CN218729708U - Display unit, display module and display device - Google Patents

Abstract

The utility model discloses a display unit, wherein the display unit includes a plurality of repeated arrays, and each array includes first light-emitting structure, second light-emitting structure and third light-emitting structure, and each array includes 4 lines and 3 rows, and each line in the array all has first light-emitting structure, second light-emitting structure and third light-emitting structure; the first light emitting structure, the second light emitting structure and the third light emitting structure are used for displaying light of three different colors, the first light emitting structure, the second light emitting structure and the third light emitting structure in the first row, the second row and the third row are respectively arranged in three different orders, and the first light emitting structure, the second light emitting structure and the third light emitting structure in the fourth row and the second row are arranged in the same order. The utility model discloses can solve the problem that colored line or bright dark line appear in concatenation seam department after the display module concatenation that has this display element. Additionally, the utility model also discloses a display module and display device who have this display element.

Description

Display unit, display module and display device

Technical Field

The utility model relates to a show technical field, especially relate to a display module and display device based on three-colour display element.

Background

The display screen generally realizes a small-distance display screen (the pixel Pitch is less than or equal to 2.5 mm) by taking RGB as a group of pixel points, and the packaging modes of the display screen have two types, the first mode is to use a traditional packaging body and an SMD (surface mounted device) Chip mounting mode to complete the packaging of an LED display lamp panel, and the second mode is to use a Chip on Board packaging technology (Chip on Board) to flip R, G and B Chip mounting on a PCB (printed circuit Board), and then use a pressing die or a film mounting mode to complete the packaging of a display module.

The pixel array in the existing display module generally includes a plurality of light emitting structures arranged in an array, the light emitting structures in the edge light emitting structure row (as shown in fig. 1) or the edge light emitting structure column of the display module only display light of one color, and when the display module with such a pixel array is spliced to display a white picture, the problem of color lines or bright and dark lines occurs at the splicing seams of the display module, thereby reducing the viewing quality of the display screen spliced by the display module under a large viewing angle.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a display element can solve the technical problem that color line or bright dark line appear in the concatenation seam department that has display element's display module, is favorable to promoting the optical characteristic of concatenation seam under the large visual angle, reduces the uncomfortable that watches under the large visual angle.

Another object of the utility model is to provide a display module, have display element concatenation seam department after the display module concatenation can not appear colored line or bright dark line, promotes the optical characteristic of concatenation seam under the large visual angle widely, reduces the uncomfortable that watches under the large visual angle.

Another object of the present invention is to provide a display device, which is formed by splicing display modules, wherein the splicing seams of the display device are free of colored lines or bright and dark lines, so as to greatly improve the optical characteristics of the splicing seams at the large viewing angle and reduce the discomfort of viewing at the large viewing angle.

In order to achieve the above object, the present invention discloses a display unit comprising a plurality of repeating arrays, each of the arrays comprising a first light emitting structure, a second light emitting structure and a third light emitting structure, each of the arrays comprising 4 rows and 3 columns, each row of the arrays having the first light emitting structure, the second light emitting structure and the third light emitting structure; the first, second and third light emitting structures are used to display three different colors of light, the first, second and third light emitting structures in the first, second and third rows are arranged in three different orders, respectively, and the first, second and third light emitting structures in the fourth and second rows are arranged in the same order.

Optionally, each of the arrays further comprises a fifth row, the first, second and third light emitting structures in the fifth and third rows being arranged in the same order.

Optionally, the first row of the array is sequentially arranged according to the order of the first light emitting structure, the second light emitting structure, and the third light emitting structure; the second row and the fourth row of the array are sequentially arranged according to the sequence of the second light-emitting structure, the third light-emitting structure and the first light-emitting structure; and the third row of the array is sequentially arranged according to the sequence of the third light-emitting structure, the first light-emitting structure and the second light-emitting structure.

Optionally, the first row of the array is sequentially arranged according to the order of the first light emitting structure, the second light emitting structure, and the third light emitting structure; the second row and the fourth row of the array are sequentially arranged according to the sequence of the third light-emitting structure, the first light-emitting structure and the second light-emitting structure; and the third row of the array is sequentially arranged according to the sequence of the second light-emitting structure, the third light-emitting structure and the first light-emitting structure.

