JP4779046B2 - Electronics - Google Patents

Description

【Technical field】
[0001]
The present invention relates to an electronic device in which a display unit is installed on one surface of a device main body, for example.
[Background]
[0002]
A car stereo (see, for example, Patent Document 1 and Patent Document 2) as an electronic device is attached to an instrument panel (hereinafter referred to as instrument panel) of a car as a moving body. This type of car stereo includes a device main body attached to the instrument panel and a display unit such as a liquid crystal display installed on the front surface as one surface of the device main body.
[0003]
The apparatus main body incorporates a playback device such as a CD player, an MD (Mini Disc) player, and a CD-ROM player constituting a navigation device. The display unit displays map information in the navigation device, information indicating the reproduction status of the CD player and the MD player, and the like on a liquid crystal display or the like. Further, the display unit is provided with operation buttons that are operated when operating commands for various functions of the navigation device, the CD player, and the MD player.
[Patent Document 1]
JP 2003-223780 A
[Patent Document 2]
JP 2003-224369 A
DISCLOSURE OF THE INVENTION
[Problems to be solved by the invention]
[0004]
The conventional car stereos disclosed in Patent Documents 1 and 2 described above have a problem in that the number of people who can view the information displayed on the display unit at the same time is limited because the display area of the display unit is small.
[0005]
Therefore, an object of the present invention is, for example, an electronic device that allows a large number of people to view information displayed on the display unit by enlarging the display area of the display unit installed on one surface of the device main body. Is to provide.
[Means for Solving the Problems]
[0006]
In order to solve the above-described problems and achieve the object, an electronic device according to the present invention includes a device main body and a screen-like screen having flexibility installed on one surface of the device main body. In an electronic device provided with an EL display unit, in a state where the movable member is movable to the inside and outside of the device main body through an opening provided on the one surface, and the moving member protrudes outside the device main body, Rotating means capable of rotating the moving member around a base end near the one surface so that a distal end portion of the moving member away from the one surface faces the outside of the device main body, and the moving member A display support unit having a winding member that is rotatably provided at the tip of the EL display unit and on which an edge of the EL display unit is wound, and an operator can input a command related to the movement of the display support unit Operation unit and display support And a pair of the display support portions, and at least a detection means for detecting a rotation angle of the winding member with respect to a distal end portion of the moving member; and Second detection means for detecting a rotation angle of the base end portion with respect to the device main body, and the control means, when the operation unit receives a command related to the movement, the detection means and the second detection means. The EL display unit is positioned in a direction desired by the operator by independently driving each of the pair of display support units based on the rotation angle detected in step (b).
[Brief description of the drawings]
[0007]
FIG. 1 is a perspective view of a car navigation system as an electronic apparatus according to an embodiment of the present invention.
FIG. 2 is a perspective view showing a state where both of a pair of display support portions of the car navigation shown in FIG. 1 are positioned at an exposure position.
FIG. 3 is a perspective view showing a state where both of a pair of display support parts of the car navigation shown in FIG. 2 are positioned at an enlarged position.
FIG. 4 is a perspective view showing a state in which one display support portion of the car navigation shown in FIG. 1 is positioned at the exposure position and the other display support portion is positioned at the accommodation position.
FIG. 5 is a block diagram showing the main configuration of the car navigation shown in FIG.
FIG. 6 is a plan view of the display unit of the car navigation system shown in FIG.
FIG. 7 is an explanatory diagram showing a configuration of a drive mechanism of the car navigation shown in FIG.
FIG. 8 is a perspective view showing an end portion of a shaft of a display support portion of the car navigation shown in FIG.
FIG. 9 is a perspective view showing a state in which a winding member is attached to the end of the shaft shown in FIG.
10 is a cross-sectional view of the shaft and winding member shown in FIG.
FIG. 11 is a perspective view showing a state in which both of the pair of display support portions of the car navigation shown in FIG. 1 are positioned at the accommodation position.
FIG. 12 is a perspective view showing a state in which both of a pair of display support portions of the car navigation shown in FIG. 1 are positioned at an enlarged position.
13 is a perspective view showing a state in which one display support part of the car navigation system shown in FIG. 1 is positioned at the exposure position and the other display support part is positioned at the accommodation position.
