CN106765997B - Air treatment equipment control device, method and system - Google Patents

Abstract

The invention discloses a kind of airhandling equipment control device, method and system, described device includes: acquisition module, the parameter of multiple airhandling equipments for obtaining user's current environment；Comparison module obtains the parameter difference of each airhandling equipment for the parameter of multiple airhandling equipments to be successively compared with parameter preset；First determining module, for the parameter difference according to each airhandling equipment, determine the maximum airhandling equipment of parameter difference, and module is obtained using the maximum airhandling equipment of parameter difference as described in target gas processing equipment, it is also used to obtain the corresponding display image of the target gas processing equipment；Display module, for highlighting the operation information of the target gas processing equipment using the corresponding display image of the target gas processing equipment as background image in display window.The present invention can be improved user adjust airhandling equipment convenience and user use airhandling equipment comfort.

Description

Air treatment equipment control device, method and system

technical field

The invention relates to the field of air treatment equipment, in particular to an air treatment equipment control device, method and system.

Background technique

At present, with the improvement of people's living standards, household appliances are more and more widely used in people's daily life, and there are generally multiple household appliances installed in people's homes or offices.

At present, to control the household appliances, either a remote controller is used to control the household appliances, or a household appliance APP (Application, application program) is installed on a mobile phone to realize the control of the household appliances.

With the development of science and technology, since one APP can control multiple household appliances, the way of controlling household appliances through APP has gradually replaced the traditional way of controlling household appliances by remote control. However, there are still defects in controlling household appliances through APP. Although one APP can control multiple household appliances, the user needs to light up the screen of the mobile phone, open the APP to enter the control interface, and manually select the corresponding household appliance. Only household appliances can control household appliances. Obviously, this control method is relatively cumbersome to operate, and the control of household appliances is not convenient and intelligent enough.

Contents of the invention

The main purpose of the present invention is to provide an air treatment equipment control device, method and system, aiming to solve the technical problem that the operation process of knowing the operating status of household appliances through APP is relatively cumbersome, not convenient and intelligent enough.

To achieve the above object, the present invention provides an air treatment equipment control device, the air treatment equipment includes an air inlet, an air outlet, and an air duct connecting the air inlet and the air outlet, and a functional module is arranged in the air duct; The air treatment equipment control device includes a Widget display interface, the air treatment equipment control device is bound to a plurality of air treatment equipment, the Widget displays the operation information of the air treatment equipment, and the air treatment equipment control device includes:

An acquisition module, configured to acquire parameters of multiple air handling devices in the user's current environment;

The comparison module is used to compare the parameters of the plurality of air treatment equipment with the preset parameters in sequence to obtain the parameter difference of each air treatment equipment;

The first determination module is used to determine the air treatment equipment with the largest parameter difference according to the parameter difference of each air treatment equipment, and use the air treatment equipment with the largest parameter difference as the target air treatment equipment;

The acquisition module is also used to acquire the display image corresponding to the target air treatment equipment;

The display module is configured to highlight the operation information of the target air treatment device in the display window with the display image corresponding to the target air treatment device as a background image.

Optionally, the first determination module includes:

The setting unit is used to set the limit difference of each parameter when the standard percentage is reached;

The division unit is used to divide the parameter difference of each air handling device by the corresponding limit difference to obtain the parameter difference percentage of each air handling device;

The first sorting unit is configured to sort the parameter difference percentages of the various air handling devices, obtain the air handling device with the largest parameter difference, and use the air handling device with the largest parameter difference as the target air handling device.

Optionally, the device further includes: a second determination module;

The obtaining module is also used to obtain the user's itinerary information when it is detected that the user leaves the current environment;

The second determination module is configured to determine, based on the user's itinerary information, the air treatment device to be controlled that is closest to the current time interval, and use the air treatment device to be controlled that is the closest to the current time interval as the target air treatment device ;

The acquisition module is also used to acquire the display image corresponding to the target air treatment equipment;

The display module is further configured to use the display image corresponding to the target air treatment device as a background image to highlight the operation information of the target air treatment device in the display window.

Optionally, the second determination module includes:

A determining unit, configured to determine parameters of each air handling device at the destination location based on the destination location of the itinerary information;

A comparing unit, configured to compare the parameters of each air handling device at the destination location with preset parameters in turn, to obtain the parameter difference of each air handling device at the destination location;

The second sorting unit is configured to sort the parameter differences of the various air handling devices in the target location, obtain the air handling device with the largest parameter difference, and use the air handling device with the largest parameter difference as the target air handling device.

Optionally, the widget further includes control buttons displayed on the widget interface for adjusting the operation information of the air handling equipment, and the control device further includes:

The control module is configured to generate a control instruction based on the touch operation received by the control button to control the operation of the target device, and update the operation information of the target device in the widget interface.

In addition, in order to achieve the above object, the present invention also provides a method for controlling air treatment equipment, the air treatment equipment includes an air inlet, an air outlet, and an air duct connecting the air inlet and the air outlet, and a functional module is arranged in the air duct The application carrier of the air treatment equipment control method is associated with a pre-stored widget, the widget includes a widget interface and control buttons, and the method includes the following steps:

Obtain the parameters of multiple air handling equipment in the user's current environment;

Comparing the parameters of the plurality of air handling equipment with the preset parameters in sequence to obtain the parameter difference of each air handling equipment;

Obtain the air treatment equipment with the largest parameter difference according to the parameter difference of each air treatment equipment, and use the air treatment equipment with the largest parameter difference as the target air treatment equipment;

acquiring a display image corresponding to the target air handling device;

In the display window, the display image corresponding to the target air treatment device is used as a background image to highlight the operation information of the target air treatment device.

Optionally, the step of obtaining the air treatment equipment with the largest parameter difference according to the parameter difference of each air treatment equipment, and using the air treatment equipment with the largest parameter difference as the target air treatment equipment includes:

Set the limit difference of each parameter when the standard percentage is reached;

Divide the parameter difference of each air handling device by the corresponding limit difference to obtain the parameter difference percentage of each air handling device;

The parameter difference percentages of the various air handling devices are sorted to obtain the air handling device with the largest parameter difference, and the air handling device with the largest parameter difference is used as the target air handling device.

Optionally, after the step of displaying the control buttons in the display window, and displaying the operation information of the target air treatment device through the background color corresponding to the parameter with the largest parameter difference, the step further includes:

When it is detected that the user leaves the current environment, obtain the user's itinerary information;

Based on the user's itinerary information, determine the air handling equipment to be controlled closest to the current time interval, and use the air handling equipment to be controlled closest to the current time interval as the target air handling equipment;

Executing the step of acquiring the display image corresponding to the target air treatment device, and using the display image corresponding to the target air treatment device as a background image to highlight the operation information of the target air treatment device in the display window.

