JP2021071666A - Electronic device, program, and control method - Google Patents

Abstract

To provide a technique for enhancing portability and operability of electronic devices.SOLUTION: An electronic device 1 is provided, comprising a foldable display 100A, 100B, an open/close controller for controlling unfolding of the display, and an input/output controller configured to respond to unfolding of the display by setting an entire display surface of the unfolded display as a single screen.SELECTED DRAWING: Figure 1

Description

The present invention relates to electronic devices, programs and control methods.

Patent Document 1 incorporates a circuit board including a first board, a second board, and a connecting member for connecting these boards, and the connecting member electrically connects the first board and the second board. When a plurality of electronic components having non-uniform heights are mounted on the first substrate and the second substrate, and the second substrate is arranged so as to overlap the first substrate. The high-height electronic components mounted on the first substrate and the low-height electronic components mounted on the second substrate are arranged so as to face each other, and are mounted on the first substrate. Describes the technology of a smart watch in which a low-height electronic component and a high-height electronic component mounted on a second substrate are arranged so as to face each other.

Japanese Unexamined Patent Publication No. 2019-009214

In the above technology, a thin housing is realized by enabling efficient stacking of parts in an electronic device such as a smart watch, so that portability during transportation can be improved. However, during operation, restrictions on the size of the display hinder the improvement of operability.

An object of the present invention is to provide a technique for further improving the portability and operability of an electronic device.

The present application includes a plurality of means for solving at least a part of the above problems, and examples thereof are as follows. The electronic device according to one aspect of the present invention includes a foldable display, an open / close control unit that controls the expansion of the display, and when the display is expanded, the entire display display surface after expansion becomes one screen. It is characterized by including an output control unit.

Further, the electronic device may be characterized in that the display constitutes a polygonal prism in a folded state and has independent display surfaces on the upper surface and each side surface.

Further, the electronic device may be characterized in that the display is a touch panel.

Further, the electronic device is characterized in that the input / output control unit receives an input instructing the deployment of the display, and the open / close control unit deploys the display in response to the instruction. It may be.

Further, in the above-mentioned electronic device, the display is a touch panel having polygonal columns in a folded state and having independent display surfaces on the upper surface and each side surface, and the input / output control unit has the display in a folded state. In this case, a predetermined application start icon is associated with each of the display surfaces on the side surface, and when a touch input to the start icon is detected, it is accepted as an input instructing the expansion of the display, and the opening / closing is performed. The control unit may be characterized in that the display is deployed in response to the instruction.

Further, the electronic device may be characterized by including an application processing unit that activates the application according to the activation icon when the display is expanded.

Further, in the above-mentioned electronic device, the display constitutes a polygonal prism in a folded state, has an independent display surface on the upper surface and each side surface, and the display has the shape of the region of the upper surface in the folded state and the shape of the region of the upper surface. It may be characterized in that the shape of the entire display surface after development is substantially similar.

Further, the electronic device may be characterized in that the display is accompanied by an image pickup device and an audio input / output unit.

Further, in the above-mentioned electronic device, the display is provided with a touch input area independent of the display surface of the upper surface and each side surface in the vicinity of at least one of the corners or sides constituting the polygonal column. When the entry output control unit detects a touch input in the touch input area, it accepts it as an input of a second instruction different from the input instructing the expansion of the display, and the application processing unit responds to the second instruction. It may be characterized in that the application is started.

Further, in the above-mentioned electronic device, the display has a touch input area that is independent of the display surface of the upper surface and each side surface in the vicinity of at least two corners or sides constituting the polygonal column. When the input / output control unit detects a touch input in a plurality of the touch input areas, the input / output control unit accepts it as an input of a third instruction different from the input instructing the expansion of the display, and the application processing unit receives the input of the third instruction. It may be characterized in that the application is started in response to the third instruction.

Further, in the above-mentioned electronic device, the display has a touch input area that is independent of the display surface of the upper surface and each side surface in the vicinity of at least two corners or sides constituting the polygonal column. When the input / output control unit detects a touch input in a plurality of the touch input areas, the input / output control unit accepts it as an input of a third instruction different from the input instructing the expansion of the display, and the application processing unit receives the input of the third instruction. It may be characterized in that the application is started according to a predetermined combination and order of the touch input areas that are touch-input at the time of the third instruction.

