CN113834178A - Control method, control equipment, air conditioning system and storage medium - Google Patents

Abstract

The embodiment of the application discloses a control method, which comprises the following steps: if a first control instruction for sterilizing a target air conditioning device is received, controlling the movable device to move to a first target area where the target air conditioning device is located; the movable equipment is at least used for outputting air sterilization and disinfection substances to the air so as to realize the function of sterilizing and disinfecting the air; controlling the operating mode of the movable equipment to be switched to a disinfection mode so as to output the air sterilization and disinfection substance to the first target area; and controlling the working mode of the target air conditioning equipment to be switched to an air supply mode so as to convey the air sterilization and disinfection substance into the target air conditioning equipment, thereby realizing the disinfection of the target air conditioning equipment. The embodiment of the application also discloses control equipment, an air conditioning system and a storage medium.

Description

Control method, control equipment, air conditioning system and storage medium

Technical Field

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

Background

At present, air conditioning equipment has a function of heating or cooling according to the needs of users, and is widely installed and applied in various application scenes. With the wide application of air conditioning equipment, the requirements of users on the air conditioning equipment are higher and higher. Air conditioning equipment is also increasingly installed in various environments such as homes, work, and the like. Air conditioning equipment is in the use, can produce steam usually, and steam can lead to the air conditioner inside to be in humid environment for a long time, makes the inside various bacteriums that breed of air conditioning equipment, and these bacteriums lead to the user to appear lung infection and respiratory disease etc. along with the wind entering into the air that air conditioning equipment blew off, has seriously influenced user's healthy.

At present, in order to prevent the above situations, usually, after a user does not use the air conditioning equipment for a period of time, when the user uses the air conditioning equipment again, the user manually cleans the air conditioning equipment, but there is a situation that the cleanliness is insufficient, even the user never cleans the air conditioning equipment, so that the disinfection efficiency of the air conditioning equipment is low due to serious limitation on the disinfection of the air conditioning equipment.

Content of application

In order to solve the technical problem, embodiments of the present application are expected to provide a control method, a device, an air conditioning system, and a storage medium, so as to solve the problem that disinfection for air conditioning equipment is limited at present, implement a method for effectively disinfecting air conditioning equipment, and improve disinfection efficiency for air conditioning equipment.

The technical scheme of the application is realized as follows:

in a first aspect, a control method is applied to a control device, and the method includes:

if a first control instruction for sterilizing a target air conditioning device is received, controlling the movable device to move to a first target area where the target air conditioning device is located; the movable equipment is at least used for outputting air sterilization and disinfection substances to the air so as to realize the function of sterilizing and disinfecting the air;

controlling the operating mode of the movable equipment to be switched to a disinfection mode so as to output the air sterilization and disinfection substance to the first target area;

and controlling the working mode of the target air conditioning equipment to be switched to an air supply mode so as to convey the air sterilization and disinfection substance into the target air conditioning equipment, thereby realizing the disinfection of the target air conditioning equipment.

In a second aspect, a control apparatus, the control apparatus comprising: a processor, a memory, and a communication bus; wherein:

the memory to store executable instructions;

the communication bus is used for realizing communication connection between the processor and the memory;

the processor is used for executing the control program stored in the memory and realizing the following steps: if a first control instruction for sterilizing a target air conditioning device is received, controlling the movable device to move to a first target area where the target air conditioning device is located; controlling the operating mode of the movable equipment to be switched to a sterilization mode so as to output an air sterilization and disinfection substance to the first target area; and controlling the working mode of the target air conditioning equipment to be switched to an air supply mode so as to convey the air sterilization and disinfection substance into the target air conditioning equipment, thereby realizing the disinfection operation of the target air conditioning equipment.

In a third aspect, an air conditioning system, the air conditioning system comprising: the control device, the mobile device and the at least one air conditioning device as described above; wherein:

the movable equipment is at least used for generating and outputting an air sterilization and disinfection substance;

the at least one air conditioning device is used for at least realizing a cooling or heating function; wherein at least one of the air conditioning units comprises a target air conditioning unit;

the control device is used for realizing the steps of the control method.

In a fourth aspect, a storage medium has stored thereon a control program which, when executed by a processor, implements the steps of the control method as in any one of the above.

In the embodiment of the application, if the control device receives a first control instruction for sterilizing the target air-conditioning device, after the control device controls the movable device to move to a first target area where the target air-conditioning device is located, the control device controls the working mode of the movable device to be switched to the sterilization mode, and controls the working mode of the target air-conditioning device to be switched to the air supply mode. Like this, through controlling portable disinfecting equipment output air disinfection and isolation material in the first target zone of target air conditioning equipment place to target air conditioning equipment switches to the air supply mode and carries out the air supply operation, makes the inside that air disinfection and isolation material can get into target air conditioning equipment, realizes disinfecting target air conditioning equipment, has solved the limited problem of disinfection function to air conditioning equipment at present, has realized that one kind carries out effective sterile function to air conditioning equipment, has improved the disinfection efficiency to air conditioning equipment.

Drawings

Fig. 1 is a first schematic flowchart of a control method according to an embodiment of the present disclosure;

fig. 2 is a schematic flowchart illustrating a second control method according to an embodiment of the present disclosure;

fig. 3 is a third schematic flowchart of a control method according to an embodiment of the present application;

fig. 4 is a fourth schematic flowchart of a control method according to an embodiment of the present application;

fig. 5 is a fifth flowchart of a control method according to an embodiment of the present application;

fig. 6 is an application scenario of a control method provided in the embodiment of the present application;

fig. 7 is a sixth schematic flowchart of a control method according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of a control device according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of an air conditioning system according to 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.

