JP2012226090A - Multi-display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multi-display device which is configured so as to make a frame inconspicuous by installing a frame covering member and so as to prevent a display region from being hidden behind the frame covering member when viewed by a viewer in a preliminarily determined viewing position.SOLUTION: The multi-display device includes long-sized frame covering members 30 installed on a pair of bezels 21 between a pair of adjacent display regions respectively. Each frame covering member 30 has an installation surface 41 extending in a lengthwise direction Y and disposed to face the pair of bezels 21 and two slopes 42 and 43 extending in the lengthwise direction Y and inclined to the installation surface 41 and reflects or diffuses emitted light from the display regions. Respective frame covering members 30 are different in height dimension h in accordance with positions in a vertical direction and/or a horizontal direction of the pair of bezels 21 as installation objects.

Description

  The present invention relates to a multi-display device, and more particularly to a multi-display device configured to make a frame that cannot display an image inconspicuous.

  In recent years, a multi-display device constructed by arranging a plurality of image display devices each having a display panel capable of displaying an image side by side without any gap has been used as an information display and a business display. .

  The multi-display device can easily construct a large screen, but a frame called a bezel is arranged at the joint between the image display devices, so that an image cannot be displayed (hereinafter referred to as an image display area). , Referred to as “non-display area”). As a result, a large screen displayed on the multi-display device looks like a grid-like line, and there is a problem that the quality of the displayed image is degraded.

  Conventional techniques for solving such problems have been proposed in Patent Documents 1 and 2, for example. In the prior art described in Patent Document 1, a plurality of projectors that project image light, a plurality of Fresnel lenses that convert image light projected from each projector into parallel light, and image light converted into parallel light And a screen portion formed of a plurality of light guides that guide image light forward, and the image light output end face is biased toward the center side with respect to the image light input end face in each light guide. As described above, there has been proposed a multi-display device in which a unified image display surface without a frame is formed on the front end surface of a screen portion by bending an optical fiber constituting each light guide.

  The prior art described in Patent Document 1 not only has a complicated configuration for realizing a multi-display device, but also has a bundle of optical fibers corresponding to the number of pixels to realize the multi-display device. There is a problem that it is necessary and the manufacturing cost becomes high.

  Moreover, in the prior art described in Patent Document 2, in a multi-display device configured by a flat display having a video display unit and a non-display unit provided on the outer periphery of the video display unit, the outer peripheral part of the video display unit The cylindrical lens is substantially equally divided into four in a direction perpendicular to the upper surface (or lower surface) so as to straddle both parts of the non-display part adjacent to the outer peripheral part and to be parallel to the outer periphery of the video display part. It has been proposed to arrange an optical element with a shaped shape.

  The prior art described in Patent Document 2 guides light emitted from the peripheral portion of the video display portion to the non-display portion side by refracting light by a cylindrical lens covering the peripheral portion, so that the non-display portion cannot be seen. I have to. However, in this prior art, since the peripheral part of the video display unit is covered with the cylindrical lens, there is a problem that the quality of the image at the peripheral part of the video display unit is deteriorated.

  In addition, for example, in an airport, when a multi-display device is installed around a predetermined passage intended to provide information such as an advertisement to a person walking along a predetermined passage such as a moving sidewalk There is. For such a multi-display device, a member that covers the frame (hereinafter referred to as a “frame covering member”) such as the above-described cylindrical lens to make the frame inconspicuous is unified in shape and size. If the person walking along the predetermined passage looks at the screen of the multi-display device, the peripheral portion of the display area is the frame when the person is walking along the predetermined passage. There is a possibility that the problem of being hidden behind the covering member may occur.

JP 2004-177632 A JP 2009-162999 A

  The object of the present invention is to make the frame inconspicuous by installing the frame covering member, and to cause a problem that the display area is hidden behind the frame covering member for the viewer at a predetermined viewing position. It is to provide a multi-display device configured so as not to be.

The present invention is constructed by arranging a plurality of image display devices each including a display panel capable of displaying an image and a frame surrounding an image display area on the display panel in the vertical direction and / or the horizontal direction. A multi-display device,
A long frame covering member installed on each frame between a pair of adjacent display areas, extending in the longitudinal direction and arranged facing the frame, extending in the longitudinal direction, with respect to the installation surface And a frame covering member that reflects or diffuses light emitted from the display area,
Each of the frame covering members is a multi-display device in which a height dimension from the frame is determined according to a position of the frame to be installed in the vertical direction and / or the horizontal direction.