Further, a program according to another aspect of the present invention is a program of an electronic device including a foldable display, in which the display constitutes a polygonal column in a folded state and has independent display surfaces on the upper surface and each side surface. The electronic device includes an opening / closing mechanism for unfolding and folding the display, and a control unit for displaying the entire display surface after unfolding as one screen when the display is unfolded. When the display is in the folded state, the control unit detects a display step for displaying a predetermined application start icon in association with each of the display surfaces on the side surface, and a touch input to the start icon. It is characterized in that an instruction receiving step of receiving as an input instructing the deployment of the display and an instruction step of controlling the opening / closing mechanism to deploy the display in response to the received instruction are performed.

Further, another control method according to another aspect of the present invention is a control method for an electronic device including a foldable display, in which the display constitutes a polygonal column in a folded state and displays independently on the upper surface and each side surface. The electronic device is a touch panel provided with a surface, and the electronic device includes an opening / closing mechanism for expanding and folding the display, and a control unit for forming the entire display display surface after expansion into one screen when the display is expanded. , The control unit detects a display step of displaying a predetermined application start icon in association with each of the display surfaces on the side surface when the display is in the folded state, and a touch input to the start icon. It is characterized in that an instruction receiving step of receiving as an input instructing the deployment of the display and an instruction step of controlling the opening / closing mechanism to deploy the display in response to the instruction are performed.

According to the present invention, it is possible to provide a technique for further improving the portability and operability of an electronic device.

Issues, configurations and effects other than those described above will be clarified by the description of the following embodiments.

It is an external view which shows the example of the smart watch in a folded state. It is a figure which shows the development example of a smart watch. It is a figure which shows the setting example of a touch area. It is a figure which shows the example of the deployment mechanism of a smart watch. It is a figure which shows the hardware configuration example of a smart watch. It is a figure which shows the example of the data structure of the coordinate transformation table. It is a figure which shows the example of the flow of expansion processing. It is a figure which shows the example of the data structure of the touch area combination operation table. It is a figure which shows the example of the flow of the multi-touch area expansion processing. It is a figure which shows the example of the display screen (air conditioner operation screen) in a folded state. It is a figure which shows the example of the display screen (lighting operation screen) in a folded state.

Hereinafter, a smart watch 1 which is an example of an electronic device to which an embodiment of the present invention is applied will be described with reference to the drawings. In the following embodiments, when necessary for convenience, the description will be divided into a plurality of sections or embodiments, but unless otherwise specified, they are not unrelated to each other, and one is the other. It is related to some or all of the modified examples, details, supplementary explanations, etc.

In addition, in the following embodiments, when the number of elements (including the number, numerical value, quantity, range, etc.) is referred to, when it is specified in particular, or when it is clearly limited to a specific number in principle, etc. Except, the number is not limited to the specific number, and may be more than or less than the specific number.

Furthermore, in the following embodiments, the components (including element steps, etc.) are not necessarily essential unless otherwise specified or clearly considered to be essential in principle. Needless to say.

Similarly, in the following embodiments, when the shape, positional relationship, etc. of the constituent elements are referred to, the shape is substantially the same, except when it is clearly stated or when it is considered that it is not clearly the case in principle. Etc., etc. shall be included. This also applies to the above numerical values and ranges.

Further, in all the drawings for explaining the embodiment, the same members are, in principle, given the same reference numerals, and the repeated description thereof will be omitted.

FIG. 1 is an external view showing an example of a smart watch in a folded state according to an embodiment. The smart watch 1 includes a top display 100 and side displays 100A and 100B substantially orthogonal to the top display 100. In the example of FIG. 1, the smart watch 1 has a hexagonal columnar shape, and the top display 100 has a hexagonal shape. The top display 100 displays various OS screens, clock screens, or display screens of various application software. Further, on the side displays 100A and 100B, icons that also serve as switches for activating various application software such as "MAP" and "Wallet" are displayed, respectively. However, the present invention is not limited to this, and in the folded state, for example, by displaying information having zero brightness, the side displays 100A and 100B do not display icons or the like and accept touch input. May be good. Although not shown, the other side surfaces constituting the hexagonal column are the same as those of the side display 100A and 100B. Further, the top display 100 and the side displays 100A and 100B are touch panels that detect the contact (touch, flick, etc.) position of the user's finger or the like.

Further, the smart watch 1 in the folded state is not limited to a hexagonal prism, and may be a polygonal prism such as a triangular prism if the shape of the upper surface display 100 is triangular and a square prism if the shape of the top display 100 is square. As will be described later, the smartwatch 1 can be unfolded, and can be unfolded from a folded state of a polygonal prism to a flat surface. As the display surface after this development, the top display 100 and the side displays 100A and 100B are continuously treated as display surfaces. Therefore, from the viewpoint of continuity of display contents, it is desirable that the shape of the upper surface of the polygonal prism in the folded state is similar to or substantially similar to the shape of the entire display display surface after unfolding.

