JP2004251981A - Composite display - Google Patents

Abstract

An object of the present invention is to provide, in a composite display device in which a plurality of display panels are joined, arranging display portions of the panels adjacent to each other without gaps, so as to prevent image division at the panel joining portions.
A transparent base member (20A) arranged outside a display part (20B) of a display panel (20) is overlapped on a display part (10B) of a display panel (10). Similarly, the transparent base 30A disposed outside the display 30B of the display panel 30 is overlaid on the display 20B of the display panel 20. As described above, the display units 10B to 30B of the respective display panels 10 to 30 are overlapped with the transparent base unit arranged outside the display unit of one of the display panels adjacent to each other on the display unit of the other display panel. They can be arranged adjacent to each other without any gap in plan view.
[Selection diagram] Fig. 1

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a composite display device for obtaining a large-screen display by combining a plurality of displays.
[0002]
[Prior art]
In the field of display devices, there is a strong need for larger size and higher definition, and as a means for realizing such a large screen display, there has been proposed a method of increasing the screen size by combining a number of small display panels (Patent Document 1). 1).
[0003]
FIG. 11 shows a conventional composite display device in which four display panels are combined.
Each of the display panels 101 to 104 in FIG. 11 includes rectangular display units 101B to 104B each including a plurality of pixels P at a central portion, and drives each pixel P in a matrix on at least one edge of the display unit. Drive units 101C to 104C and 101D to 104D are provided. Then, the end faces of the respective display panels at the end sides where the driving units 101C to 104C and 101D to 104D are not provided are abutted and joined to form a large display surface 100 in which the four display units 101B to 104B are combined. Have been.
[0004]
In such a composite type display device, usually, in the panel end regions 101E to 104E arranged outside the display portions 101B to 104B of the respective display panels 101 to 104 so that the joint portion 200 is inconspicuous, An extra substrate portion (base material portion) on the joint portion 200 side is diced so that the distance between adjacent display portions is as short as possible. Further, as disclosed in Patent Document 1, the corners of the dicing-processed end surfaces are further processed obliquely, and an adhesive is filled in a groove formed by abutting the end surfaces. Thus, a method of making the thickness of the adhesive less noticeable has also been proposed.
[0005]
[Patent Document 1]
JP-A-2002-297065
[0006]
[Problems to be solved by the invention]
However, when the display members are joined to each other by abutting as described above, the thickness of the joining portion 200 needs to be controlled to a size of about the pixel pitch of the display members. It was impossible, and it was difficult to completely eliminate the division of the image at the joint 200.
SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and has as its object to provide a composite display device that does not cause image division at a joint.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, in the composite display device of the present invention, a plurality of display panels using a transparent base material are bonded to each other, and output images of the respective display panels are combined to form one image display. A transparent substrate portion disposed outside a display portion of one adjacent display panel is superimposed on a display portion of the other display panel, and a display portion of each of the display panels is provided. Are arranged adjacent to each other without any gap in plan view.
[0008]
In this configuration, by disposing an extra substrate portion arranged outside the display portion on one of the adjacent display panels so as to overlap the display portion of the other display panel, each display portion can be viewed in a plan view. They are arranged continuously without gaps. For this reason, compared with the conventional display panel in which the display panels are joined by butt, a processing for cutting an extra base material is unnecessary, and the thickness of the adhesive at the joint becomes a problem. Nor. In addition, the interval between the adjacent display units can be controlled with high precision by positioning when the display panels are overlapped and joined, so that the division of the image at the joined portion can be completely eliminated. Adjacent display panels are joined by an adhesive or the like, and the adhesive is made of a material having a similar refractive index to the base material constituting the display panel so that display light is not scattered at such a joint. It is desirable that
[0009]
In this case, it is preferable that the composite display device includes three or more continuous display panels joined so that the overlapping direction of the transparent base portions is alternated with respect to the arrangement direction of the display panels. Here, that the first panel, the second panel, and the third panel, which are sequentially arranged in sequence, are alternately stacked, means the following state. That is, the second panel is disposed below the first panel and is joined to the first panel at one end of the second panel, while the third panel is disposed above the second panel. And a state where the other end of the second panel is joined to the second panel. Alternatively, the second panel is disposed above the first panel and is joined to the first panel at one end of the second panel, while the third panel is below the second panel. And a state where the other end of the second panel is joined to the second panel.
