CN108519902A - Interface position adjusting method and device of interactive intelligent equipment - Google Patents

Abstract

The embodiment of the invention discloses a method and a device for adjusting the interface position of an interactive intelligent device. The method includes: receiving at least two touch trajectories, the starting points of the touch trajectories are respectively located in different target display areas, and the different target display areas are used to display different interactive interfaces; moving the interactive interface where the starting points are located, The moving direction of the interactive interface matches the relative generation direction of the touch track; the moved interactive interface is displayed, and the interactive interface is displayed in the target display area pointed to by the corresponding touch track. Through the technical solution of the present invention, the efficiency of position adjustment can be improved, the user operation process can be simplified, and the user experience can be improved.

Description

Interface position adjustment method and device for interactive intelligent equipment

technical field

The invention relates to terminal interaction technology, in particular to a method and device for adjusting the interface position of an interactive smart device.

Background technique

With the gradual popularization of touch screens, people have higher and higher requirements for touch screen interactive experience.

In the prior art, when switching the positions of split-screen A and split-screen B displayed on the screen, it is first necessary to long-press split-screen A to trigger a drag operation, and then drag split-screen A to the position of split-screen B , when the dragging distance is large enough, it is judged that split screen A and split screen B meet the position exchange condition, and then the position exchange between split screen A and split screen B is completed.

This method of changing the positional relationship of the layout by dragging not only takes a long time to operate, but also requires dragging a long distance to trigger the position adjustment operation when the display screen is large. In addition, because this dragging method only The position exchange between two layouts can be performed. When the position exchange between multiple layouts is involved, the operation process is cumbersome and reduces the user experience.

Contents of the invention

Embodiments of the present invention provide a method and device for adjusting the interface position of an interactive smart device, so as to improve the efficiency of position adjustment, simplify the user operation process, and improve user experience.

In a first aspect, an embodiment of the present invention provides a method for adjusting an interface position of an interactive smart device, including:

Receiving at least two touch trajectories, the starting points of the touch trajectories are respectively located in different target display areas, and the different target display areas are used to display different interactive interfaces;

moving the interactive interface where the starting point is located, the moving direction of the interactive interface matches the relative generation direction of the touch track;

The moved interactive interface is displayed, and the interactive interface is displayed in the target display area pointed to by the corresponding touch track.

In the second aspect, the embodiment of the present invention also provides an interface position adjustment device of an interactive smart device, the device comprising:

A trajectory receiving module, configured to receive at least two touch trajectories, the starting points of the touch trajectories are respectively located in different target display areas, and the different target display areas are used to display different interactive interfaces;

An interface moving module, configured to move the interactive interface where the starting point is located, the moving direction of the interactive interface matches the relative generation direction of the touch track;

The interface display module is configured to display the moved interactive interface, and the interactive interface is displayed on the target display area pointed to by the corresponding touch track.

In the third aspect, the embodiment of the present invention also provides an interactive intelligent device, which includes:

one or more processors;

memory for storing one or more programs;

When the one or more programs are executed by the one or more processors, the one or more processors implement the method for adjusting the interface position of an interactive smart device as described in any one of the embodiments of the present invention.

In the fourth aspect, the embodiment of the present invention also provides a computer-readable storage medium, on which a computer program is stored, and when the program is executed by a processor, the interface of the interactive intelligent device as described in any one of the embodiments of the present invention is realized. Position adjustment method.

According to the received at least two touch trajectories, the embodiment of the present invention moves the interactive interface where the starting point of each touch trajectory is located to the target display areas respectively pointed to by the touch trajectories, and displays the moved interactive interface in each target display area , taking advantage of the advantages of using touch gestures to adjust the position of the interface, it solves the problems of long operation time and cumbersome operation process caused by changing the arrangement position relationship of icons in the prior art, and realizes the improvement of position adjustment efficiency and simplification. The user operation process improves the effect of user experience.

