CN111457558A - Cloud intelligent air conditioner control system and method - Google Patents

Abstract

The invention provides a cloud intelligent air conditioner control system and a method, wherein the system comprises: the system comprises a touch device, at least two cloud intelligent air conditioners and a cloud server; the cloud server is connected with the at least two cloud intelligent air conditioners and acquires operating parameters of at least two dimensions from each cloud intelligent air conditioner, and when a control request sent by a target cloud intelligent air conditioner is received, cloud intelligent control function parameters under the at least two dimensions are acquired according to the currently acquired operating parameters and sent to the target cloud intelligent air conditioner; each cloud intelligent air conditioner is connected to the touch device and the cloud server and sends the operating parameters of the cloud intelligent air conditioner to the cloud server; when the target cloud intelligent air conditioner receives the trigger of the touch device, sending a control request to a cloud server; after receiving the cloud intelligent control function parameters in at least two dimensions sent by the cloud server, controlling the operation of the cloud intelligent control function parameters according to the cloud intelligent control function parameters in the at least two dimensions. The scheme of the invention can more efficiently control the cloud intelligent air conditioner.

Description

Cloud intelligent air conditioner control system and method

Technical Field

The invention relates to the technical field of household appliances, in particular to a cloud intelligent air conditioner control system and method.

Background

With the development of science and technology, more and more intelligent household appliances appear in the life of people, and the cloud intelligent air conditioner is most widely applied. The user can use a remote controller or a mobile phone, the cloud server is connected with the intelligent air conditioner, and the cloud server sends a control instruction to control the operating parameters of the intelligent air conditioner.

However, the operation parameters of the cloud intelligent air conditioner also need to be manually selected and adjusted by a user, before adjustment, the user does not know whether the currently selected operation parameters meet the expectations of the user, and often needs to adjust the intelligent air conditioner to the operation state that the user feels satisfied through multiple adjustments, and the method has many steps, takes a long time, and is very inconvenient.

Therefore, a more efficient way to control cloud smart air conditioners is needed.

Disclosure of Invention

The embodiment of the invention provides a cloud intelligent air conditioner control system and method, which can control a cloud intelligent air conditioner more efficiently.

In a first aspect, an embodiment of the present invention provides a cloud intelligent air conditioner control system, including:

the system comprises a touch device, at least two cloud intelligent air conditioners and a cloud server;

the cloud server is used for connecting with the at least two cloud intelligent air conditioners, acquiring at least two-dimensional operation parameters of the cloud intelligent air conditioners from each cloud intelligent air conditioner, obtaining at least two-dimensional cloud intelligent control function parameters according to the currently acquired at least two-dimensional operation parameters of the at least two cloud intelligent air conditioners when receiving a control request sent by a target cloud intelligent air conditioner of the at least two cloud intelligent air conditioners, and sending the cloud intelligent control function parameters to the target cloud intelligent air conditioner;

each of the at least two cloud intelligent air conditioners is used for being connected to the touch device and the cloud server and sending the operating parameters of the cloud intelligent air conditioner to the cloud server; the target cloud intelligent air conditioner in the at least two cloud intelligent air conditioners is used for sending a control request to the cloud server after receiving the trigger of the touch device; and after receiving the cloud intelligent control function parameters in at least two dimensions sent by the cloud server, controlling the operation of the cloud server according to the cloud intelligent control function parameters in the at least two dimensions.

Preferably, the first and second electrodes are formed of a metal,

the touch device includes: the mobile phone is used for triggering the target cloud intelligent air conditioner according to the received user instruction;

preferably, the first and second electrodes are formed of a metal,

the touch device includes: the voice recognition processing device is integrated on the cloud intelligent air conditioner and used for executing triggering on the target cloud intelligent air conditioner according to the received user instruction;

preferably, the first and second electrodes are formed of a metal,

the touch device includes: the key is integrated on the cloud intelligent air conditioner body and used for triggering the target cloud intelligent air conditioner through pressing operation;

preferably, the first and second electrodes are formed of a metal,

the touch device includes: and the infrared remote controller is used for executing triggering of the target cloud intelligent air conditioner through pressing operation of an appointed key on the infrared remote controller.

Preferably, the first and second electrodes are formed of a metal,

the operating parameters of the at least two dimensions include: the operation parameters corresponding to the variable frequency energy-saving dimension, the operation parameters corresponding to the comfort dimension and the operation parameters corresponding to the behavior habit dimension.

