrument monitoring data, supporting intelligent pressure regulating control strategy, adaptation water demand realizes long-range meticulous measurement monitoring and management of the water overall process. The water consumption condition of each area is determined according to the position information and the water consumption monitoring model, and the water consumption condition is counted into a report form.

The water saving analysis is to obtain a whole-process metering relation graph, a subarea water use analysis, a subentry water use analysis, a night minimum flow analysis, a water saving potential analysis and other functional modules according to a water saving model, effectively analyze the abnormal condition of the water use of a user based on a metering monitoring technology of a subarea subentry system, analyze and judge the leakage of a user water pipe and the leakage of a tail end water use appliance, evaluate the water saving potential, help the user to quickly find a water use abnormal area, and accordingly pertinently develop water saving work.

The water-saving detection system based on the partition and subentry metering system further comprises a terminal display layer, and the terminal display layer is used for displaying the processing result of the processor. The terminal display layer can provide display windows such as a command center large screen, a desktop terminal, a notebook terminal, a tablet terminal and a mobile phone terminal, and a user can conveniently check the water-saving operation condition of a unit in various modes at any time and any place.

The utility model can realize the detection of the water consumption of each monitoring point position without modifying a pipeline by arranging the ultrasonic intelligent remote water meter at each monitoring point position, obtains the data of geographic information, pressure information, flow information, water consumption information, equipment operation information and the like of each monitoring point based on different front-end equipment, transmits the data to a monitoring center through a network transmission layer, stores the data, and analyzes the data through the existing big data analysis model to realize the partition and item management, metering monitoring and water-saving analysis of the water consumption information.

Claims (5)

1. A water-saving detection system based on a partition and subentry metering system is characterized by comprising:

the equipment layer comprises an ultrasonic intelligent remote water meter and front-end equipment, wherein the ultrasonic intelligent remote water meter is used for detecting water consumption information of each monitoring point, and the front-end equipment is used for detecting geographic information, pressure information, flow information and equipment operation information of each monitoring point;

the data acquisition layer comprises data acquisition equipment, and the data acquisition equipment is used for collecting the ultrasonic intelligent remote water meter of each monitoring point and data detected by front-end equipment;

the network transmission layer is used for transmitting the data collected by the data collection layer to a monitoring center;

a monitoring center comprising: a first memory for storing data transmitted by the network transport layer; a second memory for storing a big data analysis model; and the processor is used for calling the big data analysis model in the second memory to perform partition and item management, metering monitoring and water-saving analysis on the data in the first memory.

2. The system according to claim 1, wherein the front-end equipment comprises a positioning device, a pressure sensor, a flow sensor and a smart control valve.

3. The system according to claim 1, wherein the data collection device is a data concentrator or a data collector.

4. The water conservation detection system based on a partition and subentry metering system according to claim 1, wherein the network transmission layer transmits the data collected by the data collection layer to a monitoring center through a wired network or a wireless network.

5. The system according to claim 1, further comprising a terminal display layer for displaying the processing result of the processor.

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