  Further, the present invention is characterized in that the angle of the inclined surface with respect to the installation surface of each of the frame covering members is determined according to the position of the frame to be installed in the vertical direction and / or the horizontal direction.

  In the present invention, the frame covering member is a columnar member having a triangular cross section perpendicular to the longitudinal direction.

  In the present invention, the frame covering member is a columnar member having a trapezoidal cross-sectional shape perpendicular to the longitudinal direction.

In the present invention, the frame covering member is characterized in that the inclined surface is curved.
In the invention, it is preferable that the frame covering member is asymmetric with respect to a virtual plane that includes the center of the installation surface in the width direction perpendicular to the longitudinal direction and is perpendicular to the installation surface.

  In the present invention, the frame covering member is characterized in that the cross-sectional shape perpendicular to the longitudinal direction is a triangle having three different lengths.

  In the invention, it is preferable that the frame covering member includes a mechanism capable of adjusting a height dimension from the frame.

  In the invention, it is preferable that the frame covering member includes a mechanism capable of adjusting an angle of the inclined surface with respect to the installation surface.

  The present invention is further characterized by further comprising an insertion member that is fixed to the frame covering member and that can be inserted into a gap between adjacent image display devices.

  ADVANTAGE OF THE INVENTION According to this invention, when the viewer in the predetermined viewing position sees the screen of a multi-display apparatus, the malfunction that a display area is hidden behind a frame covering member can be prevented.

It is a front view which shows the structure of the multi-display apparatus 1 which concerns on one Embodiment of this invention. It is sectional drawing seen from the cut surface line II-II of FIG. It is sectional drawing which expands and shows the one frame covering member 30 vicinity in FIG. It is a perspective view which expands and shows one frame covering member 30 vicinity. The figure which looked at the state where an image was displayed on multi display device 1 was seen from the front, and Drawing 5 (a) shows multi display device 1 in the state where frame covering member 30 is not installed, and Drawing 5 (b) These show the multi-display device 1 with the frame covering member 30 installed. It is a side view which shows the installation state to the public place of the multi-display apparatus. It is sectional drawing which expands and shows the frame coating | coated member 130 which concerns on other embodiment. It is sectional drawing which expands and shows the frame covering member 230 which concerns on other embodiment. It is a side view which expands and shows the installation state of the frame covering member 330 which concerns on other embodiment. It is sectional drawing which expands and shows the frame covering member 30 vicinity in 1 A of multi-display apparatuses which concern on other embodiment. It is a side view which expands and shows the installation state of the frame covering member 430 which concerns on other embodiment. It is sectional drawing which expands and shows the frame covering member 530 vicinity in the multi-display apparatus 1B which concerns on other embodiment. It is sectional drawing which shows the frame covering member 630 which concerns on other embodiment.

  FIG. 1 is a front view showing a configuration of a multi-display device 1 according to an embodiment of the present invention. FIG. 2 is a cross-sectional view taken along the section line II-II in FIG.

  The multi-display device 1 includes a plurality of image display devices 10 each including a display panel 20 that can display an image according to image information and a bezel 21 that is a frame that covers a peripheral region of the display panel 20 in a vertical direction and a horizontal direction. Constructed side by side in the direction. The multi-display device 1 provides each image display device 10 with image information of divided images obtained by dividing one image in accordance with the arrangement of the display panel 20, thereby providing a large-size display panel 20. The one image can be displayed on the screen.

  As shown in FIG. 1, the multi-display device 1 according to the present embodiment is constructed by arranging 25 image display devices 10 in a 5 × 5 matrix. In another embodiment, for example, 16 image display devices 10 may be constructed by arranging them in a 4 × 4 matrix.

  As the image display device 10 constituting the multi-display device 1, a liquid crystal display device including a non-light emitting liquid crystal panel as the display panel 20 or a self light emitting plasma display panel (Plasma Display Panel) is used as the display panel 20. It is realized by a plasma display device provided.

  Hereinafter, in each image display device 10, as shown in FIG. 2, a region of the display surface 20 a that is the surface on one side in the thickness direction of the display panel 20 is exposed to the outside without being covered by the bezel 21. , Referred to as “display area”, and is denoted by reference numeral V1. That is, the divided image is displayed in the display area V1.

  Further, in the multi-display device 1, when the multi-display device 1 is viewed from the front side (left side in FIG. 2), an area sandwiched between the display regions V 1, the bezel 21 of each image display device 10 is disposed. A region where an image cannot be displayed is referred to as a “non-display region” and is indicated by a reference symbol V2.