Preferably, the first and second electrodes are formed of a metal,

the operation parameters corresponding to the variable-frequency energy-saving dimension comprise: a compressor frequency control parameter and/or an expansion valve opening degree control parameter;

the operating parameters corresponding to the comfort dimension include: any one or more of a comfortable temperature, a comfortable wind speed, and a comfortable wind direction;

the operation parameters corresponding to the behavior habit dimensions comprise: operational mode and/or timing settings.

Preferably, the first and second electrodes are formed of a metal,

the cloud server is used for sending the at least two cloud intelligent control parameters to the target cloud intelligent air conditioner by taking the average value of each of the at least two operation parameters corresponding to each dimension as the at least two cloud intelligent control parameters corresponding to the dimension according to the currently acquired operation parameters of the at least two dimensions of the at least two cloud intelligent air conditioners.

In a second aspect, an embodiment of the present invention provides a cloud intelligent air conditioner control method, including:

the method comprises the steps that a cloud server acquires operating parameters of at least two dimensions in at least two connected cloud intelligent air conditioners from each cloud intelligent air conditioner of the cloud intelligent air conditioners, when a control request sent by a target cloud intelligent air conditioner of the cloud intelligent air conditioners is received, cloud intelligent control function parameters under the at least two dimensions are obtained according to the currently acquired operating parameters of the at least two dimensions of the cloud intelligent air conditioners, and the cloud intelligent control function parameters are sent to the target cloud intelligent air conditioner;

each cloud intelligent air conditioner of the at least two cloud intelligent air conditioners sends the operating parameters of the cloud intelligent air conditioner to the cloud server; the target cloud intelligent air conditioner in the at least two cloud intelligent air conditioners sends a control request to the cloud server after receiving the trigger of the touch device; and after receiving the cloud intelligent control function parameters in at least two dimensions sent by the cloud server, controlling the operation of the cloud server according to the cloud intelligent control function parameters in the at least two dimensions.

Preferably, the first and second electrodes are formed of a metal,

the mobile phone executes triggering on the target cloud intelligent air conditioner according to the received user instruction;

preferably, the first and second electrodes are formed of a metal,

a voice recognition processing device integrated on the cloud intelligent air conditioner executes triggering on the target cloud intelligent air conditioner according to the received user instruction;

preferably, the first and second electrodes are formed of a metal,

a case integrated on the cloud intelligent air conditioner body executes triggering on the target cloud intelligent air conditioner through pressing operation;

preferably, the first and second electrodes are formed of a metal,

and the infrared remote controller executes triggering on the target cloud intelligent air conditioner through pressing operation on the intelligent case on the infrared remote controller.

Preferably, the first and second electrodes are formed of a metal,

the operating parameters of the at least two dimensions include: the operation parameters corresponding to the variable frequency energy-saving dimension, the operation parameters corresponding to the comfort dimension and the operation parameters corresponding to the behavior habit dimension.

Preferably, the first and second electrodes are formed of a metal,

the operation parameters corresponding to the variable-frequency energy-saving dimension comprise: a compressor frequency control parameter and/or an expansion valve opening degree control parameter;

the operating parameters corresponding to the comfort dimension include: any one or more of a comfortable temperature, a comfortable wind speed, and a comfortable wind direction;

the operation parameters corresponding to the behavior habit dimensions comprise: operational mode and/or timing settings.

Preferably, the first and second electrodes are formed of a metal,

the cloud server takes the average value of each of the at least two operation parameters corresponding to each dimension as the at least two cloud intelligent control parameters corresponding to the dimension according to the currently acquired operation parameters of the at least two dimensions of the at least two cloud intelligent air conditioners, and sends the at least two cloud intelligent control parameters to the target cloud intelligent air conditioner.

