CN113176792A

CN113176792A - Device control method, device, storage medium and electronic device

Info

Publication number: CN113176792A
Application number: CN202110693096.4A
Authority: CN
Inventors: 雷斯琦; 郑欢; 黄骁; 叶明�; 谭冬明; 李堂
Original assignee: Wuhan Sinoeco Technology Co ltd
Current assignee: Wuhan Sinoeco Technology Co ltd
Priority date: 2021-06-22
Filing date: 2021-06-22
Publication date: 2021-07-27

Abstract

The application relates to an equipment control method, an equipment control device, a storage medium and electronic equipment, which are used for controlling the work of drainage equipment in a circulating water system, wherein the equipment control method comprises the steps of acquiring water quality monitoring data and water level monitoring data of a target tank body in the circulating water system; determining current water quality information and water level information of the target tank body according to the water quality monitoring data and the water level monitoring data, wherein the water level information comprises a water level change rate; determining whether the current water quality of the target pool body is normal or not according to the water quality information; when the current water quality of the target tank body is normal, the drainage equipment is controlled to work according to the current water level change rate of the target tank body, so that when the water quality and the water level of the target tank body in the circulating water system are abnormal, the flow of water flow of the target tank body can be adjusted in time, the water quality and the water level of the target tank body are recovered to be normal, operation and maintenance personnel are allowed to have more time to treat the abnormal problem of the water quality and the water level of the circulating water system, and the loss caused by the abnormal water quality and the abnormal water level is reduced.

Description

Device control method, device, storage medium and electronic device

Technical Field

The present application relates to the field of system control technologies, and in particular, to a device control method, apparatus, storage medium, and electronic device.

Background

At present, a water circulation system for industrial aquatic product cultivation is formed by connecting a cultivation pond, a pump pond, a circulating water pump, a micro-filter, a biological purification device, a disinfection device and an oxygenation device by pipelines. The water in the culture pond continuously enters the micro-filter, the pump pond, the biological purification device, the disinfection device and the oxygen increasing device by the circulating water pump at a certain flow rate, and returns to the culture pond after being treated by the biological purification device, the disinfection device and the oxygen increasing device.

However, when equipment in the circulating water system fails, the water quality and water level of the pump pond and the culture pond are abnormal, and if the water quality and water level of the pump pond cannot be timely restored to normal, aquatic organisms in the culture pond die, so that economic loss is caused.

Disclosure of Invention

The application aims to provide an equipment control method, an equipment control device, a storage medium and electronic equipment, so that when the water quality and the water level of a target tank body in a circulating water system are abnormal, the loss caused by the abnormal water quality and water level can be reduced.

The embodiment of the application provides an equipment control method, the equipment control method is used for controlling drainage equipment in a circulating water system to work, and the equipment control method comprises the following steps:

acquiring water quality monitoring data and water level monitoring data of a target tank body in a circulating water system, wherein the target tank body is connected with drainage equipment;

determining current water quality information and water level information of the target tank body according to the water quality monitoring data and the water level monitoring data, wherein the water level information comprises a water level change rate;

determining whether the current water quality of the target pool body is normal or not according to the water quality information;

when the current water quality of the target tank body is normal, the drainage equipment of the circulating water system is controlled to work according to the current water level change rate of the target tank body.

The embodiment of the application also provides an equipment control device, and equipment control device is arranged in the work of drainage equipment among the control circulating water system, and equipment control device includes:

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring water quality monitoring data and water level monitoring data of a target pool body in a circulating water system, and the target pool body is connected with drainage equipment;

the first determining module is used for determining the current water quality information and water level information of the target pool body according to the water quality monitoring data and the water level monitoring data, and the water level information comprises a water level change rate;

the second determination module is used for determining whether the current water quality of the target pool body is normal or not according to the water quality information;

and the first control module is used for controlling the drainage equipment of the circulating water system to work according to the current water level change rate of the target tank body when the current water quality of the target tank body is normal.

Wherein, drainage equipment includes rivers drive conveyor and rivers switching device, and first control module specifically is used for:

when the current water quality of the target tank body is normal, if the current water level change rate of the target tank body is the water level rising rate and is greater than a first preset threshold value, increasing the working power of the water flow driving and conveying device so as to increase the water outlet flow of the target tank body in the circulating water system;

when the water flow drives the conveying device to work at the increased working power for a first preset time length, if the current water level change rate of the target tank body is still the water level rising rate and is greater than a first preset threshold value, the water flow switch device is controlled to work, so that the water outlet flow of the target tank body is a first preset flow, and a water level rising alarm notice is sent to operation and maintenance personnel.

Wherein the first control module is further configured to:

when the water flow driving and conveying device works at the increased working power for a first preset time length, if the current water level change rate of the target pool body is the water level reduction rate and is greater than a second preset threshold value, reducing the working power of the water flow driving and conveying device so as to reduce the water outlet flow of the target pool body in the circulating water system;

when the water flow drives the conveying device to work at the reduced working power for a second preset time length, if the current water level change rate of the target pool body is still the water level reduction rate and is greater than a second preset threshold value, the water flow switch device is controlled to work, so that the water outlet flow of the target pool body is a second preset flow, and a water level reduction alarm notice is sent to operation and maintenance personnel.

Wherein, water level information still includes the water level value, and equipment controlling means still includes:

and the second control module is used for adjusting the water outlet flow of the target tank body by controlling the drainage equipment to work when the current water quality of the target tank body is abnormal and the current water level value of the target tank body is within the preset water level value range, so that the water quality of the target tank body is recovered to be normal.

Wherein the second control module is specifically configured to:

when the current water temperature of the target tank body is not normal and the current water level value of the target tank body is within the range of the preset water level value, the water outlet flow of the target tank body is increased by increasing the working power of the water flow driving and conveying device so as to reduce the water temperature of the target tank body, or the water outlet flow of the target tank body is reduced by reducing the working power of the water flow driving and conveying device so as to increase the water temperature of the target tank body.