Further, the smart watch 1 is provided with a band portion for attaching to an arm or the like. This band portion may be composed of a band made of general leather, resin, or the like.

FIG. 2 is a diagram showing a deployment example of a smart watch. At the top of FIG. 2, the top display 100 of the smart watch 1 is shown together with its display screen (clock display). Since the smart watch 1 has a polygonal columnar shape, the side displays 100A and 100B are not directly visible in the upper part of FIG.

At the bottom of FIG. 2, a display in which the smart watch 1 is deployed is shown together with its display screen (map display). This shows an example of a state in which the "MAP" icon of the side display 100A of the smart watch 1 in the folded state is expanded by touch input (the state in which the MAP application is started).

At the bottom of FIG. 2, the alternate long and short dash line indicates a mountain fold and the broken line indicates a valley fold. That is, the portion that was folded in the folded state is indicated by a two-dot chain line or a broken line in the folding direction. Therefore, the area surrounded by the two-point chain line in the center corresponds to the upper surface display 100, and the surrounding area includes the side connecting the apex and the adjacent apex (the side 110 corresponding to the side display 100A and the side 110). The side 111) corresponding to the side display 100B and the drape portion sandwiched between the side display and the adjacent side display (in FIG. 2, the drape portion 120B adjacent to the side display 100B) are shown. The drape portion 120B cannot be visually recognized when the smart watch 1 is in the folded state because it is hidden by the top display 100 and the side displays 100A, 100B, and the like.

Further, in the example shown at the lower part of FIG. 2, the top display 100, the side displays 100A, 100B, etc., and the drape portion 120B are connected, and in the deployed state, information is continuously transmitted across these. Display and detect touch input. Further, the top display 100 and the unfolded display are both regular hexagons and have similar figures.

FIG. 3 is a diagram showing a setting example of the touch area. A folded smartwatch 1 is shown in the upper part of FIG. Here, the top display 100 and the side displays 100A and 100B are provided with distinct touch areas. Further, a side portion 200A near the side bordering the top display 100 and the side display 100A, and a corner portion 210B at the apex of the top display 100 and near the intersection of two adjacent side displays. Also, a distinct touch area is provided for.

At the bottom of FIG. 3, a display in which the smartwatch 1 is deployed is shown together with the division of the input area. This shows an example of a state in which the icon of the side display 100A of the smart watch 1 in the folded state is touch-input and expanded.

At the bottom of FIG. 3, the alternate long and short dash line indicates a mountain fold. That is, a two-dot chain line indicates a line in which the folded portion is folded in a mountain fold direction. Therefore, the area surrounded by the two-point chain line in the center corresponds to the upper surface display 100, and the surrounding area includes the side connecting the apex and the adjacent apex (the side 110 corresponding to the side display 100A and the side 110). The side 111) corresponding to the side display 100B and the drape portion sandwiched between the side display and the adjacent side display (in FIG. 3, the drape portion 120B adjacent to the side display 100B) are shown.

Further, in the example shown at the lower part of FIG. 3, the side portion 200A is shown in the vicinity of the side between the top display 100 and the side displays 100A, 100B, etc., and the top display 100 and the side display 100A, A corner portion 210B near the intersection of 100B and the like and the drape portion 120B is also shown. In the example shown at the bottom of FIG. 3, the expanded display is shown together with the division of the input area, but this is a diagram for convenience of explanation, and the input area is actually in the folded state. The classification of is valid. On the other hand, in the expanded state, the smartwatch 1 continuously displays information as one screen across these input areas and detects touch input, so that the input area division is not used.

FIG. 4 is a diagram showing an example of a smart watch deployment mechanism. In FIG. 4, the smart watch 1 is shown by the cross section AA of FIG. A cross-sectional view of the folded smartwatch 1 is shown in the upper part of FIG. 4, and a cross-sectional view of the unfolded smartwatch 1 is shown in the lower part.

A control device 300 is attached to the back surface of the upper surface display 100 of the foldable display unit 380, and an opening / closing mechanism 350 is attached to the control device 300. The opening / closing mechanism 350 includes a first hinge portion 354, an arm 353, a second hinge portion 352, and a rail 351. The first hinge portion 354 is attached to the back surface of the side displays 100A and 100B of the folding display portion 380. The arm 353 is a mechanism for connecting and supporting the first hinge portion 354 and the second hinge portion 352. The second hinge portion 352 is attached to the rail 351 and the arm 353 that slide by the linear motion mechanism of the opening / closing mechanism 350.