  The multi-display device 1 according to the present embodiment makes the grid-like lines L (see FIG. 5A) formed on a large screen due to the presence of the non-display area V2 as inconspicuous as possible. Therefore, the frame covering member 30 is installed and configured so as to cover the pair of bezels 21 arranged in the non-display area V2 from the front side of the multi-display device 1.

  Hereinafter, the configuration of the frame covering member 30 according to the present embodiment will be described in detail. FIG. 3 is an enlarged cross-sectional view showing the vicinity of one frame covering member 30 in FIG. In FIG. 3, the remaining configuration excluding the frame covering member 30 is indicated by a virtual line.

  The frame covering member 30 is a columnar member that is formed in a long shape and has a triangular cross section when cut by a virtual plane perpendicular to the longitudinal direction Y thereof. The frame covering member 30 forms an installation surface 41 in which one of the three flat outer peripheral surfaces extending along the longitudinal direction Y faces the bezel 21, and the remaining outer peripheral surface is an inclined surface. 42, 43.

  Here, as shown in FIG. 3, in the frame covering member 30, the direction parallel to the installation surface 41 and perpendicular to the longitudinal direction Y is defined as the width direction X, and in either the longitudinal direction Y or the width direction X Also, the vertical direction is the height direction Z.

  In the frame covering member 30, the angle formed by the installation surface 41 and one inclined surface 42 is defined as a first inclination angle θ1, and the angle formed by the installation surface 41 and the other inclined surface 43 is defined as a second inclination angle θ2. An angle formed between the inclined surfaces 42 and 43 is an apex angle θ3 (where θ3 = 180 ° −θ1−θ2).

  In the frame covering member 30, the dimension in the height direction Z is defined as a height dimension h. Furthermore, the dimension in the thickness direction of each bezel 21 is defined as a thickness dimension t, and the dimension in the width direction of the pair of bezels 21 (that is, the distance between adjacent display areas V1) is defined as a width dimension w.

  The frame covering member 30 according to the present embodiment is configured by forming a light reflecting surface that reflects light with high reflectivity over the entire surfaces of the flat inclined surfaces 42 and 43. That is, the frame covering member 30 according to the present embodiment is configured to reflect the emitted light from the display region V1, as will be described later. Such a light reflecting surface is formed, for example, by vacuum-depositing a metal thin film such as aluminum.

  The frame covering member 30 is installed such that the longitudinal direction Y thereof coincides with the extending direction of the pair of bezels 21 disposed between the display areas V <b> 1, and the installation surface 41 faces the pair of bezels 21. That is, the frame covering member 30 is installed such that the inclined surfaces 42 and 43 face the display areas V1 adjacent to the pair of bezels 21, respectively.

  FIG. 4 is an enlarged perspective view showing the vicinity of one frame covering member 30. As shown in FIG. 4, when an image is displayed in each display region V1 by operating the multi-display device 1, an output emitted from one edge region V11 adjacent to the pair of bezels 21 according to the display image. A part of the emitted light A1 is incident on the inclined surface 42 facing the edge region V11. The outgoing light A1 incident on the inclined surface 42 is specularly reflected (regularly reflected) by the light reflecting surface formed on the inclined surface 42, so that the traveling direction is changed, and is reflected as light A2 to the front side of the multi-display device 1. Radiated. The same applies to the outgoing light A1 incident on the inclined surface 43 from the other edge region V11.

  FIG. 5 shows a front view of an image displayed on the multi-display device 1, and FIG. 5 (a) shows the multi-display device 1 in a state where the frame covering member 30 is not installed. 5 (b) shows the multi-display device 1 in a state where the frame covering member 30 is installed.

  In the conventional multi-display device in which the frame covering member 30 according to the present embodiment is not installed, as shown in FIG. 5A, the pair of bezels 21 arranged in the non-display area V2 are latticed on a large screen. As a result, the quality of the image displayed on the multi-display device 1 is deteriorated.

  On the other hand, since the frame covering member 30 is installed on the pair of bezels 21 arranged in the non-display area V2, the multi-display device 1 according to the present embodiment does not display light corresponding to the display image. The light can be emitted forward from the region V2.

  As a result, the light corresponding to the display image can be made to reach the viewer's eyes who view the display screen of the multi-display device 1 from the front, even from the non-display area V2, as shown in FIG. The bezel 21 can be made as inconspicuous as possible. Therefore, the sense of unity of the images displayed in each display region V1 is increased, and deterioration of the quality of the images displayed on the multi-display device 1 can be prevented.

