JP4725764B2 - Video display device and video display method - Google Patents

Description

  The present invention relates to a video display device, and is suitable for application to a video display device having a plurality of liquid crystal panels, for example.

2. Description of the Related Art Conventionally, there is a video display device that has a plurality of liquid crystal panels and can display a video on each of the liquid crystal panels to simultaneously provide a plurality of videos. As such video display devices, there are ones in which a plurality of liquid crystal panels are arranged on the same plane and in a lattice pattern, and those on a straight line (for example, see Patent Document 1).
JP-A-10-51710

  By the way, in the above-described video display device in which a plurality of liquid crystal panels are arranged in a grid pattern, it is necessary for the user to frequently move his / her line of sight up and down, right and left, and diagonally when viewing the video displayed on each liquid crystal panel. In this way, moving the line of sight in all directions makes the movement of the line of sight not smooth and tires the eyes of the user.

  On the other hand, in the above-described video display device in which a plurality of liquid crystal panels are arranged on a straight line, the user only needs to move his / her line of sight up and down or in the left / right direction. When watching the video displayed on the screen, the video displayed on the liquid crystal panels at both ends is difficult to enter the user's field of view.

  As described above, such a video display device has a problem that it is difficult to say that a plurality of videos can be easily displayed.

  The present invention has been made in consideration of the above points, and an object of the present invention is to propose a video display device and a video display method capable of displaying a plurality of videos more easily than conventional ones.

In order to solve such a problem, in the video display device of the present invention, a plurality of display units arranged in a circle as viewed from the front of the display surface so that the display surfaces are directed in the same direction, and images on each of the plurality of display units A control unit that controls the plurality of display units so as to display the image, a support unit that movably supports each of the plurality of display units at an arbitrary position in the three-dimensional space, and a genre for determining a video genre A genre information acquisition unit for acquiring genre information from the outside , and a control unit configured to move each of the plurality of display units to a predetermined position in a three-dimensional space so that the display surfaces face the same direction Further, the control unit determines the genre of the video displayed on each of the plurality of display units based on the genre information, and when there are a plurality of videos of the same genre, It was so that to control the support portion so as to close the display portion being displayed image.

As a result, the movement of the user's line of sight between the display units becomes a circular orbit, so that the movement of the user's line of sight can be made smooth, and the video displayed on each display unit can be kept within the user's field of view. it can.

Further, in the video display method of the present invention, the control unit displays the video on each of the plurality of display units arranged in a circle as viewed from the front of the display surface so that the display surfaces face the same direction. A control step for controlling the display unit, and a genre information acquisition unit for acquiring genre information for externally acquiring genre information for determining the genre of the video, and each of the plurality of display units is supported by the support unit It is movably supported at an arbitrary position in the three-dimensional space, and in the control step, the control unit can move to a predetermined position in the three-dimensional space so that each of the plurality of display units faces the same direction. The support unit is controlled so that the control unit determines the genre of the video displayed on each of the plurality of display units based on the genre information, If the image there is a plurality, and to control the support portion so as to close the display unit that displays a picture of the same genre.

As a result, the movement of the user's line of sight between the display units becomes a circular orbit, so that the movement of the user's line of sight can be made smooth, and the video displayed on each display unit can be kept within the user's field of view. it can.

According to the present invention, the image display device, along with movement of the user's gaze in between the display section can be smoothly movement of the user's gaze for a circular orbit, the image displayed on the display unit Thus, it is possible to realize an image display device that can be accommodated within the user's field of view and can display a plurality of images more easily than conventional ones.

According to the present invention, the image display method, the movement of the user's gaze in between the display section can be smoothly the movement of the line of sight of the user becomes a circular orbit, the image displayed on the display unit Thus, it is possible to realize a video display method that can be accommodated within the user's field of view, and thus can display a plurality of videos more easily than conventional ones.

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

(1) Overall Configuration of Video Display Device (1-1) Configuration of Video Display Device In FIG. 1, reference numeral 1 denotes a video display device according to the present embodiment as a whole, and a plurality of liquid crystal displays on the front surface of a vertical wall portion 2. 3 (3A to 3E) are movably supported via the display support portions 4 (4A to 4E) so as not to overlap each other with their display surfaces facing forward, and the liquid crystal displays 3 (3A) To 3E) and the display support unit 4 (4A to 4E), the signal processing unit 5 is connected via a cable or the like.

  In this case, the signal processing unit 5 can output video and audio via the liquid crystal display 3 (3A to 3E) by supplying video and audio signals to the liquid crystal display 3 (3A to 3E). In addition, by supplying a command signal for controlling the respective movements to the display support unit 4 (4A to 4E), the display support units 4 (4A to 4E) can be moved independently of each other to provide a liquid crystal display. 3 (3A to 3E) can be changed.

  In the video display device 1 shown in FIG. 1, the display support portions 4 (4A to 4E) are movable so that the plurality of liquid crystal displays 3 (3A to 3E) have a circular arrangement when viewed from the front of the wall portion 2. This arrangement is set in the signal processing unit 5 as an initial arrangement.

  In the following description, the direction from the left side to the right side of the wall part 2 as viewed from the front of the wall part 2 is indicated by an arrow x, the direction from the lower side to the upper side of the wall part 2 is indicated by an arrow y, The direction from the back surface to the front surface of the wall portion 2 is indicated by an arrow z.

(1-2) Configuration of Liquid Crystal Display The liquid crystal display 3 (3A to 3E) has a thin rectangular casing CS (CS _{A to} CS _E ) as shown in FIG. ) together with a liquid crystal panel PN _(PN a ~PN _E) is disposed in the center, the speaker SP _(SP a ~SP _E) is disposed thereunder.

The liquid crystal display 3 (3A to 3E) is configured to display an image based on the video signal supplied from the signal processing unit 5 to the liquid crystal panel PN _(PN A ~PN _E), the audio signal supplied from the signal processing unit 5 Is output from the speaker SP (SP _{A to} SP _E ).

(1-3) Configuration of Display Support Unit Next, the configuration of the display support unit 4 (4A to 4E) will be described. Here, since the display support portion 4A and the display support portions 4B to 4E have different configurations, the following description will be divided into the configuration of the display support portion 4A and the configuration of the display support portions 4B to 4E.

In the display support portion 4A, as shown in FIGS. 3, 4, and 5, the output shaft 11 is horizontal at the tip of the arm mounting portion 10 that is suspended at a predetermined position on the front surface of the wall portion 2. Is provided with a motor part M _A1 , and one end of the first arm 12 is attached to the output shaft 11.

A motor part _MA2 is attached to the other end of the first arm 12 so that the output shaft 13 is horizontal, and one end of the second arm 14 is attached to the output shaft 13. Furthermore, the motor part _MA3 is attached to the other end part of the second arm 14 so that the output shaft 15 thereof is horizontal, and one end part of the display attaching part 16 is attached to the output shaft 15.

  The other end of the display mounting portion 16 is fixed to a mounting plate 17 provided at the center of the back surface of the liquid crystal display 3A.

Each motor unit M (M _{A1 to} M _A3 ) includes a motor that generates power and a sensor that detects the rotation angles of the output shafts 11, 13, and 15 of the motor.

Thereby, the display support part 4A rotates the respective parts by the power of the motor of the motor part M (M _{A1 to} M _A3 ), thereby causing the liquid crystal display 3A to move in the direction indicated by the arrow y on the front surface of the wall part 2 and the opposite direction ( That is, it can be movably supported in the vertical direction), the direction indicated by the arrow z, and the opposite direction (that is, the front-rear direction).

  On the other hand, in the display support portions 4B to 4E, as shown in FIGS. 6, 7, and 8, the first arm mounting portion 30 is vertically suspended at a predetermined position on the front surface of the wall portion 2, and the predetermined position. The second arm attachment portion 31 is suspended from a position at a predetermined distance (for example, several centimeters) in the right direction indicated by the arrow x.

In addition, one end of the first arm 33 is attached to the tip of the first arm attachment portion 30 via a first shaft body 32 that is vertically arranged. Furthermore, a motor unit M ₁ (M _{B1 to} M _E1 ) is attached to the other end of the first arm 33 so that the output shaft 34 is vertical.

One end portion of the second arm 35 is attached to the output shaft 34 of the motor unit M ₁ (M _{B1 to} M _E1 ), and the second shaft body is vertically arranged on the other end portion of the second arm 35. One end of the third arm 37 is attached via 36.

A motor part M ₂ (M _{B2 to} M _E2 ) is attached to the tip of the second arm attachment part 31 so that the output shaft 38 is vertical. One end portion of the fourth arm 39 is attached to the output shaft 38 of the motor unit M ₂ (M _{B2 to} M _E2 ), and the output shaft 40 is vertical to the other end portion of the fourth arm 39. The motor unit M ₃ (M _{B3 to} M _E3 ) is attached.

One end portion of the fifth arm 41 is attached to the output shaft 40 of the motor unit M ₃ (M _{B3 to} M _E3 ), and a third shaft body vertically disposed on the other end portion of the fifth arm 41. The other end of the third arm 37 is attached via 42.

