JP2011186688A - Input/output device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an input/output device that a user can stably hold during an input operation to a touch panel display. <P>SOLUTION: In the input/output device 10, rib members 36 and 38 having inner sides 46 and 48 for holding a user's arm 100 in between project from a back side of the touch panel display 12, and when the input/output device 10 is placed on a surface 8, the movable rib member 38 abuts the surface 8 to fix a screen inclination angle θg of an image display screen 20. The rib members 36 and 38 restrain the user's arm 100 holding the input/output device 10 relative to the input/output device 10, so that the user can put the arm 100 over to the back side of the touch panel display 12 to stably hold the input/output device 10 during an input operation to the touch panel display 12. The input/output device 10 can be placed on the surface 8 to be used, for example, as a digital photo frame. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a technique for improving operability in an input / output device including a touch panel display.

  An input / output device including a touch panel display that performs an input operation using a stylus pen or the like is known. For example, this is the image input processing device described in Patent Document 1. The image input processing device of Patent Document 1 includes a CCD image pickup unit and a touch panel display that displays image data picked up by the CCD image pickup unit and can be input. The CCD image pickup unit is rotatably attached to the case body so that the image pickup direction can be changed. The operation unit for rotating the CCD image pickup unit and the shutter of the CCD image pickup unit are arranged in a range that can be operated by the user with one hand.

Japanese Patent Laid-Open No. 10-341363 JP 2003-150299 A

  The above-described image input processing device of Patent Document 1 is a device that can basically perform an operation such as an imaging action with one hand and is a so-called palm-sized device that can be placed on the palm of a user. In such a small device, it is easy for the user to firmly hold and hold the device itself with his / her hand. Therefore, in the input operation on the touch panel display, the device is stabilized with one hand and the other hand is used. It is not so difficult to input characters, figures and the like neatly by so-called handwriting input.

  Here, in an input / output device such as a digital photo frame whose main function is to display an image, it is preferable that the image is easy to see, so that the screen is larger. For example, the screen size is 7 to 10 inches (inch). Such an input / output device is used by being placed on a desk or the like at a predetermined angle at which the screen is easy to see, but the user can touch the touch panel display of the input / output device (eg, digital photo frame). When an input operation is performed on an object, it is difficult to perform the input operation while it is placed on the desk, etc. In particular, it is difficult to input characters, figures, etc. neatly in the handwriting input. Therefore, when the user performs an input operation on the touch panel display, the user performs the input operation with a hand.

  However, when the screen size of the touch panel display is about 7 to 10 ″ as described above, the input / output device including the touch panel display is held in the same manner as that of the palm size because it is not small enough to be placed on the palm. For example, the user puts the input / output device on one arm and holds it, and in such an input / output device that is large enough for the user to put it on one arm, It is difficult for a person to stably hold the input / output device, and in an input operation on the touch panel display, characters, figures, etc. may not be input neatly by the handwritten input. So that the input / output device can be placed on a desk or the like in the In such the one that is, in particular, it has been difficult to hold the input-output device stably.

  The present invention has been made against the background of the above circumstances, and an object of the present invention is to provide an input / output device that can be stably held when a user performs an input operation on a touch panel display. There is.

  In order to achieve such an object, the gist of the present invention is that (a) a touch panel display that displays an image and detects that an input operator operated by a user has touched the image display surface is provided on the front surface. (B) a rib member having a side surface for sandwiching a part of the upper limb of the user is provided protruding from the back side of the touch panel display; and (c) the input / output device When the apparatus itself is placed on the placement surface, the rib member is in contact with the placement surface to fix the screen inclination angle of the image display surface.

  In this way, the rib member restrains the upper limb of the user holding the input / output device with respect to the input / output device. The input / output device can be stably held by turning a hand or arm toward the back side of the touch panel display. As a result, it becomes easier to input characters, figures, and the like neatly in the handwriting input to the touch panel display as compared with, for example, those not provided with the rib member. Further, when the input / output device itself is placed on the placement surface, the rib member abuts on the placement surface and fixes the screen inclination angle of the image display surface. When the image displayed on the screen is viewed, the input / output device can be placed on the mounting surface in a posture suitable for the viewing. Therefore, for example, the input / output device can be used as a digital photo frame that is an electronic photo frame for displaying a digital image.

  Here, preferably, the rib member has a shape evenly distributed on both sides in the longitudinal direction of the upper limb sandwiched between the rib members with reference to the center of the image display surface. In this way, the input / output device can be held equally stably even if the upper limb between the rib members is the upper or lower limb of the user.

  Preferably, (a) the rib member is at least two rib members having side surfaces opposed to each other, and (b) the opposite faces according to the thickness of the upper limb sandwiched between the rib members. There is provided a rib interval adjusting device capable of moving at least one of the rib members with respect to the touch panel display so as to change the mutual interval between the side surfaces. In this way, it is possible to adjust the distance between the opposing side surfaces according to the thickness of the upper limb of the user sandwiched between the rib members, where the size of the hand and the thickness of the arm vary from person to person. It is. Therefore, the user can stably hold the input / output device by absorbing variations in the hand size and arm thickness of the user.

  Preferably, a rib rotation position adjusting device is provided that can rotate the rib member relative to the touch panel display around a vertical line with respect to the image display surface. In this way, the longitudinal direction of the user's upper limb sandwiched between the rib members can be changed with respect to the touch panel display without changing the vertical and horizontal directions of the image displayed on the touch panel display. The degree of freedom of the user's posture when holding the entry / output device is increased.

  Preferably, (a) a detection means for detecting that the input / output device itself is held on the upper limb of the user is provided, and (b) the input / output device itself is used by the detection means. When it is detected that the person's upper limb is held, the input mode is set to accept the input by the touch operation on the image display surface. In this way, when the user holds the input / output device with the upper limb, it is considered that the user has an intention to perform an input operation on the touch panel display. When trying to perform an input operation on the touch panel display, it is possible to reduce the labor of the user.

  Preferably, in the perpendicular direction of the image display surface, an input region in which the center position in the width direction and the longitudinal direction of the entire rib member can be input by the input operator set in the image display surface. Get inside. In this way, when the user performs an input operation on the touch panel display, the user presses the input / output device toward the back side of the touch panel display by the hand performing the input operation on the rib member. It can be received properly with the upper limbs sandwiched. Therefore, the user can hold the input / output device more stably. In particular, when the input operation with respect to the touch panel display is the handwriting input, as compared with the other input operations, the hand performing the input operation points the input / output device toward the back side of the touch panel display. Since the pushing force is considered to be increased, the effect that the input / output device can be stably held becomes more remarkable.

