JP2017181593A - Display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a display device for performing the control of the display state of a screen desired by a user and the control of a display direction, without requiring a specification operation to a user.SOLUTION: A display device 100 includes a display part 120 which displays information to be processed and the display content of an image, a holding state detection part 130 which outputs a holding state signal a corresponding to the holding state of a display device body 100, and a control part 110 which outputs a control signal b for controlling the display content of the display part 120 according to the output of the holding state detection part 130. The display part 120 includes a first display part 101 and a second display part 102. The holding state detection part 130 includes a first holding state detection part 103 and a second holding state detection part 104. The control part 110 determines which part of the display device body 100 is held by the user on the basis of the holding state signal a.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a display device, and more particularly to a display device that controls the display state and display direction of a screen desired by the user without requiring a specific operation from the user.

  2. Description of the Related Art Conventionally, a display device having a function (hereinafter referred to as a screen display control function) that automatically controls the display content of a screen and the display direction of images, characters, and the like according to the orientation of the display device is known. This type of screen display control function is realized by, for example, the technique disclosed in Patent Document 1. This patent document 1 discloses a technique for performing screen display control and rotation based on the orientation of the display surface with respect to the direction of gravity. Further, for example, Patent Document 2 discloses a technique for detecting the movement of the center of gravity of the display device and suppressing the display device from reflecting the posture of the display device in the direction of gravity on the display of information on the display screen. Further, for example, in Patent Document 3, it is determined whether or not a screen suppression operation is performed, and the attitude of the display device with respect to the gravity direction is reflected in the display of information on the display screen according to the result. Techniques for suppressing are disclosed.

JP 2012-58847 A JP 2010-86192 A JP 2014-137646 A

Conventional screen display control performs screen control based on the attitude of the display device with respect to the direction of gravity. Thereby, for example, even if the user changes the orientation of a display device such as a smartphone or a tablet PC, the display direction of the screen can always be maintained in a constant direction with respect to the direction of gravity.
On the other hand, even if the orientation of the display device relative to the gravity direction does not match the display direction desired by the user, that is, even if the orientation of the display device relative to the gravity direction changes, the user may It is also assumed that you do not want to rotate the display content on the screen. For example, it is assumed that the user holding the display device is in a state of lying down from a sitting state. At this time, since the user is lying down while holding the display device, he wants to maintain the display content in the sitting state and the display direction with respect to the housing of the display device. In the conventional screen display control, there is a problem that the display content is also rotated by 90 degrees (for example, from the upper diagram of FIG. (See the state on the right or left side).

  Further, for example, inconvenience occurs when viewing a photograph or a map displayed on the display device. When you want to rotate the direction of viewing photos and maps, if the display device is rotated in the same way as a user rotates a photo or map printed on paper, the display content is also reduced by gravity in the conventional screen display control. It rotates so that a fixed direction may be maintained with respect to the direction, and there is a problem that the displayed photograph or map cannot be rotated in the direction desired by the user.

Of course, it is only necessary to temporarily disable the screen auto-rotation function, but the auto-rotation function is often desirable, and it is complicated for the user to enable or disable it according to the frequently changing situation. And is impractical.
With respect to such a problem, the technique disclosed in Patent Document 2 described above detects the movement of the center of gravity of the display device, and reflects the posture of the display device with respect to the gravity direction in the display of information on the display screen. Suppress. As a result, it is possible to maintain the display content and the display direction when the user is sitting down and lying down sideways. However, the problem cannot be solved about the rotation of the display device on which the above-mentioned photograph or map is displayed.

  Similarly, with respect to the above-described problem, the technique disclosed in Patent Document 3 determines whether or not a screen restraining operation is performed, and displays the posture of the display device with respect to the gravity direction on the display screen according to the result. It is suppressed to reflect in the display of information. This allows the user to explicitly and temporarily suppress the screen auto-rotation function, but because there is a specific operation for that purpose, the same operation as rotating a photo or map printed on paper It will not be. Further, in Patent Document 2 described above, a method of holding the touch panel with a finger is given as a specific operation for suppressing the automatic rotation function, but this means that a part of the screen is occupied, and the user (See, for example, FIG. 2 and FIG. 4 of Patent Document 2).

  The present invention has been made in view of such problems, and the object of the present invention is to control the display state of the screen desired by the user and to change the display direction without requiring a specific operation from the user. An object of the present invention is to provide a display device that performs control.