Further, a motor unit M ₄ (M _{B4 to} M _E4 ) is attached to the center of the third arm 37 so that the output shaft 43 is vertical. One end portion of the display attachment portion 44 is attached to the output shaft 43 of the motor portion M ₄ (M _{B4 to} M _E4 ), and the other end portion of the display attachment portion 44 is provided at the center of the back surface of the liquid crystal displays 3B to 3E. The mounting plate 45 is fixed.

Each motor unit M (M _{B1 to} M _B4 ,..., M _{E1 to} M _E4 ) includes a motor that generates power and a sensor that detects the rotation angle of the output shafts 34, 38, 40, and 43 of the motor. Is built-in.

Thus display support 4B~4E the motor unit _{M (M B1 ~M B4, ...} , M E1 ~M E4) of the respective wall 2 a liquid crystal display 3B~3E by rotating each unit by the power of the motor It is possible to support in a movable manner in the direction indicated by the arrow x and its reverse direction (that is, the left-right direction) and in the direction indicated by the arrow z and its reverse direction (that is, the front-rear direction).

Here, the movable range in the vertical and horizontal directions of the liquid crystal display 3 (3A to 3E) is shown in FIG. Position _{P A} represents the fixed position of the arm mounting portion 10 and the wall 2 of the display support 4A, and the position _P B to P _E, the first arm attachment portion of the display support 4B~4E respectively 30 shows an intermediate position between the fixed position of the second arm attachment portion 31 relative to the wall portion 2 and the fixed position relative to the wall portion 2 of 30.

This position P (P _{A to} P _E ) is set based on the initial arrangement (circular arrangement) of the liquid crystal displays 3 (3A to 3E), and the position P _A is the upper center of the front surface of the wall 2 and the position P _B is left obliquely under the corresponding sites _{P a,} right obliquely under the position _{P C} is the position _{P a,} the position _{P D} right obliquely under the corresponding sites _{P B,} under the left oblique position _{P E} is the position _{P C} Is set.

Thus the image display device 1 is obtained by moving the liquid crystal display 3A in the vertical direction position P _A as substantially centered within the movable range of the display support portion 4A indicated by the arrow y _A1 and y _A2, and as substantially around the position P _B obtained by moving the liquid crystal display 3B within the movable range of the display support portion 4B of the right and left directions shown by arrows _{x B1} and _{x B2,} display support 4C shown in the left-right direction substantially around the position _{P C} by arrows _{x C1} and _{x C2} obtained by moving the liquid crystal display 4C within the movable range of, give move a liquid crystal display 4D within the movable range of the display support 4D shown in the left-right direction substantially around the position P _D by arrows x _D1 and x _D2, further position liquid crystal in the lateral direction substantially about the P _E in the movable range of the display support 4E indicated by the arrow x _E1 and x _E2 display It is configured so as to be able to move 4E.

  Here, FIG. 10 and FIG. 11 show arrangement patterns that can be arranged by actually moving the liquid crystal displays 3 (3A to 3E) within such a range. First, as shown in FIG. 10A, there is the above-described circular arrangement, which is the initial arrangement, and this is referred to as an arrangement pattern A.

  Next, FIG. 10B shows an arrangement pattern B in which the liquid crystal display 3A is moved downward from the arrangement of the arrangement pattern A. In this arrangement pattern B, the liquid crystal displays 3B and 3C are arranged on the left and right sides of the liquid crystal display 3A so as to be parallel to and in contact with the liquid crystal display 3A, respectively. The liquid crystal displays 3D and 3E are arranged so as to be in contact with the display 3A (at this time, the liquid crystal displays 3D and 3E are parallel and in contact).

  FIG. 10C shows an arrangement pattern C in which the liquid crystal displays 3D and 3E are moved leftward from the arrangement of the arrangement pattern B. In this arrangement pattern C, the liquid crystal displays 3B and 3C are arranged on the left and right sides of the liquid crystal display 3A so as to be parallel to and in contact with the liquid crystal display 3A, respectively, and so as to be in contact with the liquid crystal display 3B below the liquid crystal display 3B. The liquid crystal display 3D is disposed, and the liquid crystal display 3E is disposed under the liquid crystal display 3A so as to be in contact with the liquid crystal display 3A (at this time, the liquid crystal displays 3D and 3E are parallel and in contact).

  Further, FIG. 10D shows an arrangement pattern D obtained by moving the liquid crystal displays 3D and 3E in the right direction from the arrangement of the arrangement pattern C. In this arrangement pattern D, the liquid crystal displays 3B and 3C are arranged on the left and right sides of the liquid crystal display 3A so as to be parallel to and in contact with the liquid crystal display 3A, respectively, and so as to be in contact with the liquid crystal display 3A below the liquid crystal display 3A. The liquid crystal display 3D is disposed, and the liquid crystal display 3E is disposed under the liquid crystal display 3C so as to be in contact with the liquid crystal display 3C (at this time, the liquid crystal displays 3D and 3E are parallel and in contact).

  Further, FIG. 10E shows an arrangement pattern E in which the liquid crystal display 3D is moved leftward from the arrangement pattern D. In this arrangement pattern E, the liquid crystal displays 3B and 3C are arranged on the left and right sides of the liquid crystal display 3A so as to be parallel to and in contact with the liquid crystal display 3A, respectively, and so as to be in contact with the liquid crystal display 3B below the liquid crystal display 3B. The liquid crystal display 3D is arranged, and the liquid crystal display 3E is arranged under the liquid crystal display 3C so as to be in contact with the liquid crystal display 3C.

  Further, FIG. 10F shows an arrangement pattern F obtained by moving the liquid crystal display 3A upward from the arrangement pattern E. In this arrangement pattern F, the liquid crystal displays 3B and 3C are arranged so as to be in contact with the liquid crystal display 3A below and to the left of the liquid crystal display 3A, respectively, and are in contact with the liquid crystal display 3B under the liquid crystal display 3B. Thus, the liquid crystal display 3D is disposed, and the liquid crystal display 3E is disposed under the liquid crystal display 3C so as to be in contact with the liquid crystal display 3C.

  Further, FIG. 11G shows an arrangement pattern G in which the liquid crystal displays 3B and 3C are moved in the left and right directions from the arrangement pattern F, respectively. In this arrangement pattern G, the liquid crystal displays 3B and 3C are arranged apart from the liquid crystal display 3A on the lower left and lower right sides of the liquid crystal display 3A, respectively, and are in contact with the liquid crystal display 3B on the lower right side of the liquid crystal display 3B. Thus, the liquid crystal display 3D is arranged, and the liquid crystal display 3E is arranged so as to be in contact with the liquid crystal display 3C at the lower left of the liquid crystal display 3C.

  Further, FIG. 11H shows an arrangement pattern H in which the liquid crystal display 3A is moved downward from the arrangement of the arrangement pattern G. In this arrangement pattern H, the liquid crystal displays 3D and 3E are arranged so as to be in contact with the liquid crystal display 3A on the lower left side and the lower right side of the liquid crystal display 3A, respectively, and the liquid crystal display 3D is on the left side of the liquid crystal display 3D. The liquid crystal display 3B is disposed so as to be in contact with the liquid crystal display 3C, and the liquid crystal display 3C is disposed on the right oblique side of the liquid crystal display 3E so as to be in contact with the liquid crystal display 3E.

  Further, FIG. 11 (I) shows an arrangement pattern I in which the liquid crystal display 3A is moved upward from the arrangement pattern H, the liquid crystal displays 3B and 3D are moved to the right, and the liquid crystal displays 3C and 3E are moved to the left. . In this arrangement pattern I, the liquid crystal displays 3B and 3C are arranged so as to come into contact with the liquid crystal display 3A on the lower left and lower right sides of the liquid crystal display 3A (at this time, the liquid crystal displays 3B and 3C are parallel and in contact). The liquid crystal display 3D is disposed under the liquid crystal display 3B so as to be in contact with the liquid crystal display 3B, and the liquid crystal display 3E is disposed under the liquid crystal display 3C so as to be in contact with the liquid crystal display 3C.

  Thus, in the video display device 1, the liquid crystal display 3 (3A to 3E) can be moved to the arrangement of the arrangement patterns A to I as necessary.

  Next, the movable range in the front-rear direction of the liquid crystal display 3 (3A to 3E) is shown in FIG. In the video display device 1, the liquid crystal display 3A can be moved in the front-rear direction in the range from the folded state of the first arm 12 and the second arm 14 of the display support 4A to the extended state, and the liquid crystal displays 4B to 4B 4E in the front-rear direction in the range from the folded state to the expanded state of the first arm 33, the second arm 35, the third arm 37, the fourth arm 39, and the fifth arm 41 of the display support portions 4B to 4E, respectively. It is made to move.

