CN205507482U - Water consumption monitored control system of transformer substation - Google Patents

Abstract

The utility model discloses a water consumption monitored control system of transformer substation, including water gauge, wireless communication teletransmission module and collector, wherein, place in the collector in the water gauge, be used for gathering and pass through the water yield information of water gauge, and will water yield message routing arrives wireless communication teletransmission module, wireless communication teletransmission module will water yield message routing is to the GPRS network. Pass through GPRS network transmission through the water yield information with the water gauge, can obtain water yield information in real time, need not the staff scene and check meter, convenient management to the water, the cost is reduced. Because the GPRS network transmission data are passed through to water yield information, it is wide to cover the face, need not lay special circuit, also need not to maintain the circuit, has reduced the cost simultaneously.

Description

A substation water consumption monitoring system

technical field

The utility model relates to the technical field of monitoring water supply, and mainly relates to a water monitoring system for substations.

Background technique

In the existing substation, there will be many places that need water, and the water consumption information needs to be obtained through the meter reader. However, the water consumption information obtained from multiple meter readers needs to be aggregated and analyzed, which takes a certain amount of time, and the obtained water consumption information has a certain lag. If it is necessary to obtain the current water consumption data at 9 am, the result may be in the afternoon or evening. In order to obtain accurate data, the substation water management cannot respond accurately and timely, and it is difficult to manage accurately. At the same time, due to the need for meter reading personnel to read the meter, the manpower is increased and the water cost is increased.

Utility model content

The purpose of the utility model is to provide a substation water consumption monitoring system, which can monitor the water usage information in real time, take countermeasures in time, and reduce the water consumption cost.

In order to solve the above technical problems, the embodiment of the utility model provides a substation water consumption monitoring system, including a water meter, a wireless communication remote transmission module and a collector, wherein the collector is built into the water meter for collecting The water volume information of the water meter, and send the water volume information to the wireless communication remote transmission module, and the wireless communication remote transmission module sends the water volume information to the GPRS network.

Wherein, it also includes a water quantity monitoring module, the water quantity monitoring module is connected with the collector, receives the water quantity information collected by the collector, processes the water quantity information, and sends the processed water quantity information to the A wireless communication remote transmission module connected to the water volume monitoring module, the water volume monitoring module stores the water volume information or/and the processed water volume information, and the wireless communication remote transmission module sends the processed water volume information to GPRS network.

Wherein, the water meter is a photoelectric direct-reading flow meter.

Wherein, it also includes a wireless receiving module, the wireless receiving module is connected with the water quantity monitoring module, and is used to receive information from the GPRS network, and store the water quantity information or the processed water quantity information in the water quantity monitoring module. The water quantity information is sent to the GPRS network, or the water pipe connected with the wireless receiving module is opened or closed.

Wherein, a power supply module is also included, and the power supply module is a portable power adapter for providing electric energy for the collector, the wireless communication remote transmission module, the water quantity monitoring module and the wireless receiving module.

Among them, the output voltage of the portable power adapter is 12V±10%.

Wherein, an alarm device is also included, and when the amount of water passing through the water meter exceeds a predetermined value within a predetermined period of time, the alarm device sends alarm information through the wireless communication remote transmission module.

Compared with the prior art, the substation water consumption monitoring system provided by the embodiment of the utility model has the following advantages:

The substation water consumption monitoring system provided by the embodiment of the utility model includes a water meter, a wireless communication remote transmission module and a collector, wherein the collector is built in the water meter for collecting the water quantity information passing through the water meter, And send the water quantity information to the wireless communication remote transmission module, and the wireless communication remote transmission module sends the water quantity information to the GPRS network.

By transmitting the water volume information of the water meter through the GPRS network, the water volume information can be obtained in real time, without the need for staff to read the meter on site, which facilitates water management and reduces costs. At the same time, because the water quantity information is transmitted through the GPRS network, the coverage is wide, and there is no need to lay special lines or maintain lines, which reduces costs.

To sum up, the substation water consumption monitoring system provided by the embodiment of the utility model reduces the cost by transmitting the water quantity information of the water meter through GPRS.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the accompanying drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description These are some embodiments of the present utility model. Those skilled in the art can also obtain other drawings based on these drawings without any creative work.

Fig. 1 is a schematic diagram of the connection structure of an embodiment of the substation water consumption monitoring system in the utility model;

Fig. 2 is another embodiment connection structure schematic diagram of substation water consumption monitoring system in the utility model;

Fig. 3 is a schematic diagram of the connection structure of another embodiment of the substation water consumption monitoring system in the utility model.

detailed description

As mentioned in the background technology section, in existing substations, meter readers need to obtain water consumption information, and the obtained water consumption information is lagging, which cannot be dealt with scientifically, and also increases labor costs.

Based on this, the embodiment of the utility model provides a substation water consumption monitoring system, including a water meter, a wireless communication remote transmission module and a collector, wherein the collector is built into the water meter for collecting and send the water quantity information to the wireless communication remote transmission module, and the wireless communication remote transmission module sends the water quantity information to the GPRS network.