The embodiment of the invention provides a cloud intelligent air conditioner control method and system. The cloud server can obtain at least two-dimensional operation parameters of each cloud intelligent air conditioner connected to the cloud server. When a certain target cloud intelligent air conditioner receives the trigger of the touch device, a control request sent by the control request is sent to the cloud server. When the cloud server receives a control request sent by a target cloud intelligent air conditioner, cloud intelligent control function parameters under at least two dimensions for the target cloud intelligent air conditioner are obtained according to at least two currently obtained operation parameters of at least two dimensions of the cloud intelligent air conditioner connected with the cloud server and sent to the target cloud intelligent air conditioner, and the target cloud intelligent air conditioner controls the operation of the target cloud intelligent air conditioner according to the cloud intelligent control function parameters under at least two dimensions. According to the scheme, the cloud intelligent air conditioner can directly control the operation of the cloud intelligent control function parameter according to the cloud intelligent control function parameter sent by the cloud server, a user does not need to manually adjust each parameter of the cloud intelligent air conditioner, a large number of operation steps are omitted, and the efficiency of controlling the cloud intelligent air conditioner is improved.

Drawings

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

Fig. 1 is a schematic diagram of a cloud intelligent air conditioner control system according to an embodiment of the present invention;

fig. 2 is a flowchart of a cloud intelligent air conditioner control method according to an embodiment of the present invention;

fig. 3 is a flowchart of another cloud intelligent air conditioner control method according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a cloud intelligent air conditioner control system, including:

the system comprises a touch device 101, at least two cloud intelligent air conditioners 102 and a cloud server 103;

the cloud server 103 is configured to connect to the at least two cloud intelligent air conditioners 102, acquire at least two-dimensional operation parameters of the cloud intelligent air conditioners 102 from each cloud intelligent air conditioner 102, obtain cloud intelligent control function parameters in at least two dimensions according to the at least two-dimensional operation parameters of the at least two cloud intelligent air conditioners 102 that are currently acquired when a control request sent by a target cloud intelligent air conditioner of the at least two cloud intelligent air conditioners 102 is received, and send the cloud intelligent control function parameters to the target cloud intelligent air conditioner;

each of the at least two cloud intelligent air conditioners 102 is configured to be connected to the touch device 101 and the cloud server 103, and send an operation parameter of the cloud intelligent air conditioner to the cloud server 103; the target cloud intelligent air conditioner of the at least two cloud intelligent air conditioners 102 is configured to send a control request to the cloud server 103 after receiving the trigger of the touch device 101; after receiving the cloud intelligent control function parameters in at least two dimensions sent by the cloud server 103, controlling the operation of the cloud intelligent control function parameters in the at least two dimensions according to the cloud intelligent control function parameters in the at least two dimensions.

Specifically, the cloud server can acquire at least two-dimensional operating parameters of each cloud smart air conditioner connected to the cloud server. When a user needs to control the target cloud intelligent air conditioner, the target cloud intelligent air conditioner is triggered through a touch device connected to the target cloud intelligent air conditioner, then the target cloud intelligent air conditioner sends a control request to a cloud server, after the cloud server receives the control request, cloud intelligent control function parameters under two dimensions for the target cloud intelligent air conditioner are obtained according to the obtained at least two-dimension operation parameters, and the cloud intelligent control function parameters are sent to the target cloud intelligent air conditioner. And after receiving the cloud intelligent control function parameters, the target cloud intelligent air conditioner controls the operation of the target cloud intelligent air conditioner. In this scheme, the user only needs to carry out one-time operation through to touch device, touch device just can trigger target cloud intelligence air conditioner and acquire cloud intelligence control function parameter and control the operation of self from the cloud server, because cloud intelligence control function parameter is got through the operation parameter of a plurality of dimensions, consequently, through cloud intelligence control function parameter, target cloud intelligence air conditioner also can control a plurality of dimensions of self, thereby need not the user and carry out control operation many times, only need one-time operation just can accomplish the control to a plurality of dimensions of target cloud intelligence air conditioner, numerous steps have been reduced, the time that the multiple operation needs has been saved, the control efficiency of cloud intelligence air conditioner has been promoted.

In an embodiment of the present invention, the touch device 101 includes: and the mobile phone executes triggering on the target cloud intelligent air conditioner according to the received user instruction.

Specifically, a user can download a relevant APP on a mobile phone, access a cloud server through a network, register and log in, use a registered account number to bind with a target cloud intelligent air conditioner, and then send a command to the target cloud intelligent air conditioner through the mobile phone APP. When a user needs to control the target cloud intelligent air conditioner, a trigger instruction can be input into the mobile phone, and the mobile phone triggers the target cloud intelligent air conditioner through a network.

