CN114637224B - Swimming pool management method, intelligent terminal and system - Google Patents

Abstract

The application relates to a swimming pool management method, an intelligent terminal and a system, which belong to the field of swimming pools, wherein the method comprises the steps of obtaining configuration data; judging whether the system configuration is completed or not based on the configuration data; if not, judging whether swimming pool equipment needs to be added; if the device is required to be added, entering a device adding mode; after the swimming pool equipment is added, entering an application scene configuration mode; and after the application scene configuration is completed, entering a swimming pool operation mode. The swimming pool responsible person can associate the equipment related to the swimming pool in a program, so that the control of one control equipment to a plurality of equipment is realized, and the effect of energy conservation is achieved.

Description

Swimming pool management method, intelligent terminal and system

Technical Field

The invention relates to the field of swimming pools, in particular to a swimming pool management method, an intelligent terminal and a swimming pool management system.

Background

Swimming pools, i.e. swimming pools, are special places for people to perform swimming exercises. Generally, they are classified into an open swimming pool and an indoor swimming pool, and they are also classified into a public swimming pool and a private swimming pool. With the development of economy and science, intelligent swimming pools have been developed and favored by people.

The intelligent swimming pool in the related art comprises a swimming pool body, a cleaning mechanism, a disinfection mechanism and a temperature adjusting mechanism. The cleaning mechanism, the disinfection mechanism and the temperature regulating mechanism are all provided with independent controllers, and related personnel configure parameters through the controllers in advance, and after the completion, the controllers control corresponding equipment to operate, so that the functions of automatic disinfection, cleaning, water changing, temperature control and the like are realized.

Aiming at the related technology, the inventor discovers that the mechanisms are independently controlled, the number of power consumption devices is increased, and energy sources are wasted.

Disclosure of Invention

In order to help to save energy, the invention provides a swimming pool management method, an intelligent terminal and a system.

In a first aspect, the present application provides a swimming pool management method that adopts the following technical scheme:

a method of pool management comprising:

acquiring configuration data;

judging whether the system configuration is completed or not based on the configuration data;

if not, judging whether swimming pool equipment needs to be added;

if the device is required to be added, entering a device adding mode;

after the swimming pool equipment is added, entering an application scene configuration mode;

and after the application scene configuration is completed, entering a swimming pool operation mode.

By adopting the technical scheme, whether the system configuration is finished is judged according to the existing configuration data; under the incomplete condition, the device adding mode is automatically entered, so that a swimming pool responsible person can associate the device related to the swimming pool in a program, then enter the application scene configuration mode, and finally enter the swimming pool operation mode. The swimming pool responsible person can associate different kinds and quantity of equipment into the same control equipment according to actual conditions, so that the control of one control equipment on a plurality of equipment is realized, the quantity of power consumption devices is reduced, and energy conservation is facilitated.

Optionally, the configuration data includes basic parameters, peripheral parameters, and application fields Jing Canshu;

the step of judging whether the system configuration is completed comprises the following steps:

judging whether the setting of the basic parameters is completed or not;

judging whether the peripheral equipment is successfully connected or not based on the peripheral equipment parameters;

judging whether the application scene is configured or not based on the application scene parameters;

if yes, judging that the system configuration is completed; otherwise, it is determined that the system configuration is not complete.

By adopting the technical scheme, when new peripheral equipment is required to be added, the new peripheral equipment is in communication connection with the control equipment. At this time, since the control logic in the control device does not include a new peripheral device, the new peripheral device belongs to a connection failure state, and further the control device determines that the system configuration is not completed.

Optionally, the step of determining whether the swimming pool device needs to be added includes:

outputting the selection information of the adding device;

receiving result information fed back based on the selection information of the adding device;

when the result information is yes, determining that the swimming pool equipment needs to be added;

and when the result information is negative, judging that the swimming pool equipment is not required to be added.

By adopting the technical scheme, the swimming pool owner can enter the equipment adding mode only by selecting yes after the control equipment outputs the equipment adding selection information, and the logic is simple and easy to control.

Optionally, the step of entering the device addition mode includes:

connecting the added swimming pool equipment;

acquiring added equipment parameters of the added swimming pool equipment;

and executing the judgment to judge whether the swimming pool equipment needs to be added.

