CN113050488A - Water treatment remote monitoring system based on 5G network - Google Patents

Abstract

The invention provides a water treatment remote monitoring system based on a 5G network, which comprises a server system, a remote monitoring system and a plurality of field control systems, wherein the server system is connected with the remote monitoring system through a network; the field control system consists of a 5G network communication device, an STM32 monitoring circuit board, a measuring device, a touch screen, an electrical control device and a monitoring device; the measuring device, the touch screen, the electric control device and the monitoring device of each field control system are respectively in electric signal connection with the corresponding STM32 monitoring circuit board, and the STM32 monitoring circuit board is in electric signal connection with the 5G network communication device; the server system consists of a network communication device, a background server, an operation computer and a database; the operation computer is in electric signal connection with the database, the background server is in electric signal connection with the operation computer, and the network communication device is in electric signal connection with the background server; the remote monitoring system consists of a mobile phone and/or a computer. The scheme can realize the functions of intelligent monitoring, data storage, pre-judgment of wastewater treatment and pre-alarm of the sewage treatment system.

Description

Water treatment remote monitoring system based on 5G network

Technical Field

The invention relates to the field of water treatment remote monitoring, in particular to a water treatment remote monitoring system based on a 5G network.

Background

The existing water treatment system realizes water treatment control by using a simple electric circuit in an on-site electric cabinet or realizes the water treatment control by using a PLC.

The former control mode can only be applied to simple water treatment control, cannot meet the requirements of energy consumption saving and intelligent control, and is easy to impact a power grid, so that a line is aged more quickly, and dangerous factors such as electric sparks or electric arcs are easy to generate.

The latter control mode has achieved energy saving and intelligent control, but control is only limited to the inside of water treatment equipment, and cannot be monitored and used remotely, and the cost of the PLC is not so high, and the control of water treatment cannot be realized by a single CPU, and corresponding input and output modules, analog quantity modules, communication modules and the like need to be matched, and multiple protections need to be set in the circuit, so that the PLC is prevented from being damaged by overhigh voltage or current due to circuit faults, and high maintenance and replacement cost in the later period is further caused.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: a water treatment remote monitoring system based on a 5G network is provided.

In order to solve the technical problems, the invention adopts the technical scheme that: a water treatment remote monitoring system based on a 5G network comprises a server system, a remote monitoring system and a plurality of field control systems;

the server system, the remote monitoring system and the field control systems are connected through a 5G network;

the field control system consists of a 5G network communication device, an STM32 monitoring circuit board, a measuring device, a touch screen, an electrical control device and a monitoring device; the measuring device, the touch screen, the electric control device and the monitoring device of each field control system are respectively in electric signal connection with the corresponding STM32 monitoring circuit board, and the STM32 monitoring circuit board is in electric signal connection with the 5G network communication device;

the server system consists of a network communication device, a background server, an operation computer and a database; the operation computer is in electric signal connection with the database, the background server is in electric signal connection with the operation computer, and the network communication device is in electric signal connection with the background server;

the remote monitoring system consists of a mobile phone and/or a computer.

Furthermore, the measuring device comprises one or more of a three-phase power instrument, a pool liquid level meter, a water inlet PH instrument, a water inlet conductivity instrument, a water inlet turbidity instrument, a water inlet ammonia nitrogen instrument, a water inlet total phosphorus instrument, a water inlet total copper instrument, a water inlet pipeline flow sensor, a water outlet PH instrument, a water outlet conductivity instrument, a water outlet turbidity instrument, a water outlet ammonia nitrogen instrument, a water outlet total phosphorus instrument, a water outlet total copper instrument and a water outlet pipeline flow sensor.

Furthermore, the electric control device is connected with one or more of a water pump, a stirrer, a blower, a dosing pump, a frequency converter, an electric valve or an electromagnetic valve.

Furthermore, the monitoring device is used for monitoring operation signals, fault signals and temperature signals fed back by the water pump, the stirrer, the blower and the dosing pump; the running signal, the fault signal, the motor running frequency and the torque fed back by the frequency converter; one or more of a valve opening signal, an open-in-place signal and a close-in-place signal of the electric valve and the electromagnetic valve.

