JP2016142888A - Display unit, information display method, and information display program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display unit, information display method, and information display program that simply display desired information in a desired area so that the information can be readily discerned.SOLUTION: When a user wears a display unit 100 that includes a display panel 16 having a band-like curved display area, a user viewing direction is held in a certain direction on the basis of an angle θ, which is preliminarily calculated through user viewing direction designation processing and stored, using as a reference a vector Gx that is an X-plane component of a gravity direction vector G detected by a sensor unit. Accordingly, even when the inclination or orientation of the display unit is changed, desired information is displayed in a specific display area 110p oriented in the user viewing direction.SELECTED DRAWING: Figure 7

Description

  The present invention relates to a display device, an information display method, and an information display program that can be applied to a so-called wearable terminal that is worn on a human body.

  In recent years, the development and commercialization of wearable devices that can be worn on the human body to acquire various biological information and physical information during exercise and daily life, and provide useful information have been actively performed. . For example, Patent Literature 1 has a wristwatch-type appearance, is attached to a user's wrist, detects a heart rate and a moving speed, and notifies a variety of information based on the aerobic information via a notification means or a display unit. An exercise maintenance device is disclosed.

  Since such wearable terminals are used by being directly attached to a part of a human body such as a wrist or an arm, it is marketable to be thin and light and have a shape having a curvature corresponding to the part to be attached. And is requested by users. In addition, in recent health booms and sports booms, high design and functionality for wearable terminals, sportswear, goods, training machines, and the like have been demanded. For example, Patent Document 2 discloses various information such as time and time information via a display panel that has a thin and stylish wristband type appearance and is curved according to the shape of the wrist or arm to be worn. There is disclosed a portable device that provides

JP 2007-0775201 A JP 2007-077860 A

  In the wristband type wearable terminal as described above, if the display area or area of the display panel is large, a large amount of information can be displayed. The whole thing cannot be seen from one direction at a time. In order for the user (user) to surely see the desired information from the information displayed on the display panel, the user not only moves his / her line of sight but also turns the display panel by turning his / her wrist or arm wearing a wearable terminal, for example. This requires a special operation such as changing the direction of the head or moving the head to bend, which causes a problem that the user is very bothersome and inconvenient.

  In view of the above-described problems, an object of the present invention is to provide a display device that allows a user to easily and reliably visually recognize information displayed on a display panel having a curved shape while suppressing special operations. An object is to provide an information display method and an information display program.

The present invention
In the display device,
A display unit having a displayable area extending in a first direction;
A display control unit that adjusts a position of a display area for displaying information in the displayable area in accordance with an inclination state of the display device, and controls the display area to display the information at the adjusted position; ,
It is characterized by providing.

An information display method according to the present invention includes:
The position of the display area for displaying information in the displayable area is adjusted according to the tilt state of the display device including the display unit having the displayable area extending in the first direction, and the adjusted position is The display area is controlled to display the information.

An information display program according to the present invention includes:
The position of the display area for displaying information in the displayable area is adjusted according to the tilt state of the display device including the display unit having the displayable area extending in the first direction, and the adjusted position is Controlling that the display area displays the information is executed by a computer.

  According to the present invention, desired information can be easily displayed in a desired area and can be easily viewed by a user.

1 is a schematic configuration diagram showing a first embodiment of a display device according to the present invention. It is the schematic which shows the example of mounting | wearing to the human body of the display apparatus which concerns on 1st Embodiment. It is a schematic block diagram which shows the function structure in the display apparatus which concerns on 1st Embodiment. It is a disassembled perspective view which shows an example of the assembly | attachment structure (internal structure) in the display apparatus which concerns on 1st Embodiment. It is principal part sectional drawing in the display apparatus which concerns on 1st Embodiment. It is a flowchart which shows an example of the user visual direction setting process applied to the information display method in the display apparatus which concerns on 1st Embodiment. It is the schematic for demonstrating the coordinate system of the display apparatus applied to the user visual direction setting process which concerns on 1st Embodiment. It is the schematic for demonstrating the relationship between the inclination of the display apparatus applied to the user visual direction setting process which concerns on 1st Embodiment, and a user visual direction. It is a flowchart which shows an example of the information display process applied to the information display method in the display apparatus which concerns on 1st Embodiment. It is a perspective view which shows an example of the information display implement | achieved by the information display process which concerns on 1st Embodiment. It is a flowchart which shows an example of the information display process applied to the information display method in the display apparatus which concerns on 2nd Embodiment.

  Hereinafter, a display device, an information display method, and an information display program according to the present invention will be described in detail with reference to embodiments. Here, a case where the display device according to the present invention is applied to a wristband type device or a bracelet type device attached to a wrist of a human body will be described.

<First Embodiment>
FIG. 1 is a schematic configuration diagram showing a first embodiment of a display device according to the present invention. Here, FIG. 1A is a schematic perspective view showing an external configuration of the display device according to the present embodiment, and FIG. 1B is a front view of the display device shown in FIG. It is the front view seen from the direction (arrow D1 direction), and FIG.1 (c) is the side view which looked at the display apparatus shown to Fig.1 (a) from the drawing diagonally forward direction (arrow D2 direction). FIG. 2 is a schematic diagram showing an example of mounting the display device according to the present embodiment on a human body. FIG. 3 is a schematic block diagram illustrating a functional configuration of the display device according to the present embodiment.

(Appearance configuration)
The display device 100 according to the first embodiment of the present invention is roughly classified as shown in FIGS. 1A to 1C, for example, and is rotated with respect to the device main body 101 having a curved shape. And an openable / closable portion 102 that can be provided.

  Specifically, as shown in FIGS. 1A to 1C, the device main body 101 has a substantially band-like member curved with a predetermined curvature in the longitudinal direction, and is viewed from the side (FIG. 1). (D2 direction arrow shown in (c)), it has a structure formed in a substantially U shape or a substantially C shape. A rotation portion 103 having a rotation shaft is provided at one end portion in the longitudinal direction of the device main body 101 (the upper end portion in FIGS. 1A and 1C).

  Further, as shown in FIGS. 1A and 1C, the opening / closing portion 102 has a substantially band-shaped member, and has one end portion (the upper end portion in FIGS. 1A and 1C). Is connected to the device main body 101 via the rotation unit 103 and rotates with respect to the device main body 101 with the rotation axis of the rotation unit 103 as a fulcrum (center). As a result, the other end of the opening / closing part 102 (the end on the lower side of FIGS. 1A and 1C) is connected to the other end of the device main body 101 (the lower side of FIGS. 1A and 1C). Close state (shown by a solid line in FIG. 2 (b)) and an open state (shown by a two-dot chain line in FIG. 2 (b)) spaced apart by a predetermined dimension or more. It is set to change.

(Installation example)
In such a display device 100, as indicated by a two-dot chain line in FIG. 2B, the opening / closing unit 102 is rotated with respect to the device main body 101 with the rotation axis of the rotation unit 103 as a fulcrum, and the device The other end of the main body 101 and the opening / closing part 102 is opened. As a result, the curved inner mounting space 101 s of the device main body 101 is opened, and the display device 100 can be attached to or detached from the wrist USh. In this open state, the wrist USh is inserted into the mounting space 101s of the device main body 101, and the opening / closing part 102 is rotated with respect to the device main body 101 as shown by a solid line in FIG. 101 and the other end part of the opening-and-closing part 102 are made into the close state which adjoined or contact | adhered. Here, the turning operation of the opening / closing part 102 may be stopped only at a position where the closing state is set in advance by a turning adjusting member (not shown) provided in the turning part 103. Alternatively, the rotation may be paused stepwise for each predetermined angle, or the rotation may be paused steplessly.

