JP2010054643A - Display system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To facilitate installation, storage, wiring, etc. of a display system allowing a large screen display and to cope with individually different use environments and installation environments by the degree of freedom of installation obtained as a result. <P>SOLUTION: The display system 10 includes a plurality of display panel units 1, and the plurality of display panel units 1 are connected to be in a single array, that is, the display system 10 is constituted to connect only the required number of display panel units 1 continuously in one direction. A connection part between the respective display panel units 1 is connected by a hinge. Bending between the respective display panel units 1 can be performed, and an angle between the display panel units 1 can be freely set. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a display system, and more particularly to a display system in which a plurality of display panel units each having a display panel are connected.

Thin display panels such as LCD (Liquid Crystal Display) and EL (Electro-Luminescence) have appeared, and the display screen has been increasing in size. The demand for large-screen thin display panels is increasing not only for business use but also at home.
The main use of large-screen thin display panels at home is currently used as a television, but it is expected that the use as multi-purpose display panels will be expanded in the future.

  Other uses of a large-screen thin display panel include a relaxation system that makes use of the visual effects of a large screen and is wrapped in video, and an information wall that can display various information as desired. The arbitrary display of various types of information here means that general weather, news, time, and schedules can be displayed graphically, including not only text information but also icons and graphs, video images such as videophones and intercoms, and TV broadcasts. It shows that moving images such as videos from AV devices such as video, photographs, still images such as posters, etc. can be displayed at arbitrary positions and in arbitrary sizes.

For example, Patent Document 1 discloses a display system that enables display panel connection using a plurality of locking brackets provided on both sides of a frame of the video display device. In this display system, a video display device on one side is a basic form, a plurality of locking metal fittings are attached to both side surfaces of a frame that houses the video display unit, and a fan-shaped locking plate that can be pin-coupled to the locking metal metal, A rod, shackle or the like with a turnbuckle that pulls and fixes the locking plate with a predetermined force is used. As a result, a multi-faceted large-sized video display device can be assembled and installed in a hall or the like.
Japanese Unexamined Patent Publication No. 63-47788

  When installing a large-screen display device at home, it is desirable to create and install a display panel that matches the shape of the wall. However, since the living environment is diverse, the display panel is tailored to the individual residential environment. It is difficult to realize the manufacturing and installation because it takes time and cost.

In addition, architectural orientation is becoming larger and multipurpose use is being considered, and current fixed-type large-sized video display devices are becoming unable to cope with applications. To solve this problem, a method of installing multiple display panels individually and wiring them to realize multi-display is also conceivable. However, it takes a lot of work to install, store, and wire, and it is a realistic method that is always used at home. It is not a system.
For example, when a display panel is embedded in a wall, there are many cases where the installation itself is difficult because it takes a lot of cost and time to install, or there are restrictions on remodeling a residence such as a rental house. Also, considering the actual housing situation, there are many cases where the display panel is resident even on the wall surface, and there are many cases where the display panel is resident, and the display panel is installed only when it is used, and the display panel is stored when not in use. I also have to think about it.

  In addition, in a large-screen display device using multiple display panels, when the user tries to install each display panel as if it is wrapped in video, the display panel is installed in an ideal circle or trapezoidal shape. It is difficult for general users to do, and there are many cases where it becomes only an irregular shape depending on housing circumstances. Even at that time, there was a need for a device that would allow people to enjoy the ideal video.

  Furthermore, when a large screen display device using a plurality of display panels is used as a partition and as an image or information display device, the individual display panels are alternately folded. There is also a problem that normal video display cannot be performed because the video is viewed from an oblique direction.

  In the case of a television having a large display screen, for example, a thin television of 100 inches or more is being commercialized. Therefore, demand for large screens of 100 inches or more is increasing due to the desire to view movies and the like on a large screen. However, in the case of a 108-inch television, for example, the display screen is 2.4 m long by 1.35 m wide, and not only the installation location of the television is limited, but also it is difficult to carry the television into the installation location. Can be considered.

  In addition, televisions are becoming thinner, and televisions with a thickness of several centimeters or 1 cm or less are being commercialized. At the same time, it is becoming thinner and lighter, and it is no longer impossible to install it in a general household. Even users who live in relatively small rooms often want to enjoy movies on a large screen, but it is naturally impossible to display more than the size of the room on a flat large screen display device. .