When the rail 351 protrudes due to the pushing action of the linear motion mechanism of the opening / closing mechanism 350, the arm 353 is pushed out via the second hinge portion 352, and the side display 100A of the folding display portion 380 via the first hinge portion 354, 100B is pressurized from the back surface and expands to the outside. Along with this, the drape portion 120B will also be deployed. In this way, the smart watch 1 expands the foldable display unit 380, but the present invention is not limited to this, and it may be expanded manually or by other means for realizing mechanical operation. You may. Further, when returning to the folded state, when the rail 351 is pulled back by the pulling operation of the linear motion mechanism of the opening / closing mechanism 350, the arm 353 is pulled back via the second hinge portion 352, and the first hinge portion 354 is pulled back. The side displays 100A and 100B of the foldable display unit 380 are decompressed from the back surface and folded inward. Along with this, the drape portion 120B is also folded.

FIG. 5 is a diagram showing a hardware configuration example of the smart watch. The smart watch 1 according to the present embodiment is not limited to a so-called smart watch, but is an information processing device that operates as a smartphone or a mobile terminal.

The smart watch 1 includes a control device 300, an opening / closing mechanism 350, and a folding display unit 380. The folding display unit 380 may be provided with an audio input unit 360, an audio output unit 370, and an imaging unit 390. The control device 300 includes a storage unit 310, a power supply unit 320, a control unit 330, a communication unit 340, and a bus that connects them to each other. The coordinate conversion table 311 is stored in the storage unit 310. The storage unit 310 is composed of a non-volatile storage device such as a so-called hard disk (Hard Disk Drive), SSD (Solid State Drive), or flash memory that can store digital information.

FIG. 6 is a diagram showing an example of the data structure of the coordinate conversion table. In the coordinate conversion table 311, with respect to the unfolded coordinates 311a, the folded coordinates 311b and the folded regions 311c are stored in association with each other. The unfolded coordinates 311a are coordinate values indicating the pixel positions of the folding display unit 380 at the time of unfolding. The folding region 311c and the folding coordinate 311b are coordinate values indicating the region to which the folding pixel position belongs and the pixel position within the region with respect to the pixel position corresponding to the unfolding coordinate 311a of the folding display unit 380.

The folded region 311c is information for identifying input areas such as the top display 100, the side displays 100A and 100B, the side portions 200A, the drape portion 120B, and the corner portions 210B shown in FIG.

The folding coordinate 111b is information for specifying the pixel position in the input area identified by the folding region 311c.

Returning to the description of FIG. The power supply unit 320 provides a power source for driving the smart watch 1. For example, the power supply unit 320 includes various types such as a lithium-based secondary battery capable of charging and discharging, a nickel-hydrogen-based secondary battery, a nickel cadmium-based secondary battery, a lead storage battery, a sodium-based secondary battery, and the like. Power can be extracted from the secondary battery. Alternatively, it may be various primary batteries or a generator that generates electricity by vibration or light.

The control unit 330 controls the smart watch 1 by an OS (Operating System) or various control software. The control unit 330 includes an application processing unit 331, an input / output control unit 332, and an open / close control unit 333. Further, the control unit 330 may control the execution of various application software, and may be capable of simultaneously starting or executing a plurality of application software in parallel. The control unit 330 is composed of an arithmetic unit such as a CPU (Central Processing Unit), for example.

The application processing unit 331 controls the start, execution, and termination of various application software. The input / output control unit 332 controls the input / output man-machine interface of the audio input unit 360, the audio output unit 370, the folding display unit 380, the image pickup unit 390, and the like. The opening / closing control unit 333 controls the opening / closing of the opening / closing mechanism 350. For example, the input / output control unit 332 receives an input instructing the expansion of the foldable display unit 380, and the open / close control unit 333 can expand the foldable display unit 380 in response to the instruction.

More specifically, when the folding display unit 380 is in the folded state, the input / output control unit 332 displays the start icon of a predetermined application in association with each of the display surfaces of the side display, and touch-inputs the start icon. Is received as an input instructing the expansion of the folding display unit 380, and the open / close control unit 333 expands the folding display unit 380 in response to the instruction.

When the folding display unit 380 is expanded, the application processing unit 331 activates the application software corresponding to the touch-input activation icon, and displays the output screen of the activated application software on the entire surface of the folding display unit 380. The input / output control unit 332 is instructed to do so. Further, after the folding display unit 380 is expanded, when the input / output control unit 332 receives a touch input for a predetermined operation, for example, a voice input or a touch input for a predetermined icon on the position of the folding display unit 380 or the menu, the opening / closing control unit The 333 causes the opening / closing mechanism 350 to fold the folding display unit 380. Alternatively, if the input / output control unit 332 does not accept the input for a predetermined time (for example, 5 minutes, etc.) after the folding display unit 380 is deployed, the opening / closing control unit 333 tells the opening / closing mechanism 350 that the folding display unit 380 May be folded.