Optionally, the step of determining the air handling device to be controlled closest to the current time interval based on the user's itinerary information, and using the air handling device to be controlled closest to the current time interval as the target air handling device includes :

Based on the destination location of the itinerary information, determine the parameters of each air handling device at the destination location;

Comparing the parameters of each air handling device at the target location with the preset parameters in sequence, to obtain the parameter difference of each air handling device at the target location;

The parameter difference values of the various air handling devices in the target location are sorted to obtain the air handling device with the largest parameter difference value, and the air handling device with the largest parameter difference value is used as the target air handling device.

Optionally, the widget further includes a control button displayed on the widget interface for adjusting the operation information of the air treatment equipment, after the step of displaying the operation information of the target air treatment equipment in the display window, the Said control method also includes:

A control command is generated based on the touch operation received by the control button to control the operation of the target device, and update the operation information of the target device in the widget interface.

In addition, in order to achieve the above object, the present invention also provides an air treatment equipment control system, the air treatment equipment control system includes air treatment equipment and the air treatment equipment control device described in any one of claims 1 to 5, the air treatment equipment The equipment control device is associated with a pre-stored widget, the widget includes a widget interface and control buttons, and the widget is bound to a plurality of air treatment equipment; the air treatment equipment is used to regularly send operation information to the air treatment equipment control device;

The air treatment equipment is further configured to, when receiving a control instruction, change the operation information inside the air treatment equipment according to the control instruction, and operate according to the changed operation information.

The air treatment equipment control device, method and system proposed by the present invention obtain the parameters of each air treatment equipment in the user's current environment through the Widget, and the parameters may include temperature, humidity, PM2.5, and VOC. Then compare the parameters of each air treatment device with the preset parameters in turn to obtain the parameter difference of each air treatment device; and then obtain the air treatment device with the largest parameter difference according to the parameter difference of each air treatment device , and take the air treatment device with the largest parameter difference as the target air treatment device, and then acquire the display image corresponding to the target air treatment device; and use the display image corresponding to the target air treatment device as the background in the display window The image highlights the operation information of the target air treatment equipment. According to the parameters of each air treatment equipment, this solution can realize the control of the air treatment equipment in the widget interface, and there is no need to light up the mobile phone screen and open the APP to enter the control interface. , and manually select the corresponding air treatment equipment and other operations, which improves the convenience and intelligence of the air treatment equipment control, thus satisfying the comfort of the room environment.

Description of drawings

Figure 1 is a schematic diagram of the deployment of the air conditioner control page card on the Widget;

Fig. 2 is a schematic diagram showing the display of the air conditioner control page card on the Widget;

Fig. 3 is a schematic diagram of the functional modules of the first embodiment of the air treatment equipment control device of the present invention;

Fig. 4 is a schematic diagram of the detailed functional modules of the first determination module in the second embodiment of the air treatment equipment control device of the present invention;

5 is a schematic diagram of the functional modules of the third embodiment of the air treatment equipment control device of the present invention;

Fig. 6 is a schematic diagram of the detailed functional modules of the second determination module in the fourth embodiment of the air treatment equipment control device of the present invention;

Fig. 7 is a schematic flow chart of the first embodiment of the air treatment equipment control method of the present invention;

Fig. 8 is a schematic flowchart of the step of obtaining the target air treatment device with the largest parameter difference according to the parameter difference of each air treatment device in the second embodiment of the air treatment device control method of the present invention;

FIG. 9 is a schematic flowchart of a third embodiment of the air treatment equipment control method of the present invention;

Fig. 10 is a detailed flow chart of the step of determining the target air treatment equipment to be controlled closest to the current time interval based on the user's itinerary information in the fourth embodiment of the air treatment equipment control method of the present invention.

The realization of the purpose of the present invention, functional characteristics and advantages will be further described in conjunction with the embodiments and with reference to the accompanying drawings.

Detailed ways

It should be understood that the specific embodiments described here are only used to explain the present invention, not to limit the present invention.

The invention provides an air treatment equipment control device.

Referring to FIG. 3 , FIG. 3 is a schematic diagram of the functional modules of the first embodiment of the air treatment equipment control device of the present invention.

In this embodiment, the device includes:

The acquisition module 10 is configured to acquire parameters of multiple air treatment devices in the user's current environment.

In this embodiment, in order to ensure that this embodiment can be implemented normally, before implementing this embodiment, it is necessary to install an air conditioner control APP in the user's mobile terminal, and deploy a widget in the air conditioner control APP. The Widget is a desktop widget application that can be placed on the mobile phone desktop, and can be used to display information such as clock, calendar, weather, etc., and it is presented as a floating window displaying specific information on the mobile phone desktop. Click or open the widget to view the specific information displayed on the floating window at the first time. The displayed information on the Widget can be automatically refreshed, or manually click the preset button to refresh.

That is to say, in the technical solution of the present invention, the air-conditioning control page card can be deployed to the widget from the air-conditioning control APP, which is equivalent to deploying the operation information of the air treatment equipment to the widget. Widget window, you 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 is only described in detail with air treatment equipment as the controlled subject, but the control method is not limited to be applied to air treatment equipment, and can also be applied to other household appliances, such as refrigerators, water dispensers, etc. I won't go into details here.

In the technical solution of the present invention, the control APP of the household appliance can be deployed in the Widget, therefore, the user can directly control the operation of the household appliance or read the operation of the household appliance through the APPWidget window suspended on the desktop of the mobile phone. parameter.

The following describes the process of creating a widget for an APP. The process of creating an APPWidget for an APP is mainly the process of performing related operations on the two categories of AppWidgetProvider and AppWidgetProviderInfo.

AppWidgetProvider is used to receive widget-related broadcasts, such as wigdet update, deletion, enabling and disabling, etc.

AppWidgetProviderInfo is defined in XML and is used to specify AppWidget related data, such as Widget layout, corresponding AppWidgetProvider class, etc.

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

1. Define the layout of the Widget and set the placement of the controls;

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

3. Customize a Service to handle the data transmission between the App and the Widget. The data transmission process can start when the Widget is added to the desktop and stop when the Widget is deleted from the desktop;

4. Define AppWidgetProviderInfo in XML to specify Widget layout, AppWidgetProvider class, etc.

Through the above steps, the deployment process of a Widget can be completed.

After the widget is deployed in the APP, as long as the mobile terminal installs the App, the mobile terminal will display the deployed widget in the widget list of the system, and the user can choose whether to add it to the desktop. In this solution, preferably, the widget is displayed on the system desktop.