14 is a perspective view showing a state in which one display support portion of the car navigation system shown in FIG. 1 is positioned at the enlarged position and the other display support portion is positioned at the accommodation position. FIG.
[Explanation of symbols]
[0008]
1 Car navigation system (electronic equipment)
2 Device body
2a Front (one side)
3 Display unit (display unit)
14 Display support
17 Moving chassis (moving part)
18 Rotating part (Rotating means)
19 Wrapping material
20 First rotary encoder (detection means)
21 Second rotary encoder (second detection means)
33 Torsion coil spring (biasing means)
BEST MODE FOR CARRYING OUT THE INVENTION
[0009]
Hereinafter, an embodiment of the present invention will be described. An electronic apparatus according to an embodiment of the present invention has a flexible screen-like shape. EL A display support unit provided with a winding member around which the edge of the display unit is wound is provided, the display support unit is movable in and out of the apparatus main body, and the base end of the moving member is the center, Rotating means capable of rotating the moving member is provided so that the tip of the moving member faces the outside of the apparatus main body.
[0010]
By doing so, the moving member is protruded from the device main body, and the moving member is rotated around the base end portion, thereby being wound around the winding member. EL The display unit develops from the winding member. For this, EL The exposed area of the display area is increased, of course, EL The display area of the display unit can be enlarged. So many people EL It is possible to visually recognize information displayed on the display unit.
[0011]
The display support part EL An urging unit that urges the edge of the display unit in a winding direction may be provided. In this case, when the moving member is rotated in the direction in which the distal end portion of the moving member is directed toward the inside of the device main body, the winding member is EL The edge part of a display part can be wound up.
[0012]
The display support unit may include at least one of detection means for detecting the rotation angle of the winding member and second detection means for detecting the rotation angle of the proximal end portion of the moving member. In this case, based on the rotation angle of the winding member detected by the detection means and the rotation angle of the proximal end portion of the moving member detected by the second detection means. EL The display unit can be changed to an optimal orientation and display area size. Also, EL Appropriately depending on the display area size EL Information can be displayed on the display unit.
[0013]
Furthermore, a pair of display support portions is provided, and a wrapping member for the pair of display support portions is provided. EL You may wind the edge located in the mutually opposite side of a display part. In this case, more EL While being able to expand the display area of the display unit, by appropriately changing the amount of protrusion from one surface of the device body of the moving member of the pair of display support units, EL The direction of the display unit can be arbitrarily changed.
[0014]
An embodiment of the present invention will be described with reference to FIGS. A car navigation device (hereinafter referred to as a car navigation system) 1 as an electronic device is mounted on an instrument panel (hereinafter referred to as an instrument panel) of a car as a moving body, as shown in FIGS. 1 to 4 and FIG. The device main body 2, the display unit 3 as a display unit installed in the device main body 2, the drive mechanism 4 (shown in FIG. 5), the ROM 6 (shown in FIG. 5) as the storage means, and the EPROM 7 (FIG. 5). And a CPU 8 (shown in FIG. 5) as control means.
[0015]
The device body 2 is formed in a box shape. The device body 2 is attached to the instrument panel. Hereinafter, the vehicle width direction of the above-described automobile shown in FIG. 1 and the like is indicated by an arrow X and is hereinafter referred to as a width direction, and the front and rear direction of the automobile is indicated by an arrow Y and is hereinafter referred to as a depth direction. The height direction is indicated by an arrow Z and is hereinafter referred to as the thickness direction.
[0016]
Further, the device main body 2 accommodates the navigation unit 9, the DVD player 10, the television tuner 11, and the like shown in FIG. That is, the car navigation 1 further includes a navigation unit 9, a DVD player 10, and a television tuner 11.
[0017]
The navigation unit 9 receives a vehicle speed pulse signal corresponding to the rotation of the tire of the automobile from the above-mentioned automobile travel distance sensor. The navigation unit 9 includes an acceleration sensor that detects acceleration in the depth Y direction, a GPS (Global Positioning System), and the like. The navigation unit 9 measures the position of the automobile, calculates the moving direction of the automobile, and the like using the acceleration sensor and GPS described above. Then, the navigation unit 9 displays the position and moving direction of the automobile on the display unit 3.