  Here, the movable ranges in the front-rear direction of the liquid crystal displays 3A to 3E are the same. Therefore, in a state where the arms of the display support portions 4A to 4E are folded and the liquid crystal displays 3A to 3E are closest to the wall portion 2, The front surfaces of the displays 3 </ b> A to 3 </ b> E are on the same plane, and the front surfaces of the liquid crystal displays 3 </ b> A to 3 </ b> E are also on the same plane even when each arm is extended to be farthest from the wall 2.

  Thus, in the video display device 1, the arrangement of the liquid crystal displays 3 (3A to 3E) can be varied within the movable range of the corresponding display support portions 4 (4A to 4E).

(1-4) Configuration of Signal Processing Unit Next, the configuration of the signal processing unit 5 will be described with reference to FIG. The signal processing unit 5 includes an integrated control unit 60 that controls the entire video display device 1, a plurality of television broadcast reception units 61 (61A to 61E) that receive television broadcasts, and a television broadcast reception unit 61 (61A). To 61E) and a distributor 62 for distributing the television broadcast program video and program audio to the plurality of liquid crystal displays 3 (3A to 3E).

  The integrated control unit 60 receives the infrared signal S1 transmitted from the remote controller RC according to the operation of the remote controller RC by the infrared light receiving unit 63, and the infrared light receiving unit 63 converts the infrared signal S1 to the operation notification signal S2. This is converted and supplied to an MPU (Microprocessor Unit) 64.

  The MPU 64 is equipped with an internal memory, and a command corresponding to the operation notification signal S2 supplied from the infrared light receiving unit 63 according to various programs such as a control program and an operation mode program stored in the internal memory in advance. The signal S3 is sent to the command conversion unit 65.

  Further, the MPU 64 accesses a database (hereinafter referred to as an external database) 67 that provides an EPG (Electronic Program Guide) 67 via the communication unit 66, and the EPG data (hereinafter referred to as an “EPG”) from the external database 67. This is called EPG data) so that ED can be acquired.

  Further, every time the operation notification signal S2 is supplied from the infrared light receiving unit 63, the MPU 64 accumulates the operation notification signal S2 in the nonvolatile memory 68 as the operation history data OD of the remote controller RC, and will be described later if necessary. The genre history data JD is stored in the nonvolatile memory 68, and can be read from the nonvolatile memory 68 as appropriate.

  The command conversion unit 65, based on the command signal S3 given from the MPU 64, command signals COM1 and COM2 for controlling the television broadcast receivers 61 (61A to 61E), and a command signal COM3 for controlling the distributor 62. , A command signal COM4 for controlling the display support unit 4 (4A to 4E) is generated, and the command signals COM1 to COM4 are respectively controlled by the television broadcast receiving unit 61 (61A to 61E), the distributor 62, It is made to send to the display support part 4 (4A-4E).

  As described above, the integrated control unit 60 sends the command signals COM1 to COM4 to the television broadcast receiving unit 61 (61A to 61E), the distributor 62, and the display support unit 4 in accordance with various commands input by operating the remote controller RC. By transmitting to (4A to 4E), the television broadcast receiving unit 61 (61A to 61E), the distributor 62 and the display support unit 4 (4A to 4E) are controlled in an integrated manner.

  The television broadcast receiver 61 (61A to 61E) inputs the television broadcast wave S4 received through the antenna 69 to the tuner 70 (70A to 70E).

Based on the command signal COM1 supplied from the command conversion unit 65, the tuner 70 (70A to 70E) receives a signal of a predetermined channel from the television broadcast wave S4 (hereinafter referred to as a television signal) S5 ( S5 _{a-S5 E)} to extract, and sends it to the descramble circuit 71 (71 a to 71 e).

Descramble circuit 71 (71 a to 71 e) is predetermined demodulation processing to the television signal S5 _(S5 A ~S5 _E), successively subjected to error correction processing and descrambling processing, the resulting television broadcasting data D1 the _(D1 a ~D1 _E) is sent to the demultiplexer 72 (72a to 72e).

Demultiplexer 72 (72a to 72e) includes a television broadcast data D1 and audio data D2 of the _(D1 A ~ D1 _E) consisting of the audio portion of the packet _(D2 A ~ D2 _E), the image data D3 composed of packets of video portions (D3 _{A to} D3 _E ), and these are sent to the audio decoder 73 (73A to 73E) and the video decoder 74 (74A to 74E), respectively.

Audio decoder 73 (73a through 73e) performs a decoding process conforming to a predetermined encoding method the audio data D2 _(D2 A ~D2 _E), the decoded audio data D4 _(D4 A obtained result ~D4 _E ) is sent to the digital / analog converter 75 (75A to 75E).

Digital / analog converting section 75 (75a to 75e) are decoded voice data D4 to _(D4 A to D4 _E) is converted into audio signals S6 _(S6 A ~S6 _E), and sends it to the distributor 62.

Meanwhile, the video decoder 74 (74A~74E), the video data D3 _(D3 A ~D3 _E) performs a decryption process that conforms to a predetermined encoding method with respect to the decoded video data D5 (D5 _A obtained result ˜D5 _E ) are sent to NTSC (National Television Standards Committee) encoder 77 (77A to 77E) via adder 76 (76A to 76E).

NTSC encoder 77 (77A~77E) converts the decoded video data D5 _(D5 A ~D5 _E) to the image data D6 of the NTSC system _(D6 A _{~D6 E),} which digital / analog converter unit 78 (78A~ 78E).

Digital / analog conversion section 78 (78A~78E) converts video data D6 of the NTSC scheme _(D6 A _{~D6 E)} video signal S7 on _(S7 A _{~S7 E),} and sends it to the distributor 62.

In this way, the television broadcast receiving section 61 (61a to 61e) from among the television broadcasting wave S4, the video signal S7 of the program being broadcast on the specified channel _(S7 A _{~S7 E)} and audio signals and S6 _(S6 a _{~S6 E)} was taken out, and sends them to the distributor 62.

The television broadcast receiver 61 (61A to 61E) displays character data or the like in a GUI (Graphical User Interface) data generator 79 (79A to 79E) based on the command signal COM2 supplied from the command converter 65. Data GD (GD _{A to} GD _E ) is generated, sent to the adder 76 (76A to 76E), and decoded video data D5 (D5 _{A to} D5 _E ) output from the video decoder 74 (74A to 74E) It is also made to overlap.

Distributor 62, the audio signal S6 supplied from the television broadcast receiving section _{61 (61A~61E) (S6 A ~S6} E) and a video signal S7 _(S7 A ~S7 _E), is supplied from the command conversion unit 65 that by dispensing on the basis of a command signal COM3, respectively audio signal S8 _(S8 a ~S8 _E) and the speaker SP _(SP a ~ of the liquid crystal display 3 (3A to 3E) as a video signal S9 _(S9 a ~S9 _E) and it sends to the SP _E) and a liquid crystal panel PN _(PN a ~PN _E).

Consequently, from the speaker SP _(SP A ~SP _E) stereo sound based on the audio signal distributed by the distributor 62 S8 _(S8 A ~S8 _E) is outputted to the liquid crystal panel PN _(PN A ~PN _E) the video based on the video signal S9 corresponding to the audio signal _{S8 (S8 a ~S8 E) (} S9 a ~S9 E) are displayed.

Based on the command signal COM4 supplied from the command conversion unit 65, the display support unit 4 (4A to 4E) receives each motor unit M (M _{A1 to} M _A3 , M _{B1 to} M _B4 ,..., M _{E1 to} M _E4. ) Can be rotated by driving the motor.

Moreover, the display support part 4 (4A-4E) is the output shaft 11, 13, 15, 34, 38 of each motor part M (M _A1- M _A3 , M _B1- M _B4 , ..., M _E1- M _E4 ). The rotation angles 40 and 43 are detected by sensors built in the motor unit M (M _{A1 to} M _A3 , M _{B1 to} M _B4 ,..., M _{E1 to} M _E4 ), and the detection result is used as rotation angle data RD as a command. By supplying the MPU 64 via the conversion unit 65, the output shafts 11, 13, 15, and 34 of the motor units M (M _{A1 to} M _A3 , M _{B1 to} M _B4 ,..., M _{E1 to} M _E4 ) are supplied to the MPU 64. , 38, 40 and 43 can be recognized.

  Thus, the signal processing unit 5 can provide the television broadcast program video and program audio to the user via the plurality of liquid crystal displays 3A to 3E, and the display support units 4A to 4E can be moved independently. Thus, the arrangement of the liquid crystal displays 3A to 3E can be changed.

(1-5) Configuration of Remote Controller Next, a remote controller RC for the user to input various commands to the video display device 1 will be described with reference to FIG.

  The remote controller RC has a rectangular casing 80, and a number from 0 to 9 for designating a power button and a channel for turning on or off the power of the video display device 1 on the upper surface of the rectangular controller. A basic operation unit 81 including buttons is provided, a display specifying unit 82 including five display specifying buttons respectively corresponding to the liquid crystal displays 3A to 3E is provided below the basic operation unit 81, and the video display device 1 is further provided below the display specifying unit 82. There is provided an operation mode designating unit 83 comprising four mode designation buttons (zapping mode button, 5 channel mode button, 2 × 2 mode button, genre check mode button) respectively corresponding to four operation modes (described later). .