In this embodiment, the parameters of each air processing device in the user's current target environment can be monitored through the air processing device APP or other third-party software. In this embodiment, the control APP of the air processing device is deployed in the Widget , the user can directly control the operation of the air treatment equipment or read the operating parameters of the air treatment equipment through the Widget window suspended on the mobile phone desktop. During the specific implementation process, it is also possible to establish a connection between the air treatment equipment APP or other third-party software and the Widget through a wireless connection, so that the Widget can read the operating parameters of the air treatment equipment. After the control APP of the air treatment equipment is deployed in the Widget, when the APP process is opened (as long as the APP process is not killed, the APP is considered to be in the open state, if the APP process is killed, the corresponding The Service will also be killed, and the Widget will be in an unavailable state unless the APP is restarted to trigger the Service to start again). After the user adds the Widget on the air treatment device control page card to the desktop, the Service defined in the APP will be started. The Service will synchronize the setting data of the air handling equipment. The synchronization method can be through querying the operating data of the air handling equipment at regular intervals or automatically reporting the air conditioner. After the Service obtains the relevant parameters of the air handling equipment, it sends the operating information of the air conditioner as a broadcast, which will carry an action flag, such as action1, and receive the action as action1 through onReceive(Context,Intent) in the AppWidgetProvider Broadcast, and obtain the operating information of the air treatment equipment in the broadcast, and update these data to the Widget interface in real time, the Widget can realize real-time acquisition of the parameters of each air treatment equipment in the user's current environment, and the parameters can include temperature and humidity , PM2.5, VOC, etc.

The comparison module 20 is configured to compare the parameters of the plurality of air treatment devices with preset parameters in sequence to obtain the parameter difference of each air treatment device.

After obtaining the parameters of each air treatment device in the user's current target environment, the parameters of each air treatment device are compared with the corresponding preset parameters in sequence to obtain the parameter difference of each air treatment device. The preset parameters are the parameter values that the user is accustomed to set during the corresponding time period during the daily use of the air treatment equipment. When the temperature of the air handling equipment is acquired around 8 o'clock, the preset temperature at this time is 26 degrees.

The first determining module 30 is configured to obtain the air treatment device with the largest parameter difference according to the parameter difference of each air treatment device, and use the air treatment device with the largest parameter difference as the target air treatment device.

In this embodiment, after obtaining the parameter differences of each air treatment device, the parameter differences of the various air treatment devices can be sorted, so as to obtain the air treatment device with the largest parameter difference, and the parameter difference The air handling device with the largest value is used as the target air handling device.

The acquisition module 10 is also used to acquire the display image corresponding to the target air treatment equipment;

In this embodiment, in order to facilitate the user to obtain which type of air treatment equipment needs to be adjusted most, it is possible to obtain the corresponding display images of different types of air treatment equipment, for example, when the air treatment equipment is an air conditioner, the corresponding The displayed image is an image corresponding to the shape of the air conditioner. The said image is generally an image of a light color system, such as light green, light yellow, etc., in order to distinguish the highlighted font color when highlighting the running information.

The display module 40 is configured to highlight and display the operation information of the target air treatment device in the display window with the display image corresponding to the target air treatment device as a background image.

After the display image corresponding to the target air treatment device is acquired, the operation information of the target air treatment device is highlighted in the display window with the display image corresponding to the target air treatment device as a background image. For example, when the air processing equipment is an air conditioner, the current temperature of the air conditioner in the living room is set to 28 degrees, but the user is used to eating in the living room, so generally the temperature of the air conditioner in the living room is set to 22 degrees when eating, and the current temperature of the living room is 28 degrees. It is uncomfortable for the user, so the temperature of the air conditioner in the living room needs to be displayed in the Widget first. At this time, the operating information of the air conditioner in the living room needs to be highlighted in the display window with the display image corresponding to the air conditioner as the background image , the specific display method may include: display only the air handling equipment sorted first in the display window;

Display the operation information of multiple air handling equipment in the display window, and then enlarge the display font of the air handling equipment sorted first to highlight it;

Display the operation information of multiple air handling equipment in the display window, and then highlight the display font of the air handling equipment sorted first to highlight it. It can be understood that there are many ways of highlighting, which are not limited to the ways listed above, and will not be listed here. As shown in Figure 2, in order to remind the user to adjust the temperature of the air conditioner in the living room, the user can click the control button as shown in Figure 2 to lower the temperature of the air conditioner. When the control button of the air conditioner is clicked, a broadcast can be sent out, and the broadcast of the control button of the air conditioner is received through onReceive(Context, Intent) in the AppWidgetProvider, and corresponding logic is added. The logic added here is mainly to process the user's control command (the temperature is lowered by 6 degrees) into corresponding data and send it out through broadcast. The broadcast will also carry an action flag, such as action2, and receive the air conditioner in the Service Click the broadcast of the control button, and read the control command carried in the broadcast (the temperature is reduced by 6 degrees), and compile it into the control code of the air conditioner, and send it to the corresponding air conditioner, so as to realize the Widget to control the air conditioner to lower the temperature. process.

The air treatment device control device proposed in this embodiment obtains parameters of each air treatment device in the user's current environment through Widgets, and the parameters may include temperature, humidity, PM2.5, VOC, and the like. Then compare the parameters of each air treatment device with the preset parameters in turn to obtain the parameter difference of each air treatment device; and then obtain the air treatment device with the largest parameter difference according to the parameter difference of each air treatment device , and take the air treatment device with the largest parameter difference as the target air treatment device, and then acquire the display image corresponding to the target air treatment device; and use the display image corresponding to the target air treatment device as the background in the display window The image highlights the operation information of the target air treatment equipment. According to the parameters of each air treatment equipment, this solution can realize the control of the air treatment equipment in the widget interface, and there is no need to light up the mobile phone screen and open the APP to enter the control interface. , and manually select the corresponding air treatment equipment and other operations, which improves the convenience and intelligence of the air treatment equipment control, thus satisfying the comfort of the room environment.

Further, referring to FIG. 4 , based on the first embodiment of the air treatment equipment control device of the present invention, a second embodiment of the air treatment equipment control device of the present invention is proposed.

In this embodiment, the first determining module 30 includes:

Setting unit 31, used to set the limit difference of each parameter when reaching the standard percentage;

The division unit 32 is used to divide the parameter difference of each air handling device by the corresponding limit difference to obtain the parameter difference percentage of each air handling device;

The first sorting unit 33 is configured to sort the parameter difference percentages of each air treatment device, obtain the air treatment device with the largest parameter difference, and use the air treatment device with the largest parameter difference as the target air treatment device.

In this embodiment, after comparing the parameters of each air treatment device with the preset parameters in sequence to obtain the parameter difference of each air treatment device, the limit difference of each parameter when reaching the standard percentage can also be set. For example, when the setting reaches 100%, the limit temperature difference is plus or minus 5 degrees, and the limit humidity difference is plus or minus 25%, and then divide the parameter difference of each air treatment device by the corresponding limit difference to obtain each air treatment The parameter difference percentage of the device. For example, when the temperature difference is 2 degrees, and the set limit temperature difference is plus or minus 5 degrees, the calculation method of the temperature difference percentage is to divide 2 by 5, then the temperature difference percentage is 40%, or when the humidity When the difference is 15%, the set limit humidity difference is 25%, then the calculation method of the humidity difference percentage is to divide 15% by 25%, then the humidity difference percentage is 60%. By analogy, calculate the difference percentage of each parameter of each air treatment device, and then sort the parameter difference percentages of each air treatment device, so as to obtain the air treatment device with the largest parameter difference, and rank the parameter difference with the largest The air handling equipment of the target air handling equipment.

