WO2018133557A1

WO2018133557A1 - Device, method and system for controlling air-processing apparatus

Info

Publication number: WO2018133557A1
Application number: PCT/CN2017/113843
Authority: WO
Inventors: 欧阳娣
Original assignee: 广东美的制冷设备有限公司; 美的集团股份有限公司
Priority date: 2017-01-22
Filing date: 2017-11-30
Publication date: 2018-07-26

Abstract

Provided is device for controlling an air-processing apparatus. The air-processing apparatus comprises an air inlet, an air outlet, and an air channel connected to the air inlet and the air outlet. A functional module is provided in the air channel. The device for controlling an air-processing apparatus comprises a Widget interface, and is bound to multiple air-processing apparatuses. The device for controlling an air-processing apparatus comprises: an acquisition module (10) used to acquire names and operation information of the multiple air-processing apparatuses; and a display module (20) used to display, on the Widget interface, the names and the operation information of the multiple air-processing apparatuses. Also disclosed are a method and system for controlling an air-processing apparatus. The present invention improves convenience of controlling an air-processing apparatus.

Description

Control device, method and system for air treatment equipment

Technical field

The present invention relates to the field of home appliance technology, and in particular, to a control device, method and system for an air treatment device.

Background technique

At present, the control of air handling equipment such as air conditioners, humidifiers, dehumidifiers, purifiers, etc., either by controlling the air handling equipment through a remote controller or by installing a corresponding APP (Control, which controls the air processing equipment on a mobile terminal such as a mobile phone) Application), through the APP to achieve control of the air handling equipment. However, in the process of controlling the air processing device through the APP, although the plurality of air processing devices can be controlled by the APP, specifically, which air processing device is to be controlled, the user needs to illuminate and unlock the mobile terminal, and then find the corresponding application identifier of the APP. Open the APP to enter the control interface and manually select the appropriate air handling equipment to control the air handling equipment. Obviously, this control mode is cumbersome to operate and the control of the air handling equipment is not convenient enough.

Summary of the invention

The main object of the present invention is to provide a control device, method and system for an air treatment device, aiming at solving the technical problem that the control of the air treatment device is not convenient enough.

In order to achieve the above object, the present invention provides a control device for an air treatment device, the air treatment device includes an air inlet, an air outlet, and a duct connecting the air inlet and the air outlet, and a functional module is disposed in the air passage; The control device of the air treatment device includes a Widget interface, and the control device of the air treatment device is bound to a plurality of air treatment devices, and the control device of the air treatment device includes:

An acquisition module, configured to obtain a name and operation information of multiple air processing devices;

And a display module, configured to display, on the Widget interface, a name and operation information of the plurality of air processing devices.

Preferably, the obtaining module is configured to:

The air processing equipment of the same equipment category is selected from the bound air handling equipment, and the name and operation information of the air processing equipment of the same equipment category are obtained.

Preferably, the obtaining module is configured to:

Selecting an air handling device belonging to a combination from the bound air handling devices to obtain the name and operation information of the air handling device of the combined combination.

Preferably, the display module comprises:

a first determining unit, configured to determine a display order of the plurality of air processing devices;

And a first display unit, configured to display the names of the plurality of air processing devices and the operation information on the Widget interface according to the determined display order.

Preferably, the first display unit is configured to:

According to the display order, the names and operation information of the plurality of air processing devices are displayed on the Widget interface in different colors.

The control device of the air treatment device further includes a preset button that triggers a control command, and the control device of the air treatment device further includes:

a sending module, configured to send a detection instruction to the air processing device when the preset button is triggered, for the air processing device to perform self-test according to the detection instruction, and return detection information;

The display module is configured to display the detection information in the Widget interface when the detection information is received, so that the user can understand the running status of the air processing device according to the detection information.

Preferably, the display module comprises:

a second determining unit, configured to determine an operating state of the air processing device according to the detecting information when the detecting information is received;

The second display unit is configured to display prompt information corresponding to the running state in the Widget interface, so that the user can understand the running status of the air processing device according to the prompt information.

Preferably, the second determining unit comprises:

Extracting a subunit, configured to extract a detection score in the detection information when the detection information is received;

a determining subunit, configured to determine whether the detection score is within a preset severe fault score range;

Determining a subunit, configured to determine that the air processing device is in a severe fault state if the detection score is within the preset severe fault score;

The determining subunit is further configured to determine whether the detection score is within a preset general fault score range if the detection score is not within the preset severe fault score range;

Determining a subunit, configured to determine that the air processing device is in a general fault state if the detection score is within the preset general fault score; if the detection score is not in the preset general fault score Within the range, it is determined that the air handling device is in a normal state.

Preferably, when it is determined that the air processing device is in a severe fault state according to the detection information, the sending module is further configured to send a power-off instruction to the air processing device, for the air processing device to be according to the The electric command performs a power-off operation;

The display module is further configured to display, in the Widget interface, prompt information corresponding to the severe fault state, to prompt the user that the air processing device is in a severe fault state;

The sending module is further configured to send the fault data in the detection information to the after-sales service terminal to prompt the after-sales service terminal that the air processing device is in a serious fault state.

Preferably, when the air processing device is determined to be in a general fault state according to the detection information, the display module is further configured to display, in the Widget interface, color prompt information and/or text corresponding to the general fault state. A prompt message to prompt the user that the air handling device is in a general fault state.

Preferably, the display module is further configured to: when the fault cancellation request command is detected, display a cancellation method corresponding to the general fault state in the Widget interface.

Preferably, the control device of the air treatment device further includes:

a detecting module, configured to detect whether a current control device of the air processing device is connected to the smart connection device, wherein a control device of the air processing device is bound to the smart connection device;

a reading module, configured to read a networking state of the smart connection device when the control device of the air processing device is connected to the smart connection device, and further read the network when the network connection state of the smart connection device is normal Intelligently connecting information about other smart devices connected to the device, wherein the smart device includes at least one air processing device;

The display module is configured to perform display corresponding to the networking state on the Widget interface, and further display the read smart on the Widget interface when the networking state of the smart connection device is normal Information about the device.

Preferably, the related information includes at least an operating parameter of the air processing device;

The display module is further configured to: display a control button for controlling the air processing device to adjust the operating parameter while displaying an operating parameter of the air processing device on the Widget interface;

The control device of the air treatment device further includes:

a first monitoring module, configured to monitor whether there is a touch operation on the control button;

The first control module is configured to control the air processing device to adjust the operating parameter when there is a touch operation on the control button.

Preferably, the reading module is further configured to: when the networked state of the smart connection device is normal and a plurality of the smart devices are connected, read the smart device group information in the server, where the server passes the Interacting with the smart device by the smart connection device, the smart device group includes at least two or more smart devices that can be associated;

The display module is further configured to: display the smart device group information on the Widget interface, and display a switch button for turning on or off an associated application between the smart devices in the smart device group.

Preferably, the control device of the air treatment device further includes:

a determining module, configured to determine, when the switch button is turned on, whether a running parameter corresponding to a specific smart device in the smart device group meets a preset condition, wherein the specific smart device has an environment detecting function and is processed by the air Device association

And a second control module, configured to: when the operating parameter of the specific smart device meets the preset condition, control the air processing device associated with the specific smart device to perform adjustment of a corresponding operating parameter.

Preferably, the acquiring module is configured to acquire environment data collected by the air detecting device;

The display module is configured to display the environment data on the Widget interface, and display a control button for controlling a corresponding air processing device to perform a function operation corresponding to the environment data.

Preferably, the control device of the air treatment device further includes:

a second monitoring module, configured to monitor whether there is a touch operation on the control button;

An instruction generating module, configured to generate a corresponding function operation instruction when a touch operation exists on the control button;

And a transmission module, configured to transmit the function operation instruction to the server, to allow the server to control the air processing device to perform a function operation corresponding to the environment data according to the function operation instruction.

Preferably, the acquiring module is further configured to: acquire the operating parameters of the air processing device while acquiring environmental data collected by the air detecting device;

The display module is further configured to: display the environment data and the control button on the Widget interface, and display the operation parameter.

Preferably, the environmental data includes at least one of: temperature, humidity, and PM2.5 concentration, and the air processing device includes at least one of an air conditioner, a humidifier, a dehumidifier, and an air purifier. A variety.

In addition, in order to achieve the above object, the present invention also provides a control method of an air treatment device, which includes an air inlet, an air outlet, and an air duct connecting the air inlet and the air outlet, and the air passage is provided with a function. The application carrier of the control method of the air processing device is associated with a pre-stored Widget, the Widget includes a Widget interface, and the control method of the air processing device includes the following steps:

Obtain the names of multiple air handling equipment and operational information;

Displaying the name and operation information of the plurality of air processing devices on the Widget interface.

Preferably, the step of acquiring the names of the plurality of air processing devices and the running information comprises:

Preferably, the step of displaying the names of the plurality of air processing devices and the running information on the Widget interface comprises:

Determining a display order of the plurality of air handling devices;

Displaying the names of the plurality of air handling devices and the running information on the Widget interface according to the determined display order.

Preferably, the step of displaying the names of the plurality of air processing devices and the running information on the Widget interface according to the determined display order comprises:

Preferably, the Widget further includes a preset button that triggers a control instruction, and the control method of the air processing device further includes the steps of:

When detecting that the preset button is triggered, sending a detection instruction to the air processing device, for the air processing device to perform self-test according to the detection instruction, and returning detection information;

When the detection information is received, the detection information is displayed in the Widget interface, so that the user can understand the running status of the air processing device according to the detection information.

Preferably, when the detecting information is received, the step of displaying the detection information in the Widget interface for the user to understand the running status of the air processing device according to the detecting information comprises:

Determining an operation state of the air processing device according to the detection information when the detection information is received;

The prompt information corresponding to the running state is displayed in the Widget interface, so that the user can understand the running status of the air processing device according to the prompt information.

Preferably, when the detecting information is received, determining the operating state of the air processing device according to the detecting information comprises:

Extracting the detection score in the detection information when the detection information is received;

Determining whether the detection score is within a preset severe fault score;

Determining that the air processing device is in a severe fault state if the detection score is within the preset severe fault score;

If the detection score is not within the preset severe fault score range, determining whether the detection score is within a preset general fault score range;

Determining that the air processing device is in a general fault state if the detection score is within the preset general fault score range;

If the detection score is not within the preset general failure score range, it is determined that the air treatment device is in a normal state.

Preferably, when it is determined that the air processing device is in a severe fault state according to the detection information, the prompt information corresponding to the running state is displayed in the Widget interface, so that the user understands the location according to the prompt information. Before the steps of the operation of the air handling equipment, the method further includes:

Sending a power-off instruction to the air processing device for the air processing device to perform a power-off operation according to the power-off instruction;

The step of displaying the prompt information corresponding to the running state in the Widget interface for the user to understand the running status of the air processing device according to the prompt information includes:

Displaying prompt information corresponding to the severe fault state in the Widget interface, and sending fault data in the detection information to the after-sales service terminal, to prompt the user and the after-sales service terminal that the air processing device is in serious Fault status.

Preferably, when it is determined that the air processing device is in a general fault state according to the detection information, the prompt information corresponding to the running state is displayed in the Widget interface, so that the user can understand the location according to the prompt information. The steps of the operation of the air handling equipment include:

Color prompt information and/or text prompt information corresponding to the general fault state is displayed in the Widget interface to prompt the user that the air processing device is in a general fault state.

Preferably, after the step of displaying the color prompt information and/or the text prompt information corresponding to the general fault state in the Widget interface to prompt the user that the air processing device is in a general fault state, the method further includes:

When the fault cancellation request command is detected, a release method corresponding to the general fault state is displayed on the Widget interface.

Preferably, the application carrier is a mobile terminal, and the control method of the air processing device further includes the steps of:

Detecting whether the mobile terminal is currently connected to the smart connection device, where the mobile terminal is bound to the smart connection device;

Reading a networked state of the smart connection device when the mobile terminal is connected to the smart connection device, and further reading other smart devices connected to the smart connection device when the networked state of the smart connection device is normal Related information, wherein the smart device includes at least one air processing device;

The display corresponding to the networked state is performed on the Widget interface, and when the networked state of the smart connected device is normal, the related information of the read smart device is further displayed on the Widget interface.