[0018]
The DVD player 10 reproduces a well-known DVD (Digital Versatile Disk) -ROM (Read Only Memory) or DVD video and displays information from the DVD-ROM or DVD video on the display unit 3. The television tuner 11 receives a television broadcast and displays the received video on the display panel 3 a of the display unit 3.
[0019]
The display unit 3 is installed on the front surface 2a as one surface exposed to the passenger compartment side of the automobile of the device body 2. The display unit 3 is configured by a flexible screen-like EL (Electroluminescence) display device. The display unit 3 is formed in a rectangular shape whose planar shape is long in the width direction X. The length of the display unit 3 in the longitudinal direction is sufficiently longer than the width in the width direction X of the front surface 2 a of the device body 2.
[0020]
Further, as shown in FIG. 6, the display unit 3 has through-holes 12 at equal intervals along the width direction X, that is, the longitudinal direction of the display unit 3, at both ends in the thickness direction Z of the edge portion 3a. Provided. The display unit 3 is supported at its both ends in the longitudinal direction, that is, in the width direction X, movably with respect to the device body 2 by a display support portion 14 described later of the drive mechanism 4. The display unit 3 displays information from the navigation unit 9, the DVD player 10, and the TV tuner 11 described above.
[0021]
In addition, an operation unit 13 (shown in FIG. 5) as an operation means is attached to the device main body 2 described above. The operation unit 13 is provided with a plurality of operation buttons and the like. These operation buttons, that is, the operation unit 13 are used to switch the information displayed on the display unit 3 described above between the information from the navigation unit 9, the information from the DVD player 10, and the information from the TV tuner 11. Used.
[0022]
In addition, the operation button, that is, the operation unit 13 is a moving chassis 17 to be described later in a state where each display support unit 14 of the drive mechanism 4 is put in and out of the device main body 2 and each display support unit 14 protrudes out of the device main body 2. This is used to adjust the rotation angle around the base end portion 17a.
[0023]
The drive mechanism 4 includes a pair of display support portions 14 as shown in FIG. The display support portions 14 are provided at both end portions in the width direction X of the device main body 2. As shown in FIG. 7, the display support unit 14 includes a fixed rack 15, a slide unit 16, a moving chassis 17 as a moving member, a rotating unit 18 as a rotating unit, a winding member 19, and a detecting unit. The first rotary encoder 20 and a second rotary encoder 21 as second detection means are provided.
[0024]
The fixed rack 15 is accommodated in the opening 22 opened at both ends in the width direction X of the front surface 2 a of the device main body 2 and is fixed to the device main body 2. The fixed rack 15 is formed in a straight line shape, and the longitudinal direction thereof is arranged in parallel with the depth direction Y described above. The fixed rack 15 is provided over the entire length of the device main body 2 in the depth direction Y. The opening 22 opens to the front surface 2 a over substantially the entire length in the thickness direction Z of the device main body 2.
[0025]
The slide portion 16 includes a slide chassis 23, a motor 24 as a drive source, and a worm gear 25. The slide chassis 23 is made of sheet metal or the like and is formed in a flat plate shape. The slide chassis 23 is accommodated in the opening 22 with the surface thereof being parallel to both the depth direction Y and the thickness direction Z. The motor 24 is fixed to the slide chassis 23. A worm 26 is attached to the output shaft of the motor 24. The worm gear 25 is supported by the slide chassis 23 so as to be rotatable about the thickness direction Z. The worm gear 25 meshes with both the worm 26 and the fixed rack 15.
[0026]
When the motor 24 is driven forward, for example, when the motor 24 is driven forward, the worm gear 25 travels on the fixed rack 15, and the slide chassis 23 and the moving chassis 17, that is, the display support portion 14 are passed through the opening 22 from the device body 2 to the device. It moves toward the outside of the main body 2. When the motor 24 is driven in reverse, for example, when the motor 24 is driven in reverse, the worm gear 25 travels on the fixed rack 15, and the slide chassis 23 and the moving chassis 17, that is, the display support portion 14 pass through the opening 22 from outside the device body 2. 2 move inward. That is, the moving chassis is movable in and out of the device main body 2 through the opening 22 provided in the front surface 2a.