  The first aspect of the present invention includes a display unit that displays information to be processed and display content of an image, a holding state detection unit that outputs a holding state signal according to a holding state of the display device body, and the holding state detection And a control unit that outputs a control signal for controlling the display content of the display unit in accordance with the holding state signal output from the unit.

  ADVANTAGE OF THE INVENTION According to this invention, the display apparatus which controls the display state of a screen and control of a display direction which a user desires without request | requiring a user's specific operation is realizable.

It is a block diagram for demonstrating Embodiment 1 of the display apparatus which concerns on this invention. (A), (b) is a figure for demonstrating the display part in Embodiment 1. FIG. (A), (b) is a figure for demonstrating the holding | maintenance state in Embodiment 1. FIG. It is a block diagram for demonstrating Embodiment 2 of the display apparatus which concerns on this invention. FIG. 10 is a diagram for explaining a display unit and a holding state detection unit in the second embodiment. (A)-(c) is a figure for demonstrating the holding | maintenance state and display content in Embodiment 2. FIG. It is a figure for demonstrating the holding | maintenance state and display content in a prior art as shown by patent document 1. FIG. (A), (b) is a figure for demonstrating the other holding state and display content in Embodiment 2. FIG. It is a figure for demonstrating the holding | maintenance state and display content in a prior art as shown by patent document 1. FIG.

In the following detailed description, numerous specific specific configurations are described to provide a thorough understanding of embodiments of the invention. However, it will be apparent that other embodiments may be practiced without limitation to such specific specific configurations. Further, the following embodiments do not limit the invention according to the claims, but include all combinations of characteristic configurations described in the embodiments.
Hereinafter, each embodiment of the present invention will be described with reference to the drawings.

[Embodiment 1]
FIG. 1 is a configuration diagram for explaining Embodiment 1 of a display device according to the present invention.
The display device 100 according to the first embodiment outputs a display unit 120 that displays information to be processed and display contents of an image, and a holding state signal a (a1, a2) corresponding to the holding state of the display device body 100. A holding state detection unit 130 and a control unit 110 that outputs a control signal b that controls the display content of the display unit 120 according to the holding state signal a output from the holding state detection unit 130 are provided.

The display unit 120 includes a first display unit 101 and a second display unit 102. The holding state detection unit 130 includes a first holding state detection unit 103 and a second holding state detection unit 104.
In addition, the control unit 110 displays the display device based on the first holding state signal a1 from the first holding state detection unit 103 and the second holding state signal a2 from the second holding state detection unit 104. It is determined which part of the main body 100 is held by the user or which display unit the user is viewing.

Further, first and second holding state detection units 103 and 104 are provided on the outer peripheral portion of the display device main body 100, respectively. Further, first and second holding state detection units 103 and 104 may be provided at the corners of the display device main body 100, respectively. In addition, first and second holding state detection units 103 and 104 may be provided on the side surface of the display device main body 100, respectively.
Moreover, it is preferable that the 1st and 2nd holding | maintenance state detection parts 103 and 104 are either an infrared sensor, a temperature sensor, a ranging sensor, a pressure sensor, an electrostatic capacitance sensor, and an illumination intensity sensor.

2A and 2B are diagrams for explaining a display unit according to the first embodiment. In the figure, reference numeral 100a denotes a first surface (front surface) of the display device main body 100, 100b denotes a second surface (back surface) of the display device main body 100, 105 denotes a speaker, 106 denotes a microphone, and 107 denotes a camera.
As shown in FIGS. 2A and 2B, the first and second display units 101 and 102 are disposed on at least one of the first surface 100a and the second surface 100b of the display device body 100, and The first and second holding state detection units 103 and 104 are arranged on at least one of the first surface 100a and the second surface 100b.

  That is, the display device main body 100 includes a first surface 100a and a second surface 100b, and includes a first display unit 101 disposed on the first surface 100a and a second display unit 102 disposed on the second surface 100b. At least one of the display units, the first holding state detection unit 103 disposed on the first surface 100a, and the second holding state detection unit 104 disposed on the second surface 100b. And.

The first holding state detection unit 103 outputs a first holding state signal a1 corresponding to the holding state of the first surface 100a, and the second holding state detection unit 104 corresponds to the holding state of the second surface 100b. The second holding state signal a2 is output.
The control unit 110 controls the display contents of the first display unit 101 and / or the second display unit 102 based on the first holding state signal a1 and / or the second holding state signal a2. The second control signals b1 and b2 are output.