Note that the second panel is disposed below the first panel, and is joined to the first panel at one end of the second panel, while the third panel is connected to the second panel. In the present specification, a state in which each panel is arranged below and is joined to the second panel at the other end of the second panel is referred to as a state in which each panel is arranged in a stepped manner, and is distinguished from the state in which the panels are alternately arranged. I do.
[0010]
In this way, by joining three or more display panels that are continuously arranged alternately, the thickness of the display device in this portion can be reduced to the thickness of two display panels, and the composite display device is reduced in thickness. can do. In this case, from the viewpoint of making the composite display device the thinnest, it is desirable to stagger all display panels constituting the display device, but even if only some display panels are staggered, The above effects are obtained.
[0011]
When each of the display panels is a reflective or self-luminous display panel with a built-in peripheral circuit, the display unit of one adjacent display panel is overlapped with the drive unit of the other display panel, and the one display It is preferable that a transparent substrate disposed outside the display section of the panel is overlapped with the display section of the other display panel. By arranging the driving section on the back side of the display section of another panel in this way, the entire composite display device can be made compact. In this configuration, when each display panel is configured as a self-luminous display panel using an EL element (electroluminescence element) or the like, a bottom emission type in which display light is emitted from the active matrix substrate side. It is preferable to use a display panel. In this case, since a terminal portion for inputting image data and the like to the driving unit is arranged on the back surface side of each display panel, mounting after panel bonding is possible.
[0012]
Further, the composite display device of the present invention is a composite display device in which a plurality of display panels using a transparent base material are joined to each other, and output images of the respective display panels are combined to form one image display. It is provided with a plurality of panel units consisting of a plurality of display panels joined to each other, and in each of the panel units, the transparent base material disposed outside the display unit of one adjacent display panel is the other. The display unit of the display panel is superimposed on the display unit of the display panel, and the display units of the respective display panels are arranged adjacent to each other in one direction without any gap in plan view to form one display surface. The disposed transparent base portion is overlapped on the display surface of the other panel unit, and the display surface of each of the panel units has a gap in plan view in a direction different from the direction in which the display panels in the panel unit are arranged. Ku, characterized in that disposed adjacent.
[0013]
In this configuration, when looking at the arrangement relationship of the display panels in each panel unit, the extra base material arranged outside the display unit in one adjacent display panel overlaps the display unit of the other display panel. When arranged and viewed in plan, the display units are continuously arranged in one direction without gaps. For this reason, the interval between the adjacent display units can be controlled with high accuracy by the alignment when the display panels are overlapped and joined, and the division of the image at the joined portion can be completely eliminated for each panel unit.
[0014]
On the other hand, when looking at the arrangement relationship between the panel units, the extra base material arranged outside the display surface in one adjacent panel unit is arranged so as to overlap the display surface of the other panel unit, and viewed in plan. Sometimes, each display surface is continuously arranged without a gap in a direction different from the one direction (the direction in which the display panels are arranged in the panel unit). For this reason, the interval between the adjacent display surfaces can be controlled with high accuracy by positioning when the panel units are overlapped and joined, and the division of the image at the joint portion between the panel units can be completely eliminated.
[0015]
As described above, in this configuration, the display portions of the respective display panels constituting the composite display device are arranged adjacent to each other with no space with a two-dimensional spread, so that a larger display device can be realized. .