Preferably, the related information includes at least an operating parameter of the air processing device, and the method for controlling the air processing device further includes:

While displaying the operating parameter of the air processing device on the Widget interface, displaying a control button for controlling the air processing device to adjust the operating parameter, and monitoring whether there is a touch operation on the control button; When there is a touch operation on the control button, the air processing device is controlled to adjust the operating parameter.

Preferably, the control method of the air processing device further includes:

Reading smart device group information in the server when the networked state of the smart connection device is normal and a plurality of the smart devices are connected, wherein the server interacts with the smart device through the smart connection device The smart device group includes at least two or more smart devices that can be associated;

Displaying the smart device group information on the Widget interface, and displaying a switch button for turning on or off an associated application between the smart devices in the smart device group.

Preferably, the control method of the air processing device further includes:

When the switch button is turned on, determining whether the operating parameter of the specific smart device in the smart device group meets a preset condition, wherein the specific smart device has an environment detecting function and is associated with the air processing device;

When the operating parameter of the specific smart device satisfies the preset condition, the air processing device associated with the specific smart device is controlled to perform adjustment of a corresponding operating parameter.

Obtaining environmental data collected by the air detecting device;

The environmental data is displayed on the Widget interface and a control button for controlling a corresponding air processing device to perform a functional operation corresponding to the environmental data.

Preferably, the control method of the air processing device further includes:

Monitoring whether there is a touch operation on the control button;

When a touch operation exists on the control button, generating a corresponding function operation instruction;

Transmitting the function operation instruction to a server, for the server to control the air processing device to perform a function operation corresponding to the environment data according to the function operation instruction.

Preferably, the control method of the air processing device further includes:

Acquiring the operating parameters of the air processing device while acquiring the environmental data collected by the air detecting device;

Displaying the environmental data and the control button on the Widget interface, and displaying the operating parameter.

Further, in order to achieve the above object, the present invention also provides a control system of an air treatment apparatus, the control system of the air treatment apparatus comprising an air treatment apparatus and the above-described control apparatus of the air treatment apparatus; and a control apparatus of the air treatment apparatus Binding with a plurality of air treatment devices, the control device of the air treatment device includes a Widget interface; the control device of the air treatment device is configured to acquire names of the plurality of air treatment devices and operation information, and on the Widget interface The names of the plurality of air handling devices and operational information are displayed.

The control device, method and system of the air treatment device proposed by the present invention first acquire the name and operation information of a plurality of air treatment devices bound to the control device of the air treatment device, and then the Widget interface corresponding to the control device of the air treatment device The name of the air processing device and the running information are displayed on the Widget interface, so that the user can control the operation of the air processing device by performing corresponding operations on the Widget interface according to the name and running information of the air processing device displayed on the Widget interface. Therefore, the operation of the user to open the APP, manually select the corresponding air treatment device to enter the corresponding control interface of the air treatment device, and the like, thereby improving the convenience of the control of the air treatment device is avoided.

DRAWINGS

1 is a schematic diagram of functional modules of a first embodiment of a control device for an air handling device according to the present invention;

2 is a schematic diagram of an optional Widget interface in each embodiment of the present invention;

3 is a schematic diagram of a refinement function module of a display module in a second embodiment of a control device for an air treatment device according to the present invention;

4 is a schematic diagram of a refinement function module of a display module in a third embodiment of a control device for an air treatment device according to the present invention;

5 is a schematic diagram of functional modules of a fifth embodiment of a control device for an air handling device according to the present invention;

6 is a schematic diagram of functional modules of a sixth embodiment of a control device for an air handling device according to the present invention;

7 is a schematic diagram of functional modules of a seventh embodiment of a control device for an air handling device according to the present invention;

8 is a schematic diagram of functional modules of a ninth embodiment of a control device for an air handling device according to the present invention;

9 is a schematic flow chart of a first embodiment of a method for controlling an air treatment device according to the present invention;

10 is a schematic diagram showing a refinement process of displaying a name and operation information of a plurality of air processing devices on a Widget interface in a second embodiment of a method for controlling an air handling device according to the present invention;

11 is a schematic flow chart of a third embodiment of a method for controlling an air handling device according to the present invention;

12 is a schematic diagram showing a refinement flow of displaying the detection information in the display interface when receiving the detection information in a third embodiment of a method for controlling an air treatment device according to the present invention;

13 is a schematic flow chart of a fifth embodiment of a method for controlling an air handling device according to the present invention;

14 is a schematic flow chart of a sixth embodiment of a method for controlling an air handling device according to the present invention;

15 is a schematic flow chart of a ninth embodiment of a method for controlling an air handling device according to the present invention;

Figure 16 is a flow chart showing the tenth embodiment of the control method of the air treatment device of the present invention.

The implementation, functional features, and advantages of the present invention will be further described in conjunction with the embodiments.

detailed description

It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The present invention provides a control device for an air treatment device.

1 is a schematic diagram of functional modules of a first embodiment of a control device for an air handling device according to the present invention.

It should be emphasized that, for those skilled in the art, the functional block diagram shown in FIG. 1 is merely an exemplary embodiment of a preferred embodiment, and those skilled in the art will surround the function of the control device of the air handling device shown in FIG. 1. The module can be easily supplemented by a new function module; the name of each function module is a custom name, which is only used to assist in understanding the various program function blocks of the control device of the air processing device, and is not used to limit the technical solution of the present invention. The core of the technical solution of the invention is the function to be achieved by the functional modules of the respective defined names.

The air treatment device in the present solution includes, but is not limited to, an air conditioner, a humidifier, a dehumidifier, a purifier, etc., and the air treatment device includes an air inlet, an air outlet, and a duct connecting the air inlet and the air outlet, and is disposed in the air duct. There are functional modules. The control device of the air treatment device is bound to a plurality of air treatment devices, and the control device of the air treatment device includes a Widget widget interface. Preferably, the control device of the air handling device is applied to a mobile terminal such as a smart phone, a PAD (tablet computer) or the like. For example, a corresponding control APP (control device of the air processing apparatus of the present invention) is mounted on the mobile terminal. In this solution, the control mode of the control APP for the air treatment device is not the same as the control mode of the existing APP for the air treatment device. The difference is that in this solution, the control APP also deploys a corresponding Widget widget. The Widget is set on the Widget interface of the mobile terminal, and the Widget is associated with at least one air processing device, and the Widget includes a Widget interface. Preferably, the preset button is set on the Widget interface. The Widget interface is used to display the name of the associated air handling device and the operational information, and the preset button is used to trigger a control command to control the operation of the associated air handling device.

Widget is a desktop widget that can be displayed on the desktop of a mobile terminal. It can be used to display clock, calendar, weather and other information. It is displayed on the desktop of the mobile terminal as a floating window for displaying specific information. Therefore, the user does not need to When the widget clicks or opens, the specific information presented on the floating window can be viewed at the first time, and the display information on the Widget can be automatically refreshed, or refreshed by the user manually clicking the preset control.

That is to say, in the technical solution of the present invention, the air conditioning control page card can be deployed into the Widget from the control APP, which is equivalent to deploying the operation information of the air processing device to the Widget, so that the user is suspended on the desktop of the mobile terminal. The Widget interface can directly control the operation of the air handling equipment, or directly read the operating parameters of the air handling equipment. It should be understood that the present invention only details the air treatment device as the controlled subject, but is not limited to the application to the air treatment device, and can also be applied to other household appliances, such as a refrigerator, a water dispenser, etc., and is no longer here. Carry out one by one. The following describes the process of creating a Widget for the APP. Creating a Widget for the APP is mainly a process of performing related operations on the AppWidgetProvider and AppWidgetProviderInfo classes.

The AppWidgetProvider is used to receive Widget-related broadcasts, such as Widget update, delete, enable, and disable.

AppWidgetProviderInfo is defined in XML and is used to specify the relevant data of the Widget, such as the layout of the Widget, the corresponding AppWidgetProvider class, and so on.

Deploying a Widget in an app mainly includes the following steps:

1, define the layout of the Widget, set the placement of the control;

2, customize an AppWidgetProvider class to handle all the relevant logic of the Widget, and update the control display of the Widget (such as picture display or text display); you can also send a broadcast when the preset button is clicked through the custom settings, and use onReceive (Context, Intent) Receives the broadcast of the preset button click and adds the corresponding button click logic.

3. Customize a Service to handle data transfer between the App and the Widget. The data transfer process can be started when the Widget is added to the desktop, and stops when the Widget is deleted from the desktop.

4. Define AppWidgetProviderInfo in XML to specify the layout of the Widget, the AppWidgetProvider class, and so on.

Through the above steps, you can complete the deployment process of a Widget.

After the Widget is deployed in the APP, after the mobile terminal installs the App, the mobile terminal displays the deployed Widget in the system widget list, and the user can select whether to add it to the desktop. In this solution, the Widget is displayed on the system desktop, that is, the Widget interface is displayed on the Widget interface of the mobile terminal.

In this embodiment, the control device of the air processing device includes:

The obtaining module 10 is configured to obtain a name and operation information of the plurality of air processing devices;

The display module 20 is configured to display a name and operation information of the plurality of air processing devices on the Widget interface.

Since the plurality of air processing devices are controlled by installing the corresponding control APP on the mobile terminal in the embodiment, before the control APP controls the plurality of air processing devices, the control APP and the plurality of air processing devices are first used. Binding, which also associates the Widget with multiple air handling devices.

In order to implement the control of the plurality of air processing devices, in this embodiment, the obtaining module 10 first acquires the names of the plurality of air handling devices that are bound and the running information. Wherein, the operation information includes a position of the air processing device, an operation mode, and the like. Specifically, the obtaining, by the obtaining module 10, the names of the plurality of air processing devices and the running information may be implemented in the following two manners:

1) The first method is to obtain the name of the air handling device of the same device type and the operation information. In this manner, specifically, the obtaining module 10 is configured to:

Since the air treatment equipment includes various types of equipment such as an air conditioner, a humidifier, a purifier, etc., the air treatment equipment bound in this embodiment is likely to include a plurality of air conditioners, a plurality of humidifiers, and a plurality of purifiers. Wait. In the first method, the acquiring module 10 selects an air processing device of the same device category from the plurality of air processing devices that are bound, and then obtains the name and operation information of the air processing device of the same device category. For example, a plurality of air conditioners included in the air handling device are selected, and then the names and operation information of the plurality of air conditioners are acquired.

2) The second method is to obtain the name of the air processing device in the same combination and the operation information. In this manner, specifically, the obtaining module 10 is configured to:

In the second method, the plurality of air handling devices that are bound may be divided into multiple combinations in advance, for example, the air conditioner, the humidifier, and the purifier in the home are set as a combination, and the company's air conditioner, humidifier, and purification are used. Set to another combination. The acquisition module 10 selects an air treatment device belonging to a combination from a plurality of bundled air treatment devices, and then obtains the name and operation information of the air treatment device within a combination. For example, an air conditioner, a humidifier, and a purifier belonging to a home combination are selected from the bound air handling equipment, and then the names of the air conditioners, humidifiers, purifiers, and operation information in the home combination are obtained.

Afterwards, the display module 20 displays the name of the air processing device acquired by the acquisition module 10 and the operation information on the Widget interface.

For example, if the acquisition module 10 obtains the name of the air conditioner and the operation information, the name of the humidifier, and the operation information, the display module 20 displays the name of the air conditioner and the operation information, the name of the humidifier, and the operation information on the Widget interface. As shown in FIG. 2, the name of the air conditioner and the humidifier and the operation information are respectively displayed on the Widget interface displayed on the desktop of the mobile terminal system.

By viewing the Widget interface, the user can obtain information about the operation of the air handling device, such as the operating mode of the air conditioner and the current set temperature of the air conditioner. After the user views the operation information of the air processing device, to control the operation of the air processing device, the user can perform corresponding control operations on the Widget interface, thereby triggering corresponding control commands to control the operation of the air processing device. For example, when the preset button corresponding to the air processing device is set on the Widget interface, the user can perform a touch operation on the preset button corresponding to the air processing device, and when receiving the touch operation based on the preset button, according to the touch operation The corresponding preset button controls the air processing device corresponding to the preset button.