  As a result, the mounting space 101 s of the device main body 101 is determined in an annular shape as shown in FIG. 1C, and as shown in FIGS. 2A and 2B, the device main body 101 and the opening / closing portion 102. The inner surface side (the surface on the mounting space 101s side) is in contact with or in close contact with the wrist USh, and the display device 100 is mounted on the wrist USh. Although not shown, the display device 100 connects the device main body 101 and the other end of the opening / closing portion 102 to each other in the closed state shown by the solid line in FIG. It may be provided with a lock / unlock mechanism. Thus, if the display device 100 is mounted and locked, it is possible to reliably prevent an accident in which the other end portions of the device main body 101 and the opening / closing portion 102 are separated from each other and fall off from the wrist USh while the display device 100 is being used. Can do.

(Functional configuration)
For example, as shown in FIG. 3, the display device 100 according to the present embodiment is roughly divided into a display unit 110, an operation unit (display area setting unit) 120, a sensor unit (motion sensor) 130, and a communication unit 140. , A control unit (parameter calculation unit, display control unit) 150 that is an arithmetic circuit such as a CPU, a storage unit 160, and a power supply unit 170. In the present embodiment, these configurations are built in the device main body 101 described above. An example of the internal structure (assembly structure) of the device main body 101 will be described later.

  For example, as shown in FIGS. 1 and 2, the display unit 110 is provided so as to extend in a strip shape in a substantially central region on the outer surface side along the longitudinal direction of the device main body 101 having the curved shape described above. . The display unit 110 displays various types of information on the outer surface side of the device main body 101 such as, for example, current time, biological information acquired during the user's operation or exercise, and exercise information. In particular, in the present embodiment, the display facing the user viewing direction, which is the direction that the user is viewing, of the display screen of the display unit 110, regardless of the orientation or inclination of the display device 100 attached to the user. Information desired by the user is set to be displayed in the area 110p. Various display panels such as a liquid crystal method, a light emitting element method such as an organic EL, and an electronic paper method can be applied to the display unit 110. Further, the various types of information displayed by the display unit 110 may be displayed in color or displayed in monochrome. Further, the various types of information displayed by the display unit 110 are not limited to character information and still images, and may be moving images.

  The operation unit 120 has software keys such as a touch panel provided on the visual field side (front side) corresponding to at least the entire display area of the display unit 110 described above. The operation unit 120 is used for operations for setting information desired by the user and for setting the information to be displayed in the display area 110p facing the position of both eyes of the user of the display unit 110. A specific example of an operation for displaying information desired by the user in the display area 110p of the display unit 110 facing the user's eye will be described later. The operation unit 120 may have hardware keys such as operation buttons (push buttons, slide buttons, touch sensors, etc.) provided on the outer surfaces of the device main body 101 and the opening / closing unit 102. Both a software key and a hardware key may be provided. These touch panels, operation buttons, and the like are also used for, for example, a power operation for starting up the display device 100 and an operation for setting other operations in the display device 100 (for example, operations in the sensor unit 130 and the communication unit 140). Used.

  The sensor unit 130 includes a sensor that outputs at least physical information such as acceleration, angular velocity, geomagnetism, gravity, and the like during user movement and exercise as detection signals in three orthogonal directions. The sensor unit 130 may include a sensor that acquires biological information such as a pulse, body temperature, and blood pressure during a user's operation or exercise, and environmental information such as atmospheric pressure, temperature, and humidity. Detection signals such as physical information and biological information acquired by the sensor unit 130 are stored as sensor data in a predetermined storage area of the storage unit 160 described later.

  The communication unit 140 functions as an interface that transmits / receives acquired sensor data and various signals to / from an external device (for example, a smartphone, a tablet, a personal computer, etc.) of the display device 100 and a network. Here, as a method for transmitting and receiving sensor data and the like between the display device 100 and an external device or the like via the communication unit 140, various wireless communication methods and wired communication methods are applied. In particular, when a wireless communication method is applied, the communication unit 140 has been formulated as, for example, Bluetooth (registered trademark), which is a short-range wireless communication standard for digital devices, or a low power consumption type communication standard. Communication methods such as Bluetooth slow energy (Bluetooth (registered trademark) low energy (LE)), NFC (Near field communication), and Wi-Fi (wireless fidelity (registered trademark)) can be favorably applied.

  The control unit 150 executes a predetermined program, thereby displaying information on the display unit 110, selecting information on the operation unit 120, setting a display position, sensing operation on the sensor unit 130, and communication unit 140. Various operations such as transmission / reception operation of sensor data, writing / reading operation to / from the storage unit 160, and power supply operation in the power supply unit 170 are controlled. Specific examples of the display operation on the display unit 110, the information selection operation on the operation unit 120, and the display position setting operation will be described later.

  The storage unit 160 includes sensor data acquired by the sensor unit 130, various types of information displayed on the display unit 110, and parameters for defining the user viewing direction when displaying information on the display unit 110 (described later). The angle θ). In addition, the storage unit 160 stores data and information used or generated when executing the various operations described above, which are controlled by the control unit 150. The storage unit 160 may store a program executed by the control unit 150. Further, the storage unit 160 may have a form as a removable storage medium such as a memory card, for example, and may be configured to be detachable from the display device 100.

  The power supply unit 170 includes a thin and curved battery extending in a band shape along the longitudinal direction of the device main body 101 having the above-described curved shape, and driving power output from the battery is supplied to each display device 100. Supply to the configuration. Here, as a battery applied to the present embodiment, a secondary battery that can be repeatedly charged and discharged, such as a lithium ion battery or a nickel metal hydride battery, is applied. In this case, the power supply unit 170 performs a charging operation to the battery in addition to the driving power supply operation from the battery to each component. In addition to the secondary battery described above, the power supply unit 170 includes a primary battery such as a commercially available button-type battery, a power supply using energy harvesting technology that generates power using energy such as vibration, light, heat, and electromagnetic waves. You may have a structure to use together.

  Although not shown, the display device 100 according to the present embodiment has an acoustic for notifying the information displayed on the display unit 110, the operation state of the display device 100, etc. in addition to the configuration shown in FIG. A part (for example, a speaker or a buzzer) or a vibration part (for example, a vibrator) may be provided. Accordingly, various sounds, buzzer sounds, and vibrations can be generated and notified to the user in accordance with the display on the display unit 110 and the operation state (particularly, abnormal state) of the display device 100.

(Assembly structure, assembly method)
FIG. 4 is an exploded perspective view showing an example of an assembly structure (internal structure) in the display device according to the present embodiment. FIG. 5 is a cross-sectional view of a main part of the display device according to the present embodiment. 5 is a VV line in the display device shown in FIG. 1B (in this specification, “V” is conveniently used as a symbol corresponding to the Roman numeral “5” shown in FIG. Is a schematic diagram showing a cross-sectional structure along the line.

  1 is roughly divided into a main body case 11, a frame 12, and a battery 13 (corresponding to the power supply unit 170 shown in FIG. 3), for example, as shown in FIGS. And a circuit board 14, an exterior cover 15, and a display panel 16 (corresponding to the display unit 110 shown in FIG. 3) provided with a displayable area as an area where information can be displayed. doing. The device main body 101 stores the frame 12, the battery 13, the circuit board 14, and the display panel 16 in a storage space 11 s formed by the main body case 11 and the exterior cover 15.

