CN114664177A - Central control terminal - Google Patents

Abstract

The application relates to the technical field of the Internet of things, and provides a central control terminal, which comprises: the display device is provided with a display area and a non-display area which is arranged adjacent to the display area; an operation member provided in the non-display area; the atmosphere lamp is arranged on the operating component and/or is arranged adjacent to the operating component; and a controller electrically connected to the display device, the operation part, and the atmosphere lamp, the controller configured to perform: displaying a color setting interface through the display area, wherein the color setting interface comprises a parameter setting area; determining display parameters of the atmosphere lamp according to the operation of a user in the parameter setting area; and controlling the atmosphere lamp to emit light according to the display parameters so as to add a display form of the central control terminal, provide a visual and visible display effect for a user, add color atmosphere and interestingness of the central control terminal operated by the user, and improve the use experience of the central control terminal of the user.

Description

Central control terminal

Technical Field

The application relates to the technical field of Internet of things, in particular to a central control terminal.

Background

At present, with the rapid development of the internet of things, a user can utilize a central control terminal to realize corresponding control over target equipment. For example, indoor electric appliances in the field of smart home are controlled by using the central control terminal, and vehicle-mounted light in the field of smart cars is adjusted by using a knob or a key arranged on the central control terminal.

Generally, when a user operates the central control terminal, the display form of the central control terminal is single, and a visual and visible display effect cannot be provided for the user, so that the user does not have a color atmosphere, and the user is easily boring in the process of operating the central control terminal, thereby affecting the use experience of the central control terminal of the user.

Disclosure of Invention

The main aim at of this application provides a well accuse terminal, aims at adding the display form at well accuse terminal, provides directly perceived visual display effect for the user, adds the color atmosphere and the interest at accuse terminal in the user operation to improve user's well accuse terminal and use experience.

In a first aspect, the present application provides a central control terminal, including:

the display device is provided with a display area and a non-display area which is arranged adjacent to the display area, and the display area is used for displaying an interface;

an operation member provided in the non-display area;

an atmosphere lamp disposed on and/or adjacent to the operating member; and the number of the first and second groups,

a controller electrically connected to the display device, the operating component, and the ambience light, the controller configured to perform:

displaying a color setting interface through the display area, wherein the color setting interface comprises a parameter setting area;

determining display parameters of the atmosphere lamp according to the operation of a user in the parameter setting area; and

and controlling the atmosphere lamp to emit light according to the display parameters.

The application provides a well accuse terminal has not only increased the display form at well accuse terminal, provides directly perceived visual display effect for the user, has still further increased the color atmosphere and the interest at accuse terminal in the user operation to improve user's well accuse terminal and use experience.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic device diagram of a central control terminal according to an embodiment of the present disclosure;

fig. 2 is a schematic block diagram of a central control terminal according to an embodiment of the present application;

fig. 3 is a schematic block diagram of a controller according to an embodiment of the present application;

FIG. 4 is a schematic flow chart involved in the controller;

fig. 5 is a schematic diagram of a coordinate system of a display area according to an embodiment of the present application.

Description of reference numerals: 10. a central control terminal; 100. a display device; 110. a display area; 111. a color setting interface; 112. a parameter setting area; 1121. a color value adjustment area; 1122. a brightness adjustment area; 113. other regions; 120. a non-display area; 130. an operating member; 140. an atmosphere lamp; 150. a controller; 151. a memory; 152. a processor; 153. a system bus; 154. a network interface; 160. a housing; 161. and (4) opening.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The flow diagrams depicted in the figures are merely illustrative and do not necessarily include all of the elements and operations/steps, nor do they necessarily have to be performed in the order depicted. For example, some operations/steps may be decomposed, combined or partially combined, so that the actual execution sequence may be changed according to the actual situation.

The embodiment of the application provides a central control terminal 10. The central control terminal 10 may include a central control screen, a mobile phone, a tablet computer, a notebook computer, a desktop computer, and the like. The central control terminal 10 can be applied to the fields of multiple internet of things, such as the field of smart homes, the field of smart automobiles or other fields. In some embodiments, the central control terminal 10 is an intelligent home central control screen, which can be hung on an indoor wall, or placed on a desktop, so as to display data interfaces and control interfaces of multiple indoor intelligent homes, thereby facilitating a user to control an indoor intelligent home and perform data interaction with the intelligent home. In other embodiments, the central control terminal 10 is a vehicle-mounted central control screen, which can be disposed on an automobile console for displaying a data interface and a control interface of a plurality of electrical appliances in a vehicle, so as to facilitate a user to control and interact data with the electrical appliances in the vehicle.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Referring to fig. 1, fig. 1 is a schematic device diagram of a central control terminal 10 according to an embodiment of the present disclosure.