Optionally, the first light emitting structure is configured to display red light, the second light emitting structure is configured to display green light, and the third light emitting structure is configured to display blue light; or, the first light emitting structure is used for displaying red light, the second light emitting structure is used for displaying blue light, and the third light emitting structure is used for displaying green light; or, the first light emitting structure is used for displaying blue light, the second light emitting structure is used for displaying red light, and the third light emitting structure is used for displaying green light; or, the first light emitting structure is used for displaying blue light, the second light emitting structure is used for displaying green light, and the third light emitting structure is used for displaying red light; or, the first light emitting structure is used for displaying green light, the second light emitting structure is used for displaying blue light, and the third light emitting structure is used for displaying red light; or the first light emitting structure is used for displaying green light, the second light emitting structure is used for displaying red light, and the third light emitting structure is used for displaying blue light.

In order to achieve the above another object, the present invention also discloses a display module, which includes the display unit as described above, wherein the display unit is arranged in an array.

Optionally, the first light emitting structure, the second light emitting structure and the third light emitting structure which are randomly and continuously arranged form a group of pixel points.

Optionally, a group of the pixels includes the first light emitting structure, the second light emitting structure, and the third light emitting structure that are continuous along a row direction; and/or the group of pixel points comprise the first light-emitting structure, the second light-emitting structure and the third light-emitting structure which are randomly and continuously arranged along the column direction.

In order to achieve the above another object, the present invention also discloses a display device, which includes a plurality of display modules spliced with each other as described above.

Optionally, adjacent display modules spliced by the display device are arranged in the same manner.

The utility model discloses a display element is including the first light emitting structure who is the array arrangement, second light emitting structure and third light emitting structure, each line in the array all includes first light emitting structure, second light emitting structure and third light emitting structure, first light emitting structure, second light emitting structure and third light emitting structure are used for showing the light of three kinds of different colours, and first light emitting structure in the adjacent light emitting structure line, second light emitting structure and third light emitting structure arrange with different orders respectively, make the light emitting structure row also including first light emitting structure, second light emitting structure and third light emitting structure. The first light-emitting structures, the second light-emitting structures and the third light-emitting structures are arranged in the edge light-emitting structure rows and the edge light-emitting structure columns in the display module with the display units, so that the technical problem that color lines or bright and dark lines appear at splicing seams after the display module is spliced is solved, the optical characteristics of the splicing seams under a large visual angle are greatly improved, and the discomfort of watching a display device spliced by the display module under the large visual angle is reduced.

Drawings

Fig. 1 is a schematic structural diagram of a conventional display module.

Fig. 2 is a schematic structural diagram of a display module according to a first embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a display module according to a second embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a display module according to a third embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a display module according to a fourth embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a fifth embodiment of the display module of the present invention.

Fig. 7 is a schematic structural diagram of a display module according to a sixth embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a display module according to a seventh embodiment of the present invention.

Fig. 9 is a schematic structural diagram of an eighth embodiment of a display module according to the present invention.

Fig. 10 is a schematic structural diagram of a ninth embodiment of a display module according to the present invention.

Fig. 11 is a schematic structural diagram of a tenth embodiment of a display module according to the present invention.

Fig. 12 is a schematic structural diagram of an eleventh embodiment of a display module according to the present invention.

Fig. 13 is a schematic structural diagram of a twelfth embodiment of a display module according to the present invention.

Fig. 14 is a schematic structural diagram of a display module according to a thirteenth embodiment of the present invention.