In an embodiment of the present invention, the touch device 101 includes: and the voice recognition processing device is integrated on the cloud intelligent air conditioner and used for executing triggering on the target cloud intelligent air conditioner according to the received user instruction.

Specifically, when a user needs to control the target cloud intelligent air conditioner, the voice command can be received through the voice recognition processing device, so that the target cloud intelligent air conditioner is triggered. For example, a voice command "start control" representing that the target cloud intelligent air conditioner needs to be controlled is spoken to the voice recognition processing device, and the voice recognition processing device can recognize the meaning of the voice command, so as to trigger the target cloud intelligent air conditioner.

In an embodiment of the present invention, the touch device 101 includes: and the infrared remote controller is used for executing triggering of the target cloud intelligent air conditioner through pressing operation of an appointed key on the infrared remote controller.

Specifically, infrared remote control is a more traditional and more common mode for controlling an air conditioner, an infrared receiver is installed on a cloud intelligent air conditioner, a user inputs a control instruction through a remote controller capable of emitting an infrared instruction or presses a specific trigger key to enable the infrared remote controller to emit the infrared instruction, and a target cloud intelligent air conditioner is triggered when receiving the infrared instruction.

In an embodiment of the present invention, the touch device 101 includes: the key is integrated on the cloud intelligent air conditioner body and used for triggering the target cloud intelligent air conditioner through pressing operation.

Specifically, when a user is inconvenient to use an infrared remote controller or a mobile phone, such as an air conditioner in a public area, the user does not have the remote controller and the mobile phone cannot be bound with the remote controller in the public area; or when the voice control is inconvenient, for example, when a voice instruction cannot be sent out during a meeting in a meeting room, the target cloud intelligent air conditioner can be triggered by pressing the key integrated on the cloud intelligent air conditioner.

In an embodiment of the present invention, the at least two dimensional operating parameters include: the operation parameters corresponding to the variable frequency energy-saving dimension, the operation parameters corresponding to the comfort dimension and the operation parameters corresponding to the behavior habit dimension.

Particularly, the frequency conversion energy conservation, the comfort and the behavior habit are the basic of the user experience of the cloud intelligent air conditioner and are the three dimensions which are most interesting when the user uses the cloud intelligent air conditioner, and the three indexes directly determine the economic applicability, the user experience and the intelligence of the cloud intelligent air conditioner. The energy-conserving dimension of frequency conversion is relevant with the operating condition of some components and parts inside the cloud intelligence air conditioner, makes it reach the most suitable state through the operating condition who changes these components and parts, just can realize the effect of energy can be saved. The comfort dimension is relevant with some operating condition of cloud intelligence air conditioner, improves the travelling comfort of user when using through adjustment operating condition, can improve user experience. The behavior habit dimensionality is related to some working modes of the cloud intelligent air conditioner, so that the cloud intelligent air conditioner can be suitable for various using scenes by changing the working modes, and the intelligence is improved.

In an embodiment of the present invention, the operation parameters corresponding to the variable frequency energy saving dimension include: a compressor frequency control parameter and/or an expansion valve opening degree control parameter;

the operating parameters corresponding to the comfort dimension include: any one or more of a comfortable temperature, a comfortable wind speed, and a comfortable wind direction;

the operation parameters corresponding to the behavior habit dimensions comprise: operational mode and/or timing settings.