In the display portion of each of the display panels, a region that overlaps the base portion of another adjacent display panel in a plane has slightly lower display luminance than the other regions. It is desirable that compensation driving for compensating for is performed.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
[First Embodiment]
Hereinafter, a projection display device according to a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a schematic diagram showing the overall configuration of the composite display device of the present embodiment, and FIG. 2 is a schematic cross-sectional view showing an enlarged main part thereof. In all of the following drawings, the thickness of each component, the ratio of dimensions, and the like are appropriately changed in order to make the drawings easy to see.
[0017]
As shown in FIG. 1, the composite display device of the present embodiment is configured by joining a plurality of (for example, three in the present embodiment) display panels 10, 20, and 30 to each other. Each of the display panels 10 to 30 is configured as a self-luminous or reflective display panel such as an organic EL panel or a reflective liquid crystal panel. In the present embodiment, for example, a bottom emission type organic EL panel is exemplified. I will explain it.
[0018]
An active matrix substrate having a built-in peripheral drive circuit (drive unit) is used for each display panel. The display panels 10, 20, and 30 each have a substantially rectangular display unit 10B, 20B, which includes a plurality of pixels P at the center. 30B, and driving units 10C, 20C, and 30C for driving the pixels P in a matrix at one end of the display unit. Terminal portions 10D, 20D, and 30D for inputting image data from external devices are provided at ends of the driving units 10C, 20C, and 30C, respectively. Note that in FIG. 1, all one end sides of the display units 10B to 30B are shown as the drive units 10C to 30C. However, actually, the drive units are narrower than the region (that is, shorter than the length of the display unit end sides). Of course, it is also possible to form a drive section in the region. In this case, a part of the area on the edge of the display area where the driving unit is not formed becomes the base part.
[0019]
A light-transmissive base material such as glass is used for a substrate constituting the display panel (an active matrix substrate or an opposing substrate disposed opposite to the active matrix substrate). In the present specification, a region other than the display unit and the driving unit is referred to as a base unit, and the display panels 10, 20, and 30 have base units 10 A, 20 A, and 30 A on the edges where the driving units 10 C to 30 C are not formed. Are located. This substrate portion is provided as a margin when manufacturing a display panel, and is a light-transmitting region formed only of a substrate on which circuit elements, wirings, and the like are not formed. Although FIG. 1 shows an example in which the base member 10A is arranged only on the end facing the driving units 10C to 30C, the base may be provided on the remaining two ends.
[0020]
As shown in FIGS. 1 and 2, the display panels 10 to 30 are stacked stepwise so that the substrate ends provided with the driving units 10C to 30C overlap each other. The transparent base portion 20A of the display panel 20 is overlaid on the display portion 10B of the display panel 10. Then, the display panels 10 and 20 are accurately aligned so that the display units 10B and 20B are adjacent to each other without a gap, and a region where the driving unit 10C and the display unit 20B overlap each other, and the display unit 10B and the base unit 20A. Are joined in the overlapped region. Note that the adhesive is desirably a material having a refractive index similar to that of the active matrix substrate 110 or the sealing substrate 120 so that the display light L is not scattered at the bonding portion. Similarly, the display unit 30B of the display panel 30 is accurately aligned and superimposed on the drive unit 20C of the display panel 20, and the display units 10B, 20B, and 30B are adjacent to each other without any gap when viewed in plan. And constitute one continuous display surface.
[0021]
The divided image data is input to the display panels 10 to 30 via the terminals 10D, 20D, and 30D arranged on the back side of the display surface, and output to the display units 10B to 30B. The combined images are combined to form one image display. Note that in each display portion, the display luminance is slightly lower in a region overlapping with the base material portion of another display panel than in the other regions. Therefore, it is desirable to make the luminance uniform by correction driving.