Referring to fig. 2, fig. 2 is a schematic block diagram of a central control terminal 10 according to an embodiment of the present application.

In this application, the central control terminal 10 is used as a central control screen of an intelligent home for explanation, and as shown in fig. 1 and fig. 2, the central control terminal 10 includes: the display device 100, the display device 100 is provided with a display area 110 and a non-display area 120 arranged adjacent to the display area 110, the display area 110 is used for displaying an interface; an operation member 130, the operation member 130 being provided in the non-display area 120; an atmosphere lamp 140, the atmosphere lamp 140 being disposed on the operating member 130 and/or being disposed adjacent to the operating member 130; and a controller 150, the controller 150 being electrically connected to the display device 100, the operation part 130, and the atmosphere lamp 140, the controller 150 being configured to perform a control method.

Referring to fig. 3, fig. 3 is a schematic block diagram of a controller 150 according to an embodiment of the present application.

As shown in fig. 3, the controller 150 includes at least a memory 151, a processor 152, and a network interface 154 connected by a system bus 153.

It should be understood that the Processor 152 may be a Central Processing Unit (CPU), and the Processor 152 may also be other general purpose processors, Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other variable logic devices, discrete Gate or transistor logic devices, discrete hardware components, etc. Wherein a general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The memory 151 stores therein various computer programs such as an operating system and an application program to be executed by the processor 152, and data necessary for executing the computer programs. In the control process of the central control terminal 10, data stored locally may be stored in the memory 151 if necessary.

The network interface 154 may be any interface of any currently known network protocol, the network interface 154 communicates with the outside through a network, and the controller 150 may transmit data with any device connected through the network interface 154 in a preset network protocol.

It will be understood by those skilled in the art that the configuration shown in fig. 3 is a block diagram of only a portion of the configuration associated with the present application, and does not constitute a limitation on the controller 150 to which the present application is applied, and that a particular controller 150 may include more or fewer components than shown, or combine certain components, or have a different arrangement of components.

Referring to fig. 4, fig. 4 is a flowchart related to the controller 150.

As shown in fig. 4, the controller 150 is configured to perform:

step S101, displaying a color setting interface 111 through the display area 110, where the color setting interface 111 includes a parameter setting area 112.

In some embodiments, the interface displayed by the display area 110 may include at least one of a color setting interface 111, a shade setting interface, a socket setting interface, a light switch setting interface, an air conditioner setting interface, a sensor interface, or other interface. It is understood that the position of each interface displayed in the display area 110 may be set by default in the system, or may be adjusted by the user, which is not limited herein.

In some embodiments, the color setting interface 111 may include a parameter setting region 112 and other regions 113. Optionally, for the purpose of interface content reduction, aesthetics, coordination, or other purposes, relevant personnel may perform division and layout of the corresponding regions when designing the color setting interface 111. It will be appreciated that different regions correspond to different operational and/or display events. In the present embodiment, the parameter setting area 112 is a setting interface for displaying the display parameters of the ambience lamp 140, so as to be used for setting the display parameters of the ambience lamp 140 through the user's operation of the parameter setting area 112; the other area 113 may include a text display area for displaying text information to prompt the user of the function of the corresponding parameter setting area 112, and further, the other area 113 may further include a blank area to implement an attractive layout of the interface or separate a plurality of parameter setting areas 112. Illustratively, the user can also control the entire interface displayed in the display area 110 to move by operating the other area 113. For example, the interfaces displayed by the display area 110 include a curtain setting interface, a lamp switch setting interface, a color setting interface 111, and an air conditioner setting interface, and the interfaces are sequentially arranged from left to right, and due to the limitation of the size of the display area 110, the air conditioner setting interface cannot completely appear in the display area 110, and then a user can control the overall movement of the interfaces through the operation in the other area 113, so that the air conditioner setting interface can completely appear, for example, the user performs a leftward sliding operation on the other area 113, and correspondingly, the controller 150 controls the overall movement of the interfaces to the left.

In step S102, the display parameters of the atmosphere lamp 140 are determined according to the operation of the user in the parameter setting area 112.

In some embodiments, the display device 100 further includes a touch screen, which may be used by a user to operate the interface displayed by the display area 110. Alternatively, the user may perform a corresponding operation on the parameter setting area 112 by performing a point touch operation or a sliding operation on the touch screen of the display device 100, thereby determining the display parameters of the ambience lamp 140.

In some embodiments, the central control terminal 10 further includes an input device, which can be used by a user to operate the interface displayed in the display area 110. Illustratively, the input device includes at least one of: mouse, several board, touch-control pen. Alternatively, the user may perform a corresponding operation on the parameter setting area 112 by performing a click operation or a long-press and moving operation on the input device, so as to determine the display parameters of the atmosphere lamp 140.