It is a perspective view showing the appearance which looked at the input / output device provided with the touch panel display to which the present invention is applied suitably from the front side. It is the perspective view showing the external appearance which looked at the input / output device of FIG. 1 from the back side. FIG. 3 is a side view of the input / output device viewed in the III direction in FIG. 1. FIG. 4 is a cross-sectional view of the input / output main body around the touch panel display viewed in the IV-IV direction of FIG. 1 in the input / output device of FIG. 1. FIG. 3 is a cross-sectional view of the main body support portion viewed in the V direction of FIG. 2 in the input / output device of FIG. 1. It is the perspective view which looked at the input / output device of FIG. 1 from the mounting surface side, Comprising: It is the figure showing the state by which the movable rib member was made non-rotatable with respect to a base part. It is the perspective view which looked at the input / output device of FIG. 1 from the mounting surface side, Comprising: It is the figure showing the state by which the movable rib member was made rotatable with respect to a base part. FIG. 4 is a view of the input / output device of FIG. 1 viewed in the direction VIII of FIG. 3, that is, a rear view of the input / output device viewed from a direction perpendicular to the image display surface. FIG. 6 is a cross-sectional view of the input / output device of FIG. 1 as viewed in the IX-IX direction of FIG. 5, showing a state in which the rib rotation position adjusting device is not operated; FIG. FIG. 6 is a cross-sectional view of the input / output device of FIG. 1 in the IX-IX direction of FIG. 5, showing a state in which the rib rotation position adjusting device is operated from the direction of arrow G in FIG. It is a figure for demonstrating an apparatus. From the state of the input / output device shown in FIG. 1, the perspective view of the input / output device showing the case where the input / output main body is rotated 90 degrees around the normal of the image display surface with respect to the main body support and the rotation angle is fixed. FIG. It is a figure for demonstrating the state which the user hold | maintained the input / output device of FIG. 1 by hand, Comprising: It is the perspective view which looked at the said input / output device from the back surface. FIG. 13 is a perspective view of the input / output device as seen from the back, showing a case where the user's arm is thicker than FIG. 12 in a state where the user holds the input / output device of FIG. . 12 is a state in which the user holds the input / output device of FIG. 1 by hand as in FIG. 12, but unlike FIG. 12, the perspective view of the input / output device showing the state of holding the input / output device by the right hand. is there. It is a block diagram for demonstrating the electrical structure of the input / output device of FIG. It is a functional block diagram explaining the principal part of the control function with which the input / output device of FIG. 1 was equipped. FIG. 9 is a rear view of the same input / output device as in FIG. 8, for explaining a rib center position of the entire rib member included in the input / output device. FIG. 17 is a flowchart for explaining a main part of the control operation of the input / output device of FIG. 16, that is, a control operation for temporarily switching to the input mode during the slide show display control. It is the side view of the input / output device which displayed the input / output device without a fixing rib member in the same direction as FIG.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a perspective view illustrating an appearance of an input / output device 10 including a touch panel display 12 to which the present invention is preferably applied as viewed from the front side. FIG. 2 is a perspective view showing the appearance of the input / output device 10 as viewed from the back side. FIG. 3 is a side view of the input / output device 10 viewed in the III direction in FIG. The input / output device 10 is an image display device that can be mounted on a horizontal or substantially horizontal mounting surface 8 such as a desk, display an image or the like on the touch panel display 12, and perform input / output operations by touch panel operation. For example, the input / output device 10 is a digital photo frame that is an electronic photo frame that displays a digital image, and has a screen size of about 7 to 10 ″ (inch). When performing the operation (contact operation), the input operation may be performed while being placed on the mounting surface 8, but the user performs the input operation while holding the input / output device 10 with one hand. It is something that can be done.

  As shown in FIG. 1 and FIG. 2, the input / output device 10 includes an input / output main body 14 having a touch panel display 12, and the input / output main body 14 with respect to the mounting surface 8 and the user's arm. A main body support portion 16 for supporting, and a rib rotation position adjusting device 70 (see FIGS. 9 and 10) interposed between the input / output main body portion 14 and the main body support portion 16 are provided. The input / output main body 14 has, for example, a substantially rectangular parallelepiped outer shape, and includes a touch panel display 12 and an input / output main body casing 18 that is an exterior member of the touch panel display 12. The input / output main body casing 18 forms the outer shape of the input / output main body 14 and exposes a display surface 20 (hereinafter referred to as “image display surface 20”) such as an image displayed on the touch panel display 12. It is open.

  4 is a cross-sectional view of the input / output main body 14 around the touch panel display 12 as viewed in the IV-IV direction in FIG. FIG. 5 is a cross-sectional view of the main body support 16 viewed in the V direction in FIG.

  The touch panel display 12 is a touch panel display device that is generally known as an electronic device that performs input and output with respect to a user. As shown in the cross-sectional view of FIG. 4, the touch panel display 12 is provided on the front surface of the input / output main body 14, that is, the front surface of the input / output device 10, and includes a display device 22 that displays images, characters, and the like. 10 includes a display surface contact detection device (touch panel) 26 that detects that the stylus pen 24 (see FIG. 1) as an input operator operated by 10 users has contacted the image display surface 20 and is in contact therewith. ing. The touch panel display 12 includes a display surface contact detection device 26 and a display device 22 that are integrally formed in a layered manner from the image display surface 20 side. The display surface contact detection device 26 may detect the contact of the stylus pen 24 with the image display surface 20 by any method such as a resistive film method, a capacitance method, an ultrasonic surface acoustic wave method, and an infrared light shielding method. However, in this embodiment, the resistive film method is adopted.

  The display device 22 is, for example, a liquid crystal display device, an organic EL display, or the like, and displays images, characters, and the like on the image display surface 20 in accordance with input signals.

  The display surface contact detection device 26 is a transparent thin sheet-like pressure sensor (touch panel), for example, and is integrally attached to substantially the entire surface of the display device 22 on the side on which an image or the like is displayed. When the stylus pen (input operator) 24 contacts the image display surface 20, the display surface contact detection device 26 detects the contact of the stylus pen 24 and determines the position on the image display surface 20 where the contact is detected. A pen contact detection position signal is output.

  As shown in FIGS. 1 to 3, the main body support portion 16 is provided on the back side of the input / output main body portion 14, and includes a flat base portion 30 parallel to the image display surface 20 and a pair of columnar shapes. Columnar members 32a and 32b (referred to as “columnar member 32” unless otherwise specified), a fixed rib member 36 that is protruded from the back side of the touch panel display 12 and is integrally fixed to the base portion 30; A movable rib member 38 that protrudes from the back side of the touch panel display 12 and can be selectively switched between being rotatable and non-rotatable with respect to the base portion 30, and functions as a base for the base portion 30 of the movable rib member 38. And a rib pedestal 40. The fixed rib member 36 and the movable rib member 38 correspond to the rib member of the present invention.

  The base portion 30 is not limited in its outer shape such as a rectangular shape that is substantially the same size as the back surface of the input / output main body portion 14 or slightly larger or smaller than that, but in this embodiment, the input / output main body portion 14 is not limited. It is a rectangular shape slightly larger than the back surface of. The base portion 30 is connected to the input / output main body portion 14 so as to be rotatable about a perpendicular line C1 to the image display surface 20. The perpendicular line C1 passes through the center position (screen center) in the width direction and the height direction of the image display surface 20, and the base part 30 protrudes from the back surface of the input / output main body part 14 with the perpendicular line C1 as an axis. It is connected to the input / output main body 14 by a connecting shaft 72 (see FIGS. 5, 9, and 10). The connecting shaft 72 is included in the rib rotation position adjusting device 70.

  The columnar member 32 and the fixed rib member 36 are formed so as to protrude from the base portion 30 in the back surface direction of the input / output device 10. That is, the columnar member 32 and the fixing rib member 36 are provided so as to protrude from the back side of the touch panel display 12. Further, the columnar member 32 and the fixing rib member 36 are disposed on the upper end side of the base portion 30 in the mounting state where the input / output device 10 is mounted on the mounting surface 8 as shown in FIGS. 1 and 2. Yes. Each of the columnar members 32 a and 32 b is formed at a predetermined interval on both sides of the fixed rib member 36 along the longitudinal direction of the fixed rib member 36.

  The movable rib member 38 and the rib pedestal 40 are disposed on the lower end side of the base portion 30 when the input / output device 10 is in the previously described state. Further, the rib pedestal 40 is formed to protrude from the base portion 30 in the back direction of the input / output device 10 and is divided into five along the longitudinal direction of the movable rib member 38 (see FIGS. 6 and 7). ). As shown in FIG. 5, the fixed rib member 36 and the movable rib member 38 have inner side surfaces 46 and 48 that face each other, and the longitudinal directions of the fixed rib member 36 and the movable rib member 38 are the same.

  FIG. 6 is a perspective view of the movable rib member 38 viewed from the side of the mounting surface 8 showing a state in which the movable rib member 38 is not rotatable with respect to the base portion 30. FIG. 7 is a perspective view illustrating a state in which the movable rib member 38 is rotatable with respect to the base portion 30.