  When these buttons are pressed, the remote controller RC outputs an infrared signal S1 corresponding to the pressed button, and the operation content of the remote controller RC is thereby transmitted to the signal processing unit 5. It is designed to communicate.

(2) Operation Mode Next, the operation mode of the video display device 1 will be described. The video display device 1 has four operation modes of a zapping mode, a five-channel mode, a 2 × 2 mode, and a genre check mode, and these four operation modes are arbitrarily selected according to the operation of the remote controller RC. It can be switched. Hereinafter, each mode will be described in detail.

(2-1) Zapping mode The zapping mode is an operation mode in which program video and program audio of different channels are assigned to the liquid crystal displays 3A to 3E, and the channels are automatically switched to other channels at predetermined time intervals. is there. Hereinafter, processing of each unit in the zapping mode will be described. In the following description, for convenience of description, channels that can be received by the video display device 1 are 15 channels from channel numbers “01” to “15”.

  When the MPU 64 (FIG. 13) recognizes that the zapping mode button of the operation mode designating unit 83 provided in the remote controller RC is pressed based on the operation notification signal S2 supplied from the infrared light receiving unit 63, the operation mode An instruction signal S3 corresponding to the zapping mode is sent to the command conversion unit 65 according to the program.

  The command conversion unit 65 generates command signals COM1 to COM4 based on the command signal S3 supplied from the MPU 64, and sends the command signals COM1 and COM2 to the television broadcast reception unit 61 (61A to 61E). The signal COM3 is sent to the distributor 62, and the command signal COM4 is sent to the display support unit 4 (4A to 4E).

Based on the command signal COM4 supplied from the command conversion unit 65, the display support unit 4 (4A to 4E) is a motor unit M (M _{A1 to} M _A3 , M _{B1 to} M _B4 ,..., M _{E1 to} M _E4 ). 15, the liquid crystal displays 3 (3 </ b> A to 3 </ b> E) are arranged in the arrangement pattern A (circular arrangement) as shown in FIG. 15, and each is positioned closest to the wall portion 2 (no depth). Move.

  The television broadcast receivers 61A to 61E select different channel numbers (for example, “01” to “05”) for the tuners 70A to 70E based on the command signal COM1 supplied from the command converter 65, respectively. Let's bureau.

The television broadcast receivers 61A to 61E are display data indicating channel numbers “01” to “05” by the GUI data generators 79A to 79E, respectively, based on the command signal COM2 supplied from the command converter 65. GD _{A to} GD _E (for example, “01ch” to “05ch”) are generated, and these are superimposed on the decoded video data D5 _{A to} D5 _E , respectively.

Furthermore, the distributor 62, based on the command signal COM3 supplied from the command conversion unit 65, the audio signals S6 _{A to} S6 _{E of the} channel numbers “01” to “05” supplied from the television broadcast receiving units 61A to 61E. and distributing the video signal _S7 a _{~S7 E} as an audio signal _S8 a _{~S8 E} and the video signal _S9 a _{~S9 E} respectively to the speakers _SP a to SP _E and the liquid crystal panel _PN a to PN _E of the liquid crystal display 3A-3B. As a result, as shown in FIG. 16, the program video and program audio of the channel numbers “01” to “05” are output via the liquid crystal displays 3A to 3E, respectively.

  Further, after a predetermined time has elapsed, the MPU 64 supplies the command signal S3 to the command conversion unit 65 again, and based on this, the command conversion unit 65 generates the command signals COM1 to COM3, and sends the command signals COM1 and COM2 to the television. The command signal COM3 is sent to the distributor 62 while being sent to the broadcast receiver 61 (61A to 61E).

  That is, for example, as shown in FIG. 17, the command conversion unit 65 displays program videos of channel numbers “06” to “10” on the liquid crystal displays 3A to 3E, respectively, 10 seconds after sending the first command signals COM1 to COM4. And command signals COM1 to COM3 for outputting program audio are sent to the television broadcast receivers 61A to 61E and the distributor 62, respectively, and 10 seconds later, the channel numbers “11” are given to the liquid crystal displays 3A to 3E, respectively. ~ Command signals COM1 to COM3 for outputting the program video and program audio of "15" are sent out.

  Further, 10 seconds later, command signals COM1 to COM3 for outputting the program video and the program audio of the channel numbers “01” to “05” to the liquid crystal displays 3A to 3E are sent again. Repeat the operation.

  In this way, the MPU 64 sends the command signals COM1 to COM4 (however, the command signal COM4 is only the first time) to each unit from the command conversion unit 65 at predetermined time intervals, so that the program video of the channel numbers “01” to “15” is transmitted. The program audio is divided into five different channels and output via the liquid crystal displays 3A to 3E while switching at predetermined time intervals.

  Thus, in the zapping mode, the video display apparatus 1 can check the program video and the program audio of the program currently broadcast on each channel without causing the user to perform a channel switching operation. Furthermore, by assigning different channels to the liquid crystal displays 3A to 3E arranged in a circle and automatically switching them to other channels every few seconds, the program images of all channels are displayed in a very short time. And the program audio can be confirmed.

(2-2) 5-channel mode In the 5-channel mode, a user who decides a program to be viewed by a program information magazine or the above-described zapping mode, etc., selects five channels of the program to be viewed in particular. Is an operation mode in which the program video and the program audio are simultaneously output via the liquid crystal displays 3A to 3E. Hereinafter, processing of each unit in the 5-channel mode will be described.

  When the MPU 64 (FIG. 13) recognizes that the 5-channel mode button of the operation mode designating unit 83 provided in the remote controller RC is pressed based on the operation notification signal S2 supplied from the infrared light receiving unit 63, the operation is performed. In accordance with the mode program, an instruction signal S3 corresponding to the 5-channel mode is sent to the command converter 65.

  The command conversion unit 65 generates a command signal COM4 based on the command signal S3 supplied from the MPU 64, and sends this to the display support unit 4 (4A to 4E).

Based on the command signal COM4 supplied from the command conversion unit 65, the display support unit 4 (4A to 4E) is a motor unit M (M _{A1 to} M _A3 , M _{B1 to} M _B4 ,..., M _{E1 to} M _E4 ). As shown in FIG. 18, the liquid crystal displays 3 (3 </ b> A to 3 </ b> E) are arranged in the arrangement pattern A (circular arrangement) and the liquid crystal display 3 </ b> A is moved to the position closest to the wall 2. At the same time, the liquid crystal displays 3D and 3E are moved to a position farthest from the wall portion 2, and the liquid crystal displays 3B and 3C are moved to an intermediate position between these positions.

  In this way, the MPU 64 moves the liquid crystal displays 3A to 3E so as to have a circular arrangement when viewed from the user, and moves the liquid crystal displays 3D and 3E to the position closest to the user when viewed from the user. The liquid crystal displays 3B and 3C are moved to the back position, and the liquid crystal display 3A is further moved to the back position to add depth.

  As a result, the program video and program audio output from the liquid crystal displays 3D and 3E located closest to the user are most easily viewed by the user, and the program video and program audio output from the liquid crystal displays 3B and 3C are the next easier to view. The program video and program audio output from the liquid crystal display 3A are further next.

  After moving the liquid crystal displays 3A to 3E in this way, the MPU 64 assigns a channel desired by the user to each of the liquid crystal displays 3A to 3E in accordance with the operation of the remote controller RC.

  That is, when the MPU 64 recognizes that the display designation button corresponding to, for example, the liquid crystal display 3E of the display designation unit 82 provided in the remote controller RC is pressed based on the operation notification signal S2 supplied from the infrared light receiving unit 63. , It is determined that the user intends to designate the channel of the liquid crystal display 3E.

  Then, the MPU 64 supplies the command signal S3 to the command conversion unit 65, causes the command conversion unit 65 to generate command signals COM2 and COM3 based on the command signal S3, and sends the command signal COM2 to the television broadcast reception unit 61E. The command signal COM3 is sent to the distributor 62.

Television broadcast receiving section 61E, based on the command signal COM2 is supplied from the command conversion unit 65, generates display data GD _E made in the GUI data generating section 79E of character data "Please specify the channel", This is superimposed on the decoded video data D5 _E. Note that the television broadcast receiver 61E at this time is in a state where a channel is not selected by the tuner 70E. Accordingly being sent to the distributor 62 from the television broadcast receiver 61E is a video signal S7 _E of "channels Please specify" character data only.

The distributor 62, on the basis of a command signal COM3 supplied from the command conversion unit 65, a video signal S7 _E supplied from the television broadcast receiving section 61E as a video signal S9 _E to the liquid crystal panel PN _E of the liquid crystal display 3E Send it out. These include a liquid crystal display 3E, as shown in FIG. 19, a character of "Please specify the channel" is displayed on the liquid crystal panel PN _E.