  In the “display panel having a plurality of locking brackets on both sides of the frame” disclosed in Patent Document 1, it can be said that the display panel has a certain degree of freedom and ease during installation. It cannot be said that it can easily cope with uses such as complicated storage at home or changing the arrangement method as needed according to the application.

  The present invention has been made in view of the above circumstances, and in a display system capable of displaying a large screen, the installation, storage, wiring, and the like can be easily performed, and the installation caused by these can be performed. It is an object of the present invention to provide a display system that can cope with different usage environments and installation environments depending on the degree of freedom.

  In order to solve the above-described problem, the first technical means of the present invention is configured such that a plurality of display panel units each having a display panel capable of displaying an image are connected in a row, and an angle between the plurality of display panel units can be variably set. It is characterized by that.

  According to a second technical means, in the first technical means, a connecting portion of two display panel units adjacent to each other among the plurality of display panel units is configured by a hinge, and the hinge includes two rotating portions. Further, by having an N-shaped structure, the angle formed by the two display panel units can be freely set.

  A third technical means is the first or second technical means for detecting an angle formed by two display panel units at a connecting portion of two display panel units adjacent to each other among the plurality of display panel units. An angle sensor is provided, and the display image is corrected based on the detection result of the angle sensor.

  According to a fourth technical means, in the third technical means, the inclination of each display panel unit relative to a predetermined reference plane is calculated based on the detection result of the angle sensor, and a plurality of display panels are calculated based on the inclination. The display image of the unit is corrected to be enlarged or reduced in the connecting direction.

  According to a fifth technical means, in the fourth technical means, based on the inclination of each display panel unit with respect to the reference plane, the image displayed on the display panel unit becomes a trapezoidal image in addition to expansion or contraction in the connecting direction. It is characterized by correcting as follows.

  A sixth technical means includes any one of the third to fifth technical means, wherein an angle target value setting means for presetting a target value of an angle formed by two adjacent display panel units, and a detection result by the angle sensor. And an instruction means for instructing movement of the display panel unit so as to coincide with the target angle set by the angle target value setting means.

  According to a seventh technical means, in the sixth technical means, the instructing means instructs the specific display panel unit instructing the movement in a display image and / or a specific display. The moving direction and moving amount of the panel are instructed by voice output.

  According to an eighth technical means, in any one of the first to seventh technical means, the display system includes a control unit that is variably connected to the plurality of display panel units, and the plurality of display panel units are controlled by the control unit. It is characterized by controlling the video displayed on the screen.

  According to the present invention, in a display system that enables a large screen display, it is possible to easily perform installation, storage, wiring, and the like, and different usage environments and installations depending on the degree of freedom of installation caused by these. It can be adapted to the environment.

  The display system of the present invention compares individual display panel units by connecting a plurality of display panel units each having a display panel capable of displaying an image in a row, and variably setting the angle between the plurality of display panel units. Manufacturing, transportation, installation, and movement are facilitated. In addition, by adjusting the number of display panel units connected, a display system having a size suitable for each residential environment can be easily constructed. In addition, it is possible to deal with cases where the remodeling of a house is restricted, such as a rental house.

  Furthermore, the display system of the present invention can freely change the angles of a plurality of display panel units and is connected in a foldable state, so that it can be stored when it is unnecessary, and it is necessary even in a relatively small living space. A large screen can be realized. Similarly, it is possible to install such that the video is displayed from the front, back, left, and right of the user, and it is possible to deal with various applications such as a relaxation system that wraps the user in the video.

  Furthermore, the display system of the present invention can also obtain an effect as a space partition in a house. Also, by instructing the moving direction and moving amount of the display panel unit, the user can easily install the display panel unit at an ideal target position.

  In addition, pseudo-viewing with a screen size larger than the display size is possible. For example, even a user who views in a small room can perform pseudo-viewing with a screen size larger than the apparent room size. Further, at this time, by performing the keystone correction according to the bending angle of the display panel unit, the user can view an image without a sense of incongruity. In addition, the user can easily change between viewing by normal planar display and pseudo-viewing on a larger screen.

FIG. 1 is a diagram showing an embodiment of a display system according to the present invention, and FIG. 2 is a diagram showing an arrangement example of the display system. 1 and 2, 10 is a display system, 1 is a display panel unit, and 2 is a control unit.
In the embodiment according to the present invention, the display system 10 includes a plurality of display panel units 1, and the plurality of display panel units 1 are connected so as to be arranged in a line. That is, it has a configuration in which a required number of a plurality of display panel units 1 are continuously connected in one direction.
And the connection part between each display panel unit 1 is connected by the hinge. Accordingly, the display panel units 1 can be bent, and the angle between the display panel units 1 can be freely set.