  As shown in FIGS. 2, 6, 7, etc., a rib support shaft 52 for connecting the movable rib member 38 to the base portion 30 is provided on the main body support portion 16 along the longitudinal direction of the movable rib member 38. The rib support shaft 52 is connected to the base portion 30 at both ends. As shown in FIGS. 2 and 5, the movable rib member 38 has a rib support shaft 52 inserted through the base end of the movable rib member 38, and is connected to the base portion 30 via the rib support shaft 52. Yes. Due to such a connecting structure, the movable rib member 38 is movable in parallel with the base portion 30 along the rib support shaft 52 (in the directions of arrows E and F in FIG. 6) and around the rib support shaft 52. It can be rotated and is supported by the rib support shaft 52.

  As shown in FIG. 5, the movable rib member 38 includes a hook-like rib side locking portion 54 at a position shifted in the radial direction of the rib support shaft 52 from the insertion position through which the rib support shaft 52 is inserted. On the other hand, the rib pedestal 40 includes a hook-shaped pedestal side locking portion 56 that engages and engages with the rib side locking portion 54. As shown in FIGS. 5 and 6, the rib-side locking portion 54 and the pedestal-side locking portion 56 are mutually connected with the base end surface 58 of the movable rib member 38 and the pedestal surface 60 of the rib pedestal 40 facing each other. In the engaged state (locking portion engaged state), the movable rib member 38 cannot rotate with respect to the base portion 30. That is, in the engagement portion engagement state, a rotation lock state is obtained in which the substrate portion 30 cannot rotate. However, the movable rib member 38 can be moved in parallel along the rib support shaft 52 with respect to the base portion 30 even in the rotation-locked state. The movable rib member 38 has an outer side surface 50 (see FIG. 5) that functions as the bottom surface of the input / output device 10 when the input / output device 10 is placed on the mounting surface 8 in the above-described rotation lock state shown in FIG. ) On the opposite side of the inner side surface 48 in the rib thickness direction. Therefore, when the input / output device 10 itself is placed on the placement surface 8 as shown in FIGS. 1 to 3, the movable rib member 38 abuts against the placement surface 8 in the rotation lock state. The screen inclination angle θg (see FIG. 3) formed by the image display surface 18 with respect to the placement surface 8 can be fixed. Therefore, when the user places the input / output device 10 itself on the placement surface 8, it is preferable that the movable rib member 38 be in the above-described rotation lock state shown in FIG.

  The movable rib member 38 is moved from the rotation lock state shown in FIG. 6 in the direction along the rib support shaft 52, that is, in the arrow E direction or the arrow F direction in FIG. When is released, the base 30 can be rotated around the rib support shaft 52. In other words, the movable rib member 38 is in a rotatable state in which the movable rib member 38 is rotatable with respect to the base portion 30. FIG. 7 shows the pivotable state in which the movable rib member 38 is moved in the arrow F direction from the pivot lock state shown in FIG. Show.

  As shown in FIGS. 2 and 5, a rib spring 62 is provided on the main body support portion 16, and is interposed between the base portion 30 and the movable rib member 38. One end of the rib spring 62 is in contact with the base portion 30 and the other end is in contact with the movable rib member 38, and the rib spring 62 connects the movable rib member 38 to the inner side surface 46 of the rib members 36, 38. , 48 are urged to rotate around the rib support shaft 52 with respect to the base portion 30 in a direction (arrow D direction in FIG. 5) in which the mutual distance between them is reduced. Therefore, the urging force of the rib spring 62 is canceled out by the engagement of the rib side locking portion 54 and the pedestal side locking portion 56 in the rotation lock state of the movable rib member 38 shown in FIG. In the rotatable state shown in FIG. 7, the movable rib member 38 is rotated in the direction of arrow D in FIG.

  FIG. 8 is a view of the input / output device 10 viewed in the VIII direction in FIG. 3, that is, a rear view of the input / output device 10 viewed from the direction perpendicular to the image display surface 20. In FIG. 8, a point C1 is a view of the perpendicular C1 viewed from the direction along the perpendicular C1, and indicates the center position of the image display surface 20 in the width direction and the height direction. The arrows E and F in FIG. 8 are the same as the arrows E and F in FIG. As shown in FIG. 8, when the movable rib member 38 is in the rotationally locked state, the fixed rib member 36 and the movable rib member 38 basically have a relief of a rib spring 62 provided on the movable rib member 38. Is a shape evenly distributed on both sides in the longitudinal direction (arrow E, F direction) of the rib members 36 and 38 with reference to the center position (center) of the image display surface 20. That is, in FIG. 8, the shape is evenly distributed on both sides of a straight line C2 passing through the point C1 and orthogonal to the longitudinal direction of the rib members 36 and 38. Similarly, the base portion 30 has a shape evenly distributed on both sides of the straight line C2. The columnar members 32a and 32b have the same shape, and are provided at positions equally distributed on both sides of the straight line C2. Further, when the movable rib member 38 is switched from the rotation lock state to the rotation enable state, the stroke for moving the base portion 30 in the direction of the arrow E or the direction of the arrow F is an arrow E direction and an arrow F direction. Any of these is equivalent. That is, the entire main body support portion 16 has a shape evenly distributed on both sides of the straight line C2. Note that the fixed rib member 36 and the movable rib member 38 are arms 100 that are part of the upper limb of the user who supports the input / output device 10 when the user operates the input / output device 10 by hand. 12-14), and the longitudinal direction of the arm 100 is also the direction indicated by the directions of arrows E and F in FIG. 8, and therefore coincides with the longitudinal direction of the rib members 36 and 38. Further, the rotation center of the main body support portion 16 with respect to the input / output main body portion 14 is the point C1 and coincides with the center position of the image display surface 20, so that even if the main body support portion 16 rotates with respect to the input / output main body portion 14. The main body support portion 16 as a whole has an equal distribution shape with the center position of the image display surface 20 as a reference.

  9 and 10 are cross-sectional views as viewed in the IX-IX direction in FIG. 5, for explaining the rib rotation position adjusting device 70. FIG. 9 is a diagram showing a state where the rib rotation position adjusting device 70 is not operated. On the other hand, FIG. 10 is a diagram showing a state in which the rib rotation position adjusting device 70 is operated from the direction of arrow G in the figure.

  The rib rotation position adjusting device 70 is a device that allows the fixed rib member 36 and the movable rib member 38 to be integrally rotated with respect to the touch panel display 12 around a perpendicular line C1 with respect to the image display surface 20. That is, the rib rotation position adjusting device 70 selectively allows the main body support portion 16 to be rotatable relative to the input / output main body portion 14 around the perpendicular line C1. For this purpose, as shown in FIG. 9, the rib rotational position adjusting device 70 includes the connecting shaft 72, the cam 74, a pair of cam engaging members 76 that engage with the cam 74, and the cam engaging member. A pair of cam engagement springs 78 that urge the 76 in the engagement direction, and an operation lever 80 operated to release the engagement of the cam engagement member 76 with respect to the cam 74 are provided. As shown in FIG. 9, the rib rotation position adjusting device 70 has a mechanical configuration that is line-symmetric with respect to the straight line C3. The straight line C3 is a straight line that passes through the axis of the connecting shaft 72 and is perpendicular to the longitudinal direction of the rib members 36 and 38 (directions of arrows E and F).

  As described above, the connecting shaft 72 connects the input / output main body 14 and the main body support 16 so as to be rotatable around the perpendicular C1. The cam 74 is a disc cam concentric with the connecting shaft 72, and is fixed to the back surface of the input / output main body 14. The cam 74 has engagement teeth 82 protruding in the radial direction thereof and meshing with the cam engagement member 76 at equal intervals on the outer periphery of the cam 74. For example, as shown in FIG. 9, the meshing teeth 82 are provided around the axis of the cam 74 at a pitch of 30 degrees.

