CN116368807A - Mobile terminal, server, display device and control method for remote timing shutdown - Google Patents

Abstract

A mobile terminal, a server, a display device and a control method for remote timing shutdown are provided. The problem that the television is inconvenient in that the user and the television are required to directly perform interactive operation when the television is turned off at fixed time can be solved to a certain extent. The mobile terminal includes: a display screen; a first controller configured to: receiving an input shutdown operation; when the shutdown operation is delayed, a delayed shutdown request instruction is sent to a server, wherein the delayed shutdown request comprises delay time, and the delayed shutdown request instruction is used for enabling the server to send a shutdown execution instruction to a display device after the delay time is counted so as to control the display device to shutdown; and when the power-off operation is performed in real time, responding to the power-off operation of a user, and sending a direct power-off request instruction to the server, wherein the direct power-off request instruction is used for enabling the server to directly send a power-off execution instruction to the display equipment so as to control the display equipment to perform power-off.

Description

Mobile terminal, server, display device and control method for remote timing shutdown

The present application claims priority from chinese patent application No. 202011421615.3, filed 11 and 12 in 2020, application No. 202011264282.8, and filed 12 and 08 in 2020, the entire contents of which are incorporated herein by reference.

Technical Field

The present disclosure relates to the field of communications technologies, and in particular, to a mobile terminal, a server, a display device, and a control method for remote timing shutdown.

Background

The timing shutdown function of the television has become a common function of the television, and a user can cause the television to shutdown at the set shutdown time point by setting the corresponding shutdown time point.

In some implementations of the television timing shutdown, a message is remotely pushed to a television terminal through a server, and then the timing shutdown is carried out through the support of software and hardware capabilities of the television terminal; or the television terminal is powered off at fixed time by the self software and hardware capability, and then the user uses the physical remote controller to operate.

However, in the above-described timer shutdown scheme, it is inconvenient for the user to need to perform an interactive operation with the television terminal to achieve the timer setting.

Disclosure of Invention

A first aspect of an embodiment of the present application provides a mobile terminal, including: the display screen is used for displaying a remote shutdown user interface; a first controller configured to: receiving an input shutdown operation; when the shutdown operation is delayed shutdown operation, responding to the shutdown operation, and sending a delay shutdown request instruction to a server, wherein the delay shutdown request comprises delay time, and the delay shutdown request instruction is used for enabling the server to send a shutdown execution instruction to a display device after the delay time is counted so as to control the display device to shutdown; when the shutdown operation is a real-time shutdown operation, responding to the shutdown operation of a user, and sending a direct shutdown request instruction to a server, wherein the direct shutdown request instruction is used for enabling the server to directly send a shutdown execution instruction to a display device so as to control the display device to shutdown.

A second aspect of embodiments of the present application provides a server, including: a third controller configured to: when a delay shutdown request instruction containing delay time sent by a mobile terminal is received, sending a shutdown execution instruction to display equipment after the delay time is counted so as to control the display equipment to shutdown; and when a direct shutdown request instruction sent by the mobile terminal is received, directly sending a shutdown execution instruction to the display equipment so as to control the display equipment to shutdown.

A third aspect of the embodiments of the present application provides a display apparatus, including: a display; a second controller configured to: when a shutdown execution instruction sent by a server is received, controlling the display equipment to shutdown; when a shutdown prompt instruction containing delay time sent by a server is received, controlling a user interface to display a remote shutdown prompt, wherein the remote shutdown prompt contains a corresponding delay time value; and after the time delay value is counted down, the second controller receives a shutdown execution instruction sent by the server to control the display equipment to shutdown.

A fourth aspect of the embodiments of the present application provides a method for controlling remote timing shutdown, where the method includes: receiving an input shutdown operation; when the shutdown operation is delayed shutdown operation, responding to the shutdown operation, and sending a delay shutdown request instruction to a server, wherein the delay shutdown request comprises delay time, and the delay shutdown request instruction is used for enabling the server to send a shutdown execution instruction to a display device after the delay time is counted so as to control the display device to shutdown; when the shutdown operation is a real-time shutdown operation, responding to the shutdown operation of a user, and sending a direct shutdown request instruction to a server, wherein the direct shutdown request instruction is used for enabling the server to directly send a shutdown execution instruction to a display device so as to control the display device to shutdown.

A fifth aspect of embodiments of the present application provides a method for controlling remote timing shutdown, where the method includes: when a delay shutdown request instruction containing delay time sent by a mobile terminal is received, sending a shutdown execution instruction to display equipment after the delay time is counted so as to control the display equipment to shutdown; and when a direct shutdown request instruction sent by the mobile terminal is received, directly sending a shutdown execution instruction to the display equipment so as to control the display equipment to shutdown.

A sixth aspect of the embodiments of the present application provides a method for controlling remote timing shutdown, where the method includes: when a shutdown execution instruction sent by the server is received, controlling the display equipment to shutdown; when a shutdown prompt instruction containing delay time sent by a server is received, displaying a remote shutdown prompt, wherein the remote shutdown prompt contains a corresponding delay time value; and after the time delay value is counted down, receiving a shutdown execution instruction sent by the server to control the display equipment to shutdown.

Drawings

FIG. 1 illustrates a usage scenario of a display device according to some embodiments;

FIG. 2 illustrates an icon control interface display diagram for an application in a display device 200 according to some embodiments;

FIG. 3 shows a schematic diagram of a mobile terminal user interface according to an embodiment of the present application;

FIG. 4 is a schematic diagram of binding and interaction between a mobile terminal and a display device according to an embodiment of the present application;

FIG. 5 shows a schematic diagram of a display device application user interface according to an embodiment of the present application;

FIG. 6 illustrates a schematic diagram of a display device launch focus user interface according to an embodiment of the present application;

FIG. 7 is a diagram of a display device code scanning binding mobile terminal user interface according to an embodiment of the present application;

FIG. 8 is a schematic diagram of a mobile terminal remote shutdown user interface according to an embodiment of the present application;

FIG. 9 is a schematic diagram of a remote shutdown user interface of a mobile terminal according to another embodiment of the present application;

FIG. 10 is a schematic diagram of a user interface of a remote time-delay shutdown countdown of a mobile terminal according to another embodiment of the present application;

FIG. 11 is a diagram illustrating a user interface of a mobile terminal for canceling a remote shutdown according to another embodiment of the present application;

FIG. 12 is a schematic diagram of a display device implementing a remote timed shutdown user interface according to an embodiment of the present application;

FIG. 13 is a timing diagram of a remote timing shutdown service implementation of a display device according to an embodiment of the present application;

FIG. 14 is a schematic diagram illustrating time-lapse service interactions according to an embodiment of the present application;

FIG. 15 is a schematic diagram of a user interface of a display device displaying a remote shutdown reminder message according to an embodiment of the present application;

fig. 16 is a schematic diagram illustrating a user interface of a display device displaying a parental control shutdown reminder message according to an embodiment of the present application;

FIG. 17 illustrates a flow diagram of a method for terminal device to display device linkage for a terminal device, in accordance with some embodiments;

FIG. 18 illustrates a flow diagram of a method for terminal device to display device linkage of a terminal device, in accordance with some embodiments;

FIG. 19 illustrates a flow diagram of a method for a terminal device of a display device to link with the display device, in accordance with some embodiments;

FIG. 20 illustrates a schematic diagram of interactions between a cell phone, a television, and a server, in accordance with some embodiments;

FIG. 21 illustrates a schematic diagram of a device list interface on a terminal device in accordance with some embodiments;

FIG. 22 illustrates a schematic diagram of a device list interface on a terminal device, in accordance with some embodiments;

FIG. 23 illustrates a schematic diagram of a home interface of a first APP at a terminal device, in accordance with some embodiments;

FIG. 24 illustrates a schematic diagram of a device control interface, according to some embodiments;

FIG. 25 illustrates a schematic diagram of yet another device control interface, in accordance with some embodiments

FIG. 26 illustrates a schematic diagram of a device name editing interface, according to some embodiments;

FIG. 27 illustrates a schematic diagram of a screenshot success prompt interface in accordance with some embodiments;

FIG. 28 illustrates a schematic diagram of a screenshot sharing interface according to some embodiments;

FIG. 29 illustrates a schematic diagram of a television picture refresh interface, according to some embodiments;

FIG. 30 illustrates a schematic diagram of a screen capture failure interface, according to some embodiments;

FIG. 31 illustrates a schematic diagram of a screen capture failure interface, according to some embodiments;

FIG. 32 illustrates a schematic diagram of a manipulation option correspondence interface, according to some embodiments;

FIG. 33 illustrates a schematic diagram of a voice option correspondence interface, according to some embodiments;

FIG. 34 illustrates a schematic diagram of a voice option correspondence interface, according to some embodiments;

FIG. 35 illustrates a schematic diagram of a recommendation options correspondence interface, according to some embodiments;

FIG. 36 illustrates a schematic diagram of a function bar interface, according to some embodiments.

Detailed Description

For purposes of clarity and implementation of the present application, the following description will make clear and complete descriptions of exemplary implementations of the present application with reference to the accompanying drawings in which exemplary implementations of the present application are illustrated, it being apparent that the exemplary implementations described are only some, but not all, of the examples of the present application.

Fig. 1 is a schematic diagram of a usage scenario of a display device according to an embodiment. As shown in fig. 1, the display device 200 is also in data communication with a server 400, and a user can operate the display device 200 through the smart device 300 or the control apparatus 100.

In some embodiments, the control apparatus 100 may be a remote controller, and the communication between the remote controller and the display device includes at least one of infrared protocol communication or bluetooth protocol communication, and other short-range communication modes, and the display device 200 is controlled by a wireless or wired mode. The user may control the display apparatus 200 by inputting a user instruction through at least one of a key on a remote controller, a voice input, a control panel input, and the like.