For example, if the user wants to lower the set temperature of the air conditioner after viewing the current set temperature of the air conditioner, the user can click the temperature lowering button corresponding to the air conditioner on the Widget interface, and when the user detects the temperature decrease, When the button is operated, the current set temperature of the air conditioner is lowered and adjusted, for example, the set temperature is lowered by 1 degree, thereby controlling the operation of the air conditioner.

For a clearer understanding of the embodiment, the following is an example of deploying the air conditioning control page card to the Widget as an example to describe the deployment process and loading process of the Widget. The information displayed on the air conditioning control page card is the operation information of the air conditioner, and the button in the air conditioning control page card is the control button of the air conditioner. The operation information includes an air conditioner name, an air conditioner position, an air conditioner current operation mode, an air conditioner current set temperature, and the like; the control button includes a temperature adjustment button and a shutdown button.

When the APP is enabled (as long as the process of the APP is not killed, the APP is considered to be in the open state), after the user adds the Widget of the air conditioning control page card to the system desktop, the mobile terminal starts the Service defined in the APP, and the Service will Synchronous air conditioner operation information, synchronization mode can be used to query the operation information of the air conditioner or automatically report the air conditioner at regular intervals. After the Service obtains the operation information of the air conditioner, the operation information of the air conditioner is sent as a broadcast, and an action flag such as action1 is carried in the broadcast. When the AppWidgetProvider receives the action of action1 through onReceive(Context, Intent), obtains the running information of the air conditioner in the broadcast, and updates the running information to the Widget interface in real time to implement the update process of the Widget interface.

In this embodiment, taking the air conditioner as an example, the service of the control APP acquires the name of the air conditioner and the operation information, wherein the operation information includes the air conditioner position, the current operation mode of the air conditioner, the current set temperature of the air conditioner, and the like. Then, the name and operation information of the air conditioner are sent as a broadcast. After the Widget receives the broadcast sent by the service through the onReceive, the name and operation information of the air conditioner in the broadcast are obtained, and the name of the air conditioner of the air conditioner is displayed on the Widget interface. , air conditioner position, current operating mode of the air conditioner, and current set temperature.

When the preset button corresponding to the air conditioner on the Widget interface is clicked by the user, it can be set to send a broadcast to the outside, which is equivalent to receiving the broadcast of the button click on the Widget interface through the onReceive (Context, Intent) in the AppWidgetProvider, and adding the corresponding The logic added here is mainly to process the user's control commands (such as shutdown, temperature increase of 1 degree, temperature by 1 degree) into corresponding data, and then still send out through the broadcast, the broadcast will also bring a The action flag, such as action2, receives the broadcast of the control button click of the air conditioner in the Service, and reads the control command carried in the broadcast (such as shutdown, temperature rises by 1 degree, temperature decreases by 1 degree), and is compiled into The control code of the air conditioner is sent to the air conditioner to implement the process of controlling the air conditioner by the Widget.

In this embodiment, when the user clicks the temperature adjustment button of the air conditioner in the Widget interface, the Widget is equivalent to receiving the broadcast of the temperature adjustment button click through the onReceive, and at this time, based on the click operation of the temperature adjustment button, determining the corresponding control instruction, such as The user clicks on the temperature increase button, indicating that the control command is to increase the temperature by 1 degree. At this time, the control command is processed into corresponding data and sent out by broadcast. After receiving the broadcast, the service of the control APP reads the When the control command carried in the broadcast, if the temperature rises by 1 degree, and the control command is programmed into the air conditioner control code, the air conditioner sends the air conditioner to the air conditioner, and the air conditioner raises its current set temperature according to the received control code. 1 degree.

It is worth noting that if the control APP process is killed, the corresponding Service will also be killed, then the Widget is in an unavailable state, unless the APP is restarted, the Service is started again.

In the solution provided by the embodiment, the obtaining module 10 first obtains the names of the plurality of air processing devices and the running information, and then the display module 20 displays the names of the plurality of air processing devices and the running information on the Widget interface, so that the user according to the Widget interface The name of the air handling device displayed and the running information can be controlled by performing corresponding operations on the Widget interface. Therefore, the user performs operations such as opening the APP, manually selecting the corresponding air processing device to enter the corresponding control interface of the air processing device, etc., thereby improving the convenience of the air processing device control and greatly improving the user experience.

Further, based on the first embodiment, the present invention also proposes a second embodiment of the control device of the air treatment apparatus. Referring to FIG. 3, FIG. 3 is a schematic diagram of functional modules of a second embodiment of a control device for an air handling device according to the present invention. In the second embodiment, the display module 20 includes:

a first determining unit 21, configured to determine a display order of the plurality of air processing devices;

The first display unit 22 is configured to display the names of the plurality of air processing devices and the operation information on the Widget interface according to the determined display order.

Since the bundled air handling devices include a plurality, after the acquisition module 10 acquires the names of the plurality of air handling devices and the operation information, the first determining unit 21 first determines the display order of the plurality of air processing devices. Then, the first display unit 22 displays the names of the plurality of air processing devices and the operation information on the Widget interface in accordance with the determined display order.

For example, if the bound air handling device includes an air conditioner, a humidifier, and a purifier, after the acquisition module 10 respectively obtains the names of the air conditioner, the humidifier, the purifier, and the operation information, the first determining unit 21 first determines the air conditioner. The order of display of the humidifier and the purifier, and then the first display unit 22 displays the names of the air conditioner, the humidifier, the purifier, and the operation information on the Widget interface according to the determined display order. For example, if the first determining unit 21 determines that the display order is: humidifier→air conditioner→purifier, the first display unit 22 displays the names of the humidifier, the air conditioner, the purifier, and the operation according to the display order on the Widget interface. Information, the name of the humidifier and the running information are displayed at the top of the Widget interface. The name of the purifier and the running information are displayed at the end of the Widget interface. In this way, it is further convenient for the user to control each air treatment device, thereby further improving the user's control experience.

Optionally, the first determining unit 21 determines a display order of the plurality of air processing devices according to the current air parameter, the air parameters including air temperature, air humidity, air PM2.5 value, and the like. For example, in the above-exemplified example, the bound air handling apparatus includes an air conditioner, a humidifier, and a purifier, and the first determining unit 21 determines the display order of the air conditioner, the humidifier, and the purifier based on the current air parameters. For example, if the current air temperature is too high, the air humidity is slightly lower, and the air PM2.5 value is normal, that is, the user is currently most likely to reduce the air temperature by controlling the air conditioner. At this time, the first determining unit 21 determines the corresponding display. The order is: air conditioner → humidifier → purifier. If the current air temperature is suitable, the air humidity is too low, and the air PM2.5 value is normal, that is, the user is currently most likely to increase the air humidity by controlling the humidifier. At this time, the first determining unit 21 determines that the corresponding display order is: Humidifier → air conditioner → purifier.

It can be understood by those skilled in the art that the first determining unit 21 can determine more than the current position of each air processing device, in addition to determining the display order of the plurality of air processing devices according to the air parameters described above. The display order of the air processing devices, the manner in which the first determining unit 21 determines the display order of the plurality of air processing devices is not limited herein.

Further, since the air parameter is constantly changing with time, for example, the air temperature may be too high for a period of time, but after the air conditioner is cooled, the air temperature becomes suitable. At this time, the first determining unit 21 is The display order of the plurality of air handling devices determined by the previous air parameters becomes inappropriate. Therefore, in the present embodiment, the first determining unit 21 updates the display order of the plurality of air processing devices in real time or at a timing. Specifically, the first determining unit 21 acquires the current air parameter in real time or timing, and re-determines the display order of the plurality of air processing devices according to the most recently acquired air parameter, and replaces the previously determined display order with the re-determined display order. The order of display.

Then, the first display unit 22 rearranges the names of the plurality of air processing devices and the operation information on the Widget interface according to the updated display order of the respective air processing devices. For example, if the first display unit 22 is in the display order of the air conditioner→humidifier→purifier, the name and operation information of each air processing device are displayed on the Widget interface, and then the first determining unit 21 updates the display order. For the humidifier→air conditioner→purifier, the first display unit 22 rearranges and displays the air treatment devices on the Widget interface according to the updated display order, that is, according to the display order of the humidifier→air conditioner→purifier. Name and running information.

Further, in this embodiment, the first display unit 22 is configured to:

In order to further improve the user's control experience, in the embodiment, after the first determining unit 21 determines the display order of the air processing devices, the first display unit 22 arranges the colors on the Widget interface according to the display order. Displays the names and operational information of multiple air handling devices. For example, if the display order determined by the first determining unit 21 is an air conditioner→humidifier→purifier, the first display unit 22 displays the name and operation information of the air conditioner in the front of the Widget interface in red, and humidifies with yellow. The name of the device and the running information are displayed in the middle of the Widget interface. The name of the purifier and the running information are displayed in green at the end of the Widget interface. In this way, the user can also intuitively know which air treatment device is currently most in need of control operations through the color display, thereby further improving the user experience.

In the solution provided by the embodiment, the first determining unit first determines the display order of the plurality of air processing devices, and then the first display unit displays the names of the plurality of air processing devices and the running information on the Widget interface according to the determined display order. The name and operation information of the air handling device that needs to be manipulated are displayed on the front end position of the Widget interface, thereby further facilitating the user to control the air processing device and improving the user's control experience.

Further, based on the first embodiment, the present invention also proposes a third embodiment of the control device of the air treatment apparatus. In a third embodiment, the control device of the air treatment device further includes:

a sending module, configured to send a detection instruction to the air processing device when the preset button is triggered, for the air processing device to perform self-test according to the detection instruction, and return the detection information to the Mobile terminal

The display module 20 is configured to display the detection information in the Widget interface when the detection information is received, so that the user can understand the running status of the air processing device according to the detection information.

In this embodiment, the Widget of the control device of the air processing device further includes a preset button that triggers the control command. The preset button is disposed in the Widget interface. When it is detected that the preset button is triggered, the sending module sends a detection instruction to the air processing device. When the air processing device receives the detection instruction, the air processing device performs a physical examination according to the detection instruction, obtains detection information, and returns the obtained detection information to the display module 20.

When the display module 20 receives the detection information sent by the air processing device, the detection information is displayed on the Widget interface of the Widget, so that the user can understand the operation status of the air processing device according to the detection information. .

Further, referring to FIG. 4, the display module 20 includes:

a second determining unit 23, configured to determine an operating state of the air processing device according to the detecting information when the detecting information is received;

The second display unit 24 is configured to display prompt information corresponding to the running state in the Widget interface, so that the user can understand the running status of the air processing device according to the prompt information.

When receiving the detection information transmitted by the air processing device, the second determining unit 23 determines an operating state of the air processing device based on the detection information. It should be noted that, in this embodiment, the operating states of the air processing device include a normal state, a general fault state, and a severe fault state. In other embodiments, the operating state of the air handling device can also be set to other states.

When the second determining unit 23 determines the operating state of the air processing device according to the detection information, the second display unit 24 displays prompt information corresponding to the running state in the Widget interface for providing The user knows the operating status of the air processing device according to the prompt information. The prompt information includes, but is not limited to, color prompt information and text prompt information.

When the prompt information is color prompt information, and the air processing device is in different running states, the background color of the Widget interface is set to a different display color. When the air processing device is in a normal state, the background color of the Widget interface is green; when the air processing device is in a general fault state, the background color of the Widget interface is yellow; when the air processing device is When in a severe fault state, the background color of the Widget interface is red. Therefore, in this embodiment, when the background color of the Widget interface is more vivid and more conspicuous, it indicates that the fault of the air processing device is more serious.

Further, the second determining unit 23 includes:

Further, the process of determining, by the second determining unit 23, the operating state of the air processing device according to the detection information is: when the sending module receives the detection information, the extracting subunit extracts the detection The detection score in the information, the judgment subunit determines whether the detection score is within a preset severe fault score range. If the detection score is within the preset severe fault score range, the determining subunit determines that the air processing device is in a severe fault state; if the detection score is not within the preset severe fault score range, The determining subunit determines whether the detected score is within a preset general fault score range. If the detection score is within the preset general fault score range, the determining subunit determines that the air processing device is in a general fault state; if the detection score is not within the preset general fault score range, The determining subunit then determines that the air handling device is in a normal state. It should be noted that the preset severe fault score and the general fault score may be set according to specific needs.