Further, the 5G network communication device is a device that transmits data to the background server using a 5G network.

Further, a monitoring APP is installed on a mobile phone in the remote monitoring system, and is used for remotely monitoring the field control system through the monitoring APP.

Furthermore, monitoring software is installed on the computer, and the field control system is remotely monitored through the monitoring software or the webpage.

Furthermore, a mobile phone in the remote monitoring system is connected with a 5G communication device in the field control system through a wireless network.

Furthermore, a touch screen in the field control system is used for setting and controlling parameters of the measuring device, the electrical control device and the monitoring device.

Further, the database in the server system is used for storing the monitoring data.

The invention has the beneficial effects that: the field control system in the water treatment remote monitoring system based on the 5G network is provided with the 5G network communication device and the STM32 monitoring circuit board, so that the water treatment remote monitoring system with low cost, more intelligence, rapidness and economy is constructed; based on the system, the functions of intelligent monitoring, data storage, wastewater treatment prejudgment and prealarming of the sewage treatment system can be realized.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the mechanisms shown in the drawings without creative efforts.

FIG. 1 is a diagram of a 5G network-based water treatment remote monitoring system according to an embodiment of the present invention;

fig. 2 is a monitoring data uploading path diagram according to an embodiment of the present invention;

fig. 3 is a flow chart of the water treatment remote monitoring based on the 5G network according to the embodiment of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the description of the invention relating to "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1, the first embodiment of the present invention is: a water treatment remote monitoring system based on a 5G network comprises a server system, a remote monitoring system and a plurality of field control systems;

the server system, the remote monitoring system and the field control systems are connected through a 5G network;

the field control system consists of a 5G network communication device, an STM32 monitoring circuit board, a measuring device, a touch screen, an electrical control device and a monitoring device; the measuring device, the touch screen, the electric control device and the monitoring device of each field control system are respectively in electric signal connection with the corresponding STM32 monitoring circuit board, and the STM32 monitoring circuit board is in electric signal connection with the 5G network communication device;

the server system consists of a network communication device, a background server, an operation computer and a database; the operation computer is in electric signal connection with the database, the background server is in electric signal connection with the operation computer, and the network communication device is in electric signal connection with the background server;

the remote monitoring system consists of a mobile phone and/or a computer.

The measuring device comprises one or more of a three-phase power instrument, a pool liquid level meter, a water inlet PH instrument, a water inlet conductivity instrument, a water inlet turbidity instrument, a water inlet ammonia nitrogen instrument, a water inlet total phosphorus instrument, a water inlet total copper instrument, a water inlet pipeline flow sensor, a water outlet PH instrument, a water outlet conductivity instrument, a water outlet turbidity instrument, a water outlet ammonia nitrogen instrument, a water outlet total phosphorus instrument, a water outlet total copper instrument and a water outlet pipeline flow sensor.

Wherein, the electric control device is connected with one or more of a water pump, a stirrer, a blower, a dosing pump, a frequency converter, an electric valve or an electromagnetic valve.

The monitoring device is used for monitoring operation signals, fault signals and temperature signals fed back by the water pump, the stirrer, the blower and the dosing pump; the running signal, the fault signal, the motor running frequency and the torque fed back by the frequency converter; one or more of a valve opening signal, an open-in-place signal and a close-in-place signal of the electric valve and the electromagnetic valve.

The 5G network communication device is a device for transmitting data to the background server by using a 5G network.

The mobile phone in the remote monitoring system is provided with a monitoring APP, and the monitoring APP is used for carrying out remote monitoring on the field control system.

The computer is provided with monitoring software, and the field control system is remotely monitored through the monitoring software or a webpage.

The mobile phone in the remote monitoring system is connected with the 5G communication device in the field control system through a wireless network.

The touch screen in the field control system is used for setting and controlling parameters of the measuring device, the electrical control device and the monitoring device.

And the database in the server system is used for storing the monitoring data.