By adopting the technical scheme, after the parameters of the adding equipment are obtained, the added swimming pool equipment and the swimming pool can be associated according to the parameters of the adding equipment, and are controlled together. In addition, after the parameters of the added device are obtained, it is re-determined whether the swimming pool device needs to be added. If not, the swimming pool responsible person selects whether to select; if necessary, the swimming pool responsible person can select. On one hand, the operation is simple, convenient and quick, and the efficiency of setting the swimming pool is improved; on the other hand, the number of times that the control equipment executes the steps for judging whether the system configuration is completed is reduced, so that the time consumed by adding the swimming pool equipment is shortened, and the energy source is saved.

Optionally, the step of obtaining the added device parameters of the added swimming pool device includes:

acquiring the parameters of the adding equipment;

judging whether the parameters of the adding equipment are successfully obtained or not;

if yes, executing the next step;

otherwise, outputting manual configuration information and receiving the added device parameters returned based on the manual configuration information.

By adopting the technical scheme, the control equipment preferentially and automatically acquires the added equipment parameters of the added swimming pool equipment; if the necessary subparameter is absent, or the obtained subparameter is abnormal, judging that the acquisition fails. At this time, manual configuration information is output, so that the swimming pool is convenient for manually inputting parameters of the adding equipment.

Optionally, when the swimming pool device is not required to be added, judging that the swimming pool device is added completely;

the step of entering the application scene configuration mode comprises the following steps:

acquiring the use requirement of a swimming pool;

searching for an application scene meeting the use requirement of the swimming pool from preset application scenes based on the configuration data and the added equipment parameters;

outputting the searched application scene, acquiring scene selection information, and determining the application scene based on the scene selection information;

outputting custom information and receiving custom data returned based on the custom information when the application scene is not found or the scene selection information is deselected;

and generating the corresponding application scene based on the custom data.

By adopting the technical scheme, the configuration mode with two sets of application scenes is prioritized for automatic configuration, and when the automatic configuration cannot be completed, the manual configuration is carried out, so that the obtained application scenes are more in line with the requirements of swimming pool users.

Optionally, the step of entering the swimming pool operation mode includes:

starting the application scene;

and controlling the corresponding swimming pool equipment based on the application scene.

By adopting the technical scheme, after the configuration of the application scene is completed, each connected swimming pool device is controlled based on the application scene, so that the aim of controlling a plurality of devices by one control device is fulfilled, and the energy is saved conveniently.

Optionally, after the starting the application scenario, the method further includes:

judging whether abnormal operation occurs or not;

if the operation abnormality does not occur, judging whether the equipment is abnormal in operation; the device comprises the pool device;

if the operation abnormality does not occur, judging whether the water quality is abnormal;

if the water quality abnormality does not occur, judging whether the user setting is changed or not;

if so, restarting the application scene based on the changed user setting;

if not, executing the step of judging whether abnormal operation occurs;

if the operation is abnormal, the operation is abnormal or the water quality is abnormal, a fault code is obtained;

judging a fault reason based on the fault code;

calling a corresponding preset repair strategy based on the fault cause;

judging whether the fault is relieved;

if the application scene is released, executing the starting application scene;

if not, running other preset repair strategies one by one;

judging whether the fault is relieved;

if not, controlling the equipment to stop running, and outputting a maintenance notice;

after outputting the maintenance notification, the determination is performed as to whether the failure is released.

Through adopting above-mentioned technical scheme, have self-detection and self-repairing function, help in time finding the unusual condition of swimming pool, reduce the emergence probability of inefficiency operation because of swimming pool equipment is unusual to be convenient for reduce the wasting of resources.

In a second aspect, the present application provides an intelligent terminal that adopts the following technical scheme:

an intelligent terminal comprising a memory having a pool management program stored therein and a processor for executing the above method when executing the pool management program.

By adopting the technical scheme, the method can be adopted when corresponding programs are executed, so that a plurality of swimming pool devices can be controlled by one control device, the number of control ends is reduced, and energy conservation is facilitated.