Fig. 15 is a schematic structural diagram of a display device according to an embodiment of the present invention.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

Referring to fig. 2 to 15, the present invention discloses a display unit 10, which includes a plurality of repeating arrays 11, each array 11 includes a first light emitting structure 111, a second light emitting structure 112 and a third light emitting structure 113, each array 11 includes 4 rows and 3 columns (as shown in fig. 2), each row in the array 11 has the first light emitting structure 111, the second light emitting structure 112 and the third light emitting structure 113; the first, second and third light emitting structures 111, 112 and 113 are used to display three different colors of light, the first, second and third light emitting structures 111, 112 and 113 in the first, second and third rows are arranged in three different orders, respectively, and the first, second and third light emitting structures 111, 112 and 113 in the fourth and second rows are arranged in the same order.

The utility model discloses a display element 10 is including being the first light emitting structure 111 that the array was arranged, second light emitting structure 112 and third light emitting structure 113, each row in array 11 all includes first light emitting structure 111, second light emitting structure 112 and third light emitting structure 113, first light emitting structure 111, second light emitting structure 112 and third light emitting structure 113 are used for showing the light of three kinds of different colours, and first light emitting structure 111 in the adjacent light emitting structure row, second light emitting structure 112 and third light emitting structure 113 are arranged with different orders respectively, make the light emitting structure row also including first light emitting structure 111, second light emitting structure 112 and third light emitting structure 113. The first light-emitting structure 111, the second light-emitting structure 112 and the third light-emitting structure 113 are arranged in the edge light-emitting structure row 12 and the edge light-emitting structure column 13 of the display module 100 having the display unit 10, which is beneficial to avoiding the technical problem of color lines or bright and dark lines at the splicing seams of the spliced display modules 100, greatly improving the optical characteristics of the splicing seams at a large viewing angle, and reducing the uncomfortable feeling of viewing the display device 1000 spliced by the display modules 100 at the large viewing angle.

Specifically, as shown in fig. 2, in the first embodiment, the array 11 of the display units 10 in the display module 100 is provided with four rows, and the first row of the array 11 is sequentially arranged in the order of the first light emitting structure 111, the second light emitting structure 112, and the third light emitting structure 113; the second row and the fourth row of the array 11 are sequentially arranged according to the sequence of the second light-emitting structure 112, the third light-emitting structure 113 and the first light-emitting structure 111; the third row of the array 11 is arranged in the order of the third light emitting structure 113, the first light emitting structure 111, and the second light emitting structure 112. But not limited thereto, for example, in some embodiments, the first row of the array 11 may be arranged in the order of the first light emitting structure 111, the second light emitting structure 112, and the third light emitting structure 113; the second row and the fourth row of the array 11 are sequentially arranged according to the sequence of the third light-emitting structure 113, the first light-emitting structure 111 and the second light-emitting structure 112; the third row of the array 11 is arranged in the order of the second light emitting structure 112, the third light emitting structure 113, and the first light emitting structure 111.

Specifically, as shown in fig. 2, in the first embodiment, the first light emitting structure 111 in the display unit 10 of the display module 100 is used to display red light, the second light emitting structure 112 is used to display green light, and the third light emitting structure 113 is used to display blue light. But not limited thereto, for example, in some embodiments, the first light emitting structure 111 may be used for displaying red light, the second light emitting structure 112 may be used for displaying blue light, and the third light emitting structure 113 may be used for displaying green light. Alternatively, the first light emitting structure 111 is used to display blue light, the second light emitting structure 112 is used to display red light, and the third light emitting structure 113 is used to display green light. Alternatively, the first light emitting structure 111 is used to display blue light, the second light emitting structure 112 is used to display green light, and the third light emitting structure 113 is used to display red light. Alternatively, the first light emitting structure 111 is used to display green light, the second light emitting structure 112 is used to display blue light, and the third light emitting structure 113 is used to display red light. Alternatively, the first light emitting structure 111 is used to display green light, the second light emitting structure 112 is used to display red light, and the third light emitting structure 113 is used to display blue light.

Referring to fig. 3 to 14, each array 11 further includes a fifth row, and the first light emitting structure 111, the second light emitting structure 112, and the third light emitting structure 113 in the fifth row and the third row are arranged in the same order.