Description of drawings

Fig. 1a is a schematic flowchart of a method for adjusting the interface position of an interactive smart device according to Embodiment 1 of the present invention;

Fig. 1b is a schematic diagram of a position arrangement method of a display area provided by Embodiment 1 of the present invention;

Fig. 2a is a schematic flowchart of a method for adjusting the interface position of an interactive smart device according to Embodiment 2 of the present invention;

Fig. 2b is a schematic diagram of position exchange of an interactive interface provided by Embodiment 2 of the present invention;

Fig. 3a is a schematic flowchart of a method for adjusting the interface position of an interactive smart device according to Embodiment 3 of the present invention;

Fig. 3b is a schematic diagram of a clockwise exchange of the position of the interactive interface provided by Embodiment 3 of the present invention;

Fig. 3c is a schematic diagram of counterclockwise exchange of the position of the interactive interface provided by Embodiment 3 of the present invention;

FIG. 4 is a schematic structural diagram of an interface position adjustment device of an interactive smart device according to Embodiment 4 of the present invention;

Fig. 5 is a schematic structural diagram of an interactive smart device provided by Embodiment 5 of the present invention.

Detailed ways

The present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the present invention, but not to limit the present invention. In addition, it should be noted that, for the convenience of description, only some structures related to the present invention are shown in the drawings but not all structures.

Embodiment one

Fig. 1a is a schematic flowchart of a method for adjusting an interface position of an interactive smart device according to Embodiment 1 of the present invention. The method is applicable to the situation of adjusting the position of the interface, and the method can be performed by an interface position adjusting device, which can be composed of hardware and/or software, and can generally be integrated in a tablet, a mobile phone, a computer, or any device that includes a touch screen function. interactive smart devices. Specifically include the following:

S110. Receive at least two touch tracks.

The starting points of the touch tracks are respectively located in different target display areas, and the different target display areas are used to display different interactive interfaces. In this solution, the entire display surface is divided into multiple display areas according to different areas, and each display area can be used to display an interactive interface. The confirmation of the detected touch point (that is, the starting point of the touch track) in the display area is the target display area, and the interactive interface currently displayed in the target display area will subsequently move according to the touch track. In this solution, it is mainly aimed at interactive smart devices, such as conference panels and electronic whiteboards, which need to display multiple interactive interfaces on the same screen in different display areas in some specific application scenarios. When the screen devices are projecting at the same time, the image data sent by each screen device is arranged and displayed in each display area. In addition, this solution can also be applied to the situation of adjusting the arrangement of icons, for example, it can be in the file management system Files arranged in a grid, etc. Wherein, the target display areas may be side adjacent and/or corner adjacent. For example, in FIG. 1b, display area A and display area B are side adjacent areas, and display area A and display area D are corner adjacent areas. Optionally, each display area may correspond to a location range, and the interactive interface is displayed within the location range.

Exemplarily, if at least one touch point is detected in the display areas corresponding to at least two interactive interfaces displayed on the display screen, that is, at least one touch point can be detected in each display area, and can The target display areas where the touch points are detected are all adjacent to each other, and the touch trajectory generated based on the movement of each touch point is obtained, that is, when a touch point moves on the screen, a corresponding touch can be generated. track, if five touch points are detected, five touch tracks can be obtained.

In an embodiment, the display screen of the interactive smart device is a touch screen, and the touch screen may include: a capacitive screen, an electromagnetic screen, or an infrared screen. Generally speaking, the touch screen can receive a touch operation input by a user through a finger or an input device. Wherein, the input device includes but is not limited to: a touch pen, an infrared pen and/or a capacitive pen, and the like.

Specifically, when the user performs a touch operation on the display screen of the interactive smart device, the parameters of the electronic components at the corresponding positions inside the display screen of the interactive smart device will change, and the processor of the interactive smart device determines the touch position according to the changed position of the electronic component parameters. Location, the collection of multiple touch locations forms a touch track. Taking the capacitive display as an example, when the user draws a straight line on the display screen of the interactive smart device, the capacitance at the corresponding position will change sequentially according to the user's writing operation, that is, an electrical signal including the change of the capacitance is generated, and the processor according to The change of capacitance can determine the touch position, and then obtain the corresponding touch track.

Wherein, the touch track may be information that can characterize the moving direction of the touch point. The purpose of acquiring the touch trace is to judge the user's touch gesture through comprehensive analysis of all touch traces, so that the position of the interactive interface can be adjusted according to the user's touch gesture.

S120. Move the interactive interface where the starting point is located.