  FIG. 6 is a side view showing an installation state of the multi-display device 1 in a public place. As shown in FIG. 6, the multi-display device 1 according to the present embodiment has a frame covering member 30 having a different height dimension h according to each position of the pair of bezels 21 in the vertical direction (vertical direction in FIG. 6). Are installed.

  Specifically, a frame covering member 30a having a height dimension h1 is installed on the uppermost pair of bezels 21a, and a frame covering member 30b having a height dimension h2 is installed on the pair of bezels 21b that are the second stage from the top. The frame covering member 30c having a height dimension h3 is installed on the pair of bezels 21c in the third stage from the top, and the frame covering member 30d having the height dimension h4 is installed in the pair of bezels 21d in the fourth stage from the top. Has been.

  In the present embodiment, the dimensions in the width direction X of the frame covering members 30a to 30d are all equal to the width dimension w of the pair of bezels 21a to 21d to be installed. Each of the frame covering members 30a to 30d is formed so that the first inclination angle θ1 and the second inclination angle θ2 are equal.

  The height dimensions h1 to h4 of the frame covering members 30a to 30d are determined based on the installation environment of the multi display device 1 and the size of each image display device 10, and the viewer can view the screen of the multi display device 1 from a predetermined viewing position P. Is determined so that the entire display area V1 is not hidden behind the frame covering member 30.

  Specifically, the height dimensions h1 to h4 of the frame covering members 30a to 30d are the height H1 of the viewer's line of sight 2, the installation height H2 from the floor surface F of the multi-display device 1, and the multi-display device 1. Is determined based on the vertical dimension H3 of the image display device 10 and the distance D from the installation position Q of the multi-display device 1 to the predetermined viewing position P. Note that the distance D from the installation position Q to the viewing position P is determined by the distance to the predetermined path when, for example, a person walking in a predetermined path is installed as a viewing target person.

  In one embodiment, the height H1 of the viewer's line of sight 2 is set to 1200 mm to 1500 mm on the assumption of children to adults, and the multi-display device 1 is configured by the image display device 10 having a vertical dimension H3 of 777 mm. And the installation height H2 is set at a position of 200 mm, the distance D from the installation position Q to the viewing position P is set to 2000 mm, the thickness dimension t of the bezels 21a to 21d is set to 2 mm, When the width dimension w of the bezels 21a to 21d is 30 mm, the height dimensions h1 to h4 of the frame covering members 30a to 30d are determined as h1 = 13 mm, h2 = 20 mm, h3 = 26 mm, and h4 = 28 mm, respectively. The

  In this embodiment, the reflected light A2 that is regularly reflected by the inclined surface 42 facing upward in the frame covering members 30a and 30b on the uppermost stage and the second stage from the top cannot be guided to the viewer at the viewing position P. . About such an inclined surface 42, it is preferable to form an irregular reflection surface.

  As described above, according to the present embodiment, in consideration of the installation environment of the multi-display device 1, each frame covering member 30a according to the vertical position of the pair of bezels 21 on which the frame covering members 30a to 30d are installed. Since the height dimensions h1 to h4 of ˜30d are respectively determined to be appropriate values, when the viewer at the predetermined viewing position views the screen of the multi-display device 1, the display area V1 becomes the frame covering member 30a. It is possible to prevent the problem of being hidden behind 30d.

  In addition, by determining the height dimensions h1 to h4 to appropriate values according to the vertical position, the height dimension of the frame covering member 30 is uniformly reduced regardless of the vertical position. The amount of outgoing light A1 incident on the inclined surfaces 42 and 43 of the frame covering member 30 can be increased. That is, the effect of making the bezel 21 inconspicuous by the frame covering member 30 can be improved.

  In another embodiment, not only the vertical direction of the multi-display device 1 but also the horizontal direction of the multi-display device 1 (the direction perpendicular to the paper surface in FIG. 6) is increased depending on the horizontal position of the pair of bezels 21. You may install the frame coating | coated member 30 which determined the dimension h to the appropriate value, respectively. Thereby, the malfunction that the display area V1 is hidden behind the frame covering member 30 can be reliably prevented.

  In other embodiments, the frame covering member 30 may be formed so that the first inclination angle θ1 and the second inclination angle θ2 are different. For example, in the above embodiment, the uppermost frame covering member 30a is formed such that the height dimension h1 = 25 mm, the first inclination angle θ1 = 41.91 °, and the second inclination angle θ2 = 87.36 °, Further, the second frame covering member 30b from the top may be formed so that the height dimension h2 = 30 mm, the first inclination angle θ1 = 53.13 °, and the second inclination angle θ2 = 75.96 °. Good. The inclined surface 42 is a surface facing upward, and the inclined surface 43 is a surface facing downward.