As shown in fig. 2 and fig. 3, the detection process of the water treatment remote monitoring system based on the 5G network is as follows: sending the sensor and meter values of the measuring device to an STM32 monitoring circuit board for data processing; the equipment operation data of the monitoring device is sent to the STM32 monitoring circuit board for data processing, the electric control device executes an operation result, meanwhile, the data are uploaded to the server system through the 5G communication device and stored in the background server, and the operation computer can call the data of the background server and store the data which are not stored in the database. The operation computer sends the control result of the equipment back to the field control system through the network communication device to control the equipment.

The beneficial effects of the above embodiment are as follows: the field control system in the water treatment remote monitoring system based on the 5G network is provided with the 5G network communication device and the STM32 monitoring circuit board, so that the water treatment remote monitoring system with low cost, more intelligence, rapidness and economy is constructed; based on the system, the functions of intelligent monitoring, data storage, wastewater treatment prejudgment and prealarming of the sewage treatment system can be realized.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A water treatment remote monitoring system based on 5G network, its characterized in that: the system comprises a server system, a remote monitoring system and a plurality of field control systems;

the server system, the remote monitoring system and the field control systems are connected through a 5G network;

the field control system consists of a 5G network communication device, an STM32 monitoring circuit board, a measuring device, a touch screen, an electrical control device and a monitoring device; the measuring device, the touch screen, the electric control device and the monitoring device of each field control system are respectively in electric signal connection with the corresponding STM32 monitoring circuit board, and the STM32 monitoring circuit board is in electric signal connection with the 5G network communication device;

the server system consists of a network communication device, a background server, an operation computer and a database; the operation computer is in electric signal connection with the database, the background server is in electric signal connection with the operation computer, and the network communication device is in electric signal connection with the background server;

the remote monitoring system consists of a mobile phone and/or a computer.

2. The water treatment remote monitoring system based on 5G network of claim 1, characterized in that: the measuring device comprises one or more of a three-phase power instrument, a pool liquid level meter, a water inlet PH instrument, a water inlet conductivity instrument, a water inlet turbidity instrument, a water inlet ammonia nitrogen instrument, a water inlet total phosphorus instrument, a water inlet total copper instrument, a water inlet pipeline flow sensor, a water outlet PH instrument, a water outlet conductivity instrument, a water outlet turbidity instrument, a water outlet ammonia nitrogen instrument, a water outlet total phosphorus instrument, a water outlet total copper instrument and a water outlet pipeline flow sensor.

3. The water treatment remote monitoring system based on 5G network of claim 1, characterized in that: the electric control device is connected with one or more of a water pump, a stirrer, a blower, a dosing pump, a frequency converter, an electric valve or an electromagnetic valve.

4. The water treatment remote monitoring system based on 5G network of claim 1, characterized in that: the monitoring device is used for monitoring operation signals, fault signals and temperature signals fed back by the water pump, the stirrer, the blower and the dosing pump; the running signal, the fault signal, the motor running frequency and the torque fed back by the frequency converter; one or more of a valve opening signal, an open-in-place signal and a close-in-place signal of the electric valve and the electromagnetic valve.

5. The water treatment remote monitoring system based on 5G network of claim 1, characterized in that: the 5G network communication device is a device for transmitting data to the background server by using a 5G network.

6. The water treatment remote monitoring system based on 5G network of claim 1, characterized in that: and a monitoring APP is installed on a mobile phone in the remote monitoring system and is used for carrying out remote monitoring on the field control system through the monitoring APP.

7. The water treatment remote monitoring system based on 5G network of claim 1, characterized in that: the computer is provided with monitoring software, and the field control system is remotely monitored through the monitoring software or a webpage.

8. The water treatment remote monitoring system based on 5G network of claim 1, characterized in that: the mobile phone in the remote monitoring system is connected with the 5G communication device in the field control system through a wireless network.

9. The water treatment remote monitoring system based on 5G network of claim 1, characterized in that: and the touch screen in the field control system is used for setting and controlling parameters of the measuring device, the electrical control device and the monitoring device.

10. The water treatment remote monitoring system based on 5G network of claim 1, characterized in that: and the database in the server system is used for storing the monitoring data.

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