In a specific moving process, the moving direction of the interactive interface matches the relative generation direction of the touch track. Optionally, in the process of generating the touch track, the moving direction of each touch point can be determined according to the generated touch track when each touch point moves, and the moving direction of each touch point can be integrated, especially in the adjacent target display area. The movement directions corresponding to the touch points in different displayed interactive interfaces can determine the relative movement directions between the touch points in adjacent target display areas, for example, if at least two touch points are detected in two adjacent target display areas touch points, you can randomly (or according to preset rules) select a touch track corresponding to a touch point, and determine the corresponding moving directions of the two touch points according to the two touch tracks, and then comprehensively analyze the two touch points. The moving direction determines the relative movement direction of the two touch points, and the relative movement direction of the touch points is the relative generation direction of the touch track. Wherein, the type of the relative generation direction can be determined according to the number of target display areas where the touch points are detected, for example, for two adjacent target display areas, the relative generation direction can include facing directions or opposite directions; for at least three adjacent targets For the display area, the relative generation direction may include a clockwise direction or a counterclockwise direction.

The purpose of determining the relative generation directions between touch trajectories in adjacent target display areas is to judge the next target display area to be reached after the interactive interface is adjusted according to the relative generation directions between touch trajectories.

Preferably, moving the interactive interface where the starting point is located includes:

Determine the relative generation direction of the touch track according to the positions of the start point and the end point of the touch track;

The interactive interface where the starting point is located is moved according to the relative generation direction.

Specifically, the starting position of the moving track is the position of the touch point collected when the touch screen is just touched, and the end position is the position of the touch point collected last before leaving the touch screen. The movement direction corresponding to the touch point can be determined by the end position and start position of the touch track, and then the relative movement direction between the touch points can be determined according to the movement direction of the touch point corresponding to different target display areas, that is, the relative generation direction of the touch track. The beneficial effect of moving the interactive interface where the starting point is located according to the relative generating direction is that the relative generating direction of the touch gesture can be directly used to adjust the positional relationship between the interactive interfaces without dragging and other operations, as long as the gestures are detected to match Adjustment simplifies the operation process. In addition, because this method can also adjust the position of multiple interactive interfaces at the same time, the adjustment time is greatly shortened, the efficiency of position adjustment is improved, and the user experience is improved.

Preferably, determining the relative generation direction of the touch track according to the positions of the starting point and the end point of the touch track includes:

Acquiring the coordinate difference between the end point coordinates and the starting point coordinates of each touch track, wherein the coordinate difference includes a horizontal coordinate difference and a vertical coordinate difference;

Determine the horizontal generation direction of the touch track according to the horizontal coordinate difference;

Determine the vertical generation direction of the touch track according to the vertical coordinate difference;

The relative generation direction of the touch track is determined by combining the horizontal generation direction and the vertical generation direction.

Optionally, the difference in moving coordinates corresponding to each touch track can be obtained by subtracting the starting point coordinates from the ending point coordinates. Specifically, the moving direction of each touch point, that is, the generation direction of each touch track, can be judged according to the positive or negative of the coordinate difference. Exemplarily, if the horizontal (vertical) coordinate difference in the coordinate difference is positive, it can be determined that the horizontal (vertical) generation direction of the touch track is generated along the positive direction of the horizontal (vertical) coordinate axis; if it is negative, it can be determined The horizontal (vertical) generation direction is the reverse generation along the horizontal (vertical) coordinate axis. Exemplarily, after the horizontal generation direction and the vertical generation direction of the touch track are judged, the generation direction of the touch track is determined based on the horizontal generation direction and the vertical generation direction, and finally the distance between the touch tracks is determined according to the generation direction of each touch track. Relative build direction. For example, if the generation direction of one touch track is upper left, and the generation direction of another touch track is lower right, it can be determined that the relative generation direction between the two touch tracks is opposite.

S130. Display the moved interactive interface.

The moved interactive interface described in this embodiment not only stays at the end point of the touch track, but the interactive interface is displayed in the target display area pointed to by the corresponding touch track, realizing the replacement of the display area corresponding to the interactive interface. Optionally, the position of the interactive interface can be adjusted according to the relative generation direction of each touch track, that is, the adjustment direction is the same as the relative generation direction, for example, if the relative generation direction is the opposite direction, the positions of the two interaction interfaces are exchanged , if the relative generation direction is clockwise, the positions of at least three interactive interfaces are adjusted clockwise. Optionally, the interactive interface and position information displayed in the adjacent display areas of each display area can be pre-recorded, so that when the position is adjusted, the position information of the corresponding display area can be directly called, and the position information can be used to interact The display position of the interface is adjusted. At the same time, the interactive interface and position information displayed in the adjacent display area after the interactive interface is moved are refreshed to prepare for the next adjustment. This cycle is repeated and will not be repeated.

