Patent Description:
With the development of smart home appliances, home appliances with automatic control functions have been gradually increased. As long as the corresponding target parameters are set, the home appliance can automatically operate according to the set target parameters. However, the setting of these target parameters is not convenient enough. Take an air conditioning equipment such as an air conditioners and a humidifier as examples, the target parameters corresponding to the operation of air conditioning equipment usually need to be manually set by the user, which not only makes the user's operation troublesome, but also requires the user to understand the setting requirements of each target parameter. Therefore, the control of home appliances is not convenient enough.

<CIT> describes an environment control system that controls the environment of a room and comprises a control unit that performs scene control for forming one or more predetermined scenes in the space. In <CIT> method for simulating a natural environment with image, sound and temperature in a room is disclosed. From <CIT> A a method for automatically simulating the nature is known.

The main objective of the present invention is to provide an air conditioning equipment, a method for controlling an air conditioning equipment, and a control device, which aims to solve the problem of insufficient control of household appliances in the prior art.

The present invention is defined in the independent claims <NUM>, <NUM> and <NUM>. The dependent claims define preferred embodiments of the invention. Claim <NUM> provides a method for controlling an air conditioning equipment, including the following operations:.

According to the present invention, the operation of "determining a preset scene mode" includes:.

Detecting and obtaining a preset control instruction from a user; and
determining the preset scene mode in response to the preset control instruction.

According to the present invention, the operation of "controlling the air conditioning equipment to operate according to the preset scene mode" includes:.

According to the present invention, the preset environment includes an environment suitable for living organisms with a preset health level.

According to the present invention, the preset environment includes a preset natural environment.

According to the present invention, the preset natural environment includes at least one of a preset natural feature environment, a preset geographic location environment, and a preset time natural environment.

In an embodiment, the operation of "detecting and obtaining a preset control instruction" includes:.

In an embodiment, the operation of "detecting and obtaining a preset control operation performed by a user on an air conditioning interface" includes:.

In an embodiment, the preset scene mode includes a target parameter value of at least one scene parameter; the operation of "controlling the air conditioning equipment to operate according to the preset scene mode" includes:
controlling the air conditioning equipment to operate according to the target parameter value of the at least one scene parameter.

In an embodiment, the operation of "controlling the air conditioning equipment to operate according to the preset scene mode" includes:.

In an embodiment, the preset scene mode includes at least one scene parameter, and the at least one scene parameter is a target parameter of the air conditioning equipment according to an environmental parameter in the preset environment.

In an embodiment, the preset scene mode includes at least one scene parameter, and the scene parameter is a target parameter of the air conditioning equipment according to an environmental parameter in the environment suitable for the living organisms with the preset health level.

In an embodiment, after the operation of "controlling the air conditioning equipment to operate according to the preset scene mode", the method further includes:.

In an embodiment of the method, the air conditioning equipment includes: a housing; an air inlet and an air outlet provided on the housing; a heat exchange air duct communicating with the air inlet and the air outlet; and a heat exchanger and a fan provided in the heat exchange air duct, wherein the air conditioning equipment further includes a display unit configured to display the air conditioning interface of the air conditioning equipment and receive the preset control instruction.

In an embodiment of the method, the air conditioning equipment includes a housing; an air inlet and an air outlet provided on the housing; a heat exchange air duct communicating with the air inlet and the air outlet; a heat exchanger and a fan provided in the heat exchange air duct;.

The present invention further provides an air conditioning equipment as defined in claim <NUM>, including: a housing; an air inlet and an air outlet provided on the housing; a heat exchange air duct communicating with the air inlet and the air outlet; a heat exchanger and a fan provided in the heat exchange air duct; a processor configured to determine a preset scene mode and control the air conditioning equipment to operate according to the preset scene mode, the preset scene mode being a mode for simulating a preset environment by controlling an operation of the air conditioning equipment.

The present invention further provides a control device according to claim <NUM>, including a memory, a processor, a program for controlling the air conditioning equipment of the invention stored on the memory and executable on the processor, the program, when executed by the processor, implementing the method of the invention as described above.

One or more technical solutions provided in the embodiments of the present invention have at least the following technical effects or advantages:.