  In this way, by connecting the plurality of display panel units 1 so that the angle can be changed, for example, the plurality of display panel units 1 can be installed so as to have a large screen in a planar shape. It is possible to install the display panel unit 1 so that the display panel unit 1 can be folded. In addition, the display system 10 can be easily installed, stored, and wired, and can be adapted to different usage environments and installation environments depending on the degree of freedom of installation caused by these.

  In order to exchange signals between the plurality of display panel units 1, for example, the display panel units 1 may be connected by a flexible cord, or signals may be transmitted and received by a wireless communication system. The wireless communication system is particularly effective when there is a place such as a door or a window on the wall that is always open (the display panel unit 1 cannot be installed), and the display panel unit 1 is separated from the place by installing the place. is there.

In this example, the control unit 2 is further connected to the end of the plurality of connected display panel units 1. Each display panel unit 1 is composed of at least a display panel and its drive unit. The video data and power to be displayed on each display panel unit 1 are supplied from the control unit 2 that controls the entire display panel.
Further, when there is sufficient space in the display panel unit 1, such control and power supply circuit may be built in one of the display panel units 1, and the control unit 2 may be omitted, or the display panel If there is no such circuit space in the unit 1, a control unit 2 may be provided separately from the display panel unit 1 as shown in FIG.

  In this case, the control unit 2 and the display panel unit 1 can be completely separated. However, as shown in FIG. 1, the control unit 2 and the display panel unit 1 have the same shape, and the control unit 2 and the display panel unit 1 adjacent thereto are connected to improve the ease of installation. It is possible. The connection part of the control unit 2 and the display panel unit 1 is connected so that the angle can be changed by a hinge, similarly to the display panel unit 1.

  Between each display panel unit 1 and between the display panel unit 1 and the control unit 2, there is an angle sensor that measures an angle formed between the two display panel units 1 or an angle formed between the display panel unit 1 and the control unit 2. Is provided. Then, the control unit 2 calculates the difference between the ideal angle information at the time of installation stored in the memory in advance and the actual angle, notifies the user of the angle deviation, and sets the ideal angle. Ask. The notification to the user at this time may be only the actual angle and the ideal angle displayed, or more user-friendly, such as “Please open panel A and panel B a little more”, and / or sound. Can be directed.

  In addition, when viewing in a state different from the ideal installation state due to housing conditions, etc., keystone correction is performed on each display panel unit image from the detected angle by the angle sensor and the stored ideal angle (target angle). To ensure normal viewing from the front. In this case, an image can be displayed while using the panel as a partition.

  FIG. 3 is a diagram for explaining an example of a hinge structure for connecting a plurality of display panel units and a control unit in a row. For example, an N-shaped hinge 3 as shown in FIG. 3 can be applied to a connecting portion between the display panel unit 1 and another display panel unit 1 adjacent thereto. When the structure having the control unit 2 as shown in FIGS. 1 and 2 is adopted, the same hinge 3 can be applied to the connecting portion between the display panel unit 1 and the control unit 2. Hereinafter, for the sake of explanation, the structure of the hinge 3 provided between the two display panel units 1 will be described.

The N-shaped hinge 3 is attached between adjacent display panel units 1 in such a form that these display panel units 1 are connected to each other. One side of one end side of the N-shaped hinge 3 is attached to one display panel unit 1, and one side of the other end side of the N shape is attached to the other display panel unit 1.
The N-shaped hinge 3 is provided with two rotating portions 31 and 32, and each N-shaped side is rotated by the rotating portions 31 and 32. With the connection structure by the N-shaped hinge 3, the angle between the display panel units 1 can be variably set.

  4 is a diagram for explaining a state when the display system having the connection structure of FIG. 3 is bent, and FIG. 4A is a diagram showing the display system in a state in which a part of the display panel unit is bent. 4 (B) is a diagram showing the state of the hinge in part A of FIG. 4 (A), FIG. 4 (C) is a diagram showing the state of the hinge in part C of FIG. 4 (A), and FIG. 4 (D) is a diagram. It is a figure which shows the state of the hinge in the D section of 4 (A).