  As described above, when the display designation button is pressed after the 5-channel mode is designated, the MPU 64 displays, for example, the liquid crystal display 3E corresponding to the display designation button with the characters “Please specify the channel”. The user is prompted to specify the channel of the liquid crystal display 3E.

  Based on the operation notification signal S2 supplied from the infrared light receiving unit 63, the MPU 64 has sequentially pressed, for example, the numeric button “0” and the numeric button “8” of the channel designation unit 82 provided in the remote controller RC. Is recognized, it is determined that the channel number of the liquid crystal display 3E is designated by the channel number “08”.

  Then, the MPU 64 supplies the command signal S3 to the command conversion unit 65, causes the command conversion unit 65 to generate command signals COM1 to COM3 based on the command signal S3, and sends the command signals COM1 and COM2 to the television broadcast reception unit 61E. The command signal COM3 is sent to the distributor 62.

  Based on the command signal COM1 supplied from the command conversion unit 65, the television broadcast receiving unit 61E selects a channel with the channel number “08” by the tuner 70E.

The television broadcast receiving section 61E, based on the command signal COM2 is supplied from the command conversion unit 65, the display data GD _E consisting of character data "08ch" indicating the channel number "08" in the GUI data generating section 79E It is generated and superimposed on the decoded video data D5 _E.

Further, based on the command signal COM3 supplied from the command conversion unit 65, the distributor 62 converts the audio signal S6 _E and the video signal S7 _E of the channel number “08” supplied from the television broadcast receiving unit 61E into audio signals. S8, distributed to the speaker SP _E and the liquid crystal panel PN _E of the liquid crystal display 3E as _E and a video signal S9 _E. As a result, the program video and program audio of the channel of channel number “08” are output via the liquid crystal display 3E.

  Similarly, the MPU 64 outputs the program video and program audio of the designated channel via each of the liquid crystal displays 3A to 3D by causing the user to designate the channels of the liquid crystal displays 3A to 3D.

  As described above, the video display device 1 can simultaneously watch the programs of the five channels designated by the user, and among the five channels, the video channel of the two channels that the user particularly wants to watch with the highest priority is viewed. The two channels that are prioritized for viewing are viewed on the liquid crystal displays 3B and 3C that are the second most easily viewed, and the remaining one channel is displayed. The program can be viewed on the liquid crystal display 3A at the position where the program is most easily viewed.

  Thus, in the 5-channel mode, the video display apparatus 1 can simultaneously watch programs for five channels, and a program with a higher viewing priority can be viewed on the liquid crystal display 3 (3A to 3E) at a position that is easier to view. Further, since the depth of the liquid crystal displays 3 (3A to 3E) is changed, the distance between each liquid crystal display 3 (3A to 3E) and the user is different, and the user is allowed to make a plurality of liquid crystal displays 3 (3A to 3E). ) Can be easily concentrated on a specific program video of the program video output from the program.

(2-3) 2 × 2 mode In the 2 × 2 mode, the liquid crystal displays 3 (3A to 3E) are arranged in the arrangement pattern C, and four (2 × 2) liquid crystal displays 3A, 3B, 3D, and 3E are provided. LCD panel _{PN a,} PN B, one screen PN _D and PN _E (hereinafter, the 2 × 2 window also called) constitute, in the 2 × 2 window, program image one channel selected by the user Is an operation mode for outputting. Hereinafter, processing of each unit in the 2 × 2 mode will be described.

  When the MPU 64 (FIG. 13) recognizes that the 2 × 2 mode button of the operation mode designating unit 83 provided in the remote controller RC is pressed based on the operation notification signal S2 supplied from the infrared light receiving unit 63, In accordance with the operation mode program, an instruction signal S3 corresponding to the 2 × 2 mode is sent to the command converter 65.

  The command conversion unit 65 generates a command signal COM4 based on the command signal S3 supplied from the MPU 64, and sends this to the display support unit 4 (4A to 4E).

Based on the command signal COM4 supplied from the command conversion unit 65, the display support unit 4 (4A to 4E) is a motor unit M (M _{A1 to} M _A3 , M _{B1 to} M _B4 ,..., M _{E1 to} M _E4 ). As shown in FIG. 20, the liquid crystal displays 3 (3 </ b> A to 3 </ b> E) are moved to a position (on the same plane) where the distance from the wall portion 2 is equal as shown in FIG. 20.

  After arranging the liquid crystal displays 3 (3A to 3E) in this way, the MPU 64 responds to the operation of the remote controller RC, and at this time, the 2 × 2 screen constituted by the liquid crystal displays 3A, 3B, 3D and 3E and the remaining A channel desired by the user is assigned to each of the liquid crystal displays 3C.

  That is, the MPU 64 supplies the command signal S3 to the command conversion unit 65, causes the command conversion unit 65 to generate command signals COM2 and COM3 based on the command signal S3, and sends the command signal COM2 to, for example, the television broadcast reception unit 61A. At the same time, a command signal COM3 is sent to the distributor 62.

Television broadcast receiving section 61A based on the command signal COM2 is supplied from the command conversion unit 65, generates display data GD _A consisting of character data "Please specify a channel" in the GUI data generating unit 79A, to superimpose it to the decoded video data D5 _a. At this time, in the television broadcast receiving unit 61A, the channel is not selected by the tuner 70A. Accordingly being sent from the television broadcast receiving section 61A in the distributor 62, the video signal S7 _A of "channels Please specify" character data only.

The distributor 62, on the basis of a command signal COM3 supplied from the command conversion unit 65, by cutting at a predetermined timing in each frame a video signal S7 _A supplied from the television broadcast receiver 61A, a video signal S7 obtain a video signal of each region obtained by equally dividing into 2 × 2 frames of _a, these respective liquid crystal panels _{PN a, PN B, PN D} and video signal obtained by enlarging the display size of the PN _E S9 _a , _S9 B, _{S9 D} and S9 _E each liquid crystal panel _{PN a,} distributes the PN B, PN _D and PN _E.

Thereby the liquid crystal panel _{PN A,} PN B, the 2 × 2 window consists of PN _D and PN _E, the character of "Please specify the channel" is displayed.

  In this way, after the 2 × 2 mode is specified, the MPU 64 displays the characters “Please specify the channel” on the 2 × 2 screen and prompts the user to specify the channel of the 2 × 2 screen.

  When the MPU 64 recognizes that, for example, the channel number “05” has been input via the remote controller RC, the MPU 64 supplies the command signal S3 to the command conversion unit 65, and based on this, the command conversion unit 65 uses the command signal COM1. ˜COM3 are generated, the command signals COM1 and COM2 are sent to the television broadcast receiver 61A, and the command signal COM3 is sent to the distributor 62.

  Based on the command signal COM1 supplied from the command converter 65, the television broadcast receiver 61A selects a channel with the channel number “05” by the tuner 70A.

Also, the television broadcast receiving unit 61A causes the GUI data generating unit 79A to generate character data “05ch” indicating the channel number “05” based on the command signal COM2 supplied from the command converting unit 65, and this is decoded video. Data D5 is superimposed on _A.

Furthermore distributor 62, on the basis of a command signal COM3 supplied from the command conversion unit 65, at a predetermined timing the video signal S7 _A channel number "05" supplied from the television broadcast receiving section 61A for each frame by cutting, to obtain a video signal of each region obtained by equally dividing each frame of the video signal S7 _a to 2 × 2, on an enlarged scale these liquid crystal panels _PN a _{respectively,} PN B, the display size of the PN _D and PN _E resulting video signal _{S9 a, S9 B, S9 D} and S9 _E each liquid crystal panel _{PN a, PN B,} partitioned PN _D and PN _E.

The distributor 62 at this time, respectively left audio signal of the audio signal S6 _A channel number "05" supplied from the television broadcast receiving section 61A audio signal S8 _D, a right audio signal as an audio signal S8 _E Distribute to speaker SP _D and speaker SP _E.

As a result, as shown in FIG. 21, the liquid crystal panel _{PN A,} PN B, 2 × 2 screen program image of the channel number "05" enlarge the composed PN _D and PN _E, further the 2 × 2 Program audio is output from speakers SP _D and SP _E located at the left and right corners of the screen, respectively.

  Further, the MPU 64 also allows the user to specify a channel for the liquid crystal display 3C and to output a program of the specified channel.

  As described above, the video display apparatus 1 allows the user to view a program of a channel desired to be viewed on a 2 × 2 screen, and allows a program of another channel to be viewed on the remaining liquid crystal display 3C. Yes.

Thus the image display device 1 in the 2 × 2 mode, a liquid crystal display 3A the channel of a program to be viewed users, 3B, the liquid crystal panel _PN A four 3D and _{3E (2 × 2), PN} B, PN D and since it is possible to view in 2 × 2 window composed of PN _E, than outputs video individually to each of the liquid crystal display 3A to 3E, it is possible to provide an image that is powerful to the user in a larger screen .