In this embodiment, after comparing the parameters of each air treatment device with the preset parameters in turn, and obtaining the parameter difference of each air treatment device, the limit difference of each parameter when reaching the standard percentage is further set, so that each air treatment Calculate the difference percentage of each parameter of the equipment, and then sort the parameter difference percentages of each air handling equipment, so as to obtain the air handling equipment with the largest parameter difference, and use the air handling equipment with the largest parameter difference as the target air Handle equipment. In order to display the operation information and control buttons of the target air treatment equipment in the display window, and improve the convenience and intelligence of the control of the air treatment equipment.

Further, referring to FIG. 5 , based on the first embodiment of the air treatment equipment control device of the present invention, a third embodiment of the air treatment equipment control device of the present invention is proposed.

In this embodiment, the device further includes: a second determining module 50;

The obtaining module 10 is also used to obtain the user's itinerary information when it is detected that the user leaves the current environment;

The second determination module 50 is configured to determine the air treatment device to be controlled closest to the current time interval based on the user's itinerary information, and use the air treatment device to be controlled closest to the current time interval as the target air treatment device equipment;

The acquisition module 10 is also used to acquire the display image corresponding to the target air treatment equipment;

The display module 40 is further configured to use the display image corresponding to the target air treatment device as a background image to highlight the operation information of the target air treatment device in the display window.

In this embodiment, since the air conditioner is controlled through the widget associated with the air conditioner control APP, it is necessary to bind the widget to at least one air conditioner first. Moreover, the target air conditioner needs to be determined through the user's itinerary information, and the target air conditioner should be controlled. Therefore, it is necessary to store the running time and location information corresponding to the air conditioner bound to the widget in advance, that is, between the widget and at least When an air conditioner is bound, a running time is first set for the bound air conditioner, and then the location information of the air conditioner is obtained and the running time is set.

When it is detected that the user leaves the current target environment, the user's itinerary information is acquired. Specifically, when it is detected that the user turns off the air treatment equipment in the current environment, it may be considered that the user is preparing or leaving the current environment. Or when the infrared sensor in the indoor air treatment equipment does not detect infrared sensing, it can be considered that the user has left the current environment. It should be noted that the indoor unit of the air handling device may be pre-installed with an infrared sensor for detecting the status of the users in the room. The location and number of infrared sensors on the indoor unit can be flexibly set according to specific conditions. For example, an infrared sensor can be installed on the indoor unit to scan the room with the rotation of the pan/tilt or the motor to detect whether there is an infrared sensor. If it exists, it is determined that there is a user in the room, and if it does not exist, there is no one in the room. When the infrared sensing range changes, it can be determined that the user is in an active state, and when the infrared sensing range does not change, it can be determined that the user is in a static state. Also can according to actual needs, can install a plurality of infrared sensors on the indoor unit, can detect the whole environment in the room. After the air handling equipment is turned on, the infrared detection function of the infrared sensor can be automatically turned on, and the status of the users in the room can be detected through the infrared sensor.

Then, based on the user's itinerary information, determine the air treatment device to be controlled closest to the current time interval, and use the air treatment device to be controlled closest to the current time interval as the target air treatment device, and then obtain the target air treatment device The display image corresponding to the equipment, and highlighting the operation information of the target air handling equipment in the display window with the display image corresponding to the target air handling equipment as the background image, so that the user can know the type of air handling equipment that needs to be adjusted, and A parameter of the target air handling device is adjusted. After the user enters the target environment corresponding to the next trip, it takes less time to get close to the parameters set by the user. In this embodiment, the font color of the corresponding running information may be set to a different display color according to the ranking position of the user's itinerary and the duration of the current time interval. To highlight the operating information of the target air handling equipment, for example, when the user’s trip is the last in the sorting position of the current time interval, the sorting position is the font color of the operating information corresponding to the air handling equipment corresponding to the last bit is green; when the user’s itinerary is in the middle of the sorting position of the current time interval, the font color of the operation information corresponding to the air treatment equipment corresponding to the middle position is yellow; when the user’s itinerary is in the middle of the current time interval When the sorting position of the interval time is the first, the font color of the operation information corresponding to the air handling equipment corresponding to the first sorting position is red. It can be seen that, in this embodiment, when the font color of the running information is brighter and more eye-catching, it indicates that the user's itinerary is closer to the current time. The specific highlighting methods can also be highlighting, changing font size, etc. It is understandable that there are many other highlighting methods, which are not limited to the above listed methods, and will not be listed one by one here.

The air treatment equipment control device proposed in this embodiment acquires the user's itinerary information when it detects that the user leaves the current environment; based on the user's itinerary information, determines the air treatment equipment to be controlled that is closest to the current time interval, and The air treatment equipment to be controlled closest to the current time interval is used as the target air treatment equipment, and then the display image corresponding to the target air treatment equipment is acquired; and the display image corresponding to the target air treatment equipment is used as the background image in the display window Highlight the operation information of the target air handling equipment, so as to remind the user to adjust the parameters of the air handling equipment, so that after the user enters the target environment corresponding to the next itinerary, it takes less time to get close to the parameters set by the user, improving Improve the user's comfort in using air handling equipment.

Further, referring to FIG. 6 , based on the third embodiment of the air treatment equipment control device of the present invention, a fourth embodiment of the air treatment equipment control device of the present invention is proposed.

In this embodiment, the second determination module 50 includes:

A determination unit 51, configured to determine parameters of each air handling device at the destination location based on the destination location of the itinerary information;

The comparison unit 52 is used to compare the parameters of each air treatment device at the target location with the preset parameters in turn to obtain the parameter difference of each air treatment device at the target location;

The second sorting unit 53 is configured to sort the parameter differences of the various air treatment devices in the target location, obtain the air treatment device with the largest parameter difference, and use the air treatment device with the largest parameter difference as the target air treatment device.

In this embodiment, after the user's itinerary information is obtained, the parameters of each air treatment device at the destination location of the user's itinerary information may be further obtained. Then compare the parameters of each air treatment device at the target location with the preset parameters in turn to obtain the parameter difference of each air treatment device at the target location, and sort the parameter differences of each air treatment device at the target location to obtain the parameters The air handling equipment with the largest difference, and the air handling equipment with the largest parameter difference as the target air handling equipment. In order to display the operation information and control buttons of the target air treatment device in the display window, so that the user can adjust the parameters of the target air treatment device. After the user enters the target environment corresponding to the next trip, it takes less time to get close to the parameters set by the user.