As shown in FIG. 4, the N-shaped hinge 3 according to the present embodiment includes two rotating portions 31 and 32, so that the display panel unit 1 can be freely angled in both a mountain fold and a valley fold. It can be bent with.
Further, if it is used to always bend in a specific direction (for example, a mountain fold or a valley fold) in a specific connecting portion, one of the rotating portions 31 and 32 of the hinge 3 is fixed and cannot be moved. Further, it is possible to prevent unnecessary gaps between the display panel units 1 and the display panel unit 1 from shifting back and forth.

  By such a connecting structure using the hinge 3, the angle adjustment can be performed while the plurality of display panel units 1 are connected. That is, in the display system 10 of the present embodiment, the display panel units 1 (including the control unit 2 when the control unit 2 is used) are always connected, and the arrangement of the display system 10 is changed. There is no need to reconnect each time.

  Further, by providing each hinge 3 with an angle sensor, based on the detection result, when the display panel unit 1 reaches a target angle to be installed, it can be notified by video or sound. Thereby, the user can easily recognize the state in which the display system 10 should be installed, and can arrange the display system 10 efficiently and appropriately.

Further, when notifying the angle of the display panel unit 1, not only when the current angle of the display panel unit 1 detected by the angle sensor matches a predetermined target angle, but the degree of approaching the target angle. By notifying, the ease of installation is further improved.
For example, in the case of informing with a video, it is possible to adopt a method of displaying a difference between a predetermined target angle and the current angle detected by the angle sensor on the display panel unit. In addition, the notification by sound can be realized by a technique such as changing the sound generation interval depending on the angle. For example, when adjusting the angle between the display panel units 1, the sound is changed according to the angle, such as “pip, beep, beep, beep, pee”, so that the user can easily grasp and efficiently sense it. The installation angle can be recognized.

  Here, for example, when the display panel unit is installed in an ideal circular or trapezoidal shape so that the user can be wrapped in the image, or when the shape becomes distorted due to housing circumstances, it is ideal. The target angle for giving the display panel unit 1 an ideal shape can be set in consideration of the case where an image can be viewed.

  Further, by detecting the angle between the display panel units 1 using the above-described angle sensor, the horizontal direction of the display image (that is, each of the display panel units 1 is adjusted so that the correct width is obtained when viewed from the front according to the angle. The size of the connection direction may be converted (enlarged or reduced). Thereby, even when the display panel unit 1 is folded in a bellows shape, it is possible to have a function of displaying an image without a sense of incongruity.

  FIG. 5 and FIG. 6 are diagrams for explaining the video size correction function based on the angle detection of the display panel unit. For example, as shown in FIG. 5, the angle between the display panel units 1 is θ. The angle θ can be defined as an angle formed between the display surfaces of the two display panel units 1, for example. When the control unit 2 is used, it can be defined as an angle formed by the front surface of the control unit and the display surface of the display panel unit 1. In addition to this, the definition of the angle formed between the units can be appropriately defined. In this example, as shown in FIG. 5A, the angle θ is expressed as minus when folded from the user's line-of-sight direction V, and the angle θ when folded toward the line-of-sight direction V. Is expressed as a plus.

  Then, for example, a predetermined reference plane is defined with reference to the front surface of the control unit 2 or the like. In this case, the reference surface is not limited to the front surface of the control unit 2. For example, the side surface of the control unit 2 may be used as the reference surface, or the reference surface may be set on one of the display panel units 1. Alternatively, an imaginary reference plane perpendicular to the line of sight of the user at the viewing position may be set, and an angle difference between the front surface of the control unit and the reference plane may be set in the display system 10 in advance. If this set value is used, the control unit 2 can perform image correction based on an imaginary reference plane.

  FIG. 6 is a diagram for explaining a correction example of the video size when the display panel unit of the display system is bent. Here, for example, it is assumed that an image as illustrated is displayed on a display system 10 in which a control unit 2 is connected to a plurality of display panel units 1 as illustrated in FIG. The display system 10 is bent so as to be in a state as shown in FIG.

In this state, the angle between the units (the angle between the display panel units 1 and the angle between the display panel unit 1 and the control unit 2) is calculated based on the detection result of the angle sensor. In this example, the angle sensor detects the rotation angle of each side in the rotation portions 31 and 32 of the N-shaped hinge 3, but the angle between each unit can be calculated from these angles. Just keep it.
In this case, it is assumed that the angles between the units are −60 °, + 120 °, −120 °, + 120 °, and −60 ° in order from the control unit 2 side. In this case, assuming that the front surface of the control unit 2 is a reference surface, the angles of the display panel units 1 with respect to the reference surface of the control unit 2 are −60 °, + 60 °, −60 °, +60 in order from the control unit 2 side. °, 0 °.