In some embodiments, the smart device 300 may include any one of a mobile terminal, tablet, computer, notebook, AR/VR device, etc.

In some embodiments, the smart device 300 may also be used to control the display device 200. For example, the display device 200 is controlled using an application running on a smart device.

In some embodiments, the smart device 300 and the display device may also be used for communication of data.

In some embodiments, the display device 200 may also perform control in a manner other than the control apparatus 100 and the smart device 300, for example, the voice command control of the user may be directly received through a module configured inside the display device 200 device for acquiring voice commands, or the voice command control of the user may be received through a voice control apparatus configured outside the display device 200 device.

In some embodiments, the display device 200 is also in data communication with a server 400. The display device 200 may be permitted to make communication connections via a Local Area Network (LAN), a Wireless Local Area Network (WLAN), and other networks. The server 400 may provide various contents and interactions to the display device 200. The server 400 may be a cluster, or may be multiple clusters, and may include one or more types of servers.

In some embodiments, software steps performed by one step execution body may migrate on demand to be performed on another step execution body in data communication therewith. For example, software steps executed by the server may migrate to be executed on demand on a display device in data communication therewith, and vice versa.

In some embodiments, the display device may directly enter the preset vod program interface after being started, where the vod program interface may include at least a navigation bar 510 and a content display area located below the navigation bar 510, as shown in fig. 2, where the content displayed in the content display area may change with the change of the selected control in the navigation bar. The program in the application program layer can be integrated in the video-on-demand program and displayed through one control of the navigation bar, and can be further displayed after the application control in the navigation bar is selected.

In some embodiments, the display device may directly enter the display interface of the signal source selected last time after being started, or the signal source selection interface, where the signal source may be a preset video on demand program, or may be at least one of an HDMI interface, a live tv interface, etc., and after the user selects a different signal source, the display may display the content obtained from the different signal source.

The embodiment of the application can be applied to various display devices, mobile terminals and servers (including but not limited to devices such as intelligent televisions, mobile phones, tablet computers and set top boxes). The technical scheme and the user interface for realizing remote timing shutdown by using the smart television, the mobile phone and the server are taken as examples, and the display device, the mobile terminal, the server and the remote timing shutdown method are described below.

FIG. 3 shows a schematic diagram of a mobile terminal user interface according to an embodiment of the present application.

The mobile terminal comprises a display screen, wherein the display screen is used for displaying a remote shutdown user interface, and a user can perform timing shutdown or instant shutdown on the display device which is at a far end and is bound with an account through the remote shutdown user interface. In some embodiments, a user may open a corresponding application by touching an application icon on the user interface, or may open a corresponding folder by touching a folder icon on the user interface.

The mobile terminal provided by the application further comprises a first controller, wherein the first controller is configured to: receiving an input shutdown operation; when the shutdown operation is delayed shutdown operation, responding to the shutdown operation, and sending a delay shutdown request instruction to a server, wherein the delay shutdown request comprises delay time, and the delay shutdown request instruction is used for enabling the server to send a shutdown execution instruction to a display device after the delay time is counted so as to control the display device to shutdown; when the shutdown operation is a real-time shutdown operation, responding to the shutdown operation of a user, and sending a direct shutdown request instruction to a server, wherein the direct shutdown request instruction is used for enabling the server to directly send a shutdown execution instruction to a display device so as to control the display device to shutdown.

The first controller of the mobile terminal responds to the shutdown operation of a user and sends a delay shutdown request instruction or a direct shutdown request instruction to the server, and the instruction can enable the server to send a shutdown execution instruction to the display device in specific time or in real time so as to control the display device to shutdown.

In some embodiments, the user may perform a remote timed shutdown operation in conjunction with the user interface of the mobile terminal through the message channel capabilities of the mobile terminal.

For example, the mobile terminal and the display device are bound through a scanning code or are associated with an account number, and display device control authorization is carried out; and then the user can set the delay time for controlling the display device to be turned off at present on a remote turn-off user interface provided by the mobile terminal, namely, the user can turn off the display device after the specific duration is over, and the countdown management of the delay time is performed, wherein the countdown user of the delay time can cancel at any time.

For example, when the time delay count-down reaches 1min, the server reminds the user of the impending shutdown action of the display device through the cloud push message to the display device and the mobile terminal, and remotely pushes a shutdown instruction and a push shutdown execution instruction to the display device when the count-down is finished.

Binding and interaction of the mobile terminal with the display device will be described below.

Fig. 4 shows a schematic diagram of binding and interaction between a mobile terminal and a display device according to an embodiment of the application.

In step 501: the smart tv displays a user interface of an "application mall" in which items for requesting management of an application in the smart tv through the communication terminal are displayed.

The "application mall" is the name of an application program, through which the application program on the smart television can be managed, for example, the following management operations can be implemented: view the state of an application, download an application, install an application, uninstall an application, update an application, etc. Here, the application mall is merely taken as an example, and in practical application, application programs that implement the same or similar management functions may be named as other names.

The above items in the user interface of the "application mall" may be function buttons. Taking the function button as an example, a function button for submitting a request for application management through a communication terminal may be displayed in the "application mall" user interface, and when the user triggers the function button through a remote controller, a subsequent operation may be triggered to be performed.

In steps 502a to 502 c: the intelligent television receives an instruction sent by the remote controller for confirming that the communication terminal is used for managing the application program in the intelligent television, sends the address information and the equipment information of the intelligent television to the server, and displays a graphic code containing the address information of the server side and the equipment information of the intelligent television.

The graphic code may be a two-dimensional code or other graphic identification code.

The device information of the smart television may include information such as a device ID of the smart television, and the address information of the smart device may include information such as an IP address and a port number of the smart television.

Alternatively, the server-side address information may include a server-side uniform resource locator (UniformResource Locator, URL). The URL corresponds to a storage location of the application management page data, that is, the URL is a download address of the application management page data, and the communication terminal can acquire the data of the application management page through the URL, so that the communication terminal can display the application management page.

In step 503: and the server stores the address information and the equipment information sent by the intelligent television after receiving the address information and the equipment information.

In step 504: the server receives an application management page acquisition request sent by the communication terminal and is used for requesting to acquire data of the application management page, wherein the request can contain equipment information of the intelligent television.

In the step, a user can scan a graphic code displayed on a screen of the intelligent television through the communication terminal, so that server-side address information (such as a server-side URL) and equipment information of the intelligent television contained in the graphic code are identified, and an application management page acquisition request is sent to a server according to the identified server-side address information, wherein the server-side address information carries the equipment information of the intelligent television.

In step 505: after receiving the application management page acquisition request, the server returns a corresponding application management page acquisition response to the communication terminal, wherein the response carries data of the application management page and address information of the intelligent television.

In the step, after receiving an application management page acquisition request, a server acquires data of an application management page according to a server side URL carried in the request, acquires address information of an intelligent television according to equipment information of the intelligent television carried in the request, and sends the acquired data of the application management page and the address information of the intelligent television to a communication terminal.

In step 506: after receiving the application management page acquisition response sent by the server, the communication terminal analyzes the data of the application management page carried in the response, renders the application management page according to the analyzed data and displays the application management page, sends a connection establishment request to the intelligent television according to the address information of the intelligent television carried in the response, and establishes connection with the intelligent television (step 507).

Wherein, one or more items (such as function options) for managing the application program can be displayed in the application management page of the communication terminal. For example, these items may include one or any combination of the following:

item 1: the method comprises the steps of requesting to acquire all downloaded application programs in the intelligent television;

item 2: the method comprises the steps of requesting to acquire all downloaded application programs and installation states of the application programs in the intelligent television;

item 3: the method comprises the steps of requesting to acquire all installed application programs in the intelligent television;

item 4: and the method is used for requesting to acquire all the application programs to be updated in the intelligent television.

The number of application management pages may be one or more, and the listed items may be located in one page or in a different page. If a plurality of application management pages exist, the main page is displayed by default, and switching display can be performed among different pages according to touch operation of a user.

Alternatively, the application management page may be displayed by a mobile web browser in the communication terminal. If one or some of the applications integrate the functions of the mobile web browser in the communication terminal, the application management page described above may also be displayed in the application.

One example of the mobile web page is an H5 web page. H5 is a mark specification of replacing HTML5 for a package, and is applied to various computer languages such as cascading style sheets (Cascading Style Sheets, CSS), JS (Java) and the like, so that various dynamic effects and audio-visual effects can be realized, various functions of the rear end and the front end can be utilized, and H5 webpages can be spread on a communication terminal (such as a mobile phone end) or can be browsed on a Personal Computer (PC) end, a tablet personal computer and the like in a cross-platform manner.

FIG. 5 shows a schematic diagram of a display device application user interface according to an embodiment of the present application.

The display device provided by the application comprises a display and a second controller. Wherein the display is for displaying a user interface.

In some embodiments, the application UI interface includes 4 applications installed on the television, each news headline, theatre on demand, glowing, K songs, etc. By moving the focus on the display using a controller such as a remote control, a different application, or other function buttons, may be selected.

In some embodiments, the user interface may also present interactive elements, which may include, for example, a television home control, a search control, a message button control, a mailbox control, a browser control, a favorites control, a signal bar control, etc., and different applications, function buttons may be selected by moving focus on the display screen using a controller such as a remote control.

In order to improve convenience and visualization of a television UI, in some embodiments, a first controller of the display device in embodiments of the present application controls the UI of the television in response to an operation on the interactive element. For example, the user clicks the network connection icon through a controller such as a remote controller, so that a network setting interface can be activated, and a UI thereof is displayed on the top of the global UI, so that an application component UI for controlling the mapping of the interactive elements becomes larger, or the application component UI runs and is displayed in a full screen.