The realization of the objective, functional characteristics, advantages of the present disclosure are further described with reference to the accompanying drawings.

In order to better understand the above technical solutions, exemplary embodiments of the present invention will be described in more detail with reference to the accompanying drawings. Although the drawings show exemplary embodiments of the present invention, it should be understood that the present invention can be implemented in various forms and should not be limited by the embodiments set forth herein but only by the scope as defined in the claims. On the contrary, these embodiments are provided to enable a more thorough understanding of the present invention and to fully convey the scope of the present invention to those skilled in the art.

The technical solution of the present invention is mainly to solve the technical problem that the corresponding parameters need to be manually set by the user one by one when implementing the control of the home appliance, which makes the user's operation troublesome and the control of the home appliance is not convenient enough. The present invention provides a method for controlling an air conditioning equipment as defined in claim <NUM>. The method for controlling the air conditioning equipment mainly adopts the following technical solutions: determining the preset scene mode corresponding to the air conditioning equipment (a mode that simulates the preset environment by controlling the operation of the air conditioning equipment), and then controlling the air conditioning equipment to enter the preset scene mode. In this way, the user no longer needs to manually set the corresponding target parameters one by one, but only needs to determine the corresponding preset scene mode to control the air conditioning equipment to enter the preset scene mode, which greatly facilitates the user's operations.

The present invention provides an air conditioning equipment as defined in claim <NUM>.

As shown in <FIG> is a schematic structural diagram of an air conditioning equipment according to an embodiment of the present disclosure.

The air conditioning equipment <NUM> includes a housing. The shape of the housing and the structure on the housing are not limited to the shapes shown in the figure, and can be designed to adapt to the shape and structure according to actual applications. The housing is provided with an input/output module <NUM>, such as a display screen, a key, or a combination of the two. The input/output module <NUM> is also provided with a button (not shown) for quick control. The button can be a physical button or a virtual button.

As shown in <FIG> is a schematic diagram of functional modules of the control circuit board in the air conditioning equipment according to an embodiment of the present invention. A control circuit board is provided in the housing, and the control circuit board is electrically connected to the input/output module <NUM>. The control circuit board includes a processor <NUM>, a memory <NUM>, and a communication module <NUM> for communicating with external devices. The memory <NUM> may include a storage module integrated on the control circuit board, or may be a storage device electrically connected to the control circuit board.

Those skilled in the art can understand that the structure shown in <FIG> does not constitute a limitation on the air conditioning equipment <NUM>, and may include more or less components than shown, or a combination of certain components, or differently arranged components, as long as within the scope provided by the claims.

As shown in <FIG>, the memory <NUM>, which is a computer storage medium, may include an operating system and a program for controlling the air conditioning equipment.

In the control circuit board shown in <FIG>, the processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM> and perform the following operations:.

In the technical solutions of the present invention, when the processor <NUM> calls the program for controlling the air conditioning equipment and runs, the preset scene mode corresponding to the air conditioning equipment (a mode that simulates the preset environment by controlling the operation of the air conditioning equipment) is determined, and then the air conditioning equipment to enter the preset scene mode is controlled. In this way, the user no longer needs to manually set the corresponding target parameters one by one, but only needs to determine the corresponding preset scene mode to control the air conditioning equipment to enter the preset scene mode, which greatly facilitates the user's operations.

In some embodiments, the processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM>, and when the preset scene mode is determined, perform the following operations:.

In some embodiments, the processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM> and further perform the following operations:.

In some embodiments, the processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM> and further perform the following operations:
detecting the preset control operation based on at least one multimedia data output by the air conditioning interface, the air conditioning interface being configured to output at least one multimedia data corresponding to each scene mode, the multimedia data including at least one of text, image, audio, and video.

In some embodiments, the preset scene mode includes a target parameter value of at least one scene parameter; the processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM> and further perform the following operations:
controlling the air conditioning equipment to operate according to the target parameter value of the at least one scene parameter.

In some embodiments, the processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM>, after the operation of "controlling the air conditioning equipment to operate according to the preset scene mode", and further perform the following operations:
prompting an operation state of the air conditioning equipment in the preset scene mode and sending a prompt information.