Further, as described above, the foldable display unit 380 has a side portion 200A which is a touch input area independent of the display surface of the upper surface and each side surface in the vicinity of at least one of the corners or sides constituting the polygonal column, and the upper surface display 100. A corner portion 210B, which is the apex of the above and is near the intersection with two adjacent side displays, is provided. When the input / output control unit 332 detects the touch input to the corner portion 210B or the side portion 200A, the input / output control unit 332 accepts the input as an input different from the input instructing the expansion of the folding display unit 380, and the application processing unit 331 responds to the instruction. You can also start the application software.

The communication unit 340 communicates with other devices via the network 50. Packet communication based on the TCP / IP protocol is adopted for the communication, but the communication is not limited to this. The communication unit 340 is composed of an antenna device that wirelessly communicates with another device via a wireless network, a communication module that communicates with another device by one-to-one wireless communication, and the like.

As described above, the opening / closing mechanism 350 is a mechanism for deploying the folding display unit 380 including the first hinge portion 354, the arm 353, the second hinge portion 352, and the rail 351. However, the present invention is not limited to this, and a mechanism for deploying the foldable display unit 380 by a so-called pantograph-shaped telescopic member may be used.

The voice input unit 360 is a so-called microphone that collects sound from the surroundings. The audio output unit 370 is a so-called speaker that emits sound to the surroundings. The foldable display unit 380 is, for example, a foldable organic EL (Electroluminescence) display using various flexible materials. The imaging unit 390 is a so-called imaging device that acquires an optical image in a predetermined direction around it.

The audio input unit 360, the audio output unit 370, and the image pickup unit 390 are not necessarily indispensable configurations for the smart watch 1. For example, the smart watch 1 may not include a part or all of an audio input unit 360, an audio output unit 370, and an imaging unit 390. Alternatively, the audio input unit 360 and the audio output unit 370 do not have to be independent of each other, and may be a combined audio input / output unit. Alternatively, the folding display unit 380 may be accompanied by an audio input unit 360, an audio output unit 370, and an imaging unit 390.

The application processing unit 331 of the control unit 330, the input / output control unit 332, and the open / close control unit 333 are realized by a program that causes the arithmetic unit to perform processing. This program is stored in the main storage device, the auxiliary storage device, and the ROM device, loaded on the main storage device for execution, and executed by the arithmetic unit.

Further, the storage unit 310 is realized by a main storage device and an auxiliary storage device. Further, the communication unit 340 is realized by a wireless communication device. The above is an example of the hardware configuration of the smart watch 1.

The configuration of the smart watch 1 can be further classified into more components according to the processing content. It can also be categorized so that one component performs more processing.

Further, each processing unit (application processing unit 331, input / output control unit 332, and open / close control unit 333) may be constructed by dedicated hardware (ASIC, GPU, etc.) that realizes each function. Further, the processing of each control unit may be executed by one hardware or may be executed by a plurality of hardware.

FIG. 7 is a diagram showing an example of a flow of expansion processing. The unfolding process is started after the smart watch 1 in the folded state is activated.

First, the folding display unit 380 receives a touch input from any of the touch input areas on each side surface (step S001).

Then, the input / output control unit 332 converts the received touch input into coordinates and specifies the input area to which the coordinates belong (step S002).

Then, when the open / close control unit 333 receives the expansion instruction from the input / output control unit 332, the opening / closing control unit 333 performs the expansion control (step S003). Specifically, the opening / closing mechanism 350 is instructed to unfold, and the opening / closing mechanism performs an operation of unfolding the folding display unit 380.

Then, the input / output control unit 332 switches the entire expanded folding display unit 380 to full-screen display (step S004). Specifically, the input / output control unit 332 continuously displays information as one screen across the input area, and also detects touch input as coordinates on one screen without distinguishing the input area. Switch.

Then, the input / output control unit 332 starts the application according to the input area (step S005). Specifically, the input / output control unit 332 identifies the touch-input icon from the input area and coordinates specified in step S002 when it is the input area of the side display, and corresponds to the icon. The attached application software is transmitted to the application processing unit 331 and instructed to start it in full screen. From the input area and coordinates specified in step S002, the input / output control unit 332 can be input to instruct the expansion of the display when it is the input area of either the plurality of corner portions 210B or the side portions 200A. Accepts as an input of a different second instruction, transmits the application software corresponding to the instruction to the application processing unit 331, and gives an instruction to start it in full screen.