Alternatively, when the user performs an operation in the color setting interface 111, it is necessary to determine whether or not the operation items of the user are valid and the operation items of the user according to the area related to the operation of the user and/or the operation of the user. Illustratively, the area involved in the user's operation may include a parameter setting area 112 and/or other area 113.

In some embodiments, if the area operated by the user on the color setting interface 111 is the parameter setting area 112, the controller 150 determines that the operation item is valid, and confirms that the operation item corresponding to the operation of the user is setting the display parameters of the atmosphere lamp 140 on the central control terminal 10.

In some embodiments, if the area operated by the user on the color setting interface 111 is the other area 113, the controller 150 further determines whether the operation item is valid through the operation of the user on the other area 113, for example, if the operation of the user on the other area 113 is a sliding operation or a long-press and moving operation, the controller 150 determines that the operation item is valid, and confirms that the operation item corresponding to the operation of the user is moving of the entire interface displayed in the control display area 110; if the user's operation in the other area 113 is a click operation or a click operation, the controller 150 determines that the operation item is invalid, and the operation item is to be handled as an invalid event.

In some embodiments, if the region in which the user operates on the color setting interface 111 includes the parameter setting region 112 and the other region 113, the controller 150 determines that the operation event section of the user is valid. Illustratively, the user slides or presses and moves the corresponding path to pass through the parameter setting area 112 and the other area 113, and the controller 150, for example, determines whether the initial position of the user operating on the color setting interface 111 is located in the parameter setting area 112, if so, determines that the operation item corresponding to the user operating on the parameter setting area 112 is valid and the operation item corresponding to the user operating on the other area 113 is invalid, and confirms the operation item corresponding to the user operating on the parameter setting area 112 in this operation as setting the display parameter of the atmosphere lamp 140 on the center control terminal 10; if not, the operation items corresponding to the user's operation in the parameter setting area 112 are judged to be invalid, and the operation items corresponding to the user's operation in the other area 113 are judged to be valid, and it is confirmed that the operation items corresponding to the user's operation in the other area 113 in this operation move for the entire interface displayed in the control display area 110.

Further, the controller 150, when performing the determination of the display parameter of the ambience lamp 140 according to the operation of the user in the parameter setting region 112, is configured to perform: acquiring a target position operated by a user on the parameter setting area 112; the display parameters of the ambience lamp 140 are determined based on the pre-stored correspondence of the target position to the display parameters.

In some embodiments, if a user performs a touch operation or a click operation on the color setting interface 111, and a position corresponding to the touch operation or the click operation of the user is within the parameter setting area 112, a target position corresponding to the touch operation or the click operation on the parameter setting area 112 may be determined; at this time, the controller 150 will acquire the target position operated by the user.

In some embodiments, if the user performs a sliding operation or a long-press and moving operation on the color setting interface 111, and a position corresponding to the sliding operation or the long-press and moving operation of the user is partially or completely within the parameter setting area 112, a corresponding target position of the sliding operation or the long-press and moving operation on the parameter setting area 112 may be determined; at this time, the controller 150 acquires the target position operated by the user.

In some embodiments, the memory 151 in the controller 150 stores a corresponding relationship between the target position and the display parameter in advance; wherein, each target position corresponds to a display parameter.

For example, the target position in the pre-stored correspondence relationship between the target position and the display parameter may have a certain dynamic range, for example, the dynamic range of the target position corresponds to a position change of the user moving the entire interface displayed in the display area 110. For example, based on the position of the interface displayed in the display area 110 set by the default of the system, when the interface displayed in the display area 110 operated by the user moves a certain distance to the left as a whole, if the interface displayed in the display area 110 includes the color setting interface 111, the color setting interface 111 also moves the same distance to the left correspondingly, so that the parameter setting area 112 also moves the same distance to the left correspondingly, and if the same display parameter needs to be determined on the parameter setting area 112, the target position corresponding to the same display parameter needs to be determined according to the position of the parameter setting area 112 set by the default of the system minus the distance that the parameter setting area 112 moves to the left.

For example, if the user adjusts the position of the color setting interface 111 in the display area 110, the controller 150 updates and stores the corresponding relationship between the target position and the display parameter according to the adjusted position of the color setting interface 111. It can be understood that the updated and stored correspondence between the target position and the display parameter is equivalent to the correspondence between the target position and the display parameter stored in advance.

For more details about the corresponding relationship between the target position and the display parameter pre-stored in the memory 151 of the controller 150, please refer to the discussion about fig. 5, which will not be repeated herein.

Alternatively, the controller 150, when performing acquiring the target position operated by the user on the parameter setting area 112, is configured to perform: each current position operated by the user on the parameter setting area 112 is acquired within a preset period, and each current position is determined as a target position.