In the specific display process, if the size of the interactive interface is the same, it can be displayed directly in the new target display area; if the size of the interactive interface is different, then adaptive adjustment is performed after moving to the new display area, such as zooming in Or zoom out and fill in the target display area.

In the technical solution of this embodiment, according to the received at least two touch trajectories, the interactive interface where the starting point of each touch trajectories is located is moved to the target display areas respectively pointed to by the touch trajectories, and the moved interface is displayed in each target display area. The interactive interface utilizes the advantages of using touch gestures to adjust the interface position, solves the problems of long operation time and cumbersome operation process caused by changing the arrangement position relationship of icons in the prior art, and realizes the improvement of position adjustment. Efficiency, simplify the user operation process, and improve the effect of user experience.

Embodiment two

Fig. 2a is a schematic flowchart of a method for adjusting an interface position of an interactive smart device according to Embodiment 2 of the present invention. This embodiment is optimized on the basis of the above-mentioned embodiments, and provides an optimal interface position adjustment method, specifically, further optimizes the position adjustment between the interactive interfaces displayed in two adjacent display areas. Specifically include the following:

S210. Detecting at least one touch point in two adjacent target display areas respectively, and using two touch points respectively located in the two adjacent target display areas with a distance smaller than a preset distance threshold as a group of target touch points.

Wherein, the preset distance threshold may preferably be a standard palm length. Exemplarily, for a large-screen display, if only at least one touch point is detected in two adjacent target display areas, and there are at least two distances between touch points located in different target display areas If it is smaller than the standard palm length, it means that the touch operation is a one-handed operation, that is, an interface adjustment operation, and then these two touch points are used as a set of target touch points. Optionally, for two adjacent target display areas, there may be a group of target touch points satisfying the condition that the distance is less than a preset distance threshold, or there may be multiple groups of target touch points satisfying the condition. The beneficial effect of detecting touch points in adjacent target display areas and requiring the distance between touch points to be less than the preset distance threshold is that it can avoid possible damage caused by other touch operations on the interactive interfaces displayed in the two display areas at the same time. False trigger.

S220. Receive a touch track generated when moving the target touch point as a starting point.

Exemplarily, in two adjacent target display areas, if at least one group of target touch points is determined, the movement trajectories of each target touch point are obtained respectively, that is, the two target touch points are generated when the two target touch points are respectively moved as starting points two touch traces. Specifically, each generated touch track may be received and recorded by periodically collecting the position coordinates of each target touch point when moving.

S230. Determine a relative generation direction of the touch track according to the positions of the start point and the end point of the touch track.

S240. Determine that a relative generation direction of a group of touch trajectories corresponding to the target touch points is an opposite direction.

S250. Exchange the interactive interfaces correspondingly displayed in two adjacent target display areas.

Specifically, the corresponding relationship between the moving direction and the opposite movement between the interactive interfaces displayed in two adjacent display areas can be shown in Table 1:

Table 1. Correspondence between moving direction and opposite motion

direction of movement opposite movement left right or right up or right down To the right left or left up or left down up down or down left or down right down up or up left or up right up left right or down right or down up right left or down left or down down left right or right up or up down right left or up or up

Exemplarily, when there is at least one set of target touch points in two adjacent target display areas, and the moving direction of the target touch points detected in one target display area is leftward, according to Table 1, it can be known that the opposite direction is When the moving direction of another target touch point detected in the adjacent target display area is one of these three directions, the group of target touch points can be determined The relative generation direction of the touch track corresponding to the point satisfies the condition of opposite direction, and the positions of the correspondingly displayed interactive interfaces in the two adjacent display areas are exchanged.

As a specific example, as shown in Figure 2b, if there is a target touch point in the target display area A and target display area D, that is, there is a group of target touch points, wherein the target touch point in the target display area A The moving direction of the point is lower right, and the moving direction of the target touch point in the target display area D is upper left (or left or upward), then it can be determined that the relative generation direction of the touch track satisfies the condition of the opposite direction, and the target display area D The positions of the correspondingly displayed interactive interfaces in A and target display area D are exchanged according to the direction indicated by the dotted arrow.

S260. Displaying the moved interactive interface.