  By installing the frame covering members 30a and 30b having such a shape, the reflected light A2 can be guided to the viewer at the viewing position P by specular reflection. Therefore, it is necessary to form an irregular reflection surface on the inclined surface 42. Disappears. Further, it is possible to reliably prevent the display area V1 from being hidden behind the frame covering member 30 while ensuring the maximum amount of light received by the frame covering member 30 of the emitted light A1 from the display area V1.

  FIG. 7 is an enlarged cross-sectional view showing a frame covering member 130 according to another embodiment. The frame covering member 130 according to the present embodiment is similar to the frame covering member 30 according to the above embodiment, and the same components are denoted by the same reference numerals and description thereof is omitted.

  The frame covering member 130 according to the present embodiment is a columnar member having a trapezoidal cross section when cut along a virtual plane perpendicular to the longitudinal direction Y thereof. The frame covering member 130 forms an installation surface 41 in which one of the four flat outer peripheral surfaces extending along the longitudinal direction Y faces the bezel 21, and is adjacent to the installation surface 41. Two outer peripheral surfaces form inclined surfaces 42 and 43, adjacent to the inclined surfaces 42 and 43, and an outer peripheral surface parallel to the installation surface 41 forms an upper surface 44.

  The frame covering member 130 according to the present embodiment forms a light reflecting surface that regularly reflects light with high reflectance over the entire surfaces of the flat inclined surfaces 42 and 43, and covers the entire surface of the upper surface 44. The diffuse reflection surface is formed.

  In the present embodiment, since the frame covering member 130 is formed in the shape as described above, the height dimension h of the frame covering member 130 can be reduced, and the emitted light A1 from the display region V1 is inclined. The reflection angle when reflecting on the surfaces 42 and 43 can be easily optimized. Moreover, since the irregular reflection surface is formed on the upper surface 44, it is possible to prevent illumination around the multi-display device 1 and reflection of humans and the like.

  FIG. 8 is an enlarged cross-sectional view of a frame covering member 230 according to another embodiment. The frame covering member 230 according to this embodiment is similar to the frame covering member 30 according to the above embodiment, and the same components are denoted by the same reference numerals and description thereof is omitted.

  The frame covering member 230 according to the present embodiment is formed such that the inclined surfaces 42 and 43 form curved surfaces that are convex outward. Thus, by making the inclined surfaces 42 and 43 curved surfaces, the reflection angle when the emitted light A1 from the display region V1 is reflected by the inclined surfaces 42 and 43 can be easily optimized. In another embodiment, the inclined surfaces 42 and 43 may be formed to form a concave curved surface that is recessed toward the center.

  These frame covering members 30, 130, and 230 can be appropriately combined and installed in one multi-display device 1.

  FIG. 9 is an enlarged side view showing an installation state of the frame covering member 330 according to another embodiment. The frame covering member 330 according to this embodiment is similar to the frame covering member 30 according to the above embodiment, and the same components are denoted by the same reference numerals and description thereof is omitted.

  The frame covering member 330 according to the present embodiment is formed asymmetrically with respect to a virtual plane that includes the center of the installation surface 41 in the width direction X and is perpendicular to the installation surface 41. More specifically, the multi-display device 1 is formed in a shape that can be installed by simply inverting the top and bottom of the inclined surfaces 42 and 43 with respect to a pair of bezels 21f and 21g having different vertical positions.

  According to the present embodiment, a pair of bezels 21f and 21g having different vertical positions can be covered by using one shape of the frame covering member 330. Therefore, the type of the frame covering member to be manufactured Can be reduced.

  FIG. 10 is an enlarged sectional view showing the vicinity of the frame covering member 30 in the multi-display device 1A according to another embodiment. The multi-display device 1A according to the present embodiment is constructed by arranging a plurality of image display devices 10 so as to have a slight gap d between adjacent image display devices 10, and the frame covering member 30 according to the above embodiment. Is installed on the pair of bezels 21 and includes an insertion member 50 that can be inserted into the gap d.

  The insertion member 50 is a plate-like member that is generally formed in an L shape, and is connected to the frame covering member 30 and bends at right angles to the connection portion 51 and is adjacent to the image display device. And an insertion portion 52 that is inserted into the gap d between 10.

