JP5523267B2 - Mobile device - Google Patents

Description

  The present invention relates to a mobile terminal.

  Conventionally, in a portable terminal such as a notebook PC in which the first casing and the second casing can be opened and closed via a hinge, a wire material such as a wire is used as an electrical connection means between the two casings. There were many things.

  However, along with the changing times, miniaturization of mobile terminals has been demanded, the amount of information exchanged between both cases has increased, and the number of signal lines has also increased.

  For this reason, it is difficult to use a wire with a large wiring layout area in a portable terminal with a limited internal space, and a portable terminal using a flexible film-like flexible cable instead of the above-described wire is used. Increased.

  For example, Patent Document 1 (Japanese Patent Application Laid-Open No. 11-53059) includes two housings that can be rotated by a hinge mechanism, and from one housing to the other at the center of rotation. An electronic device is disclosed in which the boards provided in both housings are electrically connected by a flexible cable that passes through, and the flexible cable is formed in a crank shape between the two housings. It is decided to reduce the load on the flexible cable due to the rotation of the cable.

Japanese Patent Laid-Open No. 11-53059 (FIG. 2)

  The electronic device disclosed in Patent Document 1 is assumed to be a foldable electronic device such as a notebook PC equipped with a single display screen. However, in recent years, a foldable mobile terminal equipped with two touch panel display screens has been developed.

  By mounting two display screens, an image can be displayed across the two display screens to realize a large screen display. Further, by folding the two display screens, the portable terminal can be made compact and carried, and a virtual keyboard can be displayed on one display screen and used like a notebook PC.

  In order to display an image across two display screens and realize a large screen display, it is necessary to mount a display unit (LCD; Liquid Crystal Display, etc.) in each case. In order to reduce the size of this type of portable terminal, it is preferable to mount a control unit (a CPU: a main control board on which a central processing unit or the like is mounted) for controlling two display units only in one housing.

  When the control unit is mounted on only one case, the distance between the display unit on the case where the control unit is mounted and the control unit is short, so connect directly using a cable such as a flexible cable. However, the wiring layout area is small. However, since the distance between the display unit on the housing side where the control unit is not mounted and the control unit becomes long, as in Patent Document 1, if the connection is made directly using a wiring such as a flexible cable, the wiring The arrangement area of will increase.

  In order to display an image across two display screens and realize a large screen display, the width of the frame (bezel) around the two display units is made as narrow as possible, and the display screens of the two display units are close to each other. It is preferable to make it. However, in order to reduce the width of the frame (bezel) around the display unit and bring the display screens of the two display units close to each other, it is necessary to reduce the wiring layout area. For this reason, if the arrangement area of the wiring connecting the display unit on the housing side where the control unit is not mounted and the control unit increases, it becomes difficult to bring the display screens of the two display units close to each other. . For this reason, it is considered necessary to develop a mechanism for reducing the layout area of the wiring connecting the display unit on the housing side where the control unit is not mounted and the control unit. In addition, the wiring connecting the display unit and the control unit on the housing side where the control unit is not mounted is loaded by the rotation between the housings, so a mechanism for reducing the load on the wiring It is also necessary to consider.

  In Patent Document 1, the flexible cable is formed in a crank shape, and the load on the flexible cable due to the rotation between the casings is reduced. However, in Patent Document 1, since only the flexible cable disposed in the upper casing is rotated, a load is applied to the flexible cable disposed in the upper casing. Further, when the casings are connected with a flexible cable as in Patent Document 1, the arrangement area of the cables increases, and it becomes difficult to bring the display screens of the two display units close to each other.

  The present invention has been made in view of the above circumstances, and provides a portable terminal capable of reducing the layout area of the wiring without applying a load to the wiring that electrically connects the casings. The purpose is to do.

  In order to achieve this object, the present invention has the following features.

<Mobile device>
The portable terminal according to the present invention is
A first terminal having a first display portion and a second case having a second display portion are portable terminals that can be opened and closed via hinges,
A control unit for controlling the first display unit and the second display unit is disposed in the second casing, and the control is performed based on the number of signal lines output from the control unit to the second display unit. The number of signal lines output from the unit toward the first display unit is reduced, and the reduced number of signal lines passes through the hinges, and the number of signal lines that pass through the hinges is changed to the second number. The number of signal lines output to the display unit is the same as that of the first display unit.

  According to the present invention, it is possible to reduce the layout area of the wiring without applying a load to the wiring that electrically connects the housings.