An embodiment of the present application provides a control method, which is applied to a control device and is shown in fig. 1, and the method includes the following steps:

step 101, if a first control instruction for sterilizing the target air conditioning equipment is received, controlling the movable equipment to move to a first target area where the target air conditioning equipment is located.

Wherein, the mobile device is at least used for outputting air sterilization and disinfection material to the air to realize the function of sterilization and disinfection to the air.

In this embodiment of the application, the control device may be a device that is independent from the target air conditioning device and the mobile device, for example, may be a central control device, or an intelligent home control device, or may be a device with a control function that is provided in the target air conditioning device and/or the mobile device. The target air conditioner is typically a wall-mounted air conditioner or a cabinet air conditioner. The movable equipment can be movable equipment at least having the function of outputting air sterilization and disinfection substances, and further, the movable equipment can also have the functions of aromatherapy, air supply and the like. The first control instruction for sterilizing the target air conditioning equipment may be sent to the control equipment by a user through a third-party control equipment such as a remote controller or an intelligent mobile device in communication connection with the control equipment, or may be obtained by directly performing control operation on an operable case of the mobile equipment or the target air conditioning equipment. After receiving the first control instruction, the control device controls the mobile device to move to the first target area where the target air conditioning device is located in response to the first control instruction, where it is to be noted that if the mobile device is already located in the first target area of the target air conditioning device, it is not necessary to control the mobile device to move to the first target area.

And step 102, controlling the working mode of the movable equipment to be switched to a disinfection mode.

Wherein the operating mode of the movable apparatus is controlled to be switched to the sterilization mode to output the air sterilizing substance to the first target area.

In the embodiment of the present application, after the mobile device is moved to the first target area, the operating mode of the mobile device is controlled to be switched to the disinfection mode, where the operating mode may be switched from a power-off mode to the disinfection mode, or may be switched from a corresponding operating mode when the mobile device is already in a power-on state, for example, a sleep mode or an operating mode supportable by other mobile devices to the disinfection mode.

And 103, controlling the working mode of the target air conditioning equipment to be switched to an air supply mode.

The working mode of the target air conditioning equipment is controlled to be switched to the air supply mode so as to convey air sterilization and disinfection substances into the target air conditioning equipment, and the target air conditioning equipment is disinfected.

In the embodiment of the present application, the operation mode of the target air conditioning device is controlled to be switched to an air supply mode, where the air supply mode may be a mode in which the target air conditioning device supplies air when being in a cooling mode or a heating mode, or may be a mode in which only air is supplied when the target air conditioning device does not perform cooling or heating, and may be specifically determined according to an actual situation, and is not specifically limited herein. Because the target air conditioning equipment needs to suck air from the first target area when in the air supply mode, the target air conditioning equipment can suck air sterilization and disinfection substances output to the first target area by the movable equipment while sucking the air, and thus, the inside of the target air conditioning equipment can be sterilized and disinfected when the air sterilization and disinfection substances pass through the inside of the target air conditioning equipment.

In the embodiment of the application, if the control device receives a first control instruction for sterilizing the target air-conditioning device, after the control device controls the movable device to move to a first target area where the target air-conditioning device is located, the control device controls the working mode of the movable device to be switched to the sterilization mode, and controls the working mode of the target air-conditioning device to be switched to the air supply mode. Like this, through controlling portable disinfecting equipment output air disinfection and isolation material in the first target zone of target air conditioning equipment place to target air conditioning equipment switches to the air supply mode and carries out the air supply operation, makes the inside that air disinfection and isolation material can get into target air conditioning equipment, realizes disinfecting target air conditioning equipment, has solved the limited problem of disinfection function to air conditioning equipment at present, has realized that one kind carries out effective sterile function to air conditioning equipment, has improved the disinfection efficiency to air conditioning equipment.

Based on the foregoing embodiments, an embodiment of the present application provides a control method, which is applied to a control device and is shown in fig. 2, and the method includes the following steps:

step 201, if a first control instruction for sterilizing the target air conditioning equipment is received, controlling the movable equipment to move to a first target area where the target air conditioning equipment is located.

Wherein, the mobile device is at least used for outputting air sterilization and disinfection material to the air to realize the function of sterilization and disinfection to the air.

In the embodiment of the present application, a control device is taken as an example of a device that is independent from a target air conditioning device and a mobile device, and it is assumed that a user performs a control operation on the control device to obtain a first control instruction for disinfecting the target air conditioning device, and controls the mobile device, which is at least used for outputting an air sterilization and disinfection substance, to a first target area where the target air conditioning device is located, where the first target area may be a space where the target air conditioning device is located.

Step 202, obtaining a target environment parameter value in the first target area.

In the embodiment of the present application, obtaining the target environmental parameter value in the first target area may be achieved by a target environmental parameter value detection device disposed on the target air conditioning equipment, or a target environmental parameter value detection device disposed on the mobile equipment, or another independent target environmental parameter value detection device having a communication connection with the control device. The target ambient parameter value includes at least an air humidity value in the first target area and, further, may include an ambient temperature in the first target area.

And step 203, controlling the working mode of the movable equipment to be switched to a disinfection mode based on the target environment parameter value.

Wherein the operating mode of the movable apparatus is controlled to be switched to the sterilization mode based on the target environmental parameter value to output the air sterilizing substance to the first target area.

In the embodiment of the application, the control device determines whether to control the operation mode of the movable device to the disinfection mode according to the magnitude of the target environment parameter value. And controlling the movable equipment to switch to the disinfection mode only when the target environment parameter value meets a certain condition.