For example, when the detection score of the air conditioner is a percentage system, it may be set that when the detection score is 60 points or less, it is a serious fault state, and when the detection score is 60-89 minutes, it is a general fault state, and the detection score is 90. -100 minutes is normal.

In this embodiment, when detecting that the preset button in the Widget is triggered, sending a detection instruction to the air processing device, for the air processing device to perform self-test according to the detection instruction, returning detection information; When the detection information is obtained, the detection information is displayed on the Widget interface, so that the user can understand the operation status of the air processing device according to the detection information. The user does not need to open the APP corresponding to the air processing device in the mobile terminal, and enters the control interface to control the air processing device to perform the physical examination. The user can directly control the air processing device through the Widget on the display window of the mobile terminal, and according to the Widget interface. The displayed detection information understands the operation of the air handling equipment and improves the convenience and intelligence of the air handling equipment.

Further, based on the third embodiment, the present invention also proposes a fourth embodiment of the control device of the air treatment apparatus. In the fourth embodiment, when it is determined that the air processing device is in a severe fault state according to the detection information, the sending module is further configured to send a power-off instruction to the air processing device for the air processing device Performing a power-off operation according to the power-off instruction;

The display module 20 is further configured to display, in the display interface, prompt information corresponding to the severe fault state, to prompt the user that the air processing device is in a severe fault state;

When the second determining unit 23 determines that the air processing device is in a severe fault state according to the detection information, the transmitting module sends a power down command to the air processing device. When the air handling device receives the power down command, the air handling device performs a power down operation to stop working. The display module 20 displays prompt information corresponding to the severe fault state in the display interface to prompt the user that the air processing device is in a serious fault condition. When it is determined that the air treatment device is in a severe fault state, the background color of the display interface is displayed in red to prompt the user that the air treatment device is in a severe fault state.

The sending module sends the fault data in the detection information to the after-sales service terminal to prompt the after-sales service terminal that the air processing device is in a serious fault state. After the after-sales service terminal receives the fault data, the after-sales service terminal determines a corresponding solution according to the fault data, and determines that the corresponding staff performs maintenance.

Further, when the mobile terminal determines that the air processing device is in a severe fault state according to the detection information, and the mobile terminal detects a fault cancellation request command, displaying the serious fault in the display interface The cancellation method corresponding to the status.

Further, when it is determined that the air processing device is in a general fault state according to the detection information, the display module 20 is further configured to display, in the display interface, color prompt information corresponding to the general fault state and/or Text prompt information to prompt the user that the air handling device is in a general fault condition.

When the second determining unit 23 determines that the air processing device is in a general fault state according to the detection information, the display module 20 displays color prompt information corresponding to the general fault state in the display interface and/or Or text prompt information, such as displaying yellow corresponding to the general fault state in the display interface, and/or displaying text information similar to "the air processing device is in a general fault state" in the display interface to prompt the user The air handling device is in a general fault condition. Further, the display module 20 may also output voice information corresponding to the general fault state to prompt the user that the air processing device is in a general fault state.

Further, the control device of the air treatment device further includes:

And a display module, configured to display, in the display interface, a release method corresponding to the general fault state when the fault cancellation request command is detected.

Further, when the second determining unit 23 determines that the air processing device is in a general fault state according to the detection information, and detects a fault release request command, the display module displays the general information in the display interface. The method of releasing the fault status. It can be understood that a fault release button can be set in the Widget, and when the user presses the fault release button, the mobile terminal can detect the fault cancellation request. When the air conditioner is not cooled, and after the air conditioner runs for a period of time, when the water ice particles are blown out in the air conditioner, the mobile terminal displays the module after detecting the fault cancellation request command. In the display interface, the text message "The evaporator and the filter are too dirty, please clean the evaporator and the filter" is displayed.

In this embodiment, when the air treatment device is in a severe fault state, a power-off instruction is sent to the air treatment device to stop the air treatment device from operating, thereby prolonging the service life of the air treatment device; The prompt information corresponding to the severe fault state is displayed in the display interface, and the fault data in the detection information is sent to the after-sales service terminal, so that the user can know the running state of the air processing device in time, and notify the after-sale service in time. Personnel on-site maintenance improves the intelligence of air handling equipment control.

Further, as shown in FIG. 5, based on the first embodiment, the present invention also proposes a fifth embodiment of the control device of the air treatment apparatus. In the fifth embodiment, the control device of the air treatment device further includes:

The detecting module 30 is configured to detect whether the current control device of the air processing device is connected to the smart connection device;

The reading module 40 is configured to read a networked state of the smart connection device when the control device of the air processing device is connected to the smart connection device;

The display module 20 is configured to perform display corresponding to the networked state on the Widget interface.

In this embodiment, the control device of the air processing device can establish a signal connection with the smart connection device through the APP, thereby obtaining related information of the smart connection device, such as the name of the smart connection device, the networking state, and other smart devices on the smart connection device. The information is etc., and is performed on the Widget interface, wherein the information displayed on the Widget can be refreshed and displayed.

For example, a Widget deployed on the desktop of a mobile terminal as shown in FIG. 2. The Widget displays the networking condition of the smart connected device. For example, the smart connected device is an intelligent router, and reads the information of the smart router. If the router is connected to the network normally, the screen displays a bright screen or displays a connected flag; if the router is not connected properly, , it displays a dark screen or shows a mark that the network is unsuccessful. Therefore, the user can quickly and conveniently understand the networking situation of the current smart connected device through the Widget, and avoid the cumbersome operation of clicking and entering the APP view, thereby improving the user experience.

In this embodiment, the Widget interface is used to quickly display the running status of the intelligent connection device, thereby facilitating the user to quickly and easily understand, and implementing simple monitoring of the running state of the intelligent connection device.

Further, in an embodiment of the control device of the air treatment device of the present invention, the reading module 40 is further configured to: when the networked state of the smart connection device is normal, read related information of other smart devices connected to the smart connection device; The display module 20 is further configured to: when the networked state of the smart connection device is normal, further display related information of the read smart device on the Widget interface.

In this embodiment, the smart connection device can connect multiple smart devices, and the smart device includes at least one air processing device. For example, a smart phone, a smart TV, a smart air conditioner, a smart purifier, an intelligent dehumidifier, etc., and when the networked state of the smart connected device is normal, each smart device can interact with an external server by connecting the smart connected device.

Optionally, the information about the read smart device may be the name of the smart device, for example, displaying the name of each smart device connected to the smart router on the Widget interface, and further displaying the running parameters of the smart device, such as smart When the device is an air conditioner, the operating parameters of the air conditioner are displayed.

Optionally, the display module is further configured to: display a control button for controlling the air processing device to adjust the operating parameter while displaying the operating parameter of the air processing device on the Widget interface. Displaying the operating parameters of the air handling device on the Widget interface allows the user to quickly understand the current operation of the air handling device, and displaying the control buttons on the Widget interface allows the user to quickly and easily complete the control of the air handling device, such as a Widget. The interface shows that the current ambient temperature is high, you can control the air conditioner to lower the temperature by pressing the control button.

Further, as shown in FIG. 6, based on the fifth embodiment, the present invention also proposes a sixth embodiment of the control device of the air treatment apparatus. In the sixth embodiment, the control device of the air treatment device further includes:

The first monitoring module 50 is configured to monitor whether there is a touch operation on the control button;

The first control module 60 is configured to control the air processing device to adjust the operating parameter when there is a touch operation on the control button.

Optionally, the smart device is preferably an air treatment device, and at least includes one or more of an air conditioner, a humidifier, a dehumidifier, and an air purifier; respectively, the control button includes at least: an air conditioner operating parameter adjustment button, and humidification One or more of the machine operation parameter adjustment button, the dehumidifier operation parameter adjustment button, and the air purifier operation parameter adjustment button.

(1) The air conditioner operating parameter adjustment button, such as the air conditioner operating mode adjustment button and the temperature adjustment button, the user can control the operation mode and temperature of the air conditioner through the air conditioner operating parameter adjustment button.

(2) Humidifier operation parameter adjustment button, such as humidifier switch button, humidification button, etc., the user can control the humidifier to open or close, humidify operation, etc. through the humidifier operation parameter adjustment button.

(3) Dehumidifier operation parameter adjustment button, such as dehumidifier switch button, dehumidification button, etc., the user can control the dehumidifier to open or close, dehumidify operation, etc. through the dehumidifier operation parameter adjustment button.

(4) Air purifier operation parameter adjustment button, such as the purifying mode adjustment button, the user can control the purifying mode of the air purifier through the air purifier operating parameter adjustment button.

In this embodiment, the user can trigger the generation of a control instruction for controlling the smart device to adjust the operating parameters by manually touching the control button displayed on the Widget.

For example, the air quality information detected by the air purifier is displayed on the Widget. When the user picks up the mobile terminal and learns from the Widget that the current PM2.5 concentration is too high, the user can manually touch the corresponding control button on the Widget. The trigger generation is then used to control the air purifier to purify the air, as shown in FIG.

It should be noted that the function operation instruction for controlling the smart device to perform the corresponding function operation may be directly generated by the control device of the smart device and directly sent to the smart device. For example, when the function operation control on the Widget of the mobile terminal is clicked by the user, a broadcast can be sent out, specifically by using OnReceive(Context, in the AppWidgetProvider. Intent) receives the broadcast of the function operation control click and adds corresponding logic. The logic added here is mainly to process the user's control commands (such as cooling, dehumidification, air purification, etc.) into corresponding data, and send it out through the broadcast. The broadcast will also carry an action flag, such as action2, in the Service. Receiving a broadcast of the function operation control click, and reading the control instruction carried in the broadcast, and compiling the control code, and sending the control code to the corresponding smart device (such as an air conditioner or a dehumidifier), thereby implementing the control smart device through the Widget process.

Certainly, the function operation instruction for controlling the smart device to perform the corresponding function operation may also be indirectly controlling other device generation, for example, the control device of the smart device sends a control instruction to the server connected to the smart connection device, and then the server generates the control smart device to execute. The function operation instruction of the corresponding function operation transmits the function operation instruction to the smart device, thereby implementing control of the smart device.

In addition, in this embodiment, the manner of transmitting the function operation instruction is not limited, for example, the function operation instruction is transmitted to the smart device (such as an air conditioner, a humidifier, etc.) by using the wifi method, or the function operation instruction is transmitted to the smart device by using the infrared method. In turn, after receiving the function operation instruction, the smart device can perform corresponding functional operations, such as cooling, dehumidification, purifying air, and the like.

In this embodiment, the Widget interface is used to quickly display the running status of the intelligent connection device, thereby facilitating the user to quickly and easily understand, and implementing simple monitoring of the running state of the intelligent connection device. In addition, a control button for controlling other smart devices connected on the smart connection device is also displayed on the Widget interface, thereby providing a simple control method for the user to conveniently control other smart devices through the control button.

Further, in another embodiment of the control device of the air treatment device of the present invention, when the networked state is normal, the smart device can realize the interaction between the smart device and the server through the smart connection device.

In this embodiment, the reading module 40 is further configured to: when the networked state of the smart connected device is normal and a plurality of the smart devices are connected, the smart device group information in the server is read; and the display module 20 is further configured to: Displaying the read smart device group information on the Widget interface, and displaying a switch button for turning on or off the associated application between the smart devices in the smart device group.

In this embodiment, in order to implement association control between different smart devices, the server may associate groups of the networked smart devices to form a smart device group. It should be noted that the smart device group includes at least two or two types. The above intelligent devices can be associated. For example, the association group is performed based on the function to be implemented, for example, the air detecting device is associated with the air purifier, the humidifier is associated with the air conditioner, the temperature monitoring device is associated with the air conditioner, and the like.

In addition, it should be further explained that in order to enhance the user experience, the user is allowed to set the association relationship according to his own needs or preferences. Therefore, when the read smart device group information is displayed on the Widget interface, it is also displayed for opening or The switch button to which the association function between the smart devices in the smart device group is applied is closed, so that the associated control of the associated smart device can be implemented only when the associated application button between the smart devices in the smart device group is turned on.