To sum up, the substation water consumption monitoring system provided by the embodiment of the utility model can obtain the water quantity information in real time by transmitting the water quantity information of the water meter through the GPRS network, without the need for staff to read the meter on site, which facilitates the management of water consumption and reduces the cost. At the same time, because the water quantity information is transmitted through the GPRS network, the coverage is wide, and there is no need to lay special lines or maintain lines, which reduces costs.

In order to make the above purpose, features and advantages of the utility model more obvious and easy to understand, the specific implementation of the utility model will be described in detail below in conjunction with the accompanying drawings.

In the following description, specific details are set forth in order to provide a full understanding of the present invention. However, the utility model can be implemented in many other ways different from those described here, and those skilled in the art can make similar extensions without violating the connotation of the utility model. Therefore the utility model is not limited by the specific implementation disclosed below.

Please refer to Figures 1-3, Figure 1 is a schematic diagram of the connection structure of an embodiment of the substation water consumption monitoring system in the utility model; Figure 2 is another embodiment of the connection structure of the substation water consumption monitoring system in the utility model Schematic diagram; FIG. 3 is a schematic diagram of the connection structure of another embodiment of the substation water consumption monitoring system in the utility model.

In a specific embodiment, the substation water consumption monitoring system includes a water meter 10, a wireless communication remote transmission module 30 and a collector 20, wherein the collector 20 is built in the water meter 10 for collecting The water volume information of the water meter 10, and send the water volume information to the wireless communication remote transmission module 30, and the wireless communication remote transmission module 30 sends the water volume information to the GPRS network.

By transmitting the water volume information of the water meter 10 through the GPRS network, the water volume information can be obtained in real time, without the need for staff to read the meter on site, which facilitates water management and reduces costs. At the same time, because the water quantity information is transmitted through the GPRS network, the coverage is wide, and there is no need to lay special lines or maintain lines, which reduces costs.

Since the collector 20 can only collect current water use data information, it cannot collect water use information or water supply information within a certain period of time, let alone store current or historical water use information. It is very inconvenient to accumulate water consumption or cumulative water supply. Therefore, in order to solve this problem, the wireless remote water meter 10 system of the present utility model also includes a water volume monitoring module 40, and the water volume monitoring module 40 is connected with the collector 20, receives the water volume information collected by the collector 20, and Process the water volume information, and send the processed water volume information to the wireless communication remote transmission module 30 connected to the water volume monitoring module 40, and the water volume monitoring module 40 stores the water volume information or/and the processed water volume information The water quantity information, the water quantity information after the processing is sent to the GPRS network by the wireless communication remote transmission module 30.

The water consumption monitoring module 40 can provide water consumption data conforming to international standards, record and display monthly water consumption data, store water consumption data within one year or more years, and provide various reports, including water consumption comparison and historical data The substation can make corresponding payment according to the water consumption, and reduce the cost through scientific water use. The water quantity monitoring module 40 that is arranged on the substation can feed back the water quantity data of a plurality of places simultaneously, facilitates management.

General substation staff detect and manage the water consumption of each monitoring point in the substation through the background software in the corresponding network platform. Of course, the staff of the substation can also use the mobile APP software to monitor the water consumption information of each monitoring point in the substation in real time or within a certain period of time, saving management costs, obtaining accurate water consumption information, scientific response, and improving management efficiency.

Generally, the water meter 10 is a photoelectric direct-reading flowmeter, and the photoelectric direct-reading flowmeter will have different code tracks due to the different positions of the character wheels. When the light shines on the end face of the character wheel, a set of bright and dark signals will be generated, and the position of the character wheel can be determined. Low price, high precision, suitable for small flow water measurement. It should be noted that the water meter 10 in the present invention can also be a water meter 10 of other structures, which is not specifically limited in the present invention.

If the wireless remote water meter is not controlled to a certain extent, when the remote wireless remote water meter system has been sending water information to the outside, continuous monitoring of water consumption is required, which will consume energy, and the substation does not require users or water supply units to continuously receive water information. Unnecessary, under normal circumstances, there will be selective inspection of water volume information, such as once every minute, or once every five minutes, or once every ten minutes, etc., and the substation does not necessarily require the collector to collect every A data is sent to the management platform of the substation. Therefore described wireless remote water meter system generally also comprises wireless receiving module 50, and described wireless receiving module 50 is connected with described water quantity monitoring module 40, is used for receiving the information from GPRS network, and stores in described water quantity monitoring module 40 The water volume information or the processed water volume information is sent to the GPRS network, and the water pipe connected to the wireless receiving module 50 is turned on or off. For example, when there is water leakage at a certain monitoring point, the water consumption is continuous, and the monitoring platform can issue corresponding instructions to close the water pipe in time, and notify the maintenance personnel to come to the scene for repair quickly, improve water efficiency, improve maintenance efficiency, and reduce the waste of water resources. Reduce water costs.