In the technical solution of this embodiment, by respectively detecting whether there is at least one touch point in two adjacent target display areas, and whether there are at least two touch points whose distance is smaller than the preset distance threshold, if so, the two touch points As a group of target touch points, it receives the touch track generated when the target touch point is used as the starting point to move, and determines the relative generation direction of the touch track according to the positions of the start point and end point of the touch track. If the relative generation direction is the opposite direction, Then, the interactive interfaces corresponding to the two adjacent target display areas are exchanged, thereby improving the operation efficiency, simplifying the operation process when the positions are exchanged between the two interactive interfaces, and effectively avoiding false triggers at the same time. Improved user experience.

Embodiment three

Fig. 3a is a schematic flowchart of a method for adjusting an interface position of an interactive smart device according to Embodiment 3 of the present invention. This embodiment is optimized on the basis of the above-mentioned embodiments, and provides a preferred method for adjusting the interface position of an interactive smart device. Specifically, the adjustment of the positions of the interactive interfaces displayed in at least three adjacent display areas is carried out. further optimization. Specifically include the following:

S310. At least one touch point is detected in at least three adjacent target display areas, and at least three touch points that are respectively located in at least three adjacent target display areas and form a closed figure whose area is smaller than a preset area threshold as a set of target touch points.

Wherein, the preset area threshold may preferably be a standard palm area. Exemplarily, for a large-screen display, if at least one touch point is detected in at least three adjacent target display areas, and there is at least one group of touch points respectively located in different target display areas If the area of the closed figure is smaller than the standard palm area (for example, if a group of touch points contains three touch points, calculate the area of the triangle with the three touch points as vertices), it means that the touch operation is a one-handed operation, that is, interface adjustment operation, and then use the at least three touch points as a set of target touch points. Optionally, for at least three adjacent target display areas, there may be a group of target touch points satisfying the condition that the area of the formed closed figure is smaller than a preset area threshold, or there may be multiple groups of target touch points satisfying the condition. The beneficial effect of detecting the touch point in the adjacent target display area and requiring the area of the closed figure formed by the touch point to be smaller than the preset area threshold is that it can avoid being damaged due to other touch operations on the interactive interfaces displayed in at least three display areas at the same time. possible false triggers.

S320. Receive a touch track generated by moving the target touch point as a starting point.

Exemplarily, in at least three adjacent target display areas, if at least one group of target touch points is determined, the movement tracks of each target touch point are respectively obtained, that is, they are respectively generated when each target touch point is used as a starting point to move multiple touch trajectories. Specifically, each generated touch track may be received and recorded by periodically collecting the position coordinates of each target touch point when moving.

S330. Determine a relative generation direction of the touch track according to the positions of the start point and the end point of the touch track.

S340. Determine that the relative generation direction of the touch track corresponding to a group of target touch points satisfies a clockwise direction, and exchange the correspondingly displayed interactive interfaces of at least three adjacent target display areas clockwise; determine a group of target touch points The relative generation direction of the corresponding touch track satisfies the counterclockwise direction, and the correspondingly displayed interactive interfaces of at least three adjacent target display areas are reversed counterclockwise.

Exemplarily, when there are at least three target touch points distributed in different target display areas, and the movement directions of the at least three target touch points are respectively arranged in the order of upper right, lower right, upper left, and lower left, then It shows that the relative generation direction of the touch track corresponding to the group of target touch points satisfies the clockwise direction. For example, as shown in Figure 3b, if there is at least one group of target touch points (a target touch point is respectively distributed in four adjacent target display areas A, B, C, and D) to satisfy the target in target display area A The moving direction of the touch point is upper right, the moving direction of the target touch point in target display area B is lower right, the moving direction of the target touch point in target display area C is upper left, and the moving direction of the target touch point in target display area D is If the moving direction is lower left, it means that the relative generation direction of the touch track corresponding to the group of target touch points satisfies the clockwise direction, and then in the clockwise direction, the positions of the correspondingly displayed interactive interfaces in the four adjacent target display areas follow the dotted arrow The direction shown is reversed clockwise (that is, the correspondingly displayed interactive interface in the target display area A moves to the target display area B, the correspondingly displayed interactive interface in the target display area B moves to the target display area D, and the target display area C The correspondingly displayed interactive interface moves to the target display area A, and the correspondingly displayed interactive interface in the target display area D moves to the target display area C).