Referring to FIG. 7, FIG. 7 is a schematic diagram of functional modules of a seventh embodiment of a control device for an air handling device according to the present invention. Based on the fifth embodiment, the control device of the air processing device further includes:

The determining module 70 is configured to determine, when the switch button is turned on, whether the operating parameter of the specific smart device in the smart device group meets a preset condition, wherein the specific smart device has an environment detecting function;

The second control module 80 is configured to control, when the operating parameter of the specific smart device meets the preset condition, the smart device associated with the specific smart device to perform adjustment of a corresponding operating parameter.

In this embodiment, when the switch button of the associated application between the smart devices in the smart device group is turned on, the control device of the air processing device can control the association with the specific smart device according to the operating parameters of the specific smart device in the smart device group. The smart device performs adjustment of the corresponding operating parameters.

For example, the purifier is associated with the air detecting device, and when the air detecting device detects that the pollution is serious, the purifier is automatically turned on. For example, when the air conditioner is associated with the humidifier, when the humidifier detects that the current humidity is low, the air conditioner is automatically triggered to operate in the air conditioning mode without dehumidification.

In this embodiment, the manner of adjusting the operating parameters of the automatic control smart device is not limited, and is specifically set according to actual needs. For example, the control device of the air processing device directly controls, or the control device of the air processing device sends the control command to the server through the smart connection device, and then the server forwards the control command to the corresponding smart device, thereby implementing the smart device. Adjustment of operating parameters.

Further, based on the first embodiment, the present invention also proposes an eighth embodiment of the control device of the air treatment apparatus. In the eighth embodiment, the acquiring module 10 is configured to acquire environment data collected by the air detecting device;

The display module 20 is configured to display the environment data on the widget interface, and display a control button for controlling a corresponding air processing device to perform a function operation corresponding to the environment data.

In this embodiment, the type of data collected by the air detecting device is not limited, such as temperature, humidity, and the like. At the same time, the mobile terminal can establish a signal connection with the air detecting device through the APP, and then the environment data collected during the operation of the air detecting device can be obtained and displayed on the widget interface, wherein the environment data displayed on the widget can be refreshed and displayed.

Optionally, the environmental data collected by the air detecting device includes at least one of a temperature, a humidity, and a PM2.5 concentration. In addition, the display module 20 is further configured to preferentially display the unit time on the widget interface when the air detecting device collects multiple environmental data, considering that the data collected by the air detecting device is large, so that the widget display interface cannot be displayed. One or more environmental data whose rate of change exceeds a predetermined threshold.

In this embodiment, the control button displayed on the widget interface can control the corresponding air processing device to perform a function operation corresponding to the environment data. For example, the environment data such as ambient temperature, humidity, PM2.5 concentration obtained from the air box is displayed on the widget, and the environment data is automatically refreshed and displayed. When the user picks up the mobile terminal, the current humidity is greater than 80 from the widget. %, the user can manually touch the dehumidification control button on the widget, and then trigger the generation of a function operation instruction for directly or indirectly controlling the dehumidifier to start and dehumidify, and send the function operation instruction to the dehumidifier, so that the dehumidifier receives After the function operation command, the dehumidifier and the dehumidification function are turned on to dehumidify the current environment. When the current humidity displayed on the widget drops to the user's satisfactory humidity value, for example, when the current humidity is 50%, the user can touch the shutdown function control button to control the dehumidifier to stop dehumidification and be in the standby state.

It should be noted that the function operation instruction for controlling the air processing device to perform the corresponding function operation may be directly generated by the control device of the air processing device directly and sent directly to the air processing device. For example, when the function operation control on the widget is clicked by the user, a broadcast can be sent out, specifically by using OnReceive(Context, in the AppWidgetProvider. Intent) receives the broadcast of the function operation control click and adds corresponding logic. The logic added here is mainly to process the user's control commands (such as shutdown, temperature rise by 1 degree, temperature decrease by 1 degree, start dehumidification) into corresponding data, and send it out by broadcast. The broadcast will also carry an action. A flag, such as action2, receives a broadcast of the function operation control click in the Service, and reads a control instruction carried in the broadcast (such as shutdown, temperature rise by 1 degree, temperature decrease by 1 degree, start dehumidification), and is programmed The control code is sent to the corresponding controlled air treatment device (such as an air conditioner and a dehumidifier), and then the process of controlling the air treatment device is realized through the Widget.

Of course, the function operation instruction for controlling the air processing device to perform the corresponding function operation may also be indirectly controlling other device generation, for example, the control device of the air processing device sends a control command to the air box, and then controls the air box to generate the control air processing device to perform the corresponding The functional operation of the function operates the command and controls the air box to send the function operation command to the air conditioner.

In addition, in this embodiment, the manner of transmitting the function operation instruction is not limited, for example, the function operation instruction is transmitted to the air processing device (such as an air conditioner, a humidifier, etc.) by using the wifi method, or the function operation is transmitted to the air processing device by using the infrared method. The instruction, in turn, enables the air processing device to perform corresponding functional operations, such as heating, cooling, dehumidifying, humidifying, purifying air, etc., after receiving the functional operation command.

In this embodiment, the environment data collected by the air detecting device is displayed through the desktop plug-in widget, thereby facilitating the user to quickly and easily understand the current environmental condition. In addition, the function operation control associated with the environment data is also displayed on the widget, thereby providing the user with a convenient control method for controlling the air processing device by operating the control through the function, thereby realizing easy monitoring of the environment and The benefits of convenient control of air handling equipment.

Further, in the eighth embodiment of the control device of the air treatment device of the present invention, in order to facilitate the user to understand the operation parameter data on the air treatment device, the acquisition module 10 is further configured to: while acquiring the environmental data collected by the air detection device The operating parameter of the air processing device is also obtained; the display module 20 is further configured to: display the environmental data and the control button on the widget interface, and display the operating parameter.

In this embodiment, the air detecting device ID is bound to the air processing device ID, thereby realizing the association between the air detecting device and the air processing device, thereby realizing the environmental data collected by the air detecting device and the operation of the air processing device. Associated. Therefore, the acquisition module 10 will simultaneously acquire the environmental data collected by the air detecting device and the operating parameters of the air processing device, and simultaneously display the display module 20, thereby facilitating the user to conveniently understand the environmental data collected by the air detecting device. Easy access to the operation of air handling equipment.

Further, when the environmental data collected by the air detecting device and the operating state of the air processing device are simultaneously displayed on the widget interface, the control device of the air processing device further implements the association between the air detecting device and the air processing device on the widget, and the specific performance In order to generate and display a control button for controlling air processing of the air processing device on the widget interface, the air detecting device is associated with the air processing device, and then the user touches the function of the widget on the widget interface, that is, Convenient control of air handling equipment is possible.

Referring to FIG. 8, FIG. 8 is a schematic diagram of functional blocks of a ninth embodiment of a control device for an air handling device according to the present invention. In this embodiment, the control device of the air processing device further includes:

The second monitoring module 90 is configured to monitor whether there is a touch operation on the control button;

The command generating module 100 is configured to generate a corresponding function operation instruction when there is a touch operation on the control button;

The transmission module 110 is configured to transmit the function operation instruction to the server, so that the server controls the air processing device to perform a function operation corresponding to the environment data according to the function operation instruction.

In this embodiment, the second monitoring module 90 monitors whether there is a user touch operation on the control button on the widget interface. If yes, the command generation module 100 generates a corresponding function operation instruction, and the function operation instruction is transmitted by the transmission module 110. Go to the server to control the air handling equipment accordingly.

It should be further noted that, in this embodiment, the air treatment device is specifically controlled by the server, and the server first receives the function operation instruction sent by the control device of the air processing device, and then generates a control command according to the function operation instruction, thereby controlling the air treatment. The device performs a response function operation.

Optionally, the air processing device includes at least one of an air conditioner, a humidifier, a dehumidifier, and an air purifier; and the control button includes at least: an air conditioner operating parameter adjustment button, a humidifier operating parameter adjustment button, and a dehumidifier. Run one or more of the parameter adjustment button and the air purifier operation parameter adjustment button.

The invention further provides a method of controlling an air treatment device.

The air treatment apparatus in the present invention includes, but is not limited to, an air conditioner, a humidifier, a dehumidifier, a purifier, etc., and the air treatment apparatus includes an air inlet, an air outlet, and an air duct connecting the air inlet and the air outlet, in the air passage. The function module is set. The application carrier of the control method of the air processing device is associated with a pre-stored Widget, wherein the Widget includes a Widget interface. Preferably, the control method of the air processing device is applied to a mobile terminal such as a smart phone, a PAD (tablet computer) or the like. For example, a corresponding control APP is installed on the mobile terminal. In this solution, the control APP controls the air processing device in a different manner from the existing APP to the air processing device. The difference is that in the solution, the control APP is also deployed with a corresponding Widget widget. The Widget is set on the Widget interface of the mobile terminal, and the Widget is associated with at least one air processing device, and the Widget includes a Widget interface. Preferably, the preset button is set on the Widget interface. The Widget interface is used to display the name of the associated air handling device and the operational information, and the preset button is used to trigger a control command to control the operation of the associated air handling device.

That is to say, in the technical solution of the present invention, the air conditioning control page card can be deployed into the Widget from the control APP, which is equivalent to deploying the operation information of the air processing device to the Widget, so that the user is suspended on the desktop of the mobile terminal. The Widget interface can directly control the operation of the air handling equipment, or directly read the operating parameters of the air handling equipment. It should be understood that the present invention only details the air treatment device as the controlled body, but the control method is not limited to be applied to the air treatment device, and can also be applied to other household appliances such as a refrigerator, a water dispenser, etc. No more details will be made here.

The following describes the process of creating a Widget for the APP. Creating a Widget for the APP is mainly a process of performing related operations on the AppWidgetProvider and AppWidgetProviderInfo classes.

Deploying a Widget in an app mainly includes the following steps:

1, define the layout of the Widget, set the placement of the control;

Through the above steps, you can complete the deployment process of a Widget.

Referring to FIG. 9, FIG. 9 is a schematic flow chart of a first embodiment of a method for controlling an air handling device according to the present invention. In this embodiment, the control method of the air processing device includes:

Step S10, acquiring the names of the plurality of air processing devices and the operation information;

Step S20, displaying the names and operation information of the plurality of air processing devices on the Widget interface.

Since the plurality of air processing devices are controlled by the control APP installed on the mobile terminal in this embodiment, before the control APP controls the plurality of air processing devices, the control APP and the plurality of air are first used. The processing device is bound, and the Widget is also associated with multiple air handling devices.

In order to implement the control of the plurality of air processing devices, in this embodiment, the names of the plurality of air handling devices that are bound and the operation information are first acquired. Wherein, the operation information includes a position of the air processing device, an operation mode, and the like. Specifically, the step S10 can be implemented in the following two ways:

1) The first method is to obtain the name of the air treatment device of the same device type and the operation information. In this manner, specifically, the step S10 includes:

Since the air treatment equipment includes various types of equipment such as an air conditioner, a humidifier, a purifier, etc., the air treatment equipment bound in this embodiment is likely to include a plurality of air conditioners, a plurality of humidifiers, and a plurality of purifiers. Wait. In the first method, the air treatment device of the same device category is selected from the plurality of air processing devices that are bound, and then the name and operation information of the air treatment device of the same device category are obtained. For example, a plurality of air conditioners included in the air handling device are selected, and then the names and operation information of the plurality of air conditioners are acquired.

2) The second method is to obtain the name of the air treatment device in the same combination and the operation information. In this manner, specifically, the step S10 includes:

In the second method, the plurality of air handling devices that are bound may be divided into multiple combinations in advance, for example, the air conditioner, the humidifier, and the purifier in the home are set as a combination, and the company's air conditioner, humidifier, and purification are used. Set to another combination. First select the air treatment equipment belonging to a combination from the plurality of air handling equipments bound, and then obtain the name and operation information of the air treatment equipment in a combination. For example, an air conditioner, a humidifier, and a purifier belonging to a home combination are selected from the bound air handling equipment, and then the names of the air conditioners, humidifiers, purifiers, and operation information in the home combination are obtained.