In a third aspect, the present application provides a swimming pool management system that adopts the following technical scheme:

a swimming pool management system comprises swimming pool equipment, a mobile terminal and the intelligent terminal;

and the swimming pool equipment and the mobile terminal are both in communication connection with the intelligent terminal.

By adopting the technical scheme, the energy conservation is facilitated.

In summary, when the system configuration is not completed, the device adding mode is entered, so that a swimming pool responsible person can associate relevant devices of the swimming pool to a program, the purpose that one control device controls the whole relevant devices of the swimming pool is achieved, the number of control ends is reduced conveniently, and energy conservation is facilitated.

Drawings

FIG. 1 is an overall flow chart of a method of pool management in accordance with an embodiment of the present application.

Fig. 2 is a flow chart of a swimming pool management method according to an embodiment of the present application after entering a device addition mode.

Fig. 3 is a flowchart of a swimming pool management method according to an embodiment of the present application after entering an application scenario configuration mode.

FIG. 4 is a flow chart of a method of pool management after entering a pool operational mode in accordance with an embodiment of the present application.

Fig. 5 is a block diagram of a pool management system in accordance with an embodiment of the present application.

FIG. 6 is a detailed frame diagram of a pool management system according to an embodiment of the present application

Reference numerals illustrate:

1. swimming pool equipment; 2. a mobile terminal; 3. and (5) an intelligent terminal.

Detailed Description

The embodiment of the application discloses a swimming pool management method, referring to fig. 1, the swimming pool management method includes:

s100, acquiring configuration data.

The configuration data includes base parameters, peripheral parameters, and application scenario parameters. Wherein the basic parameters include time, pool size, pool location, usage period and water quality requirements; the peripheral device parameters include the device type, model and connection status of the peripheral device; the application scene parameters include an application scene matching state. The connection state comprises connection success and connection failure, and the connection success proves that the control equipment can control the corresponding peripheral equipment; the connection failure proves that the control device is not able to control the corresponding peripheral device. Cases of connection failure include the successful communication of the peripheral device with the control device, but the specific operating logic is not set and the peripheral device is not communicatively connected with the control device. The application scene matching state comprises matching success and matching failure.

S200, judging whether the system configuration is completed or not based on the configuration data.

Specifically, S200 includes:

s210, judging whether the setting of the basic parameters is completed.

I.e. whether all basic parameters are stored in the control device, and if one or more of the basic parameters are absent, determining that the setting of the basic parameters is not completed.

S220, judging whether the peripheral equipment is successfully connected or not based on the peripheral equipment parameters.

It is easy to understand that whether all peripheral devices are successfully connected is judged mainly through the connection state in the peripheral device parameters; if the connection state of one or more peripheral devices is connection failure, judging that the peripheral devices are not connected successfully. It should be noted that the number of peripheral devices may be preset in the control device by the responsible person of the swimming pool, or may be automatically determined by the control device according to the obtained device type and model. For example, the control device detects that ten device types and eleven model numbers are stored in the control device, wherein two model numbers are the same device type, but only ten connection states are successful, and connection failure of one peripheral device can be determined at the moment.

S230, judging whether the application scene is configured or not based on the application scene parameters.

The application scene is preset in a plurality of application scenes, and in the embodiment, the application scene comprises a single function scene, a multi-function scene and a full-function scene. The single-function scene comprises a pH detection scene, a circulating filtering scene, an automatic constant temperature scene, an automatic disinfection scene, an automatic dosing scene, a water quality detection scene and an automatic illumination scene; the multi-functional scene is composed of at least two single-functional scenes, but the multi-functional scene does not contain all single-functional scenes; for example, the multi-functional scenario may be pH detection scenario+auto-administration scenario+loop filtration scenario, i.e. the functions in all three single-functional scenarios will be performed; the full-function scene includes all single-function scenes.

And judging that the configuration of the application scene is finished as long as the application scene is set.

If the judgment results of S210, S220 and S230 are all yes, judging that the system configuration is completed; otherwise, judging that the system configuration is not finished. It should be noted that the case where the system configuration is not completed also includes the first start-up of the control device, no peripheral device connection, and abnormal operation of the peripheral device.

When the system configuration is not completed, step S300 is performed to determine whether the swimming pool device needs to be added.

Specifically, S300 includes:

s310, outputting the selection information of the adding device.