Wherein, the device control apparatus further includes:

the second acquisition module is used for acquiring the working condition information of the circulating water system when the current water level information of the target tank body does not meet the preset condition;

the first generation module is used for generating corresponding abnormal records according to the working condition information and the water level information which does not meet the preset conditions;

the providing module is used for responding to the checking request of the operation and maintenance personnel and providing corresponding abnormal records for the operation and maintenance personnel;

and the second generation module is used for responding to the abnormal processing operation of the operation and maintenance personnel and generating a corresponding abnormal processing record.

The embodiment of the application also provides a computer readable storage medium, wherein a plurality of instructions are stored in the storage medium, and the instructions are suitable for being loaded by a processor to execute any one of the device control methods.

The embodiment of the present application further provides an electronic device, which includes a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor implements the steps in any one of the device control methods when executing the computer program.

The device control method, the device, the storage medium and the electronic device are used for controlling the operation of the drainage device in the circulating water system, the target tank body is connected with the drainage device by acquiring water quality monitoring data and water level monitoring data of the target tank body in the circulating water system, the current water quality information and water level information of the target tank body are determined according to the water quality monitoring data and the water level monitoring data, the water level information comprises a water level change rate, whether the current water quality of the target tank body is normal or not is determined according to the water quality information, and when the current water quality of the target tank body is normal, the drainage device is controlled to operate according to the current water level change rate of the target tank body, so that when the water quality and the water level of the target tank body in the circulating water system are abnormal, the flow rate of the water of the target tank body in the circulating water system can be timely adjusted to enable the water quality and the water level of the target tank body to be recovered to be normal, and operation and maintenance personnel are allowed to have more time to treat the problem of abnormal water quality and water level of the circulating water system, so that the loss caused by the abnormal water quality and water level is reduced.

Drawings

The technical solution and other advantages of the present application will become apparent from the detailed description of the embodiments of the present application with reference to the accompanying drawings.

Fig. 1 is a schematic view of a scenario of an apparatus control system provided in an embodiment of the present application;

fig. 2 is a schematic flowchart of an apparatus control method provided in an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a circulating water system provided in an embodiment of the present application;

fig. 4 is another schematic flow chart of an apparatus control method provided in an embodiment of the present application;

FIG. 5 is a schematic structural diagram of an apparatus control device provided in an embodiment of the present application;

fig. 6 is a schematic structural diagram of an electronic device provided in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

The embodiment of the application provides a device control method and device, a storage medium and an electronic device.

Referring to fig. 1, fig. 1 is a schematic view of a scene of an apparatus control system according to an embodiment of the present disclosure, where the apparatus control system may include any one of the apparatus control devices according to the embodiments of the present disclosure, and the apparatus control device may be specifically integrated in an electronic apparatus such as a terminal or a server, where the terminal may be an apparatus such as a smart phone, a tablet Computer, an intelligent bluetooth device, a notebook Computer, or a Personal Computer (PC), and the server may be a single server or a server cluster composed of multiple servers.

The electronic equipment can be used for controlling the drainage equipment in the circulating water system to work, and specifically can acquire water quality monitoring data and water level monitoring data of a target tank body in the circulating water system, wherein the target tank body is connected with the drainage equipment; determining current water quality information and water level information of the target tank body according to the water quality monitoring data and the water level monitoring data, wherein the water level information comprises a water level change rate; determining whether the current water quality of the target pool body is normal or not according to the water quality information; when the current water quality of the target tank body is normal, the drainage equipment is controlled to work according to the current water level change rate of the target tank body.

As shown in fig. 1, the equipment control system may further include a monitoring device and a circulating water system connected to the electronic equipment via a network. The circulating water system may include a target tank body, a waterway pipeline, and a drainage device connected to the target tank body through the waterway pipeline, wherein the drainage device may include a water flow driving and conveying device (e.g., a water pump) and/or a water flow switching device (e.g., a shutoff valve), and the target tank body may be a pump tank or a culture tank. The monitoring device is used for monitoring the water quality and the water level of a target tank body in the circulating water system, and can comprise a water quality monitoring device (such as a temperature sensor, a pH detector, a dissolved oxygen content detector and the like) and a water level monitoring device (such as a water pressure meter). The water quality information may include water quality parameters such as water temperature, turbidity in water, pH value, dissolved oxygen content, conductivity, ammonia nitrogen content, etc., and the water level information may include water level value, water level change rate, etc.

Specifically, the electronic device may acquire the water quality monitoring data and the water level monitoring data acquired by the monitoring device, determine current water quality information and water level information of a target tank in the circulating water system according to the water quality monitoring data and the water level monitoring data, and control the flow rate of the water in the circulating water system by adjusting the operating power of the water flow driving and conveying device in the circulating water system and/or by starting a water flow switch device arranged in a water pipeline in the circulating water system according to the current water quality information and the current water level information of the target tank.

As shown in fig. 2, fig. 2 is a schematic flow chart of an apparatus control method provided in an embodiment of the present application, where the apparatus control method is used for controlling operation of a drainage apparatus in a circulating water system, and a specific flow chart may be as follows:

s101, acquiring water quality monitoring data and water level monitoring data of a target tank body in a circulating water system, wherein the target tank body is connected with a drainage device.

In this embodiment, as shown in fig. 3, the circulating water system may include a culture pond 21, a pump pond 24, a waterway pipe 22, and a drainage device 23 connected to the culture pond 21 and the pump pond 24 via the waterway pipe 22, and accordingly, the target pond body may be embodied as the pump pond 24 in the circulating water system, and the drainage device 23 may include a water flow driving and conveying device (e.g., a water pump) connected to the pump pond 24 and/or a water flow switching device (e.g., a shutoff valve) disposed in the waterway pipe 22. Specifically, the culture pond 21 is communicated with the pump pond 24, and the water in the culture pond 21 can be pumped out by the drainage device 23 and returned to the culture pond 21 after being subjected to filtration, biochemical filtration, sterilization and oxygenation treatment. Correspondingly, as shown in fig. 3, the circulating water system may further include a biological purification device 25, a disinfection device 26 and an oxygen increasing device 27, which are sequentially connected to the culture pond 21, the drainage device 23 and the pump pond 24 through a waterway pipeline 22, specifically, the drainage device 23 (e.g., a water pump) may continuously and sequentially feed water in the culture pond 21 into a micro-filter (not shown in the figure), the pump pond 24, the biological purification device 25, the disinfection device 26 and the oxygen increasing device 27, and the water is treated by the biological purification device 25, the disinfection device 26 and the oxygen increasing device 27 and then returns to the culture pond 21.