Exemplarily, when there are at least three target touch points distributed in different target display areas, and the moving directions of the at least three target touch points are respectively arranged in the order of left-bottom, left-top, right-bottom, and right-top, then It shows that the relative generation direction of the touch track corresponding to the group of target touch points satisfies the counterclockwise direction. For example, as shown in Figure 3c, if there is at least one group of target touch points (a target touch point is distributed in three adjacent target display areas A, B, and C respectively) satisfying the target touch point in target display area A The moving direction of the target touch point in the target display area B is the lower left, the moving direction of the target touch point in the target display area B is the upper left, and the moving direction of the target touch point in the target display area C is the lower right. The generation direction satisfies the counterclockwise direction, and then in the counterclockwise direction, the positions of the correspondingly displayed interactive interfaces in the three adjacent target display areas are reversed counterclockwise in the direction indicated by the dotted arrows (that is, the corresponding display in the target display area A The interactive interface displayed in target display area C is moved to target display area C, the correspondingly displayed interactive interface in target display area B is moved to target display area A, and the correspondingly displayed interactive interface in target display area C is moved to target display area B).

S350. Displaying the moved interactive interface.

In the technical solution of this embodiment, by respectively detecting whether there is at least one touch point in at least three adjacent target display areas, and whether there are at least three touch points whose area of the closed figure is smaller than the preset area threshold, if so, Then take these at least three touch points as a group of target touch points, receive the touch track generated when moving the target touch point as the starting point, and determine the relative generation direction of the touch track according to the positions of the starting point and the end point of the touch track, if the The relative generation direction is clockwise or counterclockwise, and the corresponding interactive interfaces displayed in the at least three adjacent target display areas are switched clockwise or counterclockwise, thereby improving the operation efficiency and simplifying the process between multiple interactive interfaces. The operation process when the position is changed, and it also effectively avoids false triggering and improves the user experience.

Embodiment four

FIG. 4 is a schematic structural diagram of an apparatus for adjusting an interface position of an interactive smart device according to Embodiment 4 of the present invention. Referring to FIG. 4 , the device for adjusting the interface position of the interactive smart device includes: a track receiving module 410 , an interface moving module 420 and an interface display module 430 , and each module will be described in detail below.

The trajectory receiving module 410 is configured to receive at least two touch trajectories, the starting points of the touch trajectories are respectively located in different target display areas, and the different target display areas are used to display different interactive interfaces;

The interface moving module 420 is configured to move the interactive interface where the starting point is located, and the moving direction of the interactive interface matches the relative generation direction of the touch track;

The interface display module 430 is configured to display the moved interactive interface, and the interactive interface is displayed in the target display area pointed to by the corresponding touch track.

Optionally, the interface mobile module 420 includes:

a direction determining submodule, configured to determine the relative generation direction of the touch track according to the positions of the start point and the end point of the touch track;

The position moving submodule is configured to move the interactive interface where the starting point is located according to the relative generation direction.

Optionally, the direction determination sub-module can be specifically used for:

Acquiring the coordinate difference between the end point coordinates and the starting point coordinates of each touch track, wherein the coordinate difference includes a horizontal coordinate difference and a vertical coordinate difference;

determining the horizontal generation direction of the touch track according to the horizontal coordinate difference;

determining the vertical generation direction of the touch track according to the vertical coordinate difference;

A relative generation direction of the touch track is determined in combination with the horizontal generation direction and the vertical generation direction.

Optionally, the trajectory acquisition module 410 can specifically be used for:

At least one touch point is respectively detected in two adjacent target display areas, and two touch points respectively located in the two adjacent target display areas and whose distance is smaller than a preset distance threshold are used as a group of target touch points;

A touch track generated when the target touch point is used as a starting point is received.

Optionally, the location movement sub-module can be specifically used for:

Determining that the relative generation direction of the touch track corresponding to a set of target touch points is the opposite direction;

The interactive interfaces displayed correspondingly in the two adjacent target display areas are exchanged.

Optionally, the trajectory acquisition module 410 can also be specifically used for:

At least one touch point is detected in at least three adjacent target display areas, and the at least three touch points that are located in the at least three adjacent target display areas and form a closed figure whose area is smaller than a preset area threshold as a set of target touch points;

A touch track generated by moving the target touch point as a starting point is received.