And step 204, controlling the working mode of the target air conditioning equipment to be switched to an air supply mode.

The working mode of the target air conditioning equipment is controlled to be switched to the air supply mode so as to convey air sterilization and disinfection substances into the target air conditioning equipment, and the target air conditioning equipment is disinfected.

In the embodiment of the present application, when the movable device is controlled to be switched to the sterilization mode, the operation mode of the control target air conditioning device is switched to the air blowing mode. At this time, the movable device can sterilize and disinfect the target air conditioning device, and simultaneously, the movable device can also sterilize and disinfect the air in the first target area.

In some application scenarios, step 204 may be performed before step 203, or may be performed simultaneously with step 203. However, in order to improve the efficiency of sterilization and disinfection of the target air conditioning equipment, the mobile equipment is usually controlled to be in the disinfection mode, and after the air sterilization and disinfection substance is output for a certain time, the concentration of the air sterilization and disinfection substance in the first target area is increased, and then the working mode of the target air conditioning equipment is controlled to be switched to the air supply mode. In the process, the target environmental parameter values are fully considered, and the sterilization and disinfection efficiency of the air conditioning equipment is effectively improved.

Based on the foregoing embodiments, in other embodiments of the present application, step 203 may be implemented by steps 203a to 203b, or step 203 c:

step 203a, if the air humidity value is greater than the first humidity threshold, controlling the target air conditioning equipment to switch to the dehumidification mode.

Wherein the target environment parameter value comprises at least an air humidity value.

In the embodiment of the application, the first humidity threshold is an empirical humidity value obtained through a large number of experiments, and when the air humidity value is greater than the first humidity threshold, the sterilization efficiency of the air conditioning equipment is low. And when the air humidity value in the first target area is smaller than the first humidity threshold value, controlling the target air conditioning equipment to switch to an initial mode, enabling the target air conditioning equipment to perform dehumidification processing on the air in the first target area, and performing drying processing on the air in the first target area so as to reduce the humidity of the air in the first target area.

And 203b, under the condition that the target air conditioning equipment is switched to the dehumidification mode, acquiring the air humidity value in the first target area according to preset interval time, and controlling the working mode of the movable equipment to be switched to the disinfection mode until the air humidity value is detected to be smaller than or equal to a second humidity threshold value.

Wherein the second humidity threshold is less than or equal to the first humidity threshold.

In the embodiment of the present application, the preset interval time is an empirical value obtained through a large number of experiments, and may be, for example, 1 second(s), 5 minutes (min), or the like. The second humidity threshold may be an empirical humidity value obtained from a number of experiments. And when the target air conditioning equipment is switched to the dehumidification mode, dehumidifying the air in the first target area, collecting the air humidity value in the first target area at preset intervals, and controlling the working mode of the movable equipment to be switched to the disinfection mode when the air humidity value in the first target area is detected to be smaller than or equal to the second humidity threshold value. Therefore, when the air humidity value in the first target area is high, the target air conditioning equipment is adopted to dehumidify the air in the first target area, so that the air humidity is in a range with high sterilization and disinfection efficiency, and the sterilization and disinfection efficiency of the target air conditioning equipment is effectively guaranteed.

And 203c, if the air humidity value is less than or equal to the first humidity threshold value, controlling the working mode of the movable equipment to be switched to the disinfection mode.

In the embodiment of the application, when the air humidity value is low, the target air conditioning equipment is not needed to dehumidify the air in the first target area, and the movable equipment can be directly controlled to be switched to the disinfection mode, so that the sterilization and disinfection process can be realized when the target air conditioning equipment is in the air supply mode.

Based on the foregoing embodiment, in another embodiment of the present application, referring to fig. 3, after the control device executes step 203, the control device is further configured to execute step 205:

step 205, start timer to start timing.

Correspondingly, step 204 may be implemented by step 204 a:

and step 204a, controlling the target air conditioning equipment to enter an air supply mode when the timing duration of the timer is the first duration.

In this embodiment of the application, the first duration may be a duration empirical value obtained through a large number of experiments, and after the movable device is switched to the disinfection mode for the first duration, the concentration of the air sterilization and disinfection substance in the air in the first target area has been increased to a certain concentration, so that when the target air conditioning device enters the air supply mode, the target air conditioning device can be effectively sterilized and disinfected.

Based on the foregoing embodiment, in another embodiment of the present application, referring to fig. 4, after the control device performs step 204a, the control device is further configured to perform 206 to 207:

and step 206, controlling the movable equipment to be switched from the disinfection mode to the first mode when the target air conditioning equipment works in the air supply mode for a second time.

Wherein the first mode is different from the sterilization mode.

In this embodiment of the application, the second duration may be a duration empirical value that can effectively sterilize and disinfect the target air conditioning equipment when the air sterilizing and disinfecting substance output by the mobile equipment is sterilized and disinfected according to a large number of experiments. The first mode may be a power-off mode, or may be another operation mode selected by the user, such as an aromatherapy mode or an air supply mode.

And step 207, controlling the target air conditioning equipment to be switched from the air supply mode to the second mode when the movable equipment exits the disinfection mode for the third time.

Wherein the second mode is different from the blowing mode.

In the embodiment of the present application, the third period is an empirical value obtained by a large number of experiments. The second mode may be a shutdown mode, a cooling mode, a heating mode, or the like. After the movable equipment exits the disinfection mode, the target air conditioning equipment continues to adopt the air supply mode to supply air, so that the interior of the target air conditioning equipment is further dried, and the condition that bacteria are bred again due to the moisture in the interior of the target air conditioning equipment is effectively prevented.