After that, the name of the obtained air processing device and the running information are displayed on the Widget interface displayed on the desktop of the mobile terminal system.

For example, if the name of the air conditioner and the operation information, the name of the humidifier, and the operation information are obtained, the name of the air conditioner and the operation information, the name of the humidifier, and the operation information are displayed on the Widget interface. As shown in FIG. 2, the name of the air conditioner and the humidifier and the operation information are respectively displayed on the Widget interface displayed on the desktop of the mobile terminal system.

The solution proposed in this embodiment first obtains the names of the plurality of air processing devices and the operation information, and then displays the names of the plurality of air processing devices and the operation information on the Widget interface, so that the user displays the air processing devices according to the Widget interface. Name and operation information, the operation of the air handling device can be controlled by performing corresponding operations on the Widget interface. Therefore, the user performs operations such as opening the APP, manually selecting the corresponding air processing device to enter the corresponding control interface of the air processing device, etc., thereby improving the convenience of the air processing device control and greatly improving the user experience.

Further, based on the first embodiment, the present invention also proposes a second embodiment of the control method of the air treatment apparatus. Referring to FIG. 10, FIG. 10 is a schematic flow chart of a second embodiment of a method for controlling an air handling device according to the present invention. In the second embodiment, the step S20 includes:

Step S21, determining a display order of the plurality of air processing devices;

Step S22, displaying the names of the plurality of air processing devices and the operation information on the Widget interface according to the determined display order.

Since the bundled air handling devices include a plurality, after the names of the plurality of air handling devices and the running information are acquired, the display order of the plurality of air handling devices is first determined. Then, in accordance with the determined display order, the names of the plurality of air handling devices and the running information are displayed on the Widget interface.

For example, if the bound air handling equipment includes an air conditioner, a humidifier, and a purifier, after obtaining the names of the air conditioner, the humidifier, the purifier, and the operation information, respectively, determine the display of the air conditioner, the humidifier, and the purifier. The order, and then according to the determined display order, display the name of the air conditioner, the humidifier, the purifier, and the operation information on the Widget interface. For example, if the display order is determined to be: humidifier→air conditioner→purifier, the name of the humidifier, the air conditioner, the purifier, and the operation information are displayed on the Widget interface according to the display order, and the name and operation information of the humidifier are displayed. Displayed at the top of the Widget interface, the name of the purifier and the running information are displayed at the end of the Widget interface. In this way, it is further convenient for the user to control each air treatment device, thereby further improving the user's control experience.

Optionally, the display order of the plurality of air treatment devices is determined based on current air parameters, including air temperature, air humidity, air PM2.5 value, and the like. For example, in the examples listed above, the bound air handling equipment includes an air conditioner, a humidifier, a purifier, and the display order of the air conditioner, the humidifier, and the purifier is determined based on current air parameters. For example, if the current air temperature is too high, the air humidity is slightly lower, and the air PM2.5 value is normal, that is, the user is currently most likely to reduce the air temperature by controlling the air conditioner. At this time, the corresponding display order is determined as: air conditioner →Humidifier→purifier. If the current air temperature is suitable, the air humidity is too low, and the air PM2.5 value is normal, that is, the user is currently most likely to increase the air humidity by controlling the humidifier. At this time, the corresponding display order is determined as: humidifier→air conditioner → Purifier.

It can be understood by those skilled in the art that, besides the display order of the plurality of air processing devices can be determined according to the air parameters described above, the plurality of air processing devices can be determined by other, for example, according to the current position of each air processing device. The manner in which the order of display is determined to determine the display order of the plurality of air handling devices is not limited herein.

Further, since the air parameter is constantly changing with time, for example, the air temperature may be too high for a period of time, but after the air conditioner is cooled, the air temperature becomes suitable, and at this time, it is determined according to the previous air parameter. The display order of the plurality of air handling devices becomes inappropriate. Therefore, in this embodiment, the display order of the plurality of air processing devices is also updated in real time or at a time. Specifically, the current air parameters are acquired in real time or at a time, and the display order of the plurality of air processing devices is re-determined based on the most recently acquired air parameters, and the previously determined display order is replaced with the re-determined display order.

Then, according to the updated display order of the respective air processing devices, the names and operation information of the plurality of air processing devices are rearranged on the Widget interface. For example, if the display order of the air treatment equipment and the operation information are arranged on the Widget interface according to the display order of the air conditioner→humidifier→purifier, and then the update order is humidifier→air conditioner→purifier, Then, according to the updated display order, that is, according to the display order of the humidifier→air conditioner→purifier, the names and operation information of each air processing device are rearranged on the Widget interface.

Further, in this embodiment, the step S22 includes:

In order to further improve the user's control experience, in this embodiment, after determining the display order of each air processing device, the names of the plurality of air processing devices are displayed and run on the Widget interface in different colors according to the display order. information. For example, if the determined display order is air conditioner→humidifier→purifier, the name and operation information of the air conditioner can be displayed in the front of the Widget interface in red, and the name and operation information of the humidifier are displayed in the widget in yellow. In the middle of the interface, the name of the purifier and the running information are displayed in green at the end of the Widget interface. In this way, the user can also intuitively know which air treatment device is currently most in need of control operations through the color display, thereby further improving the user experience.

The solution proposed in this embodiment first determines the display order of the plurality of air processing devices, and then displays the names of the plurality of air processing devices and the operation information on the Widget interface according to the determined display order, and processes the air that needs to be controlled most. The name of the device and the running information are displayed on the front end of the Widget interface, which further facilitates the user to control the air handling device and improves the user's control experience.

Further, based on the first embodiment, the present invention also proposes a third embodiment of the control method of the air treatment apparatus. In the third embodiment, as shown in FIG. 11, the control method of the air processing apparatus further includes the steps of:

Step S30, when detecting that the preset button is triggered, sending a detection instruction to the air processing device, so that the air processing device performs self-test according to the detection instruction, and returns detection information;

In step S40, when the detection information is received, the detection information is displayed in the display interface, so that the user can understand the operating condition of the air processing device according to the detection information.

In this embodiment, the Widget further includes a preset button for triggering the control command. The preset button is disposed in the Widget interface. When the mobile terminal detects that the preset button is triggered, the mobile terminal sends a detection instruction to the air processing device. When the air processing device receives the detection instruction, the air processing device performs a physical examination according to the detection instruction, obtains detection information, and returns the obtained detection information to the mobile terminal.

Further, when the mobile terminal detects that a preset button click operation or a pressing operation or the like in the Widget is clicked, the preset button of the Widget interface is triggered.

When the mobile terminal receives the detection information sent by the air processing device, the mobile terminal displays the detection information in the Widget interface, so that the user can understand the operation of the air processing device according to the detection information. situation.

Further, referring to FIG. 12, the step S40 includes:

Step S41, when receiving the detection information, determining an operating state of the air processing device according to the detection information;

Step S42: Display prompt information corresponding to the running state in the display interface, so that the user can understand the running status of the air processing device according to the prompt information.

Further, when the mobile terminal receives the detection information sent by the air processing device, the mobile terminal determines an operating state of the air processing device according to the detection information. It should be noted that, in this embodiment, the operating states of the air processing device include a normal state, a general fault state, and a severe fault state. In other embodiments, the operating state of the air handling device can also be set to other states.

When the mobile terminal determines the running state of the air processing device according to the detection information, the mobile terminal displays prompt information corresponding to the running state in the display interface, so that the user can use the prompt information according to the prompt information. Understand the operation of the air handling equipment. The prompt information includes, but is not limited to, color prompt information and text prompt information.

When the prompt information is color prompt information, and the air processing device is in different running states, the background color of the display interface is set to a different display color. The background color of the display interface is green when the air treatment device is in a normal state; the background color of the display interface is yellow when the air treatment device is in a general failure state; when the air treatment device When in a severe fault state, the background color of the display interface is red. Therefore, in this embodiment, when the background color of the display interface is more vivid and more conspicuous, it indicates that the malfunction of the air processing device is more serious.

Further, the step S41 includes:

Determining whether the detection score is within a preset severe fault score;

Further, the process of determining, by the mobile terminal, the operating state of the air processing device according to the detection information is: when the mobile terminal receives the detection information, the mobile terminal extracts detection in the detection information A score indicating whether the detected score is within a preset severe fault score. If the detection score is within the preset severe fault score range, the mobile terminal determines that the air processing device is in a severe fault state; if the detection score is not within the preset severe fault score range, The mobile terminal determines whether the detection score is within a preset general failure score range. If the detection score is within the preset general fault score range, the mobile terminal determines that the air processing device is in a general fault state; if the detection score is not within the preset general fault score range, The mobile terminal determines that the air handling device is in a normal state. It should be noted that the preset severe fault score and the general fault score may be set according to specific needs.

In this embodiment, when detecting that the preset button in the Widget is triggered, sending a detection instruction to the air processing device, for the air processing device to perform self-test according to the detection instruction, returning detection information; When the detection information is obtained, the detection information is displayed in the display interface, so that the user can understand the operating condition of the air processing device according to the detection information. The user does not need to open the APP corresponding to the air processing device in the mobile terminal, and enters the control interface to control the air processing device to perform the physical examination. The user can directly control the air processing device through the Widget on the display window of the mobile terminal to perform the physical examination, and according to the display interface. The displayed detection information understands the operation of the air handling equipment and improves the convenience and intelligence of the air handling equipment.

Further, based on the third embodiment, the present invention also proposes a fourth embodiment of the control method of the air processing apparatus. In the fourth embodiment, when it is determined that the air processing device is in a severe fault state according to the detection information, the air processing device detecting method further includes the steps of:

The step S42 includes: displaying prompt information corresponding to the severe fault state in the display interface, and sending fault data in the detection information to the after-sales service terminal to prompt the user and the after-sales service terminal The air handling equipment is in a severe fault condition.

When the mobile terminal determines that the air processing device is in a severe fault state according to the detection information, the mobile terminal sends a power off command to the air processing device. When the air handling device receives the power down command, the air handling device performs a power down operation to stop working. The mobile terminal displays prompt information corresponding to the severe fault state in the display interface to prompt the user that the air processing device is in a serious fault condition. When it is determined that the air treatment device is in a severe fault state, the background color of the display interface is displayed in red to prompt the user that the air treatment device is in a severe fault state.

The mobile terminal sends the fault data in the detection information to the after-sales service terminal to prompt the after-sales service terminal that the air processing device is in a serious fault state. After the after-sales service terminal receives the fault data, the after-sales service terminal determines a corresponding solution according to the fault data, and determines that the corresponding staff performs maintenance.

Further, when it is determined that the air processing device is in a general fault state according to the detection information, the step S42 further includes:

Color prompt information and/or text prompt information corresponding to the general fault state is displayed in the display interface to prompt the user that the air processing device is in a general fault state.

When the mobile terminal determines that the air processing device is in a general fault state according to the detection information, the mobile terminal displays color prompt information and/or text prompt information corresponding to the general fault state in the display interface. Displaying yellow text corresponding to the general fault state in the display interface, and/or displaying text information similar to "the air processing device is in a general fault state" in the display interface to prompt the user to perform the air processing The device is in a general fault condition. Further, the mobile terminal may also output voice information corresponding to the general fault state to prompt the user that the air processing device is in a general fault state.

Further, the air processing device detecting method further includes:

When the fault release request command is detected, a release method corresponding to the general fault state is displayed on the display interface.

Further, when the mobile terminal determines that the air processing device is in a general fault state according to the detection information, and detects a fault cancellation request command, displaying, in the display interface, the cancellation corresponding to the general fault state method. It can be understood that a fault release button can be set in the Widget, and when the user presses the fault release button, the mobile terminal can detect the fault cancellation request. For example, when the air conditioner is not cooled, and after the air conditioner runs for a period of time, when the water ice particles are blown out in the air conditioner, the mobile terminal detects the fault cancellation request command, The text message “The evaporator and filter are too dirty, please clean the evaporator and filter” is displayed in the display interface.