Alternatively, the controller 150, when performing acquiring the target position operated by the user on the parameter setting area 112, is configured to perform: in a preset period, the end position of the user operation on the parameter setting area 112 is acquired, and the end position is determined as the target position.

For example, the preset period may be set to a time corresponding to a single operation of the color setting interface 111 by the user. For example, when the user touches or presses the touch screen of the central control terminal 10, the controller 150 starts to receive a touch or press signal, and further determines whether the position where the user touches or presses the touch screen of the central control terminal 10 is in the color setting interface 111, if so, it is equivalent to that the controller 150 detects the operation of the user on the color setting interface 111, and determines that the operation starts; when the user stops touching or pressing the touch screen of the central control terminal 10, the controller 150 fails to receive the touch or press signal within a preset time, which is equivalent to the fact that the controller 150 fails to detect the operation of the user on the color setting interface 111, and determines that the operation is finished. It is understood that the predetermined period corresponds to a time from the beginning of the operation to the end of the operation.

In some embodiments, each current position of the user operating on the parameter setting area 112 is obtained within a preset period, for example, each current position of the user operating on the parameter setting area 112 is determined at a preset sampling frequency, and each current position is determined as a target position, and the display parameters of the ambience lamp 140 are determined based on a pre-stored correspondence relationship between the target position and the display parameters. It can be understood that, the higher the preset sampling frequency is, the higher the real-time performance of obtaining the target position operated by the user on the parameter setting area 112 is, the higher the real-time performance of determining the display parameter of the atmosphere lamp 140 is, which is equivalent to controlling the atmosphere lamp 140 to emit light according to the change of the display parameter in real time, thereby adding the display form of the central control terminal 10, providing a visual and visual display effect for the user, adding the color atmosphere and interest of the user operating the central control terminal 10, and further improving the use experience of the central control terminal 10 of the user.

For example, if the user performs a touch operation or a click operation on the parameter setting area 112 within a preset period, the controller 150 obtains each current position corresponding to the touch operation or the click operation of the user, determines each current position as a target position, and determines each display parameter of the ambience lamp 140 based on a pre-stored correspondence between the target position and the display parameter.

For example, if the user performs a sliding operation or a long-press and moving operation in the color setting interface 111 within a preset period, and a path corresponding to the sliding operation or the long-press and moving operation passes through the parameter setting area 112 and/or the other area 113, for example, the controller 150 determines whether an initial position of the user performing the operation on the color setting interface 111 is located in the parameter setting area 112, if so, obtains each current position of the user performing the operation on the parameter setting area 112, determines each current position as a target position, and determines each display parameter of the ambience lamp 140 based on a pre-stored corresponding relationship between the target position and the display parameter; if not, the entire control interface is moved according to the operation of the user on the other area 113.

It is understood that the higher the real-time property of determining the display parameters of the atmosphere lamp 140, the higher the power cost, and in order to save the power cost, it is also possible to determine only the end position of the user's operation on the parameter setting area 112 and determine the end position as the target position.

In some embodiments, within a preset period, the end position of the user operation on the parameter setting area 112 is obtained, and the end position is determined as the target position, and the display parameter of the ambience lamp 140 is determined based on the pre-stored correspondence between the target position and the display parameter.

For example, if the user performs a sliding operation or a long-press and moving operation in the color setting interface 111 within a preset period, and a path corresponding to the sliding operation or the long-press and moving operation passes through the parameter setting area 112 and/or the other area 113, for example, the controller 150 determines whether a starting position of the user performing the operation on the color setting interface 111 is in the parameter setting area 112, if so, obtains an ending position of the user performing the operation on the parameter setting area 112, determines the ending position as a target position, and determines the display parameter of the ambience lamp 140 based on a pre-stored corresponding relationship between the target position and the display parameter; if not, the entire control interface is moved according to the operation of the user on the other area 113.

Optionally, the controller 150 may be further configured to perform storing the display parameters of the ambience lamp 140 determined within the preset period in the determined order of the display parameters.

In some embodiments, when the end of the user operation is detected, the ambience lamp 140 may be controlled to continue to emit light according to the stored display parameters of the ambience lamp 140 for a preset light emission time.

For example, if the user operation on the color setting interface 111 is detected again within the preset lighting time, the controller 150 obtains the target position of the user operation on the parameter setting area 112, determines the display parameters of the ambience lamp 140 based on the pre-stored preset corresponding relationship between the target position and the display parameters, and updates the stored display parameters of the ambience lamp 140.

It can be understood that, within the preset light-emitting time, the atmosphere lamp 140 continues to be controlled to emit light according to the stored display parameters of the atmosphere lamp 140, which is beneficial to adding the display form of the central control terminal 10, providing a visual and visual display effect for the user, adding the color atmosphere and interest of the central control terminal 10 in the user operation, and thus improving the use experience of the central control terminal 10 of the user.