In this embodiment, after the user's itinerary information is obtained, the parameters of each air treatment device at the destination location of the user's itinerary information are further obtained, and the air treatment device with the largest parameter difference is obtained through the parameters of each air treatment device, and The air treatment device with the largest parameter difference is used as the target air treatment device, so that the operating information and control buttons of the target air treatment device are displayed in the display window, so that the user can adjust the parameters of the target air treatment device. After the user enters the target environment corresponding to the next trip, it takes less time to get close to the parameters set by the user.

Further, based on any one of the first to fourth embodiments of the air treatment equipment control device of the present invention, a fifth embodiment of the air treatment equipment control device of the present invention is proposed.

In this embodiment, the device also includes:

The control module is configured to generate a control instruction based on the touch operation received by the control button to control the operation of the target device, and update the operation information of the target device in the widget interface.

In this embodiment, the widget further includes control buttons displayed on the widget interface for adjusting the operation information of the air treatment equipment, therefore, when the widget interface displays the operation information of the air treatment equipment, it will also Corresponding control buttons are displayed, and for an air conditioner, the control buttons include: a temperature adjustment button and a shutdown button.

If it is detected that the user touches the control button in the widget interface, the control module can generate a control instruction according to the touch operation received by the control button to control the operation of the target air conditioner, that is, the user can touch the temperature adjustment button To adjust the operating temperature of the air conditioner, finally, the control module updates the operating information of the target air conditioner in the widget interface according to the adjusted operating temperature. In this embodiment, the touch operation may be a click touch operation, a long press touch operation, etc., and the specific touch manner is not limited. In this embodiment, the control keys include but are not limited to shutdown and temperature adjustment keys. Therefore, when the control key receives a touch operation, the specific type of the control command can be determined according to the control key, such as: a switch Machine, temperature increase or temperature decrease, etc.

The present invention further provides an air treatment equipment control method.

Referring to FIG. 7 , FIG. 7 is a schematic flowchart of a first embodiment of a method for controlling air treatment equipment according to the present invention.

In this embodiment, the method includes:

Step S10, acquiring parameters of multiple air treatment devices in the user's current environment.

In this embodiment, in order to ensure that this embodiment can be implemented normally, before implementing this embodiment, it is necessary to install an air conditioner control APP in the user's mobile terminal, and deploy a widget in the air conditioner control APP. The Widget is a desktop widget application that can be placed on the mobile phone desktop, and can be used to display information such as clock, calendar, weather, etc., and it is presented as a floating window displaying specific information on the mobile phone desktop. Click or open the widget to view the specific information displayed on the floating window at the first time. The displayed information on the Widget can be automatically refreshed, or manually click the preset button to refresh.

That is to say, in the technical solution of the present invention, the air treatment equipment control page card can be deployed to the widget from the air treatment equipment control APP, which is equivalent to deploying the operation information of the air treatment equipment to the widget. The widget window on the desktop of the mobile phone can directly control the operation of the air treatment equipment, or directly read the operating parameters of the air treatment equipment. It should be understood that the present invention is only described in detail with air treatment equipment as the controlled subject, but the control method is not limited to be applied to air treatment equipment, and can also be applied to other household appliances, such as refrigerators, water dispensers, etc. I won't go into details here.

In the technical solution of the present invention, the control APP of the household appliance can be deployed in the Widget, therefore, the user can directly control the operation of the household appliance or read the operation of the household appliance through the APPWidget window suspended on the desktop of the mobile phone. parameter.

The following describes the process of creating a widget for an APP. The process of creating an APPWidget for an APP is mainly the process of performing related operations on the two categories of AppWidgetProvider and AppWidgetProviderInfo.

AppWidgetProvider is used to receive widget-related broadcasts, such as wigdet update, deletion, enabling and disabling, etc.

AppWidgetProviderInfo is defined in XML and is used to specify AppWidget related data, such as Widget layout, corresponding AppWidgetProvider class, etc.

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

1. Define the layout of the Widget and set the placement of the controls;

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

3. Customize a Service to handle the data transmission between the App and the Widget. The data transmission process can start when the Widget is added to the desktop and stop when the Widget is deleted from the desktop;

4. Define AppWidgetProviderInfo in XML to specify Widget layout, AppWidgetProvider class, etc.

Through the above steps, the deployment process of a Widget can be completed.

After the widget is deployed in the APP, as long as the mobile terminal installs the App, the mobile terminal will display the deployed widget in the widget list of the system, and the user can choose whether to add it to the desktop. In this solution, preferably, the widget is displayed on the system desktop.

In this embodiment, the parameters of each air processing device in the user's current target environment can be monitored through the air processing device APP or other third-party software. In this embodiment, the control APP of the air processing device is deployed in the Widget , the user can directly control the operation of the air treatment equipment or read the operating parameters of the air treatment equipment through the Widget window suspended on the mobile phone desktop. During the specific implementation process, it is also possible to establish a connection between the air treatment equipment APP or other third-party software and the Widget through a wireless connection, so that the Widget can read the operating parameters of the air treatment equipment. After the control APP of the air treatment equipment is deployed in the Widget, when the APP process is opened (as long as the APP process is not killed, the APP is considered to be in the open state, if the APP process is killed, the corresponding The Service will also be killed, and the Widget will be in an unavailable state unless the APP is restarted to trigger the Service to start again). After the user adds the Widget on the air treatment device control page card to the desktop, the Service defined in the APP will be started. The Service will synchronize the setting data of the air handling equipment. The synchronization method can be through querying the operating data of the air handling equipment at regular intervals or automatically reporting the air conditioner. After the Service obtains the relevant parameters of the air handling equipment, it sends the operating information of the air conditioner as a broadcast, which will carry an action flag, such as action1, and receive the action as action1 through onReceive(Context,Intent) in the AppWidgetProvider Broadcast, and obtain the operating information of the air treatment equipment in the broadcast, and update these data to the Widget interface in real time, the Widget can realize real-time acquisition of the parameters of each air treatment equipment in the user's current environment, and the parameters can include temperature and humidity , PM2.5, VOC, etc.

Step S20, comparing the parameters of the plurality of air treatment devices with preset parameters in sequence to obtain the parameter difference of each air treatment device.

After obtaining the parameters of each air treatment device in the user's current target environment, the parameters of each air treatment device are compared with the corresponding preset parameters in sequence to obtain the parameter difference of each air treatment device. The preset parameters are the parameter values that the user is accustomed to set during the corresponding time period in the daily use of the air treatment equipment. For example, in the daily use process, the user is used to setting the temperature of the air conditioner at about 8:00 in the morning to 26 degrees. When the temperature of the air conditioner is obtained at the left and right points, the preset temperature at this time is 26 degrees.

Step S30, according to the parameter difference of each air treatment device, obtain the air treatment device with the largest parameter difference, and use the air treatment device with the largest parameter difference as the target air treatment device.