Upon receiving the start instruction on the full screen, the application processing unit 331 starts the application software (step S006). Specifically, the application processing unit 331 continuously handles the display surface and the touch input area of the folding display unit 380 on one screen across the input area to start the application software.

The above is an example of the flow of expansion processing. According to the unfolding process, when the smartwatch 1 receives input to its side display, it unfolds the display and unfolds it, and displays an application corresponding to the icon of the side display input on the large screen as one screen. Can be activated.

The above is the smart watch 1 which is an example of an electronic device to which the embodiment according to one aspect of the present invention is applied. By using the smartwatch 1, when the smartwatch 1 receives the input to the side display, the display is unfolded and unfolded, and the smartwatch 1 responds to the icon of the side display input on the large screen as one screen. You can launch the app. Further, when the smart watch 1 accepts a touch input to either of the plurality of corner portions 210B or the side portions 200A, it accepts it as an input of a second instruction different from the input for instructing the expansion of the display, and responds to the instruction. You can start the application software.

The present invention is not limited to the above embodiments. The above embodiments can be variously modified within the scope of the technical idea of the present invention. For example, in the above embodiment, the smart watch 1 corresponds to so-called single-touch input, but is not limited to this. For example, it may be compatible with multi-touch (simultaneous touch input at a plurality of locations). In this case, it is possible to input to a plurality of input areas at the same time, and this may be used to increase the variation of application startup. Such an embodiment will be described below as a second embodiment.

The smart watch, which is an example of the electronic device according to the second embodiment, basically has the same configuration as the smart watch 1 which is an example of the electronic device according to the first embodiment, but there are some differences. It has a configuration. In the following, the differences will be mainly described.

FIG. 8 is a diagram showing an example of the data structure of the touch area combination operation table. The smart watch according to the second embodiment corresponds to the case of a plurality of simultaneous touch inputs, and the execution operation (application software to be activated) can be assigned according to the combination of the touch areas. The touch area combination operation table 312 defines the operation.

In the touch area combination operation table 312, the execution operation (startup application) 312c is stored in association with each other according to the combination of the first area 312a and the second area 312b.

The first region 312a is information indicating the input area for the touches in the order in which the inputs are made earlier. The second region 312b is information indicating the input area for the touches that are input in the slowest order. Since the combination of the input areas and the touch order may exist depending on the allowable number of multi-touches, the touch area combination operation table 312 covers all the combinations according to the combination and the touch order. You may.

The execution operation (startup application) 312c is information for specifying a predetermined execution operation according to the combination of input areas and the touch order. For example, when there is an input in the input area A and then in the input area B, the application X is started, and when there is an input in the input area B and then in the input area A, the application Y is started. If you want the smartwatch 1 to perform the above operation, you may store the records of "A, B, application X" and "B, A, application Y", respectively.

FIG. 9 is a diagram showing an example of a flow of the multi-touch area expansion process. Since the multi-touch area expansion process is basically the same as the expansion process according to the first embodiment, the differences will be mainly described below.

First, the folding display unit 380 receives touch input from any one of the touch input areas on each side surface or a plurality of touch inputs within a predetermined time (step S001').

Then, after step S004, the input / output control unit 332'refers to the touch area combination operation table 312, and starts the application according to the combination and order of the input areas. Specifically, the input / output control unit 332'identifies the touch-input area and the order from the input area and coordinates specified in step S002, and applies the application software associated with the icon to the application processing unit. Instruct 331 to start in full screen. As a result, when the input / output control unit 332'detects a touch input in a plurality of touch input areas, it accepts it as an input of a third instruction different from the input instructing the expansion of the display, and the application processing unit 331 receives the third instruction. You can start the application according to the instructions of.

The above is an example of an electronic device according to the second embodiment, which is a smart watch.

FIG. 10 is a diagram showing an example of a display screen (air conditioner operation screen) in the folded state of the smart watch 1. In the folded state of the smart watch 1, the output screens of various application software are displayed on the top display 100. For example, in application software that controls home appliances connected to a home network or controls IoT (Internet Of Things) devices, an icon 400 indicating an operation item is displayed near the corner 210B, and the operation is performed near the side 200A. The operation input indicator 401 that accepts the input of the quantity is displayed. The operation items include, for example, a set temperature, an air volume, an air direction, and the like.