  For example, as shown in FIG. 4, the main body case 11 is formed of a substantially band-shaped insulating member and has a curved shape that is curved with a predetermined curvature in the band-shaped longitudinal direction. Further, the main body case 11 has a shape in which both sides thereof are bent or protrude outward (in the direction of the outer cover 15 in FIG. 4) along at least the longitudinal direction of the belt-like member. As shown in FIG. 4, the cross section has a concave storage space 11s. Further, the main body case 11 has an attachment hole for connecting to at least one end portion in the longitudinal direction of the belt-like member (the upper end portion in FIG. 4) with the rotating portion 103 provided on the opening / closing portion 102 side. A plurality of H11 are provided. The main body case 11 is accommodated while allowing a certain degree of deformation when the user uses the display device 100 in which at least the frame 12 and the exterior cover 15 described later are assembled on the wrist. It is preferable that the space 11s has sufficient rigidity and strength to hold the shape, and has a texture that does not cause a sense of incongruity even when it comes into contact with the human body (skin).

  For example, as shown in FIG. 4, the frame 12 is formed of a thin metal plate having a belt-like planar shape, and has a curved shape corresponding to a predetermined curvature of the main body case 11. Alternatively, the frame 12 has an appropriate rigidity such that the frame 12 is flexible or deformable so as to bend in accordance with the predetermined curvature, and the device main body 101 is bent by a temporary small force from the outside. It is set not to be too deformed or deformed too much. Further, as shown in FIG. 4, for example, the frame 12 has both side portions 12 c and 12 c which are both sides in the width direction of the intermediate portion located between the longitudinal end portions 12 b and 12 b of the strip-shaped thin plate in the width direction. An intermediate frame portion 12a is provided in which the dimension in the width direction is shorter than both end portions 12b and 12b by being omitted so as to be located only on the inner side.

  Further, the frame 12 has a plurality of attachment holes H12 for assembling and fixing in at least one end portion 12b (the upper end portion in FIG. 4) in the longitudinal direction of the strip-shaped thin plate in the storage space 11s of the main body case 11. Is provided. Further, at least one end 12b in the longitudinal direction of the frame 12 is provided with a board fixing pin P12 for determining an assembly position with a circuit board 14 to be described later. Here, a metal material such as iron, stainless steel, or aluminum alloy is applied to the frame 12, but the present invention is not limited to this, and a non-metallic material or structure having equivalent strength is applied. It may be a thing.

  For example, as shown in FIG. 4, the battery 13 is formed of a battery having a laminate package made of a resin film, a thin metal package, or the like in a strip shape, and is integrally formed on one surface side (the body case 11 side) of the frame 12. And has a curved shape corresponding to the shape of the frame 12. Or the battery 13 has the flexibility and the deformability which curve according to the shape of the flame | frame 12. FIG. Here, the battery 13 has, for example, a belt-like planar shape with dimensions corresponding to substantially the entire region of the frame 12, and is attached to substantially the entire region on one side of the frame 12 as shown in FIG. 4. Thereby, the battery 13 is exposed outside the both sides 12c and 12c of the intermediate frame 12a of the frame 12 inside the device main body 101 from the viewpoint from the direction of the arrow D1 shown in FIG. Although not shown, the output terminal of such a battery 13 is electrically connected to a circuit board 14 and a display panel 16 to be described later, for example, in a region corresponding to both ends 12b, 12b in the longitudinal direction of the frame 12. Has been.

  The circuit board 14 is formed only with a functional component mounting portion on which the sensor unit 130, the communication unit 140, the control unit 150, the storage unit 160, etc. described in the above-described functional configuration are mounted, and a wiring pattern such as signal wiring and antenna wiring. A pattern forming portion. For example, as shown in FIG. 4, the circuit board 14 is formed of an insulating substrate having a belt-like planar shape having dimensions corresponding to substantially the entire area of the frame 12 and the battery 13, and is formed at both ends of the belt-like longitudinal direction. A functional component mounting portion is provided, and pattern forming portions 14a and 14a are provided at intermediate portions located between both end portions 14b and 14b in the longitudinal direction. The circuit board 14 is formed of a thin insulating film or film-like insulating substrate such as a flexible printed circuit board (FPC). The pattern forming portions 14a and 14a and both end portions 14b and 14b are wired on the insulating substrate. Is formed. For example, as shown in FIG. 4, the circuit board 14 has a curved shape corresponding to the predetermined curvature, or has flexibility and deformability of bending corresponding to the predetermined curvature. Therefore, the pattern forming portions 14 a and 14 a can be curved in accordance with the curvature of the frame 12.

  In addition, as shown in FIG. 4, the circuit board 14 provided with the pattern forming portions 14a and 14a has a substantially central portion missing a predetermined dimension in the width direction in the middle portion excluding both end portions 14b and 14b in the longitudinal direction of the belt. And an opening 14h extending in the longitudinal direction is provided. That is, the circuit board 14 is opened by two pattern forming portions 14a and 14a that are connected to both end portions 14b and 14b in the longitudinal direction and both end portions 14b and 14b and whose length in the width direction is shorter than the end portion 14b. Part 14h is defined. Here, the width dimension of the opening 14 h provided in the circuit board 14 is set to be larger than the width dimension of the intermediate frame part 12 a provided in the frame 12. As a result, a pattern is formed to form an opening 14h of the circuit board 14 as shown in FIG. 5 in a state in which the unit including the frame 12, the battery 13, and the circuit board 14 is assembled in close contact with the main body case 11. The intermediate frame portion 12a of the frame 12 is located between the portions 14a and 14a. That is, the intermediate frame portion 12a of the frame 12 and the pattern forming portion 14a of the circuit board 14 are viewed from the stacking direction of the frame 12 and the circuit board 14 (the diagonally left front direction in FIG. 4 or the lower side in FIG. 5). It is set not to overlap each other in a plane. Therefore, even if the device main body 101 is bent or deformed, the pattern forming portion 14 a of the circuit board 14 is set so as not to contact the intermediate frame portion 12 a of the frame 12. Even if the battery 13 expands with time and the intermediate frame portion 12a of the frame 12 is pressed against the circuit board 14, the intermediate frame portion 12a of the frame 12 is in the storage space 11s in the opening portion 14h. The portion 14 a does not come into contact with the intermediate frame portion 12 a of the frame 12.

  In addition, a positioning hole H14 for determining an assembly position with the frame 12 is provided at least at one end in the longitudinal direction of the circuit board 14 (upper end in FIG. 4). For example, a sensor signal line for transmitting a detection signal output from the sensor unit 130 to the control unit 150 or a power supply unit 170 is supplied to the pattern forming unit 14a of the circuit board 14 provided with the pattern forming unit. Wiring patterns such as a power supply line for supplying driving power to each component and an antenna wiring corresponding to a wireless communication method applied to the communication unit 140 are formed. Here, by forming a sensor signal line in one of the two pattern forming portions 14a and 14a forming the opening 14h, forming a power supply line in the other, and isolating both by the opening 14h, The weak detection signal output from the sensor unit 130 can be satisfactorily transmitted to the control unit 150 while suppressing the influence of the electric field generated in the power line. Further, the circuit board 14 may be one in which the above functional components and wiring patterns are mounted or formed only on one surface side of the insulating substrate, or may be mounted or formed on both the front and back surfaces. May be. Here, the functional components and wiring patterns mounted or formed on the circuit board 14 are covered and protected by a known insulating protective film.