Specifically, the target tank body may be provided therein with a monitoring device (not shown in the figure) for monitoring the water quality and the water level of the target tank body, and the monitoring device may include a water quality monitoring device (e.g., a temperature sensor, a pH detector, a dissolved oxygen content detector, etc.) and a water level monitoring device (e.g., a water pressure gauge). The water quality monitoring data may be obtained by monitoring the water quality of the target tank body by using the water quality monitoring device, and the water level monitoring data may be obtained by monitoring the water level of the target tank body by using the water level monitoring device. Specifically, the water level monitoring device may be disposed under the water in the target tank body, and may be specifically located at the bottom of the target tank body. Wherein, the water quality monitoring data can comprise monitoring data of the target pool body, such as real-time water temperature, turbidity, pH value, dissolved oxygen content, conductivity, ammonia nitrogen content and the like, which are collected by the water quality monitoring equipment. The water level monitoring information may include a real-time water level value of the target tank body.

S102, determining current water quality information and water level information of the target pool body according to the water quality monitoring data and the water level monitoring data, wherein the water level information comprises a water level change rate.

The water quality information may include water quality parameters such as water temperature, dissolved oxygen content, ammonia nitrogen content, turbidity in water, pH value, and conductivity, and the water level information may include water level value and water level change rate. Specifically, the water level change rate may be understood as an increment or decrement of the water level value of the target tank in a unit time, for example, if the water level value of the target tank is increased by Δ H in time t, the water level change rate corresponding to the target tank may be Δ H/t, and the larger the current water level change rate of the target tank is, the faster the liquid level of the target tank rises and falls at the current moment is indicated, and then the target tank is likely to have a liquid level higher than an overflow opening (that is, the water level value is greater than the tank height of the target tank) or lower than the lowest working water level of the water flow driving and conveying device due to the fact that the liquid level of the target tank rises and falls too fast, so that the problem that the water level is too high, and the hydraulic pressure of the circulated water overflowed by the water flow is unbalanced, or the water pump is damaged due to too low water level occurs.

It can be understood that, when the circulating water system works normally, the water levels of the culture pond and the pump pond in the circulating water system are in a balanced state, that is, no large change occurs, and when the circulating water system works in a failure (for example, air bubbles enter the water pipeline or the water pipeline is blocked), the water levels of the culture pond and the pump pond in the circulating water system lose balance or even change greatly, which leads to a more serious production accident. In addition, because the culture pond is communicated with the pump pond, the water level balance condition of the culture pond can be calculated based on the water quality monitoring data and the water level monitoring data of the pump pond, and the cause of the fault can be further analyzed.

S103, determining whether the current water quality of the target pool body is normal according to the water quality information.

S104, when the current water quality of the target tank body is normal, controlling the drainage equipment of the circulating water system to work according to the current water level change rate of the target tank body.

Specifically, if the current water temperature, dissolved oxygen content, ammonia nitrogen content, turbidity in water, pH value, conductivity and other water quality parameters of the target tank body meet the conditions required for healthy growth of aquatic organisms (e.g., fish, algae) in the target tank body or the culture tank, the current water quality of the target tank body can be considered to be normal, otherwise, the current water quality of the target tank body can be considered to be abnormal. And, when the current quality of water of the target cell body is normal, in order to avoid the problem that the water level of the target cell body rises too fast, and the water overflow circulating water hydraulic pressure is out of balance due to the fact that the water level is too high, or the water pump is damaged by idling due to the fact that the water level is too low, the water outlet flow of the circulating water system can be increased when the water level of the target cell body rises too fast, so that the water outlet quantity of the target cell body is increased, the current water level rising speed of the target cell body is reduced, and the like, the water outlet flow of the circulating water system can be reduced when the water level of the target cell body falls too fast, so that the water outlet quantity of the target cell body is reduced, and the current water level falling speed of the target cell body is reduced.

In an embodiment, in order to increase the water outlet flow rate of the circulating water system when the water level of the target tank body rises too fast, so as to increase the water outlet amount of the target tank body, thereby reducing the current water level rising rate of the target tank body, as shown in fig. 4, the step S104 may specifically include:

s1-1, when the current water quality of the target tank body is normal, if the current water level change rate of the target tank body is the water level rising rate and is larger than a first preset threshold value, increasing the working power of the water flow driving and conveying device so as to increase the water outlet flow of the target tank body in the circulating water system.

The first preset threshold may be obtained by an operation and maintenance person through a test, and when the current water level change rate of the target tank body is a water level increase rate and is greater than the first preset threshold, it may be determined that the current water level of the target tank body increases too fast. Specifically, the water flow driving and conveying device may be a variable frequency water pump, and the corresponding equipment control device may adjust the operating power of the water flow driving and conveying device by adjusting the operating frequency of the water flow driving and conveying device, and in some specific embodiments, the water flow driving and conveying device may specifically be formed by connecting a plurality of conventional water pumps in parallel.

In addition, in a specific implementation, the increasing the operating power of the water flow driving and conveying device may specifically include: based on the mapping relation between the pre-established water level rising rate and the working power, the water flow is controlled to drive the conveying device to operate at the working power corresponding to the current water level rising rate of the target pool body, wherein the water level rising rate and the working power can be in direct proportion, namely the larger the water level rising rate is, the larger the corresponding working power is.

S1-2, when the water flow drives the conveying device to work at the increased working power for a first preset time length, if the current water level change rate of the target tank body is still the water level rising rate and is larger than a first preset threshold value, the water flow switch device is controlled to work, so that the water outlet flow rate of the target tank body is the first preset flow rate, and a water level rising alarm notice is sent to operation and maintenance personnel.