In some embodiments, the interactive elements may also be operated by sensors, which may be but are not limited to acoustic input sensors, such as microphones configured by a display device, that may detect voice commands including indications of desired interactive elements. For example, the user may identify a desired interactive element, such as a video call application, using "glowing" or any other suitable identification, and may also describe that a desired action associated with the desired interactive element is to be performed. The first controller may recognize the voice command and submit data characterizing the interaction to the UI or a processing component or engine thereof.

FIG. 6 illustrates a schematic diagram of a display device launch focus user interface according to an embodiment of the present application.

In some embodiments, a user may control the focus of the display screen via a remote control to select a focused application such that its icons are highlighted on the user interface of the television display screen; and then by clicking the high-brightness icon, an application program for opening the icon mapping can be realized.

It should be noted that, the icons and the text of the UI interface in the embodiments of the present application are merely used as examples to illustrate the display device, the mobile terminal, and the remote timing shutdown technical solution, and the icons and the text of the UI interface in the drawings may also be implemented as other contents, and the drawings in the present application are not limited in particular.

FIG. 7 is a diagram of a display device code scanning binding mobile terminal user interface according to an embodiment of the present application.

In some embodiments, the mobile terminal and the display device may be bound by scanning a code, or logging in with an account; the mobile terminal acquires the remote control authority of the display device, and establishes the association attribute relationship between the mobile terminal openId (WeChat public number) and/or customerId (APP) and the remote display device deviceId.

For example, when the user mobile terminal binds the display device for the first time, starting a glowing application of the user interface of the display device, and after selecting code scanning binding, displaying the two-dimensional code shown in fig. 7 on the user interface of the display device; the user can realize the binding of the mobile phone and the display device by scanning codes through WeChat or mobile phone end-collected APP or other corresponding application programs.

FIG. 8 is a schematic diagram of a remote shutdown user interface of a mobile terminal according to an embodiment of the present application.

In some embodiments, a first controller of a mobile terminal provided by the present application receives an input shutdown operation, and when the shutdown operation is a delayed shutdown operation, sends a delayed shutdown request instruction to a server; when the shutdown operation is a real-time shutdown operation, responding to the shutdown operation of a user, and sending a direct shutdown request instruction to a server.

For example, the mobile terminal remote power-off user interface shown in fig. 8 may be used by a user to select different secondary menus, which may include time-lapse power-off and direct power-off, by clicking a power-off control in the figure. The time delay shutdown request instruction is used for enabling the server to control the target display equipment of the mobile terminal to execute shutdown operation after the time delay time is over.

Fig. 9 is a schematic diagram of a remote shutdown user interface of a mobile terminal according to another embodiment of the present application.

In some embodiments, when the shutdown operation is a delayed shutdown operation, the mobile terminal first controller responds to the shutdown operation and sends a delayed shutdown request instruction to the server, wherein the delayed shutdown request includes a delay time, and the delayed shutdown request instruction is used for enabling the server to send a shutdown execution instruction to the display device after the delay time is counted so as to control the display device to shutdown.

For example, after the user clicks the shutdown control in the diagram in the remote shutdown user interface, the user interface is shown in fig. 9, and includes a "shutdown after 15 minutes" control for delayed shutdown and a real-time shutdown control, and may further include a cancel control, where the cancel control may control the mobile terminal user interface to return to the main interface.

In some embodiments, the first controller receiving an input shutdown operation includes: receiving a selected operation input by a corresponding shutdown control in the remote shutdown user interface; the first controller responds to the delayed shutdown operation and sends a delayed shutdown request instruction containing delay time to a server, and the method comprises the following steps: responding to the selected operation of the remote shutdown user interface corresponding to the shutdown control input, and controlling the remote shutdown user interface to display a first shutdown control and a second shutdown control, wherein the text of the first shutdown control displays a corresponding delay time value; and responding to the selected operation of the user on the first shutdown control, and sending a delayed shutdown request instruction containing the corresponding delayed time to a server.

For example, the first controller may receive a user selected operation of a different shutdown control in a remote shutdown user interface, which may include a direct shutdown, a shutdown after 15 minutes, and a cancel operation.

The first control can be turned off after 15 minutes, the text of the first power-off control displays a corresponding delay time value of 15 minutes, and after the user selects the first power-off control, the first controller sends a delay power-off request instruction containing delay time of 15 minutes to the server.

The server comprises a third controller, and when the third controller receives a delay shutdown request instruction containing delay time sent by the mobile terminal, the third controller sends a shutdown execution instruction to the display device after the delay time is counted so as to control the display device to shutdown.

And after receiving the delay shutdown request instruction with the delay time of 15 minutes, the third controller controls the display equipment to shutdown after 15 minutes, and particularly, the third controller sends a shutdown execution instruction to the prior display equipment to execute shutdown after the countdown of the delay time of 15 minutes is finished.

In some embodiments, when the shutdown operation is a real-time shutdown operation, the first controller of the mobile terminal responds to the shutdown operation of the user and sends a direct shutdown request instruction to the server, where the direct shutdown request instruction is used to make the server directly send a shutdown execution instruction to the display device to control the display device to perform shutdown.

For example, the first controller may receive a user selecting a "shutdown" operation in a remote shutdown user interface, where the shutdown control may be implemented as a second control that does not include a delay time, or as a first control that includes a delay time of 0.

When the shutdown control is implemented as a second control which does not contain delay time, the first controller sends a direct shutdown request instruction to the server, wherein the direct shutdown request instruction is used for enabling the server to directly send a shutdown execution instruction to the display equipment so as to control the display equipment to shutdown;

when the shutdown control is implemented as a first control with the delay time of 0, the first controller sends a delay shutdown request instruction to the server, wherein the delay time is 0, and the delay shutdown request instruction is used for enabling the server to send a shutdown execution instruction to the display device in real time so as to control the display device to shutdown. Correspondingly, in some embodiments, the server provided by the application includes a third controller, where the third controller directly sends a shutdown execution instruction to the display device to control the display device to shutdown when receiving a direct shutdown request instruction sent by the mobile terminal.

In some embodiments, after receiving a delayed shutdown request instruction including a delay time sent by the mobile terminal, the third controller of the server is further configured to: and sending a shutdown prompt instruction containing the delay time to the display equipment, wherein the shutdown prompt instruction is used for controlling the display equipment to display a remote shutdown prompt containing a delay time value.

For example, after the third controller of the server receives the delayed shutdown request instruction with the delay time of 5 minutes sent by the mobile terminal, the third controller sends a shutdown prompt instruction with the delay time to the display device, where the instruction controls the user interface of the display device to perform remote delayed shutdown prompt, for example, prompt that shutdown is performed after 5 minutes, as shown in fig. 15. Meanwhile, the remote shutdown user interface of the mobile terminal displays the countdown of the shutdown time, so that a user can inquire at any time how long later the display device will execute remote timing shutdown.

FIG. 10 is a schematic diagram of a user interface of a remote time-delay shutdown countdown of a mobile terminal according to another embodiment of the present application.

In some embodiments, after the display device first controller sends a delayed shutdown request instruction including the corresponding delay time to the server in response to a user's selection operation of the first shutdown control, the first controller is further configured to: and responding to the selection operation of the first shutdown control with the text display corresponding to the delay time value, and setting a countdown control at the adjacent position of the shutdown control to display the countdown value of the delay time.

For example, after the user performs a shutdown operation for 15 minutes on the remote shutdown user interface of the mobile terminal, the first controller sends a delayed shutdown request instruction with a delay time of 15 minutes to the server; and then the first controller controls the user interface to display a countdown control at the position close to the shutdown control, wherein the countdown control corresponds to the time delay value in the shutdown after 15 minutes of the first control selected by the user, and the countdown value is from 15 minutes to 0, as shown in the figure, the countdown control is a user interface for counting down to 12 minutes.

In some embodiments, the first controller responds to a shutdown operation of a user, and sends a delayed shutdown request instruction containing a delay time to the server, and specifically includes the first controller: responding to the shutdown operation of a user, and controlling the delay time displayed by the remote shutdown user interface to comprise a first delay time and a second delay time; and responding to the selection operation of the user, and sending a delayed shutdown request instruction containing the corresponding delayed time to the server.

For example, after the user operates the shutdown control through the remote shutdown user interface at the mobile terminal, the user interface displays selectable preset delay shutdown options of the system, the first delay time is implemented for 15min, the second delay time is implemented for 30min, and the user can select different delay times to realize remote delay shutdown.

The mobile terminal page calls a server side to create a timing service interface (createdelaydtask), and the sent shutdown request instruction carries key parameter information including an account, a deviceId, a task type, a delay time and the like.

The server side inquires whether a binding relationship exists between the server side and the mobile terminal according to the account, deviceId parameters, namely judging whether the mobile terminal has control authority to the display equipment, and if the authentication does not pass, directly returning error information; if the authentication passes, the server invokes a delay service interface, creating a timed shutdown task, as shown in FIG. 13.

FIG. 11 is a diagram illustrating a user interface of a mobile terminal for canceling a remote shutdown according to another embodiment of the present application.

In some embodiments, after the mobile terminal first controller sends the delayed shutdown request instruction to the server in response to the shutdown operation, the first controller is further configured to: receiving input shutdown cancellation operation; and responding to the shutdown canceling operation, and sending a shutdown canceling request instruction to the server, wherein the shutdown canceling request instruction is used for enabling the server to cancel the issuing of the shutdown executing instruction.

For example, based on the user interface shown in fig. 10, the user clicks the down timer control or the shutdown control, the user interface will display a space for canceling the delayed shutdown to enable the user to perform a confirmation operation, and after the user performs a confirmation selection, the first controller will receive an input shutdown canceling operation and send a shutdown canceling request instruction to the server in response to the shutdown canceling operation.