  For example, as shown in FIG. 4, the exterior cover 15 is formed of an insulating thin plate having a belt-like planar shape, and has a curved shape corresponding to a predetermined curvature of the main body case 11. Or the exterior cover 15 has the flexibility and the deformability which curve according to the predetermined curvature of the main body case 11. FIG. Further, as shown in FIG. 5, the exterior cover 15 is assembled so as to close and seal the open end side (lower side in the drawing) of the storage space 11 s provided in the main body case 11. Here, the exterior cover 15 can protect each component stored in the storage space 11s against at least pressure (external pressure) from the outside of the display device 100 and the surrounding environment (temperature, humidity, chemicals, etc.). It has properties (rigidity, heat resistance, moisture resistance, chemical resistance, etc.). In the present embodiment, the exterior cover 15 is formed of, for example, a transparent resin material or glass material.

  A display panel 16 that functions as the display unit 110 is integrally provided on one surface side (the storage space 11 s side) of the exterior cover 15. The exterior cover 15 is integrally provided with a touch panel (not shown) that functions as the operation unit 120. Thereby, the information displayed in the displayable area of the display panel 16 is transmitted to the visual field side through the transparent exterior cover 15 and is visually recognized by the user, and the user operates the touch panel based on the information. Various settings can be made. The exterior cover 15 is provided with a plurality of attachment holes H15 for closing the storage space 11s of the main body case 11 at both ends in the longitudinal direction of the strip-shaped thin plate (upper and lower ends in FIG. 4). ing.

  For example, as shown in FIG. 4, the display panel 16 includes a thin display device in which a displayable area where information can be displayed has a belt-like planar shape. It is provided integrally with the surface and has a curved shape corresponding to the shape of the exterior cover 15. Or the display panel 16 has the flexibility and the deformability which curve according to the shape of the exterior cover 15. The display panel 16 includes a liquid crystal display panel in which liquid crystal is sealed between flexible film resin substrates, an organic EL display panel in which an organic EL layer is provided on a flexible film resin substrate, and a flexible film. Like an electronic paper display panel in which colored particles are sealed between resin substrates, it is possible to maintain display even when the display is bent or deformed.

  Further, the display panel 16 has a display area extending in a strip-like longitudinal direction (first direction), and various types of information are static information based on characters and images in the entire display area or an arbitrary area. Or displayed by moving picture information. Information displayed on the display panel 16 is transmitted through the transparent exterior cover 15 to the user's field of view and viewed. In addition, on the visual field side of the display panel 16, for example, a touch panel is provided integrally with the exterior cover 15 so as to correspond to the entire display area. Although not shown, for example, a driver IC for driving the display panel 16 is provided at one end in the longitudinal direction of the display panel 16 or the exterior cover 15, and the circuit board 14 or the battery 13 is provided in the vicinity thereof. Is electrically connected.

  In addition, as shown in FIG. 4, for example, the opening / closing portion 102 has a structure in which a rotating portion 103 is provided at one end portion in the longitudinal direction of the substantially band-shaped member (the upper end portion in FIG. 4). ing. The rotation unit 103 includes a rotation axis, and is set so that the opening / closing unit 102 rotates about the rotation axis. Further, the rotation unit 103 is provided with a plurality of attachment holes H13 for connecting to at least the device main body 101.

  As shown in FIGS. 4 and 5, such a display device is assembled by first attaching the mounting hole H 13 provided in the rotating portion 103, the mounting hole H 11 provided in the main body case 11, and the frame 12. A female screw provided in the holder P11 by aligning each position with the provided mounting hole H12 and inserting the male screw B11 from the inner side (mounting space 101s side) of the main body case 11 and the rotating part 103. Secure with screws. Accordingly, the frame 12 and the battery 13 provided integrally with the frame 12 are assembled in the storage space 11 s of the main body case 11 in a curved state.

  Next, the board fixing pin P12 provided in the frame 12 is fitted into the positioning hole H14 provided in the circuit board 14, and the assembly position of the circuit board 14 with respect to the frame 12 is determined. Then, the longitudinal ends of the frame 12 and the circuit board 14 are bonded and fixed with, for example, an adhesive or a double-sided adhesive tape. As a result, the circuit board 14 on which various functional components are mounted is assembled in the storage space 11 s of the main body case 11 in a state of being substantially in close contact with the frame 12 and being curved. At this time, the battery 13 and the circuit board 14 are electrically connected in a region corresponding to the longitudinal ends of the frame 12 and the circuit board 14. As a method for positioning and fixing the frame 12 and the circuit board 14, in addition to the above-mentioned adhesive and double-sided adhesive tape, screw fixing, welding with resin, hot melt, or the like can be applied.

  Next, the exterior cover 15 integrally provided with the display panel 16 is disposed so as to close the storage space 11 s of the main body case 11, and the male screw B <b> 12 from the outside to the attachment hole H <b> 15 provided in the exterior cover 15. And is fixed to the female screw provided in the holder P11 by screwing. Thereby, the frame 12, the battery 13, and the circuit board 14 are assembled, and the storage space 11s of the main body case 11 in which the display panel 16 is stored is sealed. At this time, the driver IC for driving the display panel 16 provided on the exterior cover 15 side, the circuit board 14, and the battery 13 in a region corresponding to the longitudinal ends of the exterior cover 15 and the circuit board 14. Are electrically connected via a flat cable, a spring electrode terminal, or the like.

  Then, the cover part C11 is attached so as to cover the periphery of the male screw B12 and the attachment hole H15 in which the exterior cover 15 is fixed to the main body case 11 with the holder P11. This prevents moisture and the like from entering the storage space 11s of the sealed main body case 11 and improves the design of the display device 100. In FIG. 4, for convenience of illustration, one end portion (the upper end portion in FIG. 4) of the device main body 101 to which the rotating portion 103 is connected has been described in detail, but the other end portion (see FIG. 4). 4 may be fixed to the main body case 11 at both ends of the frame 12, the circuit board 14, and the outer cover 15. In FIG. 4, C <b> 12 is a cover part that covers the periphery of a male screw (not shown) that fixes the other end of the exterior cover 15 to the main body case 11, and C <b> 13 is the other end of the main body case 11. It is other cover parts attached to the part.

  According to the display device having such an assembly structure, the arrangement region of the battery 13 and the circuit board is determined (positioned) by the frame 12, and the battery 13 and the circuit board 14 are disposed on both sides so as to sandwich the frame 12. Laminated and fixed. Further, the intermediate frame portion 12a and the pattern forming portions 14a and 14a formed in the intermediate portion excluding both ends of the frame 12 and the circuit board 14 overlap in plan view when viewed from the stacking direction of the frame 12 and the circuit board 14. A predetermined gap 11 c is formed so that the pattern forming portions 14 a and 14 a of the circuit board 14 do not contact the battery 13. Accordingly, in a thin display device having a curved shape with a predetermined curvature, the thin battery 13 and the circuit board 14 incorporated in the device, and further the rigidity and strength of the device main body 101 are secured to some extent, and the display device It is possible to suppress bending and deformation caused by external pressure applied at the time of manufacture and use. In addition, the intermediate frame portion 12a and the pattern formation described above can be produced even when the parts and members are manufactured or assembled, or when the display device is bent or deformed due to external pressure applied during manufacture or use. It is absorbed by the arrangement of the portion 14a and the gap 11c, so that damage and peeling of components and members can be prevented, and good product quality can be realized.