When the water flow driving and conveying device works at the increased working power for a first preset time, if the current water level change rate of the target tank body is no longer greater than the first preset threshold value, it can be determined that the water level ascending and descending change of the target tank body is unstable in water circulation caused by the natural pressure difference of the water path of the circulating water system. In addition, the instability of water circulation caused by the natural pressure difference of the water path can be solved by adjusting the working power of the water flow driving and conveying device.

By analogy, when the water flow driving and conveying device works at the increased working power for the first preset time length, if the current water level change rate of the target tank body is still greater than the first preset threshold, it can be considered that the water level ascending and descending change of the target tank body cannot be solved by adjusting the working power of the water flow driving and conveying device, that is, even if the water flow driving and conveying device is controlled to operate at the maximum working power, the water level of the target tank body cannot be prevented from continuously ascending.

Wherein the first preset flow rate may be 0m³Correspondingly, the controlling the flow rate of the water flow of the circulating water system to be a first preset flow rate may specifically include: starting a water flow switch device (such as a cut-off valve) arranged in a water flow pipeline in the circulating water system to forcibly interrupt the water circulation of the circulating water system so as to realize the water outlet of a target tank body in the circulating water systemThe flow rate is adjusted to a first preset flow rate.

Moreover, it can be understood that after the water flow switch device is activated, the water in the target tank body is not circulated any more, that is, the water amount in the target tank body is not changed any more after the water flow switch device is activated, and the water level corresponding to the target tank body is not changed any more. Next, since the water in the target tank body is not circulated any more, and the aquatic animals in the target tank body and/or the culture tank continuously consume oxygen in the water and produce excrement, the water quality of the water in the target tank body and/or the culture tank is deteriorated, but aquatic organisms in the target tank body and/or the culture tank are not immediately killed, that is, as long as a maintenance personnel of the circulating water system can timely find and solve the problem of the water level rising fault of the circulating water system, and the water in the target tank body is circulated again, the economic loss of the circulating water system caused by the fault can be avoided.

In some alternative embodiments, the device control means may also gradually increase the operating power of the water flow driven delivery means in a linear incremental manner or in an incremental manner with a fixed step value. For example, when the current water quality of the target tank body is normal, if the current water level change rate of the target tank body is the water level rising rate and is greater than a first preset threshold value, the working power of the water flow driving and conveying device is increased to a first target working power so as to increase the water outlet flow of the target tank body in the circulating water system; then, when the water flow driving and conveying device works at the first target working power for a second preset time length, if the current water level change rate of the target tank body is still the water level rising rate and is greater than a first preset threshold value, the working power of the water flow driving and conveying device is increased to the second target working power so as to increase the water outlet flow of the target tank body in the circulating water system; then, when the water flow driving and conveying device works at the second target working power for a third preset time length, if the current water level change rate of the target tank body is still the water level rising rate and is greater than the first preset threshold value, the working power of the water flow driving and conveying device is increased to the third target working power so as to increase the water outlet flow of the target tank body in the circulating water system; and analogizing in sequence until the working power of the water flow driving and conveying device is increased to the maximum working power allowed by the water pipeline in the circulating water system, and after the water flow driving and conveying device works at the maximum working power for a third preset time, controlling the current water level change rate of the target tank body to be the water level rising rate and be greater than a first preset threshold, controlling the water flow of the circulating water system to be the first preset flow, and sending a water level rising alarm notice to operation and maintenance personnel.

In addition, in a specific implementation, the circulating water system may further include a backup water flow driving and conveying device (e.g., a backup pump) connected in parallel to the water flow driving and conveying device, and the backup water flow driving and conveying device and the water flow driving and conveying device have the same function and can pump water out of the target tank body. Specifically, in the process of gradually increasing the working power of the water flow driving and conveying device, if the maximum working power of the water flow driving and conveying device is less than the maximum working power allowed by a waterway pipeline in the circulating water system, and after the water flow driving and conveying device works at the maximum working power for a first preset time period, the current water level change rate of the target tank body is still the water level increase rate and is greater than a first preset threshold, the standby water flow driving and conveying device may be started as the water flow driving and conveying device, and in a subsequent step, the working power of the standby water flow driving and conveying device may be increased to increase the working power of the water flow driving and conveying device, that is, before the standby water flow driving and conveying device is started as the water flow driving and conveying device, the maximum working power of the water flow driving and conveying device in the circulating water system is the maximum working power of the water flow driving and conveying device itself And after the standby pump is started as the water flow driving and conveying device, the maximum working power of the water flow driving and conveying device in the circulating water system is the sum of the maximum working power of the water flow driving and conveying device and the maximum working power of the standby water flow driving and conveying device.

In another embodiment, in order to decrease the water outlet flow rate of the circulating water system when the water level of the target tank body decreases too fast, so as to decrease the water outlet amount of the target tank body, thereby decreasing the current water level decreasing rate of the target tank body, S1032 may further include:

and S1-3, if the current water level change rate of the target tank body is the water level reduction rate and is greater than a second preset threshold value, reducing the working power of the water flow driving and conveying device so as to reduce the water outlet flow of the target tank body in the circulating water system.

The process of reducing the working power of the water flow driving and conveying device in S1-3 may be the reverse process of increasing the working power of the water flow driving and conveying device in S1-1, so that the specific implementation of reducing the working power of the water flow driving and conveying device in S1-3 may refer to the specific implementation of increasing the working power of the water flow driving and conveying device in S1-1, and therefore, the detailed description thereof is omitted here. For example, the apparatus control device may control the water flow driving and conveying device to operate at a working power corresponding to the current water level decreasing rate of the target tank body based on a mapping relationship between the pre-established water level decreasing rate and the working power, where the water level decreasing rate and the working power may be directly proportional, that is, the larger the water level decreasing rate is, the larger the corresponding working power is.

And S1-4, when the water flow drives the conveying device to work at the reduced working power for a second preset time length, if the current water level change rate of the target tank body is still the water level reduction rate and is greater than a second preset threshold value, controlling the water flow switch device to work so as to enable the water outlet flow rate of the target tank body to be the second preset flow rate, and sending a water level reduction alarm notice to operation and maintenance personnel.