In some embodiments, after receiving the delayed shutdown request instruction sent by the mobile terminal, the third controller of the server is further configured to: receiving a shutdown cancellation request instruction sent by the mobile terminal; and canceling to issue the shutdown execution instruction to the display equipment after the time delay time is counted.

For example, the user has received a delayed shutdown request instruction with a delay time of 15 minutes sent by the mobile terminal, and when the server counts down for 12 minutes, the server receives a shutdown cancellation request instruction sent by the mobile terminal again, and then the third controller issues a shutdown execution instruction to the display device after the end of the delay time count down.

In some embodiments, after the first controller sets a countdown control adjacent to the shutdown control to display a countdown value of the delay time, the first controller is further configured to: and if the instruction for canceling the shutdown request is sent to the server, the first controller controls the remote shutdown user interface to not display the countdown value of the delay time.

For example, after the user has received a delay shutdown request instruction with delay time of 15 minutes sent by the mobile terminal, the countdown control of 15 minutes is displayed at the close position of the user interface shutdown control; the user cancels the delayed shutdown when counting down for 12 minutes, the first controller sends a shutdown cancellation request instruction to the server again, and at the same time, the first controller cancels the display of the countdown control on the user interface.

FIG. 12 is a schematic diagram of a display device executing a remote timed shutdown user interface according to an embodiment of the present application.

The display device provided by the application comprises a display and a second controller, wherein the second controller is configured to: when a shutdown execution instruction sent by a server is received, controlling the display equipment to shutdown; when a shutdown prompt instruction containing delay time sent by a server is received, controlling a user interface to display a remote shutdown prompt, wherein the remote shutdown prompt contains a corresponding delay time value; and after the time delay value is counted down, the second controller receives a shutdown execution instruction sent by the server to control the display equipment to shutdown.

For example, the display device receives a shutdown execution instruction sent from the server, where the shutdown execution instruction includes a delayed shutdown request instruction or a direct shutdown request instruction sent from the mobile terminal to the server, where the delayed shutdown request instruction includes a delay time.

When the delay time is implemented as 5 minutes, the display device will execute delayed shutdown after 5 minutes, and the user interface of the display device will display a countdown of the delay time, such as a remote shutdown prompt message about to shutdown after 5 minutes, and then the second controller will control the display device to execute shutdown when the countdown of 5 minutes is completed.

Fig. 14 shows a schematic diagram of time-lapse service interaction according to an embodiment of the present application.

After receiving the delay shutdown request instruction, the server creates/updates delay service by a delay service network element (delay service) and sends an assembled Key structure to a remote dictionary service (redis) to configure expiration time; then the delay service network element stores the delay request into a value database management system (Mysql);

when a user needs to inquire a delay task, the user mobile terminal inquires through a delay service network element; the delay service network element inquires the information of the created delay shutdown task in a database management system through account, deviceId dimension;

in some embodiments, redis enables a key expiration notification function, and a delay service network element (delay service) subscribes to rediskey expiration events;

when the rediskey expires, the delayService receives the message, and parses key structure information from the expiration event, where the structure information is implemented, for example: user_id+task_id;

Query mysql, get task type (task_type) +device) +user (account).

Judging the task type as a shutdown task, calling a message subsystem channel information interface (notify API) to send a shutdown execution instruction, and performing one-time remote shutdown operation;

after the display equipment terminal acquires the instruction through the message channel, the display equipment terminal executes a shutdown action.

In some embodiments, the currently defined task_types are two, including a shutdown reminder and shutdown; the first is a preset time length or an instant message reminding instruction before shutdown, and the second is a shutdown instruction. In some embodiments, the fixed interval between the two trigger time may be set according to actual requirements, for example, may be implemented for 1min.

With continued reference to fig. 14, when the user needs to delete the delay task, the user mobile terminal deletes the delay task through the delay service; the delay service deletes the created delay shutdown task information in a database management system in account, deviceId dimension; and then deleting the Key to be expired in the remote dictionary service by the delay service.

Wherein, the redis expiration key format can be implemented as:

wx:{user_id}:{task_id}；

the expiration time of the key is a time option defined by delayed shutdown, if the key is shutdown after 15min, the expiration time of the corresponding key is 15 x 60s.

In some embodiments, the mobile terminal remote shutdown user interface displays the countdown of the delay time, and the mobile terminal first controller responds to a shutdown canceling operation of a user and sends a shutdown canceling request instruction to the server, wherein the canceling request instruction is used for enabling the server to cancel a shutdown issuing execution instruction; and controlling the remote shutdown user interface to display prompt information for canceling shutdown.

For example, after the mobile terminal user reenters the remote shutdown user interface, the setting information of the delayed shutdown service may be queried through the server interface, and when the user clicks the remaining time of the delay time displayed by the user interface, the first controller will control the remote shutdown user interface to display a prompt message for canceling shutdown, for example, the prompt message is implemented as "determine to cancel delayed shutdown? "; the user may choose to return, or cancel the delayed shutdown. In some embodiments, the display device provided in the present application further provides a parental control and timing shutdown function, which may be set by a parent at the display device end, unlike the remote timing shutdown described above.

For example, when the resources such as cartoon or cartoon are watched by the child and exceed the preset time, the display device executes automatic shutdown and prompts a user interface when the preset time before shutdown is reached, as shown in fig. 16, fig. 16 is a schematic diagram of the user interface for displaying the parental control shutdown reminding message by the display device according to an embodiment of the present application.

Based on the above description of the technical scheme of realizing remote timing shutdown of the display device by the mobile terminal, the application also provides a control method applied to remote timing shutdown of the mobile terminal, and the method comprises the following steps: receiving an input shutdown operation; when the shutdown operation is delayed shutdown operation, responding to the shutdown operation, and sending a delay shutdown request instruction to a server, wherein the delay shutdown request comprises delay time, and the delay shutdown request instruction is used for enabling the server to send a shutdown execution instruction to a display device after the delay time is counted so as to control the display device to shutdown; when the shutdown operation is a real-time shutdown operation, responding to the shutdown operation of a user, and sending a direct shutdown request instruction to a server, wherein the direct shutdown request instruction is used for enabling the server to directly send a shutdown execution instruction to a display device so as to control the display device to shutdown. The specific operation method and steps of the mobile terminal implementing the technical scheme of remote timing shutdown of the display device are described in detail in the above description of the mobile terminal implementing scheme, and are not described in detail herein.

In some embodiments, after sending a delayed shutdown request instruction to the server in response to the shutdown operation, the method further comprises: receiving input shutdown cancellation operation; and responding to the shutdown canceling operation, and sending a shutdown canceling request instruction to the server, wherein the shutdown canceling request instruction is used for enabling the server to cancel the issuing of the shutdown executing instruction. The specific operation method and steps of the mobile terminal implementing the technical scheme of remote timing shutdown of the display device are described in detail in the above description of the mobile terminal implementing scheme, and are not described in detail herein.

In some embodiments, the receiving input shutdown operation includes: receiving a selected operation input by a corresponding shutdown control; responding to the delayed shutdown operation, sending a delayed shutdown request instruction containing delay time to a server, comprising: responding to the selected operation input corresponding to the shutdown control, displaying a first shutdown control and a second shutdown control, wherein the text of the first shutdown control displays a corresponding delay time value; and responding to the selected operation of the user on the first shutdown control, and sending a delayed shutdown request instruction containing the corresponding delayed time to a server. The specific operation method and steps of the mobile terminal implementing the technical scheme of remote timing shutdown of the display device are described in detail in the above description of the mobile terminal implementing scheme, and are not described in detail herein.

In some embodiments, in response to a selected operation corresponding to the shutdown control input, displaying a first shutdown control and a second shutdown control, the method further comprising: and responding to the selected operation of the user on the second shutdown control, and sending a delayed shutdown request instruction which does not contain delay time or contains delay time 0 to a server. The specific operation method and steps of the mobile terminal implementing the technical scheme of remote timing shutdown of the display device are described in detail in the above description of the mobile terminal implementing scheme, and are not described in detail herein.

In some embodiments, in response to a user's selection operation of the first shutdown control, after sending a delayed shutdown request instruction including a corresponding delay time to a server, the method further includes: and responding to the selection operation of the first shutdown control with the text display corresponding to the delay time value, and setting a countdown control at the adjacent position of the shutdown control to display the countdown value of the delay time. The specific operation method and steps of the mobile terminal implementing the technical scheme of remote timing shutdown of the display device are described in detail in the above description of the mobile terminal implementing scheme, and are not described in detail herein.

In some embodiments, after setting a countdown control adjacent to the shutdown control to display a countdown value of the delay time, the method further comprises: if the instruction for canceling the shutdown request is sent to the server, the countdown value of the delay time is not displayed any more. The specific operation method and steps of the mobile terminal implementing the technical scheme of remote timing shutdown of the display device are described in detail in the above description of the mobile terminal implementing scheme, and are not described in detail herein.

Based on the above description of the technical scheme of remote timing shutdown of the display device implemented by the server, the present application also provides a control method of remote timing shutdown applied to the server, where the method includes: when a delay shutdown request instruction containing delay time sent by a mobile terminal is received, sending a shutdown execution instruction to display equipment after the delay time is counted so as to control the display equipment to shutdown; and when a direct shutdown request instruction sent by the mobile terminal is received, directly sending a shutdown execution instruction to the display equipment so as to control the display equipment to shutdown. The specific operation method and steps of the server implementation solution for implementing the remote timing shutdown technical solution of the display device are described in detail in the above description of the server implementation solution, and are not described in detail herein.