  In addition, when the first holding state signal a1 indicates holding, the control unit 110 erases or stops the display of the first display unit 101, changes the display content to standby, or performs the first holding. When the status signal a1 does not indicate holding, the display of the second display unit 102 is erased or stopped, or is changed to display content for standby, or when the second holding status signal a2 indicates holding, The display of the first display unit 101 is deleted when the display of the second display unit 102 is erased or stopped, or the display content is changed to a standby display, or when the second holding state signal a2 does not indicate holding. Alternatively, control is performed to stop or change to display contents for standby.

Further, the control unit 110 outputs first and second control signals b1 and b2 for controlling the display direction of the display content based on the first and second holding state signals a1 and a2.
As described above, the display device 100 according to the first embodiment includes the first surface 100a, the second surface 100b, the first display unit 101 disposed on the first surface 100a, and the second surface 100b disposed on the second surface 100b. At least one of the two display units 102 and at least one of the first holding state detecting unit 103 disposed on the first surface 100a and the second holding state detecting unit 104 disposed on the second surface 100b. doing.

In addition, as the display device 100, a general mobile phone or smartphone is applicable. Therefore, in order to facilitate understanding of the drawing, the speaker 105 is formed on the upper portion of the first surface 100a, the microphone 106 is formed on the lower portion, and the upper portion on the second surface 100b. Although the camera 107 is included, these structures are not essential to the present invention.
In addition, the display device 100 controls the display of the first display unit 101 and the second display unit 102 according to the outputs of the first holding state detection unit 103 and the second holding state detection unit 104. Part 110.
Hereinafter, the display unit 120, the holding state detection unit 130, and the control unit 110 will be described in more detail.

<Display section>
The first display unit 101 and the second display unit 102 can display information and images processed by the display device 100 and are not particularly limited as long as they are controlled by the control unit 110. For example, a liquid crystal display, an organic EL display, electronic paper, or the like can be used as the first display unit 101 and the second display unit 102.

  In addition, the position of the display unit 101 on the first surface 100a and the position of the display unit 102 on the second surface 100b are respectively when the user grasps the display device 100 from the second surface 100b side and views the first surface 100a. When the user grasps the display device 100 from the first surface 100a side and looks at the second surface 100b, information is visually transmitted to the user by the first display unit 101 and the second display unit 102. There is no particular limitation if it can be done.

<Holding state detection unit>
The first holding state detection unit 103 and the second holding state detection unit 104 are not particularly limited as long as the state in which the user's hand is approaching can be detected. For example, an infrared sensor, a temperature sensor, a distance measuring sensor, a pressure sensor, a capacitance sensor, an illuminance sensor, or the like can be used as the first holding state detection unit 103 and the second holding state detection unit 104.

As the infrared sensor, a thermal infrared sensor such as a pyroelectric sensor, a thermopile, and a bolometer, a quantum infrared sensor such as a diode or a phototransistor, and the like can be used. There are no particular restrictions on the method.
In the case where infrared sensors are used as the first holding state detection unit 103 and the second holding state detection unit 104, it is sufficient if infrared rays emitted from the user's hand can be detected when the user's hand approaches. The position of the infrared sensor is not particularly limited. Moreover, when the user holds the display device main body 100 in his / her hand, the display device main body 100 may be placed in a position where it is wrapped in the palm. In addition, when the user holds the display device main body 100 in his / her hand, the finger or the palm may be placed on a portion where the user touches the palm.

As the temperature sensor, a thermocouple, a thermistor, a diode, or the like can be used, but the type and method are not particularly limited.
When temperature sensors are used as the first holding state detection unit 103 and the second holding state detection unit 104, the user's hand approaches or the user's hand touches the display device main body 100. The position of the temperature sensor is not particularly limited as long as the temperature change due to the heat of the user's hand can be detected. When the user holds the display device main body 100 in his / her hand, the display device main body 100 may be placed in a position where it is wrapped in the palm. In addition, when the user holds the display device main body 100 in his / her hand, the finger or the palm may be placed on a portion where the user touches the palm.

As the distance measuring sensor, a sensor that emits a sound wave or an electromagnetic wave and measures the distance from the obstacle based on the presence or intensity of the reflected wave and a phase difference with the emitted sound wave or electromagnetic wave can be used. However, the type and method are not particularly limited.
When distance measuring sensors are used as the first holding state detection unit 103 and the second holding state detection unit 104, it is only necessary to detect that a user's hand or other object exists nearby. The position of the distance sensor is not particularly limited. When the user holds the display device main body 100 in his / her hand, the display device main body 100 may be placed in a position where it is wrapped in the palm. In addition, when the user holds the display device main body 100 in his / her hand, the finger or the palm may be placed on a portion where the user touches the palm. Here, as other objects existing near the first holding state detecting unit 103 and the second holding state detecting unit 104, for example, a table top when the display device main body 100 is placed flat on a desk, etc. Is assumed. In addition, it is not necessary to distinguish the user's hand from other things. For example, when the display device 100 is placed on a desk, it is detected that the surface of the desk is near the distance measuring sensor of the display device main body 100, and the display of the first and second display units 101 and 102 is based on this. The contents may be changed.