Specifically, the main power consumption sources of the cloud intelligent air conditioner are a compressor and an expansion valve inside the cloud intelligent air conditioner, the compressor is used for compressing and driving a refrigerant, and an evaporation area (a low-pressure area) and a condensation area (a high-pressure area) are divided in a working circuit of the compressor. The indoor unit and the outdoor unit of the cloud intelligent air conditioner belong to a low-voltage region or a high-voltage region respectively (depending on the working state). The refrigerant flows from the high-pressure area to the low-pressure area and is sprayed into the evaporator through the capillary tube, the pressure is suddenly reduced, the liquid refrigerant immediately becomes gaseous, and a large amount of heat in the air is absorbed through the radiating fins. Thus, the compressor works continuously, and heat at one end of the low-pressure area is absorbed into the refrigerant and then is sent to the high-pressure area to be diffused into the air, so that the air temperature is regulated. The expansion valve is used for throttling and reducing pressure and regulating flow, the expansion valve enables a medium-temperature high-pressure liquid refrigerant to become low-temperature low-pressure wet steam through throttling, then the refrigerant absorbs heat in the evaporator to achieve a refrigeration effect, and the expansion valve controls the flow of the valve through the change of superheat degree at the tail end of the evaporator to prevent the phenomena of insufficient utilization of the area of the evaporator and cylinder knocking. The frequency conversion and energy saving can be realized by adjusting the frequency of the compressor and the opening degree of the expansion valve to proper parameters. The comfort dimension includes one or more of temperature, wind speed, and wind direction, which determine whether the user feels comfortable in the environment in which the air conditioner operates. For example, in summer, if the outlet air temperature is too high, the refrigeration effect is not obvious, and if the outlet air temperature is too low, the user feels too cold, so that the user needs to find the temperature at which the user feels the most comfortable. In addition, too fast wind speed causes discomfort to the user, and thus proper wind speed is required. If the wind direction points to the wrong direction, the cooling effect can be not obvious, and the comfort of a user is affected. The behavior habit dimension comprises an operation mode and a timing setting of the cloud intelligent air conditioner, and the operation mode of the cloud intelligent air conditioner comprises but is not limited to: the cloud intelligent air conditioner can reduce the rotating speed of a fan motor of an indoor unit of the air conditioner to a certain range under the low-noise mode, so that the noise of the indoor unit reaches a smaller value, and low-noise operation is realized; during a conference, the cloud intelligent air conditioner can adjust the working mode to a mute mode, and after the mute mode is operated, the indoor fan motor is operated at a low speed, so that the corresponding air conditioning effect is attenuated; the running state of the refrigerating system is changed, the compression ratio of the compressor is reduced, the working pressure is reduced, and the noise of the compressor is reduced; when the cloud intelligent air conditioner detects that the indoor temperature reaches the set temperature, the energy-saving mode can be started, the operating frequency of the compressor is reduced through the frequency conversion technology, and the compressor is enabled to keep operating at a low frequency to achieve the energy-saving effect; when the user closed indoor lighting apparatus before the sleep, the light sense sleep function can be opened to the cloud intelligence air conditioner, detects through the light sensor that sets up and makes indoor light weaken owing to closed lighting apparatus to judge that the user will begin to get into the sleep, the cloud intelligence air conditioner can slowly increase operating temperature along with the lapse of time this moment, makes the user also feel comfortable at the sleep in-process.

The timing setting is generally used before a user sleeps, the air conditioner is turned off after a certain time by setting the timing, the problem that the indoor temperature is too low due to the fact that the air conditioner is cooled all the time in the morning is avoided, and therefore the user is uncomfortable is solved.

The cloud intelligent air conditioner can judge the position of an indoor user through infrared sensing or other detection equipment, and adjust the wind direction to be wind-dependent or wind-inverse-dependent according to actual conditions, so that the blown wind can enable the user to feel comfortable. The achievable functions of the cloud intelligent air conditioner include but are not limited to: electric heating, air freshening, artificial sleep, child lock, humidification, ventilation, condensation prevention, voice function, camera function and AP reset.

In an embodiment of the present invention, the cloud server 103 is configured to, according to currently obtained at least two dimensions of the at least two cloud intelligent air conditioners, take an average value of each of the at least two operation parameters corresponding to each dimension as the at least two cloud intelligent control parameters corresponding to the dimension, and send the at least two cloud intelligent control parameters to the target cloud intelligent air conditioner.

Specifically, the cloud server acquires enough operation parameters representing the operation parameters of the cloud intelligent air conditioner when the cloud intelligent air conditioner is used by a larger user base number, so that the cloud intelligent control parameters obtained by the average value of the operation parameters can enable most users to feel appropriate. For example, by collecting the operating temperatures from the other ten cloud intelligent air conditioners, if the average value of the obtained operating temperatures is 26 degrees, it is determined that 26 degrees is a temperature which can be perceived by most users as appropriate, the working temperature is adjusted to 26 degrees and the temperature is used as a cloud intelligent control parameter to be sent to the target cloud intelligent air conditioner, and when the target cloud intelligent air conditioner receives the cloud intelligent control parameter, the operating temperature is adjusted to 26 degrees.