The second preset flow rate may be the same as the first preset flow rate, for example, both the second preset flow rate and the first preset flow rate are 0m³Correspondingly, in the specific embodiment that the water flow switch device is controlled to operate so as to make the water flow rate of the target tank body be the second preset flow rate, reference may be made to the specific embodiment that the water flow switch device is controlled to operate in S1-2 so as to make the water flow rate of the target tank body be the first preset flow rate, and therefore details are not repeated here.

In some alternative embodiments, the apparatus control device may further gradually decrease the operating power of the water flow driving and conveying device in a linear increasing manner or in an increasing manner with a fixed step value until the current water level change rate of the target tank body is no longer greater than a second preset threshold value after the water flow driving and conveying device operates at the decreased operating power for a second preset time period, or until the operating power of the water flow driving and conveying device is decreased to the minimum operating power (for example, 0W) of the water flow driving and conveying device, and then, after the water flow driving and conveying device operates at the minimum operating power for the second preset time period, if the current water level change rate of the target tank body is still the water level decreasing rate and is greater than the second preset threshold value, the apparatus control device may control the water flow rate of the circulating water system to be a second preset flow rate, and sending water level drop alarm notice to operation and maintenance personnel.

In some embodiments, the device control apparatus may send the water level rising alarm notification or the water level falling alarm notification to the operation and maintenance staff in a short message manner, an email notification manner, a telephone notification manner, a card control manner, or another instant messaging application notification manner. Therefore, operation and maintenance personnel can know the occurrence of the fault problem in time, the time for solving the fault problem is shortened, and the loss caused by the fault is reduced.

In some embodiments, the water level rising alarm notification may carry a corresponding maintenance procedure, so that the operation and maintenance personnel can take corresponding measures with reference to the maintenance procedure to solve the problem of the continuous rising of the water level of the target tank body. Correspondingly, the water level drop alarm notification can carry a corresponding maintenance flow, so that operation and maintenance personnel can take corresponding measures to solve the problem of continuous drop of the water level of the target pool body by referring to the maintenance flow. Therefore, the operation of the operation and maintenance personnel for dealing with the abnormal water level and water quality problem is standardized and normalized.

In the foregoing embodiment, as shown in fig. 4, after S103, the method may further include:

and S105, when the current water quality of the target tank body is abnormal and the current water level value of the target tank body is within the range of the preset water level value, adjusting the water outlet flow of the target tank body by controlling the drainage equipment to work so as to restore the water quality of the target tank body to be normal.

Before S103, S104, or S105, the method may further include:

and A, judging whether the current water level value of the target pool body is within a preset water level value range.

Specifically, the maximum water level value in the preset water level value range may be a maximum water level value (for example, a tank height of the target tank) of the target tank in normal operation, and the minimum water level value in the preset water level value range may be a minimum water level value (for example, a minimum working water level value of the water flow-driven conveying device) of the target tank in normal operation.

Accordingly, the S103 may specifically include: and when the current water level value of the target tank body is within the preset water level value range, determining whether the current water quality of the target tank body is normal or not according to the water quality information. Alternatively, the 104 may specifically include: and when the current water quality of the target tank body is normal and the current water level value of the target tank body is within the preset water level value range, controlling the drainage equipment in the circulating water system to work according to the current water level change rate of the target tank body.

In a specific embodiment, when the current water temperature of the target tank is not normal, such as too high as the highest tolerable temperature of the target tank and/or the aquatic organisms in the culture tank, or too low as the lowest tolerable temperature of the target tank and/or the aquatic organisms in the culture tank, the current water quality of the target tank may be considered to be not normal. Accordingly, the S105 may specifically include:

s2-1, when the current water temperature of the target tank body is not normal and the current water level value of the target tank body is within the preset water level value range, increasing the working power of the water flow driving and conveying device to increase the water outlet flow of the target tank body so as to reduce the water temperature of the target tank body, or decreasing the working power of the water flow driving and conveying device to reduce the water outlet flow of the target tank body so as to increase the water temperature of the target tank body.

In another embodiment, the water quality of the target tank may be considered abnormal when the current dissolved oxygen content of the target tank is abnormal, such as too low or too low, and exceeds the range of dissolved oxygen content required for normal growth of aquatic organisms in the target tank and/or the culture tank. Accordingly, the S105 may specifically include:

s2-2, when the current dissolved oxygen content of the target tank body is not normal and the current water level value of the target tank body is within the range of the preset water level value, increasing the working power of the water flow driving and conveying device to increase the water outlet flow of the target tank body so as to increase the dissolved oxygen content of the target tank body, or decreasing the working power of the water flow driving and conveying device to decrease the water outlet flow of the target tank body so as to decrease the dissolved oxygen content of the target tank body.

By analogy, when the current water quality of the target tank body is abnormal, in order to avoid death of the target tank body and/or aquatic organisms (such as fishes and algae) in the culture tank due to the abnormal water quality of the target tank body, the abnormal water quality problem of the target tank body can be improved by increasing or reducing the water flow rate of the circulating water system (such as the water outlet flow rate of the target tank body).

In addition, in the specific implementation, when the current water temperature of the target tank body is too high, the equipment control device can increase the working power of the water flow driving and conveying device so as to increase the water flow rate of the circulating water system, and therefore the water temperature of the target tank body can be reduced. Meanwhile, it can be understood that, as the working power of the water flow driving and conveying device is increased, the outlet water flow rate corresponding to the circulating water system is increased, and the water is likely to be returned too late, which leads to the problem of water level drop of the target tank body. And once the water quality of the target tank body is recovered to be normal, the equipment control device can adjust the working power of the water flow driving and conveying device when the current water level change rate of the target tank body is greater than a first preset threshold value or a second preset threshold value so as to adjust the water outlet flow rate of the target tank body in the circulating water system, and further reduce or reduce the water level change rate of the target tank body.

In the foregoing embodiment, as shown in fig. 4, after S102, the apparatus control method may further include:

and S106, when the current water level information of the target tank body does not meet the preset condition, acquiring the working condition information of the circulating water system.