[0022]
As described above, in the composite display device of the present embodiment, of the display panels arranged adjacent to each other, the extra base portion 10A arranged outside the display portion of one display panel is attached to the other display panel. Since the display panel is disposed so as to overlap with the display section, a processing for cutting the base member 10A is not required as compared with the related art in which the display panels are joined by abutting, and the thickness of the adhesive at the joint section is reduced. Is not a problem.
[0023]
In addition, since the distance between adjacent display portions can be controlled with high accuracy by positioning when the display panels are overlapped and bonded, the distance between the adjacent display portions is determined by the processing accuracy of the substrate edge, compared with the conventional method in which the distance is determined. It is possible to reduce the visibility of the part.
Furthermore, in the present embodiment, each of the display panels 10 to 30 is a self-luminous display panel, and the driving unit built in the active matrix substrate is disposed on the back side of the display unit of another display panel. The device can be downsized.
In this embodiment, since each display panel has a bottom emission type structure, the terminal portions 10D to 30D are arranged on the back surface side of the joint. Therefore, mounting after panel bonding is possible.
[0024]
[Second embodiment]
Next, a composite display device according to a second embodiment of the present invention will be described with reference to FIG.
In the present embodiment, a display device is configured by joining a plurality (for example, three) of display panels each having a driving unit at two end sides of the display unit. That is, each of the self-luminous display panels 11, 21, 31 constituting the display device is provided with driving units 11C, 21C, 31C at two adjacent sides of the central display units 11B, 21B, 31B. Transparent base portions 11A, 21A, 31A are provided on the other two sides.
[0025]
Each of the display panels 11 to 31 has a panel end adjacent to the connected driving unit such that a transparent base member is disposed at the bonding portion and the driving units provided at one end side are connected to each other. They are stacked in a staircase. That is, the display units 21B and 31B of the display panels 21 and 31 are disposed on the drive units of the display panels 11 and 21 provided on the other end sides that are not connected, respectively. The transparent base portions 21A and 31A are disposed on the display portions 11B and 21B of the display panels 11 and 21, respectively. As a result, when viewed in a plan view, the display units 11B to 31B are continuously arranged without gaps, and one continuous display surface is configured.
Therefore, also in the present embodiment, it is possible to easily obtain a composite display device in which the joints are less noticeable than the conventional display device.
[0026]
[Third embodiment]
Next, a composite display device according to a third embodiment of the present invention will be described with reference to FIG.
In the present embodiment, a display device is configured by joining a plurality (for example, three) of display panels having driving units at three end sides of the display unit. That is, in each of the self-luminous display panels 12, 22, 32 constituting the display device, driving units 12C, 22C, 32C are provided on three adjacent sides of the central display units 12B, 22B, 32B. The transparent base portions 12A, 22A, and 32A are provided on one end side other than the other.
[0027]
Each of the display panels 12 to 32 is adjacent to the connected driving unit such that the transparent base member is disposed at the joint and the driving units provided at two opposing end sides of each display panel are connected to each other. Panel ends are stacked in a stepped manner. In this configuration, the display units 22B and 32B of the display panels 22 and 32 are arranged on the drive units facing the base materials 12A and 22A in the display panels 12 and 22, respectively. The transparent base portions 22A and 32A of the panels 22 and 32 are arranged on the display portions 12B and 22B of the display panels 12 and 22, respectively. As a result, when viewed in a plan view, the display units 12B to 32B are arranged adjacent to each other without a gap, and one continuous display surface is configured.
Therefore, also in the present embodiment, it is possible to easily obtain a composite display device in which the joints are less noticeable than the conventional display device.
[0028]
[Fourth embodiment]
Next, a composite display device according to a fourth embodiment of the present invention will be described with reference to FIGS.
In the present embodiment, a display device is configured by joining a plurality (for example, four) of display panels each having a drive unit at one end of the display unit. That is, as shown in FIG. 5, each of the self-luminous display panels 13, 23, 33, and 43 constituting the display device has a driving unit 13C at one end of the central display unit 13B, 23B, 33B, 43B. , 23C, 33C, and 43C are provided, and transparent base materials 13A, 23A, 33A, and 43A are provided on the other three end sides. Since the display panels 14 to 43 have exactly the same configuration, FIG. 5 shows only the configuration of the display panel 13 as a representative.