It is the 1st figure showing the example of composition of personal digital assistant 100 of this embodiment, and is the figure showing the state where the 1st case 10 is located in the upper part and the 2nd case 20 is located in the lower part. It is a 2nd figure which shows the structural example of the portable terminal 100 of this embodiment, and is a figure which shows the state in which the 1st housing | casing 10 is located in the left side, and the 2nd housing | casing 20 is located in the right side. It is a 3rd figure which shows the structural example of the portable terminal 100 of this embodiment, and is a figure which shows the state which the 1st housing | casing 10 and the 2nd housing | casing 20 adjoined in the horizontal state. FIG. 6 is a fourth diagram illustrating a configuration example of the mobile terminal 100 of the present embodiment, and is a diagram illustrating a state in which the first casing 10 and the second casing 20 are closed. It is a 1st figure which shows the internal structural example of the portable terminal 100 of this embodiment. It is a 2nd figure which shows the internal structural example of the portable terminal 100 of this embodiment. It is a 3rd figure which shows the internal structural example of the portable terminal 100 of this embodiment. The state of the cylindrical cable 400 when the first casing 10 and the second casing 20 are opened horizontally and when the first casing 10 and the second casing 20 are closed FIG.

<Overview of mobile terminal 100>
First, the outline of the mobile terminal 100 of the present embodiment will be described with reference to FIG.

  In the portable terminal 100 of the present embodiment, a first casing 10 having a first display unit 1 and a second casing 20 having a second display unit 2 are opened and closed via hinges 30A and 30B. A portable terminal 100 that can be used.

  In the mobile terminal 100 of the present embodiment, a control unit 23 that controls the first display unit 1 and the second display unit 2 is disposed in the second housing 20, and the control unit 23 changes the second display unit 2 to the second display unit 2. The number of signal lines 43 output from the control unit 23 toward the first display unit 1 is reduced from the number of output signal lines 52, and the reduced number of signal lines 43 passes through the hinge 30A. The number of signal lines 43 passing through the hinge 30A is made the same as the number of signal lines 52 output to the second display section 2, and then connected to the first display section 1. Specifically, the number of signal lines 43 output from the control unit 23 toward the first display unit 1 is set to the second signal conversion unit (corresponding to the control unit 23) disposed in the second housing 20. ), And the number of signal lines 43 that have passed through the hinge 30A and the number of signal lines 43 that have passed through the hinge 30A is reduced to the first signal conversion unit 16 disposed in the first housing 10. The number of signal lines 52 output to the second display section 2 is the same as the number of signal lines 52, and the number of signal lines 52 is the same as the number of signal lines 52. However, the signal line 43 reduced in the second signal converter 23 constitutes the cylindrical cable 400 shown in FIG. 7, and the cylindrical cable 400 passes through the hinge 30A. The signal line 52 output from the control unit 23 to the second display unit 2 is connected to a connector 231 that is electrically connected to the control unit 23. In addition, the number of signal lines 51 that is the same as the number of signal lines 52 output to the second display unit 2 in the first signal conversion unit 16 is electrically connected via the first signal conversion unit 16 and the aggregation board 3. Connected to connector 31 connected to

  In the portable terminal 100 of this embodiment, since the distance between the control unit 23 and the second display unit 2 is short, the signal line 52 output from the control unit 23 to the second display unit 2 remains as it is. Even if the display unit 2 is directly connected, the wiring area of the signal line 52 can be reduced. However, since the distance between the control unit 23 and the first display unit 1 is long, the signal line 43 output from the control unit 23 toward the first display unit 1 is the same as the second display unit 2. If it is directly connected to the first display unit 1, the layout area of the signal line 43 increases. The mobile terminal 100 of the present embodiment displays an image across two display screens and realizes a large screen display by reducing the width of the frame (bezel) around the two display units 1 and 2, The display screens of the two display units 1 and 2 are close to each other. For this reason, there is a limitation on the wiring layout area, and the signal line 43 output from the control unit 23 toward the first display unit 1 cannot be directly connected to the first display unit 1.

  For this reason, the portable terminal 100 according to the present embodiment has signal lines output from the control unit 23 toward the first display unit 1 based on the number of signal lines 52 output from the control unit 23 to the second display unit 2. The number of signal lines 43 is reduced, the number of signal lines 43 that have passed through the hinge 30A is reduced by the reduced number of signal lines 43, and the number of signal lines 43 that have passed through the hinge 30A is the number of signal lines 52 that are output to the second display unit 2. The first display unit 1 is connected after the same. Thereby, the mobile terminal 100 according to the present embodiment reduces the layout area of the signal line 43 without applying a load to the wiring of the signal line 43 that electrically connects the housings 10 and 20. be able to. As a result, the width of the frame (bezel) around the two display units 1 and 2 can be reduced, and the display screens of the two display units 1 and 2 can be brought close to each other. An image can be displayed across the display screen to realize a large screen display. Further, in the mobile terminal 100 of the present embodiment, the number of signal lines 52 output to the second display unit 2 and the number of signal lines 51 output to the first display unit 1 are the same. I have to. As a result, the first display unit 1 and the second display unit 2 can output video using video signals of the same standard. That is, the same standard display unit can be used for the first display unit 1 and the second display unit 2. Hereinafter, the mobile terminal 100 of the present embodiment will be described in detail with reference to the accompanying drawings.