(2-4) Genre Check Mode In the genre check mode, the genre of the program assigned to the liquid crystal display 3 (3A to 3E) is acquired from the EPG, and when there are a plurality of programs of the same genre, these are assigned. This is an operation mode in which the arrangement is changed so that the liquid crystal displays 3 (3A to 3E) are adjacent to each other. Hereinafter, processing of each unit in the genre check mode will be described.

  When the MPU 64 (FIG. 13) recognizes that the genre check mode button of the operation mode designating unit 83 provided in the remote controller RC is pressed based on the operation notification signal S2 supplied from the infrared light receiving unit 63, 5 Similarly to the channel mode, a channel desired by the user is assigned to each of the liquid crystal displays 3A to 3E in accordance with the operation of the remote controller RC.

  The MPU 64 assigns channels designated by the user to the liquid crystal displays 3A to 3E, respectively, and then acquires the EPG data ED from the external database 67 via the communication unit 66.

  Based on the EPG data ED, the MPU 64 specifies the genre of the program currently being broadcast on the channel assigned to each of the liquid crystal displays 3A to 3E, and further broadcasts the program of the same genre in the assigned channel. It is determined whether or not there are multiple channels. At this time, the MPU 64 stores the specified genre in the nonvolatile memory 68 as genre history data JD.

  If it is determined that there are a plurality of channels that broadcast programs of the same genre (for example, among the five assigned channels, there are four channels that broadcast programs whose genre is “sports”, and the genre is “News”. In addition, the MPU 64 further determines how many of the same genre exist.

  Here, if the MPU 64 determines that, for example, there are four same genres and one different genre, the arrangement (for example, the arrangement pattern D) of the liquid crystal displays 3 (3A to 3E) suitable for the number of the genres. ) Is selected.

  For example, the MPU 64 that has selected the arrangement pattern D sends out the command signal COM4 from the command conversion unit 65 to the display support unit 4 (4A to 4E) by sending the command signal S3 to the command conversion unit 65, and the liquid crystal display 3 ( 3A to 3E) are moved to the same position (on the same plane) as the arrangement pattern D and the distance from the wall 2.

Further, the MPU 64 sends a command signal COM3 from the command conversion unit 65 to the distributor 62 by sending a command signal S3 to the command conversion unit 65. At this time, as shown in FIG. Four channels each broadcasting a program of the genre “sports” to the liquid crystal display 3A located and the liquid crystal displays 3C, 3D, and 3E adjacent to the right, bottom, and bottom right of the liquid crystal display 3A, respectively. The television broadcast receiving unit 61 (61A to 61E) is assigned so that one channel that broadcasts a program whose genre is “news” is assigned to the liquid crystal display 3B located on the left side of the liquid crystal display 3A. distributing the audio signal _S6 a to S6 _E and a video signal _S7 a _{~S7 E.}

  Further, for example, among the five channels designated by the user, there are three channels broadcasting a program whose genre is “drama” and two channels broadcasting a program whose genre is “movie”. In this case, the MPU 64 arranges the liquid crystal displays 3A to 3E in the arrangement pattern C as shown in FIG.

  At this time, the MPU 64 broadcasts a program whose genre is “drama” to the liquid crystal display 3A located in the center of the front surface of the wall 2 and the liquid crystal displays 3B and 3C adjacent to the left and right of the liquid crystal display 3A, respectively. Three channels are assigned one by one, and two channels that are broadcasting programs of the genre “movie” are assigned to the liquid crystal displays 3D and 3E respectively located at the lower left and lower right of the liquid crystal display 3A. .

  As described above, when there are a plurality of programs of the same genre among the programs assigned to the liquid crystal displays 3 (3A to 3E), the video display device 1 depends on how many of the same genre exist. The liquid crystal displays 3 (3A to 3E) are arranged in appropriate arrangement patterns A to I, and program videos and program sounds of the same genre are assigned to the adjacent liquid crystal displays 3 (3A to 3E).

  As a result, the video display device 1 can watch the program specified by the user on the liquid crystal display 3 (3A to 3E) at positions divided by genre in the genre check mode. It is possible to view without moving so much, thus improving the convenience when viewing a plurality of videos.

(3) Operation Mode Processing Procedure Here, the processing in each operation mode in the video display apparatus 1 as described above is performed under the control of the MPU 64 (FIG. 13) according to the operation mode processing procedure RT shown in FIG. Done.

  Actually, when the user presses the power button provided on the basic operation unit 81 of the remote controller RC (FIG. 14), the MPU 64 starts this operation mode processing procedure RT in step SP0, and in the subsequent step SP1, It is determined whether or not a zapping mode button provided in the operation mode designating unit 83 of the controller RC has been pressed.

  If the MPU 64 obtains a positive result in step SP1, the MPU 64 proceeds to a subroutine SRT1 (FIG. 25) that performs zapping mode processing.

  The MPU 64 starts this subroutine SRT1 in step SP10, and in the subsequent step SP11, the liquid crystal display 3 (3A to 3E) is arranged in the arrangement pattern A (circular arrangement) and without any depth (liquid crystal display 3 (3A to 3E)). Is placed closest to the wall 2).

  Subsequently, the MPU 64 proceeds to step SP12 and switches the channels assigned to the liquid crystal displays 3 (3A to 3E) at predetermined time intervals, and then exits the subroutine SRT1 and proceeds to step SP5 (FIG. 24).

  On the other hand, if a negative result is obtained in step SP1, the MPU 64 proceeds to step SP2 and determines whether or not the 5-channel mode button provided in the operation mode designating unit 83 of the remote controller RC has been pressed.

  If the MPU 64 obtains a positive result in step SP2, the MPU 64 proceeds to a subroutine SRT2 (FIG. 26) that performs a 5-channel mode process.

  The MPU 64 starts the subroutine SRT2 in step SP20, and in the subsequent step SP21, the liquid crystal display 3 (3A to 3E) is arranged in the arrangement pattern A (circular arrangement) and the depth (the liquid crystal displays 3D and 3E is set to the user). The liquid crystal displays 3B and 3C are moved to a position farthest from the position, and the liquid crystal display 3A is moved to a position deeper than that position.

  Subsequently, the MPU 64 proceeds to step SP22 and waits until a channel number designating a channel of the liquid crystal display 3 (3A to 3E) is input.

  When the MPU 64 recognizes that the channel number has been input via the operation notification signal S2, the process proceeds to step SP23, and the channel of the input channel number is displayed on the liquid crystal display 3 (3A to 3E) designated by the user. Assign.

  Subsequently, the MPU 64 proceeds to step SP24 and determines whether or not channels have been assigned to all the liquid crystal displays 3 (3A to 3E).

  If the MPU 64 obtains a negative result in step SP24, it returns to step SP22 again, and assigns a channel to the liquid crystal display 3 (3A to 3E) to which no channel is assigned yet.

  On the other hand, if a positive result is obtained in step SP24, the MPU 64 exits the subroutine SRT2 and proceeds to step SP5 (FIG. 24).

  On the other hand, if a negative result is obtained in step SP2, the MPU 64 proceeds to step SP3 and determines whether or not the 2 × 2 mode button provided in the operation mode designating unit 83 of the remote controller RC has been pressed.

  If the MPU 64 obtains a positive result in step SP3, the MPU 64 proceeds to a subroutine SRT3 (FIG. 27) that performs 2 × 2 mode processing.

  The MPU 64 starts the subroutine SRT3 in step SP30, and in the subsequent step SP31, arranges the liquid crystal displays 3 (3A to 3E) in the arrangement pattern C (2 × 2 screens) on the same plane.

  Subsequently, the MPU 64 proceeds to step SP32 and waits until a channel number specifying a channel of a 2 × 2 screen is input.

  When the MPU 64 recognizes that the channel number has been input via the operation notification signal S2, the MPU 64 proceeds to step SP33 and assigns the channel of the input channel number to the 2 × 2 screen.

  Subsequently, the MPU 64 proceeds to step SP34 and waits until a channel number specifying a channel of the remaining screen (liquid crystal display 3C) is input.

  When the MPU 64 recognizes that the channel number has been input via the operation notification signal S2, the MPU 64 proceeds to step SP35 and assigns the channel of the input channel number to the remaining screen (liquid crystal display 3C). Thereafter, the subroutine SRT3 is exited, and the process proceeds to step SP5 (FIG. 24).

  On the other hand, if a negative result is obtained in step SP3, the MPU 64 proceeds to step SP4 and determines whether or not the genre check mode button provided in the operation mode designating unit 83 of the remote controller RC has been pressed.

  If the MPU 64 obtains a positive result in step SP4, the MPU 64 proceeds to a subroutine SRT4 (FIG. 28) that performs genre check mode processing.

  The MPU 64 starts the subroutine SRT4 at step SP40, and waits until channels are allocated to all the liquid crystal displays 3 (3A to 3E) at the subsequent step SP41.

  When the MPU 64 recognizes that channel numbers have been input to all the liquid crystal displays 3 (3A to 3E) via the operation notification signal S2, the channels are set to all the liquid crystal displays 3 (3A to 3E). It is determined that it has been assigned and the process proceeds to step SP42.