  In the control unit 2, the display image displayed on each display panel unit 1 is corrected according to the angle of each display panel unit 1. For example, the video displayed on each display panel unit 1 is multiplied by (1 / cos θ) in the horizontal direction to compose the screen and display it. The display image of each display panel unit 1 at this time is an image that is multiplied by (1 / cos θ) in the horizontal direction, as shown in FIG. For example, when the angle between the display panel unit 1 and the reference plane is 0 °, the image is displayed at 1 × without being enlarged, and when it is ± 60 °, the image is enlarged at 2 × in the horizontal direction. indicate.

As a result, the image of each display panel unit 1 is corrected with respect to the line of sight V that is perpendicular to the reference plane, and the display panel unit 1 is tilted with respect to the line of sight V, although FIG. The video can be corrected so that the video can be viewed in a state such as). That is, even when there is the display panel unit 1 that does not face the viewer, a natural image close to the original aspect ratio can be viewed.
When installing the display system 10, the user can freely fold the display panel unit 1 by installing a plane (here, the front surface of the control unit 2) that is defined as a reference plane so as to face the viewing position. In addition, optimal video correction can be performed according to the calculation result for the reference plane.

  The angle calculation and the horizontal correction of the video as described above are not limited to the above example, and a known technique can be applied as appropriate. The viewer's viewpoint position may be estimated according to the angle of the display panel unit 1, and video correction may be performed based on the viewpoint position. Alternatively, the display image of the display panel unit 1 tilted with respect to the line of sight may be trapezoidally corrected so that the image is closer to a flat display.

  In the above example, in the display system 10 having a configuration in which the plurality of display panel units 1 and the control unit 2 are connected in a row in the horizontal direction, the display image is expanded in the horizontal direction according to the angle of the display panel unit 1. For example, a configuration may be adopted in which a plurality of display panel units 1 are connected in the vertical direction. In this case, processing for enlarging an image in the vertical direction according to the angle of the display panel unit 1 is possible. To do.

Further, as a configuration for moving and installing the display system, for example, casters may be provided in each display panel unit. Thus, by allowing the display system 10 to move freely on the floor, the user can easily move and arrange the display panel unit 1.
In addition, like an accordion curtain, it is conceivable that a guide rail is installed in advance on the floor, ceiling, etc., and the display system 10 is installed or stored along this rail. In this case, the degree of freedom of arrangement is limited by the rail, but the installation work and storage work of the display system 10 are further facilitated.

  FIG. 7 is a diagram showing a configuration example of main parts of the display panel unit and the control unit in the display system according to the present invention. In this example, the display system 10 includes four display panel units 1 and a control unit 2. Each display panel unit 1 and the control unit 2 are connected by a hinge 3 as shown in FIG. 3, and the hinge 3 is provided with angle sensors 11 and 12. In this case, each display panel unit 1 is connected to the hinges 3 on both sides in the horizontal direction. The angle sensors 11 and 12 provided in each display panel unit 1 are two angle sensors provided in the hinge 3 on one side. Shall be pointed to.

  As described above, the N-shaped hinge 3 is provided with the two rotating portions 31 and 32, and the N-shaped sides are rotated by the rotating portions 31 and 32. With the connection structure by the N-shaped hinge 3, the bending direction between the display panel units 1 (or the display panel unit 1 and the control unit 2) can be freely set. The angle sensors 11 and 12 can detect the angles of the N-shaped sides rotated by the two rotating portions 31 and 32, respectively. For example, one angle sensor 11 detects an angle between two sides rotated by one rotating unit 31, and the other angle sensor 12 detects an angle between two sides rotated by the other rotating unit 32. Can be detected. These detection signals are output to the control unit 2 in advance.

  The control unit 2 performs the following processing. When installing the display system 10, first, the control unit 2 is installed, and each display panel unit 1 is installed based on this. Here, the fact that the display panel unit 1 is to be installed is informed by sound from a speaker. At the same time, the display panel of the display panel unit 1 to be moved is displayed so as to make it visually easy to visually recognize the display panel to be moved by a comment or video. The application software 28 can be recorded or held in a storage storage inside the control unit 2 or can be used in an external storage, and can generate a display image to be displayed on the display panel unit 1. It is what has.