  In the embodiment described above, as the structure of the device main body 101, an example in which the frame 12 having the intermediate frame portion 12a, the battery 13, and the circuit board 14 having the opening 14h are stacked and assembled to the main body case 11 is assembled. Although shown, the present invention is not limited to this. That is, the present invention provides a main body case that prevents the frame 12 and the circuit board 14 from coming into contact with each other and damaged due to manufacturing variations of parts and members, work variations during assembly, and bending or deformation that occurs during manufacturing or use of the display device. 11 may be used. Therefore, the display device may have a structure and method other than the above-described assembly structure and assembly method. For example, the display device may have a simple belt-like planar shape in which the frame 12 and the circuit board 14 do not have the intermediate frame portion 12a and the opening 14h, or a method other than screw fixing. Thus, the frame 12, the circuit board 14, and the exterior cover 15 may be fixed to the main body case 11.

(Information display method)
Next, an information display method in the display device according to the present embodiment will be described with reference to the drawings.

  FIG. 6 is a flowchart showing an example of the user viewing direction setting process applied to the information display method in the display device according to the present embodiment, and FIG. 7 is a display applied to the user viewing direction setting process according to the present embodiment. It is the schematic for demonstrating the coordinate system of an apparatus. FIG. 8 is a schematic diagram for explaining the relationship between the tilt of the display device applied to the user viewing direction setting process according to this embodiment and the user viewing direction. FIG. 9 is a flowchart illustrating an example of information display processing applied to the information display method in the display device according to the present embodiment. FIG. 10 illustrates information display realized by the information display processing according to the present embodiment. It is a perspective view which shows an example.

  In the display device according to the present embodiment, a user viewing direction setting process, a display information setting process, and an information display process are roughly classified. Each of these operation processes is realized by executing a predetermined program in the control unit 150 of the display device 100. Here, in the present embodiment, the following information display method will be described with the operation state in which the information display process is executed as a normal mode.

  In the user viewing direction setting process applied to the information display method in the display device 100, first, as shown in FIG. 6, the user wears the display device 100 on the body and activates the display device 100 (step S102). Specifically, as shown in FIG. 2B, the opening / closing part 102 is rotated with respect to the device main body 101 of the display device 100 to open and close the mounting space 101s, whereby the display device 100 is changed. Wear on wrist USh. Then, when the user turns on a power switch (not shown) provided on the operation unit 120 of the device main body 101, driving power is supplied from the power supply unit 170 to each component, and the display device 100 is in the normal mode. to start.

  In the sleep mode, the display device 100 constantly drives a part of the control unit 150 and the power supply unit 170 that supplies power to the sensor unit 130 and the sensor unit 130 so that only the sensor unit 130 functions, thereby the power supply unit 170. However, it may be set in a state where power is not supplied to a part of the control unit 150 or the sensor unit 130. In this case, the entire control unit 150 is activated when the sensor unit 130 outputs an activation signal to the control unit 150 based on biological information such as a pulse acquired by the user's wearing. The control unit 150 activated as a whole outputs a control signal so that the display unit 110, the operation unit 120, and the like function, and the display device 100 shifts from the sleep mode to the normal mode.

  Next, the user sets the operation state of the display device 100 to the user viewing direction setting mode (step S104). Specifically, for example, the user operates an operation unit 120 such as a touch panel or a push button provided on the device main body 101 of the display device 100, and the control unit 150 sets the user viewing direction from the normal mode. Change to setting mode. Note that the control unit 150 may change from the normal mode to the user viewing direction setting mode based on physical information detected by the sensor unit 130 by moving the arm wearing the display device 100 in a predetermined form.

  When the display device 100 is set to the user viewing direction setting mode, the control unit 150 obtains predetermined sensor data by causing the sensor unit 130 to perform a sensing operation (step S106), and displays based on the sensor data. The inclination (or orientation) of the apparatus 100 is detected (step S108).

  Specifically, the control unit 150 acquires acceleration data in three axis directions by an acceleration sensor provided in the sensor unit 130. Here, the acceleration data acquired by the acceleration sensor is detected as acceleration components in the X, Y, and Z axis directions of the three-dimensional coordinate system S1 set in advance in the display device 100. In the present embodiment, the three-dimensional coordinate system S1 is, for example, as shown in FIGS. 1B, 1C, and 7, the device main body 101 having a predetermined curvature and extending in a curved manner, or A plane passing through the center line Lc in the width direction (short direction; second direction) of the exterior cover 15 and the display panel 16 of the display unit 110 is defined as an X plane. Then, the origin P0 is set at a position that is an intersection of a rotation axis (corresponding to an X axis described later) and the X plane in the extending direction of the wrist USh of the user wearing the display device 100. Alternatively, the origin P0 is set on the X plane at a position that is substantially the center of an annular mounting space 101s formed by the device main body 101 and the opening / closing part 102 of the display device 100. An axis passing through the origin P0 and perpendicular to the X plane (corresponding to the extending direction of the wrist USh) is defined as the X axis. Further, the Y axis and the Z axis that are orthogonal to the X axis and are orthogonal to the X axis are set, the plane that passes through the origin P0 and is perpendicular to the Y axis is defined as the Y plane, and passes through the origin P0. A plane perpendicular to the Z axis is defined as a Z plane.

  Then, the control unit 150 detects a vector (gravity direction vector) G indicating the gravitational direction based on the triaxial acceleration data acquired by the acceleration sensor described above, for example, as shown in FIG. The gravity direction vector G is projected onto the X plane of the three-dimensional coordinate system S1, and a vector Gx of the X plane component (projection component) is calculated. The control unit 150 detects the inclination of the display device 100 with respect to the direction of gravity by calculation based on the vector Gx. Such an operation of detecting the tilt of the display device 100 may be executed continuously in time each time sensor data is acquired based on the sampling frequency of the acceleration sensor, or may be a predetermined cycle. It may be executed every (for example, 0.1 to 0.5 seconds).

  Next, in the displayable area of the strip-shaped long display panel 16 that functions as the display unit 110, the user can view the displayed information in a user viewing direction, and any desired by the user The position of the display area 110p is set. The control unit 150 determines whether or not the position of the display area 110p desired by the user has been set (step S110). Specifically, the state in which the user has lifted the arm on which the display device 100 is mounted to, for example, the height of the chest is set so that the information displayed by the user can be viewed well. In this state, by directly touching or tapping the touch sensor corresponding to the position where the display panel 16 can be visually recognized well within the band-like displayable area of the display panel 16 on which information is displayed. The position of the display area 110p is set. The tilt state of the display panel 16 at the time of setting is detected by an angle θ formed by a line connecting the origin P0 and the position of the display area 110p set by the user and the vector Gx, as shown in FIG.

  The control unit 150 displays information displayed on the display device 100 worn on the wrist during the user's daily or exercise operation on the extension line of the line connecting the origin P0 and the position of the display area 110p set by the user. Is assumed to be in a posture that facilitates visual recognition, and the direction connecting the origin P0 and the viewpoint of the user's display area 110p is set as a single user viewing direction. Note that this user viewing direction is strictly assumed to be directed to a position between both eyes of the user, and is a direction opposite to a plurality of lines of sight from both eyes when actually viewed by the user. There is no need to match. Here, in the process of setting the user viewing direction, the control unit 150 displays predetermined information, for example, over the entire band-shaped display area of the display panel 16, and the user touches the position where the user touches the display panel 16. May be set as the position of the display area 110p that is most easily visible, and the position touched by the user without being displayed on the display panel 16 may be set as the position of the display area 110p that is most easily visible to the user. Alternatively, the control unit 150 displays predetermined information only in a part of the display area of the display panel 16, and the user touches while changing the position of the displayed information in the display panel 16 over time. The position may be set as the position of the display area 110p that is most easily visible to the user.