In this embodiment, after obtaining the parameter differences of each air treatment device, the parameter differences of the various air treatment devices can be sorted, so as to obtain the air treatment device with the largest parameter difference, and the parameter difference The air handling device with the largest value is used as the target air handling device.

Step S40, acquiring a display image corresponding to the target air treatment device;

In this embodiment, in order to facilitate the user to obtain which type of air treatment equipment needs to be adjusted most, it is possible to obtain the corresponding display images of different types of air treatment equipment, for example, when the air treatment equipment is an air conditioner, the corresponding The displayed image is an image corresponding to the shape of the air conditioner. The said image is generally an image of a light color system, such as light green, light yellow, etc., in order to distinguish the highlighted font color when highlighting the running information.

Step S50, using the display image corresponding to the target air treatment device as a background image to highlight and display the operation information of the target air treatment device in the display window.

After the display image corresponding to the target air treatment device is acquired, the operation information of the target air treatment device is highlighted in the display window with the display image corresponding to the target air treatment device as a background image. For example, when the air processing equipment is an air conditioner, the current temperature of the air conditioner in the living room is set to 28 degrees, but the user is used to eating in the living room, so generally the temperature of the air conditioner in the living room is set to 22 degrees when eating, and the current temperature of the living room is 28 degrees. It is uncomfortable for the user, so the temperature of the air conditioner in the living room needs to be displayed in the Widget first. At this time, the operating information of the air conditioner in the living room needs to be highlighted in the display window with the display image corresponding to the air conditioner as the background image , the specific display method may include: display only the air handling equipment sorted first in the display window;

Display the operation information of multiple air handling equipment in the display window, and then enlarge the display font of the air handling equipment sorted first to highlight it;

Display the operation information of multiple air handling equipment in the display window, and then highlight the display font of the air handling equipment sorted first to highlight it. It can be understood that there are many ways of highlighting, which are not limited to the ways listed above, and will not be listed here. As shown in Figure 2, in order to remind the user to adjust the temperature of the air conditioner in the living room, the user can click the control button as shown in Figure 2 to lower the temperature of the air conditioner. When the control button of the air conditioner is clicked, a broadcast can be sent out, and the broadcast of the control button of the air conditioner is received through onReceive(Context, Intent) in the AppWidgetProvider, and corresponding logic is added. The logic added here is mainly to process the user's control command (the temperature is lowered by 6 degrees) into corresponding data and send it out through broadcast. The broadcast will also carry an action flag, such as action2, and receive the air conditioner in the Service Click the broadcast of the control button, and read the control command carried in the broadcast (the temperature is reduced by 6 degrees), and compile it into the control code of the air conditioner, and send it to the corresponding air conditioner, so as to realize the Widget to control the air conditioner to lower the temperature. process.

The air treatment device control method proposed in this embodiment obtains the parameters of each air treatment device in the user's current environment through the Widget, and the parameters may include temperature, humidity, PM2.5, VOC, and the like. Then compare the parameters of each air treatment device with the preset parameters in turn to obtain the parameter difference of each air treatment device; and then obtain the air treatment device with the largest parameter difference according to the parameter difference of each air treatment device , and take the air treatment device with the largest parameter difference as the target air treatment device, and then acquire the display image corresponding to the target air treatment device; use the display image corresponding to the target air treatment device as the background image in the display window Highlight the operation information of the target air treatment equipment. According to the parameters of each air treatment equipment, this solution can realize the control of the air treatment equipment in the widget interface. There is no need to light up the mobile phone screen and open the APP to enter the control interface. And manually select the corresponding air treatment equipment and other operations, which improves the convenience and intelligence of the control of the air treatment equipment, thereby satisfying the comfort of the room environment.

Further, referring to FIG. 8 , based on the first embodiment of the air treatment equipment control method of the present invention, a second embodiment of the air treatment equipment control method of the present invention is proposed.

In this embodiment, the step S30 may include:

Step S31, setting the limit difference of each parameter when the standard percentage is reached;

Step S32, dividing the parameter difference of each air treatment device by the corresponding limit difference to obtain the parameter difference percentage of each air treatment device;

Step S33, sorting the parameter difference percentages of each air treatment device, obtaining the air treatment device with the largest parameter difference, and setting the air treatment device with the largest parameter difference as the target air treatment device.

In this embodiment, after comparing the parameters of each air treatment device with the preset parameters in sequence to obtain the parameter difference of each air treatment device, the limit difference of each parameter when reaching the standard percentage can also be set. For example, when the setting reaches 100%, the limit temperature difference is plus or minus 5 degrees, and the limit humidity difference is plus or minus 25%, and then divide the parameter difference of each air treatment device by the corresponding limit difference to obtain each air treatment The parameter difference percentage of the device. For example, when the temperature difference is 2 degrees, and the set limit temperature difference is plus or minus 5 degrees, the calculation method of the temperature difference percentage is to divide 2 by 5, then the temperature difference percentage is 40%, or when the humidity When the difference is 15%, the set limit humidity difference is 25%, then the calculation method of the humidity difference percentage is to divide 15% by 25%, then the humidity difference percentage is 60%. By analogy, calculate the difference percentage of each parameter of each air treatment device, and then sort the parameter difference percentages of each air treatment device to obtain the air treatment device with the largest parameter difference, and sort the parameter difference The air handling unit acts as the target air handling unit.

In this embodiment, after comparing the parameters of each air treatment device with the preset parameters in turn, and obtaining the parameter difference of each air treatment device, the limit difference of each parameter when reaching the standard percentage is further set, so that each air treatment Calculate the difference percentage of each parameter of the equipment, and then sort the parameter difference percentages of each air handling equipment to obtain the air handling equipment with the largest parameter difference, and use the air handling equipment with the largest parameter difference as the target air treatment equipment. In order to display the operation information and control buttons of the target air treatment equipment in the display window, and improve the convenience and intelligence of the control of the air treatment equipment.

Further, referring to FIG. 9 , based on the first embodiment of the air treatment equipment control method of the present invention, a third embodiment of the air treatment equipment control method of the present invention is proposed.

In this embodiment, the steps after step S50 also include:

Step S60, when it is detected that the user leaves the current environment, obtain the user's itinerary information;

Step S70, based on the user's itinerary information, determine the air treatment equipment to be controlled closest to the current time interval, and use the air treatment equipment to be controlled closest to the current time interval as the target air treatment equipment;

Step S40, acquiring a display image corresponding to the target air treatment device;

Step S50, using the display image corresponding to the target air treatment device as a background image to highlight the operation information of the target air treatment device in the display window.

In this embodiment, since the air conditioner is controlled through the widget associated with the air conditioner control APP, it is necessary to bind the widget to at least one air conditioner first. Moreover, the target air conditioner needs to be determined through the user's itinerary information, and the target air conditioner should be controlled. Therefore, it is necessary to store the running time and location information corresponding to the air conditioner bound to the widget in advance, that is, between the widget and at least When an air conditioner is bound, a running time is first set for the bound air conditioner, and then the location information of the air conditioner is obtained and the running time is set.