In some embodiments, after receiving the delayed shutdown request instruction sent by the mobile terminal, the method further includes: receiving a shutdown cancellation request instruction sent by the mobile terminal; and canceling to issue the shutdown execution instruction to the display equipment after the time delay time is counted. The specific operation method and steps of the server implementation solution for implementing the remote timing shutdown technical solution of the display device are described in detail in the above description of the server implementation solution, and are not described in detail herein.

In some embodiments, after receiving a delay shutdown request instruction including a delay time sent by the mobile terminal, the method further includes: and sending a shutdown prompt instruction containing the delay time to the display equipment, wherein the shutdown prompt instruction is used for controlling the display equipment to display a remote shutdown prompt containing a delay time value. The specific operation method and steps of the server implementation solution for implementing the remote timing shutdown technical solution of the display device are described in detail in the above description of the server implementation solution, and are not described in detail herein.

Based on the above description of the technical scheme for implementing remote timing shutdown of the display device, the present application also provides a control method for remote timing shutdown of the display device, where the method includes: when a shutdown execution instruction sent by the server is received, controlling the display equipment to shutdown; when a shutdown prompt instruction containing delay time sent by a server is received, displaying a remote shutdown prompt, wherein the remote shutdown prompt contains a corresponding delay time value; and after the time delay value is counted down, receiving a shutdown execution instruction sent by the server to control the display equipment to shutdown. The specific operation method and steps for implementing the remote timing shutdown technical scheme of the display device are described in detail in the implementation scheme of the display device, and are not described herein.

The embodiment of the application has the beneficial effects that the mobile terminal can control the display equipment to remotely and regularly shutdown through the server by constructing the delay shutdown request instruction containing the delay time; further, by constructing a direct shutdown request instruction, the mobile terminal can control the display equipment to remotely and immediately shutdown through the server; further, by constructing a command for canceling the shutdown request, the mobile terminal can cancel the remote timing shutdown in real time through the server; further, by constructing the countdown control, the remote timing shutdown progress can be checked at any time at the mobile terminal; the remote shutdown prompt instruction is further constructed, so that the display device can prompt remote shutdown operation in real time, a user can inquire and cancel the established remote timing shutdown service at any time, the remote timing shutdown operation instruction is sent to the server through the user interaction service of the mobile terminal to control the display device, the user operation can be simplified, the requirements of software and hardware of the terminal of the display device are reduced, the technical implementation range is improved, and the user experience is improved.

In some embodiments, the user may control the display device, such as increasing or decreasing volume, pausing/starting playback, etc., through the terminal device, which may include a cell phone, and the display device may include a television. The user may install an application on the terminal device through which the display device is controlled. However, there may be some differences between functions supported by different display devices, and when a user clicks an operation control for controlling the display device on an application program of the terminal device, if the display device does not support the function corresponding to the operation control, the user experience will be poor.

In view of the foregoing technical problems, embodiments of the present application provide a method for a terminal device to link with a display device, which is used for the terminal device and the display device, respectively, where in some embodiments, the display device includes a display and a controller, the terminal device also includes a display and a controller, for convenience of distinction, the display of the terminal device may be referred to as a terminal display, and the controller of the terminal device may be referred to as a terminal controller. The terminal device can display an operation control for controlling the display device on the terminal display, the terminal controller generates a control signal for the display device according to a trigger instruction of the operation control, and the controller of the display device responds according to the control signal, for example, the display of the display device is controlled to display a picture with a function corresponding to the control signal.

In some embodiments, the linkage method for the terminal device may refer to fig. 17, including steps S101-S103.

Step S101: and responding to a connection display device instruction input by a user, and establishing connection with the display device.

In some embodiments, a user may install a mobile phone end linkage application on the terminal device to control the terminal device to interact with the display device, where the mobile phone end linkage application may be referred to as a first APP, and after the user starts and logs in the first APP, an interface of the first APP may display a connection control, and after the user triggers the connection control, the first APP may display multiple connection methods for the user to select. In some embodiments, each connection method may display an operation control, the user clicks a different operation control, and the terminal device will acquire and display a display device connectable under the connection method; in some embodiments, the terminal device may also concurrently obtain connectable display devices under different connection methods, and correspondingly display each connection method and the connectable display device on the same interface, so that a user may view through the sliding interface; in some embodiments, the terminal device may not display the connection method, and only display the obtained connectable display device, so as to reduce user operations, and further, if there is a repeated display device in the different connection method, remove the repeated display device.

In some embodiments, a method of connection between a terminal device and a display device may be a network connection. If the terminal equipment is in the local area network, the APP can automatically acquire the display equipment in the local area network, a user clicks one display equipment to generate a connection request, the terminal equipment sends the connection request to the display equipment, and the display equipment establishes connection with the terminal equipment according to the connection request. In some embodiments, the connection established by the display device with the terminal device may be a point-to-point connection.

In some embodiments, a method of connecting a terminal device to a display device may be a same account connection. If the terminal equipment is not in the local area network, for example, when the terminal equipment is surfing the internet through the data flow of the sim card, the user cannot check the display equipment in the local area network on the terminal equipment because the terminal equipment is not in the local area network, at the moment, the terminal equipment can send a query request to the server to query equipment information of the display equipment with the same account number as the terminal equipment, after the equipment information of the display equipment is acquired, the display equipment is displayed, after the user clicks the display equipment, a connection request is generated, the terminal equipment sends the connection request to the server, and connection is established with the display equipment according to the equipment through the server. In some embodiments, the device information may include a name, a MAC address, a power on status, and a login account number of the display device.

In some embodiments, a method of connection between a terminal device and a display device may be a scan code connection. For example, an APP, which may be referred to as a second APP, may be provided on the display device to control the interaction of the display device with the terminal device. After the user opens the second APP on the display device, a two-dimensional code can be generated on an interface of the second APP, after the user selects code scanning connection on the terminal device, the terminal device can scan the two-dimensional code, so that the terminal device can acquire the device information of the display device, a connection request is sent to the display device through a server according to the device information of the display device, and the display device establishes connection with the terminal device according to the connection request.

In some embodiments, the operation of establishing a connection with the display device may be automatically performed by the user after the user opens a preset interface, or operates a preset control, or the first APP is started. The preset interface may be an interface of the first APP, for example, a "my" interface, and the preset control may be a connection control displayed by the first APP. In some embodiments, the terminal device automatically discovers a display device in the local area network, automatically connects the display device according to the historical connection information when the display device is a device which is already connected, and displays prompt information to remind a user whether to connect the display device when the display device is a newly discovered device (the historical connection information does not exist).

Step S102: and sending a query request to the display device to query the parameter information of the display device, wherein the parameter information is used for representing the function query requests supported and unsupported by the display device.

In some embodiments, in step S101, the display device connected to the terminal device is a device that has not been connected before, and to obtain version capability data of the display device, the terminal device may send a query request to the display device to obtain parameter information of the display device. After receiving the inquiry request of the terminal device, the display device can send the parameter information of the display device to the terminal device.

In some embodiments, in step S101, the display device connected to the terminal device is a device connected before, the terminal device already stores version capability data of the display device, and the method may directly jump to step S103 without sending a query request to the display device, and display the corresponding operation control on the terminal display according to the version capability data.

In some embodiments, after the terminal device establishes a connection with the display device, a query request may be sent to the display device. In some embodiments, the parameter information of the display device may include version capability data of the display device. In some embodiments, the version capability data of the display device may include an identification of whether the first function is supported, an identification of whether the second function is supported, an identification of whether the third function is supported, and so on. The terminal device may not load the identifier corresponding to the function not supported by the display device when loading the interface. The first function, the second function and the third function are all linkage functions, namely functions which can be controlled by a mobile phone on a television, such as a screen throwing function, a screen capturing function, a shutdown function and the like. In some embodiments, the display device may store own version capability data, update the own version capability data from the server after each startup, and return parameter information including the version capability data to the display device after receiving a query request of the terminal device; in some embodiments, the display device may also directly query the server for its latest version capability data after receiving the query request from the terminal device, and then return the parameter information containing the version capability data to the display device. In some embodiments, the parameter information of the display device may be used to characterize the operation control, and may specifically include software version information of the display device and license plate information of the display device, where mapping relationships may exist between the software version information and version capability data of the display device, and between the license plate information and version capability data of the display device, where these mapping relationships may be stored in the server, and may also be stored in the terminal device and/or the display device. When the mapping relations exist in the display device, the display device can inquire the mapping relations according to the inquiry request to obtain version capacity data of the display device and send the version capacity data to the terminal device; when the mapping relations exist in the terminal equipment, the terminal equipment can query the mapping relations after receiving the parameter information of the display equipment to obtain version capacity data of the display equipment; when these mappings exist in the server, the terminal device may acquire these mappings from the server, or the display device acquires these mappings from the server and then returns to the terminal device.

In some embodiments, the software version information may include a version number and photographing information.

Step S103: and according to the parameter information of the display equipment, controlling the terminal display not to display a second operation control when the operation control is displayed, wherein the operation control is used for controlling the display equipment, and the second operation control is an operation control corresponding to a function which is not supported by the display equipment.

In some embodiments, when the parameter information sent by the display device includes version capability data, or the parameter information sent by the display device does not include version capability data but includes software version information of the display device and license plate information of the display device, but the terminal device itself stores a mapping relationship of the version capability data, the terminal device may obtain the version capability data of the display device according to the parameter information sent by the display device, and the terminal device may determine a function icon that may be loaded according to the version capability data of the display device, where the function icon may be configured as an operation control capable of responding to a touch operation by a user.