  The connecting portion 51 is fastened and fixed to the frame covering member 30 by a fastener 61 such as a screw via the installation surface 41. When the insertion portion 52 is inserted into the gap d between the adjacent image display devices 10, the leaf spring structure 52a is held so as to be stretched between the side surfaces 211 of the pair of adjacent bezels 21. I have. Further, in order to prevent inadvertent separation from the gap d between the adjacent image display devices 10, a retaining structure 52b is provided.

  According to this embodiment, since such an insertion member 50 is provided, the frame covering member 30 can be easily installed on the pair of bezels 21. In addition, the insertion member 50 can be used not only when the frame covering member 30 is installed, but also when installing the frame covering members 130, 230, and 330 according to the embodiment.

  When the frame covering members 30, 130, 230, and 330 according to the above embodiment are installed on the pair of bezels 21, in addition to using the insertion member 50 as in the present embodiment, the frame covering members 30, 130, 230, and 330 are bonded and fixed with an adhesive sheet or the like. May be performed.

  FIG. 11 is an enlarged side view showing an installation state of the frame covering member 430 according to another embodiment. The frame covering member 430 according to the present embodiment is similar to the frame covering member 30 according to the above embodiment, and the same components are denoted by the same reference numerals and description thereof is omitted.

  The frame covering member 430 according to the present embodiment is formed so that the cross-sectional shape perpendicular to the longitudinal direction Y is a triangle having three different lengths. More specifically, it has three flat outer peripheral surfaces 441, 442, and 443 extending along the longitudinal direction Y, and is different from each other for the pair of bezels 21i, 21j, and 21k having different vertical positions in the multi-display device 1. It is formed in a shape that can be installed simply by placing the outer peripheral surface facing the bezel 21. The frame covering member 430 is configured by forming a light reflecting surface that reflects light with high reflectivity over the entire surfaces of the flat outer peripheral surfaces 441, 442, and 443.

  According to the present embodiment, a pair of bezels 21i, 21j, and 21k having different vertical positions can be covered by using one shape of the frame covering member 430, and thus the frame covering member to be manufactured. The number of types can be further reduced. When installing such a frame covering member 430 on the bezel 21, the frame covering member 430 may be adhered and fixed by an adhesive sheet, or may be installed using magnetic force.

  FIG. 12 is an enlarged cross-sectional view showing the vicinity of the frame covering member 530 in the multi-display device 1B according to another embodiment, and the remaining configuration excluding the frame covering member 530 is indicated by virtual lines. The frame covering member 530 according to the present embodiment is similar to the frame covering member 30 according to the above embodiment, and the same components are denoted by the same reference numerals and description thereof is omitted. Hereinafter, the configuration of the frame covering member 530 will be described in detail.

  The frame covering member 530 is a long member formed in a long shape, and the pair of bezels so that the longitudinal direction Y thereof coincides with the extending direction of the pair of bezels 21 disposed between the display regions V1. 21 is installed. The frame covering member 530 includes a colorless rod-like member 70 having translucency and a light diffusion portion 71 formed on the rod-like member 70.

  The rod-shaped member 70 is made of, for example, a material such as polycarbonate resin, acrylic resin, ABS (Acrylonitrile-Butadiene-Styrene) resin, glass, and the like, and has a triangular prism shape, specifically when cut in a virtual plane perpendicular to the longitudinal direction Y. The cross-sectional shape is formed to be a triangle.

  The rod-shaped member 70 forms an installation surface 541 in which one of the three flat outer peripheral surfaces extending along the longitudinal direction Y faces the bezel 21, and the remaining outer peripheral surface is an inclined surface 542. 543.

  The frame covering member 530 is installed such that the installation surface 541 of the rod-shaped member 70 faces the pair of bezels 21, whereby the inclined surfaces 542 and 543 are adjacent to the pair of bezels 21 in the installed state. It arrange | positions so that the display area V1 may be faced.

  In this embodiment, the light diffusion portion 71 is formed over the entire surface of each inclined surface 542, 543 in the rod-shaped member 70. The light diffusing unit 71 has a function of causing a part of light incident on the light diffusing unit 71 to be diffused and reflected, and a part of light entering the light diffusing unit 71 to be diffused and transmitted.

  For example, the light diffusing portion 71 is formed by dispersing colorless and transparent spherical polymer particles (diffusion beads) made of acrylic resin or the like in a colorless and transparent binder resin, and the inclined surfaces 542 and 543 in the rod-shaped member 70. It can form by apply | coating to a layer form. As another method, the inclined surfaces 542 and 543 of the rod-shaped member 70 may be formed by blasting. As still another method, the rod-shaped member 70 may be formed by forming fine irregularities on the surfaces corresponding to the inclined surfaces 542 and 543 at the time of molding.