When it is detected that the user leaves the current target environment, the user's itinerary information is obtained. Specifically, when it is detected that the user turns off the air treatment equipment in the current environment, it may be considered that the user is preparing or leaving the current environment. Or when the infrared sensor in the indoor air treatment equipment does not detect infrared sensing, it can be considered that the user has left the current environment. It should be noted that the indoor unit of the air handling device may be pre-installed with an infrared sensor for detecting the status of the users in the room. The location and number of infrared sensors on the indoor unit can be flexibly set according to specific conditions. For example, an infrared sensor can be installed on the indoor unit to scan the room with the rotation of the pan/tilt or the motor to detect whether there is an infrared sensor. If it exists, it is determined that there is a user in the room, and if it does not exist, there is no one in the room. When the infrared sensing range changes, it can be determined that the user is in an active state, and when the infrared sensing range does not change, it can be determined that the user is in a static state. Also can according to actual needs, can install a plurality of infrared sensors on the indoor unit, can detect the whole environment in the room. After the air handling equipment is turned on, the infrared detection function of the infrared sensor can be automatically turned on, and the status of the users in the room can be detected through the infrared sensor.

Then, based on the user's itinerary information, determine the air treatment device to be controlled closest to the current time interval, and use the air treatment device to be controlled closest to the current time interval as the target air treatment device, and then obtain the target air treatment device The display image corresponding to the equipment, and highlighting the operation information of the target air handling equipment in the display window with the display image corresponding to the target air handling equipment as the background image, so that the user can know the type of air handling equipment that needs to be adjusted, and A parameter of the target air handling device is adjusted. After the user enters the target environment corresponding to the next trip, it takes less time to get close to the parameters set by the user. In this embodiment, the font color of the corresponding running information may be set to a different display color according to the ranking position of the user's itinerary and the duration of the current time interval. To highlight the operating information of the target air handling equipment, for example, when the user’s trip is the last in the sorting position of the current time interval, the sorting position is the font color of the operating information corresponding to the air handling equipment corresponding to the last bit is green; when the user’s itinerary is in the middle of the sorting position of the current time interval, the font color of the operation information corresponding to the air treatment equipment corresponding to the middle position is yellow; when the user’s itinerary is in the middle of the current time interval When the sorting position of the interval time is the first, the font color of the operation information corresponding to the air handling equipment corresponding to the first sorting position is red. It can be seen that, in this embodiment, when the font color of the running information is brighter and more eye-catching, it indicates that the user's itinerary is closer to the current time. The specific highlighting methods can also be highlighting, changing font size, etc. It is understandable that there are many other highlighting methods, which are not limited to the above listed methods, and will not be listed one by one here.

The air treatment equipment control method proposed in this embodiment acquires the user’s itinerary information when it is detected that the user leaves the current environment; based on the user’s itinerary information, the air treatment equipment to be controlled that is closest to the current time interval is determined, and the The air treatment equipment to be controlled closest to the current time interval is used as the target air treatment equipment, and then the display image corresponding to the target air treatment equipment is acquired; and the display image corresponding to the target air treatment equipment is used as the background image in the display window Highlight the operation information of the target air handling equipment, so as to remind the user to adjust the parameters of the air handling equipment, so that after the user enters the target environment corresponding to the next itinerary, it takes less time to get close to the parameters set by the user, improving Improve the user's comfort in using air handling equipment.

Further, referring to FIG. 10 , based on the third embodiment of the air treatment equipment control method of the present invention, a fourth embodiment of the air treatment equipment control method of the present invention is proposed.

In this embodiment, the step S70 may include:

Step S71, based on the destination location of the itinerary information, determine the parameters of each air handling device at the destination location;

Step S72, comparing the parameters of each air treatment device at the target location with the preset parameters in turn to obtain the parameter difference of each air treatment device at the target location;

Step S73, sorting the parameter differences of the various air treatment devices in the target location to obtain the air treatment device with the largest parameter difference, and setting the air treatment device with the largest parameter difference as the target air treatment device.

In this embodiment, after the user's itinerary information is obtained, the parameters of each air treatment device at the destination location of the user's itinerary information may be further obtained. Then compare the parameters of each air treatment device at the target location with the preset parameters in sequence to obtain the parameter difference of each air treatment device at the target location, and sort the parameter differences of each air treatment device at the target location to obtain the parameters The air handling equipment with the largest difference, and the air handling equipment with the largest parameter difference as the target air handling equipment. In order to display the operation information and control buttons of the target air treatment device in the display window, so that the user can adjust the parameters of the target air treatment device. After the user enters the target environment corresponding to the next trip, it takes less time to get close to the parameters set by the user.

In this embodiment, after the user’s itinerary information is obtained, the parameters of each air treatment device in the target location of the user’s itinerary information are further obtained, and the parameter differences of each air treatment device in the destination location are sorted to obtain the air treatment device with the largest parameter difference. equipment, and the air handling equipment with the largest parameter difference is taken as the target air handling equipment, so that the operation information and control buttons of the target air handling equipment are displayed in the display window, so that the user can control the target air handling equipment parameters to adjust. After the user enters the target environment corresponding to the next trip, it takes less time to get close to the parameters set by the user.

Further, based on any one of the first to fourth embodiments of the air treatment equipment control method of the present invention, a fifth embodiment of the air treatment equipment control method of the present invention is proposed.

Further, in order to improve the flexibility of air treatment equipment control, a second embodiment of the air treatment equipment control method of the present invention is proposed based on the first embodiment. In this embodiment, the widget also includes a display on the widget interface In the control button for adjusting the operation information of the air handling equipment, after the step S50, the control method further includes:

A control command is generated based on the touch operation received by the control button to control the operation of the target device, and update the operation information of the target device in the widget interface.

In this embodiment, the widget further includes control buttons displayed on the widget interface for adjusting the operation information of the air treatment equipment, therefore, when the widget interface displays the operation information of the air treatment equipment, it will also Corresponding control buttons are displayed, and for an air conditioner, the control buttons include: a temperature adjustment button and a shutdown button.

If it is detected that the user touches the control button in the widget interface, the mobile terminal can generate a control instruction according to the touch operation received by the control button to control the operation of the target air conditioner, that is, the user can touch the temperature Adjust the button to adjust the operating temperature of the air conditioner, and finally, the mobile terminal updates the operating information of the target air conditioner in the widget interface according to the adjusted operating temperature. In this embodiment, the touch operation may be a click touch operation, a long press touch operation, etc., and the specific touch manner is not limited. In this embodiment, the control keys include but are not limited to shutdown and temperature adjustment keys. Therefore, when the control key receives a touch operation, the specific type of the control command can be determined according to the control key, such as: a switch Machine, temperature increase or temperature decrease, etc.