In some embodiments, after the terminal device obtains the version capability data of the display device, the terminal device may also screen the function icons determined according to the version capability data of the display device according to its own native function, such as hardware supporting capability, so as to improve the probability of successfully executing the linkage function after the function icons are triggered. For example, the terminal device may store a mapping relationship between the operation control and hardware of the terminal device, and of course, the mapping relationship may also be stored in the server, and the terminal device may also obtain the mapping relationship from the server. After the terminal equipment obtains the version capability data of the display equipment, the corresponding identifiers of functions supported by the display equipment can be obtained according to the version capability data, a list of operation controls to be displayed is obtained according to the identifiers, whether the corresponding hardware exists in the terminal equipment or not and whether the hardware works normally is detected according to the mapping relation between the operation controls and the hardware of the terminal equipment, if the hardware does not exist or works abnormally, error reporting is carried out, the operation controls corresponding to the error reporting hardware are deleted from the list of the operation controls to be displayed, and when all the hardware corresponding to the list of the operation controls to be displayed is detected, the rest operation controls in the list of the operation controls to be displayed can be loaded. In some embodiments, when the parameter information sent by the display device does not include version capability data, but includes software version information and license plate information of the display device, the terminal device may query the server for version capability data corresponding to the parameter information, further obtain a linkage function supported by the display device, determine a displayable operation control according to the linkage function supported by the display device, and then load the displayable operation control in the local page resource according to the determined result. For example, the version capability data of the display device may include an identification of whether the first function is supported, an identification of whether the second function is supported, an identification of whether the third function is supported, and so on. When the terminal equipment loads the interface, the identifiers corresponding to the functions which are not supported by the display equipment are not loaded, the identifiers corresponding to the functions supported by the display equipment are only loaded, and then the operation controls corresponding to the functions supported by the display equipment are further loaded, and the operation controls corresponding to the functions supported by the display equipment can be called as first operation controls.

In some embodiments, when the parameter information sent to the terminal device by the display device includes version capability data, or the terminal device locally stores version capability data corresponding to different version information and license plates, the terminal device may still acquire the version capability data of the display device from the server, so as to correct the version capability data.

In some embodiments, the terminal device determines functions/supported functions not supported by the display device according to the mapping relationship between the software version information stored in the terminal device and the supported hardware functions.

In some embodiments, the page data includes basic page data and controllable page data, the basic page data is data for displaying general page content, the controllable page data can be selected according to functions supported by the display device, the terminal device can filter the controllable page data in the local page data according to functions not supported by the display device, and the filtered controllable page data and the filtered basic page data are displayed on the page.

In some embodiments, the terminal device may send the functions that are not supported by the display device/the functions that are supported by the display device to the server along with the page request, where the server filters the controllable page data in the preset page data, and sends the filtered controllable page data and the base page data to the terminal device to display the page for displaying.

In some embodiments, the terminal device may send the software version information directly to the server, which makes a determination of functions/supported functions not supported by the display device.

In some embodiments, the page data may be divided into different versions of page data, where the different versions of page data directly correspond to different key versions without distinguishing between the underlying data and the controllable page data.

In some embodiments, the linkage method for the terminal device may refer to fig. 18, including steps S111-S115.

Step S111: and receiving an instruction of starting the mobile phone end linkage application by a user, displaying a home page of the mobile phone end linkage application, and controlling the display equipment by the mobile phone end linkage application.

In some embodiments, the cell-phone-side linkage application may be a first APP.

Step S112: a connection is established with the display device.

In some embodiments, the terminal device may receive an instruction input by a user to connect to a display device in the local area network, and establish a connection with the display device in the local area network in response to the instruction to connect to the display device in the local area network.

In some embodiments, the terminal device may receive an instruction input by a user to connect to a display device of the same account; and responding to an instruction of connecting the display equipment with the same account number, and establishing connection with the display equipment with the same account number through a server.

In some embodiments, the terminal device may establish a connection with a display device in the local area network in response to the instruction to start the mobile phone end linkage application.

Step S113: and sending a query request to a server to acquire version information of the television end linkage application of the display equipment.

In some embodiments, the television-side linkage application may be a second APP.

Step S114: and receiving an operation instruction input by a user for switching the display preset interface.

In some embodiments, the preset interface may be a "my" interface of the first APP.

Step S115: and determining an operation control displayed in the preset interface according to the version information of the television end linkage application, wherein when the first function is not supported according to the version information of the television end linkage application, the operation control corresponding to the first function is not displayed in the preset interface. In some embodiments, the linkage method for a display device, see fig. 19, includes steps S201-S203.

Step S201: and establishing connection with the terminal equipment.

In some embodiments, the display device may automatically connect to the local area network after being started, and then send a broadcast within the local area network, so that other devices within the local area network, such as the terminal device, can identify the display device, send a connection request to the display device, and the display device establishes a connection with the terminal device according to the connection request.

In some embodiments, the display device receives a connection request of the terminal device sent by the server, and establishes a connection with the terminal device through the server according to the connection request.

In some embodiments, the networked display device may operate networked without active broadcasting, or only broadcasting when accessed, with subsequent active broadcasting no longer being sustained. After the terminal equipment starts the first APP, the terminal equipment actively transmits a broadcast or sends a request to a server according to the operation of a user, and then establishes the same-network connection or the same-account connection.

Step S202: and receiving a query request from the terminal equipment.

In some embodiments, the terminal device and the display device are located within the same local area network, and the display device may receive the query request from the terminal device over the local area network.

In some embodiments, the terminal device and the display device are not connected to the same local area network, and the display device may receive the query request from the terminal device through the server.

In some embodiments, the terminal device and the display device are not connected to the same lan, the display device may not receive the query request from the terminal device, and the server may directly determine the parameter information of the corresponding display device according to the information (such as account information) in the query request of the terminal device and a preset database, where the preset database may be a database storing the parameter information.

Step S203: and responding to the query request, sending parameter information of the display equipment to the terminal equipment, and enabling the terminal equipment to display a corresponding operation control according to the parameter information, wherein the operation control is used for controlling the display equipment.

In some embodiments, the display device may determine parameter information of the display device according to receiving the query request of the terminal device, and send the parameter information of the display device to the terminal device.

In some embodiments, the display device may send the parameter information of the display device to the terminal device via an in-network transmission via a local area network.

In some embodiments, the display device may send parameter information of the display device to the server, and the server sends the parameter information to the terminal device.

In some embodiments, the parameter information of the display device may include at least one of version information of an installed application on the display device and license plate information of the display device, where there may be a plurality of installed applications on the display device, but some applications may not support linkage with the terminal device, such as live tv, game applications, some applications support linkage with the terminal device, such as nas, a small-focus home, a home message board, and hi-drop, and the display device may send only the license plate information of the display device and the parameter information of the installed application that can interact with the terminal device to the terminal device.

In some embodiments, the display device, after installing or updating an application, uploads software version information for the application to the server. After receiving the inquiry request of the terminal equipment, the display equipment acquires license plate information and software version information of the installed application from the server.

In some embodiments, the controller of the display device may directly obtain and locally store software version information of an installed application on the display device and license plate information of the display device, and when a version of an installed application is updated, the display device updates the stored software version information. After receiving the inquiry request of the terminal equipment, the display equipment combines the locally stored software version information and license plate information into parameter information and sends the parameter information to the terminal equipment.

To further illustrate the process of linking between terminal devices of a display device, fig. 20 shows a schematic diagram of interactions between a cell phone, a television, and a server according to some embodiments.

In some embodiments, the mobile phone may be connected to a television, an intelligent camera, and other devices through a mobile phone end linkage application, for example, the television may be provided with a television end linkage application for controlling the interaction between the television and the mobile phone, that is, a second APP, where after the television is started and networked, the second APP may automatically obtain software version information of each application installed on the television and license plate information of the television from a server, and locally store the software version information and license plate information.

After the television is started and networked, the television also transmits a broadcast in the accessed local area network, and if the mobile phone is also in the local area network, the broadcast can be received by the mobile phone.

In some embodiments, the first APP may be a 'sea credit, watch' APP installed at the handset end, and the second APP is a content providing APP 'watch' pre-installed at the television end or installed by the user.

In some embodiments, a user may select, by switching signal sources, content from different sources for display in numerous input modes, such as live APP, HDMI interface input, live interface input, and the like.

In some embodiments, an APP (first APP) for controlling interaction between a television and the mobile phone may be installed on the mobile phone, after a user starts and logs in the first APP, an interface of the first APP may display a connection control, after the user triggers the connection control, the first APP may send a query request including an account number currently logged in the first APP to a server, and the server queries the television logged in the account number according to the query request and returns device information of the television to the mobile phone. In some embodiments, the first APP may also be configured to automatically query the server for device information of the television that is logged into the account upon startup; in some embodiments, the first APP may be further configured to receive a broadcast of a television within the local area network in response to triggering of the connection control or automatically upon initiation, according to the handset being within the local area network.

In some embodiments, if the mobile phone is not connected to any device through the first APP, after the first APP obtains a device that logs in to the same account as the mobile phone and/or a device that is in the same local area network as the mobile phone, the first APP may generate a device discovery page to display the obtained devices, and the user may click on a device, such as a television, on the discovery page, and send a connection request to the television, so as to establish a connection with the television. After the first APP is connected with the television, the parameter information can be acquired from a second APP of the television, and the second APP returns the parameter information to the mobile phone. The first APP obtains version information of the application supporting linkage of the television and license plate information of the television according to the parameter information, and obtains version capacity data of the television from the server according to the information. After the server returns the version capability data to the mobile phone, the first APP may add the television to the device list. In some embodiments, the first APP may further check whether the own capability data supports all control functions shown in the version capability data of the television, and configure an operation control to be displayed according to the control functions supported by both the capability data of the mobile phone and the version capability data of the television. For example, in some embodiments, after a user clicks a television in the device list, the first APP supports video call and infrared remote control of the mobile phone according to the version capability data of the television, the capability data of the mobile phone supports infrared remote control and the home message board, but does not support video call (for example, damage to a camera of the mobile phone results in a failure to make a video call), and then the mobile phone may display an operation control of the infrared remote control, and not display an operation control of the video call and an operation control of the home message board. In some embodiments, after the first APP verifies the capability data of the mobile phone, the device control interface may be entered, and the operation control may be displayed on the interface.