Referring to fig. 3 to 8, the first row of the array 11 is sequentially arranged according to the sequence of the first light emitting structure 111, the second light emitting structure 112, and the third light emitting structure 113; the second row and the fourth row of the array 11 are sequentially arranged according to the sequence of the second light-emitting structure 112, the third light-emitting structure 113 and the first light-emitting structure 111; the third row and the fifth row of the array 11 are sequentially arranged according to the sequence of the third light emitting structure 113, the first light emitting structure 111 and the second light emitting structure 112; so that the light emitting structures in the edge light emitting structure column 12 and the edge light emitting structure row 13 can display light of three different colors, which is beneficial to avoiding the occurrence of splicing color lines or splicing bright and dark lines.

Specifically, referring to fig. 3, in the second embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying red light, the second light emitting structure 112 is used for displaying green light, and the third light emitting structure 113 is used for displaying blue light.

Specifically, referring to fig. 4, in the third embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying red light, the second light emitting structure 112 is used for displaying blue light, and the third light emitting structure 113 is used for displaying green light.

Specifically, referring to fig. 5, in the fourth embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying blue light, the second light emitting structure 112 is used for displaying red light, and the third light emitting structure 113 is used for displaying green light.

Specifically, referring to fig. 6, in the fifth embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying blue light, the second light emitting structure 112 is used for displaying green light, and the third light emitting structure 113 is used for displaying red light.

Specifically, referring to fig. 7, in the sixth embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying green light, the second light emitting structure 112 is used for displaying blue light, and the third light emitting structure 113 is used for displaying red light.

Specifically, referring to fig. 8, in the seventh embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying green light, the second light emitting structure 112 is used for displaying red light, and the third light emitting structure 113 is used for displaying blue light.

Referring to fig. 9 to 14, the first row of the array 11 is sequentially arranged according to the sequence of the first light emitting structure 111, the second light emitting structure 112, and the third light emitting structure 113; the second row and the fourth row of the array 11 are sequentially arranged according to the sequence of the third light-emitting structure 113, the first light-emitting structure 111 and the second light-emitting structure 112; the third row and the fifth row of the array 11 are sequentially arranged according to the sequence of the second light emitting structure 112, the third light emitting structure 113 and the first light emitting structure 111; so that the light emitting structures in the edge light emitting structure column 12 and the edge light emitting structure row 13 can display light of three different colors, which is beneficial to avoiding the occurrence of splicing color lines or splicing bright and dark lines.

Specifically, referring to fig. 9, in the eighth embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying red light, the second light emitting structure 112 is used for displaying green light, and the third light emitting structure 113 is used for displaying blue light.

Specifically, referring to fig. 10, in the ninth embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying red light, the second light emitting structure 112 is used for displaying blue light, and the third light emitting structure 113 is used for displaying green light.

Specifically, referring to fig. 11, in the tenth embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying blue light, the second light emitting structure 112 is used for displaying red light, and the third light emitting structure 113 is used for displaying green light.

Specifically, referring to fig. 12, in the eleventh embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying blue light, the second light emitting structure 112 is used for displaying green light, and the third light emitting structure 113 is used for displaying red light.

Specifically, referring to fig. 13, in the twelfth embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying green light, the second light emitting structure 112 is used for displaying blue light, and the third light emitting structure 113 is used for displaying red light.

Specifically, referring to fig. 14, in the thirteenth embodiment of the display module 100, the first light emitting structure 111 in the display unit 10 is used for displaying green light, the second light emitting structure 112 is used for displaying red light, and the third light emitting structure 113 is used for displaying blue light.

Referring to fig. 2 to 14, the present invention further discloses a display module 100, which includes the display unit 10 as described above, wherein the display unit 10 is arranged in an array.