<Configuration example of mobile terminal 100>
First, a configuration example of the mobile terminal 100 of the present embodiment will be described with reference to FIGS.

  In the portable terminal 100 of the present embodiment, a first casing 10 having a first display unit 1 and a second casing 20 having a second display unit 2 are folded via hinges 30A and 30B. It is possible. The first display unit 1 and the second display unit 2 are touch panel type LCDs that can display various information and perform various operations, and the mobile terminal 100 of the present embodiment is shown in FIG. As shown in FIG. 2, the first display unit 1 and the second display unit 2 have various types in the state in which the first case 10 and the second case 20 are opened via the hinges 30A and 30B. Display and use information.

  For example, when the portable terminal 100 of this embodiment is used like a notebook PC, a virtual keyboard for operating the portable terminal 100 is displayed on the second display unit 2 as shown in FIG. Alternatively, it is controlled to display various information on the first display unit 1 by operating the operation unit 50 provided in the second housing 20 or the like. The operation unit 50 is used by the user when operating the mobile terminal 100. For example, the image displayed on the first display unit 1 or the second display unit 2 can be switched.

  Further, when the portable terminal 100 of the present embodiment is used like an electronic book, the first display unit 1, the second display unit 2, the operation unit 50, etc. are operated, and as shown in FIG. Control is performed so that various types of information are displayed on the first display unit 1 and the second display unit 2.

  The hinges 30A and 30B use biaxial hinges, and the rotation of the first hinge on the first housing 10 side and the rotation of the second hinge on the second housing 20 side are different. 3, the opening angle between the first housing 10 and the second housing 20 is at least 180 degrees, and the first housing 10 and the second housing 20 are horizontal. The images are displayed adjacent to each other and straddling the first display unit 1 and the second display unit 2 to enable a large screen display. Further, as shown in FIGS. 1 and 2, the hinges 30A and 30B are provided at positions not interposed between the first display unit 1 and the second display unit 2, and the first display unit 1 and the second display unit 2 are provided. Large screen display is enabled across the display unit 2.

  The portable terminal 100 of the present embodiment switches the images displayed on the two display units 1 and 2 according to various usages, and can be used as a notebook PC as shown in FIG. 1 or electronic as shown in FIG. Or use it as a book. However, when the images displayed on the two display units 1 and 2 are switched according to various uses, the position where the user has the mobile terminal 100 also changes according to the uses. However, if the user mounts the antennas 11 and 12 at a position where the mobile terminal 100 is held, the reception sensitivity of the antennas 11 and 12 deteriorates, and good wireless communication cannot be performed. In addition, when the user holds the mobile terminal 100 with his / her hand, the oil or dirt of the hand may adhere to the mobile terminal 100. If oil or grease or the like adheres to the casing portion where the antennas 11 and 12 are disposed, it is assumed that the reception sensitivity of the antennas 11 and 12 is hindered.

  Therefore, as shown in FIGS. 1 and 2, the mobile terminal 100 of the present embodiment has a region that connects the second long side 20 </ b> B and the first short side 20 </ b> C constituting the second housing 20. Has an operation unit 50 for operating the portable terminal 100, and is used for wireless communication in an area connecting the second long side 10B and the second short side 10D constituting the first housing 10. Antennas 11 and 12 are arranged.

  The region connecting the second long side 20B and the first short side 20C constituting the second housing 20 is a region between the second display unit 2 and the second long side 20B. Of the second long side 20B, a region located on the first short side 20C side from the central portion α, and a region between the second display unit 2 and the first short side 20C. It is an area. The area connecting the second long side 10B and the second short side 10D constituting the first housing 10 is an area between the first display unit 1 and the second long side 10B. Among these, a region formed by a region located on the second short side 10D side from the central portion β of the second long side 10B and a region between the first display unit 1 and the second short side 10D It is. However, in FIG. 1 and FIG. 2, the operation unit 50 for operating the mobile terminal 100 at the corner portion of the region connecting the second long side 20B and the first short side 20C constituting the second housing 20. And antennas 11 and 12 used for wireless communication are arranged at the corners of the region connecting the second long side 10B and the second short side 10D constituting the first housing 10. .

  In the mobile terminal 100 of the present embodiment, an operation unit 50 for operating the mobile terminal 100 is arranged in an area connecting the second long side 20B and the first short side 20C constituting the second housing 20. Therefore, the user mainly uses the portable terminal 100 by using the operation unit 50. Therefore, as shown in FIG. 1, when the mobile terminal 100 is used in a state where the first display unit 1 and the second display unit 2 are positioned vertically, the user mainly uses the operation unit 50. The mobile terminal 100 is used with the region of the first short side 20C located and the region of the second short side 20D facing the first short side 20C on the left and right. As shown in FIG. 2, when the mobile terminal 100 is used in a state where the first display unit 1 and the second display unit 2 are positioned on the left and right, the user mainly selects the position of the operation unit 50. The portable terminal 100 is used with the first short side 20C region and the first short side 10C region facing the left and right sides of the first short side 20C.