As the pressure sensor, a piezoresistive pressure sensor or the like can be used, but the type and method are not particularly limited.
When pressure sensors are used as the first holding state detection unit 103 and the second holding state detection unit 104, it is only necessary to detect that the pressure sensor is held by the user's hand, and the position of the pressure sensor is not particularly limited. When the user holds the display device main body 100 in his / her hand, it may be placed on a portion pressed by a finger or palm.

In addition, as a capacitance sensor, a capacitance sensor that captures a change in capacitance due to a human hand approaching or touching as a change in response to a voltage or current pulse can be used. The type and method are not particularly limited.
When a capacitance sensor is used as the first holding state detection unit 103 and the second holding state detection unit 104, it is only necessary to detect a change in capacitance due to the approach of the user's hand. The position of is not particularly limited. When the user holds the display device main body 100 in his / her hand, the display device main body 100 may be placed in a position where it is wrapped in the palm. In addition, when the user holds the display device main body 100 in his / her hand, the finger or the palm may be placed on a portion where the user touches the palm.

As the illuminance sensor, a phototransistor or the like can be used, but the type and method are not particularly limited.
When an illuminance sensor is used as the first holding state detection unit 103 and the second holding state detection unit 104, the amount of light detected by the illuminance sensor may change as the user's hand approaches, and the position of the illuminance sensor Is not particularly limited. When the user holds the display device main body 100 in his / her hand, the display device main body 100 may be placed in a position where it is wrapped in the palm. In addition, when the user holds the display device 100 in his / her hand, the finger or the palm may be placed on the part.
Further, the first holding state detection unit 103 and the second holding state detection unit 104 do not need to use the same type of sensor.

<Control unit>
If the control part 110 can control the display of the 1st display part 101 and the 2nd display part 102 according to the output of the 1st holding | maintenance state detection part 103 and the 2nd holding | maintenance state detection part 104, it will restrict | limit especially. Not. As the control unit 110, for example, an analog IC, a digital IC, a CPU (Central Processing Unit), or the like can be used. The control unit 110 may be integrated with other components.

  The control unit 110 determines that the user is looking at the first display unit 101 when the second holding state detection unit 104 detects a state in which the user's hand is approaching, and is suitable for that case. The display may be controlled. The display control suitable for this case is, for example, that the first display unit 101 viewed by the user at this time is displayed in the normal use of the display device 100, and at this time the first display unit 101 that the user does not see is displayed. For the second display unit 102, for example, information is not displayed for power saving or security, display update is stopped, and the backlight is turned off when the backlight is used.

  FIGS. 3A and 3B are views for explaining the holding state in the first embodiment, and both show the holding state in which the user holds the display device 100 from the second surface 100b side. 3A is a diagram illustrating a state when viewed from the first surface 100a side, and FIG. 3B is a diagram illustrating a state when viewed from the second surface 100b side.

As shown in FIG. 3A, when the user grasps the display device 100 from the second surface 100b side and looks at the first surface 100a, the first holding state detection unit 103 is not covered by the user's hand. Therefore, a value in a state where the user's hand is not approaching is output. On the other hand, as shown in FIG. 3B, since the second holding state detection unit 104 is covered by the user's hand, the value of the state where the user's hand is approaching is output. That is, the control unit 110 determines that the user is on the second surface 100b side from the output of the second holding state detection unit 104 or the difference between the outputs of the first holding state detection unit 103 and the second holding state detection unit 104. From this, it can be estimated that the display device 100 is grasped and the first surface 100a is viewed, and display control according to the state can be performed.
Similarly to the above-described content, when the first holding state detection unit 103 detects a state where the user's hand is approaching, the control unit 110 is viewing the second display unit 102. It is possible to determine and control a display suitable for that case.

Further, for example, when the display device 100 does not include the second display unit 102 but includes only the first display unit 101, the control unit 110 uses the second holding state detection unit 104 for the user's hand. When the state of approaching is detected, the user may hold the display device 100 and determine that he / she is looking at the first display unit 101, and control the display suitable for that case. The display control suitable for this case is, for example, the display of information that has been suppressed for power saving or security, until the user has the display device 100 in hand. For example, resuming the updating of the display, and turning on the backlight that has been turned off when the backlight is used.
As described above, the display device 100 can control the display state of the screen desired by the user without requiring a specific operation from the user.