As shown in fig. 2, an embodiment of the present invention provides a cloud intelligent air conditioner control method, which may include the following steps:

step 201: the cloud server acquires at least two dimensional operation parameters of at least two cloud intelligent air conditioners from each cloud intelligent air conditioner of at least two connected cloud intelligent air conditioners, when a control request sent by a target cloud intelligent air conditioner of the at least two cloud intelligent air conditioners is received, the cloud intelligent control function parameters under the at least two dimensions are obtained according to the at least two dimensional operation parameters of the at least two cloud intelligent air conditioners which are acquired currently, and the cloud intelligent control function parameters are sent to the target cloud intelligent air conditioner.

Step 202: each cloud intelligent air conditioner of the at least two cloud intelligent air conditioners sends the operating parameters of the cloud intelligent air conditioner to the cloud server; the target cloud intelligent air conditioner in the at least two cloud intelligent air conditioners sends a control request to the cloud server after receiving the trigger of the touch device; and after receiving the cloud intelligent control function parameters in at least two dimensions sent by the cloud server, controlling the operation of the cloud server according to the cloud intelligent control function parameters in the at least two dimensions.

In one embodiment of the invention, the mobile phone executes triggering on the target cloud intelligent air conditioner according to the received user instruction;

in one embodiment of the invention, a voice recognition processing device integrated on the cloud intelligent air conditioner executes triggering on the target cloud intelligent air conditioner according to a received user instruction;

in one embodiment of the invention, a case integrated on the cloud intelligent air conditioner body executes triggering on the target cloud intelligent air conditioner through pressing operation;

in an embodiment of the invention, the infrared remote controller executes triggering on the target cloud intelligent air conditioner through pressing operation on an intelligent case on the infrared remote controller.

In an embodiment of the present invention, the at least two dimensional operating parameters include: the operation parameters corresponding to the variable frequency energy-saving dimension, the operation parameters corresponding to the comfort dimension and the operation parameters corresponding to the behavior habit dimension.

In an embodiment of the present invention, the operation parameters corresponding to the variable frequency energy saving dimension include: a compressor frequency control parameter and/or an expansion valve opening degree control parameter;

the operating parameters corresponding to the comfort dimension include: any one or more of a comfortable temperature, a comfortable wind speed, and a comfortable wind direction;

the operation parameters corresponding to the behavior habit dimensions comprise: operational mode and/or timing settings.

In an embodiment of the present invention, the cloud server sends at least two cloud intelligent control parameters to the target cloud intelligent air conditioner according to at least two currently acquired operating parameters of the at least two cloud intelligent air conditioners, and by using an average value of each of the at least two operating parameters corresponding to each dimension as the at least two cloud intelligent control parameters corresponding to the dimension.

The information interaction, execution process and other contents between the units in the method are based on the same concept as the system embodiment of the present invention, and specific contents can be referred to the description in the system embodiment of the present invention, and are not described herein again.

In order that the advantages of the invention will be readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

As shown in fig. 3, an embodiment of the present invention provides a cloud intelligent air conditioner control method, which may include the following steps:

step 301: the cloud server obtains at least two-dimensional operation parameters from the cloud intelligent air conditioner connected to the cloud intelligent air conditioner.

Specifically, the cloud server calls a communication module of the cloud intelligent air conditioner, the communication module calls a main control unit of the cloud intelligent air conditioner, the main control unit obtains comfortable operation parameters and operation parameters corresponding to behavior habit dimensions of the cloud intelligent air conditioner and sends the operation parameters to the communication module, and the communication module sends the operation parameters to the cloud server.

Step 302: a user triggers a target cloud intelligent air conditioner;

for example, a user needs to control the comfort dimension and the behavior habit dimension of the cloud intelligent air conditioner, and when the user is at home, the target cloud intelligent air conditioner can be triggered through an infrared remote controller or a mobile phone APP; under the condition that a mobile phone APP and infrared remote control cannot be used in a public space, when a target cloud intelligent air conditioner needs to be triggered, triggering is carried out through a voice instruction; when the voice instruction is inconvenient to use and the remote control cannot be used for triggering, the button on the target cloud intelligent air conditioner is pressed for triggering.

Step 303: and triggering the target cloud intelligent air conditioner, and sending a control request to the cloud server.

Specifically, a communication module of the cloud intelligent air conditioner sends a control request containing a comfort dimension and a behavior habit dimension to a cloud server.