  The frame covering member 530 according to the present embodiment further reflects light over the entire surface of the installation surface 541 so that light incident on the installation surface 541 through the inside of the rod-shaped member 70 is reflected with high reflectance. A surface is formed. Such a light reflecting surface can be easily formed by sticking a synthetic resin sheet such as PET exhibiting white having excellent light reflectivity to the installation surface 541.

  As another method, a reflective sheet on which a metal film made of aluminum, silver or the like is formed may be attached to the installation surface 541, or a metal thin film such as aluminum is vacuum-deposited. May be formed. As yet another method, the installation surface 541 may be formed by painting a paint exhibiting white with excellent light reflectivity.

  The frame covering member 530 is installed by bonding and fixing the installation surface 541 to the surface of the bezel 21 using, for example, an adhesive sheet. Moreover, you may install using the insertion member 50 as shown in FIG. 10 as another method.

  When an image is displayed in each display region V <b> 1 by operating the multi-display device 1 with the frame covering member 530 according to the present embodiment installed on the pair of bezels 21, each adjacent to the pair of bezels 21. Of the emitted light emitted from the edge region V11 according to the display image, a part of the emitted light A1 is incident on the inclined surfaces 542 and 543 facing the edge region V11.

  Of the outgoing light A1 incident on one inclined surface 542, some of the light is diffused and reflected by the light diffusion portion 71 formed on the one inclined surface 542, and some of the light is diffused. Is transmitted. The light transmitted through the light diffusing portion 71 is incident on the inside of the rod-shaped member 70, and most of the light is guided to the other inclined surface 543 directly or through reflection on the installation surface 541, and is incident on the other inclined surface 543. A part of the light is diffused and reflected by the formed light diffusion part 71, and a part of the light is diffused and transmitted. The emitted light A1 incident on the other inclined surface 543 behaves similarly.

  Thereby, from the inclined surface 543, out of the emitted light A1 emitted from one edge region V11, the diffuse reflected light diffusely reflected by the light diffusion portion 71 formed on the inclined surface 543 and the other edge region V11. Out of the emitted light A1 emitted from the light, the light that is incident on the inside of the rod-shaped member 70 and mixed with the diffuse transmitted light diffused and transmitted through the light diffusion portion 71 is emitted to the front side of the multi-display device 1.

  When the frame covering member 530 according to the present embodiment is installed, light corresponding to the image displayed in the edge region V11 is radiated from the inclined surfaces 542 and 543 of the frame covering member 530 toward the front side. Thereby, the bezel 21 can be made inconspicuous. Therefore, the sense of unity of the images displayed in each display region V1 is increased, and deterioration of the quality of the images displayed on the multi-display device 1 can be prevented.

  Further, from each of the inclined surfaces 542 and 543, the diffuse reflected light derived from the emitted light A1 emitted from one edge region V11 and the diffuse transmitted light derived from the emitted light A1 emitted from the other edge region V11 are mixed. This is a case where an image with completely different display contents, that is, an image with a greatly different display color is displayed in one edge region V11 and the other edge region V11. However, the bezel 21 can be made inconspicuous without causing a sense of incongruity.

  Further, since the installation surface 541 is formed with a light reflection surface, it is possible to prevent light incident on the inside of the rod-shaped member 70 from passing through the installation surface 541 and being absorbed by the bezel 21. . Thereby, it can prevent that the light quantity of the light radiated | emitted from each inclined surface 542,543 is reduced.

  Similar to the multi-display device 1 according to the above-described embodiment, the multi-display device 1B according to the present embodiment differs in height dimension h depending on the position of the pair of bezels 21 in the vertical direction and / or the horizontal direction. A frame covering member 530 is installed. Therefore, it is possible to prevent the display area V1 from being hidden behind the frame covering member 530 when a viewer at a predetermined viewing position views the screen of the multi-display device 1.

  FIG. 13 is a cross-sectional view showing a frame covering member 630 according to another embodiment, and FIGS. 13A to 13D show the frame covering member 630 when changed to different forms. Yes.

  The frame covering member 630 according to the present embodiment is configured by connecting a plurality of movable pieces 631 by a hinge so as to be rotatable. As a result, as shown in FIGS. It can be easily changed to the form of the period. In addition, it is preferable to connect so that a certain amount of load may be required in order to make it rotate in the connection location of each movable piece 631, so that the form after a deformation | transformation can be maintained on the bezel 21. The width dimension v of the movable piece 631 is, for example, 6 mm.