The utility model discloses a display module 100 is including being the display element 10 that the array was arranged, each row of array 11 in the display element 10 all includes first light emitting structure 111, second light emitting structure 112 and third light emitting structure 113, first light emitting structure 111, second light emitting structure 112 and third light emitting structure 113 are used for showing the light of three kinds of different colours, and first light emitting structure 111 in the adjacent light emitting structure row, second light emitting structure 112 and third light emitting structure 113 are arranged with different orders respectively, make the light emitting structure row also including first light emitting structure 111, second light emitting structure 112 and third light emitting structure 113. The edge light-emitting structure columns 12 and the edge light-emitting structure rows 13 in the display module 100 are all arranged with the first light-emitting structures 111, the second light-emitting structures 112 and the third light-emitting structures 113, which is beneficial to avoiding the problem of color lines or bright and dark lines at the splicing seams after the display module 100 is spliced.

Referring to fig. 2 to 14, the first light emitting structure 111, the second light emitting structure 112 and the third light emitting structure 113 which are randomly and continuously arranged form a group of pixels 14.

Specifically, in the first to thirteenth embodiments, a group of the pixel points 14 includes the first light emitting structure 111, the second light emitting structure 112, and the third light emitting structure 113 which are arbitrarily and continuously arranged in the row direction; for example, the group of pixels 14 may further include a first light emitting structure 111, a second light emitting structure 112, and a third light emitting structure 113 that are arranged in a row direction in an arbitrary consecutive manner. For example, in the first embodiment (fig. 2), a group of pixels 14 may include a light emitting structure in the third row and a light emitting structure in the fourth row of the array 11 of a display unit 10 and a light emitting structure in the first row of the array 11 of a display unit 10 adjacent to the display unit 10, and in the second embodiment (fig. 3) to the thirteenth embodiment, a group of pixels 14 may further include a light emitting structure in the fourth row and a light emitting structure in the fifth row of the array 11 of a display unit 10 and a light emitting structure in the first row of the array 11 of a display unit 10 adjacent to the display unit 10.

Specifically, in some embodiments, the first light emitting structure 111, the second light emitting structure 112, and the third light emitting structure 113 arranged in the column direction in an arbitrary consecutive manner, and the first light emitting structure 111, the second light emitting structure 112, and the third light emitting structure 113 arranged in the row direction in an arbitrary consecutive manner may also be respectively formed as a group of pixel points 14; in other embodiments, any adjacent first light emitting structure 111, second light emitting structure 112, and third light emitting structure 113, and any first light emitting structure 111, second light emitting structure 112, and third light emitting structure 113 arranged in a row direction in a continuous manner may be formed as a group of pixel points 14, respectively.

Specifically, in the present embodiment, the light emitting structure 11 is a light emitting chip, and may be an LED light emitting chip, such as a mini LED or a Micro LED, but is not limited thereto.

Referring to fig. 2 to 15, the present invention also discloses a display device 1000, which comprises a plurality of display modules 100 spliced with each other as described above.

The utility model discloses a display module 100 of mutual concatenation, the light emitting structure who is close to the concatenation seam on the display module 100 is listed as 12 and the light emitting structure line 13 (fig. 15) all includes first light emitting structure 111, second light emitting structure 112 and third light emitting structure 113, first light emitting structure 111, second light emitting structure 112 and third light emitting structure 113 can show the light of three kinds of different colours, and then the concatenation seam department of display module 100 appears the problem of concatenation colour line or concatenation bright dark line when avoiding display device 1000 to show white picture, and be favorable to promoting the optical characteristic of concatenation seam under the large visual angle, reduce the discomfort of watching display device 1000 under the large visual angle.

Alternatively, the adjacent display modules 100 spliced by the display device 1000 are arranged in the same manner.

Specifically, in the present embodiment, the display modules 100 tiled up and down and the display modules 100 tiled left and right are all arranged in the same direction, but are not limited thereto.

Optionally, in adjacent display modules 100 spliced by the display apparatus 1000, one of the display modules 100 is rotated by a × 90 degrees and then arranged in the same manner as the other display module 100, wherein the absolute value of a is an integer greater than or equal to 1.

Specifically, in some embodiments, the top-bottom tiled display module 100 and the left-right tiled display module 100 are both disposed in a direction perpendicular to each other, but not limited thereto, for example, in other embodiments, the left-right tiled display module 100 may also be disposed in a direction perpendicular to each other, and the top-bottom tiled display module 100 may be disposed in the same or opposite directions; the display modules 100 may be arranged in the same or opposite directions, and the display modules 100 may be arranged in the directions perpendicular to each other.