[0029]
In the present embodiment, one panel unit is configured by a plurality of display panels in which panel ends are stacked in a stepped manner so that the driving units are connected to each other, and such a unit is arranged in the direction in which the display panels in the unit are arranged. A plurality of display panels are two-dimensionally arranged by being stacked in a stepwise manner in a direction different from the above.
[0030]
Specifically, as shown in FIG. 6, the display panels 13 and 23 are formed by stacking the end portions of the panels adjacent to the drive sections in a stepwise manner so that the drive sections 13C and 23C are connected to each other. Make up the unit. At this time, the display portion 23B of the display panel 23 is disposed on the base portion adjacent to the driving portion 13C of the display panel 13 so as to overlap with the base portion of the display panel 23 on the display portion 13B of the display panel 13. The part 23A is arranged. As a result, a display surface in which the display portions 13B and 23B are arranged adjacent to each other without any gap in a plan view is formed in the center of the unit, and the drive portions 13C and 23C are disposed on one end side of the display surface. . Further, transparent base portions 13A and 23A are arranged on the opposite end sides of the driving portions 13C and 23C. Similarly, in the display panels 33 and 43, panel ends adjacent to the driving unit are stacked in a stepwise manner so that the driving units 33C and 43C are connected to each other, and the display units 33B and 43B are arranged adjacent to each other without a gap. To form a second panel unit.
[0031]
Then, the display surfaces 33B and 43B of the second panel unit are stacked on the driving units 13C and 23C of the first panel unit, and the base unit facing the driving units 33C and 43C of the second panel unit is formed. It is stacked on the display units 13B and 23B of the first panel unit. At this time, the position of the second panel unit is moved along the direction in which the display panels 13 and 23 are arranged in the first panel unit so that the display panel 23 and the panel end of the display panel 33 do not interfere with each other. The display panels 13 and 23 are shifted by the overlap width (that is, the total width of the base members of the display panels 13 and 23 arranged in the joint area). As a result, when viewed in a plan view, the display units 13B to 43B are arranged adjacent to each other with a two-dimensional spread without any gap, and one display surface 3 is configured.
[0032]
Therefore, in the present embodiment, a display device with inconspicuous joints can be configured similarly to the first embodiment, and furthermore, a plurality of display panels can be arranged two-dimensionally to further increase the size. it can.
[0033]
[Fifth Embodiment]
Next, a composite display device according to a fifth embodiment of the present invention will be described with reference to FIGS.
In the composite display device of the present embodiment, a display device is configured by joining a plurality (for example, four) of display panels each having a drive unit at two end sides of the display unit. That is, as shown in FIG. 7, the self-luminous display panels 14, 24, 34, and 44 constituting the display device are provided at two adjacent sides of the display units 14B, 24B, 34B, and 44B in the center. The drive units 14C, 24C, 34C, and 44C are provided, and the transparent base members 14A, 24A, 34A, and 44A are provided on the other two sides. Here, in each display panel, the drive unit provided at least at one end of the display unit is provided in a range equal to or less than the length of the end of the display unit. Since the display panels 14 to 44 have exactly the same configuration, FIG. 7 shows only the configuration of the display panel 14 as a representative.
[0034]
In the present embodiment, as in the fourth embodiment, one panel unit is configured by a plurality of display panels in which panel ends are stacked in a stepwise manner so that the driving units are connected to each other. By stacking a plurality of display panels in a stepwise manner in a direction different from the arrangement direction of the display panels in the unit, a display device in which the display panels are two-dimensionally arranged is configured.