[Embodiment 2]
FIG. 4 is a configuration diagram for explaining Embodiment 2 of the display device according to the present invention.
The display device 200 according to the second embodiment includes a display unit 220 that displays information to be processed and display contents of an image, and a holding state detection unit 230 that outputs a holding state signal a corresponding to the holding state of the display device body 200. And a control unit 210 that outputs a control signal b for controlling the display content of the display unit 220 in accordance with a holding state signal a output from the holding state detection unit 230.

The holding state detection unit 230 includes first to fourth holding state detection units 211 to 214.
The control unit 210 includes a holding state signal a1 from the first holding state detection unit 211, a holding state signal a2 from the second holding state detection unit 212, and a holding state signal from the third holding state detection unit 213. Based on a3 and the holding state signal a4 from the fourth holding state detector 214, it is determined which part of the display device body 200 is held by the user.

The display unit 220 is disposed on at least one of the first surface and the second surface of the display device main body 200, and the first to fourth holding state detection units 211 to 214 include the first surface and the second surface. It is arranged on at least one side of the.
Further, the control unit 210 outputs a control signal b for controlling the display direction of the display content based on the first to fourth holding state signals a1 to a4.

FIG. 5 is a diagram for explaining a display unit and a holding state detection unit according to the second embodiment. Reference numeral 207 in the figure denotes a camera.
That is, the display device 200 according to the second embodiment includes the display unit 220, the first holding state detection unit 211, the second holding state detection unit 212, the third holding state detection unit 213, and the fourth holding state. The first to fourth holding state detection units 211 to 214 are respectively disposed along the outer peripheral portion of the display device main body 200 as shown in FIG. Moreover, you may arrange | position the 1st-4th holding state detection part 211-214 in the corner of the display apparatus main body 200, respectively. Moreover, you may arrange | position each of the 1st-4th holding | maintenance state detection parts 211-214 on the side surface of the display apparatus main body 200. FIG.

The first to fourth holding state detection units 211 to 214 are preferably any of an infrared sensor, a temperature sensor, a distance measuring sensor, a pressure sensor, a capacitance sensor, and an illuminance sensor.
In addition, since a general tablet PC or the like is applicable as the display device main body 200, the camera 207 is provided on the upper portion of the display device main body 200 in order to facilitate understanding of the drawing. This is essential for the present invention. Is not.
Moreover, the display apparatus 200 has the control part 210 for controlling the display of the display part 220 according to the output of the 1st-4th holding | maintenance state detection parts 211-214, as shown in FIG. .
Hereinafter, the display unit 220, the holding state detection unit 230, and the control unit 210 will be described in more detail.

<Display section>
The display unit 220 can display information and images processed by the display device main body 200 and is not particularly limited as long as it is controlled by the control unit 210. For example, a liquid crystal display, an organic EL display, electronic paper, or the like can be used as the display unit 220. The position of the display unit 220 is not particularly limited as long as information can be visually transmitted to the user by the display unit 220.

<Holding state detection unit>
The 1st-4th holding | maintenance state detection parts 211-214 will not be restrict | limited especially if the state where the user's hand approached can be detected. For example, an infrared sensor, a temperature sensor, a distance sensor, a pressure sensor, a capacitance sensor, an illuminance sensor, or the like can be used as the first to fourth holding state detection units 211 to 214.

As the infrared sensor, a thermal infrared sensor such as a pyroelectric sensor, a thermopile, and a bolometer, a quantum infrared sensor such as a diode or a phototransistor, and the like can be used. There are no particular restrictions on the method.
That is, in the case where infrared sensors are used as the first to fourth holding state detection units 211 to 214, it is sufficient that infrared rays emitted from the user's hand can be detected when the user's hand approaches. The position of the sensor is not particularly limited. When the user holds the display device main body 200 in his / her hand, the display device main body 200 may be placed in a position where it is wrapped in the palm. In addition, when the user holds the display device main body 200 in his / her hand, it may be placed on a portion where a finger or palm comes into contact.