Further, as shown in FIG. 13, based on the first embodiment, the present invention also proposes a fifth embodiment of the control method of the air processing apparatus. In a fifth embodiment, the control method of the air processing device further includes the steps of:

Step S50: detecting whether the current mobile terminal is connected to the smart connection device;

Step S60: When the mobile terminal is connected to the smart connection device, read the networking state of the smart connection device, and perform display corresponding to the networked state on the Widget interface.

In this embodiment, there is no limitation on the type of the smart connection device, such as an intelligent router. At the same time, the mobile terminal can establish a signal connection with the smart connection device through the APP, thereby obtaining related information of the smart connection device, such as the name of the smart connection device, the networking status, and information of other smart devices on the smart connection device, etc., and in the Widget The interface is displayed, wherein the information displayed on the Widget can be refreshed and displayed.

In this embodiment, the plug-in Widget is used to quickly display the running status of the smart connection device communicatively connected with the mobile terminal, thereby facilitating the user to quickly and easily understand, and implementing simple monitoring of the running state of the smart connected device.

Further, in an embodiment of the control method of the air treatment device of the present invention, the control method of the air treatment device further includes:

When the networking state of the smart connected device is normal, information about other smart devices connected to the smart connected device is read, and related information of the read smart device is displayed on the Widget interface.

In this embodiment, the smart connection device can be connected to multiple smart devices, such as a smart phone, a smart TV, a smart air conditioner, a smart purifier, an intelligent dehumidifier, etc., and then, when the networked state of the smart connected device is normal, each smart device You can interact with an external server by connecting to a smart connected device.

Optionally, while displaying the operating parameters of the air processing device on the Widget interface, displaying a control button for controlling the air processing device to adjust the operating parameters. Displaying the operating parameters of the air handling device on the Widget interface allows the user to quickly understand the current operation of the air handling device, and displaying the control buttons on the Widget interface allows the user to quickly and easily complete the control of the air handling device, such as a Widget. The interface shows that the current ambient temperature is high, you can control the air conditioner to lower the temperature by pressing the control button.

Referring to FIG. 14, FIG. 14 is a schematic flow chart of a sixth embodiment of a method for controlling an air handling device according to the present invention. Based on the fifth embodiment of the foregoing method, in this embodiment, the control method of the air processing device includes:

Step S70: monitoring whether there is a touch operation on the control button;

Step S80: When there is a touch operation on the control button, the air processing device is controlled to adjust the operating parameter.

Optionally, the smart device includes at least one air processing device, such as an air conditioner, a humidifier, a dehumidifier, an air purifier, and the like; correspondingly, the control button includes at least: an air conditioner operating parameter adjustment button, and a humidifier operating parameter adjustment button. One or more of the dehumidifier operating parameter adjustment button and the air purifier operating parameter adjustment button.

For example, the air quality information detected by the air purifier is displayed on the Widget. When the user picks up the mobile terminal and learns from the Widget that the current PM2.5 concentration is too high, the user can manually touch the corresponding control button on the Widget. The trigger generation is then used to control the air purifier to purify the air.

In this embodiment, the plug-in Widget is used to quickly display the running status of the smart connection device communicatively connected with the mobile terminal, thereby facilitating the user to quickly and easily understand, and implementing simple monitoring of the running state of the smart connected device. In addition, a control button for controlling other smart devices on the smart connected device is displayed on the Widget, thereby providing a control mode for the user to conveniently control other smart devices through the control button.

Further, based on the fifth embodiment of the above method, a seventh embodiment of the control method of the air treatment apparatus of the present invention is proposed. In this embodiment, the control method of the air processing device further includes:

Further, based on the seventh embodiment of the above method, an eighth embodiment of the control method of the air treatment apparatus of the present invention is proposed. In this embodiment, the method for controlling the air processing device further includes:

Referring to Figure 15, Figure 15 is a flow chart showing a ninth embodiment of a method of controlling an air handling apparatus according to the present invention. Based on the first embodiment of the foregoing method, in this embodiment, the control method of the air processing device includes:

Step S90: Acquire environmental data collected by the air detecting device.

Step S100, displaying the environment data and a control button for controlling a corresponding air processing device to perform a function operation corresponding to the environment data on the widget interface.

In this embodiment, the type of data collected by the air detecting device is not limited, such as temperature, humidity, and the like. At the same time, the APP of the air detecting device is installed on the mobile terminal, and the signal connection is established between the APP and the air detecting device, and the environmental data collected during the running of the air detecting device can be obtained and displayed on the interface of the widget, wherein The environment data displayed on the widget can be refreshed and displayed.

Optionally, the environmental data collected by the air detecting device includes at least one of a temperature, a humidity, and a PM2.5 concentration. In addition, considering that the data collected by the air detecting device is large, the widget display interface cannot be displayed at all. Therefore, when the air detecting device collects multiple environmental data, the rate of change per unit time is preferentially displayed on the interface of the widget exceeding the pre-predetermined Set one or more environmental data for the threshold.

Referring to FIG. 16, FIG. 16 is a schematic flowchart diagram of a tenth embodiment of a display method based on a widget according to the present invention. In this embodiment, the display method based on the widget further includes:

Step S110, monitoring whether there is a touch operation on the control button;

Step S120, when there is a touch operation on the control button, generate a corresponding function operation instruction;

Step S130: The function operation instruction is transmitted to the server, so that the server controls the air processing device to perform a function operation corresponding to the environment data according to the function operation instruction.

In this embodiment, the control device of the air processing device monitors whether there is a user touch operation on the control button on the widget interface, and if so, generates a corresponding function operation instruction, and transmits the function operation instruction to the server to process the air. The device is controlled accordingly.

Further, in an embodiment of the widget-based display method of the present invention, in order to facilitate the user to understand the operating parameter data on the air processing device, in this embodiment, the widget-based display method further includes:

While obtaining the environmental data collected by the air detecting device, the operating parameters of the air processing device are also acquired; and the operating parameters are also displayed while displaying the environmental data and the control button on the widget interface.

Further, when the environmental data collected by the air detecting device and the operating state of the air processing device are simultaneously displayed on the interface of the widget, the control device of the air processing device further implements the association between the air detecting device and the air processing device on the widget, specifically It is represented by generating and displaying a control button for controlling the air processing device for air processing on the widget interface, thereby associating the air detecting device with the air processing device, and then the user touches the function operation control on the interface of the widget. Operation, you can achieve convenient control of air handling equipment.

The invention further provides a control system for an air treatment device.

The control system of the air treatment device includes an air treatment device and a control device of the air treatment device described above, the control device of the air treatment device being bound to a plurality of air treatment devices, including but not limited to an air conditioner The humidifier, the dehumidifier, the purifier, etc., the control device of the air treatment device includes a Widget interface. Preferably, the control device of the air treatment device is applied to a mobile terminal such as a smartphone, a PAD (tablet) or the like. For example, a corresponding control APP (control device of the air processing apparatus of the present invention) is mounted on the mobile terminal. In this solution, the control APP also deploys a corresponding Widget widget. The Widget is set on the Widget interface of the mobile terminal, and the Widget includes a Widget interface. Preferably, the preset button is set on the Widget interface. The Widget interface is used to display the name of the associated air handling device and the operational information, and the preset button is used to trigger a control command to control the operation of the associated air handling device.

That is to say, in the technical solution of the present invention, the air conditioning control page card can be deployed into the Widget from the control APP, which is equivalent to deploying the operation information of the air processing device to the Widget, so that the user is suspended on the desktop of the mobile terminal. The Widget interface can directly control the operation of the air handling equipment, or directly read the operating parameters of the air handling equipment. It should be understood that the present invention only details the air treatment device as the controlled subject, but is not limited to the application to the air treatment device, and can also be applied to other household appliances, such as a refrigerator, a water dispenser, etc., and is no longer here. Carry out one by one.

The process of creating the Widget for the APP, and the deployment process and the loading process of the Widget are consistent with the processes described in the embodiment of the control device of the air processing device, and details are not described herein again.

In order to realize the control of the plurality of air processing devices, in the embodiment, the control device of the air processing device first acquires the names of the plurality of air handling devices that are bound and the operation information. Wherein, the operation information includes a position of the air processing device, an operation mode, and the like.

Further, the control system of the air treatment device includes the control device of the air treatment device described in any of the above embodiments, and the interaction operation of the control system of the air treatment device can be implemented by referring to the control device of each of the air treatment devices described above. For example, it will not be described here.

In the solution proposed by the embodiment, the control device of the air processing device first obtains the names of the plurality of air processing devices and the operation information, and then displays the names of the plurality of air processing devices and the operation information on the Widget interface, so that the user according to the Widget interface The name of the air handling device displayed and the running information can be controlled by performing corresponding operations on the Widget interface. Therefore, the user performs operations such as opening the APP, manually selecting the corresponding air processing device to enter the corresponding control interface of the air processing device, etc., thereby improving the convenience of the air processing device control and greatly improving the user experience.

It is to be understood that the term "comprises", "comprising", or any other variants thereof, is intended to encompass a non-exclusive inclusion, such that a process, method, article, or device comprising a series of elements includes those elements. It also includes other elements not explicitly listed, or elements that are inherent to such a process, method, article, or device. An element that is defined by the phrase "comprising a ..." does not exclude the presence of additional equivalent elements in the process, method, item, or device that comprises the element.

The serial numbers of the embodiments of the present invention are merely for the description, and do not represent the advantages and disadvantages of the embodiments.

Through the description of the above embodiments, those skilled in the art can clearly understand that the foregoing embodiment method can be implemented by means of software plus a necessary general hardware platform, and of course, can also be through hardware, but in many cases, the former is better. Implementation. Based on such understanding, the technical solution of the present invention, which is essential or contributes to the prior art, may be embodied in the form of a software product stored in a storage medium (such as ROM/RAM, disk, The optical disc includes a number of instructions for causing a terminal device (which may be a cell phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the methods described in various embodiments of the present invention.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and the equivalent structure or equivalent process transformations made by the description of the present invention and the drawings are directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Claims

A control device for an air treatment device, comprising: an air inlet, an air outlet, and a duct connecting the air inlet and the air outlet, wherein a functional module is disposed in the air duct; the air processing device The control device includes a Widget interface, and the control device of the air treatment device is bound to a plurality of air treatment devices, and the control device of the air treatment device includes:

An acquisition module, configured to obtain a name and operation information of multiple air processing devices;

And a display module, configured to display, on the Widget interface, a name and operation information of the plurality of air processing devices.
The control device for an air treatment device according to claim 1, wherein the acquisition module is configured to:

The air processing equipment of the same equipment category is selected from the bound air handling equipment, and the name and operation information of the air processing equipment of the same equipment category are obtained.
The control device for an air treatment device according to claim 1, wherein the acquisition module is configured to:

Selecting an air handling device belonging to a combination from the bound air handling devices to obtain the name and operation information of the air handling device of the combined combination.
The control device of the air treatment device according to claim 1, wherein the display module comprises:

a first determining unit, configured to determine a display order of the plurality of air processing devices;

And a first display unit, configured to display the names of the plurality of air processing devices and the operation information on the Widget interface according to the determined display order.
The control device for an air treatment device according to claim 4, wherein the first display unit is configured to:

According to the display order, the names and operation information of the plurality of air processing devices are displayed on the Widget interface in different colors.
The control device of the air treatment device according to claim 1, wherein the control device of the air treatment device further includes a preset button that triggers a control command, and the control device of the air treatment device further includes:

a sending module, configured to send a detection instruction to the air processing device when the preset button is triggered, for the air processing device to perform self-test according to the detection instruction, and return detection information;

The display module is configured to display the detection information in the Widget interface when the detection information is received, so that the user can understand the running status of the air processing device according to the detection information.
The control device of the air treatment device according to claim 6, wherein the display module comprises:

a second determining unit, configured to determine an operating state of the air processing device according to the detecting information when the detecting information is received;

The second display unit is configured to display prompt information corresponding to the running state in the Widget interface, so that the user can understand the running status of the air processing device according to the prompt information.
The control device of the air treatment device according to claim 7, wherein the second determining unit comprises:

Extracting a subunit, configured to extract a detection score in the detection information when the detection information is received;

a determining subunit, configured to determine whether the detection score is within a preset severe fault score range;