[0027]
The moving chassis 17 is made of sheet metal or the like and is formed in a flat plate shape. The movable chassis 17 is accommodated in the opening 22 with the surface thereof being parallel to both the depth direction Y and the thickness direction Z. The movable chassis 17 has a base end portion 17a near the front surface 2a at the back side of the device main body 2, that is, an exposed position described later, and an end portion near the front surface 2a of the slide chassis 23 so as to be rotatable about the thickness direction Z. ing.
[0028]
Further, a columnar shaft 27 shown in FIGS. 8 and 9 is provided at a distal end portion 17b of the moving chassis 17 closer to the outside of the device main body 2. The shaft 27 is provided at both ends in the thickness direction of the tip end portion 17 b, and the axial direction of the shaft 27 is arranged in parallel with the thickness direction Z.
[0029]
The rotating unit 18 includes a motor 28, a connecting gear 29, and a rotating shaft gear 30. The motor 28 is fixed to the slide chassis 23, and a pinion 31 is attached to its output shaft. The connecting gear 29 is supported by the slide chassis 23 so as to be rotatable about the arrow X, and meshes with the pinion 31. The rotating shaft gear 30 is fixed to the aforementioned base end portion 17 a of the moving chassis 17. The rotary shaft gear 30 meshes with the connecting gear 29.
[0030]
With the above-described configuration, for example, when the motor 28 is driven to rotate in the forward direction, the rotating unit 18 is centered on the base end 17a near the front surface 2a of the moving chassis 17 that protrudes out of the device body 2, and the device body of the moving chassis 17 is centered. The movable chassis 17 is rotated about the thickness direction Z so that the distal end portion 17b on the side away from the front surface 2a of the second head is directed to the outside of the device body 2. When the motor 28 is driven in the reverse direction, the rotating unit 18 rotates the movable chassis 17 so that the distal end portion 17b is directed toward the inside of the device main body 2 with the base end portion 17a described above as the center.
[0031]
A pair of winding members 19 is provided on one display support portion 14. The winding member 19 is formed in a thick annular shape. As shown in FIG. 9, the winding member 19 is attached to the outer periphery of both end portions of the shaft 27 and is rotatably supported with respect to the shaft 27. Locking protrusions 32 are provided on the outer peripheral surface of the winding member 19 at equal intervals in the circumferential direction. The locking protrusion 32 enters the through hole 12 and locks into the through hole 12.
[0032]
The winding member 19 is wound with the edge 3 a in the width direction X of the display unit 3 by the convex locking protrusion 32 locking from the outer peripheral surface of the winding member 19 to the through hole 12. For this reason, the display support part 14 is arrange | positioned so that each winding member 19 may wind the edge part 3a located in the mutually opposite side of the display unit 3. FIG.
[0033]
Further, the winding member 19 is urged in the direction of winding the display unit 3 around the outer peripheral surface thereof by a torsion coil spring 33 as urging means shown in FIG. The torsion coil spring 33 is made of metal and formed in a spiral shape. One end of the torsion coil spring 33 is fixed to the outer peripheral surface of the shaft 27 and the other end is fixed to the inner peripheral surface of the winding member 19. Has been.
[0034]
The first rotary encoder 20 is provided between one of the pair of winding members 19 and the shaft 27 to which the one is attached. The first rotary encoder 20 detects the rotation angle of the winding member 19 relative to the shaft 27, that is, the distal end portion 17 b of the moving chassis 17, and outputs the detected rotation angle toward the CPU 8.
[0035]
The second rotary encoder 21 is provided between the distal end portion of the slide chassis 23 and the proximal end portion 17 a of the moving chassis 17. The second rotary encoder 21 detects the rotation angle of the distal end portion of the slide chassis 23, that is, the proximal end portion 17 a of the moving chassis 17 with respect to the device body 2, and outputs the detected rotation angle toward the CPU 8.
[0036]
With the above-described configuration, the drive mechanism 4 has the accommodation position in which the motor 24 is driven forward, for example, the worm gear 25 travels on the fixed rack 15, and the slide chassis 23 and the movable chassis 17 are accommodated in the device body 2. It moves along the depth direction Y of the device main body 2 from an exposure position (shown in FIG. 2) discharged from the device main body 2 (shown in FIG. 1). That is, when the motor 24 is driven to rotate forward, for example, the drive mechanism 4 causes the slide chassis 23 and the moving chassis 17 in the device main body 2, that is, the display support portion 14 to be discharged out of the device main body 2 through the opening 22.