In some embodiments, the working mode of the central control terminal 10 includes a first working mode and a second working mode, if the working mode of the central control terminal 10 is the first working mode, in a preset period, each current position operated by the user on the parameter setting area 112 is obtained, and each current position is determined as a target position, and based on a pre-stored correspondence between the target position and the display parameter, the display parameter of the atmosphere lamp 140 is determined, and the first working mode may also be referred to as a standard working mode; if the operating mode of the central control terminal 10 is the second operating mode, the ending position of the user operation on the parameter setting area 112 is obtained within the preset period, the ending position is determined as the target position, and the display parameter of the atmosphere lamp 140 is determined based on the corresponding relationship between the pre-stored target position and the display parameter, where the second operating mode may also be referred to as an energy saving operating mode.

It is understood that the operation mode of the central control terminal 10 can be switched. The controller 150 is further configured to perform the switching step of the operation mode of the center control terminal 10.

In some embodiments, the controller 150 is configured to perform: acquiring at least one of a working mode setting instruction, electric quantity of the central control terminal and ambient brightness of an environment where the central control terminal 10 is located; when at least one of the following conditions is satisfied, switching the operating mode of the central control terminal 10 to a first operating mode: the obtained working mode setting instruction is used for indicating that the working mode of the central control terminal 10 is a first working mode, the electric quantity of the central control terminal 10 is larger than the preset electric quantity, and the ambient brightness of the environment where the central control terminal 10 is located is smaller than the preset ambient brightness; when at least one of the following conditions is met, switching the operating mode of the central control terminal 10 to a second operating mode: the obtained working mode setting instruction is used for indicating that the working mode of the central control terminal 10 is the second working mode, the electric quantity of the central control terminal 10 is smaller than or equal to the preset electric quantity, and the ambient brightness of the environment where the central control terminal 10 is located is larger than or equal to the preset ambient brightness.

For example, the priority for switching the operation modes of the central control terminal 10 may be set according to the operation mode setting instruction, the power of the central control terminal 10, and the brightness of the environment in which the central control terminal 10 is located. It is understood that the priority level may be set by default in the system, or may be set by the user, which is not limited herein.

For example, if the priority of the setting instruction of the working mode is greater than the priority of the electric quantity of the central control terminal 10 and the priority of the ambient brightness of the environment where the central control terminal 10 is located, the working mode of the central control terminal 10 is preferentially switched according to the obtained setting instruction of the working mode. For example, priority between the power of the central control terminal 10 and the brightness of the environment in which the central control terminal 10 is located may be set. For example, for a central control terminal 10 in a charging state for a long time, for example, an in-vehicle central control terminal, the priority of the ambient brightness of the environment where the central control terminal 10 is located is set to be greater than the priority of the electric quantity of the central control terminal 10, and when the central control terminal 10 does not acquire the operation mode setting instruction, the operation mode of the central control terminal 10 is preferentially switched according to the ambient brightness where the central control terminal 10 is located. For another example, for the central control terminal 10 which is not in the charging state, the priority of the electric quantity of the central control terminal 10 is set to be higher than the priority of the environmental brightness of the environment where the central control terminal 10 is located, and when the central control terminal 10 does not acquire the operation mode setting instruction, the operation mode of the central control terminal 10 is preferentially switched according to the electric quantity of the central control terminal 10.

It is understood that the controller 150 is configured to execute the switching of the operation mode of the central control terminal 10 according to at least one of the operation mode setting instruction, the power of the central control terminal 10, and the brightness of the environment in which the central control terminal 10 is located, so as to improve the intelligence degree of the central control terminal 10, and thus to better adapt to the requirement of the user on using the central control terminal 10.

Still further, the target position may be a coordinate point corresponding to when the user operates the parameter setting area 112, for example, the controller 150 is further configured to perform: a coordinate system of the display interface of the display area 110 is established, and a corresponding relationship between the coordinates in the coordinate range corresponding to the parameter setting area 112 and the display parameters is established and stored, and if the coordinates corresponding to the operation of the user on the interface are in the coordinate range corresponding to the parameter setting area 112, the display parameters of the atmosphere lamp 140 can be determined according to the corresponding relationship between the coordinates and the display parameters.

Similarly, a coordinate system of the color setting interface 111 or the parameter setting area 112 may also be established, and a corresponding relationship between the coordinates in the coordinate system of the parameter setting area 112 and the display parameters may be established and stored, so as to determine the display parameters of the ambience lamp 140.

In some embodiments, different types of display parameters correspond to target locations on one parameter setting area 112, e.g., a display parameter corresponding to one target location on the parameter setting area 112 includes a color value and a brightness.