The control device outputs the adding device selection information to the display terminal connected in advance.

S320, receiving result information fed back based on the added device selection information.

The result information includes yes and no. When the display receives the selection information of the adding device, the selection box is popped up, when the confirmation button in the selection box is triggered, the result information is yes, and when the cancellation button in the selection box is triggered, the result information is no.

And when the result information is yes, executing S330, and judging that the swimming pool equipment needs to be added.

And when the result information is negative, executing S340, and judging that the swimming pool equipment is not required to be added.

In addition, in another embodiment, in order to facilitate the swimming pool responsible person to add the swimming pool device, namely to add the peripheral device, an active adding entrance can be provided, namely to display an active adding label on the display end of the control device, and when the active adding label is clicked, the swimming pool device is considered to be needed to be added. In this embodiment, the swimming pool devices are peripheral devices, such as circulating water pumps, electromagnetic valves, constant temperature heating devices, disinfection devices, etc.

When the swimming pool device needs to be added, executing step S400, and entering a device adding mode.

Referring to fig. 2, after entering the device addition mode, it includes:

s410, connecting the added swimming pool equipment.

I.e., establishes a communication connection with the added pool device, subject to data interaction. The manner of communication connection includes wired connection and wireless connection, such as WIFI connection, twisted pair connection, etc.

S420, acquiring the added device parameters of the added swimming pool device.

Specifically, S420 includes:

s421, acquiring the parameters of the adding device.

The add device parameters include a device type and model of the add device.

S422, judging whether the acquisition of the added device parameters is successful.

I.e. to verify whether the additional device parameter was obtained or not and to verify whether the obtained additional device parameter is a valid value or not. Wherein, the null value and the messy code are both regarded as invalid. And when the adding device parameter is not successfully obtained and the obtained adding device parameter is an invalid value, judging that the adding device parameter is failed to obtain.

If the acquisition is successful, executing step S300; otherwise, step S423 is executed to output the manual configuration information and accept the additional device parameters returned based on the manual configuration information.

The control device transmits the manual configuration information to the display end, and the display end outputs a preset device parameter table based on the manual configuration information.

Referring to fig. 1, after step S400, step S500 is performed to determine whether the addition of the swimming pool device is completed. It cannot be understood that, since in the present embodiment, after the device addition mode is entered, each time step S422 or S423 is executed, the process returns to S300. And therefore, when S300 is no, it is considered that the addition of the swimming pool device is completed.

After the addition of the swimming pool device is completed, step S600 is executed to enter an application scenario configuration mode.

Specifically, referring to fig. 3, the steps after entering the application scenario configuration mode include:

s610, acquiring the use requirement of the swimming pool.

In order to facilitate the control device to automatically match application scenes according to the use requirements of the swimming pool, a plurality of use requirements of the swimming pool can be preset for the swimming pool responsible person to select. In addition, the swimming pool can also be input into the swimming pool use requirement by the swimming pool responsible person. To facilitate understanding, the pool use requirement may be that automatic disinfection be required.

S620, searching an application scene meeting the use requirement of the swimming pool from preset application scenes based on the configuration data and the added device parameters.

Specifically, the control device searches for an application scene which can be matched with the use requirement of the swimming pool and the added swimming pool device from preset application scenes according to the type and the number of the added swimming pool devices. For example, when the pool use requirement is self-disinfection, then all application scenes including the self-disinfection scene are found out.

S630, judging whether the application scene is found.

If so, S640 is executed, the searched application scene is output, and scene selection information is acquired.

The scene selection information comprises any output application scene and cancellation.

If not, S650 is executed to output the custom information and receive the custom data returned based on the custom information.

After S640, S641 is further included for determining whether the scene selection information is cancel.

If yes, then execution S650; otherwise, step S642 is performed to determine the application scene based on the scene selection information. Namely, configuring the application scene as the application scene represented by the scene selection information.

After step S650, step S660 is performed to generate a corresponding application scenario based on the custom data.

Specifically, the custom data includes added operating parameters and operating logic of the pool device.

Referring to fig. 1, S700, it is determined whether the application scenario is configured.