Specifically, when the current water level value of the target tank body is greater than the tank body height of the target tank body or less than the lowest working water level value of the water flow driving conveying device, it may be considered that the current water level information of the target tank body does not satisfy the preset condition. Or, when the difference between the current water level value of the target tank and the tank height of the target tank or the difference between the current water level value of the target tank and the lowest working water level value of the water flow driving and conveying device is smaller than a preset difference, the current water level information of the target tank can be considered not to meet a preset condition.

The operating condition information of the circulating water system may include real-time operating condition information of each device in the circulating water system, for example, a real-time operating current of the water flow driving conveying device.

And S107, generating corresponding abnormal records according to the working condition information and the water level information which does not meet the preset conditions.

Each of the abnormal records may include an abnormal occurrence time (that is, a time when the water level information of the target tank does not satisfy a preset condition), operating condition information of each device in the circulating water system at the abnormal occurrence time, and water level information of the target tank at the abnormal occurrence time.

And S108, responding to the viewing request of the operation and maintenance personnel, and providing the corresponding abnormal record for the operation and maintenance personnel.

Specifically, the operation and maintenance personnel may input a search condition on a graphical user interface to generate a viewing request, and then trigger the device control apparatus to respond to the viewing request of the operation and maintenance personnel and provide the operation and maintenance personnel with an exception record meeting the search condition. The search condition may include a specified abnormality occurrence time range, for example, from X9/month 1 to X10/month 1, and the abnormality occurrence time (for example, X9/month 15) included in the abnormality record that meets the search condition falls within the abnormality occurrence time range. Therefore, operation and maintenance personnel can quickly know the abnormal operation condition of each device in the circulating water system.

In some embodiments, after S107 above, the method may further include:

and S109, reminding operation and maintenance personnel to maintain the circulating water system according to the abnormal record.

Specifically, the device control apparatus may determine, according to an abnormal record of the abnormal occurrence time within a preset time period (for example, the last 7 days), a device whose working condition is abnormal and which is out of a reasonable range in the circulating water system, generate a failure prediction result of the device whose working condition is abnormal and which is out of the reasonable range, and then provide the failure prediction result to the operation and maintenance staff to remind the operation and maintenance staff to maintain (for example, replace or overhaul) the device whose working condition is abnormal and which is out of the reasonable range in the circulating water system. Therefore, operation and maintenance personnel can maintain the equipment before the equipment fails, and the loss caused by the equipment failure is avoided.

In other embodiments, after S107, the method may further include:

and S110, responding to the abnormal processing operation of the operation and maintenance personnel, and generating a corresponding abnormal processing record.

The abnormal processing records are used for recording historical abnormal processing operation flows of the operation and maintenance personnel for maintaining the circulating water system, so that reference is provided for the follow-up operation and maintenance personnel when maintaining the circulating water system, the time for the operation and maintenance personnel to solve faults is shortened, and the maintenance efficiency is improved.

From the above, the apparatus control method provided in this embodiment is used for controlling the operation of the drainage apparatus in the circulating water system, and by obtaining the water quality monitoring data and the water level monitoring data of the target tank in the circulating water system, the target tank is connected to the drainage apparatus, and according to the water quality monitoring data and the water level monitoring data, the current water quality information and the water level information of the target tank are determined, and the water level information includes a water level change rate, and then whether the current water quality of the target tank is normal is determined according to the water quality information, and when the current water quality of the target tank is normal, the operation of the drainage apparatus is controlled according to the current water level change rate of the target tank, so that when the water quality and the water level of the target tank in the circulating water system are abnormal, the flow rate of the water of the circulating water system can be adjusted in time, so that the water quality and the water level of the target tank are recovered to normal, and the operation and maintenance personnel are allowed to have more time to handle the problem of abnormal water quality of the circulating water level of the target tank, is favorable for reducing the loss caused by the abnormal water level of the water quality.

On the basis of the method described in the foregoing embodiment, this embodiment will be further described from the perspective of an equipment control device, please refer to fig. 5, and fig. 5 specifically describes a schematic structural diagram of the equipment control device provided in this embodiment, where the equipment control device is used for controlling the operation of a drainage apparatus in a circulating water system, and specifically, the equipment control device may include a first obtaining module 301, a first determining module 302, a second determining module 303, and a first control module 304, where:

(1) first acquisition module 301

The first acquisition module 301 is used for acquiring water quality monitoring data and water level monitoring data of a target tank body in the circulating water system, and the target tank body is connected with the drainage equipment.

(2) First determination module 302

A first determining module 302, configured to determine current water quality information and water level information of the target tank according to the water quality monitoring data and the water level monitoring data, where the water level information includes a water level change rate.

(3) Second determination module 303

And a second determining module 303, configured to determine whether the current water quality of the target tank body is normal according to the water quality information.

(4) First control module 304

The first control module 304 is configured to control a drainage device of the circulating water system to operate according to a current water level change rate of the target tank body when the current water quality of the target tank body is normal.

In an embodiment, the drainage device may include a water flow driving transmission device and a water flow switch device, and the first control module 304 may be specifically configured to:

In one embodiment, the first control module 304 may be further configured to:

In some embodiments, the water level information may further include a water level value, and the apparatus control device may further include:

(5) second control module

The second control module may be specifically configured to:

In some embodiments, the device control apparatus may further include:

(6) second acquisition module

And the second acquisition module is used for acquiring the working condition information of the circulating water system when the current water level information of the target tank body does not meet the preset condition.

(7) A first generation module

And the first generation module is used for generating corresponding abnormal records according to the working condition information and the water level information which does not meet the preset condition.

(8) Providing module

And the providing module is used for responding to the viewing request of the operation and maintenance personnel and providing the corresponding abnormal record for the operation and maintenance personnel.

(9) Second generation module

In specific implementation, the above modules may be implemented as independent entities, or may be combined arbitrarily to be implemented as the same or several entities, and specific implementation of the above modules may refer to the foregoing method embodiments, which are not described herein again.