  In step S110, when the position of the display area 110p in the state where the user is viewing is not set, the control unit 150 returns to step S106, acquires sensor data, and detects the tilt of the display device 100. Repeat the action to be performed. On the other hand, if it is determined that the position of the display area 110p in the state that the user is viewing is set, the control unit 150, as shown in FIG. 8, displays the origin P0 and the display designated by the user in step S110. The direction passing through the center of the region 110p is assumed to be the user viewing direction Du. Then, the control unit 150 calculates an angle θ (parameter) for defining the user viewing direction Du on the basis of the vector Gx of the X plane component of the gravity direction vector G detected in step S108, and stores it. The data is stored in a predetermined storage area of the unit 160 (step S112). Thereafter, the control unit 150 sets the operation state of the display device 100 to the normal mode.

  Next, in the display information setting process applied to the information display method in the display device 100, the user operates the operation unit 120 provided in the display device 100 to set the user viewing direction setting process described above. Processing for setting the type and content of information to be displayed in the display area 110p facing the viewing direction Du is performed. Specifically, first, the user operates the operation unit 120 such as a touch panel or a push button provided in the device main body 101 to set the operation state of the display device 100 to the display information setting mode.

  When the display device 100 is set to the display information setting mode, the control unit 150 displays a list of information and icons that can be displayed in the displayable area of the display panel 16. Next, by selecting a touch panel provided on the visual field side of the display area where information desired by the user is displayed by directly touching or tapping with a fingertip, the control unit 150 displays the information as display information. Set (register) as Thereafter, the control unit 150 sets the operation state of the display device 100 to the normal mode. Here, when the user desires to display a plurality of pieces of information, the control unit 150 displays the display position and display order of the pieces of information arbitrarily selected by the user (specifically, facing the user viewing direction described above). The display form such as the arrangement in the extending direction of the display panel 16 and the arrangement order thereof may be set (registered) around the display area 110p. In this way, by displaying one or more pieces of information in an arbitrary display position or display order in the strip-like display area of the display panel 16, the user can easily view more information. In the display information setting process, information that can be displayed on the display unit 110 includes, for example, the current time, the biological information and exercise information acquired during the user's operation and exercise, and the direction and weather forecast at the current position. Various information such as stock price, traffic information, breaking news, etc. can be applied, and the user can select desired information from these information.

  Note that the user viewing direction setting process and the display information setting process described above may be executed as an initial setting operation prior to the information display process described later, or desired information is displayed on the display unit 110 by the information display process. It may be executed by the user at an arbitrary timing during the displayed period. Moreover, the user visual direction setting process and the display information setting process described above may be executed continuously or may be executed independently.

  Next, in the information display process applied to the information display method in the display device 100, the user's desired information set in the display information setting process described above is displayed in the band-like display area of the display panel 16. A process of displaying in the display area 110p facing the user viewing direction Du set in the direction setting process is performed. Specifically, as shown in FIG. 9, first, as in the user viewing direction setting process described above, the user wears the display device 100 and starts it in the normal mode (step S122). Thereby, the control unit 150 causes the sensor unit 130 to perform a sensing operation to acquire predetermined sensor data (step S124), and based on the sensor data, the tilt (or orientation) of the display device 100 with respect to the current gravity direction. ) Is detected (step S126).

  Next, the control unit 150 determines the display area 110p facing the user viewing direction Du based on the detected tilt of the display device 100 (step S128). Specifically, the control unit 150 detects the current gravity direction vector G based on the triaxial acceleration data acquired as sensor data, similarly to the above-described user viewing direction setting process (see FIG. 8). Then, the vector Gx of the X plane component projected on the X plane of the three-dimensional coordinate system S1 is calculated. Then, the control unit 150 uses the angle θ calculated in advance and stored in the storage unit 160 in the above-described user viewing direction setting process on the basis of the calculated X plane component vector Gx. The user viewing direction Du is calculated. Thereby, the control unit 150 is a position in the band-like display area of the display panel 16 that is easily visible to the user, and has a predetermined area centered on the user viewing direction (facing the user viewing direction). Display area) 110p is determined, and the desired information set in the display information setting process described above is always displayed in the desired form in the display area 110p (step S130).

  In this information display state, the control unit 150 monitors the tilt and orientation of the display device 100 detected based on the sensor data acquired in steps S124 and S126 (step S132). If it is determined that there is a change in the tilt of the display device 100, the control unit 150 returns to step S128, and based on the newly detected (that is, changed) tilt of the display device 100, the user viewing direction. The display area 110p facing Du is determined again, and the operation of displaying desired information in the display area 110p is repeatedly executed. On the other hand, when there is no change in the tilt of the display device 100, the operation of displaying desired information in the current display area 110p is continued.

  Although not shown in the flowchart illustrated in FIG. 9, the control unit 150 performs an input operation for interrupting or terminating the processing operation or a change in the operating state of the display device 100 during the execution of the information display processing described above. When the input operation or state change is detected, the processing operation is forcibly terminated. Specifically, the control unit 150 detects a user's operation of turning off the power switch, a decrease in the remaining battery level in the power supply unit 170, an abnormality in a function or application being executed, and the like, and forcibly executes a series of processing operations. Interrupt and exit.

  That is, in the present embodiment, the X plane of the three-dimensional coordinate system S1 set in the display device 100 is along the device main body 101 that has a predetermined curvature and extends as shown in FIG. It is a plane that passes through the center line Lc in the width direction (short direction) of the display panel 16 provided in a strip shape. The display area 110p that is set by the user and is easily visible (that is, facing the user viewing direction Du) is, as shown in FIG. 8, the gravitational direction vector G detected based on the sensor data. It is defined by an angle θ on the X plane with reference to the vector Gx of the X plane component. Therefore, even when the display device 100 is tilted or the tilt or orientation of the display device 100 is changed during execution of the information display processing in the normal mode, it is detected during the execution of the information display processing. The control unit 150 holds the user viewing direction Du in a constant direction based on the angle θ calculated and stored in advance by the user viewing direction setting process with reference to the vector Gx of the X plane component of the gravity direction vector G. The position of the display area 110p is adjusted as described above.

  That is, for example, as illustrated in FIGS. 10A to 10C, the display device 100 in the X plane is tilted with respect to the assumed position of the user's eyes while the information display process is being performed in the normal mode, or When the inclination or orientation of the display device 100 changes, the vector Gx of the X plane component of the gravity direction vector G during execution of the information display process so that the display area 110p always faces the set user viewing direction Du. The control unit 150 appropriately moves the position of the display area 110p in the longitudinal direction of the strip-shaped display area of the display panel 16 only according to the direction θ and the angle θ calculated by the user visual direction setting process in the user visual direction setting mode. (Refer to dotted arrows in the figure). Thereby, desired information is displayed so that the display area 110p always faces the position between both eyes of the user.

  As described above, according to the present embodiment, in a display device including a display unit having a strip-shaped curved display region that can display more information, the user can wear the display device. Even when the tilt or orientation of the display device changes, desired information is displayed in a specific display area facing the user viewing direction. Thus, the user can easily and surely view the desired information without moving the line of sight, rotating the portion on which the display device is mounted, or performing the action of raising the neck. In the present embodiment, since the desired information preset by the user is always displayed in the display area facing the user viewing direction, it is not necessary to turn on the display of the display unit, and it is quick and reliable. Desired information can be visually recognized.