Further, the prompt information is sent in a form of a display interface or a voice output.

Further, the preset environment comprises a preset natural environment.

Further, the preset natural environment includes at least one of a preset natural feature environment, a preset geographic location environment, and a preset time natural environment.

Further, the preset scene mode includes at least one scene parameter, and the scene parameter is a target parameter of the air conditioning equipment according to an environmental parameter in the preset environment.

Further, the preset environment includes an environment suitable for living organisms with a preset health level.

Further, the preset scene mode includes at least one scene parameter, and the scene parameter is a target parameter of the air conditioning equipment according to an environmental parameter in an environment suitable for a living organism with a preset health level.

According to the invention, the air conditioning equipment includes: a housing; an air inlet and an air outlet provided on the housing; a heat exchange air duct communicating with the air inlet and the air outlet; and a heat exchanger and a fan provided in the heat exchange air duct.

Further, the air conditioning equipment may further include: an air treatment duct; and at least one of a fresh air module, a humidification module, and a purification module communicating with the air treatment duct. The processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM>, and further perform the following operations:
controlling the fresh air module to circulate air, controlling the humidification module to humidify air, controlling the purification module to generate negative ions to purify air; and/or adjusting a swinging state and an air volume of the air treatment duct to form a simulated environment required by the preset scene mode.

Further, the air conditioning equipment may further include: a display unit configured to display the air conditioning interface of the air conditioning equipment and receive the preset control instruction. In an embodiment, the display unit may be the same component as the aforementioned input/input module <NUM>, or may also be provided separately.

As shown in <FIG> is a diagram showing an example of an interactive structure realizing control of an air conditioning equipment using a control device according to an embodiment of the present invention. <FIG> is a schematic diagram of the hardware module of the control device according to an embodiment of the present invention.

The control device <NUM> includes a first communication module <NUM> for information interaction with the air conditioning equipment <NUM>, and an input/output module <NUM>. In an embodiment, the air conditioning equipment <NUM> includes a second communication module (not shown) that performs information interaction with the control device <NUM>. The control device <NUM> communicates with the second communication module of the air conditioning equipment <NUM> through the first communication module <NUM> to realize the information exchange between the two. Specifically, in an interactive example, the control device <NUM> sends a control instruction to the air conditioning equipment <NUM> to control the operation of the air conditioning equipment <NUM>. The air conditioning equipment <NUM> returns its operating data and operating results to the control device <NUM> for the user to view.

In an embodiment, the input/output module <NUM> includes, for example, a display screen, a key, or a combination of the two. Moreover, the input/output module <NUM> is also provided with a button (not shown) for realizing quick control. The button may be a physical button or a virtual button.

According to the invention, the control device <NUM> as defined in claim <NUM> includes a processor <NUM> and a memory <NUM>. The components of the control device <NUM> exchange information through communication lines. The memory <NUM> may include a storage module integrated on the processor, or may be a storage device that is independently provided and exchanges information with the processor through a communication line.

Those skilled in the art can understand that the structure shown in <FIG> does not constitute a limitation on the control device <NUM>, and may include more or less components than shown, or a combination of certain components, or with differently arranged components, as long as within the scope defined in claim <NUM>.

In the control device <NUM>, shown in <FIG>, the processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM> and perform the following operations:.

Besides, using the control device to control the air conditioning equipment is more flexible and convenient than directly operating on the air conditioning equipment.

In some embodiments, the processor <NUM> may call the program for controlling the air conditioning equipment stored on the memory <NUM>, and also perform the following operations when performing one-key control parameter control of the household electrical appliance:.

In some embodiments, the processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM>, and further perform the following operations:.

In some embodiments, the processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM>, and further perform the following operations:
detecting the preset control operation based on at least one multimedia data output by the air conditioning interface, the air conditioning interface being configured to output at least one multimedia data corresponding to each scene mode, the multimedia data including at least one of text, image, audio, and video.

In some embodiments, the preset scene mode includes a target parameter value of at least one scene parameter; the processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM>, and further perform the following operations:
controlling the air conditioning equipment to operate according to the target parameter value of the at least one scene parameter.