As the temperature sensor, a thermocouple, a thermistor, a diode, or the like can be used, but the type and method are not particularly limited.
That is, when a temperature sensor is used as the first to fourth holding state detection units 211 to 214, the user's hand approaches or the user's hand touches the display device main body 200. As long as the temperature change due to the heat of the hand can be detected, the position of the temperature sensor is not particularly limited. When the user holds the display device main body 200 in his / her hand, the display device main body 200 may be placed in a position where it is wrapped in the palm. In addition, when the user holds the display device main body 200 in his / her hand, it may be placed on a portion where a finger or palm comes into contact.

As the distance measuring sensor, a sensor that emits a sound wave or an electromagnetic wave and measures the distance from the obstacle based on the presence or intensity of the reflected wave and a phase difference with the emitted sound wave or electromagnetic wave can be used. However, the type and method are not particularly limited.
That is, in the case where distance measuring sensors are used as the first to fourth holding state detection units 211 to 214, it is only necessary to be able to detect the presence of a user's hand or other object nearby. The position of is not particularly limited. When the user holds the display device main body 200 in his / her hand, the display device main body 200 may be placed in a position where it is wrapped in the palm. In addition, when the user holds the display device main body 200 in his / her hand, it may be placed on a portion where a finger or palm comes into contact.

As the pressure sensor, a piezoresistive pressure sensor or the like can be used, but the type and method are not particularly limited.
That is, in the case where pressure sensors are used as the first to fourth holding state detection units 211 to 214, it is only necessary to detect that the pressure sensor is held by the user's hand, and the position of the pressure sensor is not particularly limited. When the user holds the display device main body 200 in his / her hand, the display device 200 may be placed on a portion pressed by a finger or palm. Further, it may be placed on the side surface of the display device main body 200.

In addition, as a capacitance sensor, a capacitance sensor that captures a change in capacitance due to a human hand approaching or touching as a change in response to a voltage or current pulse can be used. The type and method are not particularly limited.
That is, in the case of using a capacitance sensor as the first to fourth holding state detection units 211 to 214, it is only necessary to detect a change in capacitance due to the approach of the user's hand, and the position of the capacitance sensor. Is not particularly limited. When the user holds the display device main body 200 in his / her hand, the display device main body 200 may be placed in a position where it is wrapped in the palm. In addition, when the user holds the display device main body 200 in his / her hand, it may be placed on a portion where a finger or palm comes into contact.

As the illuminance sensor, a phototransistor or the like can be used, but the type and method are not particularly limited.
That is, when using an illuminance sensor as the first to fourth holding state detection units 211 to 214, the amount of light detected by the illuminance sensor may change as the user's hand approaches, and the position of the illuminance sensor is particularly Not limited. When the user holds the display device main body 200 in his / her hand, the display device main body 200 may be placed in a position where it is wrapped in the palm. In addition, when the user holds the display device main body 200 in his / her hand, it may be placed on a portion where a finger or palm comes into contact.

Further, the first to fourth holding state detection units 211 to 214 need not use the same type of sensor.
Further, as described above, the first to fourth holding state detection units 211 to 214 only need to be able to detect a state in which the user's hand is approaching, and therefore do not need to be disposed on the same surface as the display unit 220. For example, the first to fourth holding state detection units 211 to 214 may be arranged on the back surface of the display device main body 200.
Further, the display device main body 200 may include an acceleration sensor or an inertial sensor in order to control display on the display unit 220.

<Control unit>
The control part 210 will not be restrict | limited especially if the display of the display part 220 can be controlled according to the output of the 1st-4th holding | maintenance state detection parts 211-214. As the control unit 210, for example, an analog IC, a digital IC, a CPU (Central Processing Unit), or the like can be used. In addition, the control unit 210 may be integrated with other components.

In addition, when the first to fourth holding state detection units 211 to 214 detect a state in which the user's hand is approaching, the control unit 210 holds the vicinity of the holding state detection units 211 to 214 corresponding to the user. The display suitable for that case may be controlled.
The display control suitable for this case is, for example, when the user determines that the vicinity of the two holding state detection units among the first to fourth holding state detection units 211 to 214 is held. The display direction of the display unit 220 may be controlled with the direction of the line connecting the two holding state detection units as the horizontal direction.

  FIGS. 6A to 6C are diagrams for explaining the holding state and display contents in the second embodiment, and FIG. 6A holds both side lower ends of the horizontal position of the display device main body 200 with both hands. 6B shows a state in which the lower ends of both sides of the vertical position of the display device main body 200 are held by both hands, and FIG. 6C shows the upper and lower ends of the horizontal direction of the display device main body 200. Each of these shows a state of holding with both hands.