  In step SP42, the MPU 64 specifies the genre of the program broadcast on the channel assigned to each liquid crystal display 3 (3A to 3E) based on the EPG data ED.

  Subsequently, the MPU 64 proceeds to step SP43 and determines whether or not there are a plurality of channels broadcasting programs of the same genre among the channels assigned to the liquid crystal displays 3 (3A to 3E).

  If the MPU 64 obtains a negative result in this step SP43, it exits the subroutine SRT4 and proceeds to step SP5 (FIG. 24).

  On the other hand, if the MPU 64 obtains a positive result in step SP43, the process proceeds to step SP44 where the liquid crystal displays 3 (3A to 3E) are arranged in predetermined arrangement patterns A to I and broadcast programs of the same genre. The assigned channel is assigned to the adjacent liquid crystal displays 3 (3A to 3E), and then the subroutine SRT4 is exited and the process proceeds to step SP5 (FIG. 24).

  In step SP5, the MPU 64 determines whether or not the power button of the basic operation unit 81 of the remote controller RC has been pressed.

  If the MPU 64 obtains a negative result in step SP64, it returns to step SP1 again. On the other hand, if the MPU 64 obtains a positive result in step SP64, it proceeds to step SP6 and ends the operation mode processing procedure RT.

  In this way, the MPU 64 can execute each operation mode of the zapping mode, the 5-channel mode, the 2 × 2 mode, and the genre check mode.

(4) Operation and effect of the present embodiment In the above configuration, in the video display device 1, the display support section is arranged so that the plurality of liquid crystal displays 3 (3A to 3E) are arranged in a circular shape when viewed from the front user. 4 as well as supported via a (4A - 4E), to display the program image on the liquid crystal panel PN for respective liquid crystal display _{3 (3A~3E) (PN a ~PN} E) on the basis of the control of the signal processing unit 5.

  Here, FIG. 29 shows the results of an experiment for quantifying the visibility of the video in each arrangement when the plurality of liquid crystal displays 3 (3A to 3E) are arranged in a grid, a straight line (up and down), and a circular arrangement. Shown in

In this experiment, each of the liquid crystal displays 3 (3A to 3A to 3A to 3C) in a lattice arrangement, a linear arrangement, and a circular arrangement is obtained by randomly inserting a scene in which an image slightly changes for one second (hereinafter referred to as an event scene). individually displayed on 3E) LCD panel PN of (PN a _{to PN E),} this event scene percentage subjects could be found (hereinafter referred to as an event scene discovery rate) obtained by digitizing a.

  In the case of the grid arrangement of FIG. 29A, the average value of the event scene discovery rate in each liquid crystal display 3 (3A to 3E) is 69%, and the event scene discovery rate in each liquid crystal display 3 (3A to 3E) There is unevenness. As a result, in the case of the lattice arrangement, it can be seen that the movement of the user's line of sight when viewing the video is not smooth.

In the case of the linear arrangement of FIG. 29B, the average value of the event scene discovery rate in each liquid crystal display 3 (3A to 3E) is 64%, and the event scene discovery rate in the liquid crystal display 3A arranged at the upper end of the straight line is Extremely low. As a result, in the case of the straight line arrangement, the image displayed on the liquid crystal panel PN _A of a liquid crystal display 3A disposed at the upper end of the straight line is found to be less fall within the field of view of the user.

On the other hand, in the case of the circular arrangement of FIG. 29C, the average value of the event scene discovery rate in each liquid crystal display 3 (3A to 3E) is 73%, which is higher than that of the grid arrangement and the linear arrangement. The event scene discovery rate in the liquid crystal displays 3 (3A to 3E) is uniform. As a result, in the case of a circular arrangement, the movement of the user's line of sight when viewing a plurality of images is smooth, and the plurality of images are within the user's field of view, so that the display panel of each liquid crystal display 3 (3A to 3E) it can be seen that the image displayed individually on PN _(PN a ~PN _E) user is looking evenly.

Therefore, also from this experimental result, by arranging the plurality of liquid crystal displays 3 (3A to 3E) in a circular shape when viewed from the front user, the display panels PN (PN _A to P) of the respective liquid crystal displays 3 (3A to 3E) are arranged. it was confirmed that can further easily see the image displayed on the PN _E).

According to the above configuration, by which is adapted to display an image on the liquid crystal panel _PN (PN A ~PN _E) of a plurality of liquid crystal display 3 disposed in a circle when viewed from the front of the user (3A to 3E), it is possible to move the line of sight of the user between the liquid crystal panels PN _(PN a ~PN _E) is smooth eye movement for a circular path, is displayed on each liquid crystal panel PN _(PN a ~PN _E) Therefore, it is possible to realize a video display apparatus and a video display method that can display a plurality of videos more easily than conventional ones.

  Further, according to the video display device 1 of the present embodiment, in the zapping mode, the program video and the program audio of five different channels are output via the liquid crystal displays 3A to 3E while being switched at predetermined time intervals. The program video and program audio of the program currently broadcast on each channel can be confirmed without requiring the user to perform channel switching operations.

  Furthermore, according to the video display device 1 of the present embodiment, in the 5-channel mode, the liquid crystal displays 3 (3A to 3E) are arranged with varying depths, and each of the liquid crystal displays 3 (3A to 3E) is arranged. By outputting the program video and program audio of the channel designated by the user, the program for five channels can be viewed simultaneously, and the distance between each liquid crystal display 3 (3A to 3E) and the user is different. It is possible to make it easy for the user to concentrate on a specific program video of the program video output from the plurality of liquid crystal displays 3 (3A to 3E).

Furthermore, according to the video display device 1 of the present embodiment, in the 2 × 2 mode, the liquid crystal displays 3A, 3B, 3D, and 3E (2 × LCD panel _PN a of _2), PN B, by constitute 2 × 2 screen PN _D and PN _E, and so as to enlarge the one program video to the 2 × 2 window, a liquid crystal display 3A~3E It is possible to provide a user with a powerful video with a larger screen than when video is output individually to each.

  Furthermore, according to the video display device 1 of the present embodiment, when there are a plurality of programs of the same genre among the programs assigned to the liquid crystal displays 3 (3A to 3E) in the genre check mode, The liquid crystal displays 3 (3A to 3E) are arranged in appropriate arrangement patterns A to I according to whether they exist one by one, and program video and program audio of the same genre are assigned to the adjacent liquid crystal displays 3 (3A to 3E). As a result, the program can be viewed on the liquid crystal displays 3 (3A to 3E) at positions divided by genre, so that the program video of the same genre can be viewed without much movement of the line of sight. Convenience when viewing images can be improved.

(5) Other Embodiments In the above-described embodiment, the case where the liquid crystal displays 3 (3A to 3E) are movably supported via the display support portions 4 (4A to 4E) has been described. However, the present invention is not limited to this. For example, as shown in FIG. 30, display support portions 90 (90 </ b> A to 90 </ b> E) having the same length are vertically suspended at predetermined positions on the front surface of the wall portion 2, and the display support portions 90 ( 90A to 90E) are fixed to the back of the liquid crystal display 3 (3A to 3E) to fix the liquid crystal display 3 (3A to 3E) in a circular arrangement and on the same plane (equal in depth). May be supported.

  Further, as shown in FIG. 31, display support portions 91 (91A to 91E) having different lengths are suspended at predetermined positions on the front surface of the wall portion 2, and a liquid crystal display is provided at the open end of the display support portions 91 (91A to 91E). By fixing the back surface of 3 (3A to 3E), the liquid crystal display 3 (3A to 3E) may be fixed and supported on a plurality of planes (different in depth) in a circular arrangement.

  Further, as shown in FIG. 32, a cylinder 92 (92A to 92E) is suspended at a predetermined position on the front surface of the wall portion 2, and an open end of a piston 93 (93A to 93E) inserted into the cylinder 92 (92A to 92E) is provided. By fixing the liquid crystal display 3 (3A to 3E) to the back surface of the liquid crystal display 3 (3A to 3E), the liquid crystal display 3 (3A to 3E) is supported in a circular arrangement and movably in the front-rear direction. May be moved away from or closer to the front of the wall 2.

  Further, as shown in FIG. 33, the first motor unit 95 is attached to the center of the front surface of the wall portion 2 so that the output shaft 94 is perpendicular to the front surface of the wall portion 2. The back surface of the disk 96 having a predetermined size is fixed, and the output shaft 97 (97A to 97E) is perpendicular to the front surface of the disk 96 at a predetermined position on the front surface of the disk 96. While attaching the 2nd motor part 98 (98A-98E) and fixing the back surface of the liquid crystal display 3 (3A-3E) to the said output shaft 97 (97A-97E), the disk 96 is attached to the wall part 2 front surface. While rotating in parallel, the liquid crystal display 3 (3A to 3E) may be rotated in parallel with the front surface of the disk 96. In this case, by controlling the rotation of the disk 96 and the rotation of the liquid crystal displays 3 (3A to 3E) independently, the liquid crystal display 3 (3A to 3E) can be rotated vertically and horizontally even if the disk 96 is rotated. Can be kept constant.