  In the present embodiment, the frame covering member 630 is installed on the bezel 21 with a cross-section deformed into a triangular tube shape, and three outer peripheral surfaces extending along the longitudinal direction Y in the installed state on the bezel 21. Of these, the outer peripheral surface arranged facing the bezel 21 is an installation surface 641, and the remaining outer peripheral surfaces that are inclined with respect to the installation surface are inclined surfaces 642 and 643. Further, the frame covering member 630 is configured such that a light reflecting surface that reflects light with high reflectivity is formed on these outer peripheral surfaces.

  In FIG. 13A, the frame covering member 630 when the height dimension from the pair of bezels 21 is u0 and the inclination angles of the inclined surfaces 642 and 643 with respect to the installation surface 641 are both θ4 is shown. 13B, the frame covering member when the height dimension from the pair of bezels 21 is u1, and the inclination angles of the inclined surfaces 642 and 643 with respect to the installation surface 641 are both θ5. 630 is shown.

  Further, in FIG. 13C, the frame covering member when the height from the pair of bezels 21 is u2, and the inclination angles of the inclined surfaces 642 and 643 with respect to the installation surface 641 are both θ6. 630, and FIG. 13D shows a case where the height dimension from the pair of bezels 21 is u3, and the inclination angles of the inclined surfaces 642 and 643 with respect to the installation surface 641 are θ7 and θ8, respectively. A frame covering member 630 is shown.

  In the frame covering member 630 shown in FIG. 13D, a spacer is provided between one end of the frame covering member 630 and the bezel 21 so that the inclined angles of the inclined surfaces 642 and 643 with respect to the installation surface 641 are different from each other. 80 is interposed.

  As described above, the frame covering member 630 according to this embodiment includes a mechanism that can easily adjust the height from the pair of bezels 21 and the inclination angle of the inclined surfaces 642 and 643 with respect to the installation surface 641. Yes.

  According to the present embodiment, considering the installation environment of the multi-display device 1, the height dimension and the inclination angle of the frame covering member 630 can be easily set to appropriate values according to the vertical positions of the pair of bezels 21. When the viewer at the predetermined viewing position views the screen of the multi-display device 1 while ensuring the maximum amount of light received by the frame covering member 630 of the emitted light A1 from the display region V1. In addition, the problem that the display area V1 is hidden behind the frame covering member 630 can be prevented.

DESCRIPTION OF SYMBOLS 1 Multi display apparatus 10 Image display apparatus 20 Display panel 20a Display surface 21 Bezel 30 Frame covering member 41 Installation surface 42,43 Inclined surface V1 Display area V11 Edge area V2 Non-display area

Claims (10)

A multi-display device constructed by arranging a plurality of image display devices each including a display panel capable of displaying an image and a frame surrounding an image display area on the display panel in the vertical direction and / or the horizontal direction. There,
A long frame covering member installed on each frame between a pair of adjacent display areas, extending in the longitudinal direction and arranged facing the frame, extending in the longitudinal direction, with respect to the installation surface And a frame covering member that reflects or diffuses light emitted from the display area,
Each of the frame covering members has a height dimension from the frame determined in accordance with the position of the frame to be installed in the vertical direction and / or the horizontal direction.   2. The multi-display according to claim 1, wherein each of the frame covering members has an angle of an inclined surface with respect to an installation surface determined in accordance with a position in a vertical direction and / or a horizontal direction of a frame to be installed. apparatus.   The multi-display device according to claim 1, wherein the frame covering member is a columnar member having a triangular cross section perpendicular to the longitudinal direction.   The multi-display device according to claim 1, wherein the frame covering member is a columnar member having a trapezoidal cross-sectional shape perpendicular to the longitudinal direction.   The multi-display device according to claim 1, wherein the frame covering member has a curved surface.   6. The frame covering member according to claim 1, wherein the frame covering member is formed asymmetrically with respect to a virtual plane that includes a center in the width direction perpendicular to the longitudinal direction on the installation surface and is perpendicular to the installation surface. The multi-display device according to any one of the above.   4. The multi-display apparatus according to claim 3, wherein the frame covering member is a triangle whose cross-sectional shape perpendicular to the longitudinal direction is different in length on three sides.   The multi-display device according to claim 1, wherein the frame covering member includes a mechanism capable of adjusting a height dimension from the frame.   The multi-display apparatus according to claim 2, wherein the frame covering member includes a mechanism capable of adjusting an angle of the inclined surface with respect to the installation surface.   The multi-display device according to claim 1, further comprising an insertion member fixed to the frame covering member and insertable into a gap between adjacent image display devices.

Images