  That is, it shows a state where a user holding the display device main body 200 displaying the tower image on the display unit 220 with both hands. In particular, FIGS. 6A and 6B show the display device main body 200 in a state where the user is standing or sitting and the vertical direction of the user's field of view is substantially parallel to the direction of gravity. FIG. 6C shows a state in which the user lies down, etc., and the display device body 200 is held in the state where the lateral direction of the user's field of view is substantially parallel to the direction of gravity. The display device main body 200 is shown in a state that the user is looking at.

Further, it is assumed that the tower image in the figure is correct when the tower is viewed vertically, and the correct direction information is given to the image.
In the state of FIG. 6A, the first holding state detecting unit 211 and the second holding state detecting unit 212 detect the user's hand, and the first holding state detecting unit 211 and the second holding state are detected. Since the image of the tower is displayed on the display unit 220 with the line connecting the state detection unit 212 as the horizontal direction, the user can view the image in the correct direction.

In the state of FIG. 6B, the first holding state detection unit 211 and the fourth holding state detection unit 214 detect the user's hand, and the first holding state detection unit 211 and the fourth holding state detection unit 214 Since the image of the tower is displayed on the display unit 220 with the direction of the line connecting the holding state detection units 214 in the horizontal direction, the user views the image in the correct direction as in the state of FIG. Can do.
Further, in the state of FIG. 6C, the first holding state detection unit 211 and the fourth holding state detection unit 214 detect the user's hand, and the first holding state detection unit 211 and the fourth holding state are the same. Since the image of the tower is displayed on the display unit 220 with the direction of the line connecting the holding state detection units 214 in the horizontal direction, the user views the image in the correct direction as in the state of FIG. Can do.

From the above, when it is determined that the user holds the vicinity of the two holding state detection units among the first to fourth holding state detection units 211 to 214, the two holding state detection units are connected. By controlling the display direction of the display unit 220 with the direction of the line segment as the horizontal direction, the user can always view the display content in the correct direction.
FIG. 7 is a diagram for explaining the holding state and display contents in the prior art as shown in Patent Document 1, and shows the state in which the upper and lower ends of the horizontal position of the display device body in the prior art are held with both hands. Show.

  When controlling the display direction of an image using a conventional technique as shown in Patent Document 1, the display device main body in a state where the lateral direction of the user's field of view is substantially parallel to the direction of gravity when the user lies down The display device main body 200 in a state in which the user is looking at the user holding the hand 200 is as shown in FIG. 7, and in this case, the user cannot see the display content in the correct direction.

  In addition, as another display control suitable for this case, for example, when the display apparatus main body 200 has an acceleration sensor for controlling the display direction of the display unit 220, the first to fourth holding states Among the detection units 211 to 214, when the user detects a change in the direction of the display device main body 200 itself by the acceleration sensor while holding the vicinity of any one of the holding state detection units, the user's vision The display content on the screen may be determined to be rotated, and control may be performed to maintain the direction of the display content with respect to the display device main body 200 or the display unit 220.

8A and 8B are diagrams for explaining still another holding state and display contents in the second embodiment, and FIG. 8A shows the lower end portions on both sides of the horizontal position of the display device main body 200. FIG. FIG. 8B shows a state where the upper end of the vertical position of the display device main body 200 is held with one hand.
That is, it represents a state in which the user holding the display device main body 200 displaying the tower image on the display unit is viewing. Further, it is assumed that the display device main body 200 is held in a state where the user is standing or sitting and the vertical direction of the user's field of view is substantially parallel to the direction of gravity.

Further, it is assumed that the tower image in the figure is correct when the tower is viewed vertically, and wrong direction information is given to the image.
In the state of FIG. 8A, a line segment connecting the first holding state detection unit 211 and the second holding state detection unit 212 that detects the user's hand by the acceleration sensor or as in the above-described example. Since the image of the tower is displayed on the display unit 220 with the direction of 1 being the horizontal direction, the user cannot see the image in the correct direction. In FIG. 8A, the tower is displayed in a state where the tower is rotated 90 degrees to the right, so that the user rotates the display device main body 200 as it is to the left by 90 degrees in order to set the image in the correct direction. At this time, for example, when the display device main body 200 is rotated while being held with the right hand, the state shown in FIG. At this time, since the second holding state detection unit 212 continues to detect the holding state of the user, control is performed so that the direction of the display content with respect to the display device main body 200 itself and the display unit 220 is maintained. Therefore, in the state of FIG. 8B after the rotation, the user can see the image in the correct direction.