Optionally, the location movement sub-module can also be specifically used for:

It is determined that the relative generation direction of the touch track corresponding to a set of target touch points satisfies the clockwise direction, and the correspondingly displayed interactive interface of the at least three adjacent target display areas is reversed clockwise;

It is determined that the relative generation directions of the touch trajectories corresponding to a group of target touch points satisfy the counterclockwise direction, and the correspondingly displayed interactive interfaces of the at least three adjacent target display areas are reversed counterclockwise.

The above-mentioned product can execute the method provided by any embodiment of the present invention, and has corresponding functional modules and beneficial effects for executing the method.

Embodiment five

FIG. 5 is a schematic structural diagram of an interactive smart device provided in Embodiment 5 of the present invention. As shown in FIG. 5 , the interactive smart device provided in this embodiment includes: a processor 51 and a memory 52 . There can be one or more processors in the interactive smart device. In FIG. 5, a processor 51 is taken as an example. The processor 51 and memory 52 in the interactive smart device can be connected by bus or other methods. In FIG. Take connection via bus as an example.

The processor 51 of the interactive smart device in this embodiment integrates the device for adjusting the interface position of the interactive smart device provided in the above embodiments. In addition, the memory 52 in the interactive smart device, as a computer-readable storage medium, can be used to store one or more programs, and the programs can be software programs, computer-executable programs and modules, such as the interactive The program instructions/modules corresponding to the method for adjusting the interface position of the smart device (for example, the modules in the device for adjusting the interface position of the interactive smart device shown in FIG. ). The processor 51 executes various functional applications and data processing of the device by running the software programs, instructions and modules stored in the memory 52, that is, implements the method for adjusting the interface position of the interactive smart device in the above method embodiment.

The memory 52 may include a program storage area and a data storage area, wherein the program storage area may store an operating system and an application program required by at least one function; the data storage area may store data created according to the use of the device, and the like. In addition, the memory 52 may include a high-speed random access memory, and may also include a non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid-state storage devices. In some examples, the memory 52 may further include memory located remotely relative to the processor 51, and these remote memories may be connected to the device through a network. Examples of the aforementioned networks include, but are not limited to, the Internet, intranets, local area networks, mobile communication networks, and combinations thereof.

And, when one or more programs included in the above-mentioned interactive smart device are executed by the one or more processors 51, the programs perform the following operations:

Receiving at least two touch trajectories, the starting points of the touch trajectories are respectively located in different target display areas, and the different target display areas are used to display different interactive interfaces; moving the interactive interface where the starting point is located, the interactive interface The moving direction matches the relative generation direction of the touch track; and the moved interactive interface is displayed, and the interactive interface is displayed in the target display area pointed to by the corresponding touch track.

Embodiment six

Embodiment 6 of the present invention also provides a computer-readable storage medium on which a computer program is stored. When the program is executed by the interface position adjustment device of the interactive smart device, the interface of the interactive smart device as provided in Embodiment 1 of the present invention is realized. A position adjustment method, the method comprising: receiving at least two touch trajectories, the starting points of the touch trajectories are respectively located in different target display areas, and the different target display areas are used to display different interactive interfaces; An interactive interface, the moving direction of the interactive interface matches the relative generation direction of the touch track; the moved interactive interface is displayed, and the interactive interface is displayed in the target display area pointed to by the corresponding touch track.

Of course, when the computer-readable storage medium provided by the embodiments of the present invention is executed, the computer program stored thereon is not limited to implementing the above-mentioned method operations, and can also implement the interactive smart device provided by any embodiment of the present invention. Related operations in the interface position adjustment method of .

Through the above description about the implementation mode, those skilled in the art can clearly understand that the present invention can be realized by means of software and necessary general-purpose hardware, and of course it can also be realized by hardware, but in many cases the former is a better implementation mode . Based on this understanding, the essence of the technical solution of the present invention or the part that contributes to the prior art can be embodied in the form of a software product, and the computer software product can be stored in a computer-readable storage medium, such as a floppy disk of a computer , read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), flash memory (FLASH), hard disk or optical disc, etc., including several instructions to make a computer device (which can be a personal computer, A server, or a network device, etc.) executes the methods described in various embodiments of the present invention.