Also in the embodiment described above has dealt with the case of using a liquid crystal panel PN _(PN A ~PN _E) as display means, the present invention is not limited to this, the liquid crystal panel PN _(PN A ~PN _E ), Various display devices such as a plasma panel and an EL (Electro Luminescence) panel may be used.

There Further, in the aforementioned embodiment, it has dealt with the case of using five liquid crystal panel PN of (PN A _{to PN E),} the present invention is not limited to this, to the extent that fits in the user's field of view For example, 10 or 15 display panels PN may be used.

  Further, in the above-described embodiment, the display support portion 4 (4A to 4E) is fixed to the front surface of the vertical wall portion 2, and the liquid crystal display 3 (3A to 3E) is interposed via the display support portion 4 (4A to 4E). ) Is movably supported. However, the present invention is not limited to this. For example, a vertical pole or the like can be used instead of the wall 2 as long as the display support 4 (4A to 4E) can be fixed. May be used.

  Further, in the above-described embodiment, the case where the EPG data ED is acquired from the external database 67 on the Internet via the communication unit 66 as genre information acquisition means has been described, but the present invention is not limited to this. For example, the EPG data superimposed on the television broadcast wave S4 may be obtained separately from the television broadcast wave S4, or any other data may be used as long as it can specify the genre of the video. Data may be acquired.

  Further, in the above-described embodiment, when the 5 channel mode or the 2 × 2 mode is selected, first, in the 5 channel mode, the five liquid crystal displays 3A to 3E are compared with the 2 × 2 mode. Although the case where the user designates the channel for the screen and the liquid crystal display 3C has been described, the present invention is not limited to this, and for example, based on the operation history data OD stored in the nonvolatile memory 68. In the 5 channel mode, five channels that are frequently viewed by the user are selected in the descending order of frequency, and in the 2 × 2 mode, two channels are selected, and these are selected from the five liquid crystal displays 3A to 3E or the 2 × 2 screen and It may be automatically assigned to the two liquid crystal displays 3C, and a desired channel is assigned in advance to priority information for each priority. Then, it may be registered by the user and stored in the nonvolatile memory 68, and these may be automatically assigned to the liquid crystal displays 3 (3A to 3E) based on the priority when the operation mode is selected. In this case, the number of operations by the user can be reduced, and a program of a channel according to the user's preference can be provided, so the convenience can be further improved.

  Furthermore, in the above-described embodiment, when the genre check mode is selected, the case where the user first designates the channel for the five liquid crystal displays 3A to 3E has been described. Not limited to this, for example, based on the genre history data JD stored in the non-volatile memory 68, a plurality (for example, two) of genres that are frequently viewed by the user are selected in descending order of frequency, and the external database 67 is selected. Based on the EPG data ED acquired from the above, five programs corresponding to a plurality of genres selected based on the genre history data JD are selected from the programs being broadcast at this time, and the channels of the five programs are selected. Each may be automatically assigned to the liquid crystal displays 3A to 3E, or a desired genre in advance. Each priority is registered by the user as priority information and stored in the non-volatile memory 68. When the genre check mode is selected for the channels that are broadcasting programs corresponding to these genres, the liquid crystal display 3 (3A to 3E) is automatically selected. You may make it allocate to. In this case, the number of operations by the user can be reduced, and a program of a genre tailored to the user's preference can be provided, so that convenience can be further enhanced.

  Furthermore, in the above-described embodiment, the case where the nonvolatile memory 68 is used as the operation history information storage means, the priority information storage means, and the genre history information storage means has been described, but the present invention is not limited to this, Various storage devices such as a hard disk may be used.

Furthermore, in the above-described embodiment, the display panel PN _(PN A ~PN _E) as a display unit and a display and support portions 4 (4A - 4E) as a support means, Ya signal processing section 5 as a drive control means The case where the video display device 1 is configured by the communication unit 66 as the genre information acquisition unit, the operation history information storage unit, the priority information storage unit, and the nonvolatile memory 68 as the genre history information storage unit has been described. However, the present invention is not limited to this, and the video display device may be configured with various other configurations.

  The present invention can be used for, for example, a multi-panel television receiver.

It is a basic diagram which shows the whole structure of the video display apparatus by this Embodiment. It is a basic diagram which shows the structure of a liquid crystal display. It is a basic diagram which shows the structure (right side surface) of a display support part (4A). It is a basic diagram which shows the structure (front) of a display support part (4A). It is a basic diagram which shows the structure (upper surface) of a display support part (4A). It is a basic diagram which shows the structure (right side surface) of a display support part (4B-4E). It is a basic diagram which shows the structure (front) of a display support part (4B-4E). It is a basic diagram which shows the structure (upper surface) of a display support part (4B-4E). It is a basic diagram which shows the movable range (up-down-left-right direction) of each liquid crystal display. It is a basic diagram which shows the arrangement pattern (1) of a liquid crystal display. It is a basic diagram which shows the arrangement pattern (2) of a liquid crystal display. It is a basic diagram which shows the movable range (front-back direction) of each liquid crystal display. It is a block diagram which shows the circuit structure of a signal processing part. It is a basic diagram which shows the structure of a remote controller. It is an approximate line figure showing arrangement at the time of zapping mode. It is a basic diagram which shows the example of a program video display at the time of a zapping mode. It is an approximate line figure showing an example of channel change at the time of zapping mode. It is a basic diagram which shows the arrangement | positioning at the time of 5 channel mode. It is a basic diagram which shows the image | video at the time of liquid crystal display designation | designated. It is a basic diagram which shows the arrangement | positioning at the time of 2 * 2 mode. It is a basic diagram which shows the example of a program video display at the time of 2 * 2 mode. It is a basic diagram which shows the example of arrangement | positioning at the time of a genre check mode (1). It is an approximate line figure showing the example of arrangement (2) at the time of a genre check mode. It is a flowchart which shows an operation mode process sequence. It is a flowchart which shows a subroutine (zapping mode). It is a flowchart which shows a subroutine (5 channel mode). It is a flowchart which shows a subroutine (2x2 mode). It is a flowchart which shows a subroutine (genre check mode). It is a basic diagram which shows an experimental result. It is a basic diagram which shows the structure (1) of the video display apparatus by other embodiment. It is a basic diagram which shows the structure (2) of the video display apparatus by other embodiment. It is a basic diagram which shows the structure (3) of the video display apparatus by other embodiment. It is a basic diagram which shows the structure (4) of the video display apparatus by other embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Video display apparatus, 2 ... Wall part, 3A-3E ... Liquid crystal display, 4A-4E, 80A-80E, 81A-81E ... Display support part, 5 ... Signal processing part, 64 ... MPU, 65 ...... command conversion unit, 66 ...... communication unit, 68 ...... nonvolatile _memory, PN A to PN _E ...... liquid crystal _panel, SP A to SP _E ...... speaker, RC ...... remote controller.

Claims (4)

A plurality of display units arranged in a circle when viewed from the front of the display surface so that the display surfaces are directed in the same direction;
A control unit that controls the plurality of display units to display video on each of the plurality of display units ;
A support unit that movably supports each of the plurality of display units at an arbitrary position in a three-dimensional space;
A genre information acquisition unit for acquiring genre information for determining the genre of the video from outside ,
The control unit
Controlling the support unit to move each of the plurality of display units to a predetermined position in a three-dimensional space with the display surface facing in the same direction;
Furthermore, the control unit
The display for determining the genre of the video displayed on each of the plurality of display units based on the genre information and displaying the video of the same genre when there are a plurality of the video of the same genre. image display device that controls the support portion so as to close the section. Further comprising genre history information storage unit for storing the genre of the video as a genre history information,
The control unit
Select the genre of the video displayed on the plurality of display units based on the genre history information stored in the genre history information storage unit, the image of the selected genre to each of said plurality of display units video display according to claim 1 for controlling the plurality of the display unit so as to display. A control step for controlling the plurality of display units so that the control unit displays images on each of the plurality of display units arranged in a circle when viewed from the front of the display surface so that the display surfaces face the same direction ;
The genre information acquisition unit includes a genre information acquisition step for acquiring genre information for determining the genre of the video from outside ,
Each of the plurality of display units is movably supported at an arbitrary position in the three-dimensional space by the support unit,
In the above control step,
The control unit controls the support unit to move each of the plurality of display units to a predetermined position in a three-dimensional space with the display surface facing in the same direction;
Further, the control unit determines the genre of the video displayed on each of the plurality of display units based on the genre information, and when there are a plurality of the video of the same genre, the video of the same genre is displayed. image display method that controls the support portion so as to close the display portion being displayed. In the above control step,
The control unit selects a genre of the video to be displayed on the plurality of display units based on genre history information stored in a genre history information storage unit, and displays the video of the selected genre in the plurality of display units. The video display method according to claim 3 , wherein the plurality of display units are controlled so as to be displayed on each of the display units.

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