As can be seen from the above, the apparatus control device provided in this embodiment is configured to control the operation of the drainage apparatus in the circulating water system, and includes a first obtaining module, configured to obtain water quality monitoring data and water level monitoring data of a target tank in the circulating water system, where the target tank is connected to the drainage apparatus; the first determining module is used for determining the current water quality information and the water level information of the target tank body according to the water quality monitoring data and the water level monitoring data, the water level information comprises a water level change rate, and the second determining module is used for determining whether the current water quality of the target tank body is normal or not according to the water quality information; the first control module is used for controlling the drainage equipment of the circulating water system to work according to the current water level change rate of the target tank body when the current water quality of the target tank body is normal, so that when the water quality and the water level of the target tank body in the circulating water system are abnormal, the flow of water of the circulating water system can be adjusted in time, the water quality and the water level of the target tank body are recovered to be normal, operation and maintenance personnel are allowed to have more time to treat the abnormal water quality and water level problem of the circulating water system of the target tank body, and the loss caused by the abnormal water quality and water level is reduced.

Accordingly, an embodiment of the present application further provides an electronic device, where the electronic device may be a terminal or a server, as shown in fig. 6, which shows a schematic structural diagram of the electronic device according to the embodiment of the present application, and specifically:

the electronic device 400 includes a processor 401 having one or more processing cores, a memory 402 having one or more computer-readable storage media, and a computer program stored on the memory 402 and executable on the processor. The processor 401 is electrically connected to the memory 402. Those skilled in the art will appreciate that the electronic device configurations shown in the figures do not constitute limitations of the electronic device, and may include more or fewer components than shown, or some components in combination, or a different arrangement of components.

The processor 401 is a control center of the electronic device 400, connects various parts of the whole electronic device 400 by using various interfaces and lines, performs various functions of the electronic device 400 and processes data by running or loading software programs and/or modules stored in the memory 402 and calling data stored in the memory 402, thereby performing overall monitoring of the electronic device 400.

In this embodiment, the processor 401 in the electronic device 400 loads instructions corresponding to processes of one or more application programs into the memory 402 according to the following steps, and the processor 401 runs the application programs stored in the memory 402, so as to implement various functions:

acquiring water quality monitoring data and water level monitoring data of a target tank body in a circulating water system;

when the current water quality of the target tank body is normal, the drainage equipment of the circulating water system is controlled to work according to the current water level change rate of the target tank body, and the drainage equipment is communicated with the target tank body.

The above operations can be implemented in the foregoing embodiments, and are not described in detail herein.

Optionally, as shown in fig. 6, the electronic device 400 further includes: touch-sensitive display screen 403, radio frequency circuit 404, audio circuit 405, input unit 406 and power 407. The processor 401 is electrically connected to the touch display screen 403, the radio frequency circuit 404, the audio circuit 405, the input unit 406, and the power source 407. Those skilled in the art will appreciate that the electronic device configuration shown in fig. 6 does not constitute a limitation of the electronic device and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

The touch display screen 403 may be used for displaying a graphical user interface and receiving operation instructions generated by a user acting on the graphical user interface. The touch display screen 403 may include a display panel and a touch panel. The display panel may be used, among other things, to display information entered by or provided to a user and various graphical user interfaces of the electronic device, which may be made up of graphics, text, icons, video, and any combination thereof. Alternatively, the Display panel may be configured in the form of a Liquid Crystal Display (LCD), an Organic Light-Emitting Diode (OLED), or the like. The touch panel may be used to collect touch operations of a user on or near the touch panel (for example, operations of the user on or near the touch panel using any suitable object or accessory such as a finger, a stylus pen, and the like), and generate corresponding operation instructions, and the operation instructions execute corresponding programs. Alternatively, the touch panel may include two parts, a touch detection device and a touch controller. The touch detection device detects the touch direction of a user, detects a signal brought by touch operation and transmits the signal to the touch controller; the touch controller receives touch information from the touch sensing device, converts the touch information into touch point coordinates, sends the touch point coordinates to the processor 401, and can receive and execute commands sent by the processor 401. The touch panel may overlay the display panel, and when the touch panel detects a touch operation thereon or nearby, the touch panel may transmit the touch operation to the processor 401 to determine the type of the touch event, and then the processor 401 may provide a corresponding visual output on the display panel according to the type of the touch event. In the embodiment of the present application, the touch panel and the display panel may be integrated into the touch display screen 403 to realize input and output functions. However, in some embodiments, the touch panel and the touch panel can be implemented as two separate components to perform the input and output functions. That is, the touch display screen 403 may also be used as a part of the input unit 406 to implement an input function.

In this embodiment of the application, a game application is executed by the processor 401 to generate a picture of a virtual three-dimensional scene on the touch display screen 403, where the picture includes a graphical user interface (UI interface), the graphical user interface includes a second spatial orientation indicator, a spatial orientation identifier corresponding to a target object is displayed on the second spatial orientation indicator, and the spatial orientation identifier is used to indicate an orientation where the target object is located.

The touch display screen 403 may be used for presenting a picture of a virtual three-dimensional scene, a graphical user interface and receiving an operation instruction generated by a user acting on the graphical user interface.

The rf circuit 404 may be configured to transmit and receive rf signals to establish wireless communication with a network device or other server via wireless communication, and transmit and receive signals to and from the network device or other server.

The audio circuit 405 may be used to provide an audio interface between the user and the server through speakers, microphones. The audio circuit 405 may transmit the electrical signal converted from the received audio data to a speaker, and convert the electrical signal into a sound signal for output; on the other hand, the microphone converts the collected sound signal into an electric signal, which is received by the audio circuit 405 and converted into audio data, which is then processed by the audio data output processor 401 and then sent to, for example, another server via the radio frequency circuit 404, or the audio data is output to the memory 402 for further processing. The audio circuit 405 may also include an ear-bud jack to provide communication of peripheral headphones with the server.

The input unit 406 may be used to receive input numbers, character information, or user characteristic information (e.g., fingerprint, iris, facial information, etc.), and to generate keyboard, mouse, joystick, optical, or trackball signal inputs related to user settings and function control.

The power supply 407 is used to power the various components of the electronic device 400. Optionally, the power source 407 may be logically connected to the processor 401 through a power management system, so as to implement functions of managing charging, discharging, power consumption management, and the like through the power management system. The power supply 407 may also include one or more dc or ac power sources, recharging systems, power failure detection circuitry, power converters or inverters, power status indicators, or any other component.