In some embodiments, after the mobile terminal scans the two-dimensional code in fig. 7, the binding of the device may be performed and the interface shown in fig. 21 is entered. In some embodiments, the interface shown in FIG. 8 may be accessed through a functionality control (exemplary, a manipulation control) on any of the interfaces of FIGS. 24-26.

In some embodiments, if the handset connects some devices through the first APP, the first APP may request the server to update the version capability data of these devices each time the user activates the first APP, and the first APP may display the list of devices as shown in fig. 21 when the user clicks the connection control within the first APP. Referring to fig. 21, the status of each device may be displayed within a list of devices, such as: the status of the device may also include that the device is offline, where connection refers to connection with a cell phone, as shown in fig. 22.

The user can select a device in the device list, which is in a state of 'device online unconnected', so that the mobile phone is connected with the device. In some embodiments, the first APP may be connected to only one device at the same time, the user may switch the first APP to connect to a different device, and when the user switches the connected device, the first APP may refresh the device control interface according to the version capability data of the device after the switching.

In some embodiments, different devices are connected through different device controls, and when a user selects a control or an entry control at a preset position of the control, the display of the current interface is reversed, and the display of the device control interface is performed, for example, the process of fig. 24 is performed.

In some embodiments, the portal control may be a child control in the device control.

In some embodiments, as shown in fig. 23, the default interface after the first APP is started may also be a recommended interface, and the user enters the function of the device control interface to display the terminal by selecting a preset control, for example, by selecting a "my" control to switch to the interface shown in fig. 25.

Referring to fig. 24, a television screen may be displayed on the upper portion of the device control interface, a function bar may be displayed on the bottom portion of the device control interface, and a content display area may be provided between the function bar and the display screen, where some television information, message notification, and operation controls may be displayed in the content display area. The function bar may present the following function options: "function", "manipulation", "speech" and "recommendation".

In some embodiments, the user may switch different controls in "function," "manipulation," "voice," and "recommendation" to change the display of the content presentation area, and when the function control is selected, the function presentation interface is displayed. In some embodiments, the function presentation interface is a default display interface after selecting the device to view.

In some embodiments, a controller in the terminal device receives an instruction input by a user for displaying the function display interface, and loads a function icon in a content display area of the function display interface according to APP version information displayed by a foreground in the connected display device.

In some embodiments, the instruction for displaying the function presentation interface may be an operation of selecting a certain device in the device list interface by the user, or an operation of selecting a preset function control.

In some embodiments, the instruction for displaying the function presentation interface may be an operation by which the user switches the device to which the terminal device is connected.

In some embodiments, for the same terminal device, the connection with the display device may be initiated by the terminal device after user selection by selecting the connected device at the list interface.

In some embodiments, the user switches the connected display devices by switching the network connection device control or the account connection device control.

In some embodiments, the terminal device is configured such that there is only one link for transmitting control instructions with the display device at the same time, due to the uniqueness of the need to control user operation, i.e. to avoid that the same control instructions are sent to different display devices.

In some embodiments, the user inputs an operation instruction for switching the connected device, the terminal device may disconnect from the display device before switching, and the display device after switching may establish a connection, for example, when the user selects one display device, a connection option may pop up after long pressing, and touch the connection option may implement inputting an operation instruction for switching the connected device, and when the terminal device is not connected to any one display device, the user may connect to one display device in the above manner.

In some embodiments, there may be multiple display devices communicatively coupled to the display device, but the user-selected device is determined to be the current display device and the other display devices are candidate display devices. The communication connection with the current display device is configured to be active and control instructions are sent by the terminal device to the current display device. The connections of the other candidate display devices and the terminal device are configured to be inactive. After the connection is switched, the active state of the communication connection between the display device before the switching and the display device after the switching is changed.

In some embodiments, the interface is displayed according to the parameter information refreshing function of the display device after switching, and if the display device before switching supports the "home message board" function, and the display device after switching does not support the "home message board" function, the "home message board" control is not displayed in the function display interface according to the parameter information refreshing function of the display device after switching. If the display equipment before switching does not support the video call function, the display equipment after switching supports the video call function, and a home message board control is added to the function display interface after refreshing according to the parameter information of the display equipment after switching. In some embodiments, a refreshing screen control can be displayed on the television picture displayed on the device control interface except the content display area, and the user clicks the refreshing screen control to manually refresh the television picture displayed on the mobile phone to be consistent with the latest picture of the television, so that the user can conveniently view the current display content of the connected television.

In some embodiments, the television information displayed in the content display area includes a television name, a device model, and license plate information, where in some embodiments, if the mobile phone does not obtain the television name, or the device model, or the license plate information, a "-" may be displayed at a location where the television name, or the device model, or the license plate information is displayed, indicating that the acquisition of the television information fails.

In some embodiments, an edit control may be displayed near the television name, the user clicking on the edit control, the television name modification window and input method keyboard shown in fig. 26 may be popped up, the cursor may be positioned into the input box, the user may modify the television name in the television name modification window using the input method keyboard, and in some embodiments, the television name may default to an upper limit of 20 words.

In some embodiments, a screen capture control may be displayed near the television name, and the user clicks on the screen capture control, and the mobile phone may capture the screen displayed by the television.

In some embodiments, the prompt and sharing control shown in FIG. 27 may be popped up after the screenshot is successful, an exemplary prompt such as "the screenshot has been saved to album".

In some embodiments, the user clicks the share control, the share window shown in FIG. 28 may be popped up, and the popped up prompt and share control may disappear after a default of 4S.

In some embodiments, after the user clicks on the screen capture control, the handset may refresh the television screen first, as shown in fig. 29, and during the refresh, may prompt that the screen is being refreshed at the television screen location of the device control interface.

In some embodiments, if the television and the mobile phone are connected in the same network, that is, the television and the mobile phone are in the same local area network, the mobile phone may preferentially use the same-network screen capturing function to obtain the screen capturing, if the mobile phone and the television are connected in a cross-network manner, for example, the mobile phone uses a data network, and the television uses a WIFI network, the same-network screen capturing function may be used to obtain the screen capturing, where the same-network screen capturing function may include directly obtaining, by the mobile phone, display screen data of the television in a point-to-point connection manner, and the cross-network screen capturing function may include obtaining, by the mobile phone, display screen data of the television through a server. If the television screen refresh fails, as shown in fig. 30, the mobile phone may prompt the screen capture failure and the jump link, and the jump link may be underlined to display the following contents: "why every screen acquisition fails, point me knows", the user clicks the jump link, and then can enter the interface shown in fig. 31, the function bar under the content display area can select the "voice" option, so that the explanation information is displayed in the form of dialog box on the interface corresponding to the option, and the explanation information can include the reason of the screen capturing failure. In some embodiments, the reasons for the failed screen capture include that the television model does not support screen capture.

In some embodiments, the message notification presented by the content presentation area may present member-related information, e.g., a prompt for about to expire 7 days before the member expires, an expiration prompt within 3 days of the member expiration, and the user clicking on the message notification may jump to the member purchase page. In some embodiments, if the television does not log in to the account, a message notification corresponding to the member-related information may not be displayed. The operator of the television may configure the specific content of the message notification and the jump links of the message notification specifically.

In some embodiments, the content presentation area may also present some operational activities, such as the seven day activity shown in fig. 24, the operator of the television may configure the content of the operational activities specifically.

In some embodiments, the content display area may display different content according to different currently selected function options in the function bar, where the function option selected by default in the function bar may be "function", and the user may click on another function option to cause the content display area to display different content.

In some embodiments, when the currently selected function option of the function bar is "function", the content presentation area may present the operation control obtained in step S103 of fig. 6. In fig. 24, the operation controls presented in the content presentation area include: video screen, music screen, photo screen, file screen, audio input density, application management, video call and home message board, and the functions corresponding to the operation controls are all functions supported by the mobile phone and the television of the example. If any one of the mobile phone and the television does not support a function, such as a home message board function, according to the scheme shown in fig. 6-20, the operation control of the home message board will not be displayed in the content display area, so that the problem that the mobile phone or the television cannot realize the function and brings bad user experience to the user when the user clicks the operation control is avoided.

In some embodiments, when the currently selected function option in the function bar is "control", the content display area may display a remote controller interface as shown in fig. 32, where the remote controller interface may display a plurality of remote control keys, and the user may click on the remote control keys to make the mobile phone simulate a remote controller to control the television, such as turning off, adjusting volume, and so on. In some embodiments, the function of the analog remote controller does not require the mobile phone to support the infrared function, for example, the mobile phone can transmit a control signal to the television through bluetooth or WIFI, and according to the schemes shown in fig. 6-20, if the mobile phone does not support the infrared function, after receiving a trigger signal of a remote control key of the interface from a user, the mobile phone can convert the signal into a control signal that can be identified by the television, so as to realize remote control to the television.

In some embodiments, when the currently selected function option of the function bar is "voice," the content presentation area may present a dialog interface as shown in fig. 33, which may present keyboard input controls, voice input controls, shortcut function controls, and dialog records. The left side of the dialogue record can be an input record of a user, and the right side of the dialogue record can be a response record of the mobile phone; the keyboard input control can be displayed as a keyboard shape, and after a user clicks the keyboard input control, as shown in fig. 34, the input method keyboard can be adjusted to input text information; the voice input control may be displayed as "hold talk" and the user holding the voice input control may input voice information; the shortcut function controls may include the following: "turn off television", "return to home", "mute", and "turn on kiwi". The mobile phone can respond to the voice information or text information input by the user or the click signal of the shortcut function control, so as to correspondingly control the television.