  The cam engaging member 76 is an L-shaped and flat plate member having the same or substantially the same thickness as the cam 74, and is disposed on the radially outer side of the cam 74. The cam engagement member 76 is rotatably connected to the main body support portion 16 by a cam engagement member support shaft 84 protruding from the main body support portion 16 to the input / output main body portion 14 side. The cam engagement member 76 is fitted between the meshing teeth 82 adjacent to each other of the cam 74 and meshes with the meshing teeth 82, and between the meshing part 86 and the cam engagement member support shaft 84. A first locking pin 88 protruding to the support portion 16 side and a second locking pin 90 protruding to the main body support portion 16 side on the opposite side of the engagement portion 86 across the cam engagement member support shaft 84 are provided. ing.

  One end of the cam engagement spring 78 is connected to the main body support portion 16 and the other end is connected to the cam engagement member 76, and the engagement portion 86 is directed inward in the radial direction of the cam 74. It is energized to turn 76.

  The operation lever 80 is disposed between the cam 74 and the cam engagement member 76 and the main body support portion 16, and has a line-symmetric shape with respect to the straight line C3 when the operation lever 80 is not operated. The operation lever 80 is a lever main body 92 that is a flat plate along the longitudinal direction (arrow E, F direction) of the rib members 36, 38, and the lever main body 92 extends in a direction perpendicular to the longitudinal direction of the lever main body 92. A protruding portion 94 which is a pair of protruding flat plates is provided on one plane. The lever main body 92 has both ends in the longitudinal direction protruding outward from the outer shapes of the input / output main body 14 and the main body support 16 (see FIGS. 1 and 2). The lever main body 92 is provided with a pair of long holes 96 along the longitudinal direction thereof, and the second locking pin 90 is fitted in the long hole 96. Therefore, the operation lever 80 is supported by the main body support portion 16 via the cam engagement member 76 and the cam engagement member support shaft 84, and can be translated in the longitudinal direction of the rib members 36 and 38 with respect to the main body support portion 16. It has become.

  As shown in FIG. 9, when the operation lever 80 is not operated, the outer peripheral surface of the second locking pin 90 fitted in the elongated hole 96 is connected to the connecting shaft 72 along the longitudinal direction of the elongated hole 96. It is in contact with or close to the inner surface of the long hole 96 farthest from the axis. Further, the protruding portion 94 is disposed closer to the axial center of the connecting shaft 72 than the first locking pin 88 and is in contact with or close to the first locking pin 88.

  With such a configuration, when the operation lever 80 is not operated, the meshing portion 86 of the cam engagement member 76 is adjacent to the meshing tooth 82 of the cam 74 by the biasing force of the cam engagement spring 78 as shown in FIG. Therefore, the main body support portion 16 cannot be rotated with respect to the input / output main body portion 14. That is, the rib rotation position adjusting device 70 fixes the rotation angle around the perpendicular C1 with respect to the input / output main body 14 of the main body support 16 when the operation lever 80 is not operated. For example, as shown in FIG. 9, since the meshing teeth 82 are provided at a pitch of 30 degrees, the rotation angle can be fixed at a pitch of 30 degrees.

  Further, the positional relationship between the long hole 96 of the operation lever 80 and the second locking pin 90 of the cam engagement member 76, and the protruding portion 94 of the operation lever 80 and the first locking pin 88 of the cam engagement member 76 From the positional relationship, the operation lever 80 is a direction in which the engagement of both the pair of cam engagement members 76 and the cam 74 is released regardless of whether the operation lever 80 is pushed in the direction of arrows E or F in FIG. Then, both of the pair of cam engaging members 76 are rotated. When the engagement between both of the pair of cam engaging members 76 and the cam 74 is released, the main body support portion 16 can rotate around the perpendicular C1 with respect to the input / output main body portion 14. That is, when the operation lever 80 is pushed in the direction of the arrow E or the direction of the arrow F, the rib rotation position adjusting device 70 moves the main body support portion 16 and the input / output main body portion 14 around the perpendicular C1. It can be rotated. Further, in order to release the engagement between the cam engaging member 76 and the cam 74, the user pushes either end of the lever main body 92 in the direction of arrow E or arrow F in FIG. It can be said that both ends of the main body 92 function as cam release buttons.

  For example, as shown in FIG. 10, a case where the operation lever 80 is pushed in the direction of the arrow G will be described. When the operation lever 80 is pushed in the direction indicated by the arrow G in FIG. 10, the operation lever 80 moves from the non-operation state of the operation lever 80 substantially in parallel to the pushed direction (the direction indicated by the arrow G). At the same time, the operating lever 80 rotates the pair of cam engaging members 76 substantially symmetrically with respect to the straight line C3 as shown in FIG. Specifically, on the lever operating side where the operation of the operation lever 80 is performed, the operation lever 80 pushes the second locking pin 90 fitted in the elongated hole 96 in the direction of arrow G, and the second locking Via the pin 90, the cam engagement member 76 is rotated in a direction to release the engagement with the cam 74. On the other hand, on the opposite side of the lever operating side via the straight line C3, the operating lever 80 pushes the first locking pin 88 in the direction of the arrow G by the protrusion 94, and through the first locking pin 88, The cam engaging member 76 is rotated in a direction to release the engagement with the cam 74. In this way, when the operation lever 80 is pushed in the direction of arrow G, the engagement between the cam engagement member 76 and the cam 74 is released, and the main body support portion 16 and the input / output main body portion 14 move around the perpendicular line C1. It becomes possible to rotate each other.

  For example, by operating the operation lever 80 described above, the input / output main body 14 is rotated 90 degrees around the perpendicular C1 with respect to the main body support 16 from the state of the input / output device 10 shown in FIG. When the rotation angle is fixed, the perspective view shown in FIG. 11 is obtained. Even in the state of the input / output device 10 shown in FIG. 11, that is, in the state in which the input / output device 10 is placed previously, the input / output device 10 is in the longitudinal direction with respect to the placement surface 8. 10, when the movable rib member 38 is brought into the rotation lock state, the lower end of the input / output main body 14 and the movable rib member 38 are brought into contact with the placement surface 8 and placed on the placement surface 8. Is possible.

  The user places the input / output device 10 on the mounting surface 8 as shown in FIG. 1 and uses the input / output device 10 with the hand 102 when performing an input operation (contact operation) on the touch panel display 12, for example. May be retained and used. FIG. 12 is a diagram for explaining a state in which the user holds the input / output device 10 with the hand 102, and is a perspective view of the input / output device 10 as viewed from the back. Note that the user's hand 102 shown in FIG. 12 is the left hand. In the description of the present embodiment, when the hand 102 is distinguished from the left hand or the right hand, the code indicating the left hand is 102L and the code indicating the right hand is 102R. The left / right distinction between the arm 100 and the thumb 104 is the same as that of the hand 102.

  Although there is no limitation on how the user holds the input / output device 10, in order to hold the input / output device 10 stably, the user holds the input / output device 10 as shown in FIG. It is appropriate to do. For example, although the input / output device 10 can be held in the same way with either the left or right hand 102, an example of holding the input / output device 10 with the left hand 102L will be described. As shown in FIG. When holding the hand, the hand 102L is turned to the back side of the input / output device 10, the thumb 104L is bent into a hook shape and locked to the columnar member 32a, and the other four fingers are attached to the side surface of the input / output device 10. Bend along. Then, the arm 100L continuing from the hand 102L is passed between the inner side surfaces 46 and 48 of the fixed rib member 36 and the movable rib member 38 facing each other, and the arm 100L is sandwiched between the inner side surfaces 46 and 48. When the arm 100 is sandwiched between the inner side surfaces 46 and 48, the movable rib member 38 may be in the rotationally locked state, but preferably the movable rib member 38 is It is in a rotatable state. Since the inner side surfaces 46 and 48 are pressed against the arm 100 by the urging force of the rib spring 62 by being in the rotatable state, compared to the case where the inner side surfaces 46 and 48 are not pressed against the arm 100, This is because the user can hold the input / output device 10 more stably.