In some embodiments, the processor <NUM> may be configured to call the program for controlling the air conditioning equipment stored on the memory <NUM>, after the operation of "controlling the air conditioning equipment to operate according to the preset scene mode", and further perform the following operations:
prompting an operation state of the air conditioning equipment in the preset scene mode, and sending a prompt information.

It should be noted that the above-mentioned air conditioning equipment that interacts with the control device can also independently implement the quick control function, and has a structure for realizing the quick control function.

As shown in <FIG> is a schematic flowchart of a method for controlling an air conditioning equipment according to an embodiment of the present invention.

According to the invention, the method includes the following operations:.

The of preset scene modes corresponding to the operation of air conditioning equipment are preset. The preset scene mode is a mode for simulating the preset environment by controlling the operation of the air conditioning equipment. Then, according to the determined preset scene mode, the air conditioning equipment is controlled to enter the preset scene mode, that is, the air conditioning equipment is controlled to operate in the preset scene mode, so as to provide the user with the corresponding environment in the preset scene mode.

The preset environment includes a preset natural environment. The scene mode corresponding to the preset natural environment includes at least one scene parameter. There are many ways to determine the scene parameter, for example: determining the environmental parameter corresponding to the preset natural environment. The environmental parameters include, for example, air parameters, sound parameters, etc. The target value of the operating parameter of the air conditioning equipment corresponding to the preset environment is determined according to the determined environmental parameter, and a scene mode corresponding to the preset environment is generated based on the determined target value of the operating parameter of the air conditioning equipment. When the scene mode is running, the air conditioning equipment automatically runs according to the target value of the environmental parameter corresponding to the scene mode to simulate the preset natural environment.

The preset natural environment, includes at least one of a preset natural feature environment, a preset geographic location environment, and a preset time natural environment. The preset natural feature environment is such as empty mountain fresh rain, fresh after rain and other natural feature environment. The preset location environment includes a preset geographic location environment and a preset geomorphic location environment. The preset geographic location may be based on different environments that each city is located in, such as the environment of cities such as Beijing, Nanjing, and Vancouver. The preset geomorphic locations have different environments based on different geomorphologies, such as deserts, jungles, and empty mountains. The preset time natural environment is, for example, preset solar terms, preset seasons, preset time periods of each day such as morning, evening, and so on.

The preset environment further includes an environment suitable for living organisms with a preset health level, and the scene mode corresponding to the preset natural environment includes at least one scene parameter. There are many ways to determine the situational parameter, for example: determining the environmental parameter of the organism that affects the preset health level; determine the target value of the operating parameter of the home appliance suitable for the preset environment according to the determined environmental parameter, and generating a scene mode corresponding to the preset environment based on the determined target value of the operating parameter of the home appliance. When the scene mode is running, the air conditioning equipment automatically runs according to the target value of the environmental parameter corresponding to the scene mode to simulate the preset environment.

Further, the preset health level includes, for example, sub-health, disease, and the like. Organisms include, for example, human bodies, animals, and even plants.

Further, at least one parameter value is correspondingly set for each scene parameter of the above scene mode. In this way, the scene parameter of the scene mode can be a specific value or a range value, it can also be a plurality of discrete values, or a curve formed by a series of values.

In this embodiment, when controlling the operation of the air conditioning equipment, the user does not need to manually set the target parameters corresponding to the operation of the air conditioning equipment one by one, but only needs to determine the preset scene mode corresponding to the operation of the air conditioning equipment. According to the determined preset scene mode, the air conditioning equipment is controlled to enter the preset scene mode, that is, the air conditioning equipment is controlled to operate in the preset scene mode, so as to provide the user with a corresponding environment in the preset scene mode.

In some embodiments, the operation S1 includes: detecting and obtaining a preset control instruction; and determining the preset scene mode in response to the preset control instruction. Specifically, after the air conditioning equipment is started up, when the user needs to control the air conditioning equipment to run the preset scene mode, the preset control instruction is triggered by executing the preset control operation. When the preset control instruction is detected and obtained, in response to the preset control instruction, the preset scene mode corresponding to the preset control instruction is determined.

Optionally, four methods for detecting and obtaining the preset control instruction are listed below:.