In some embodiments, when the currently selected function option in the function bar is "recommended", the mobile phone may request the server for recommended content to be displayed, and display a recommended interface as shown in fig. 35 according to the recommended content issued by the server. Referring to fig. 35, the recommended content displayed by the recommended interface may be recommended media assets issued by the server according to license plate information of the television, for example, the server may issue some media assets on the warrior platform, such as "7 months carefully chosen collection of clips", "yulan winning works", to the mobile phone according to license plate information of the television; according to the Hua-Ding platform supporting installation of the "kiwi" application, the installation advertisement of the application is issued to the mobile phone, so that the mobile phone displays the installation advertisement, and in some embodiments, the installation advertisement can display an installation control, and a user clicks the installation control to install the application on a television.

In some embodiments, the function bar may present a plurality of function options according to the operator's configuration, and one default function bar may be to present the following function options: "function", "manipulation", "speech" and "recommendation". Referring to fig. 36, the function bar may also be configured to present 5 function options in a single row, or more function options in multiple rows. In some embodiments, the arrangement of the function options of the function bar is determined according to the number of function options, for example, if 6 function options need to be presented, two rows may be presented, each row presenting 3 function options; if 7 function options need to be displayed, two rows can be displayed, one row displays 3 function options, and the other row displays 4 function options; if 8 function options need to be displayed, two rows can be displayed, and each row displays 4 function options; if 9 function options need to be displayed, two rows can be displayed, one row displays 4 function options, and the other row displays 5 function options; if 10 function options need to be presented, two rows of 5 function options can be presented each.

As can be seen from the foregoing embodiments, the terminal device in the embodiments of the present application obtains the parameter information of the display device, and displays and controls the operation control of the display device according to the parameter information, so that according to different parameter information, different operation controls can be displayed, so that the operation control displayed by the terminal device can conform to the version support capability corresponding to the parameter information of the display device, thereby improving the probability of successful linkage between the terminal device and the display device, and improving the user experience.

The foregoing description, for purposes of explanation, has been presented in conjunction with specific embodiments. However, the above discussion in some examples is not intended to be exhaustive or to limit the embodiments to the precise forms disclosed above. Many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles and the practical application, to thereby enable others skilled in the art to best utilize the embodiments and various embodiments with various modifications as are suited to the particular use contemplated.

Claims (17)

1. A mobile terminal, comprising:

   the display screen is used for displaying a remote shutdown user interface;

   a first controller configured to:

   receiving an input shutdown operation;

   When the shutdown operation is delayed shutdown operation, responding to the shutdown operation, and sending a delay shutdown request instruction to a server, wherein the delay shutdown request comprises delay time, and the delay shutdown request instruction is used for enabling the server to send a shutdown execution instruction to a display device after the delay time is counted so as to control the display device to shutdown;

   when the shutdown operation is a real-time shutdown operation, responding to the shutdown operation of a user, and sending a direct shutdown request instruction to a server, wherein the direct shutdown request instruction is used for enabling the server to directly send a shutdown execution instruction to a display device so as to control the display device to shutdown.
2. The mobile terminal of claim 1, wherein in response to the shutdown operation, the first controller is further configured to, after sending a delayed shutdown request instruction to a server:

   receiving input shutdown cancellation operation;

   and responding to the shutdown canceling operation, and sending a shutdown canceling request instruction to the server, wherein the shutdown canceling request instruction is used for enabling the server to cancel the issuing of the shutdown executing instruction.
3. The mobile terminal of claim 1, the power-off operation receiving input comprising: receiving a selected operation input by a corresponding shutdown control in the remote shutdown user interface;

   The first controller responds to the delayed shutdown operation and sends a delayed shutdown request instruction containing delay time to a server, and the method comprises the following steps:

   responding to the selected operation of the remote shutdown user interface corresponding to the shutdown control input, and controlling the remote shutdown user interface to display a first shutdown control and a second shutdown control, wherein the text of the first shutdown control displays a corresponding delay time value;

   and responding to the selected operation of the user on the first shutdown control, and sending a delayed shutdown request instruction containing the corresponding delayed time to a server.
4. The mobile terminal of claim 3, the first controller to control the remote shutdown user interface to display a first shutdown control and a second shutdown control in response to a selected operation at the remote shutdown user interface corresponding to the shutdown control input, the first controller further configured to:

   and responding to the selected operation of the user on the second shutdown control, and sending a delayed shutdown request instruction which does not contain delay time or contains delay time 0 to a server.
5. The mobile terminal of claim 3, wherein the first controller is further configured to, in response to a user selection operation of the first shutdown control, after sending a delayed shutdown request instruction including a corresponding delay time to the server:

   And responding to the selection operation of the first shutdown control with the text display corresponding to the delay time value, and setting a countdown control at the adjacent position of the shutdown control to display the countdown value of the delay time.
6. The mobile terminal of claim 5, the first controller further configured to, after setting a countdown control to display a countdown value of the delay time in a vicinity of the shutdown control:

   and if the instruction for canceling the shutdown request is sent to the server, the first controller controls the remote shutdown user interface to not display the countdown value of the delay time.
7. A server, comprising: a third controller configured to:

   when a delay shutdown request instruction containing delay time sent by a mobile terminal is received, sending a shutdown execution instruction to display equipment after the delay time is counted so as to control the display equipment to shutdown;

   and when a direct shutdown request instruction sent by the mobile terminal is received, directly sending a shutdown execution instruction to the display equipment so as to control the display equipment to shutdown.
8. The server of claim 7, after receiving a delayed shutdown request instruction sent by the mobile terminal, the third controller is further configured to:

   Receiving a shutdown cancellation request instruction sent by the mobile terminal;

   and canceling to issue the shutdown execution instruction to the display equipment after the time delay time is counted.
9. The server of claim 7, wherein after receiving a delayed shutdown request instruction including a delay time sent by the mobile terminal, the third controller is further configured to:

   and sending a shutdown prompt instruction containing the delay time to the display equipment, wherein the shutdown prompt instruction is used for controlling the display equipment to display a remote shutdown prompt containing a delay time value.
10. A display device, characterized by comprising: a display; and

    a second controller configured to:

    when a shutdown execution instruction sent by a server is received, controlling the display equipment to shutdown;

    when a shutdown prompt instruction containing delay time sent by a server is received, controlling a user interface to display a remote shutdown prompt, wherein the remote shutdown prompt contains a corresponding delay time value; and after the time delay value is counted down, the second controller receives a shutdown execution instruction sent by the server to control the display equipment to shutdown.
11. A control method of remote timed shutdown, the method comprising:

    receiving an input shutdown operation;

    when the shutdown operation is delayed shutdown operation, responding to the shutdown operation, and sending a delay shutdown request instruction to a server, wherein the delay shutdown request comprises delay time, and the delay shutdown request instruction is used for enabling the server to send a shutdown execution instruction to a display device after the delay time is counted so as to control the display device to shutdown;

    when the shutdown operation is a real-time shutdown operation, responding to the shutdown operation of a user, and sending a direct shutdown request instruction to a server, wherein the direct shutdown request instruction is used for enabling the server to directly send a shutdown execution instruction to a display device so as to control the display device to shutdown.
12. The method for controlling remote timed shutdown according to claim 11, wherein after sending a delayed shutdown request command to the server in response to the shutdown operation, the method further comprises:

    receiving input shutdown cancellation operation;

    and responding to the shutdown canceling operation, and sending a shutdown canceling request instruction to the server, wherein the shutdown canceling request instruction is used for enabling the server to cancel the issuing of the shutdown executing instruction.
13. The method for controlling a remote timed shutdown according to claim 11, wherein the receiving input shutdown operation comprises: receiving a selected operation input by a corresponding shutdown control;

    responding to the delayed shutdown operation, sending a delayed shutdown request instruction containing delay time to a server, comprising:

    responding to the selected operation input by the shutdown control, displaying a first shutdown control and a second shutdown control, wherein the text of the first shutdown control displays a corresponding delay time value;

    and responding to the selected operation of the user on the first shutdown control, and sending a delayed shutdown request instruction containing the corresponding delayed time to a server.
14. A control method of remote timed shutdown, the method comprising:

    when a delay shutdown request instruction containing delay time sent by a mobile terminal is received, sending a shutdown execution instruction to display equipment after the delay time is counted so as to control the display equipment to shutdown;

    and when a direct shutdown request instruction sent by the mobile terminal is received, directly sending a shutdown execution instruction to the display equipment so as to control the display equipment to shutdown.
15. The method for controlling remote timing shutdown according to claim 14, further comprising, after receiving a delayed shutdown request command sent by the mobile terminal:

    Receiving a shutdown cancellation request instruction sent by the mobile terminal;

    and canceling to issue the shutdown execution instruction to the display equipment after the time delay time is counted.
16. The method for controlling remote timing power-off as set forth in claim 14, after receiving a delay power-off request command including a delay time sent by a mobile terminal, the method further comprising:

    and sending a shutdown prompt instruction containing the delay time to the display equipment, wherein the shutdown prompt instruction is used for controlling the display equipment to display a remote shutdown prompt containing a delay time value.
17. A control method of remote timed shutdown, the method comprising:

    when a shutdown execution instruction sent by the server is received, controlling the display equipment to shutdown;

    when a shutdown prompt instruction containing delay time sent by a server is received, displaying a remote shutdown prompt, wherein the remote shutdown prompt contains a corresponding delay time value; and after the time delay value is counted down, receiving a shutdown execution instruction sent by the server to control the display equipment to shutdown.

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