In some embodiments, one display parameter corresponds to a target location on one parameter setting area 112. For example, the parameter setting region 112 includes a color value adjustment region 1121 and/or a luminance adjustment region 1122. For example, the color value of the ambience lamp 140 is determined according to the target position on the color value adjustment region 1121, and/or the luminance of the ambience lamp 140 is determined according to the target position on the luminance adjustment region 1122.

For example, the color value adjusting region 1121 may include at least one of a circular color value adjusting region, a rectangular color value adjusting region, or a strip color value adjusting region. A plurality of different colors are provided in the color value adjustment region 1121, each color corresponds to a target position, and the controller 150 determines the color value of the atmosphere lamp 140 according to the color of the target position on the color value adjustment region 1121. Therefore, the user can visually see all the colors in the color value adjustment region 1121, and select a favorite or desired color for application to the atmosphere lamp, thereby providing a visual and visual use experience for the user when selecting the color. The brightness adjustment region 1122 may include a bar-shaped brightness adjustment region.

In some embodiments, if the target position on the parameter setting region 112 is within the range corresponding to the color value adjustment region 1121, the color value of the atmosphere lamp 140 may be determined according to the color of the target position on the color value adjustment region 1121; if the target position on the parameter setting region 112 is within the range corresponding to the brightness adjustment region 1122, the brightness of the atmosphere lamp 140 may be determined according to the target position on the brightness adjustment region 1122.

Referring to fig. 5, fig. 5 is a schematic diagram of a coordinate system of a display area according to an embodiment of the present application.

As shown in fig. 5, an X-Y axis coordinate system is established with the display area 110, a coordinate range corresponding to the color value adjustment region 1121 in the user interface is determined, and a correspondence relationship between coordinates in the coordinate range corresponding to the color value adjustment region 1121 and RGB color values is established. Wherein R, G, B has 0-254 for each color, 255 levels are adjustable, and different levels can be changed by different levels of R, G, B. In this embodiment, the color value adjusting region 1121 is a circular palette, and the point a, the point B, and the point C are located in the coordinate range corresponding to the palette. The coordinate of the point A is (10, 9), and the RGB color value corresponding to the point A is determined to be (192, 120, 65) based on the corresponding relation between the coordinate and the color value; the coordinate of the point B is (15, 9), and the RGB color value corresponding to the point B is determined to be (243, 233, 211) based on the corresponding relation between the coordinate and the color value; the coordinate of the point C is (18, 12), the RGB color value corresponding to the point C is determined to be (23, 231, 45) based on the correspondence between the coordinate and the color value, and so on.

As shown in fig. 5, an X-Y axis coordinate system is established with the display area 110, a coordinate range corresponding to the brightness adjustment region 1122 in the color setting interface 111 is determined, and a correspondence relationship between coordinates in the coordinate range corresponding to the brightness bars of the brightness adjustment region 1122 and the brightness is established. In this embodiment, the brightness adjustment region 1122 is an elongated brightness bar, the point D is located in the coordinate range corresponding to the brightness bar, the coordinate of the point D is (14, 4), the brightness corresponding to the point D is determined to be 33 based on the corresponding relationship between the coordinate and the brightness, and so on.

Step S103, controlling the atmosphere lamp 140 to emit light according to the display parameters.

In some embodiments, the ambience lamp 140 may be controlled to emit light in real time in response to changes in the display parameters. For example, when the operation mode of the central control terminal 10 is the first operation mode, and the user performs a sliding operation or a long-press and move operation on the parameter setting area 112, the atmosphere lamp 140 is controlled to emit light in real time in response to a change in the display parameter. Illustratively, the lighting manner of the atmosphere lamps 140 may also be set, for example, the plurality of atmosphere lamps 140 may be controlled to be turned on in the order of change of the display parameters, or the plurality of atmosphere lamps 140 may be controlled to be flashed in the form of a water lamp in the order of change of the display parameters.

In some embodiments, the ambience lamp 140 may be controlled to emit light in real time according to the determined display parameters. For example, when the operation mode of the central control terminal 10 is the first operation mode and the user performs a touch operation or a click operation on the parameter setting region 112, or when the operation mode of the central control terminal 10 is the second operation mode and the user performs an operation on the parameter setting region 112, the ambience lamp 140 is controlled to emit light in real time in response to the determined display parameter. Illustratively, the lighting mode of the atmosphere lamps 140 may also be set, for example, the plurality of atmosphere lamps 140 are controlled to be normally on according to the display parameters; alternatively, the plurality of atmosphere lamps 140 are controlled to flash at a preset flash frequency according to the display parameters; alternatively, the plurality of atmosphere lamps 140 are controlled to blink in the form of a water lamp according to the display parameters.

Illustratively, the display parameters may include color values and/or brightness.