[0035]
The specific arrangement of the display panels 14 to 34 is the same as that of the fourth embodiment. That is, as shown in FIG. 8, in the display panels 14 and 24, panel ends adjacent to the driving units are stacked in a stepwise manner so that the driving units 14C and 24C are connected to each other. Thus, a first panel unit having a display surface in which the display portions 14B and 24B are continuously arranged without any gap in the center in plan view is configured. In the first panel unit, driving portions 14C and 24C are arranged on two adjacent sides of the display surface, and transparent base portions 14A and 24A are arranged on the remaining two sides. Similarly, in the display panels 34 and 44, the panel ends adjacent to the driving unit are stacked in a stepwise manner so that the driving units 34C and 44C are connected to each other, and the display units 34B and 44B are continuously arranged without gaps. To form a second panel unit.
[0036]
Then, the first panel unit and the second unit are joined to each other to form a composite display device. At this time, the end of the panel unit adjacent to the connected driving unit is stepped so that the transparent base unit of the panel unit is disposed at the joint and the driving units provided at one end are connected to each other. It is laminated in a shape. That is, the display unit of the second panel unit is placed on the drive unit of the first panel unit (the lower drive unit of the display panels 14 and 24 in FIG. 8) provided on the other end that is not connected. The transparent base portions 34A and 44A of the second panel unit disposed in the joining region are disposed so as to overlap the display portions 14B and 24B of the first panel unit. . Thus, when viewed in a plan view, the display units 14B to 44B are arranged adjacent to each other without a gap, and one continuous display surface is configured.
[0037]
The position of the second panel unit is moved along the direction in which the display panels 14 and 24 in the first panel unit are arranged so that the panel ends of the display panel 24 and the display panel 34 do not interfere with each other. The display panels 14 and 24 are shifted by the overlap width (that is, the total width of the base members of the display panels 14 and 24 arranged in the joining region). As a result, when viewed in a plan view, the display units 14B to 44B are arranged adjacent to each other with a two-dimensional spread without a gap, and one display surface 4 is configured.
Therefore, also in the present embodiment, it is possible to realize a large-screen display in which the joints are not noticeable.
[0038]
[Sixth embodiment]
Next, a composite display device according to a sixth embodiment of the present invention will be described with reference to FIGS.
In the present embodiment, a display device is configured by joining a plurality (for example, three) of display panels each having a drive unit at two opposing edges of the display unit. That is, as shown in FIG. 9, each of the display panels 15, 25, and 35 constituting the display device has driving units 15 C, 25 C, and 35 C at two opposing edges of the display units 15 B, 25 B, and 35 B in the center. The transparent base portions 15A, 25A, and 35A are provided on the other two opposite sides. Since the display panels 15 to 35 have exactly the same configuration, FIG. 9 shows only the configuration of the display panel 15 as a representative.
[0039]
As shown in FIG. 10, the panel ends of the display panels 15 to 35 adjacent to the connected driving units are overlapped so that the driving units are connected to each other. At this time, the display panels 15, 25, and 35 are arranged so that the overlapping direction of the panel end portions is alternated with the arrangement direction of the display panels 15 to 35. That is, of the three continuous display panels 15 to 35, the display portions 15B and 35B of the display panels 15 and 35 are respectively provided on the base portions 25A provided on two opposing edges of the central display panel 25. Are laminated, and the transparent base portions 15A and 35A of the display panels 15 and 35 are laminated on the display section 25B of the display panel 25. Thus, when viewed in a plan view, the display units 15B to 35B are arranged adjacent to each other without a gap, and one continuous display surface 5 is configured.
[0040]
Therefore, in the present embodiment, a display device in which joint portions are inconspicuous can be configured in the same manner as in the first embodiment, and since the overlapping directions of the panel end portions are alternated, the thickness of the entire display device is reduced. It becomes two sheets and can be made thin.
As described above, in the present embodiment, since the display panels 15 to 35 are alternately stacked via the base member, the display panels are not limited to the self-luminous type or the reflective type, and may be the transmissive type. It can be configured as a panel.