It is not easy to understand that after determining the application scenario, it is determined that the application scenario configuration is completed. There are two ways of determining the application scenario, one is that S642 is executed; the other is that S660 is performed.

If the configuration is completed, executing S800, and entering a swimming pool operation mode; if the configuration is not completed, step S600 is performed.

Referring to fig. 4, after entering the pool operation mode, S900 is performed to start an application scenario.

S910, controlling the corresponding swimming pool equipment based on the application scene.

I.e., control of the pool device based on the control logic that is complete of the settings.

At the same time as S910, S920 is performed to determine whether an operation abnormality has occurred.

By abnormal operation, it is meant whether or not an abnormal operation of the control device has occurred. The method specifically comprises the steps of abnormal display function, abnormal input function, abnormal intranet communication, abnormal extranet communication, abnormal data acquisition function, abnormal output control and abnormal processing function. The causes of the abnormality include line failure, component failure of the control device, network failure, and program failure.

When an operation abnormality occurs in the control device, S921 is executed; when the control device is not abnormal in operation, S930 is executed to determine whether the device is abnormal in operation.

Wherein the apparatus comprises a pool apparatus and a pool body.

The equipment operation abnormality is different according to the equipment types, for example, communication state abnormality, power supply state abnormality, operation state abnormality and water flow acquisition abnormality can occur to the circulating water pump and the electromagnetic valve; the water quality detection equipment may have abnormal communication state, abnormal power supply state, abnormal sensor state and abnormal data acquisition; the constant temperature heating equipment may have abnormal communication state, abnormal power supply state, abnormal heating state and abnormal temperature acquisition; the disinfection equipment may have abnormal communication state, abnormal power supply state and abnormal disinfection state; the medication administration device may be abnormal in communication state, abnormal in power supply state, and abnormal in medication administration state. The cause of the abnormality may be a line fault, a component fault of the apparatus, an internal program fault, a mechanical fault, or the like.

When an abnormality occurs in the operation of the apparatus, step S921 is executed; when no operation abnormality occurs in the equipment, step S940 is executed to determine whether or not the water quality is abnormal.

Specifically, the abnormal water quality includes whether chlorine content, acid-base number, dissolved oxygen value, turbidity value, water temperature, salinity value, urea value and ozone content are not in the corresponding preset threshold value range, and if not, the abnormal water quality is judged.

When abnormality occurs in the water quality, step S921 is performed; when no abnormality occurs in the water quality, step S950 is executed to determine whether or not the user setting is changed.

Wherein the user-set changes include display of control devices, time correction, pool size, age, water quality requirement changes, and operational parameter changes and operational logic changes of the pool device.

If not, executing step S920; if so, step S960 is performed to restart the application scenario based on the changed user setting. I.e. after step S960, step S900 is performed.

S921, acquiring a fault code.

The fault codes are pre-stored in the control equipment, and the fault codes are set according to different abnormal reasons.

And S922, judging the fault reason based on the fault code.

Namely, based on the fault code, the corresponding fault reason is called in a preset fault table.

S923, calling a corresponding preset repair strategy based on the fault reason.

S924, judging whether the fault is released.

If yes, executing step S900; otherwise, step S925 is executed to run other preset repair policies one by one.

S926, judging whether the fault is released.

If yes, executing step S900; otherwise, step S927 is executed, the control device stops operating, and a maintenance notification is output.

The implementation principle of the swimming pool management method in the embodiment of the application is as follows: after the parameters of the adding equipment are obtained, the added swimming pool equipment and the swimming pool can be associated according to the parameters of the adding equipment, and the added swimming pool equipment and the swimming pool are controlled together. In addition, after the parameters of the added device are obtained, it is re-determined whether the swimming pool device needs to be added. If not, the swimming pool responsible person selects whether to select; if needed, the swimming pool responsible person can select, which is helpful for saving energy.

The embodiment of the application also discloses an intelligent terminal, which comprises a memory and a processor, wherein the memory stores a swimming pool management program, and the processor is used for executing the swimming pool management method when executing the swimming pool management program.