  In the rotation lock state of the movable rib member 38, the mutual interval between the opposed inner side surfaces 46 and 48 of the fixed rib member 36 and the movable rib member 38 is fixed to a constant value. In the movable state, the input / output device 10 can rotate around the rib support shaft 52, so that the input / output device 10 determines the mutual distance between the inner side surfaces 46 and 48 of the arm 100 sandwiched between the fixed rib member 36 and the movable rib member 38. It is possible to change according to the thickness. For example, as shown in FIG. 13, when the user's arm 100 ′ is thicker than that in FIG. 12, the movable rib member 38 is expanded in the direction in which the distance between the inner side surfaces 46, 48 is increased relative to FIG. The arm 100 ′ can be sandwiched between the fixed rib member 36 and the movable rib member 38 in a state in which the arm 100 ′ is rotated in the direction indicated by the arrow H in FIG. FIG. 13 shows the input / output device 10 from the back showing the case where the user's arm 100 ′ is thicker than FIG. 12 in a state where the user holds the input / output device 10 with the hand 102, as in FIG. FIG.

  As described above, the input / output device 10 (main body support portion 16) has a structure capable of changing the mutual interval (rib interval) between the inner side surfaces 46 and 48 in accordance with the thickness of the arm 100. It can be said that a rib interval adjusting device 120 capable of adjusting the rib interval is provided. That is, the rib interval adjusting device 120 includes a rib support shaft 52, a rib side locking portion 54, a pedestal side locking portion 56, and a rib spring 62 (see FIG. 5). In this device, the movable rib member 38 can be moved with respect to the touch panel display 12 so as to change the distance between the opposed inner side surfaces 46 and 48 in accordance with the thickness of the arm 100 to be sandwiched. On the other hand, since the rib interval is fixed in the rotation lock state of the movable rib member 38, the rib interval adjusting device 120 can be said to be a device that can fix the rib interval.

  FIG. 14 shows a state where the user holds the input / output device 10 with the hand 102 as in FIG. 12, but unlike FIG. 12, the input / output device 10 shows a state where the input / output device 10 is held with the right hand 102R. FIG. Although the hand in FIG. 12 is the left hand 102L, as described above with reference to FIG. 8, the entire main body support portion 16 has a shape evenly distributed on both sides of the straight line C2 (see FIG. 8). The input / output device 10 is held in the right hand 102R in the same manner as the left hand 102L. That is, when holding the input / output device 10 with the right hand 102R, the user bends the thumb 104R into a hook shape and locks it to the columnar member 32b as in the case of the left hand 102L (see FIG. 12). The other four fingers are bent along the side surface of the input / output device 10. Then, the right arm 100R continuing from the right hand 102R is passed between the inner side surfaces 46, 48 of the fixed rib member 36 and the movable rib member 38, and the right arm 100R is sandwiched between the inner side surfaces 46, 48.

  Returning to FIG. 2, the input / output device 10 includes an arm detection switch 124 for detecting that the input / output device 10 itself is held by the user's arm 100. The arm detection switch 124 is disposed between the fixed rib member 36 and the movable rib member 38 so as to protrude from the base portion 30 to the back side of the input / output device 10 and is pushed in a direction to lower the protruding height. This is a pushbutton switch that is switched on (on state) by. Therefore, for example, as shown in FIGS. 12 to 14, when the user holds the input / output device 10 with the arm 100 sandwiched between the fixed rib member 36 and the movable rib member 38, the arm detection switch 124 is protruded. Is pushed by the arm 100 in the direction of lowering, so that the switch is turned on.

  FIG. 15 is a block diagram for explaining an electrical configuration of the input / output device 10. As shown in FIG. 15, in addition to the touch panel display 12 and the arm detection switch 124 described above, the input / output device 10 includes a control unit 130 that executes various controls including image display control, and a plurality of pieces of image information ( Data, programs, etc. from a storage unit 132 such as a flash memory for storing image files), a communication interface 136 for connecting the input / output device 10 to the electric communication line 134, and a recording medium such as a CD-ROM or a magnetic disk. A reading / writing device 138 for reading or writing data, a program or the like on the recording medium, and a bus 140 that mediates data exchange between these components are provided.

  15 includes a CPU 142 that is a central processing unit, a ROM 144 that is a read-only memory, and a RAM 146 that is a write / read memory as needed. That is, the control unit 130 is a so-called microcomputer that executes various information processing by the CPU 142 based on information stored in the ROM 144 while using the temporary storage function of the RAM 146, and is configured to be the touch panel display 12 (display). Image display control for displaying a predetermined image on the device 22), input processing control for processing an input signal input in response to a touch operation on the touch panel display 12 (display surface contact detection device 26), and the communication interface 136. Various controls relating to the input / output device 10 of the present embodiment, such as information communication control for communicating information (for example, fax, e-mail) with other devices via the PC, are executed.

  In the storage unit 132, for example, JPEG (Joint Photographic Experts Group), PNG (Portable network graphics), GIF (Graphics interchange format) as image information for displaying a predetermined image on the touch panel display 12 (display device 22). ) And other file format image data (image file) is stored with each identification information as an index. The display device 22 may display a moving image as well as a still image, and the image information stored in the storage unit 132 corresponds to a still image or a moving image. It doesn't matter if it is.

  The telecommunication line 134 is, for example, a LAN, a public telephone line, or WWW (World Wide Web, Internet). The telecommunication interface 136 is, for example, the telecommunication line 134 by connecting the input / output device 10 wirelessly or by wired connection. LAN interface or modem connected to the. The input / output device 10 is connected to the telecommunication line 134 by the communication interface 136, and thus, for example, between the input / output device 10 and another input / output device 10 ′ connected to the telecommunication line 134 via the telecommunication line 134. It is possible to send and receive information such as e-mail. Further, the input / output device 10 can transmit and receive a fax through the electric communication line 134 and the like.

  FIG. 16 is a functional block diagram for explaining the main part of the control function provided in the input / output device 10. As shown in FIG. 16, the input / output device 10 (specifically, the CPU 142) includes arm detection means 148 and input / output control means 150.

  The arm detection means 148 corresponds to the detection means of the present invention, and detects that the input / output device 10 itself is held on the user's arm 100. Then, it is determined whether or not the input / output device 10 itself is held by the user's arm 100. Specifically, the arm detection unit 148 detects that the input / output device 10 itself is held on the user's arm 100 based on a signal from the arm detection switch 124. That is, when the arm detection switch 124 is in the on state, it is detected by the arm detection means 148 that the input / output device 10 itself is held by the user's arm 100.

  The input / output control means 150 performs image display control for displaying a predetermined image on the touch panel display 12 (display device 22), and is input according to a touch operation on the touch panel display 12 (display surface contact detection device 26). Input processing control is performed to process input signals. For example, the input / output control means 150 is one of the input processing controls based on a signal from the display surface contact detection device 26, and input by a contact operation to the display surface contact detection device 26, that is, a contact operation to the image display surface 20. It is determined whether or not a predetermined operation (input mode selection operation) for selecting an input mode for accepting is performed. Further, when the input mode is selected, for example, when the input mode selection operation is performed, the input / output control unit 150 inputs the stylus pen 24 within the range of the image display surface 20, that is, the image display surface. An input area that can be input by a touch operation on 20 is set, an image showing the input area is displayed on the display device 22, and a touch operation on the image display surface 20 is accepted as an input in the input area. For example, the input area may be an icon area that displays a so-called icon and receives an input, or a handwriting input area that receives a so-called handwritten input to the touch panel display 12. In the handwriting input area, when a contact operation is performed on the image display surface 20 (display surface contact detection device 26) with the stylus pen 24, the input / output control unit 150 displays the contact locus on the image display surface 20 on the display device 22. And the contact locus is processed as the input signal. Note that the input information input in the input mode is transmission data transmitted in an information communication function such as a fax function or an e-mail function.