  As a result, as shown in FIGS. 1 and 2, even when the user changes the position of holding the portable terminal 100 according to the usage, the user mainly holds the portable terminal 100 with the position of the operation unit 50. Since it will be used, it can avoid having the area | region where the antennas 11 and 12 are arrange | positioned by hand. Further, it is possible to avoid oils and fats, dirt and the like from adhering to the housing portion where the antennas 11 and 12 are arranged. Accordingly, even when the user changes the position where the user holds the mobile terminal 100 according to the usage, the reception sensitivity of the antennas 11 and 12 does not deteriorate, so that favorable wireless communication can be performed.

  For example, when used as a notebook PC as shown in FIG. 1, the reception sensitivity of the first antenna 11 out of the two antennas 11 and 12 can be improved. In addition, when used as an electronic book as shown in FIG. 2, it is possible to improve the reception sensitivity of the second antenna 12 mainly between the two antennas 11 and 12.

  Further, as shown in FIG. 4, in the portable terminal 100 of the present embodiment, the first casing 10 is positioned on the top surface side and the second casing 20 is positioned on the bottom surface side when the portable terminal 100 is folded. If the mobile terminal 100 is positioned, the antennas 11 and 12 are positioned on the upper surface side of the mobile terminal 100. Therefore, even when the mobile terminal 100 is folded, the reception sensitivity of the antennas 11 and 12 should be improved. Can do. For this reason, as shown in FIG. 4, even if the portable terminal 100 is folded, various information can be easily acquired via the network.

  Further, in the mobile terminal 100 of the present embodiment, the first antenna 11 is connected to the central portion β of the second long side 10B in the region between the first display unit 1 and the second long side 10B. It arrange | positions in the area | region located in the 2nd short side 10D side, and the 2nd antenna 12 is arrange | positioned in the area | region between the 1st display part 1 and 2nd short side 10D. In addition, the wireless communication unit 21 is disposed so as to be located on the second short side 20D side of the second casing 20. For this reason, the lengths of the wirings 41 and 42 for connecting the two antennas 11 and 12 and the wireless communication unit 21 via one hinge 30B provided at both ends of the first long sides 10A and 20A are shortened. Can do. For example, when the two antennas 11 and 12 are arranged in the region located on the first short side 10C side from the central portion β of the second long side 10B or in the region on the first short side 10C side, The lengths of the wirings 41 and 42 that connect the two antennas 11 and 12 and the wireless communication unit 21 via one hinge 30B become long. On the other hand, in the present embodiment, the two antennas 11 and 12 are located in the region located on the second short side 10D side from the central portion β of the second long side 10B or in the region on the second short side 10D side. Since they are arranged, the lengths of the wirings 41 and 42 for connecting the two antennas 11 and 12 and the wireless communication unit 21 via one hinge 30B can be shortened.

  In the present embodiment, the hinges 30A and 30B provided at both ends of the first long sides 10A and 20A use biaxial hinges, and the first hinge on the first housing 10 side is rotated. By rotating the second hinge on the second housing 20 side, the first housing 10 and the second housing 20 can be opened and closed via a biaxial hinge. For this reason, the wirings 41 and 42 on the first housing 10 side are bent corresponding to the rotation of the first hinge, and the wirings 41 and 42 on the second housing 20 side are connected to the second hinge. Since it bends in response to the rotation, it is possible to prevent a load from being applied to the wires 41 and 42 themselves.

  Further, in the mobile terminal 100 of the present embodiment, the first antenna 11 is connected to the central portion β of the second long side 10B in the region between the first display unit 1 and the second long side 10B. The second antenna 12 is arranged in a region located on the second short side 10D side, and the second antenna 12 is arranged in a region between the first display unit 1 and the second short side 10D. In the direction perpendicular to the display surface, there are an arrangement area in which the first display unit 1 is arranged in the first casing 10 and an arrangement area in which the two antennas 11 and 12 are arranged in the first casing 10. I try not to overlap. This is because the first display unit 1 has conductive frames 1A to 1D around the first display unit 1, and therefore, in the direction perpendicular to the display surface of the first display unit 1, This is because if the arrangement area of the antennas 11 and 12 and the arrangement area of the first display unit 1 overlap, the reception sensitivity of the antennas 11 and 12 is lowered due to the influence of the conductive frames 1A to 1D. However, if the arrangement area of the antennas 11 and 12 and the arrangement area of the first display section 1 do not overlap in the direction perpendicular to the display surface of the first display section 1, the first casing 10 itself is naturally formed. It is necessary to increase the size of the first display unit 1 or to reduce the size of the first display unit 1 itself. However, in recent years, it is desirable to increase the screen display while reducing the overall size of the mobile terminal 100. For this reason, the two antennas 11 and 12 of the present embodiment are made as large as possible in a region that does not overlap with the arrangement region of the first display unit 1 in the direction perpendicular to the display surface of the first display unit 1. Is preferred.