  In the present embodiment, it has been described that one or more pieces of desired information can be selected as information to be displayed on the display unit 110 and their display positions and display order can be arbitrarily set. In such a case, one or more pieces of information are sequentially arranged adjacent to each other in the extending direction of the band-like displayable area of the display panel 16 around the display area 110p facing the user viewing direction Du. Therefore, since the area of the area displaying information increases as the amount of information increases, the entire area displaying information may be difficult to see from the user. Therefore, in the present embodiment, the display unit 110 performs a user viewing direction Du by performing an operation on the operation unit 120 such that the user directly touches, taps, or swipes the touch panel with a fingertip. The information displayed at the same time as the display area 110p in the area other than the position of the display area 110p facing the user is moved to the position where the display area 110p facing the user viewing direction Du was displayed. it can. Therefore, the desired information is displayed by displaying the desired display information at the position where the display area 110p facing the user viewing direction Du of the display panel 16 is displayed by simple operation. Information can be visually recognized with certainty.

  In addition, the characteristics of the display panel 16 applied to the display unit 110 according to the present embodiment are not particularly limited. For example, a display device having a narrow viewing angle may be applied. According to this, the desired information displayed in the display area can be normally visually recognized only from within a relatively narrow range centered on the user viewing direction Du, and normal display is possible even when viewed from the periphery. Since visual recognition can be prevented (inhibited), confidentiality and privacy of information can be effectively protected.

  In the present embodiment, the case where the display device 100 is attached to either the left or right wrist has been described, but the display device 100 may be attached to either the left or right wrist. Also in this case, since the user viewing direction Du is defined in advance by the angle θ based on the vector Gx of the X plane component of the gravity direction vector G in the user viewing direction setting process described above, the user viewing direction Du faces the user viewing direction Du. The desired information can be appropriately displayed in the display area 110p. Further, even when the display device 100 is mounted on one wrist upside down, similarly, the user viewing direction Du is defined based on the vector Gx of the X plane component of the gravity direction vector G. The desired information can be displayed in the normal position as viewed from the user without being upside down. Thereby, an easy-to-use display device can be provided.

<Second Embodiment>
Next, a second embodiment of the present invention will be described.
In the first embodiment described above, information desired by the user is always displayed on the display area 110p facing the user viewing direction Du on the display panel 16 having a strip-shaped curved display area provided in the display unit 110. Explained when to do. The second embodiment is characterized in that on / off of display on the display unit 110 is controlled by detecting a mounting state of the display device 100 and a state in which the user visually recognizes information on the display unit 110. In the embodiment described below, the case where both the mounting state of the display device 100 and the state of visual recognition of information by the user are detected will be described. However, only one of these is detected and the display on the display unit 110 is detected. It may be one that controls turning on and off.

  FIG. 11 is a flowchart illustrating an example of information display processing applied to the information display method in the display device according to the second embodiment. Here, about the structure and method equivalent to 1st Embodiment, the description is simplified with reference to the description mentioned above suitably.

  In the information display process applied to the display device 100 according to the present embodiment, first, as shown in FIG. 11, the user activates the display device 100 in the normal mode (step S202). Accordingly, the control unit 150 causes the sensor unit 130 to perform sensing operation to acquire predetermined sensor data (step S204), and based on the sensor data, the inclination (or orientation) of the display device 100 with respect to the direction of gravity. Detection is performed (step S206).

  Next, the control unit 150 determines whether or not the display device 100 is mounted on the user based on the sensor data acquired by the sensor unit 130 (step S208). Specifically, in a state where the user wears the display device 100, sensor data such as acceleration data and angular velocity data, and detected display are compared with a state where the user places the display device 100 on a desk or the like without wearing the display device 100. Differences occur in changes in the tilt and orientation of the device 100. The control unit 150 constantly or periodically monitors the sensor data acquired by the sensor unit 130 or the tilt of the display device 100. The control unit 150 determines that the display device 100 is attached (attached state) when, for example, a change continues within a predetermined time, and the change continues within a predetermined time. If it has not occurred, it is determined that it is not attached (non-attached state). When it is determined that the display device 100 is in the non-wearing state, the control unit 150 controls the display operation in the display unit 110 to be in an off state (step S218), and so on until the display device 100 is in the wearing state. This determination process is repeated.

  On the other hand, when it is determined that the display device 100 is in the mounted state, the control unit 150 determines whether the user is in a state of visually recognizing information displayed on the display unit 110 (step S210). Specifically, when the user visually recognizes the information displayed on the display unit 110, for example, the arm or the like on which the display device 100 is worn is lifted to the height of the chest, and a posture or movement is performed. Accordingly, the control unit 150 monitors the gravity direction vector G detected based on the sensor data acquired by the sensor unit 130 and the X plane component vector Gx indicating the tilt of the display device 100.

  Then, for example, when the difference in the direction of these vectors (angle difference) is within a predetermined range and this state continues for a predetermined time, the control unit 150 causes the display unit 110 to It is determined that the displayed information is viewed (viewing state). Alternatively, the sensor data acquired by the sensor unit 130 is monitored. For example, when the range of change (blur width) of the sensor data is within a predetermined range and this state continues for a predetermined time It is determined that the user is viewing the display on the display unit 110 (viewing state). On the other hand, when the direction of the gravity direction vector G detected based on the sensor data or the direction of the vector Gx of the X plane component is not within a predetermined direction range, or the range (shake width) of change of the sensor data is predetermined. If it is not within the range, the control unit 150 determines that the user is not viewing the information on the display unit 110 (non-viewing state). When it is determined that the user is in a non-viewing state, the control unit 150 controls the display operation on the display unit 110 to be in an off state (step S220), and performs the same determination until the user enters the viewing state. Repeat the process.

  On the other hand, when it is determined that the user is in the visual recognition state, the control unit 150 uses the X-plane component vector Gx of the current gravity direction vector G detected based on the sensor data as a reference, and the user described above. The user viewing direction Du is calculated using the angle θ calculated in advance in the viewing direction setting process, and the display area 110p facing the user viewing direction Du is determined from the strip-shaped display area of the display panel 16 ( Step S212). Then, the control unit 150 controls the display operation in the display unit 110 to be in an on state, and displays the desired information set in the display information setting process described above in the desired form in the display area 110p (step S214).

  In this information display state, the control unit 150 monitors the tilt and orientation of the display device 100 based on the sensor data acquired in steps S204 and S206 (step S216). If it is determined that there is a change in the tilt of the display device 100, the control unit 150 returns to step S208, and the display device 100 prompts the user based on the newly acquired sensor data and the tilt of the display device 100. It is determined whether or not the user is wearing the device and whether or not the user is viewing the information on the display unit 110, and the operation for controlling on / off of display on the display unit 110 is repeatedly executed. On the other hand, when there is no change in the tilt of the display device 100, the operation of displaying desired information in the current display area 110p is continued.

  Although not shown in the flowchart shown in FIG. 11, as in the first embodiment described above, the control unit 150 performs input to interrupt or end the processing operation during the execution of the information display processing described above. A change in the operation state of the operation or the display device 100 is constantly monitored, and if the input operation or a state change is detected, the processing operation is forcibly terminated.

  As described above, in the present embodiment, the wearing state of the display device 100 and the visual state of information on the display unit 110 by the user are detected, the user wears the display device 100, and the user uses the information on the display unit 110. The display on the display unit 110 is controlled to be in an on state only when the user is viewing the image. On the other hand, when the user does not wear the display device 100 or when the user does not visually recognize the information on the display unit 110, the display on the display unit 110 is controlled to be turned off. Thereby, in this embodiment, in addition to the effect shown in the first embodiment described above, the power consumed in the information display can be greatly reduced, and the display device 100 can be configured without charging or battery replacement. It can be used for a long time.