Step 304: and the cloud server acquires cloud intelligent control function parameters aiming at the target cloud intelligent air conditioner according to the acquired operation parameters of the comfort dimension and the behavior habit dimension.

Specifically, a specific operation module is arranged in each dimension in the cloud server, the operation module of the comfort dimension performs calculation according to the operation parameters of the comfort dimension, wherein the average value of the operation parameters of the temperature obtained through calculation is 26 degrees, and the 26 degrees are determined as the comfortable temperature; and calculating to obtain the average value of the wind speed operation parameters as 10m/s, and determining that 10m/s is the comfortable wind speed. And the behavior habit computing module calculates the average value of the timing setting to be 3 hours, and then the timing behavior habit value is determined to be shut down after 3 hours. And sending the cloud intelligent control function parameters to a target cloud intelligent air conditioner.

Step 305: the cloud intelligent air conditioner controls the air conditioner according to the cloud intelligent control function parameters.

Specifically, the cloud intelligent air conditioner adjusts the operating temperature to 26 ℃, adjusts the wind speed to 10m/s, and is shut down at regular time after setting for 3 hours.

The embodiment of the invention at least has the following advantages:

1. in the embodiment of the invention, the cloud intelligent air conditioner can directly control the operation of the cloud intelligent air conditioner according to the cloud intelligent control function parameters sent by the cloud server, and a user does not need to manually adjust each parameter of the cloud intelligent air conditioner, so that various operation steps are omitted, and the efficiency of controlling the cloud intelligent air conditioner is improved.

2. The embodiment of the invention is characterized in that the signal input triggering of mobile phone APP, voice, machine body keys or an infrared remote controller and the like is combined, and the use scenes of the system are increased.

3. In the embodiment of the invention, the cloud server calculates the cloud intelligent control function key parameters such as the variable frequency energy-saving parameter, the comfortable operation parameter of the equipment, the human behavior habit parameter and the like through the operation of the batch networking equipment and the acquisition and input of other data, so that the obtained parameters are more reliable.

It should be noted that not all steps and modules in the above flows and system structure diagrams are necessary, and some steps or modules may be omitted according to actual needs. The execution order of the steps is not fixed and can be adjusted as required. The system structure described in the above embodiments may be a physical structure or a logical structure, that is, some modules may be implemented by the same physical entity, or some modules may be implemented by a plurality of physical entities, or some components in a plurality of independent devices may be implemented together.

In the above embodiments, the hardware unit may be implemented mechanically or electrically. For example, a hardware element may comprise permanently dedicated circuitry or logic (such as a dedicated processor, FPGA or ASIC) to perform the corresponding operations. The hardware elements may also comprise programmable logic or circuitry, such as a general purpose processor or other programmable processor, that may be temporarily configured by software to perform the corresponding operations. The specific implementation (mechanical, or dedicated permanent, or temporarily set) may be determined based on cost and time considerations.

While the invention has been shown and described in detail in the drawings and in the preferred embodiments, it is not intended to limit the invention to the embodiments disclosed, and it will be apparent to those skilled in the art that various combinations of the code auditing means in the various embodiments described above may be used to obtain further embodiments of the invention, which are also within the scope of the invention.

Claims (10)

1. Cloud intelligence air conditioner control system, its characterized in that includes:

the system comprises a touch device, at least two cloud intelligent air conditioners and a cloud server;

the cloud server is used for connecting with the at least two cloud intelligent air conditioners, acquiring at least two-dimensional operation parameters of the cloud intelligent air conditioners from each cloud intelligent air conditioner, obtaining at least two-dimensional cloud intelligent control function parameters according to the currently acquired at least two-dimensional operation parameters of the at least two cloud intelligent air conditioners when receiving a control request sent by a target cloud intelligent air conditioner of the at least two cloud intelligent air conditioners, and sending the cloud intelligent control function parameters to the target cloud intelligent air conditioner;

each of the at least two cloud intelligent air conditioners is used for being connected to the touch device and the cloud server and sending the operating parameters of the cloud intelligent air conditioner to the cloud server; the target cloud intelligent air conditioner in the at least two cloud intelligent air conditioners is used for sending a control request to the cloud server after receiving the trigger of the touch device; and after receiving the cloud intelligent control function parameters in at least two dimensions sent by the cloud server, controlling the operation of the cloud server according to the cloud intelligent control function parameters in the at least two dimensions.