  In the first display unit 1 of the present embodiment, the widths of the frame 1B constituting the second long side 10B side and the frame 1D constituting the second short side 10D side of the first display unit 1 are: The width of the frame 1A constituting the first long side 10A side of the first display section 1 and the width of the frame 1C constituting the first short side 10C side are shorter. As a result, the area between the first display unit 1 and the second long side 10B and the area between the first display unit 1 and the second short side 10D are enlarged, and the two antennas 11, 12 can be arranged in a shape as large as possible in an area that does not overlap the arrangement area of the first display unit 1 in the direction perpendicular to the display surface of the first display unit 1. In the present embodiment, the first display unit 1 and the second display unit 2 use the same type, and the full display is performed across the first display unit 1 and the second display unit 2. The display control when doing this is simplified.

<Internal configuration example of mobile terminal 100>
Next, an example of the internal configuration of the mobile terminal 100 according to the present embodiment will be described with reference to FIGS. FIG. 5 shows a state in which inner parts constituting the casings 10 and 20 of the mobile terminal 100 are removed, and FIG. 6 shows a state in which the display units 1 and 2 shown in FIG. 5 are removed. FIG. 7 is a diagram for explaining an overview of an internal configuration example of the mobile terminal 100. In FIG. 7, the arrangement positions of the respective units are simplified in order to explain the outline of the internal configuration example of the mobile terminal 100.

  The mobile terminal 100 of the present embodiment has a first display unit 1, a first antenna 11, a second antenna 12, a geomagnetic sensor 13, an acceleration sensor 14, an open / close sensor 15, a signal on the first housing 10 side. A conversion unit 16 is provided. The geomagnetic sensor 13, the acceleration sensor 14, the open / close sensor 15, and the signal conversion unit 16 are disposed on one aggregate substrate 3. The aggregation board 3 is used to aggregate the geomagnetic sensor 13, acceleration sensor 14, open / close sensor 15, and signal conversion unit 16 on one board and arrange it in the first housing 10. In addition, the second display unit 2, the wireless communication unit 21, the battery 22, and the control unit 23 are provided on the second housing 20 side.

  The geomagnetic sensor 13 is a known sensor that measures the direction of the magnetic field (magnetic field) of the first housing 10. Since the geomagnetic sensor 13 is arranged at a position away from the two antennas 11 and 12, the influence of radio waves received by the two antennas 11 and 12 is suppressed, and the detection accuracy of the geomagnetic sensor 13 is improved. Can do. The acceleration sensor 14 is a known sensor that measures the acceleration of the first housing 10. The open / close sensor 15 is a known sensor that detects the open / closed state of the first housing 10 and the second housing 20. The signal conversion unit 16 performs a conversion process of a signal that electrically connects the control unit 23 and the first display unit 1.

  The wireless communication unit 21 performs wireless communication. Based on the level of the received signal received from the first antenna 11 and the second antenna 12 via the wirings 41 and 42, the higher level antenna is connected. Use for wireless communication.

  The battery 22 is a main power source of the mobile terminal 100 and supplies power to each unit.

  The control unit 23 controls the mobile terminal 100, and is composed of a main control board on which a CPU and the like are mounted. The control unit 23 displays various types of information on the first display unit 1 and the second display unit 2, and based on the operation information received from the first display unit 1 and the second display unit 2, the portable terminal Or control 100. Further, the wireless communication unit 21 is controlled so as to perform wireless communication.

  Further, the control unit 23 specifies the attitude of the mobile terminal 100 based on the sensor information received from the geomagnetic sensor 13, the acceleration sensor 14, and the open / close sensor 15. For example, the control unit 23 specifies whether the first housing 10 is open or closed based on the sensor information of the open / close sensor 15. Further, the tilt angle and the top and bottom of the first housing 10 are specified based on the sensor information of the geomagnetic sensor 13 and the acceleration sensor 14. Thereby, the control part 23 can specify whether the attitude | position of the portable terminal 100 is a state of FIG.1, FIG.2, FIG.4. For example, based on the sensor information received from the geomagnetic sensor 13, the acceleration sensor 14, and the open / close sensor 15, the control unit 23 determines that the attitude of the mobile terminal 100 is the state shown in FIG. 1 (the first housing 10 is open, In addition, it can be specified that the second long side 10B of the first housing 10 is in a position positioned higher than the first long side 10A with respect to the direction of gravity. Further, the posture of the mobile terminal 100 is the state shown in FIG. 2 (the first housing 10 is opened, and the second short side 10D of the first housing 10 is more gravity than the first short side 10C. It is possible to specify that the posture is positioned upward with respect to the direction. Moreover, it can specify that the attitude | position of the portable terminal 100 is the state of FIG. 4 (position in the state which closed the 1st housing | casing 10). The control unit 23 also has a signal conversion function (not shown), and performs a signal conversion process for electrically connecting the control unit 23 and the first display unit 1.