  In the present embodiment, as a method for turning on / off the display of information on the display unit 110, the display device 100 is in a wearing state based on sensor data acquired by the sensor unit 130, and the user Although the method for detecting the specific movement of the display device 100 when the camera is in the visual recognition state has been described, the present invention is not limited to this. In other words, the present invention turns off the display of the display unit 110 in a state where the display device 100 is not mounted (non-mounted state) or in a state where the user is not viewing information on the display unit 110 (non-viewed state). As long as the power consumption can be reduced. Therefore, according to the present invention, only when a user performs a specific operation (gesture) such as rotating the arm a plurality of times or shaking it quickly while wearing the display device 100, the display of the display unit 110 is performed. The display may be controlled so that the display is turned off during other periods. The specific operation by the user in this case can be determined based on sensor data detected by, for example, an acceleration sensor or an angular velocity sensor provided in the sensor unit 130. Note that the method for controlling the display device 100 according to the user's specific operation is not limited to the above-described display on / off control, and by registering various specific operations, for example, as described above. The present invention can be applied to various types of control such as operation mode setting change and menu screen display in display information setting processing.

  In each of the above-described embodiments, the case where the acceleration data in the three-axis direction acquired by the acceleration sensor is applied as the sensor data for detecting the tilt of the display device 100 has been described. It is not limited. In other words, the present invention only needs to be able to detect the tilt of the display device 100, and applies sensor data detected by other sensors such as an angular velocity sensor, a gravity sensor, and a geomagnetic sensor. May be. Here, when the present invention is applied to a wearable terminal including various motion sensors, an existing motion sensor may be used as a sensor for detecting the tilt of the display device 100 described above.

  In each embodiment described above, as a method for setting the user viewing direction, the case where the user directly touches or taps the touch panel provided on the visual field side of the display area of the display panel 16 has been described. However, the present invention is not limited to this. That is, in the present invention, any device that can set the user's viewing direction may be used. For example, the operation unit 120 such as a touch sensor or a push button provided around the strip-shaped display area of the display panel 16 is operated. Accordingly, the display area 110p facing the user viewing direction may be set. The present invention is not limited to a method in which the user directly sets the viewing direction. The display device 100 includes a camera, and the user's binocular position is relative to the display device 100 using the camera. The user viewing direction may be defined by recognizing the correct position.

  Moreover, in each embodiment mentioned above, although the case where the display apparatus 100 was mounted | worn with the wrist of a human body was demonstrated, this invention is not limited to this. That is, the present invention is a position that can be visually recognized by the user in addition to the case where it is worn on the wrist or arm, and has a predetermined curvature (it may be a part of the human body or may not be a human body). It can be used with good wearing. Further, according to the present invention, the device main body 101 and the display panel 16 have a curved shape whose curvature continuously changes when viewed from the side surface (see FIG. 1C) according to the shape of a human body part. For example, the plurality of flat display panels may have a polygonal shape when viewed from the side (arrow D2 direction).

As mentioned above, although some embodiment of this invention was described, this invention is not limited to embodiment mentioned above, It includes the invention described in the claim, and its equivalent range.
Hereinafter, the invention described in the scope of claims of the present application will be appended.

(Appendix)
[1]
In the display device,
A display unit having a displayable area extending in a first direction;
A display control unit that adjusts a position of a display area for displaying information in the displayable area in accordance with an inclination state of the display device, and controls the display area to display the information at the adjusted position; ,
A display device comprising:

[2]
Parameters that define the user viewing direction as the direction in which the user is viewing the display area from the position of the display area that displays information in the displayable area and the tilt state of the display device in the user viewing direction setting mode A parameter calculation unit for calculating
Further comprising
The display control unit is adjusted by adjusting the position of the display area set in the display area setting unit based on the tilt state of the display device in the normal mode and the parameter calculated by the parameter calculation unit. The display device according to [1], wherein the display area is controlled to display the information at a different position.

[3]
The display control unit displays the information in the display area, displays other information different from the information in an area in the displayable area at a position different from the display area, and follows the user's instruction. The display device according to [1] or [2], wherein other information is moved from the different area to the position of the display area and displayed.

[4]
A sensor unit for detecting at least the direction of gravity;
The sensor unit includes a motion sensor that detects an operation state of the user,
[1] to [3], wherein the display control unit controls display or non-display of the information in the display area based on an operation state of the user detected by the motion sensor. The display apparatus in any one.

[5]
The parameter calculation unit is based on a projection component vector obtained by projecting the vector in the gravitational direction onto a specific plane passing through the center of the second direction orthogonal to the first direction of the displayable area. The display device according to any one of [2] to [4], wherein the parameter that defines the user viewing direction on the specific plane is calculated.

[6]
The position of the display area for displaying information in the displayable area is adjusted according to the tilt state of the display device including the display unit having the displayable area extending in the first direction, and the adjusted position is An information display method comprising controlling the display area to display the information.

[7]
The position of the display area for displaying information in the displayable area is adjusted according to the tilt state of the display device including the display unit having the displayable area extending in the first direction, and the adjusted position is An information display program for causing a computer to control that the display area displays the information.

DESCRIPTION OF SYMBOLS 11 Main body case 11s Storage space 12 Frame 13 Battery 14 Circuit board 15 Exterior cover 16 Display panel 100 Display device 101 Device main body 101s Installation space 102 Opening / closing part 103 Rotating part 110 Display part 110p Display area 120 Operation part 130 Sensor part 140 Communication part 150 Control Unit 160 Storage Unit 170 Power Supply Unit USh Wrist G Gravity Direction Vector Gx X Plane Component Vector Du Gaze Direction

Claims (7)

In the display device,
A display unit having a displayable area extending in a first direction;
A display control unit that adjusts a position of a display area for displaying information in the displayable area in accordance with an inclination state of the display device, and controls the display area to display the information at the adjusted position; ,
A display device comprising: Parameters that define the user viewing direction as the direction in which the user is viewing the display area from the position of the display area that displays information in the displayable area and the tilt state of the display device in the user viewing direction setting mode A parameter calculation unit for calculating
Further comprising
The display control unit is adjusted by adjusting the position of the display area set in the display area setting unit based on the tilt state of the display device in the normal mode and the parameter calculated by the parameter calculation unit. The display device according to claim 1, wherein the display area is controlled to display the information at a different position.   The display control unit displays the information in the display area, displays other information different from the information in an area in the displayable area at a position different from the display area, and follows the user's instruction. The display device according to claim 1, wherein other information is displayed by being moved from the different area to the position of the display area. A sensor unit for detecting at least the direction of gravity;
The sensor unit includes a motion sensor that detects an operation state of the user,
The display control unit controls display or non-display of the information in the display area based on an operation state of the user detected by the motion sensor. The display device described in 1.   The parameter calculation unit is based on a projection component vector obtained by projecting the vector in the gravitational direction onto a specific plane passing through the center of the second direction orthogonal to the first direction of the displayable area. The display device according to claim 2, wherein the parameter that defines the user viewing direction on the specific plane is calculated.   The position of the display area for displaying information in the displayable area is adjusted according to the tilt state of the display device including the display unit having the displayable area extending in the first direction, and the adjusted position is An information display method comprising controlling the display area to display the information.   The position of the display area for displaying information in the displayable area is adjusted according to the tilt state of the display device including the display unit having the displayable area extending in the first direction, and the adjusted position is An information display program for causing a computer to control that the display area displays the information.

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