  The control unit 2 selects a specific display panel unit 1 from the plurality of display panel units 1 and transmits / receives signals, a first display panel unit selection unit 21, a second display panel unit selection unit 26, It has. The first display panel unit selection unit 21 takes in the angle information of the angle sensors 11 and 12 installed in each display panel unit 1 and sends it to the inter-unit angle calculation unit 22. The inter-unit angle calculation unit 22 detects angles between the display panel units 1 and between the display panel unit 1 and the control unit 2 based on angle information from the angle sensors 11 and 12.

  In this case, the inter-unit angle calculation unit 22 first calculates the angle between the control unit 2 and the first display panel unit 1 connected adjacent thereto. Then, the target value difference calculation unit 23 of the control unit 2 obtains the difference between the target value of the angle previously held in a memory or the like (not shown) and the angle calculated by the inter-unit angle calculation unit 22, and determines the difference. In response, an instruction to move the specific display panel unit 1, a moving amount thereof, or the like is notified by voice or video display.

  In this case, the target value (ideal angle value) of the angle between each unit is held in a memory or the like. When calculating the difference in angle between the units, the difference calculation unit 23 with the target value extracts the corresponding target value and performs the calculation. For the target value setting operation, an operation input means provided in the control unit 2 or an operation input means provided in the display panel unit 1 can be used. With such a configuration in which the target angle is set in advance, the angle target value setting means of the present invention is realized.

  In addition, when performing notification from audio or video display, the difference calculation unit 23 from the target value controls the audio control unit 24 when performing audio notification, and installs the unit as described above from the speaker 25 by audio. The instruction voice is output. Further, in the case of performing notification by video, the target value difference calculation unit 23 sends a message to that effect to the second display panel unit selection unit 26, and the display panel unit 1 that gives a movement instruction under the control of the video display control 27. In this case, an instruction is sent to the display driver 13 of the first display panel unit 1 connected to the control unit 2. In response to this instruction, the display driver 13 of the display panel unit 1 causes the display panel 14 to display an image for instructing unit installation as described above. With these configurations, the instruction means of the present invention is realized.

Both the installation instruction by voice and the installation instruction by video as described above may be performed simultaneously, or only one of them may be executed.
As described above, by enabling the user to confirm the installation instruction of the display panel unit 1 in both the auditory sense and / or the visual sense of the user, the user can easily obtain the instruction information while moving the display panel unit 1. The display panel unit 1 can be moved and arranged easily and smoothly.

  When the control unit 2 determines that the angle between the first display panel unit 1 and the control unit 2 matches the target value and that the display panel unit 1 is disposed at an appropriate position, the control unit 2 outputs the sound and video. This is notified, and the second display unit 1 is informed by voice or video display so that the second display unit 1 is moved and arranged.

  Next, the control unit 2 performs a process of setting the angles of the first and second display panel units 1 counted from the control unit 2 side as in the above process. Here, similarly to the above, based on the difference between the angle detection information of the first and second display panel units 1 and their target values, the second display unit 1 is moved and arranged by video and / or audio. To the user. When the second display unit 1 is properly installed, a notification to that effect is given.

  In this way, when the same processing is performed and the installation of the last display panel unit 1 is properly completed, it is notified that all the units have been moved and arranged, and the installation is completed.

  FIG. 8 is a diagram showing another example of the configuration of the main part of the display panel unit and the control unit in the display system according to the present invention, and shows an example of the configuration for performing a display image correction process. In this example, as in the example of FIG. 7, the display system 10 includes four display panel units 1 and a control unit 2. Each display panel unit 1 and the control unit 2 are connected by a hinge 3 as shown in FIG. 3, and the hinge 3 is provided with angle sensors 11 and 12. In this case, each display panel unit 1 is connected to the hinges 3 on both sides in the horizontal direction. The angle sensors 11 and 12 provided in each display panel unit 1 are two angle sensors provided in the hinge 3 on one side. Shall be pointed to. In addition, the application software 41 can be recorded in the storage storage inside the control unit 2 or can be used in the external storage, and can generate a display image to be displayed on the display panel unit 1. It has the function to do.

  First, the control unit 2 is installed and the installation conditions are set. The installation condition means an angle formed by the reference plane and a predetermined plane of the control unit 2. For example, the reference plane may be an imaginary plane that is the identity of the video viewer (user). The viewing position of the user can be determined by the user himself. That is, the reference plane can be defined as an imaginary plane perpendicular to the line of sight when the viewing position of the video viewer is determined and the video viewer views the display panel unit 1 of the display system 10. Further, the predetermined surface of the control unit 2 may be the front surface of the control unit, a predetermined side surface, or the like.