In this embodiment, the control of air conditioning equipment is associated with instant messaging software such as WeChat, QQ, and MSN. When controlling the air conditioning equipment, the preset control instruction is received through instant messaging software. In an exemplary embodiment, the preset control instruction is received through the WeChat official account. In another exemplary embodiment, the preset control instruction is received through a WeChat applet.

In some embodiments, the operation of "detecting and obtaining the preset control operation performed by a user based on an air conditioning interface" includes: detecting the preset control operation based on at least one multimedia data output by the air conditioning interface, the air conditioning interface being configured to output at least one multimedia data corresponding to each scene mode, the multimedia data including at least one of text, image, audio, and video.

In this embodiment, the air conditioning interface is configured to output at least one multimedia data corresponding to each scene mode, and the multimedia data includes at least one of text, image, audio, and video. When the user needs to control the air conditioning equipment to run the preset scene mode, the user performs a corresponding preset control operation based on at least one multimedia data output from the air conditioning interface. When it is detected that the user performs a preset control operation based on at least one multimedia data output from the air conditioning interface, a preset control instruction is obtained in response to the preset control operation. Then, in response to the preset control instruction, the preset scene mode corresponding to the preset control instruction is determined.

For example, as shown in <FIG> is a schematic diagram of an air conditioning interface according to an embodiment of the present disclosure. On the air conditioning interface, the corresponding images of good forest air, fresh images after rain, and seaside images corresponding to experience natural mode are output, and each image contains the "Experience Now" function button. Assuming that the user wants to experience a refreshing environment after rain, the user can perform a preset control operation of clicking the "Experience Now" function button on the refreshing image output on the air conditioning interface. When detecting a preset control operation based on the "Experience Now" function button on the after-rain refreshing image output on the air conditioning interface, in response to the preset control operation, a corresponding preset control instruction is obtained. In response to the preset control instruction, it is determined that the preset scene mode corresponding to the preset control instruction is to experience refreshing after rain in a natural mode. Then, according to the determined preset scene mode, the air conditioning equipment is controlled to operate to provide users with a refreshing environmental experience after the rain.

In some embodiments, the operation of "detecting and obtaining the preset control operations performed by the user based on the air conditioning interface" specifically includes: outputting the control interface of the air conditioning application; outputting the setting interface of the scene mode on the control interface; and detecting the preset control operation based on the setting interface. Specially, in this embodiment, the air conditioning application APP is pre-loaded. When the air conditioning application APP is opened, the control interface of the air conditioning application APP is output, and the setting interface of the scene mode is output on the control interface. For example, as shown in <FIG> is a schematic diagram of the setting interface of the scene mode. The user can perform the preset control operation based on the setting interface of the scene mode, such as clicking the "Experience Now" function button in the setting interface of the scene mode. When the preset control operation based on the setting interface of the scene mode is detected, a corresponding preset control instruction is obtained in response to the preset control operation.

In another embodiment, the operation of "detecting and obtaining the preset control operations performed by the user based on the air conditioning interface" specifically includes: outputting a quick control interface for controlling the air conditioning equipment on an expansion component of a current device; outputting a control interface of the scene mode on the quick control interface; and detecting the preset control operation generated based on the control interface. Specially, in this embodiment, an extension components such as a Widge component and a floating window are loaded on the current device. When the user clicks on the expansion component, a quick control interface for controlling the air conditioning equipment is output on the current device, and a scene mode control interface can be output on the quick control interface. The user performs a corresponding preset control operation based on the control interface of the scene mode, and when the preset control operation performed by the control interface based on the scene mode is detected, a corresponding preset control instruction is obtained in response to the preset control operation.

In another embodiment, the operation of "detecting and obtaining the preset control operations performed by the user based on the air conditioning interface" specifically includes: outputting a quick control interface for controlling the air conditioning equipment on the lock screen interface of the current device; outputting the control interface of the scene mode on the quick control interface; and detecting the preset control operation generated based on the control interface. Specially, in this embodiment, the quick control interface for controlling the air conditioning equipment is output on the lock screen interface of the current equipment. For example, as shown in <FIG> is a schematic diagram of outputting a quick control interface for controlling an air conditioning equipment on the lock screen interface of the current device. The control interface of the scene mode is output on the quick control interface. The user performs a corresponding preset control operation based on the control interface of the scene mode, and when the preset control operation performed by the control interface based on the scene mode is detected, a corresponding preset control instruction is obtained in response to the preset control operation. In this way, the speed of controlling the air conditioning equipment is improved, and it is convenient for users to operate.