Generally, the wireless remote water meter system also includes a power supply module, and the power supply module is a portable power adapter for providing the collector 20, the wireless communication remote transmission module 30, the water volume monitoring module 40 and the wireless receiver Module 50 provides electrical power. The power supply module can also be other accumulators, or generate electricity through a micro-generator when the water flows in and out of the pipeline, and the utility model does not specifically limit the power supply module.

The output voltage of a general portable power adapter is 12V±10%. Voltage fluctuation ≤ 10%, improve the service life of other components.

It is impossible for the substation to detect the water consumption information or water supply information at all times, which will waste a lot of human resources and cause an increase in cost. Generally, the wireless remote water meter system also includes an alarm device, and the alarm device is activated within a predetermined period of time. When the amount of water passing through the water meter 10 exceeds a predetermined value, an alarm message is sent out through the wireless communication remote transmission module 30 . It should be noted that the present invention does not limit the alarm device.

The wireless communication remote transmission module 30, the wireless receiving module 50 and the power supply module in the utility model are generally integrated together, which can not only reduce the volume of the wireless remote water meter 10 system through integration, but also reduce procurement costs. Generally, a DTU module is used to integrate the wireless communication remote transmission module 30, the wireless receiving module 50 and the power supply module into one.

It should be noted that the collector 20 in the utility model can be used in water supply units to measure water output, and can also be used in users' water inlet pipes to measure users' water consumption.

The wireless remote water meter system can realize remote meter reading without the need for personnel to be present, which improves management efficiency, and updates the water consumption regularly or irregularly through the water quantity monitoring module, which is convenient for substation managers to manage water in the station and improves management efficiency. Reduce administrative costs.

The substation water consumption monitoring system in the utility model is also suitable for household water use of ordinary residents and water supply management of water supply units. Residents can use the mobile APP or log in to the Internet to obtain water information in a timely manner and pay in time. If the faucet in the home is not closed or other water leakage occurs, the water will be cut off in time; the water supply unit can obtain the user's water consumption information to formulate a scientific water supply plan. plan to reduce water supply costs.

To sum up, the substation water consumption monitoring system provided by the embodiment of the utility model can obtain the water quantity information in real time by transmitting the water quantity information of the water meter through the GPRS network, without the need for staff to read the meter on site, which facilitates the management of water consumption and reduces the cost. At the same time, because the water quantity information is transmitted through the GPRS network, the coverage is wide, and there is no need to lay special lines or maintain lines, which reduces costs.

The substation water consumption monitoring system provided by the utility model has been introduced in detail above. In this paper, specific examples are used to illustrate the principle and implementation of the present utility model, and the descriptions of the above embodiments are only used to help understand the method and core idea of the present utility model. It should be pointed out that for those of ordinary skill in the art, without departing from the principle of the utility model, some improvements and modifications can also be made to the utility model, and these improvements and modifications also fall into the protection of the claims of the utility model. within range.

Claims (7)

1. A substation water consumption monitoring system, characterized in that it comprises a water meter, a wireless communication remote transmission module and a collector, wherein the collector is built in the water meter for collecting the water quantity information passing through the water meter, And send the water quantity information to the wireless communication remote transmission module, and the wireless communication remote transmission module sends the water quantity information to the GPRS network. 2. substation water consumption monitoring system as claimed in claim 1, is characterized in that, also comprises water quantity monitoring module, and described water quantity monitoring module is connected with described collector, receives the water quantity information that described collector gathers, and to all The water quantity information is processed, and the processed water quantity information is sent to the wireless communication remote transmission module connected with the water quantity monitoring module, and the water quantity monitoring module stores the water quantity information or/and the processed water quantity information, and is determined by The wireless communication remote transmission module sends the processed water volume information to the GPRS network. 3. The substation water consumption monitoring system according to claim 2, wherein the water meter is a photoelectric direct-reading flow meter. 4. substation water consumption monitoring system as claimed in claim 3, is characterized in that, also comprises wireless receiving module, and described wireless receiving module is connected with described water quantity monitoring module, is used for receiving the information from GPRS network, and the The water volume information stored in the water volume monitoring module or the processed water volume information is sent to the GPRS network, or the water pipe connected to the wireless receiving module is turned on or off. 5. The substation water consumption monitoring system as claimed in claim 4, further comprising a power supply module, the power supply module is a portable power adapter, which is used for the collector, the wireless communication remote transmission module, the The water quantity monitoring module and the wireless receiving module provide electric energy. 6. The substation water consumption monitoring system according to claim 5, wherein the output voltage of the portable power adapter is 12V±10%. 7. The substation water consumption monitoring system as claimed in claim 6, further comprising an alarm device, and when the water quantity passing through the water meter exceeds a predetermined value within a predetermined period of time, the alarm device sends a remote transmission through the wireless communication The module sends out alarm information.