[0041]
Note that the present invention is not limited to the above-described embodiment, and can be implemented with various modifications without departing from the spirit of the present invention.
For example, as described above, in the first to fifth embodiments, each display panel is a self-luminous or reflective display panel. This is because if each display panel is a transmissive display panel, the light source light is shielded by the driving unit, so that a significant decrease in luminance occurs in the display unit disposed above the driving unit. However, when the driving circuit can be arranged in a region between pixels with a wide pixel pitch, such a decrease in luminance does not occur, and thus each display panel can be a transmissive panel.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of a composite display device according to a first embodiment of the present invention.
FIG. 2 is a schematic cross-sectional view showing a configuration of a main part of the composite display device.
FIG. 3 is a schematic perspective view of a composite display device according to a second embodiment of the present invention.
FIG. 4 is a schematic perspective view of a composite display device according to a third embodiment of the present invention.
FIG. 5 is a schematic plan view of a display panel according to a fourth embodiment of the present invention.
FIG. 6 is a schematic plan view of a composite display device according to a fourth embodiment of the present invention.
FIG. 7 is a schematic plan view of a display panel according to a fifth embodiment of the present invention.
FIG. 8 is a schematic plan view of a composite display device according to a fifth embodiment of the present invention.
FIG. 9 is a schematic plan view of a display panel according to a sixth embodiment of the present invention.
FIG. 10 is a schematic plan view of a composite display device according to a sixth embodiment of the present invention.
FIG. 11 is a schematic plan view of a conventional composite display device.
[Explanation of symbols]
10-15,20-25,30-35,43,44 ... display panel
10A to 15A, 20A to 25A, 30A to 35A, 43A to 44A ... substrate part
10B to 15B, 20B to 25B, 30B to 35B, 43B to 44B ... Display unit
10C to 15C, 20C to 25C, 30C to 35C, 43C to 44C ... Drive section

Claims (6)

A composite display device in which a plurality of display panels using a transparent base material are joined to each other, and an output image of each of the display panels is composited to display one image.
A transparent base material disposed outside the display section of one of the display panels adjacent to each other is overlaid on the display section of the other display panel, and the display sections of the respective display panels are arranged adjacent to each other without a gap in plan view. A composite display device characterized in that: 2. The composite display according to claim 1, wherein the transparent base portion includes three or more continuous display panels joined so that the overlapping direction of the transparent base portions is alternated with respect to the direction in which the display panels are arranged. 3. apparatus. Each of the display panels is configured as a reflective or self-luminous display panel having a driving unit on an edge of the display unit,
The display portions of one display panel adjacent to each other are arranged so as to overlap with the drive portion of the other display panel, and the transparent base portion disposed outside the display portion of the one display panel is provided with the other display panel. The composite display device according to claim 1, wherein the composite display device is arranged so as to overlap a display unit of the panel. The composite display device according to claim 3, wherein the self-luminous display panel is a bottom emission panel. A composite display device in which a plurality of display panels using a transparent base material are joined to each other, and an output image of each of the display panels is composited to display one image.
Comprising a plurality of panel units consisting of a plurality of display panels joined to each other,
In each of the panel units, the transparent base portion arranged outside the display portion of one of the display panels adjacent to each other is superimposed on the display portion of the other display panel, and the display portion of each of the display panels is viewed in plan. One display surface is arranged adjacently in one direction without a gap,
The transparent base portion disposed outside the display surface of one adjacent panel unit is superimposed on the display surface of the other panel unit, and the display surface of each panel unit is aligned with the display panel in the panel unit. A composite display device characterized by being arranged adjacent to each other in a direction different from the direction without a gap in plan view. In the display unit of each of the display panels, a compensation drive for compensating for a luminance difference between a region overlapping the base material of the other adjacent display panel and a region other than the region is performed, The composite display device according to claim 1.

Images