According to the invention, the preset scene mode includes a target parameter value of at least one scene parameter; the operation S2 includes controlling the air conditioning equipment to operate according to the target parameter value of the at least one scene parameter. Specially, when the preset scene mode is determined, the target parameter value of at least one scene parameter is determined. When the air conditioning equipment is controlled to enter the preset scene mode, the air conditioning equipment is controlled to operate according to the determined target parameter value of at least one scene parameter to simulate the preset environment in the preset scene mode.

According to the invention, the operation S2 includes: obtaining a target parameter value of at least one parameter of air freshness, cleanliness, temperature, humidity, and air volume demand required in the preset scene mode; and controlling the operation of the air conditioning equipment according to the target parameter value corresponding to the preset scene mode to form a simulated environment required by the preset scene mode. Specially, after the preset scene mode is determined, the target parameter value of at least one of the air freshness, cleanliness, temperature, humidity, and air volume required in the preset scene mode is obtained. Then, according to the obtained target parameter value, the air conditioning equipment is controlled to operate at the target parameter value to form a simulated environment required by the preset scene mode.

In some embodiments, the operation S2 includes: controlling the air conditioning equipment to operate according to a corresponding target temperature value in the preset scene mode through an operation of a compressor of the air conditioning equipment. Specially, the air conditioning equipment includes a compressor. If the target parameter corresponding to the preset scene mode includes temperature, after the preset scene mode is determined, the target temperature value of the temperature corresponding to the preset scene mode is acquired. Then according to the obtained target temperature value, the operation of the compressor of the air conditioning equipment is controlled to control the air conditioning equipment to operate according to the target temperature value to form the simulated environment required by the preset scene mode.

In another embodiment, the operation S2 includes: controlling the air conditioning equipment to operate according to a corresponding target humidity value in the preset scene mode through an operation of a humidification module of the air conditioning equipment. Specifically, the air conditioning equipment includes a humidification module. If the target parameter corresponding to the preset scene mode includes humidity, after the preset scene mode is determined, the target humidity value of the temperature corresponding to the preset scene mode is acquired. Then, according to the obtained target humidity value, the operation of the humidification module of the air conditioning equipment is controlled to control the air conditioning equipment to operate according to the target humidity value to form the simulated environment required by the preset scene mode.

In another embodiment, the operation S2 includes: controlling the air conditioning equipment to operate according to a corresponding target air volume information in the preset scene mode through an operation of a fan of the air conditioning equipment. Specifically, the air conditioning equipment includes a fan. If the target parameter corresponding to the preset scene mode includes the air volume, after the preset scene mode is determined, the target air volume information of the corresponding air volume in the preset scene mode is acquired. Then the operation of the fan of the air conditioning equipment is controlled according to the obtained target air volume information to control the air conditioning equipment to operate in accordance with the target air volume information to form the simulated environment required by the preset scene mode.

In another embodiment, the operation S2 includes: controlling the air conditioning equipment to operate according to a corresponding target freshness information in the preset scene mode through an operation of a fresh air module of the air conditioning equipment. Specifically, the air conditioning equipment includes a fresh air module. If the target parameter corresponding to the preset scene mode includes air freshness, after the preset scene mode is determined, the target freshness information of the air freshness corresponding to the preset scene mode is acquired. Then, according to the obtained target freshness information, the operation of the fresh air module of the air conditioning equipment is controlled to control the air conditioning equipment to operate according to the target freshness information to form the simulated environment required by the preset scene mode.