  Then, the first inter-unit angle calculation unit 43 of the control unit 2 acquires angle information from the angle sensors 11 and 12 of the first display panel unit 1 connected to the control unit 2 and counts from the control unit 2. The angle between the first display panel unit 1 and the control unit 2 is calculated.

  In addition, installation conditions are set in the control unit installation condition setting unit 42. The installation condition is angle information formed by the predetermined surface of the control unit 2 and the reference surface as described above. The angle difference calculation unit 44 with the first reference plane compares the angle information acquired from the control unit installation condition setting unit 42 with the angle calculated by the first inter-unit angle calculation unit 43, and displays the first display. The angle between the unit 1 and the reference plane is calculated.

The video display control unit 40 includes a first horizontal size correction / display area setting unit 45, and based on the angle information calculated by the angle difference calculation unit 44 with respect to the first reference plane, the horizontal direction of the display video Correct the size and set the display area.
When the display surface of the display panel unit 1 does not coincide with the reference surface, the image displayed on the display panel unit 1 appears to be reduced in the horizontal direction according to the angle. Here, according to the angle between the display panel unit 1 and the reference plane, the image displayed on the display panel unit 1 is corrected in the horizontal direction so as to be reduced.

  Further, when the above processing is performed, the display image is enlarged in the horizontal direction. However, since the horizontal size of the display panel unit 1 that displays the video does not change, it is necessary to change the display area of the video displayed on the display panel unit 1. Here, an area to be displayed is defined in accordance with the content of the size change in the horizontal direction, and the horizontal start position and end position of the video to be displayed are determined. Then, the resulting video data is output to the display driver 13 of the first display panel unit 1 and displayed on the display panel 14 as video.

  Next, the process as described above is executed for the next display panel unit 1 (second from the control unit 2 side). That is, the second inter-unit angle calculation unit 46 of the control unit 2 acquires angle information from the angle sensors 11 and 12 of the second display panel unit 1 to obtain the first display panel unit 1 and the second display panel. The angle with the unit 1 is calculated. Then, the angle formed between the first display panel unit 1 obtained by the angle difference calculation unit 44 with respect to the first reference plane and the reference plane and the angle information calculated by the second inter-unit angle calculation unit 46 are obtained. , Input to the angle difference calculator 47 with respect to the second reference plane. An angle difference calculation unit 47 with the second reference plane calculates an angle formed between the second display panel unit 1 and the reference plane.

Based on this information, the second horizontal size correction / display region setting unit 48 of the video display control unit 40 corrects the horizontal size of the video and sets the display region. The display area is set based on the display area information of the first display panel unit 1, that is, based on the display area information set by the first horizontal size correction / display area setting unit 45. The start position of the display area of the display panel unit 1 is determined. Then, the resulting video data is output to the display driver 13 of the second display panel unit 1 and displayed on the display panel 14 as video.
In this way, by performing the same processing and displaying the image of the last display panel unit 1 (the fourth display panel unit 1 in this example), it is possible to display images that are visually uncomfortable. Become.

FIG. 9 is a diagram for explaining an example when a TV screen is displayed on the display system according to the present invention. For example, FIG. 9A shows a display system in which a large display area, for example, a display area of a 108-inch television is realized by four display panel units 1.
In this case, the display area of the display screen composed of the four display panel units 1 has a display area equivalent to 108 inches, which is 2.4 m wide × 1.35 m long and the aspect ratio is 16: 9. Each display panel unit 1 is connected in a row in the horizontal direction, and the bending angle can be freely set using, for example, the hinge structure shown in FIG. As an example of the shape of a screen larger than 108 inches, there is, for example, a 135-inch display screen having a horizontal dimension of 3.5 m × vertical dimension of 1.25 m and an aspect ratio of 21: 9 (cinema size) as indicated by a dotted line.

  When this display system 10 is installed as shown in FIG. 9B, that is, the display panel units 1 at both ends of the four display panel units 1 are bent at an angle toward the front side to surround the viewer. Set to a shape like this. Thereby, the angle of the viewer's line of sight can be set to be equivalent to a display area corresponding to 135 inches. That is, the display system 10 having the display area of 108 inches can display the image of the display area of the large screen of 135 inches in a pseudo manner. For example, when viewing the display system 10 from a position 2 m away, a 135-inch pseudo display screen can be realized by bending the display panel units 1 at both ends by about 45 °.