Based on the foregoing embodiment, in other embodiments of the present application, when the control device executes step 203b, the following steps a11 to a14 may be implemented:

step a11, detecting the air humidity value in the first target area according to the preset interval time under the condition that the target air conditioner is switched to the dehumidification mode.

After the control device executes the step a11, the control device may select to execute the step a12 or execute the steps a 13-a 14:

and a12, controlling the working mode of the movable equipment to be switched to the disinfection mode if the air humidity value is less than or equal to the second humidity threshold value in the range that the time length of the target air conditioning equipment working in the dehumidification mode is less than the fourth time length.

In the embodiment of the present application, the fourth period is an empirical value obtained through a large number of experiments. When the target air conditioning equipment is in the dehumidification mode and the time length of dehumidification treatment of the air in the first target area is shorter than the fourth time length and the corresponding air humidity value is detected to be smaller than or equal to the second humidity threshold value, the working mode of the movable equipment is controlled to be switched to the disinfection mode.

Step a13, when the time length of the target air conditioning equipment working in the dehumidification mode is longer than or equal to the fourth time length, if the air humidity value is greater than the second humidity threshold value, generating a prompt message for indicating that the current air humidity value is high.

In this embodiment of the application, when the duration that the target air conditioning device is in the dehumidification mode to perform the dehumidification processing on the air in the first target area is longer than or equal to the fourth duration, if the air humidity value in the first target area is not reduced to be lower than the humidity threshold, it indicates that the air humidity in the first target area is relatively high, and in order to reduce energy consumption, that is, power consumption, of the target air conditioning device, the control device generates the prompt message that the current air humidity value is high. The prompt message can be in a text form, an icon form, even a voice form and the like.

And step a14, outputting prompt information.

In this embodiment of the application, the prompt information may be displayed on a display area corresponding to the control device. When the control device is set on the target air conditioning device, the corresponding display area may be a display area set on the target air conditioning device; when the control device is arranged on the movable device, the corresponding display area can be a display area arranged on the movable device; or the environment parameter value is displayed in the equipment where the environment parameter value detection device is located or the display area corresponding to the environment parameter value detection equipment; or the display can be in a display area set by the control device; or the control device sends the information to the intelligent mobile terminal device with the output including the display function and the communication connection with the control device.

Based on the foregoing embodiments, in other embodiments of the present application, referring to fig. 5, the control device is further configured to execute steps 208 to 210:

and 208, if a second control instruction for disinfecting the second target area is received, controlling the movable equipment to move to the second target area.

In the embodiment of the application, the second control instruction is used for instructing to disinfect only the second target area without disinfecting the air conditioning equipment in the second target area, and at the moment, the movable equipment is directly controlled to move to the second target area.

And step 209, controlling the working mode of the movable equipment to be switched to the disinfection mode.

And controlling the working mode of the movable equipment to be switched to a disinfection mode so as to output air sterilization and disinfection substances to the second target area, and realizing the disinfection operation of the air in the second target area.

And step 210, controlling the movable equipment to switch to the first mode when the movable equipment works in the disinfection mode for the fifth time length.

Wherein the first mode is different from the sterilization mode.

In the embodiment of the present application, the fifth time period may be an empirical time period determined empirically based on the spatial size of the second target area, the rate at which the mobile device outputs the air sanitizer, and the concentration of the output air sanitizer, so that the air in the second target area can be completely sterilized.

Based on the foregoing embodiments, in other embodiments of the present application, the air sanitizer is aqueous hypochlorous acid vapor.

In the embodiment of the present application, the air sterilizing and disinfecting substance may be a substance that can be used to disinfect air, and may be, for example, chlorine disinfectant, peracetic acid, glutaraldehyde, chlorine dioxide, or the like. Since the hypochlorous acid aqueous solution can be generated by electrolyzing sodium chloride instant saline water by movable equipment, the hypochlorous acid aqueous solution can be preferably used as an air sterilizing and disinfecting substance to disinfect air. Wherein, after the movable equipment is used for decomposing the saline solution to obtain the hypochlorous acid aqueous solution, the movable equipment can use the fan to evaporate the hypochlorous acid aqueous solution on the sterilization net absorbing the hypochlorous acid aqueous solution into the air, thereby realizing the scheme of outputting the steam of the hypochlorous acid aqueous solution into the air.

Illustratively, the sterilization and virucidal principle of hypochlorous acid is roughly as follows, and since hypochlorous acid is very unstable, three reactions occur in the solution, respectively as follows: reaction 1: 2HClO → 2HCl + O2 ═ g; reaction 2: HClO + HCl → H2O + Cl2 ≠; reaction 3: R-NH-R + HClO → R2NCl + H2O. Wherein, nascent oxygen [ O ] can be generated in the reaction 1, and the nascent oxygen has strong oxidizability, so that substances such as proteins on thalli and viruses are denatured, and pathogenic microorganisms are killed; the generation of chloride (Cl) ions by reaction 2 can significantly change the osmotic pressure of bacteria and virosomes, making their cells inactive and dead; through the reaction 3, the hypochlorous acid HClO can act on cell walls and virus shells in the sterilization and virus killing processes, has small molecules and no electric charge due to hypochlorous acid, can permeate into bacteria and virus bodies, and can generate oxidation reaction with organic macromolecules such as bacterial virus body protein, nucleic acid, enzyme and the like, thereby killing pathogenic microorganisms. R-NH-R is used to represent organic polymers such as bacterial virion proteins, nucleic acids, and enzymes.