  In the portable terminal 100 of the present embodiment, since the distance between the control unit 23 and the second display unit 2 is short, even if the control unit 23 and the second display unit 2 are directly connected by FPC, The layout area is small. For this reason, the control unit 23 and the second display unit 2 are electrically connected directly by the FPC 52, and the control unit 23 does not reduce the number of signal lines of the video signal output to the second display unit 2. , The data is output as it is to the second display unit 2 via the FPC 52. The FPC 52 is electrically connected by a connector 231 disposed in the control unit 23.

  However, since the distance between the control unit 23 and the first display unit 1 is long, if the control unit 23 and the first display unit 1 are directly connected by FPC, the wiring layout area increases. End up. The mobile terminal 100 of the present embodiment displays an image across the display screens of the two display units 1 and 2 and realizes a large screen display, so that a frame around the two display units 1 and 2 (bezel). The display screens of the two display units 1 and 2 are made close to each other. For this reason, there is a restriction on the wiring layout area, and it is not possible to secure a wiring area for directly connecting the control unit 23 and the first display unit 1 by FPC. Therefore, in the present embodiment, the number of signal lines 43 output from the control unit 23 toward the first display unit 1 is determined from the number of signal lines of the FPC 52 output from the control unit 23 to the second display unit 2. The signal conversion function (not shown) provided in the control unit 23 reduces the number of signal lines 43 that pass through the hinge 30A and the number of signal lines 43 that pass through the hinge 30A. The number of signal lines of the FPC 52 output to the second display unit 2 in the signal conversion unit 16 arranged in the housing 10 is the same as the number of signal lines of the FPC 52. It is decided to connect to the display unit 1. However, the signal lines 43 reduced in the signal conversion function (not shown) constitute a cylindrical cable 400, and the cylindrical cable 400 passes through the hinge 30A. The FPC 52 output from the control unit 23 to the second display unit 2 is connected to a connector 231 that is electrically connected to the control unit 23. Further, the FPC 51 of the signal line that is the same as the number of signal lines of the FPC 52 output to the second display unit 2 in the signal conversion unit 16 is electrically connected via the first signal conversion unit 16 and the aggregation board 3. Connected to connected connector 31. Thereby, the width of the frame (bezel) around the two display units 1 and 2 is narrowed, and the display screens of the two display units 1 and 2 can be brought close to each other. As a result, an image is displayed across the display screens of the two display units 1 and 2, and a large screen display can be realized.

  Note that the mobile terminal 100 of the present embodiment includes signal lines 44, 45, and 46 for electrically connecting the geomagnetic sensor 13, the acceleration sensor 14, the open / close sensor 15 and the control unit 23 disposed on the aggregation board 3. have. For this reason, the portable terminal 100 according to the present embodiment includes a signal cable 43 reduced by a signal conversion function (not shown) of the control unit 23 and a cylindrical cable in which the signal lines 44, 45, and 46 are bundled together. 400 through the hinge 30A, and each signal line 44, 45, 46, 43 constituting the cylindrical cable 400 via the hinge 30A is connected to the geomagnetic sensor 13, the acceleration sensor 14, and the open / close The sensor 15 and the first signal converter 16 are connected.

  Further, the portable terminal 100 of the present embodiment is provided with hinges 30A and 30B so as not to be interposed between the first display unit 1 and the second display unit 2, and the first display unit 1 and the second display unit 2 are provided. The large screen can be displayed across the screen. For this reason, the outer shapes of the hinges 30A and 30B are restricted, and as a result, the wiring regions passing through the hinges 30A and 30B are also restricted. However, in this embodiment, the number of signal lines 43 output from the control unit 23 toward the first display unit 1 is reduced, and the reduced number of signal lines 43 passes through the hinge 30A. Since the arrangement area of the wiring passing through 30A is reduced, the cylindrical cable 400 in which the signal lines 44, 45, 46, 43 are bundled together can be routed through the hinge 30A.

  Further, the mobile terminal 100 according to the present embodiment includes the signal lines 44, 45, 46, and 43 that constitute the cylindrical cable 400 that passes through the hinge 30A. The FFC (Flexible Flat Cable) 401 is used to connect the open / close sensor 15 and the first signal conversion unit 16, and the signal lines 44, 45, 46, and 43 constituting the cylindrical cable 400 are placed in a horizontal state. The signal lines 44, 45, 46, 43 are easily connected to the geomagnetic sensor 13, the acceleration sensor 14, the open / close sensor 15, and the first signal conversion unit 16 arranged on the aggregation board 3. . In addition, by using the FFC 401, the signal lines 44, 45, 46, and 43 constituting the cylindrical cable 400 can be thinned in a horizontal state, and therefore, the FFC 401 is perpendicular to the display surface of the first display unit 1. In the direction, the first display unit 1 can be placed over the FFC 401.