Optionally, in adjacent display modules 100 spliced by the display apparatus 1000, one of the display modules 100 is rotated by b × 180 degrees and then arranged in the same manner as the other display module 100, wherein the absolute value of b is an integer greater than or equal to 1.

Specifically, in some embodiments, the top-bottom tiled display module 100 and the left-right tiled display module 100 are both disposed in opposite directions, but not limited thereto, for example, in other embodiments, the left-right tiled display module 100 may be disposed in the same direction, and the top-bottom tiled display module 100 may be disposed in opposite directions; the display modules 100 that are connected to each other at the left and right sides may be arranged in opposite directions, and the display modules 100 that are connected to each other at the top and bottom sides may be arranged in the same direction.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, therefore, the invention is not limited thereto.

Claims (10)

1. A display unit comprising a plurality of repeating arrays, each said array comprising a first light emitting structure, a second light emitting structure and a third light emitting structure, each said array comprising 4 rows and 3 columns, each row in said array having said first light emitting structure, said second light emitting structure and said third light emitting structure; the first, second and third light emitting structures are used to display three different colors of light, the first, second and third light emitting structures in the first, second and third rows are arranged in three different orders, respectively, and the first, second and third light emitting structures in the fourth and second rows are arranged in the same order.

2. The display unit of claim 1, wherein each of the arrays further comprises a fifth row, and wherein the first, second, and third light emitting structures in the fifth and third rows are arranged in the same order.

3. The display unit of claim 1,

the first row of the array is sequentially arranged according to the sequence of the first light-emitting structure, the second light-emitting structure and the third light-emitting structure;

the second and fourth rows of the array are arranged in sequence according to the order of the second light-emitting structure, the third light-emitting structure and the first light-emitting structure;

the third row of the array is sequentially arranged according to the sequence of the third light-emitting structure, the first light-emitting structure and the second light-emitting structure.

4. The display unit of claim 1,

the first row of the array is sequentially arranged according to the sequence of the first light-emitting structure, the second light-emitting structure and the third light-emitting structure;

the second and fourth rows of the array are arranged in sequence according to the order of the third light-emitting structure, the first light-emitting structure and the second light-emitting structure;

the third row of the array is sequentially arranged according to the sequence of the second light-emitting structure, the third light-emitting structure and the first light-emitting structure.

5. The display unit of claim 1,

the first light emitting structure is used for displaying red light, the second light emitting structure is used for displaying green light, and the third light emitting structure is used for displaying blue light;

or, the first light emitting structure is used for displaying red light, the second light emitting structure is used for displaying blue light, and the third light emitting structure is used for displaying green light;

or, the first light emitting structure is used for displaying blue light, the second light emitting structure is used for displaying red light, and the third light emitting structure is used for displaying green light;

or, the first light emitting structure is used for displaying blue light, the second light emitting structure is used for displaying green light, and the third light emitting structure is used for displaying red light;

or, the first light emitting structure is used for displaying green light, the second light emitting structure is used for displaying blue light, and the third light emitting structure is used for displaying red light;

or the first light emitting structure is used for displaying green light, the second light emitting structure is used for displaying red light, and the third light emitting structure is used for displaying blue light.

6. A display module comprising the display unit of any one of claims 1-5, the display unit being arranged in an array.

7. The display module of claim 6, wherein the first, second and third light emitting structures arranged in any sequence form a set of pixels.

8. The display module according to claim 6, wherein a group of the pixels comprises the first light emitting structure, the second light emitting structure and the third light emitting structure arranged in a row direction in an arbitrary consecutive manner;

and/or the group of pixel points comprise the first light-emitting structure, the second light-emitting structure and the third light-emitting structure which are randomly and continuously arranged along the column direction.

9. A display device comprising a plurality of display modules as claimed in any one of claims 6 to 8 tiled relative to each other.

10. The display device according to claim 9, wherein adjacent display modules spliced by the display device are arranged in the same manner.

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