FIG. 11 is a diagram showing an example of a display screen (lighting operation screen) in the folded state. In the lighting operation example of FIG. 11, application software that controls a lighting device connected to a home network is shown. The icon 410 indicating the lighting device to be operated is displayed in the vicinity of the corner portion 210B, and the operation input indicator 411 for receiving the input of the operation amount is displayed in the vicinity of the side portion 200A. The operation amount includes, for example, the amount of light and the brightness.

The technical elements of the above-described embodiment may be applied independently, or may be divided into a plurality of parts such as a program component and a hardware component and applied.

The present invention has been described above with a focus on embodiments.

1: Smart watch, 50: Network, 100: Top display, 100A, 100B: Side display, 110, 111: Side, 120B: Drape part, 200A: Side part, 210B: Corner part, 300: Control device, 310: Memory Unit, 311: Coordinate conversion table, 320: Power supply unit, 330: Control unit, 331: App processing unit, 332: Input / output control unit, 333: Open / close control unit, 340: Communication unit, 350: Open / close mechanism, 351: Rail , 352: Second hinge unit, 353: Arm, 354: First hinge unit, 360: Audio input unit, 370: Audio output unit, 380: Folding display unit, 390: Imaging unit, 400, 410: Icon, 401, 411: Operation input indicator.

The present application includes a plurality of means for solving at least a part of the above problems, and examples thereof are as follows. The electronic device according to one aspect of the present invention includes a foldable display that constitutes a hexagonal column in a folded state and has independent display surfaces on the upper surface and each side surface, an open / close control unit that controls the deployment of the display, and the display. When deployment is made, e Bei and a output control unit for the entire display displaying surface after deployment and initial screen, the display is a shape of the region of the upper surface in the folded state, the display the display surface after deployment It is characterized in that the overall shape is hexagonal.

Further, in the above-described electronic apparatus, the entering-output control unit, when the display is in a closed condition, and displayed in association with startup icon of a predetermined application to each of the display surface of the side, the start When a touch input to the icon is detected, it may be accepted as an input instructing the expansion of the display, and the open / close control unit may deploy the display in response to the instruction.

Further, in the above-mentioned electronic device, the display is provided with a touch input area independent of the display surface of the upper surface and each side surface in the vicinity of at least one of the corners or sides constituting the hexagonal column. fill output control unit detects a touch input to the touch input area, receiving as input a different second instruction from the input indicating the expansion of the display, applica- processing unit, in response to said second instruction It may be characterized in that the application is started.

Further, in the above-mentioned electronic device, the display has a touch input area that is independent of the display surface of the upper surface and each side surface in the vicinity of at least two corners or sides constituting the hexagonal column. When the input / output control unit detects a touch input in a plurality of the touch input areas, the input / output control unit accepts it as an input of a third instruction different from the input instructing the expansion of the display, and the application processing unit receives the input of the third instruction. It may be characterized in that the application is started in response to the third instruction.

Further, in the above-mentioned electronic device, the display has a touch input area that is independent of the display surface of the upper surface and each side surface in the vicinity of at least two corners or sides constituting the hexagonal column. When the input / output control unit detects a touch input in a plurality of the touch input areas, the input / output control unit accepts it as an input of a third instruction different from the input instructing the expansion of the display, and the application processing unit receives the input of the third instruction. It may be characterized in that the application is started according to a predetermined combination and order of the touch input areas that are touch-input at the time of the third instruction.

Further, a program according to another aspect of the present invention is a program of an electronic device including a foldable display, in which the display constitutes a hexagonal column in a folded state and has independent display surfaces on the upper surface and each side surface. The electronic device includes an opening / closing mechanism for expanding and folding the display, and a control unit for forming the entire display surface after expansion into a hexagonal screen when the display is expanded. A display step for causing the control unit to display a predetermined application start icon in association with each of the display surfaces on the side surface when the display is in the folded state, and a touch input to the start icon. It is characterized in that an instruction receiving step of detecting and receiving as an input instructing the deployment of the display and an instruction step of controlling the opening / closing mechanism to deploy the display in response to the received instruction are performed.

Further, another control method according to another aspect of the present invention is a control method for an electronic device including a foldable display, in which the display constitutes a hexagonal column in a folded state and displays independently on the upper surface and each side surface. The electronic device is a touch panel provided with a surface, and the electronic device includes an opening / closing mechanism for expanding and folding the display, and a control unit for forming the entire display display surface after expansion into a hexagonal screen when the display is expanded. When the display is in the folded state, the control unit has a display step of displaying a predetermined application start icon in association with each of the display surfaces on the side surface, and a touch input to the start icon. It is characterized in that an instruction receiving step of detecting and accepting as an input instructing the deployment of the display and an instruction step of controlling the opening / closing mechanism to deploy the display in response to the instruction are performed.