  Further, the hinge 30A of the portable terminal 100 of the present embodiment uses a biaxial hinge, and as shown in FIG. 8, the first hinge portion 30A1 on the first housing 10 side is rotated, By rotating the second hinge portion 30A2 on the housing 20 side, the first housing 10 and the second housing 20 can be opened and closed via the biaxial hinge 30A. In the cylindrical cable 400 passing through the shaft hinge 30A, the cylindrical cable 400A1 on the first housing 10 side bends corresponding to the rotation of the first hinge portion 30A1, and the second housing 20 The cylindrical cable 400A2 on the side is bent corresponding to the rotation of the second hinge portion 30A2. In this embodiment, the bending means that the cylindrical cables 400A1 and 400A2 in the directions of the first short sides 10C and 20C shown in FIGS. 8A and 8B are bent by approximately 90 degrees, and FIG. 1), the cylindrical cables 400A1 and 400A2 in the direction of the first long sides 10A and 20A are twisted in the opposite directions of the casings 10 and 20 respectively. For example, as shown in FIG. 8 (a), as shown in FIG. 8 (b), the first housing 10 and the second housing 20 are opened horizontally via the biaxial hinge 30A. When the first casing 10 and the second casing 20 are closed via the biaxial hinge 30A, the first casing 10 side shown in FIGS. The cylindrical cable 400A1 in the direction of the first short side 10C, 20C and the cylindrical cable 400A2 in the direction of the first short side 10C, 20C on the second housing 20 side are respectively hinge portions 30A1, 30A2. Is bent approximately 90 degrees corresponding to the rotation of the first cable, and the cylindrical cable 400A1 in the direction of the first long side 10A, 20A on the first housing 10 side shown in FIG. 8C is the first hinge part 30A1. Corresponding to the rotation of the second casing 20, the cylindrical cable 400A2 in the direction of the first long side 10A, 20A on the second casing 20 side is connected to the second hinge portion 30B. The first casing 10 is twisted in response to the rotation. For this reason, the portable terminal 100 according to the present embodiment applies a load on the tubular cable 400 rather than turning only the cable on one housing side and bending it approximately 180 degrees in the direction of the first short sides 10C and 20C. Can be reduced.

<Operation / Effect of Mobile Terminal 100 of Present Embodiment>
As described above, the mobile terminal 100 according to the present embodiment is output from the control unit 23 toward the first display unit 1 based on the number of signal lines of the FPC 52 output from the control unit 23 to the second display unit 2. The number of signal lines 43 is reduced by a signal conversion function (not shown) provided in the control unit 23, and the number of signal lines 43 reduced is passed through the hinge 30A, and the number of signal lines 43 passed through the hinge 30A is reduced. The number of signal lines is the same as the number of signal lines of the FPC 52 output to the second display unit 2 in the signal conversion unit 16 disposed in the first housing 10 and is the same as the number of signal lines of the FPC 52. The FPC 51 is connected to the first display unit 1. Thereby, the mobile terminal 100 according to the present embodiment reduces the layout area of the signal line 43 without applying a load to the wiring of the signal line 43 that electrically connects the housings 10 and 20. be able to. As a result, the width of the frame (bezel) around the two display units 1 and 2 can be reduced, and the display screens of the two display units 1 and 2 can be brought close to each other. An image can be displayed across the display screen to realize a large screen display. In the portable terminal 100 of the present embodiment, the number of signal lines of the FPC 52 output to the second display unit 2 and the number of signal lines of the FPC 51 output to the first display unit 1 are the same. It is trying to become. As a result, the first display unit 1 and the second display unit 2 can output video using video signals of the same standard. That is, the same standard display unit can be used for the first display unit 1 and the second display unit 2.

  The above-described embodiment is a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiment alone, and various modifications are made without departing from the gist of the present invention. Implementation is possible.

  For example, in the above-described embodiment, the control unit 23 is provided with a signal conversion function (not shown), and the control unit 23 reduces the number of signal lines 43 output from the control unit 23 toward the first display unit 1. It was to be. However, a signal conversion function is provided between the control unit 23 and the hinge 30A, and the signal conversion function provided between the control unit 23 and the hinge 30A without reducing the number of video signal signal lines 43 in the control unit 23. It is also possible to reduce the number of signal lines 43 of the video signal. That is, as long as the number of signal lines 43 can be reduced on the second housing 20 side and the hinge 30A can be passed, the position of the signal conversion function is not particularly limited, and the signal conversion function is disposed at an arbitrary position. It is possible. However, it is preferable to reduce the number of signal lines 43 in the control unit 23 in view of reducing the wiring area of the signal lines 43 that electrically connect the housings 10 and 20.