Determining a subunit, configured to determine that the air processing device is in a severe fault state if the detection score is within the preset severe fault score;

The determining subunit is further configured to determine whether the detection score is within a preset general fault score range if the detection score is not within the preset severe fault score range;

Determining a subunit, configured to determine that the air processing device is in a general fault state if the detection score is within the preset general fault score; if the detection score is not in the preset general fault score Within the range, it is determined that the air handling device is in a normal state.
The control device for an air treatment device according to claim 8, wherein when the air treatment device is determined to be in a severe fault state according to the detection information, the transmitting module is further configured to send a power off command to the An air treatment device for the air treatment device to perform a power-off operation according to the power-off instruction;

The display module is further configured to display, in the Widget interface, prompt information corresponding to the severe fault state, to prompt the user that the air processing device is in a severe fault state;

The sending module is further configured to send the fault data in the detection information to the after-sales service terminal to prompt the after-sales service terminal that the air processing device is in a serious fault state.
The control device of the air treatment device according to claim 8, wherein the display module is further configured to display in the Widget interface when it is determined that the air processing device is in a general fault state according to the detection information. Color prompt information and/or text prompt information corresponding to the general fault state to prompt the user that the air processing device is in a general fault state.
The control device of the air processing device according to claim 10, wherein the display module is further configured to display, in the Widget interface, the general fault state when the fault cancellation request command is detected The method of lifting.
The control device of the air treatment device according to claim 1, wherein the control device of the air treatment device further comprises:

a detecting module, configured to detect whether a current control device of the air processing device is connected to the smart connection device, wherein a control device of the air processing device is bound to the smart connection device;

a reading module, configured to read a networking state of the smart connection device when the control device of the air processing device is connected to the smart connection device, and further read the network when the network connection state of the smart connection device is normal Intelligently connecting information about other smart devices connected to the device, wherein the smart device includes at least one air processing device;

The display module is configured to perform display corresponding to the networking state on the Widget interface, and further display the read smart on the Widget interface when the networking state of the smart connection device is normal Information about the device.
A control apparatus for an air treatment apparatus according to claim 12, wherein said related information includes at least an operation parameter of said air treatment apparatus;

The display module is further configured to: display a control button for controlling the air processing device to adjust the operating parameter while displaying an operating parameter of the air processing device on the Widget interface;

The control device of the air treatment device further includes:

a first monitoring module, configured to monitor whether there is a touch operation on the control button;

The first control module is configured to control the air processing device to adjust the operating parameter when there is a touch operation on the control button.
A control apparatus for an air treatment apparatus according to claim 12, wherein

The reading module is further configured to: when the networking state of the smart connection device is normal and a plurality of the smart devices are connected, read the smart device group information in the server, where the server passes the smart connection The device interacts with the smart device, and the smart device group includes at least two or more smart devices that can be associated;

The display module is further configured to: display the smart device group information on the Widget interface, and display a switch button for turning on or off an associated application between the smart devices in the smart device group.
The control device of the air treatment device according to claim 14, wherein the control device of the air treatment device further comprises:

a determining module, configured to determine, when the switch button is turned on, whether a running parameter corresponding to a specific smart device in the smart device group meets a preset condition, wherein the specific smart device has an environment detecting function and is processed by the air Device association

And a second control module, configured to: when the operating parameter of the specific smart device meets the preset condition, control the air processing device associated with the specific smart device to perform adjustment of a corresponding operating parameter.
The control device of the air treatment device according to claim 1, wherein the acquisition module is configured to acquire environmental data collected by the air detection device;

The display module is configured to display the environment data on the Widget interface, and display a control button for controlling a corresponding air processing device to perform a function operation corresponding to the environment data.
The control device of the air treatment device according to claim 16, wherein the control device of the air treatment device further comprises:

a second monitoring module, configured to monitor whether there is a touch operation on the control button;

An instruction generating module, configured to generate a corresponding function operation instruction when a touch operation exists on the control button;

And a transmission module, configured to transmit the function operation instruction to the server, to allow the server to control the air processing device to perform a function operation corresponding to the environment data according to the function operation instruction.
A control apparatus for an air treatment apparatus according to claim 16, wherein

The acquiring module is further configured to: acquire the operating parameters of the air processing device while acquiring the environmental data collected by the air detecting device;

The display module is further configured to: display the environment data and the control button on the Widget interface, and display the operation parameter.
A control apparatus for an air treatment apparatus according to claim 16, wherein said environmental data includes at least one or more of temperature, humidity, and PM2.5 concentration, and said air treatment apparatus includes at least an air conditioner. One or more of a humidifier, a dehumidifier, and an air purifier.
A method for controlling an air treatment device, comprising: an air inlet, an air outlet, and a duct connecting the air inlet and the air outlet, wherein a functional module is disposed in the air duct; the air processing device The application carrier of the control method is associated with a pre-stored Widget, the Widget includes a Widget interface, and the control method of the air processing device includes the following steps:

Obtain the names of multiple air handling equipment and operational information;

Displaying the name and operation information of the plurality of air processing devices on the Widget interface.
The control method of the air treatment device according to claim 20, wherein the step of acquiring the names of the plurality of air treatment devices and the operation information comprises:

The air processing equipment of the same equipment category is selected from the bound air handling equipment, and the name and operation information of the air processing equipment of the same equipment category are obtained.
The control method of the air treatment device according to claim 20, wherein the step of acquiring the names of the plurality of air treatment devices and the operation information comprises:

Selecting an air handling device belonging to a combination from the bound air handling devices to obtain the name and operation information of the air handling device of the combined combination.
The method of controlling the air handling device according to claim 20, wherein the step of displaying the names of the plurality of air handling devices and the running information on the Widget interface comprises:

Determining a display order of the plurality of air handling devices;

Displaying the names of the plurality of air handling devices and the running information on the Widget interface according to the determined display order.
The control method of the air processing apparatus according to claim 23, wherein the step of displaying the names of the plurality of air processing devices and the operation information on the Widget interface according to the determined display order include:

According to the display order, the names and operation information of the plurality of air processing devices are displayed on the Widget interface in different colors.
The control method of the air processing apparatus according to claim 20, wherein the Widget further comprises a preset button for triggering a control instruction, and the control method of the air processing device further comprises the steps of:

When detecting that the preset button is triggered, sending a detection instruction to the air processing device, for the air processing device to perform self-test according to the detection instruction, and returning detection information;

When the detection information is received, the detection information is displayed in the Widget interface, so that the user can understand the running status of the air processing device according to the detection information.
The control method of the air processing apparatus according to claim 25, wherein when the detection information is received, the detection information is displayed on the Widget interface for the user to use the detection information. The steps to understand the health of the air handling equipment include:

Determining an operation state of the air processing device according to the detection information when the detection information is received;

The prompt information corresponding to the running state is displayed in the Widget interface, so that the user can understand the running status of the air processing device according to the prompt information.
The control method of the air treatment device according to claim 26, wherein the step of determining the operating state of the air processing device according to the detection information when the detection information is received comprises:

Extracting the detection score in the detection information when the detection information is received;

Determining whether the detection score is within a preset severe fault score;

Determining that the air processing device is in a severe fault state if the detection score is within the preset severe fault score;

If the detection score is not within the preset severe fault score range, determining whether the detection score is within a preset general fault score range;

Determining that the air processing device is in a general fault state if the detection score is within the preset general fault score range;

If the detection score is not within the preset general failure score range, it is determined that the air treatment device is in a normal state.
The control method of the air processing apparatus according to claim 27, wherein when the air processing device is determined to be in a severe fault state according to the detection information, the displaying and the operating state in the Widget interface Before the step of the prompting information for the user to understand the running condition of the air processing device according to the prompt information, the method further includes:

Sending a power-off instruction to the air processing device for the air processing device to perform a power-off operation according to the power-off instruction;

The step of displaying the prompt information corresponding to the running state in the Widget interface for the user to understand the running status of the air processing device according to the prompt information includes:

Displaying prompt information corresponding to the severe fault state in the Widget interface, and sending fault data in the detection information to the after-sales service terminal, to prompt the user and the after-sales service terminal that the air processing device is in serious Fault status.
The control method of the air processing apparatus according to claim 27, wherein when the air processing device is determined to be in a general fault state according to the detection information, the displaying and the operating state in the Widget interface Corresponding prompt information, for the user to understand the operating condition of the air processing device according to the prompt information, includes:

Color prompt information and/or text prompt information corresponding to the general fault state is displayed in the Widget interface to prompt the user that the air processing device is in a general fault state.
The control method of the air processing device according to claim 29, wherein the color prompt information and/or text prompt information corresponding to the general fault state is displayed in the Widget interface to prompt the user to After the air handling device is in a general fault condition, the method further includes:

When the fault cancellation request command is detected, a release method corresponding to the general fault state is displayed on the Widget interface.
The method of controlling an air handling device according to claim 20, wherein the application carrier is a mobile terminal, and the method for controlling the air processing device further comprises the steps of:

Detecting whether the mobile terminal is currently connected to the smart connection device, where the mobile terminal is bound to the smart connection device;

Reading a networked state of the smart connection device when the mobile terminal is connected to the smart connection device, and further reading other smart devices connected to the smart connection device when the networked state of the smart connection device is normal Related information, wherein the smart device includes at least one air processing device;

The display corresponding to the networked state is performed on the Widget interface, and when the networked state of the smart connected device is normal, the related information of the read smart device is further displayed on the Widget interface.
The control method of the air treatment device according to claim 31, wherein the related information includes at least an operation parameter of the air treatment device, and the control method of the air treatment device further includes:

While displaying the operating parameter of the air processing device on the Widget interface, displaying a control button for controlling the air processing device to adjust the operating parameter, and monitoring whether there is a touch operation on the control button; When there is a touch operation on the control button, the air processing device is controlled to adjust the operating parameter.
The method of controlling an air treatment device according to claim 31, wherein the control method of the air treatment device further comprises:

Reading smart device group information in the server when the networked state of the smart connection device is normal and a plurality of the smart devices are connected, wherein the server interacts with the smart device through the smart connection device The smart device group includes at least two or more smart devices that can be associated;

Displaying the smart device group information on the Widget interface, and displaying a switch button for turning on or off an associated application between the smart devices in the smart device group.
The control method of the air treatment device according to claim 33, wherein the control method of the air treatment device further comprises:

When the switch button is turned on, determining whether the operating parameter of the specific smart device in the smart device group meets a preset condition, wherein the specific smart device has an environment detecting function and is associated with the air processing device;

When the operating parameter of the specific smart device satisfies the preset condition, the air processing device associated with the specific smart device is controlled to perform adjustment of a corresponding operating parameter.
The method of controlling an air handling device according to claim 20, wherein the application carrier is a mobile terminal, and the method for controlling the air processing device further comprises the steps of:

Obtaining environmental data collected by the air detecting device;

The environmental data is displayed on the Widget interface and a control button for controlling a corresponding air processing device to perform a functional operation corresponding to the environmental data.
The method of controlling an air treatment device according to claim 35, wherein the control method of the air treatment device further comprises:

Monitoring whether there is a touch operation on the control button;

When a touch operation exists on the control button, generating a corresponding function operation instruction;

Transmitting the function operation instruction to a server, for the server to control the air processing device to perform a function operation corresponding to the environment data according to the function operation instruction.
The method of controlling an air treatment device according to claim 35, wherein the control method of the air treatment device further comprises:

Acquiring the operating parameters of the air processing device while acquiring the environmental data collected by the air detecting device;

Displaying the environmental data and the control button on the Widget interface, and displaying the operating parameter.
The control method of an air treatment apparatus according to claim 35, wherein said environmental data includes at least one or more of temperature, humidity, and PM2.5 concentration, and said air treatment apparatus includes at least an air conditioner. One or more of a humidifier, a dehumidifier, and an air purifier.
A control system for an air treatment device, characterized in that the control system of the air treatment device comprises an air treatment device and a control device of the air treatment device according to claim 1; a control device of the air treatment device and a plurality of The air treatment device is bound, the control device of the air treatment device includes a Widget interface; the control device of the air treatment device is configured to acquire a name of the plurality of air treatment devices and operation information, and display the same on the Widget interface The name and operating information of multiple air handling equipment.