Based on the foregoing embodiments, the present application provides an application example of a control method, and an application scenario of the control method may be as shown in fig. 6, where the control method includes a target air conditioner a and a movable sterilizer B, where a function of the control device to control the target air conditioner a is implemented by a processor of the target air conditioner, and a function of the control device to control the sterilizer B is implemented by a processor of the sterilizer B, so that communication between the target air conditioner a and the sterilizer B may be implemented. Wherein, the air humidity detection sensor, namely the target environment parameter value detection device is arranged on the sterilizer B. A1 is air conditioner outlet air when the target air conditioner A is in an air supply mode, and A2 is air conditioner return air when the target air conditioner A is in the air supply mode; b1 is the output air with the sterilization and disinfection material when the sterilizer B is in the sterilization mode, B2 is the fan of the sterilizer B, B3 is the return air of the sterilizer B, B4 is the sterilization net of the sterilizer B, B5 is the air humidity detection sensor arranged on the sterilizer B, and B6 is the wheel of the sterilizer B. The mobile sterilizer B corresponds to the aforementioned mobile equipment. Correspondingly, the implementation process of the control method can be shown in fig. 7, and specifically includes the following steps:

step 301, the sterilizer is in a power-on state.

Step 302, the sterilizer moves to a first target area where the target air conditioning device is located.

Wherein the sterilizing machine can be moved to the first target area according to a movement path planned for a pre-stored space map. Illustratively, only the target air conditioning unit is in the first target area.

Step 303, the disinfection machine determines the content of the received disinfection control instruction, if the disinfection control instruction is used for instructing to disinfect the target air conditioning equipment, step 304 is executed, and if the disinfection control instruction is used for instructing to disinfect the first target area, step 317 is executed.

Step 304, the sterilizer detects an air humidity value in the first target area.

Step 305, the sterilizer determines whether the air humidity value is greater than the first humidity threshold, if so, step 306 is executed, otherwise, step 311 is executed.

Wherein the first humidity threshold is, for example, 60%.

Step 306, the disinfection machine sends a searching instruction for searching the air conditioning equipment.

Step 307, the sterilizer judges whether a response message responding to the search instruction sent by the target air conditioning equipment is received, if so, step 308 is executed, otherwise, step 319 is executed.

Step 308, the sterilizer sends a first switching instruction for instructing the target air conditioning equipment to switch to the dehumidification mode to the target air conditioning equipment.

Wherein, the target air conditioning equipment sends a response message to the disinfection machine, which indicates that the communication connection is established between the target air conditioning equipment and the disinfection machine. And after receiving the first switching instruction, the target air conditioning equipment switches to a dehumidification mode.

Step 309, the sterilizer detects the air humidity value of the first target area at preset time intervals.

In step 310, the sterilizer determines whether the air humidity value detected at each preset time interval is less than or equal to the second humidity threshold, if so, step 311 is executed, otherwise, step 309 is executed.

Wherein the second humidity threshold value may be 40%, for example.

Step 311, the sterilization machine switches to a sterilization mode.

And step 312, after the disinfection machine is switched to the disinfection mode for the first time period, the disinfection machine sends a second switching instruction for indicating the target air conditioning equipment to be switched to the air supply mode.

And after receiving the second switching instruction, the target air conditioning equipment responds to the second switching instruction and switches to the air supply mode. Illustratively, the first duration may be 3 min.

And 313, closing the disinfection mode after the disinfection machine sends the second switching instruction for a second time.

Wherein the second time period may be 30 min.

And step 314, after the third time length after the disinfection mode is closed, the disinfection machine sends a closing instruction for closing the air supply mode to the target air conditioning equipment.

Wherein the third time period may be 5 min.

Step 315, the disinfection machine determines whether the time length from the first switching instruction to the current time is greater than a preset time length threshold value, if so, step 316 is executed, otherwise, step 309 is executed.

Step 316, the disinfection machine generates a prompt message that the air humidity is high and displays the prompt message.

Step 317, the sterilization machine switches to a sterilization mode.

And step 318, after the sterilizing machine runs for the fourth time period, closing the sterilizing machine.

And step 319, ending.

In another implementation manner, the first switching instruction may be generated by the target air conditioner, that is, after the disinfection machine receives the response message sent by the target air conditioner, the disinfection machine notifies the target air conditioner that the current air humidity value is greater than the first humidity threshold value, the target air conditioner generates the first switching instruction, and switches to the dehumidification mode in response to the first switching instruction, correspondingly, after the disinfection machine executes step 311, the disinfection machine notifies the target air conditioner that it has switched to the disinfection mode, then the target air conditioner starts timing, when the timing is the first time, generates the second switching instruction, and switches from the dehumidification mode to the air supply mode in response to the second switching instruction, then the target air conditioner notifies the disinfection machine that it has switched to the air supply mode, then the disinfection machine starts timing at the time when the target air conditioner receives the notification that it has switched to the air supply mode, and when the timing duration is the second duration, closing the disinfection mode, informing the target air-conditioning equipment of a notification message of closing the disinfection mode to the target air-conditioning equipment by the disinfection machine, after the target air-conditioning equipment receives the notification message of closing the disinfection mode by the disinfection machine, continuing to work in the air supply mode for a third duration, generating a closing instruction of closing the air supply mode, responding to the closing instruction, and closing the air supply mode.