It is worth noting that, in the embodiment of the interface position adjustment device of the above-mentioned interactive smart device, the various units and modules included are only divided according to the functional logic, but are not limited to the above-mentioned division, as long as the corresponding functions can be realized. Yes; in addition, the specific names of the functional units are only for the convenience of distinguishing each other, and are not used to limit the protection scope of the present invention.

Note that the above are only preferred embodiments of the present invention and applied technical principles. Those skilled in the art will understand that the present invention is not limited to the specific embodiments described herein, and that various obvious changes, readjustments and substitutions can be made by those skilled in the art without departing from the protection scope of the present invention. Therefore, although the present invention has been described in detail through the above embodiments, the present invention is not limited to the above embodiments, and can also include more other equivalent embodiments without departing from the concept of the present invention, and the present invention The scope is determined by the scope of the appended claims.

Claims (10)

1. A method for adjusting the interface position of an interactive smart device, comprising: Receiving at least two touch trajectories, the starting points of the touch trajectories are respectively located in different target display areas, and the different target display areas are used to display different interactive interfaces; moving the interactive interface where the starting point is located, the moving direction of the interactive interface matches the relative generation direction of the touch track; The moved interactive interface is displayed, and the interactive interface is displayed in the target display area pointed to by the corresponding touch track. 2. The method according to claim 1, wherein the moving the interactive interface where the starting point is located comprises: determining the relative generation direction of the touch track according to the positions of the start point and the end point of the touch track; The interactive interface where the starting point is located is moved according to the relative generation direction. 3. The method according to claim 2, wherein the determining the relative generation direction of the touch track according to the positions of the starting point and the end point of the touch track comprises: Acquiring the coordinate difference between the end point coordinates and the starting point coordinates of each touch track, wherein the coordinate difference includes a horizontal coordinate difference and a vertical coordinate difference; determining the horizontal generation direction of the touch track according to the horizontal coordinate difference; determining the vertical generation direction of the touch track according to the vertical coordinate difference; A relative generation direction of the touch track is determined in combination with the horizontal generation direction and the vertical generation direction. 4. The method according to claim 2, wherein the receiving at least two touch tracks comprises: At least one touch point is respectively detected in two adjacent target display areas, and two touch points respectively located in the two adjacent target display areas and whose distance is smaller than a preset distance threshold are used as a group of target touch points; A touch track generated when the target touch point is used as a starting point is received. 5. The method according to claim 4, wherein the moving the interactive interface where the starting point is located according to the relative generation direction comprises: Determining that the relative generation direction of the touch track corresponding to a set of target touch points is the opposite direction; The interactive interfaces displayed correspondingly in the two adjacent target display areas are exchanged. 6. The method according to claim 2, wherein the receiving at least two touch tracks comprises: At least one touch point is detected in at least three adjacent target display areas, and the at least three touch points that are located in the at least three adjacent target display areas and form a closed figure whose area is smaller than a preset area threshold as a set of target touch points; A touch track generated by moving the target touch point as a starting point is received. 7. The method according to claim 6, wherein the moving the interactive interface where the starting point is located according to the relative generation direction comprises: It is determined that the relative generation direction of the touch track corresponding to a set of target touch points satisfies the clockwise direction, and the correspondingly displayed interactive interface of the at least three adjacent target display areas is reversed clockwise; It is determined that the relative generation directions of the touch trajectories corresponding to a group of target touch points satisfy the counterclockwise direction, and the correspondingly displayed interactive interfaces of the at least three adjacent target display areas are reversed counterclockwise. 8. A device for adjusting the interface position of an interactive smart device, characterized in that it comprises: A trajectory receiving module, configured to receive at least two touch trajectories, the starting points of the touch trajectories are respectively located in different target display areas, and the different target display areas are used to display different interactive interfaces; An interface moving module, configured to move the interactive interface where the starting point is located, the moving direction of the interactive interface matches the relative generation direction of the touch track; The interface display module is configured to display the moved interactive interface, and the interactive interface is displayed on the target display area pointed to by the corresponding touch track. 9. An interactive intelligent device, characterized in that the interactive intelligent device comprises: one or more processors; memory for storing one or more programs; When the one or more programs are executed by the one or more processors, the one or more processors implement the method for adjusting the interface position of an interactive smart device according to any one of claims 1-7. 10. A computer-readable storage medium, on which a computer program is stored, wherein when the program is executed by a processor, the method for adjusting the interface position of an interactive smart device according to any one of claims 1-7 is implemented.