In another embodiment, the operation S2 includes: controlling the air conditioning equipment to operate according to a corresponding target cleanliness information in the preset scene mode through an operation of a purification module of the air conditioning equipment. Specifically, the air conditioning equipment includes a purification module. If the target parameter corresponding to the preset scene mode includes air cleanliness, after the preset scene mode is determined, the target cleanliness information of the air cleanliness corresponding to the preset scene mode is acquired. Then, according to the obtained target cleanliness information, the operation of the purification module of the air conditioning equipment is controlled to control the air conditioning equipment to operate according to the target cleanliness information to form a simulated environment required by the preset scene mode.

It should be noted that the above embodiments can be combined in many ways, as long as within the scope of the claims.

That is, the operation of air conditioning equipment is controlled according to the target parameter value of at least one of the air freshness, cleanliness, temperature, humidity and air volume requirements corresponding to the preset scene mode to form the simulated environment required by preset scene. In an embodiment, when there are multiple parameters in the scene mode, the components of the air conditioning equipment are coordinated and controlled by one or several main parameters, or the combination of these multiple parameters, so as to form a corresponding simulated environment in a preset scene mode.

According to the invention, the air conditioning equipment includes: a housing; an air inlet and an air outlet provided on the housing; a heat exchange air duct communicating with the air inlet and the air outlet; and a heat exchanger and a fan provided in the heat exchange air duct. Optionally, the fan includes a supply air through-flow wind wheel, and the heat exchange air duct includes an air duct curve formed by a chassis and a volute tongue matched with the supply air through-flow wind wheel. The air conditioning equipment may also include an air guide component and a drive stepping motor. The air guide component includes an air guide louver, which is driven by the drive stepping motor to drive the air guide louver to sweep the wind, so as to realize air supply in different directions. The internal refrigerant circulation of the air conditioning equipment is controlled by the heat exchanger to realize the cooling/heating function of the air conditioning equipment.

Further, the air inlet may include a detachable filter mesh component to filter the incoming air, thereby improving the quality of the indoor air.

Preferably, the air conditioning equipment further includes: an air treatment duct independent from the heat exchange air duct, the air treatment duct including two independent left and right air ducts, and at least one of a fresh air module, a humidification module, and a purification module arranged in the air treatment duct. The fresh air module is configured to circulate external air and internal air through the left and right air ducts. The humidification module includes a built-in water tank, and is configured to humidify indoor air through atomizing water in the water tank and transporting the atomized water to the room. The purification module is configured to generate negative ions to purify the indoor air.

Specially, the operation S2 may include: controlling the fresh air module to circulate air, controlling the humidification module to humidify air, controlling the purification module to generate negative ions, adjusting a swinging state and an air volume of the left and right air ducts, so as to transport the air processed by the fresh air module, the humidification module and the purification module to the room through the left and right air ducts.

In this embodiment, if the corresponding target parameters in the preset scene mode include air freshness, cleanliness, temperature, humidity and air volume requirements, after the preset scene mode is determined, the target temperature, target humidity, target air volume information, target cleanliness information and target freshness information corresponding to the air freshness, cleanliness, temperature, humidity and air volume requirements in the preset scene mode are obtained. Then, the operations of the heat exchanger, the fan, the fresh air module, the humidification module and purification module of the air conditioning equipment are controlled respectively, the fresh air module is controlled to circulate air, the humidification module is controlled to humidify air, the purification module is controlled to generate negative ions, a swinging state and an air volume of the left and right air ducts are adjusted, so as to transport the air processed by the fresh air module, the humidification module and the purification module to the room through the left and right air ducts. In this way, the user is no longer required to manually set the target parameters one by one, which greatly facilitates the user's operation.

Optionally, when the fresh air module is controlled to circulate air, the fresh air module circulates the external air and the internal air through the left and right air ducts of the air treatment duct.

Optionally, the humidification module is arranged in the air treatment duct and further includes a pump. The humidification module pumps out the water in the water tank through the pump and performs atomization treatment, and then transports it to the room through the left and right air ducts, thereby realizing the humidification treatment of the indoor air.

Optionally, the purification module is also arranged in the air treatment duct, such as at the entrance of the air treatment duct. When the outdoor air enters the air treatment duct, negative ions are generated through the purification module to sterilize the air, and then enter the room, thereby purifying the indoor air.