2. The system of claim 1,

the touch device includes: the mobile phone is used for triggering the target cloud intelligent air conditioner according to the received user instruction;

or,

the touch device includes: the voice recognition processing device is integrated on the cloud intelligent air conditioner and used for executing triggering on the target cloud intelligent air conditioner according to the received user instruction;

or,

the touch device includes: the key is integrated on the cloud intelligent air conditioner body and used for triggering the target cloud intelligent air conditioner through pressing operation;

or,

the touch device includes: and the infrared remote controller is used for executing triggering of the target cloud intelligent air conditioner through pressing operation of an appointed key on the infrared remote controller.

3. The system of claim 1,

the operating parameters of the at least two dimensions include: the operation parameters corresponding to the variable frequency energy-saving dimension, the operation parameters corresponding to the comfort dimension and the operation parameters corresponding to the behavior habit dimension.

4. The system of claim 3,

the operation parameters corresponding to the variable-frequency energy-saving dimension comprise: a compressor frequency control parameter and/or an expansion valve opening degree control parameter;

the operating parameters corresponding to the comfort dimension include: any one or more of a comfortable temperature, a comfortable wind speed, and a comfortable wind direction;

the operation parameters corresponding to the behavior habit dimensions comprise: operational mode and/or timing settings.

5. The system according to any one of claims 1 to 4,

the cloud server is used for sending the at least two cloud intelligent control parameters to the target cloud intelligent air conditioner by taking the average value of each of the at least two operation parameters corresponding to each dimension as the at least two cloud intelligent control parameters corresponding to the dimension according to the currently acquired operation parameters of the at least two dimensions of the at least two cloud intelligent air conditioners.

6. The cloud intelligent air conditioner control method is characterized by comprising the following steps:

the method comprises the steps that a cloud server acquires operating parameters of at least two dimensions in at least two connected cloud intelligent air conditioners from each cloud intelligent air conditioner of the cloud intelligent air conditioners, when a control request sent by a target cloud intelligent air conditioner of the cloud intelligent air conditioners is received, cloud intelligent control function parameters under the at least two dimensions are obtained according to the currently acquired operating parameters of the at least two dimensions of the cloud intelligent air conditioners, and the cloud intelligent control function parameters are sent to the target cloud intelligent air conditioner;

each cloud intelligent air conditioner of the at least two cloud intelligent air conditioners sends the operating parameters of the cloud intelligent air conditioner to the cloud server; the target cloud intelligent air conditioner in the at least two cloud intelligent air conditioners sends a control request to the cloud server after receiving the trigger of the touch device; and after receiving the cloud intelligent control function parameters in at least two dimensions sent by the cloud server, controlling the operation of the cloud server according to the cloud intelligent control function parameters in the at least two dimensions.

7. The method of claim 6,

the mobile phone executes triggering on the target cloud intelligent air conditioner according to the received user instruction;

or,

a voice recognition processing device integrated on the cloud intelligent air conditioner executes triggering on the target cloud intelligent air conditioner according to the received user instruction;

or,

a case integrated on the cloud intelligent air conditioner body executes triggering on the target cloud intelligent air conditioner through pressing operation;

or,

and the infrared remote controller executes triggering on the target cloud intelligent air conditioner through pressing operation on the intelligent case on the infrared remote controller.

8. The method of claim 1,

the operating parameters of the at least two dimensions include: the operation parameters corresponding to the variable frequency energy-saving dimension, the operation parameters corresponding to the comfort dimension and the operation parameters corresponding to the behavior habit dimension.

9. The method of claim 8,

the operation parameters corresponding to the variable-frequency energy-saving dimension comprise: a compressor frequency control parameter and/or an expansion valve opening degree control parameter;

the operating parameters corresponding to the comfort dimension include: any one or more of a comfortable temperature, a comfortable wind speed, and a comfortable wind direction;

the operation parameters corresponding to the behavior habit dimensions comprise: operational mode and/or timing settings.

10. The method according to any one of claims 6 to 9,

the cloud server takes the average value of each of the at least two operation parameters corresponding to each dimension as the at least two cloud intelligent control parameters corresponding to the dimension according to the currently acquired operation parameters of the at least two dimensions of the at least two cloud intelligent air conditioners, and sends the at least two cloud intelligent control parameters to the target cloud intelligent air conditioner.

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