  From the above, when the display device main body 200 has an acceleration sensor to control the display direction of the display unit, the user among the first to fourth holding state detection units 211 to 214 When a change in the direction of the display device body 200 itself is detected by the acceleration sensor while holding the vicinity of one of the holding state detection units, the user will rotate the display content on the screen with respect to the user's vision. By controlling the display device main body 200 and the display unit 220 so that the display content direction is maintained, the user can easily rotate the display content in an arbitrary direction. Even if the display direction information is wrong, the user can easily correct the direction and view the displayed content in the correct direction.

FIG. 9 is a diagram for explaining the holding state and display contents in the conventional technology as shown in Patent Document 1, and shows the state in which the upper end of the vertical position of the display device body in the conventional technology is held with one hand. ing.
When the display direction of an image is controlled using the conventional technique as shown in Patent Document 1, the user moves the display device main body according to Embodiment 2 of the present invention from the state shown in FIG. 8A to FIG. 8B. Similarly to rotating the display device main body 200 to the state, when the display device according to the prior art is rotated 90 degrees counterclockwise, as shown in FIG. 9, the user cannot view the display content in the correct direction. In order to eliminate this state, it is necessary to temporarily disable the control of the display direction or to correct the display direction information of the display content, and a complicated operation is required.

From the above, the display device 200 using the second embodiment can control the display state and the display direction of the screen desired by the user without requiring a specific operation from the user.
As mentioned above, although embodiment of this invention was described, the technical scope of this invention is not limited to the technical scope as described in embodiment mentioned above. It is possible to add various changes or improvements to the above-described embodiments, and it is possible to add such changes or improvements to the technical scope of the present invention. it is obvious.

  The present invention is applicable to a display device having a display unit that displays images, characters, photographs, maps, and the like. In particular, small display devices with excellent portability such as smartphones, tablet PCs, mobile phones, digital cameras, portable game machines, controllers for stationary game machines, electronic dictionaries, electronic book readers, and PDAs (Personal Digital Assistants). Can be widely applied.

100,200 Display device (main unit)
100a First surface 100b of display device main body 100 Second surface 101 of display device main body 100 First display unit 102 Second display unit 103 First holding state detection unit 104 Second holding state detection unit 105 Speaker 106 Microphone 107, 207 Camera 110, 210 Control unit 120, 220 Display unit 130, 230 Holding state detection unit 211 First holding state detection unit 212 Second holding state detection unit 213 Third holding state detection unit 214 Fourth holding Status detector

Claims (11)

A display for displaying the information to be processed and the display content of the image;
A holding state detection unit that outputs a holding state signal according to the holding state of the display device body;
A control unit that outputs a control signal for controlling the display content of the display unit according to the holding state signal output from the holding state detection unit;
A display device comprising:   The display device according to claim 1, wherein the control unit determines which part of the display device body is held by a user based on the holding state signal. The display unit is disposed on at least one of the first surface and the second surface of the display device body,
The display device according to claim 1, wherein the holding state detection unit is disposed on at least one of the first surface and the second surface. The display device body includes the first surface and the second surface,
At least one of a first display unit disposed on the first surface and a second display unit disposed on the second surface;
A first holding state detecting unit disposed on the first surface and a second holding state detecting unit disposed on the second surface; and a holding state detecting unit.
The first holding state detection unit outputs a first holding state signal corresponding to the holding state of the first surface,
The second holding state detection unit outputs a second holding state signal corresponding to the holding state of the second surface,
The control unit outputs a control signal for controlling display contents of the first display unit and / or the second display unit based on the first holding state signal and / or the second holding state signal. The display device according to any one of claims 1 to 3. The controller is
The first display unit when the first holding state signal indicates holding;
Or when the first holding state signal does not indicate holding, the second display unit,
Or the second display unit when the second holding state signal indicates holding;
Or when the second holding state signal does not indicate holding, the first display unit,
The display device according to claim 4, wherein the display is erased or stopped, or changed to display content for standby.   The display device according to claim 1, wherein the control unit outputs a control signal for controlling a display direction of the display content based on the holding state signal.   The display device according to claim 1, wherein the holding state detection unit is provided on an outer peripheral portion of the display device body.   The display device according to claim 1, wherein the holding state detection unit is provided at each corner of the display device body.   The display device according to claim 1, wherein the holding state detection unit is provided on a side surface of the display device body.   The display device according to claim 1, further comprising first to fourth holding state detection units as the holding state detection unit.   11. The display device according to claim 1, wherein the holding state detection unit is any one of an infrared sensor, a temperature sensor, a distance measurement sensor, a pressure sensor, a capacitance sensor, and an illuminance sensor.

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