Claims (13)

With a foldable display
An open / close control unit that controls the deployment of the display,
When the display is expanded, the input / output control unit that makes the entire display surface after expansion one screen,
An electronic device characterized by being equipped with. The electronic device according to claim 1.
The display constitutes a polygonal prism in a folded state, and has an independent display surface on the upper surface and each side surface.
An electronic device characterized by that. The electronic device according to any one of claims 1 or 2.
The display is a touch panel.
An electronic device characterized by that. The electronic device according to any one of claims 1 to 3.
The input / output control unit receives an input instructing the deployment of the display, and receives the input.
The open / close control unit deploys the display in response to the instruction.
An electronic device characterized by that. The electronic device according to claim 1.
The display is a touch panel in which a polygonal prism is formed in a folded state and an independent display surface is provided on the upper surface and each side surface.
When the display is in the folded state, the input / output control unit displays a predetermined application start icon in association with each of the display surfaces on the side surface, and detects a touch input to the start icon. Accepted as input to instruct the deployment of the display
The open / close control unit deploys the display in response to the instruction.
An electronic device characterized by that. The electronic device according to claim 5.
When the display is expanded, the application processing unit that starts the application according to the start icon,
An electronic device characterized by being equipped with. The electronic device according to any one of claims 1 to 6.
The display constitutes a polygonal prism in a folded state, and has an independent display surface on the upper surface and each side surface.
In the display, the shape of the upper surface region in the folded state and the shape of the entire display display surface after unfolding are substantially similar.
An electronic device characterized by that. The electronic device according to claim 7.
An image pickup device and an audio input / output unit are attached to the display.
An electronic device characterized by that. The electronic device according to claim 5.
The display includes a touch input area that receives touch input independent of the display surface of the upper surface and each side surface in the vicinity of at least one of the corners or sides constituting the polygonal column.
When the input / output control unit detects a touch input in the touch input area, it accepts it as an input of a second instruction different from the input instructing the expansion of the display.
An application processing unit that starts the application in response to the second instruction,
An electronic device characterized by being equipped with. The electronic device according to claim 5.
The display includes a touch input area in the vicinity of at least two corners or sides constituting the polygonal column, which is independent of the display surface of the upper surface and each side surface and receives touch inputs independent of each other.
When the input / output control unit detects a touch input in a plurality of the touch input areas, it accepts it as an input of a third instruction different from the input instructing the expansion of the display.
An application processing unit that starts the application in response to the third instruction,
An electronic device characterized by being equipped with. The electronic device according to claim 5.
The display includes a touch input area in the vicinity of at least two corners or sides constituting the polygonal column, which is independent of the display surface of the upper surface and each side surface and receives touch inputs independent of each other.
When the input / output control unit detects a touch input in a plurality of the touch input areas, it accepts it as an input of a third instruction different from the input instructing the expansion of the display.
An application processing unit that launches the application according to a predetermined combination and order of the touch input areas touch-input at the time of the third instruction.
An electronic device characterized by being equipped with. A program of electronic devices with a foldable display
The display is a touch panel in which a polygonal prism is formed in a folded state and an independent display surface is provided on the upper surface and each side surface.
The electronic device is
An opening / closing mechanism that expands and folds the display,
When the display is unfolded, it is provided with a control unit that makes the entire display surface after unfolding one screen.
For the control unit
When the display is in the folded state, a display step for displaying a predetermined application start icon in association with each of the display surfaces on the side surface, and a display step.
An instruction receiving step that detects a touch input to the activation icon and accepts it as an input instructing the expansion of the display.
An instruction step that controls the opening / closing mechanism to deploy the display in response to the received instruction.
A program characterized by having the program implemented. A method of controlling an electronic device with a foldable display.
The display is a touch panel in which a polygonal prism is formed in a folded state and an independent display surface is provided on the upper surface and each side surface.
The electronic device is
An opening / closing mechanism that expands and folds the display,
When the display is unfolded, it is provided with a control unit that makes the entire display surface after unfolding one screen.
The control unit
When the display is in the folded state, a display step for displaying a predetermined application start icon in association with each of the display surfaces on the side surface, and a display step.
An instruction receiving step that detects a touch input to the activation icon and accepts it as an input instructing the expansion of the display.
An instruction step that controls the opening / closing mechanism to deploy the display in response to the instruction.
A control method characterized by carrying out.

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