Although not shown in fig. 6, the electronic device 400 may further include a camera, a sensor, a wireless fidelity module, a bluetooth module, etc., which are not described in detail herein.

In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

Therefore, the electronic equipment provided by the embodiment can effectively reduce the loss caused by the abnormal water quality and water level when the water quality and water level of the target tank body in the circulating water system are abnormal.

It will be understood by those skilled in the art that all or part of the steps of the methods of the above embodiments may be performed by instructions or by associated hardware controlled by the instructions, which may be stored in a computer readable storage medium and loaded and executed by a processor.

To this end, the present application provides a computer-readable storage medium, in which a plurality of computer programs are stored, and the computer programs can be loaded by a processor to execute the steps in any one of the device control methods provided by the present application. For example, the computer program may perform the steps of:

Wherein the storage medium may include: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

Since the computer program stored in the storage medium can execute the steps in any device control method provided in the embodiments of the present application, beneficial effects that can be achieved by any device control method provided in the embodiments of the present application can be achieved, and detailed descriptions are omitted here for the foregoing embodiments.

The above detailed description is provided for a device control method, apparatus, storage medium and electronic device provided in the embodiments of the present application, and a specific example is applied in the present application to explain the principle and the implementation of the present application, and the description of the above embodiments is only used to help understanding the method and the core idea of the present application; meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. An apparatus control method for controlling an operation of a drainage apparatus in a circulating water system, the apparatus control method comprising:

acquiring water quality monitoring data and water level monitoring data of a target tank body in the circulating water system, wherein the target tank body is connected with the drainage equipment;

and when the current water quality of the target tank body is normal, controlling the drainage equipment of the circulating water system to work according to the current water level change rate of the target tank body.

2. The equipment control method according to claim 1, wherein the diversion equipment comprises a water flow driving and conveying device and a water flow switching device, and the controlling of the diversion equipment of the circulating water system according to the current water level change rate of the target tank body specifically comprises:

if the current water level change rate of the target tank body is a water level rising rate and is greater than a first preset threshold value, increasing the working power of the water flow driving and conveying device so as to increase the water outlet flow of the target tank body in the circulating water system;

when the water flow driving and conveying device works at the increased working power for a first preset time length, if the current water level change rate of the target tank body is still the water level rising rate and is greater than the first preset threshold value, the water flow switching device is controlled to work, so that the water outlet flow of the target tank body is the first preset flow, and a water level rising alarm notice is sent to operation and maintenance personnel.

3. The apparatus control method according to claim 2, wherein the controlling of the operation of the drainage apparatus of the circulating water system according to the current water level change rate of the target tank body further comprises:

if the current water level change rate of the target tank body is a water level decrease rate and is greater than a second preset threshold value, reducing the working power of the water flow driving and conveying device so as to reduce the water outlet flow of the target tank body in the circulating water system;

when the water flow driving and conveying device works at the reduced working power for a second preset time length, if the current water level change rate of the target tank body is still the water level reduction rate and is greater than the second preset threshold value, the water flow switching device is controlled to work, so that the water outlet flow of the target tank body is the second preset flow, and a water level reduction alarm notice is sent to the operation and maintenance personnel.

4. The apparatus control method according to claim 1, wherein the water level information further includes a water level value, and after the determining whether the current water quality of the target tank body is normal according to the water quality information, further includes:

when the current water quality of the target tank body is abnormal and the current water level value of the target tank body is within the range of the preset water level value, the water outlet flow of the target tank body is adjusted by controlling the drainage equipment to work, so that the water quality of the target tank body is recovered to be normal.

5. The apparatus control method according to claim 4, wherein when the current water quality of the target tank body is abnormal and the current water level value of the target tank body is within a preset water level value range, the method adjusts the water outlet flow rate of the target tank body by controlling the operation of the drainage apparatus so as to restore the water quality of the target tank body to normal, specifically comprising:

when the current water temperature of the target tank body is abnormal and the current water level value of the target tank body is within the range of the preset water level value, the water outlet flow of the target tank body is increased by increasing the working power of the water flow driving and conveying device so as to reduce the water temperature of the target tank body, or the water outlet flow of the target tank body is reduced by reducing the working power of the water flow driving and conveying device so as to increase the water temperature of the target tank body.

6. The apparatus control method according to claim 1, further comprising, after the determining current water quality information and water level information of the target cell body:

when the current water level information of the target tank body does not meet the preset condition, acquiring working condition information of the circulating water system;

generating corresponding abnormal records according to the working condition information and the water level information which does not meet the preset conditions;

responding to a viewing request of an operation and maintenance person, and providing the corresponding abnormal record for the operation and maintenance person;

and responding to the abnormal processing operation of the operation and maintenance personnel, and generating a corresponding abnormal processing record.

7. An apparatus control device for controlling operation of a flow-inducing apparatus in a circulating water system, the apparatus control device comprising:

the acquisition module is used for acquiring water quality monitoring data and water level monitoring data of a target tank body in the circulating water system, and the target tank body is connected with the drainage equipment;

the first determining module is used for determining the current water quality information and water level information of the target pool body according to the water quality monitoring data and the water level monitoring data, wherein the water level information comprises a water level change rate;

and the control module is used for controlling the drainage equipment of the circulating water system to work according to the current water level change rate of the target tank body when the current water quality of the target tank body is normal.

8. The device control apparatus according to claim 7, wherein the drainage device comprises a water flow driving and conveying apparatus and a water flow switching apparatus, and the control module is specifically configured to:

when the current water level change rate of the target tank body is a water level rising rate and is greater than a first preset threshold value, increasing the working power of the water flow driving and conveying device so as to increase the water outlet flow of the target tank body in the circulating water system;

9. A computer-readable storage medium, characterized in that it stores a computer program adapted to be loaded by a processor for performing the steps of the device control method according to any one of claims 1-7.

10. An electronic device, characterized in that the electronic device comprises a memory in which a computer program is stored and a processor that executes the steps in the device control method according to any one of claims 1 to 7 by calling the computer program stored in the memory.