Further, the air conditioning equipment may further include a display unit for displaying the air conditioning interface of the air conditioning equipment and receiving the preset control instruction. Specifically, the air conditioning equipment further includes a display unit, such as but not limited to a large-size touch screen. The air conditioning interface of the air conditioning equipment is displayed on the display unit for users to view and operate. The user performs the preset control operation based on the air conditioning interface displayed by the display unit, thereby triggering the preset control instruction. The preset control instruction is received through the display unit, and then the corresponding preset scene mode is determined according to the preset control instruction, and the air conditioning equipment is controlled to enter the preset scene mode. That is, the visual control operation is provided through the display unit, thus greatly improving the user's operating experience.

In some embodiments, after the operation S2, the method further includes prompting an operation state of the air conditioning equipment in the preset scene mode, and sending a prompt information. Specifically, after the air conditioning equipment is controlled to enter the preset scene mode, the air conditioning equipment to enter the preset scene mode is prompted, in order to inform the user that the air conditioning equipment successfully runs in the preset scene mode, the simulated environment required by the preset scene mode is formed.

Optionally, the above-mentioned prompt information may be sent out in various forms, such as but not limited to the form of a display interface or the form of voice output. Further, multiple types of information are also broadcast, such as operation audio broadcast, weather information broadcast and so on. The user can obtain the operation status of the air conditioning equipment by prompting the air conditioning equipment to enter the preset scene mode, thereby further improving the user experience.

Those skilled in the art should understand that the embodiments of the present invention can be provided as a method, a conditioning equipment or a control device as long as within the scope defined in the claims.

The present invention is described with reference to flowcharts and/or block diagrams of methods, devices (systems), and computer program products. It should be understood that each process and/or block in the flowchart and/or block diagram, and the combination of processes and/or blocks in the flowchart and/or block diagram can be realized by computer program instructions. These computer program instructions can be provided to the processors of general-purpose computers, special-purpose computers, embedded processors, or other programmable data processing equipment to produce a machine, such that the instructions executed by the processor of the computer or other programmable data processing equipment generate means for implementing the functions specified in one or more processes in the flowchart and/or one block or more in the block diagram.

These computer program instructions can also be stored on a computer-readable memory that can guide a computer or other programmable data processing equipment to work in a specific manner, such that the instructions stored on the computer-readable memory produce an article of manufacture including an instruction device that implements the functions specified in one process or multiple processes in the flowchart and/or one block or multiple blocks in the block diagram.

These computer program instructions can also be loaded on a computer or other programmable data processing equipment, such that a series of operation steps are executed on the computer or other programmable equipment to produce computer-implemented processing, thereby, the instructions executed on the computer or other programmable devices provide steps for implementing the functions specified in one or more processes in the flowchart and/or one block or more in the block diagram.

It should be noted that in the claims, any reference signs located in parentheses should not be constructed as limitations on the claims. The word "comprising" does not exclude the presence of parts or steps not listed in the claims. The word "a" or "an" preceding a component does not exclude the presence of multiple such components. In the unit claims enumerating several devices, several of these devices may be embodied in the same hardware item. The use of the words first, second, and third does not indicate any order. These words can be interpreted as names.

Claim 1:
A method for controlling an air conditioning equipment (<NUM>), comprising determining (S1) a preset scene mode, the preset scene mode being a mode for simulating a preset environment by controlling an operation of the air conditioning equipment (<NUM>); and
controlling (S2) the air conditioning equipment (<NUM>) to operate according to the preset scene mode,
characterized in that
the operation of "determining a preset scene mode" comprises:
detecting and obtaining a preset control instruction from a user; and
determining the preset scene mode in response to the preset control instruction;
the operation of "controlling (S2) the air conditioning equipment (<NUM>) to operate according to the preset scene mode" comprises:
obtaining a target parameter value of air freshness, cleanliness, temperature, humidity, and air volume demand required in the preset scene mode; and
controlling the operation of the air conditioning equipment (<NUM>) according to the target parameter value corresponding to the preset scene mode to form a simulated environment required by the preset scene mode;
wherein the preset environment comprises an environment suitable for a living organism with a preset health level,
wherein the preset environment comprises a preset natural environment, wherein the preset natural environment comprises a preset natural feature environment, a preset geographic location environment, and a preset time natural environment.