The input / output control means 150 may set the input area anywhere within the range of the image display surface 20 when setting the input area when the input mode is selected. In this case, the input / output control means 150 is arranged so that the rib members 36 and 38 have a center position C _LB (hereinafter referred to as “rib center”) in the width direction and the longitudinal direction in the direction of the vertical line (for example, the vertical line C1 in FIG. 5). The position _CLB ") is set to fall within the input area. For example, as shown in the rear view of FIG. 17, the rib center position C _LB is parallel to the image display surface 20 in that the width direction dimension Y1 and the longitudinal direction dimension X1 of the entire rib members 36 and 38 are equally divided into two. This position is shown on a flat plane and is stored in advance in the input / output control means 150. The width direction dimension Y1 and the longitudinal direction dimension X1 are the dimensions of the movable rib member 38 in the rotation locked state as shown in FIG. It may be a dimension in a state where an arm 100 having a predetermined diameter is sandwiched. The width direction dimension Y1 is for the rib members 36 and 38 to sandwich the arm 100 between the inner side surfaces 46 and 48, so that the inner side surfaces 46 and 48 are appropriately spaced from each other. Preferably, when the input / output control means 150 sets a plurality of the input areas at the same time, for example, the rib center position C _LB falls within a range occupied by the entire input areas set simultaneously. Each input area is set. Alternatively, when the handwriting input area is included in a plurality of the input areas that are set simultaneously, the input areas are set so that the rib center position _CLB is included in the handwriting input area. Also good.

Furthermore, the input-output control unit 150 is not to set the input area relative to the said rib center position C _LB when setting the input region, for example, in the perpendicular direction of the image display surface 20, the rib member The input area may be set so that the arm 100 sandwiched between 36 and 38 passes through the back side of the touch panel display 12 within the input area. In that case, based on the arrangement of the rib members 36 and 38, the range in which the arm 100 sandwiched between the rib members 36 and 38 passes the back side of the touch panel display 12 is experimentally obtained in advance. It is set in the output control means 150. Then, the input / output control unit 150 sets the input area based on a range in which the preset arm 100 passes the back side of the touch panel display 12.

  The input / output control unit 150 includes a slide show display control unit 152 that executes slide show display control which is one type of the image display control. The slide show display control is image display control for sequentially displaying a plurality of prestored images on the touch panel display 12 (display device 22) at predetermined time intervals. The plurality of images displayed by the slide show display control are stored in advance in the storage unit 132 as image information, for example.

  For example, when a predetermined slide show display control start operation for starting the slide show display control is performed via the display surface contact detection device 26 or the like, the slide show display control unit 152 stores the slide show display control unit 152 in advance. A plurality of pieces of image information are sequentially read out from the storage unit 132 in a predetermined order according to slide show management information that defines the display order of images in the slide show display control, and images corresponding to the pieces of image information are displayed on the display device 22 for a predetermined time. When the predetermined time has elapsed, a plurality of predetermined images are displayed on the display device 22 in a predetermined order so that an image corresponding to the image information in the next display order is displayed on the display device 22 for a predetermined time. Display one by one. Preferably, the input / output control unit 150 accepts a touch operation on the touch panel display 12 (display surface contact detection device 26) even during execution of the slide show display control by the slide show display control unit 152. An image based on the slide show display control is displayed on the display device 22, and an image for accepting the contact operation is not displayed instead of the image based on the slide show display control. Further, preferably, when a plurality of images have been displayed for the slide show display control, the slide show display control for repeatedly switching and displaying the plurality of images related to the slide show display control from the top is repeated. Preferably, a power-on operation for turning on the power of the input / output device 10 is one of the slide show display control start operations, and the slide show display control unit 152 performs the power-on operation when the power-on operation is performed. The slide show display control is automatically started after the input / output device 10 is powered on.

  Further, the input / output control means 150 may cause the slide show display control means 152 to temporarily stop (suspend) the slide show display control during the execution of the slide show display control. For example, when the arm detection means 148 detects that the input / output device 10 itself is held on the user's arm 100 during the slide show display control, the user inputs to the touch panel display 12. Since it is considered that the input / output device 10 itself is held for operation, the input / output control unit 150 causes the slide show display control unit 152 to temporarily stop (interrupt) the slide show display control. At the same time, the input / output device 10 is switched to the input mode. In this case, the operation of the user holding the input / output device 10 itself on the arm 100, specifically, the operation of turning on the arm detection switch 124 corresponds to the input mode selection operation.

  On the other hand, the input / output control unit 150 ends the input mode and the slide show display control unit 152 when the arm detection unit 148 does not detect that the input / output device 10 itself is held by the user's arm 100. Then, the execution of the slide show display control that has been stopped is resumed. When the slide show display control unit 152 starts executing the stopped slide show display control, the slide show display control unit 152 may start the slide show display control from the first image in the display order, or stop the slide show display control. You may start with the image you did. As described above, the input / output device 10 may be switched to the input mode on condition that the arm detection switch 124 is turned on. However, the arm detection switch 124 is turned on and predetermined. It is preferable that the input mode switching confirmation operation corresponds to the input mode selection operation. That is, the input / output control means 150 determines whether or not the input mode switching confirmation operation has been performed, and when the arm detection switch 124 is turned on and the input mode switching confirmation operation is performed, the slide show display control means. It is preferable that the slide show display control is temporarily stopped at 152 and the input / output device 10 is switched to the input mode. The input mode switching confirmation operation is a user's operation for confirming switching to the input mode when the arm detection switch 124 is on. For example, the stylus pen 24 touches an arbitrary position in the image display surface 20. For example, a contact operation.

  FIG. 18 is a flowchart for explaining a main part of a control operation of the input / output device 10 (CPU 142), that is, a control operation for temporarily switching to the input mode during the execution of the slide show display control. The control operation shown in FIG. 18 is executed alone or in parallel with other control operations, and is started, for example, when the slide show display control start operation is performed.

  First, in a step (hereinafter, “step” is omitted) SA1 corresponding to the arm detection means 148, it is determined whether or not the arm detection switch 124 is in an ON state based on a signal from the arm detection switch 124. The Since the arm detection switch 124 is a switch for switching the input / output device 10 to the input mode, it may be called an input mode switch. If the determination at SA1 is affirmative, that is, if the arm detection switch 124 is on, the process proceeds to SA2. On the other hand, when the determination of SA1 is negative, the process proceeds to SA3.

  In SA2, it is determined whether or not the input mode switching confirmation operation performed by the user to select the input mode has been performed. The input mode switching confirmation operation is not particularly limited as long as it is a predetermined user operation other than turning on the arm detection switch 124. For example, the input mode switching confirmation operation is not limited in any way within the image display surface 20 with the stylus pen 24. For example, a contact operation that touches a location. If the determination of SA2 is affirmative, that is, if the input mode switching confirmation operation is performed, the process proceeds to SA4. On the other hand, if the determination at SA2 is negative, the operation proceeds to SA3.

  In SA3 corresponding to the slide show display control means 152, the slide show display control is executed, and if the slide show display control is already being executed, it is continued. After SA3, the process proceeds to SA1. If the slide show display control is started in SA3, the slide show display control continues even when SA1 and SA2 are executed until the determination of SA2 is affirmed, and the image of the slide show display control is displayed on the display device 22. Is displayed.

  In SA4 corresponding to the input / output control means 150 and the slide show display control means 152, the slide show display control is stopped. After SA4, the process proceeds to SA5.

  In SA5, the input / output device 10 is switched to the input mode. In the input mode, the input area is set within the range of the image display surface 20. After SA5, the process proceeds to SA6.

  In SA6, it is determined whether or not there is an input operation (contact operation) on the touch panel display 12. If there is an input operation, input information by the input operation is accepted in SA7. For example, in SA7, if the user selects execution of fax transmission after completing the input of the input information, the input information is faxed. If the user selects execution of e-mail transmission, the input information is e-mailed. The SA2, SA5, SA6, and SA7 correspond to the input / output control means 150.