In some embodiments, the atmosphere lamp 140 includes at least one LED lamp, and each LED lamp is composed of beads of three colors of red, green, and blue, and if the display parameter includes a color value, the proportion of the beads of the three colors of red, green, and blue of the atmosphere lamp 140 may be adjusted according to the color value, so as to control the atmosphere lamp 140 to present different colors.

In some embodiments, if the display parameters include the brightness of the atmosphere lamp 140, the brightness of the atmosphere lamp 140 is adjusted according to the brightness.

Optionally, the controller 150 is further configured to perform: storing the display parameters; in response to the user's operation of the operation section 130, the atmosphere lamp 140 is controlled to emit light in accordance with the stored display parameters. For example, the atmosphere lamp 140 is controlled to emit light in the stored display parameters and in the order of the stored display parameters.

In some embodiments, the control content of the operation unit 130 of the central control terminal 10 can be defined by itself, and is not limited herein.

For example, if the operation member 130 of the center control terminal 10 is a knob, the knob may be configured to control the interface displayed in the display area 110, for example, when the knob is rotated counterclockwise, the interface displayed in the display area 110 is controlled to slide leftward, and when the knob is rotated clockwise, the interface displayed in the display area 110 is controlled to slide rightward.

In general, the operation of the operation section 130 by the user is tedious and has no color atmosphere, and therefore, the display parameters may be stored, and the atmosphere lamp 140 may be controlled to emit light according to the stored display parameters in response to the operation of the operation section 130 by the user. It can be understood that the light emitting manner of the atmosphere lamp 140 may also be controlled, for example, when the knob is rotated counterclockwise, the atmosphere lamp 140 may be controlled to blink in a counterclockwise water lamp manner according to the stored display parameters and the sequence of the stored display parameters, and when the knob is rotated clockwise, the atmosphere lamp 140 may blink in a clockwise water lamp manner according to the stored display parameters and the sequence of the stored display parameters, so as to add the color atmosphere and interest of the user operating the central control terminal 10, and thus improve the user experience of the central control terminal 10.

In some embodiments, the controller 150 is further configured to perform: and controlling the target lamp to emit light according to the display parameters, wherein the target lamp is in communication connection with the central control terminal 10.

It is understood that the manner of controlling the target lamp to emit light may refer to the manner of controlling the atmosphere lamp 140 to emit light, and will not be described herein again.

In general, when the user uses the central control terminal 10 to control the lighting, if the user and the lighting controlled by the central control terminal 10 are located in different places, the display effect of the lighting is not intuitive and visible, and it is inconvenient for the user to select the appropriate lighting.

For example, when the central control terminal 10 is applied to the field of smart homes, the central control terminal 10 may be used to control the light color values and the brightness of a plurality of rooms such as a bedroom, a living room, and a bathroom, and if the central control terminal 10 is not provided with the atmosphere lamp 140, the user needs to walk according to the difference of the controlled rooms when selecting the light color values and the brightness, so that the control efficiency of the central control terminal 10 is reduced. By arranging the atmosphere lamp 140 on the central control terminal 10, when the user operates the central control terminal 10, the user can visually observe the display effect of the target lamp according to the atmosphere lamp 140, so that the user can select proper light conveniently, and the use experience of the central control terminal 10 of the user is improved.

Optionally, the central control terminal 10 further includes a housing 160, and the housing 160 is integrally disposed with or detachably connected to the display device 100.

In some embodiments, an opening 161 is provided at one side of the housing 160, and the cross-sectional size of the opening 161 is adapted to the cross-sectional size of the display device 100. For example, the display device 100 may be fixedly disposed at the opening 161 so as to be integrally disposed with the housing 160. Illustratively, a detachable structure adapted to the display device 100 is disposed at the opening 161 of the housing 160, and the display device 100 can be detachably connected to the housing 160 through the detachable structure at the opening 161; since the detachable structure is implemented by using the existing connection manner between the display screen and the housing 160 in the existing electronic device, such as a snap connection manner, an adhesive connection manner, etc., the details are not repeated herein.

Optionally, the housing 160 and the display device 100 form an accommodating space (not shown) for accommodating at least one of the atmosphere lamp 140 and the controller 150.

Optionally, the operation member 130 is protruded from the non-display area 120, and a shaft (not shown) is further disposed at an end of the operation member 130 close to the non-display area 120, passes through the non-display area 120 and the accommodating space, and is movably or fixedly disposed on the housing 160.

In some embodiments, the operating component 130 includes at least one of: knob, button.