In another implementation process, the target air conditioning device may control the sterilizer to perform a sterilization operation, that is, when the target air conditioning device receives a sterilization control instruction content for instructing sterilization of the target air conditioning device, the target air conditioning device controls the sterilizer to move to a first target area where the target air conditioning device is located; the target air conditioning equipment controls the sterilizer to detect the air humidity value in the first target area; the target air conditioning equipment receives the air humidity value in the first target area sent by the sterilizer; the target air conditioning equipment judges whether the air humidity value is larger than a first humidity threshold value or not; if the air humidity value is larger than the first humidity threshold value, the target air conditioning equipment is switched to a dehumidification mode; the target air conditioning equipment receives the air humidity value sent by the sterilizer at preset time intervals; the target air conditioning equipment judges whether the received air humidity value is smaller than or equal to a second humidity threshold value; if the air humidity value is smaller than the second humidity threshold value, the target air conditioning equipment controls the sterilizer to be switched to a sterilization mode; after the disinfection machine is controlled to be switched to the disinfection mode for a first time, the target air conditioning equipment switches the working mode of the target air conditioning equipment to an air supply mode; after the second time length is switched to the air supply mode, the target air conditioning equipment controls the sterilizer to close the sterilization mode; after the target air conditioning equipment controls the sterilizing machine to close the sterilizing mode for the third time, closing the air supply mode; if the air humidity value is greater than or equal to the second humidity threshold value, generating prompt information and displaying the prompt information; if the target air conditioning equipment receives disinfection control instruction content for instructing disinfection of the first target area, controlling the disinfection machine to move to the first target area; the target air conditioning equipment controls the disinfection machine to be switched to a disinfection mode; and after the target air conditioning equipment controls the disinfection machine to be switched to the disinfection mode for the fourth time, controlling the disinfection machine to be closed.

In another implementation process, the target air conditioning equipment and the sterilizer may be controlled by separate control equipment, that is, when the control equipment receives a sterilization control instruction content for instructing sterilization of the target air conditioning equipment, the control equipment controls the sterilizer to move to a first target area where the target air conditioning equipment is located; the control equipment controls the sterilizer to detect the air humidity value in the first target area; the control equipment receives the air humidity value in the first target area sent by the sterilizer; the control equipment judges whether the air humidity value is larger than a first humidity threshold value or not; if the air humidity value is larger than the first humidity threshold value, the control equipment controls the target air conditioning equipment to be switched to a dehumidification mode; the control equipment receives the air humidity value sent by the sterilizer at preset time intervals; the control device judges whether the received air humidity value is less than or equal to a second humidity threshold value; if the air humidity value is smaller than the second humidity threshold value, the control equipment controls the disinfection machine to be switched to a disinfection mode; after the disinfection machine is controlled to be switched to the disinfection mode for the first time period, the control equipment controls the target air conditioning equipment to switch the working mode to the air supply mode; after the control equipment controls the target air conditioning equipment to be switched to the air supply mode for a second time, the control equipment controls the sterilizing machine to close the sterilizing mode; after the control equipment controls the sterilizing machine to close the sterilizing mode for the third time, the control equipment controls the target control equipment to close the air supply mode; if the air humidity value is larger than or equal to the second humidity threshold value, the control equipment generates prompt information and displays the prompt information; if the air conditioning equipment receives disinfection control instruction content for indicating disinfection of the first target area, the control equipment controls the disinfection machine to move to the first target area; the control equipment controls the disinfection machine to be switched to a disinfection mode; and after the control equipment controls the disinfection machine to be switched to the disinfection mode for the fourth time, the control equipment controls the disinfection machine to be closed.

It should be noted that, for the descriptions of the same steps and the same contents in this embodiment as those in other embodiments, reference may be made to the descriptions in other embodiments, which are not described herein again.

In the embodiment of the application, if the control device receives a first control instruction for sterilizing the target air-conditioning device, after the control device controls the movable device to move to a first target area where the target air-conditioning device is located, the control device controls the working mode of the movable device to be switched to the sterilization mode, and controls the working mode of the target air-conditioning device to be switched to the air supply mode. Like this, through controlling portable disinfecting equipment output air disinfection and isolation material in the first target zone of target air conditioning equipment place to target air conditioning equipment switches to the air supply mode and carries out the air supply operation, makes the inside that air disinfection and isolation material can get into target air conditioning equipment, realizes disinfecting target air conditioning equipment, has solved the limited problem of disinfection function to air conditioning equipment at present, has realized that one kind carries out effective sterile function to air conditioning equipment, has improved the disinfection efficiency to air conditioning equipment.

Based on the foregoing embodiments, an embodiment of the present application provides a control apparatus, and as shown in fig. 8, the control apparatus 4 may include: a processor 41, a memory 42 and a communication bus 43; wherein:

a memory 42 for storing executable instructions;

a communication bus 43 for implementing a communication connection between the processor 41 and the memory 42;

a processor 41 for executing the control program stored in the memory, implementing the steps of:

if a first control instruction for sterilizing the target air conditioning equipment is received, controlling the movable equipment to move to a first target area where the target air conditioning equipment is located; the movable equipment is at least used for outputting air sterilization and disinfection substances to the air so as to realize the function of sterilizing and disinfecting the air;

controlling the working mode of the movable equipment to be switched to a disinfection mode so as to output air sterilization and disinfection substances to the first target area;

and controlling the working mode of the target air conditioning equipment to be switched to an air supply mode so as to convey air sterilization and disinfection substances into the target air conditioning equipment and realize the disinfection of the target air conditioning equipment.