In this case, since the image of the bent portion appears to be enlarged in the pseudo screen area, the reduction process may be performed in the horizontal direction according to the pseudo screen area.
As shown in FIG. 10, the display panel unit 1 at the part to be bent may perform so-called trapezoidal correction in which the vertical direction of the image is reduced toward the end. As a result, the state when the image is displayed in the pseudo screen area is more reproduced, and the display image on the large screen can be visually recognized without a sense of incongruity.

  By applying such usage to a television, for example, pseudo-viewing with a screen size larger than the display size becomes possible. For example, even a user who views in a small room apparently has a screen size larger than the size of the room. Can be viewed. Further, at this time, by performing the keystone correction according to the bending angle of the display panel unit, the user can view an image without a sense of incongruity. Then, the user can easily change between viewing by normal planar display and pseudo-viewing on a larger screen.

It is a figure which shows one Embodiment of the display system by this invention. It is a figure which shows the example of arrangement | positioning of the display system by this invention. It is a figure for demonstrating an example of the hinge structure for connecting a some display panel unit and a control unit in a row. It is a figure for demonstrating the state at the time of the bending of the display system by the connection structure of FIG. It is a figure for demonstrating the correction | amendment function of the image size by the angle detection of a display panel unit. It is another figure for demonstrating the correction | amendment function of the image size by the angle detection of a display panel unit. It is a figure which shows the structural example of the principal part of the display panel unit and control unit in the display system by this invention. In the display system according to the present invention is a diagram showing another example of the configuration of the main part of the display panel unit and the control unit, It is a figure for demonstrating the example when displaying a TV screen with the display system by this invention. It is a figure for demonstrating the trapezoid correction | amendment performed with the display system of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Display panel unit, 2 ... Control unit, 3 ... Hinge, 10 ... Display system, 11, 12 ... Angle sensor, 13 ... Display driver, 14 ... Display panel, 21 ... Display panel unit selection part, 22 ... Between units Angle calculation unit, 23 ... Difference calculation unit, 24 ... Audio control unit, 25 ... Speaker, 26 ... Display panel unit selection unit, 27 ... Video display control, 28 ... Application software, 31 ... Rotation unit, 32 ... Rotation 40: Image display control unit 41: Application software 42: Control unit installation condition setting unit 43: First inter-unit angle calculation unit 44: Angle difference calculation unit with first reference plane 45 ... first horizontal size correction / display area setting unit, 46 ... second inter-unit angle calculation unit, 47 ... angle difference calculation unit with second reference plane, 48 ... second horizontal direction Size correction and display region setting unit.

Claims (8)

  A display system characterized in that a plurality of display panel units each having a display panel capable of displaying an image are connected in a row, and an angle between the plurality of display panel units can be variably set.   2. The display system according to claim 1, wherein, among the plurality of display panel units, a connecting portion of two display panel units adjacent to each other is configured by a hinge, and the hinge includes two rotating portions. A display system characterized in that an angle formed by the two display panel units can be freely set by having a character-shaped structure.   3. The display system according to claim 1 or 2, wherein an angle sensor for detecting an angle formed by the two display panel units at a connecting portion of two display panel units adjacent to each other among the plurality of display panel units. And a display system that corrects a display image based on a detection result of the angle sensor.   4. The display system according to claim 3, wherein an inclination of each display panel unit relative to a predetermined reference plane is calculated based on a detection result of the angle sensor, and the plurality of display panels are calculated based on the inclination. A display system which performs correction for enlarging or reducing a display image of a unit in a connecting direction.   5. The display system according to claim 4, wherein an image displayed on the display panel unit is a trapezoidal image in addition to expansion or reduction in the connection direction based on an inclination of each display panel unit with respect to the reference plane. Display system characterized by correcting as follows.   6. The display system according to claim 3, wherein angle target value setting means for presetting a target value of an angle formed by two adjacent display panel units, and a detection result by the angle sensor are used. And a display unit for instructing movement of the display panel unit so as to coincide with the target angle set by the angle target value setting unit.   7. The display system according to claim 6, wherein the instructing unit instructs the specific display panel unit instructing the movement in a display image and / or the specific display panel. A display system for instructing a moving direction and a moving amount of a unit by sound output.   The display system according to claim 1, wherein the display system includes a control unit that is variably connected to the plurality of display panel units, and the plurality of display panels are controlled by the control unit. A display system for controlling video to be displayed on a unit.

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