  In SA8 corresponding to the arm detection unit 148, based on the signal from the arm detection switch (input mode switch) 124, it is determined whether or not the arm detection switch 124 is in the OFF state. When the determination of SA8 is affirmed, that is, when the arm detection switch 124 is in an off state, the flowchart ends. On the other hand, if the determination at SA8 is negative, the operation proceeds to SA6.

  The flowchart of FIG. 18 ends if the determination of SA8 is affirmed. For example, in this case, the process starts again from SA1. That is, when the determination at SA8 is affirmed, the arm detection switch 124 is in an off state, so the determination at SA1 is denied and the slide show display control is resumed at SA3.

  According to the present embodiment, in the input / output device 10, the rib members 36 and 38 having the inner side surfaces 46 and 48 for sandwiching the user's arm 100 are projected from the back side of the touch panel display 12. When the output device 10 itself is placed on the placement surface 8, the movable rib member 38 of the rib members 36, 38 abuts on the placement surface 8 and the screen tilt of the image display surface 20. The angle θg (see FIG. 3) is fixed. Accordingly, the rib members 36 and 38 restrain the user's arm 100 holding the input / output device 10 with respect to the input / output device 10, so that the user can perform an input operation (contact operation) on the touch panel display 12. In addition, the input / output device 10 can be stably held by turning the arm 100 to the back side of the touch panel display 12. As a result, for example, it becomes easier to input characters, figures, and the like neatly in the handwriting input to the touch panel display 12 as compared with the case where the rib members 36 and 38 are not provided. When the input / output device 10 is placed on the placement surface 8 and the image displayed on the touch panel display 12 is viewed, the input / output device 10 is placed on the placement surface 8 in a posture suitable for the viewing. be able to. Therefore, for example, the input / output device 10 can be used as a digital photo frame that is an electronic photo frame for displaying a digital image.

  Further, according to the present embodiment, the rib members 36 and 38 are equally distributed on both sides in the longitudinal direction of the arm 100 sandwiched between the rib members 36 and 38 with the center of the image display surface 20 as a reference. Therefore, even if the arm 100 sandwiched between the rib members 36 and 38 is the left arm or the right arm of the user, the input / output device 10 can be held equally stably.

  Further, according to the present embodiment, the rib members protruding from the back side of the touch panel display 12 are the two rib members 36 and 38 having the inner side surfaces 46 and 48 facing each other. The input / output device 10 includes the rib members 36 and 38 so as to change the mutual distance between the opposed inner side surfaces 46 and 48 in accordance with the thickness of the arm 100 sandwiched between the rib members 36 and 38. At least one, specifically, a rib interval adjusting device 120 capable of moving the movable rib member 38 relative to the touch panel display 12 is provided. Accordingly, where the thickness of the arm 100 varies depending on the person, the mutual interval between the opposed inner side surfaces 46 and 48 can be adjusted according to the thickness of the user's arm 100 sandwiched between the rib members 36 and 38. Is possible. Therefore, the user can stably hold the input / output device 10 by absorbing the variation in the thickness of the arm 100 of the user.

  Further, according to the present embodiment, the input / output device 10 includes the rib rotation position adjusting device 70 that can rotate the rib members 36 and 38 with respect to the touch panel display 12 around the normal C1 to the image display surface 20. I have. Therefore, the longitudinal direction of the user's arm 100 sandwiched between the rib members 36 and 38 can be changed with respect to the touch panel display 12 without changing the vertical and horizontal directions of the image displayed on the touch panel display 12. The degree of freedom of the posture of the user when holding the output device 10 is increased.

  Further, according to the present embodiment, the arm detection means 148 included in the control unit 130 of the input / output device 10 detects that the input / output device 10 itself is held by the user's arm 100. When the arm detection unit 148 detects that the input / output device 10 itself is held by the user's arm 100, the input / output control unit 150 sets the input / output device 10 to the input mode. Here, when the user holds the input / output device 10 with the arm 100, it is considered that the user has an intention to perform an input operation on the touch panel display 12. Accordingly, when the user tries to perform an input operation on the touch panel display 12, it is possible to reduce the labor of the user.

Further, according to the present embodiment, preferably, the input / output control means 150 sets the center of the rib members 36 and 38 in the width direction and the longitudinal direction in the perpendicular direction of the image display surface 20 when setting the input area. The input area is set so that the position C _LB (rib center position C _LB ) falls within the input area. That is, in the perpendicular direction of the image display surface 20, the center position C _{LB in} the width direction and the longitudinal direction of the entire rib members 36 and 38 falls within the input area set in the image display surface 20. If it does in this way, when a user performs input operation with respect to the touch panel display 12, the hand of the side which performs the input operation pushes the input / output device 10 toward the back side of the touch panel display 12, The arm 100 sandwiched between the rib members 36 and 38 can be appropriately received. Therefore, the user can hold the input / output device 10 more stably. In particular, when the input operation to the touch panel display 12 is the handwriting input, that is, when the input area is the handwriting input area, the hand performing the input operation places the input / output device 10 on the back side of the touch panel display 12. It is considered that the pressing force toward the input terminal is larger than that in the case of an input operation other than the handwriting input, so that the effect that the input / output device 10 can be held stably becomes more remarkable. .

  As mentioned above, although the suitable Example of this invention was described in detail based on drawing, this invention is not limited to this, Furthermore, it implements in another aspect.

  For example, in the above-described embodiment, the movable rib member 38 can be rotated with respect to the base portion 30 so as to change the mutual interval (rib interval) between the inner side surfaces 46 and 48 of the rib members 36 and 38. However, instead of turning, it may be translated with respect to the base portion 30 so as to change the rib interval.

  In the above-described embodiment, the rib member 36 is fixed and the rib member 38 is movable with respect to the base portion 30. Conversely, the rib member 36 is movable and the rib member 38 is fixed. There is no problem. Further, both rib members 36 and 38 may be movable.

  In the above-described embodiment, two rib members, the fixed rib member 36 and the movable rib member 38, are provided to sandwich the user's arm 100, but the number of the rib members is three or more. May be. Further, there may be only one movable rib member 38 without a single rib member, that is, the fixed rib member 36. In short, one or more rib members may be provided in the input / output device 10 in order to sandwich the user's arm 100. In addition, when four or more rib members for sandwiching the user's arm 100 are provided, that is, two or more pairs are provided, the arm 100 sandwiched between the rib members becomes thinner as it approaches the wrist, Since the rib interval can be set for each pair of rib members, the user can hold the input / output device 10 more stably than in the case of a pair of rib members 36 and 38. .

  Here, FIG. 19 shows an example of one rib member for sandwiching the user's arm 100. For example, the input / output device 10 shown in FIG. 19 does not include the fixed rib member 36 but includes the movable rib member 162 shown in FIG. 19 instead of the movable rib member 38 shown in FIG. In the input / output device 10 of FIG. 19, by rotating the movable rib member 162 in the direction of arrow J, the user's arm 100 is formed by the movable rib member 162 and the base portion 164 (corresponding to the base portion 30). Can be sandwiched. FIG. 19 is a side view of the input / output device 10 in which the input / output device 10 without the fixing rib member 36 is displayed in the same direction as FIG. 3. In FIG. 19, the movable rib member 162 indicated by a solid line indicates a rotating state when the arm 100 is sandwiched, and the movable rib member 162 indicated by a two-dot chain line is when the input / output device 10 is placed on the placement surface 8. The rotation state, that is, the rotation lock state is shown.

  In the above-described embodiment, the arm detection switch 124 is a push button switch disposed between the fixed rib member 36 and the movable rib member 38, but is sandwiched between the fixed rib member 36 and the movable rib member 38. For example, a proximity sensor for detecting the arm 100 may be used. Further, it may be disposed not at a position between the fixed rib member 36 and the movable rib member 38 but at another place.