In other embodiments of the present application, before the processor 41 executes the steps to control the mobile device to enter the disinfection mode, the steps are further configured to:

acquiring a target environment parameter value in a first target area;

correspondingly, the steps performed by processor 41 to control the mobile device to enter the disinfection mode may be implemented by:

and controlling the working mode of the movable equipment to be switched to the disinfection mode based on the target environment parameter value.

In other embodiments of the present application, the processor 41 may perform the step of controlling the operation mode of the mobile device to switch to the disinfection mode based on the target environmental parameter value by:

if the air humidity value is larger than the first humidity threshold value, controlling the target air conditioning equipment to be switched to a dehumidification mode; wherein the target environmental parameter value comprises at least an air humidity value;

under the condition that the target air conditioning equipment is switched to the dehumidification mode, acquiring an air humidity value in a first target area according to preset interval time, and controlling the working mode of the movable equipment to be switched to the disinfection mode until the air humidity value is detected to be smaller than or equal to a second humidity threshold value; wherein the second humidity threshold is less than or equal to the first humidity threshold.

In other embodiments of the present application, processor 41 is further configured to perform the following steps:

and if the air humidity value is smaller than or equal to the first humidity threshold value, controlling the working mode of the movable equipment to be switched to the disinfection mode.

In other embodiments of the present application, after the processor 41 executes the steps to control the mobile device to enter the disinfection mode, the steps are further executed to:

starting a timer to start timing;

correspondingly, when the processor 41 executes the steps to control the target air conditioning equipment to enter the air supply mode, the following steps may be specifically implemented:

and controlling the target air conditioning equipment to enter an air supply mode when the timing duration of the timer is the first duration.

In other embodiments of the present application, the processor 41 is further configured to, after controlling the target air conditioning equipment to enter the air supply mode when the counted time duration of the timer is the first time duration, perform the following steps:

when the target air conditioning equipment works in the air supply mode for a second time, controlling the movable equipment to be switched from the disinfection mode to the first mode; wherein the first mode is different from the sterilization mode;

when the movable equipment exits the disinfection mode for a third time, controlling the target air conditioning equipment to be switched to a second mode from the air supply mode; wherein the second mode is different from the blowing mode.

In other embodiments of the present application, the processor 41 executes the steps to, when the target air conditioning device is switched to the dehumidification mode, obtain the air humidity value in the first target area according to the preset interval time, until the air humidity value is detected to be less than or equal to the second humidity threshold, and control the operation mode of the mobile device to be switched to the disinfection mode, specifically, the steps may be implemented by:

detecting an air humidity value in a first target area according to a preset interval time under the condition that the target air conditioning equipment is switched to a dehumidification mode;

and if the air humidity value is less than or equal to the second humidity threshold value, controlling the working mode of the movable equipment to be switched to the disinfection mode.

In other embodiments of the present application, processor 41 is further configured to perform the following steps:

when the working time of the target air conditioning equipment in the dehumidification mode is longer than or equal to the fourth time, if the air humidity value is larger than the second humidity threshold value, generating prompt information for indicating that the current air humidity value is high;

and outputting prompt information.

In other embodiments of the present application, processor 41 is further configured to perform the following steps:

if a second control instruction for disinfecting the second target area is received, controlling the movable equipment to move to the second target area;

controlling the working mode of the movable equipment to be switched to a disinfection mode so as to output air sterilization and disinfection substances to the second target area and realize disinfection operation on the air in the second target area;

when the movable equipment works in the disinfection mode for the fifth time, controlling the movable equipment to be switched to the first mode; wherein the first mode is different from the sterilization mode.

In other embodiments of the present application, the air sanitizer is aqueous hypochlorous acid vapor.

It should be noted that, in the embodiment of the present application, the multiple or multiple programs may be explained by steps of the one or multiple processors, and refer to the method implementation processes provided in the embodiments corresponding to fig. 1 to 5, which are not described herein again.

In the embodiment of the application, if the control device receives a first control instruction for sterilizing the target air-conditioning device, after the control device controls the movable device to move to a first target area where the target air-conditioning device is located, the control device controls the working mode of the movable device to be switched to the sterilization mode, and controls the working mode of the target air-conditioning device to be switched to the air supply mode. Like this, through controlling portable disinfecting equipment output air disinfection and isolation material in the first target zone of target air conditioning equipment place to target air conditioning equipment switches to the air supply mode and carries out the air supply operation, makes the inside that air disinfection and isolation material can get into target air conditioning equipment, realizes disinfecting target air conditioning equipment, has solved the limited problem of disinfection function to air conditioning equipment at present, has realized that one kind carries out effective sterile function to air conditioning equipment, has improved the disinfection efficiency to air conditioning equipment.

Based on the foregoing embodiments, an embodiment of the present application provides an air conditioning system, and as shown in fig. 9, the air conditioning system 5 includes: the control device 4, the movable device 51 and at least one air conditioning device 52 as shown in fig. 8; wherein:

a mobile device 51 at least for generating and outputting an air sterilizing substance;

at least one air conditioner 52 for performing at least a cooling or heating function; wherein the at least one air conditioning device comprises a target air conditioning device;

the control device is configured to implement the control method implementation process provided in any one of the above method embodiments shown in fig. 1 to 5, and details are not described here.

Based on the foregoing embodiments, embodiments of the present application provide a computer-readable storage medium, which is referred to as a storage medium for short, where the computer-readable storage medium stores one or more programs, and the one or more programs can be executed by one or more processors to implement the implementation processes of the control methods provided in the embodiments corresponding to fig. 1 to 5, and details are not described here again.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of a hardware embodiment, a software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only a preferred embodiment of the present application, and is not intended to limit the scope of the present application.