The above are only preferred embodiments of the present invention, and are not intended to limit the patent scope of the present invention. Any equivalent structure or equivalent process conversion made by using the description of the present invention and the contents of the accompanying drawings, or directly or indirectly used in other related technical fields , are all included in the scope of patent protection of the present invention in the same way.

Claims (9)

1. a kind of airhandling equipment control device, which is characterized in that the airhandling equipment includes air inlet and outlet, And the air duct of connection air inlet and air outlet, functional module is provided in the air duct；The airhandling equipment control dress It sets including widget display interface, the airhandling equipment control device and multiple airhandling equipments are realized and bound, described Widget shows that the operation information of airhandling equipment, the airhandling equipment control device include:

Obtain module, the parameter of multiple airhandling equipments for obtaining user's current environment；

Comparison module obtains each for the parameter of the multiple airhandling equipment to be successively compared with parameter preset The parameter difference of airhandling equipment；

First determining module determines the maximum sky of parameter difference for the parameter difference according to each airhandling equipment Gas disposal equipment, and using the maximum airhandling equipment of the parameter difference as target gas processing equipment；

The acquisition module is also used to obtain the corresponding display image of the target gas processing equipment；

Display module is used in display window using the corresponding display image of the target gas processing equipment as background image Highlight the operation information of the target gas processing equipment；

The acquisition module is also used to when the infrared sensor in the airhandling equipment does not detect infrared induction, It determines that user has been moved off current environment, obtains the travel information of user；

Second determining module, for the travel information based on the user, the determining to be controlled sky nearest with current time interval Gas disposal equipment, and set the to be controlled airhandling equipment nearest with current time interval as target gas processing It is standby；

The acquisition module is also used to obtain the corresponding display image of the target gas processing equipment；

The display module is also used in display window using the corresponding display image of the target gas processing equipment as back Scape image highlights the operation information of the target gas processing equipment.

2. airhandling equipment control device as described in claim 1, which is characterized in that first determining module includes:

Setting unit, for be arranged reach standard percentage than when parameters limit D-value；

Be divided by unit, for the parameter difference of each airhandling equipment to be divided by with corresponding limit D-value, obtains each sky The parameter difference percentage of gas disposal equipment；

It is maximum to obtain parameter difference for the parameter difference percentage of each airhandling equipment to sort for first sequencing unit Airhandling equipment, and using the maximum airhandling equipment of the parameter difference as target gas processing equipment.

3. airhandling equipment control device as described in claim 1, which is characterized in that second determining module includes:

Determination unit determines each airhandling equipment of the destination locations for the destination locations based on the travel information Parameter；

Comparing unit, for the parameter of each airhandling equipment of the destination locations to be successively compared with parameter preset, Obtain the parameter difference of each airhandling equipment in destination locations；

Second sequencing unit obtains parameter difference for the parameter difference of airhandling equipment each in destination locations to sort Maximum airhandling equipment, and using the maximum airhandling equipment of the parameter difference as target gas processing equipment.

4. control device as described in any one of claims 1-3, which is characterized in that the widget further include be shown in it is described For adjusting the control button of the operation information of airhandling equipment, the control device in the interface widget further include:

Control module, the touch operation for being received based on the control button generates control instruction, to control the target The operation of airhandling equipment, and update in the interface widget the operation information of the target gas processing equipment.

5. a kind of airhandling equipment control method, which is characterized in that the airhandling equipment includes air inlet and outlet, And the air duct of connection air inlet and air outlet, functional module is provided in the air duct；The airhandling equipment controlling party The application vector of method is associated with the widget prestored, and widget includes the interface widget and control button, the method includes with Lower step:

Obtain the parameter of multiple airhandling equipments of user's current environment；

The parameter of the multiple airhandling equipment is successively compared with parameter preset, each airhandling equipment is obtained Parameter difference；

According to the parameter difference of each airhandling equipment, the maximum airhandling equipment of parameter difference is obtained, and by institute The maximum airhandling equipment of parameter difference is stated as target gas processing equipment；

Obtain the corresponding display image of the target gas processing equipment；

It is highlighted in display window using the corresponding display image of the target gas processing equipment as background image described The operation information of target gas processing equipment；

When the infrared sensor in the airhandling equipment does not detect infrared induction, determine that user has been moved off currently Environment obtains the travel information of user；

Based on the travel information of the user, the determining to be controlled airhandling equipment nearest with current time interval, and by institute The to be controlled airhandling equipment nearest with current time interval is stated as target gas processing equipment；

The corresponding display image of the acquisition target gas processing equipment is executed, with the target gas in display window The corresponding display image of processing equipment highlights the step of the operation information of the target gas processing equipment as background image Suddenly.

6. airhandling equipment control method as claimed in claim 5, which is characterized in that it is described according to each air at The parameter difference of equipment is managed, obtains the maximum airhandling equipment of parameter difference, and will be at the maximum air of the parameter difference Equipment, which is managed, as the step of target gas processing equipment includes:

Be arranged reach standard percentage than when parameters limit D-value；

The parameter difference of each airhandling equipment is divided by with corresponding limit D-value, obtains the ginseng of each airhandling equipment Number difference percentage；

The parameter difference percentage of each airhandling equipment is sorted, the maximum airhandling equipment of parameter difference is obtained, and Using the maximum airhandling equipment of the parameter difference as target gas processing equipment.

7. airhandling equipment control method as claimed in claim 6, which is characterized in that the stroke based on the user Information, the determining to be controlled airhandling equipment nearest with current time interval, and described and current time interval is nearest Airhandling equipment to be controlled includes: as the step of target gas processing equipment

Based on the destination locations of the travel information, the parameter of each airhandling equipment of the destination locations is determined；

The parameter of each airhandling equipment of the destination locations is successively compared with parameter preset, is obtained in destination locations The parameter difference of each airhandling equipment；

The parameter difference of airhandling equipment each in destination locations is sorted, the maximum air-treatment of parameter difference is obtained and sets It is standby, and using the maximum airhandling equipment of the parameter difference as target gas processing equipment.

8. such as the described in any item airhandling equipment control methods of claim 5-7, which is characterized in that the widget is also wrapped It includes and is shown in the interface widget for adjusting the control button of the operation information of airhandling equipment, it is described in display window After the step of showing the operation information of the target gas processing equipment in mouthful, the control method further include:

Control instruction is generated based on the touch operation that the control button receives, to control the target gas processing equipment It runs, and updates the operation information of the target gas processing equipment in the interface widget.

9. a kind of airhandling equipment control system, which is characterized in that the airhandling equipment control system includes at air Manage airhandling equipment control device described in equipment and Claims 1-4 any one, airhandling equipment control device with The widget association prestored, widget includes the interface widget and control button, the widget and multiple airhandling equipments Binding；The airhandling equipment is used to regularly send operation information to airhandling equipment control device；

The airhandling equipment when being also used to receive control instruction, changes airhandling equipment according to the control instruction Internal operation information, and run according to the operation information of change.