In some embodiments, the ambience lamp 140 is received in a receiving space corresponding to the non-display area 120 and is disposed adjacent to the operating member 130. The atmosphere lamp 140 includes at least one LED lamp, and each LED lamp is composed of beads of three colors, red, green, and blue. Illustratively, the non-display area 120 is correspondingly provided with a light-transmitting portion at the atmosphere lamp 140, and the light-transmitting portion is formed with a plurality of through holes, for example, and when the atmosphere lamp 140 emits light, the corresponding lamp light can transmit through the through holes, and a state of scattering the lamp light is exhibited around the operation member 130. For example, the plurality of through holes correspond to one or more atmosphere lamps 140, for example, the plurality of through holes correspond to the plurality of atmosphere lamps 140 one-to-one, but is not limited thereto. In the present embodiment, as shown in fig. 1, the atmosphere lamp 140 includes 8 LED lamps and is uniformly disposed around the operation member 130. Specifically, the 8 LED lamps are arranged in the accommodating space at intervals, and form a circular ring shape to surround the corresponding lower position of the operating member 130; meanwhile, 8 through holes are formed in the light-transmitting portion of the non-display area 120, and the 8 through holes are arranged corresponding to the 8 LED lamps. In other embodiments, an ambience lamp 140 is disposed on the non-display region 120 adjacent to the operating member 130, the ambience lamp 140 including at least one LED lamp. Illustratively, the atmosphere lamp 140 includes at least two LED lamps, and is uniformly disposed around the operating member 130; specifically, the at least two atmosphere lamps 140 are embedded on the non-display area 120 and arranged to form a ring shape to surround the operating member 130.

It is to be understood that the terminology used in the description of the present application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the specification of the present application and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should also be understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items. It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present application are merely for description and do not represent the merits of the embodiments. While the invention has been described with reference to specific embodiments, the scope of the invention is not limited thereto, and those skilled in the art can easily conceive various equivalent modifications or substitutions within the technical scope of the invention. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A central control terminal is characterized by comprising:

the display device is provided with a display area and a non-display area which is arranged adjacent to the display area, and the display area is used for displaying an interface;

an operation member provided in the non-display area;

an atmosphere lamp disposed on and/or adjacent to the operating member; and the number of the first and second groups,

a controller electrically connected to the display device, the operating component, and the ambient light, the controller configured to perform:

displaying a color setting interface through the display area, wherein the color setting interface comprises a parameter setting area;

determining display parameters of the atmosphere lamp according to the operation of a user in the parameter setting area; and

and controlling the atmosphere lamp to emit light according to the display parameters.

2. The central control terminal according to claim 1, wherein the controller, when performing the determining of the display parameter of the ambience lamp according to the operation of the user in the parameter setting area, is configured to perform:

acquiring a target position operated by a user on the parameter setting area;

and determining the display parameters of the atmosphere lamp based on the corresponding relation between the target position and the display parameters stored in advance.

3. The central control terminal according to claim 2, wherein the controller, when executing the obtaining of the target position operated by the user on the parameter setting area, is configured to execute:

and in a preset period, acquiring each current position operated by a user on the parameter setting area, and determining each current position as the target position.

4. The central control terminal according to claim 2, wherein the controller, when executing the obtaining of the target position operated by the user on the parameter setting area, is configured to execute:

and in a preset period, acquiring the end position of the operation of the user on the parameter setting area, and determining the end position as the target position.

5. The central control terminal according to claim 1, wherein the parameter setting area comprises a color value adjusting area, and a plurality of different colors are provided in the color value adjusting area, and each color corresponds to a target position.

6. The central control terminal according to claim 1, wherein the controller is further configured to perform:

acquiring at least one of a working mode setting instruction, electric quantity of a central control terminal and ambient brightness of an environment where the central control terminal is located;

when at least one of the following conditions is met, switching the working mode of the central control terminal into a first working mode: the acquired working mode setting instruction is used for indicating that the working mode of the central control terminal is a first working mode, the electric quantity of the central control terminal is greater than the preset electric quantity, and the ambient brightness of the environment where the central control terminal is located is less than the preset ambient brightness;

when at least one of the following conditions is met, switching the working mode of the central control terminal into a second working mode: the obtained working mode setting instruction is used for indicating that the working mode of the central control terminal is a second working mode, the electric quantity of the central control terminal is smaller than or equal to the preset electric quantity, and the ambient brightness of the environment where the central control terminal is located is larger than or equal to the preset ambient brightness.

7. The central control terminal according to any one of claims 1 to 6, wherein the operating member is convexly disposed in the non-display region, and the atmosphere lamp comprises at least two LED lamps, which are embedded in the non-display region and are spaced apart from each other to surround the operating member.

8. The central control terminal according to any one of claims 1 to 6, further comprising a housing integrally disposed with or detachably connected to the display device.

9. The central control terminal as claimed in claim 8, wherein the housing and the display device form a receiving space for receiving at least one of the atmosphere lamp and the controller.

10. The central control terminal according to claim 9, wherein the atmosphere lamp comprises at least two LED lamps, and the at least two LED lamps are arranged in the accommodating space at intervals and surround the corresponding positions of the operating components.

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