Claims (13)

1. A control method, characterized in that the method is applied to a control device, and the method comprises:

if a first control instruction for sterilizing a target air conditioning device is received, controlling the movable device to move to a first target area where the target air conditioning device is located; the movable equipment is at least used for outputting air sterilization and disinfection substances to the air so as to realize the function of sterilizing and disinfecting the air;

controlling the operating mode of the movable equipment to be switched to a disinfection mode so as to output the air sterilization and disinfection substance to the first target area;

and controlling the working mode of the target air conditioning equipment to be switched to an air supply mode so as to convey the air sterilization and disinfection substance into the target air conditioning equipment, thereby realizing the disinfection of the target air conditioning equipment.

2. The method of claim 1, wherein prior to said controlling the mobile device to enter a disinfection mode, the method further comprises:

acquiring a target environment parameter value in the first target area;

correspondingly, the controlling the mobile device to enter a disinfection mode comprises:

controlling the operating mode of the movable equipment to be switched to a disinfection mode based on the target environment parameter value.

3. The method of claim 2, wherein said controlling the operational mode of the mobile device to switch to a disinfection mode based on the target environmental parameter value comprises:

if the air humidity value is larger than a first humidity threshold value, controlling the target air conditioning equipment to be switched to a dehumidification mode; wherein the target ambient parameter value comprises at least the air humidity value;

under the condition that the target air conditioning equipment is switched to the dehumidification mode, acquiring the air humidity value in the first target area according to preset interval time, and controlling the working mode of the movable equipment to be switched to the disinfection mode until the air humidity value is detected to be smaller than or equal to a second humidity threshold value; wherein the second humidity threshold is less than or equal to the first humidity threshold.

4. The method of claim 3, further comprising:

and if the air humidity value is smaller than or equal to the first humidity threshold value, controlling the working mode of the movable equipment to be switched to the disinfection mode.

5. The method of any of claims 1 to 4, wherein after said controlling the mobile device to enter a disinfection mode, the method further comprises:

starting a timer to start timing;

correspondingly, the controlling the target air conditioning equipment to enter an air supply mode includes:

and when the timing duration of the timer is a first duration, controlling the target air conditioning equipment to enter the air supply mode.

6. The method according to claim 5, wherein after controlling the target air conditioning equipment to enter the air supply mode when the timer duration of the timer is the first duration, the method further comprises:

when the target air conditioning equipment works in the air supply mode for a second time, controlling the movable equipment to be switched from the disinfection mode to a first mode; wherein the first mode is different from the disinfection mode;

controlling the target air conditioning equipment to be switched from the air supply mode to a second mode when the movable equipment exits the disinfection mode for a third time; wherein the second mode is different from the air supply mode.

7. The method as claimed in claim 3, wherein the controlling the operation mode of the mobile equipment to switch to the sterilization mode, in case that the target air conditioning equipment is switched to the dehumidification mode, acquiring the air humidity value in the first target area at preset intervals until the air humidity value is detected to be less than or equal to a second humidity threshold value, comprises:

detecting an air humidity value in the first target area according to a preset interval time under the condition that the target air conditioning equipment is switched to the dehumidification mode;

and if the air humidity value is smaller than or equal to the second humidity threshold value, controlling the working mode of the movable equipment to be switched to the disinfection mode within the range that the time length of the target air conditioning equipment working in the dehumidification mode is smaller than a fourth time length.

8. The method of claim 7, further comprising:

when the working time of the target air conditioning equipment in the dehumidification mode is longer than or equal to a fourth time, if the air humidity value is larger than the second humidity threshold value, generating prompt information for indicating that the current air humidity value is high;

and outputting the prompt information.

9. The method of claim 1, further comprising:

if a second control instruction for disinfecting a second target area is received, controlling the movable equipment to move to the second target area;

controlling the working mode of the movable equipment to be switched to the disinfection mode so as to output the air sterilization and disinfection substance to the second target area, and realizing disinfection operation on the air in the second target area;

controlling the movable equipment to be switched to the first mode when the movable equipment works in the disinfection mode for a fifth time; wherein the first mode is different from the sterilization mode.

10. The method of any one of claims 1 to 4, 6 to 9, wherein the air sterilizing substance is hypochlorous acid aqueous vapor.

11. A control apparatus, characterized in that the control apparatus comprises: a processor, a memory, and a communication bus; wherein:

the memory to store executable instructions;

the communication bus is used for realizing communication connection between the processor and the memory;

the processor is used for executing the control program stored in the memory and realizing the following steps: if a first control instruction for sterilizing a target air conditioning device is received, controlling the movable device to move to a first target area where the target air conditioning device is located; controlling the operating mode of the movable equipment to be switched to a sterilization mode so as to output an air sterilization and disinfection substance to the first target area; and controlling the working mode of the target air conditioning equipment to be switched to an air supply mode so as to convey the air sterilization and disinfection substance into the target air conditioning equipment, thereby realizing the disinfection operation of the target air conditioning equipment.

12. An air conditioning system, characterized in that the air conditioning system comprises: the control device, the mobile device, and the at least one air conditioning device of claim 11; wherein:

the movable equipment is at least used for generating and outputting an air sterilization and disinfection substance;

the at least one air conditioning device is used for at least realizing a cooling or heating function; wherein at least one of the air conditioning units comprises a target air conditioning unit;

the control apparatus for implementing the steps of the control method according to any one of claims 1 to 10.

13. A storage medium, characterized in that the storage medium has stored thereon a control program which, when executed by a processor, implements the steps of the control method according to any one of claims 1 to 10.

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