The embodiment of the application also discloses a swimming pool management system, referring to fig. 5, comprising swimming pool equipment 1, a mobile terminal 2 and an intelligent terminal 3. The swimming pool device 1 and the mobile terminal 2 are both in communication connection with the intelligent terminal 3. Specifically, in connection with fig. 6, the swimming pool apparatus 1 includes a circulating water pump, a battery valve, a water quality detecting apparatus, a constant temperature heating apparatus, a sterilizing apparatus, and a dosing apparatus.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (7)

1. A method of pool management comprising:

acquiring configuration data;

judging whether the system configuration is completed or not based on the configuration data;

if not, judging whether swimming pool equipment needs to be added;

if the device is required to be added, entering a device adding mode;

after the swimming pool equipment is added, entering an application scene configuration mode;

after the configuration of the application scene is completed, entering a swimming pool operation mode;

the step after entering the equipment adding mode comprises the following steps:

connecting the added swimming pool equipment;

acquiring added equipment parameters of the added swimming pool equipment;

executing the judgment whether the swimming pool equipment needs to be added;

the step of obtaining the added device parameters of the added swimming pool device comprises the following steps:

acquiring the parameters of the adding equipment;

judging whether the parameters of the adding equipment are successfully obtained or not;

if yes, executing the next step;

otherwise, outputting manual configuration information and receiving the added equipment parameters returned based on the manual configuration information;

when the swimming pool equipment is not required to be added, judging that the swimming pool equipment is added completely;

the step of entering the application scene configuration mode comprises the following steps:

acquiring the use requirement of a swimming pool;

searching for an application scene meeting the use requirement of the swimming pool from preset application scenes based on the configuration data and the added equipment parameters;

outputting the searched application scene, acquiring scene selection information, and determining the application scene based on the scene selection information;

outputting custom information and receiving custom data returned based on the custom information when the application scene is not found or the scene selection information is deselected;

and generating the corresponding application scene based on the custom data.

2. A method of pool management as claimed in claim 1, wherein: the configuration data includes base parameters, peripheral parameters, and application fields Jing Canshu;

the step of judging whether the system configuration is completed comprises the following steps:

judging whether the setting of the basic parameters is completed or not;

judging whether the peripheral equipment is successfully connected or not based on the peripheral equipment parameters;

judging whether the application scene is configured or not based on the application scene parameters;

if yes, judging that the system configuration is completed; otherwise, it is determined that the system configuration is not complete.

3. A method of pool management as claimed in claim 1 or claim 2, wherein: the step of determining whether or not the pool device needs to be added comprises the steps of:

outputting the selection information of the adding device;

receiving result information fed back based on the selection information of the adding device;

when the result information is yes, determining that the swimming pool equipment needs to be added;

and when the result information is negative, judging that the swimming pool equipment is not required to be added.

4. A method of pool management as claimed in claim 1, wherein:

the steps after entering the pool operation mode include:

starting the application scene;

and controlling the corresponding swimming pool equipment based on the application scene.

5. A method of pool management as claimed in claim 4, wherein: after the application scene is started, the method further comprises the following steps:

judging whether abnormal operation occurs or not;

if the operation abnormality does not occur, judging whether the equipment is abnormal in operation; the device comprises the pool device;

if the operation abnormality does not occur, judging whether the water quality is abnormal;

if the water quality abnormality does not occur, judging whether the user setting is changed or not;

if so, restarting the application scene based on the changed user setting;

if not, executing the step of judging whether abnormal operation occurs;

if the operation is abnormal, the operation is abnormal or the water quality is abnormal, a fault code is obtained;

judging a fault reason based on the fault code;

calling a corresponding preset repair strategy based on the fault cause;

judging whether the fault is relieved;

if the application scene is released, executing the starting application scene;

if not, running other preset repair strategies one by one;

judging whether the fault is relieved;

if not, controlling the equipment to stop running, and outputting a maintenance notice;

after outputting the maintenance notification, the determination is performed as to whether the failure is released.

6. An intelligent terminal, includes memory and treater, its characterized in that: the memory having a pool management program stored therein, the processor being configured to perform the method of any one of claims 1-5 when the pool management program is executed.

7. A pool management system, characterized by: comprising a swimming pool device (1), a mobile terminal (2) and an intelligent terminal (3) according to claim 6;

the swimming pool device (1) and the mobile terminal (2) are both in communication connection with the intelligent terminal (3).

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