  In the above-described embodiment, when the on state of the arm detection switch 124 is detected during the execution of the slide show display control, the slide show display control is temporarily stopped and the input / output device 10 receives the input. Although an example in which the mode is set is described, it is not necessary that the slide show display control is being executed as a premise that the input / output device 10 is set to the input mode. That is, the input / output device 10 may enter the input mode when the on state of the arm detection switch 124 is detected regardless of whether or not the slide show display control is being executed.

  In the above-described embodiment, the input / output device 10 includes the arm detection switch 124, but the input / output device 10 that does not include the arm detection switch 124 is also conceivable. In the configuration in which the input / output device 10 does not include the arm detection switch 124, for example, the input mode is switched to the input mode by a predetermined touch operation on the touch panel display 12.

  Further, in the above-described embodiment, as shown in FIG. 8, the entire body support portion 16 has a shape that is evenly distributed on both sides of the straight line C2, but it is not the shape that has been equally distributed. There is no problem. For example, the fixed rib member 36 and the movable rib member 38 may be arranged so as to be biased toward either the arrow E direction or the arrow F direction in FIG. 8, or one of the two columnar members 32a and 32b. There is no problem even if there is no.

  In the above-described embodiment, the main body support portion 16 includes the columnar members 32a and 32b. However, since the user can hold the input / output device 10 without the columnar members 32a and 32b, the columnar members 32a and 32b are provided. Both 32b are not essential.

  In the above-described embodiment, the movable rib member 38 can be rotated around the rib support shaft 52 with respect to the base portion 30, but the rib support shaft 52 and the like are not provided, and all of the rib members 36 and 38 are provided. The input / output device 10 can be considered as being integrally fixed to the base portion 30.

  In the above-described embodiment, the rib rotation position adjusting device 70 has a configuration as shown in FIGS. 9 and 10, but is not limited to such a configuration. For example, the rib rotation position adjusting device 70 may include a structure that holds the relative rotation angle between the input / output main body 14 and the main body support 16 around the connecting shaft 72 with a frictional force of a predetermined value or more. . In such a case, if the external force that rotates the input / output main body 14 and the main body support portion 16 exceeds the frictional force, they can be rotated relative to each other. On the other hand, if such an external force is not applied to the input / output main body 14 and the main body support 16, the relative rotation angle between the input / output main body 14 and the main body support 16 is maintained. Further, in the rib rotation position adjusting device 70 that holds the rotation angle with a frictional force, the cam 74, the cam engagement member 76, the cam engagement spring 78, and the operation lever 80 are unnecessary.

  In the above-described embodiment, the input / output device 10 includes the rib rotation position adjusting device 70. However, the input / output main body portion 14 and the main body support portion 16 are integrated with each other without the rib rotation position adjusting device 70. The input / output device 10 can also be considered.

  In the above-described embodiment, the rib interval adjusting device 120 urges the movable rib member 38 by the rib spring 62 in the direction in which the mutual interval between the opposed inner side surfaces 46 and 48 is reduced. For example, the rotation angle of the movable rib member 38 with respect to the base portion 30 may be held by a frictional force or the like. In such a structure in which the rotation angle of the movable rib member 38 is held by a frictional force or the like, the rib side locking portion 54, the pedestal side locking portion 56, and the rib spring 62 are not necessary. Further, when an external force exceeding the frictional force or the like that maintains the rotation angle of the movable rib member 38 acts on the movable rib member 38, the movable rib member 38 is rotated with respect to the base portion 30, and the rib members 36, 38. It is possible to change the mutual interval between the inner side surfaces 46 and 48 according to the thickness of the arm 100 sandwiched between them.

  In the above-described embodiment, the user can rotate the main body support portion 16 with respect to the input / output main body portion 14 around the normal C1 to the image display surface 20. The main body support 16 may be rotated with respect to the input / output main body 14 when it is held by its own hand, or the input / output device 10 is rotated with the input / output device 10 mounted on the mounting surface 8. Also good. If the main body support portion 16 is rotated with respect to the input / output main body portion 14 around the vertical line C1 while the input / output device 10 is placed on the placement surface 8, the display device 22 displays the information. In order to erect the displayed image, for example, the input / output control unit 150 rotates the entire display image in accordance with a predetermined user operation such as a touch operation on the touch panel display 12. It is preferable to display on the display device 22.

  In the above-described embodiment, as shown in FIGS. 1 and 2, when the input / output device 10 is placed on the mounting surface 8, the fixing rib member 36 is positioned above the input / output device 10. Although the movable rib member 38 is positioned on the lower side, the input / output device 10 can be placed on the mounting surface 8 with the fixed rib member 36 on the lower side and the movable rib member 38 on the upper side. There is no problem. In that case, for example, the outer side surface of the fixed rib member 36 on the opposite side of the inner side surface 46 in the rib thickness direction is the bottom surface of the input / output device 10 when the input / output device 10 is placed on the mounting surface 8. Function as.

  In the above-described embodiment, in FIG. 1, the input / output body 14 and the image display surface 20 are both horizontally long when the input / output device 10 is viewed from the front, but the shape is limited to such a shape. It is not something. For example, it may be circular or elliptical.

  In the above-described embodiment, the stylus pen 24 is shown as an input operator for the touch panel display 12, but other input operators such as a user's finger may be used.

  In the touch panel display 12 of the above-described embodiment, contact of the stylus pen 24 or the like with the image display surface 20 is detected. Depending on the contact detection method, the stylus pen 24 or the like contacts the image display surface 20. In some cases, it is recognized that the stylus pen 24 or the like is in contact with the image display surface 20 when approaching to the point of time, so in such a case, the stylus pen 24 or the like contacts the image display surface 20. It is assumed that the approach to the point of time is included in the contact of the stylus pen 24 and the like with the image display surface 20.

  In the above-described embodiment, an example in which the user supports the input / output device 10 with the arm 100 sandwiched between the fixed rib member 36 and the movable rib member 38 has been described. , 38 need only be a part of the upper limbs of the user, and is not limited to the arm 100 alone. For example, the hand 102 may be sandwiched between the rib members 36 and 38, or a part from the hand 102 to the arm 100 centered on the wrist may be sandwiched.

8: Placement surface 10: Input / output device 12: Touch panel display 20: Image display surface 24: Stylus pen (input operator)
36: Fixed rib member (rib member)
38, 162: movable rib member (rib member)
46: Inner side surface (opposite side surface)
48: Inner side surface (opposite side surface)
70: Rib rotational position adjusting device 100L: Left arm (upper limb)
100R: Right arm (upper limb)
120: Rib interval adjusting device 148: Arm detection means (detection means)
θg: Screen tilt angle

Claims (6)

An input / output device provided with a touch panel display on the front surface for detecting that an input operator operated by a user touches the image display surface while displaying an image,
A rib member having a side surface for sandwiching a part of the upper limb of the user protrudes from the back side of the touch panel display,
When the input / output device itself is placed on the placement surface, the rib member abuts on the placement surface and fixes the screen inclination angle of the image display surface. apparatus. 2. The input / output according to claim 1, wherein the rib member has a shape evenly distributed on both sides in a longitudinal direction of the upper limb sandwiched between the rib members with reference to a center of the image display surface. apparatus. The rib members are at least two rib members having side surfaces facing each other,
Rib interval adjusting device capable of moving at least one of the rib members relative to the touch panel display so as to change the mutual interval between the opposing side surfaces according to the thickness of the upper limb sandwiched between the rib members. The input / output device according to claim 1, wherein the input / output device is provided. The rib rotation position adjusting device capable of rotating the rib member with respect to the touch panel display around a vertical line with respect to the image display surface is provided. I / O device. It has a detecting means for detecting that the input / output device itself is held on the upper limb of the user,
When the detection unit detects that the input / output device itself is held on the upper limb of the user, the input mode is set to accept an input by a contact operation on the image display surface. Item 5. The input / output device according to any one of Items 1 to 4. In the perpendicular direction of the image display surface, the center position in the width direction and the longitudinal direction of the entire rib member falls within an input area where input by the input operator set in the image display surface is possible. The input / output device according to any one of claims 1 to 5.

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