[0037]
Further, when the motor 24 is driven in reverse, for example, the drive mechanism 4 causes the worm gear 25 to travel on the fixed rack 15 and move the slide chassis 23 and the moving chassis 17 from the aforementioned exposed position toward the accommodation position. It moves along the depth direction Y. That is, when the motor 24 is driven in reverse, for example, the drive mechanism 4 accommodates the display support portion 14 outside the device main body 2 in the device main body 2 through the opening 22. In this way, the drive mechanism 4 moves the display support portion 14 and the like over the storage position stored in the device main body 2 and the exposed position discharged from the device main body 2, thereby moving the display support portion 14. It moves in and out of the device body 2 through the front surface 2a. In this way, the drive mechanism 4 drives the motor 24 to rotate forward or backward so that each edge 3a in the width direction of the display unit 3 protrudes from the front surface 2a of the device body 2 or overlaps the front surface 2a.
[0038]
Furthermore, with the above-described configuration, when the motor 28 is driven to rotate forward, for example, the drive mechanism 4 is ejected from the apparatus main body 2, that is, moved from the accommodation position and positioned at the exposure position (shown in FIG. 2). The display support portion 14 is rotated about the base end portion 17a so that the above-described distal end portion 17b is directed to the outside of the device main body 2, so that the movable chassis 17 is parallel to the front surface 2a toward the enlarged position shown in FIG. To move.
[0039]
In addition, when the motor 28 is driven in reverse, for example, the drive mechanism 4 moves the moving chassis 17, that is, the display support portion 14 positioned at the above-described enlarged position, and the base end so that the above-described distal end portion 17 b faces the inside of the device body 2. It rotates about the part 17a and moves toward the exposure position described above. As described above, the drive mechanism 4 includes the exposed position where the distal end portions 17b of the moving chassis 17 of the pair of display support portions 14 are moved away from each other, and the moving chassis 17 is connected to the front surface 2a. The movable chassis 17, that is, the display support portion 14 is displaced over the parallel enlarged position.
[0040]
The ROM 6 stores a program for operating the car navigation 1. The ROM 6 stores a program for operating the CPU 8 as described later.
[0041]
The EPROM 7 is a well-known non-volatile memory, and after being positioned from the housing position to the exposed position, the CPU 8 is centered on the proximal end portion 17a of the moving chassis 17 based on information from the second rotary encoder 21 at the exposed position. The rotation direction and rotation angle are written.
[0042]
The CPU 8 constitutes the control means described in the claims, and as shown in FIG. 5, the navigation unit 9, the DVD player 10, the TV tuner 11, and the display support portions 14 of the drive mechanism 4 described above. The motors 24 and 28, the rotary encoders 20 and 21 of each display support section 14, the ROM 6, the EPROM 7, and the like are connected, and by controlling these, the entire car navigation 1 is controlled.
[0043]
When a command for moving at least one of the pair of display support portions 14 between the storage position and the exposure position is input from an operation button of the operation portion 13 or the like, the CPU 8 receives the at least one display support portion 14. The motor 24 is driven forward or backward to move the moving chassis 17 along the depth direction Y, and the moving chassis 17 is moved into and out of the device main body 2 through the opening 22.
[0044]
In addition, when the CPU 8 inputs a command to rotate the movable chassis 17 positioned at the exposed position around the base end portion 17a from the operation button of the operation unit 13 or the like, the movable chassis 17 is positioned at the exposed position. The motor 28 of the display support unit 14 is driven to rotate forward or backward to rotate around the base end portion 17a of the moving chassis 17. In this manner, the CPU 8 displaces the display unit 3 toward the exposure position and the enlargement position by the drive mechanism 4.
[0045]
Further, the CPU 8 calculates an area in which the information of the display unit 3 can be displayed based on the rotation angle of the winding member 19 attached to the movable chassis 17 positioned at the exposure position, and an appropriate size for the area. Displays information about the size.