  In the above-described embodiment, the number of signal lines 43 output from the control unit 23 toward the first display unit 1 is reduced. This is because the number of signal lines 43 used in the first display section 1 is the largest and is most effective for reducing the wiring area. However, the number of other signal lines 44, 45, 46 can be reduced without being limited to the signal lines 43 output from the control unit 23 toward the first display unit 1. In other words, any signal line that is electrically connected to the control unit 23 via the hinges 30A and 30B can be configured to reduce the number of all signal lines.

  Further, the control operation in each device constituting the mobile terminal 100 in the present embodiment described above can also be executed using hardware, software, or a combined configuration of both.

  In the case of executing processing using software, it is possible to install and execute a program in which a processing sequence is recorded in a memory in a computer incorporated in dedicated hardware. Alternatively, the program can be installed and executed on a general-purpose computer capable of executing various processes.

  For example, the program can be recorded in advance on a hard disk or ROM (Read Only Memory) as a recording medium. Alternatively, the program can be stored (recorded) temporarily or permanently in a removable recording medium. Such a removable recording medium can be provided as so-called package software. Examples of the removable recording medium include a floppy (registered trademark) disk, a CD-ROM (Compact Disc Read Only Memory), an MO (Magneto optical) disk, a DVD (Digital Versatile Disc), a magnetic disk, and a semiconductor memory.

  The program is installed in the computer from the removable recording medium as described above. In addition, it is wirelessly transferred from the download site to the computer. In addition, it is transferred to the computer via a network by wire.

  In addition, the mobile terminal 100 in the present embodiment is not only executed in time series according to the processing operation described in the above embodiment, but also the processing capability of the apparatus that executes the processing, or in parallel as necessary or It can also be constructed to run individually.

DESCRIPTION OF SYMBOLS 100 Mobile terminal 1 1st display part 1A, 1B, 1C, 1D Frame 2 2nd display part 2A, 2B, 2C, 2D Frame 10 1st housing | casing 10A 1st long side 10B 2nd long side 10C 1st short side 10D 2nd short side 11 1st antenna 12 2nd antenna 13 Geomagnetic sensor 14 Acceleration sensor 15 Opening and closing sensor 16 Signal conversion part 3 Aggregation board 31 Connector 20 2nd housing | casing 20A 1st length Side 20B Second long side 20C First short side 20D Second short side 21 Wireless communication unit 22 Battery 23 Control unit 231 Connector 30A, 30B Hinge 41 Wiring 42 Wiring 43 Signal line 44 First signal line 45 Second Signal line 46 Third signal line 50 Operation section 51 FPC
52 FPC

Claims (6)

A first terminal having a first display portion and a second case having a second display portion are portable terminals that can be opened and closed via hinges,
A control unit for controlling the first display unit and the second display unit is disposed in the second casing, and the control is performed based on the number of signal lines output from the control unit to the second display unit. The number of signal lines output from the unit toward the first display unit is reduced, and the reduced number of signal lines passes through the hinges, and the number of signal lines that pass through the hinges is changed to the second number. The portable terminal is connected to the first display unit after having the same number of signal lines output to the display unit. The first casing includes a first signal conversion unit that converts a signal,
The second casing includes a second signal conversion unit that converts a signal,
The number of signal lines output from the control unit toward the first display unit is reduced in the second signal conversion unit, and the number of signal lines passing through the hinge is reduced in the first signal conversion unit. 2. The portable terminal according to claim 1, wherein the number of signal lines output to the second display unit is the same. The first casing includes a geomagnetic sensor that measures the direction of the magnetic field of the first casing, an acceleration sensor that measures acceleration of the first casing, the first casing, and the second casing. An open / close sensor for measuring an open / close state of the housing with
A first signal line for electrically connecting the control unit and the geomagnetic sensor;
A second signal line for electrically connecting the control unit and the acceleration sensor;
A third signal line for electrically connecting the control unit and the open / close sensor;
3. The wiring according to claim 1, wherein the reduced signal line, the first signal line, the second signal line, and the third signal line are bundled via the hinge. The portable terminal described. The geomagnetic sensor, the acceleration sensor, the open / close sensor, and the first signal conversion unit are arranged on one aggregate board,
The reduced signal line and the first signal conversion unit, the first signal line and the geomagnetic sensor, the second signal line and the acceleration sensor, the third signal line and the open / close sensor are integrated. 4. The mobile terminal according to claim 3, wherein the mobile terminal is connected via a substrate.   5. The mobile terminal according to claim 2, wherein the second signal conversion unit is arranged between the control unit or the control unit and the hinge. 6. The hinge is a biaxial hinge composed of a first hinge portion and a second hinge portion, and the first hinge portion on the first housing side is rotated and the second housing side is turned on. By the rotation of the second hinge portion, the first casing and the second casing can be opened and closed via the biaxial hinge,
The bundled wiring on the first housing side is bent corresponding to the rotation of the first hinge portion, and the bundled wiring on the second housing side is the second hinge portion. The mobile terminal according to claim 3, wherein the mobile terminal is bent in response to the rotation of the mobile terminal.

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