[0046]
Next, the operation of the car navigation 1 as the electronic apparatus having the above-described configuration will be described. As shown in FIGS. 1 and 11, in a state where both of the pair of display support portions 14 are accommodated in the apparatus main body 2 (that is, the display support portion 14 is positioned at the accommodation position), the operation unit 13 When a command for both the pair of display support portions 14 to be discharged out of the apparatus main body 2 and positioned at the exposure position is input, the motor 24 of each display support portion 14 is driven to rotate forward, as shown in FIG. Further, the moving chassis 17 of each display support portion 14 is positioned at the exposed position.
[0047]
Next, when a command to rotate the movable chassis 17 of the pair of display support portions 14 positioned at the exposed position from the operation portion 13 about the base end portion 17a is input, the motor of each display support portion 14 The movable chassis 17 rotates around the base end portion 17a so that the front end portion 17b faces the outside of the device main body 2 by rotating forwardly. As a result, the distance between the distal end portions 17b of the movable chassis 17 of the pair of display support portions 14 gradually increases and the locking projections 32 are locked in the through holes 12, so that the biasing force of the torsion coil spring 33 is resisted. Then, the winding member 19 rotates so as to roll on the edge 3 a of the display unit 3. And the width | variety of the part located between the front-end | tip parts 17b of the movable chassis 17 of a pair of display support part 14 of the display unit 3 expands, and the movable chassis 17 is positioned in the expansion position shown in FIG.3 and FIG.12.
[0048]
In the car navigation system 1 according to the present embodiment, when a command for positioning one display support unit 14 at the exposure position and the other display support unit 14 at the storage position is input from the operation unit 13, the CPU 8 4 drives the motor 24 of each display support part 14 of the drive mechanism 4 to position one display support part 14 in the exposed position and place the other display support part 14 in the accommodation position as shown in FIGS. Position. Thus, the car navigation 1 appropriately changes the direction of the display unit 3. It should be noted that the display unit 3 can be oriented in a direction suitable for the operator by selecting which moving chassis 17 is to be moved by the operation unit 13.
[0049]
Furthermore, in the car navigation system 1 according to the present embodiment, when a command is input from the operation unit 13 to position one display support unit 14 at the enlarged position and the other display support unit 14 to the storage position, As shown in FIG. 14, the CPU 8 drives the motors 24 and 28 of the display support portions 14 of the drive mechanism 4 to position one display support portion 14 in the enlarged position and place the other display support portion 14 in the accommodation position. Position. Thus, the car navigation 1 appropriately changes the width of the display unit 3.
[0050]
Further, in the car navigation system 1 according to the present embodiment, the CPU 8 calculates the rotation angle of the winding member 19 detected by the first rotary encoder 20 of each display support unit 14 to appropriately set the direction of the display unit 3 appropriately. change. Further, when the moving chassis 17 of each display support portion 14 moves between the exposure position and the enlarged position, the display is based on the rotation angle of the base end portion 17a of the moving chassis 17 detected by the second encoder 21. The size of the display area of the unit 3 is appropriately changed to an optimum one. That is, the display unit 3 can be set to the optimal orientation and the size of the display area by appropriately adjusting the position of the moving chassis 17 according to a command from the operation unit 13. Furthermore, when the display area of the display unit 3 is enlarged, the convenience can be improved by increasing or increasing the information to be displayed.
[0051]
According to the present embodiment, the display support portion 14 including the winding member 19 around which the edge portion 3a of the flexible screen-like display unit 3 is wound is provided, and the display support portion 14 is provided with the device body 2. A movable chassis 17 that can be moved inward and outward, and a movable chassis 17 can be rotated so that a distal end portion 17b of the movable chassis 17 is directed to the outside of the device main body 2 with a base end portion 17a of the movable chassis 17 as a center. The rotating part 18 is provided.
[0052]
For this reason, the display unit 3 wound around the winding member 19 is removed from the winding member 19 by projecting the moving chassis 17 from the device body 2 and rotating the moving chassis 17 around the base end portion 17 a. expand. For this reason, the exposed area of the display unit 3 is increased, and of course, the display area of the display unit 3 can be expanded. Therefore, it is possible for a large number of people to visually recognize the information displayed on the display unit 3.
[0053]
The display support unit 14 includes a torsion coil spring 33 that urges the winding member 19 in a direction in which the edge 3 a of the display unit 3 is wound up. For this reason, the winding member 19 can wind up the edge portion 3 a of the display unit 3 when the distal end portion 17 b of the moving chassis 17 rotates the moving chassis 17 in the direction toward the inside of the device main body 2.
[0054]
The display support unit 14 includes a first rotary encoder 20 that detects the rotation angle of the winding member 19 and a second rotary encoder 21 that detects the rotation angle of the moving chassis 17. For this reason, the display unit 3 is displayed with the optimum orientation based on the rotation angle of the winding member 19 detected by the first rotary encoder 20 and the rotation angle of the base end portion 17a of the movable chassis 17 detected by the second rotary encoder 21. It can be changed to the size of the area. Further, information can be appropriately displayed on the display unit 3 according to the size of the display area of the display unit 3.
If at least one of these encoders 20 and 21 is provided, the size and orientation of the display area of the display unit 3 can be changed to an optimum one. That is, in the present invention, at least one of the encoders 20 and 21 may be provided.
[0055]
Further, a pair of display support portions 14 are provided, and the winding members 19 of the pair of display support portions 14 wind the edge portions 3 a located on the opposite sides of the display unit 3. For this reason, while the display area of the display unit 3 can be expanded more, the protrusion amount from the front surface 2a of the apparatus main body 2 of the movable chassis 17 of a pair of display support part 14 is changed suitably, and the display unit 3 of FIG. The direction can be changed arbitrarily.
[0056]
According to the embodiment described above, the following car navigation system 1 is obtained.
[0057]
(Supplementary note) In a car navigation system including a device main body 2 and a flexible screen-like display unit 3 installed on the front surface 2a of the device main body 2,
A movable chassis 17 that is movable in and out of the device main body 2 through an opening 22 provided in the front surface 2a;
In a state where the movable chassis 17 protrudes out of the device main body 2, a proximal end near the front surface 2 a so that a distal end portion 17 b on the side away from the front surface 2 a of the movable chassis 17 faces the outside of the device main body 2. A rotating part 18 capable of rotating the movable chassis 17 around the part 17a;
A winding member 19 that is rotatably provided at the distal end portion 17b of the movable chassis 17 and around which the edge portion 3a of the display unit 3 is wound;
A car navigation 1 comprising a display support section having
[0058]
According to the remarks, the display unit 3 wound around the winding member 19 is rotated by rotating the movable chassis 17 around the base end 17a by projecting the movable chassis 17 from the device body 2. 19 and so on. For this reason, the exposed area of the display unit 3 is increased, and of course, the display area of the display unit 3 can be expanded. Therefore, it is possible for a large number of people to visually recognize the information displayed on the display unit 3.
[0059]
In addition, the Example mentioned above only showed the typical form of this invention, and this invention is not limited to an Example. That is, various modifications can be made without departing from the scope of the present invention.

Claims (3)

In an electronic device comprising a device main body and a flexible screen-like EL display unit installed on one surface of the device main body,
A movable member that is movable in and out of the device body through an opening provided in the one surface;
In a state where the moving member protrudes out of the device main body, the distal end portion on the side away from the one surface of the moving member is centered on the base end portion close to the one surface so that the distal end portion faces the outside of the device main body. A display support unit including: a rotating unit capable of rotating the moving member; and a winding member that is rotatably provided at a distal end portion of the moving member and is wound around an edge of the EL display unit;
An operation unit in which an operator can input a command related to the movement of the display support unit;
Control means for controlling the drive of the display support unit,
A pair of the display support portions are provided, and at least a detection means for detecting a rotation angle of the winding member with respect to a distal end portion of the moving member, and a rotation angle of the base end portion of the moving member with respect to the device main body. Second detecting means for detecting,
The control unit drives each of the pair of display support units independently based on a rotation angle detected by the detection unit and the second detection unit when the operation unit receives a command related to the movement. Then, the EL device is positioned in a direction desired by the operator. The electronic device according to claim 1, wherein the display support unit includes a biasing unit that biases the winding member in a direction in which an edge of the EL display unit is wound. 3. The pair of display support portions are arranged so that each of the winding members winds edges located on opposite sides of the EL display portion. The electronic device described.

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