WO2019097583A1 - Display device and method for manufacturing same - Google Patents

Abstract

This display device is provided with: a first display panel (13A); and a second display panel (13B) disposed to be adjacent to the first display panel (13A) such that a side end surface thereof faces a side end surface of the first display panel (13A). The first display panel (13A) has: a first lower substrate (21A) having a rectangular shape in a plan view; a first upper substrate (22A) which has a rectangular shape in a plan view and is disposed on the first lower substrate (21A); and a first sealing part (26A) which extends along circumferential sections of the first lower substrate (21A) and the first upper substrate (22A) and seals a space between the circumferential section of the first lower substrate (21A) and the circumferential section of the first upper substrate (22A). A side end surface on the second display panel (13B) side of the first lower substrate (21A), a side end surface on the second display panel (13B) side of the first upper substrate (22A), and a side end surface on the second display panel (13B) side of the first sealing part (26A) are formed to be flush.

Description

Display device and method of manufacturing the same

The present invention relates to a display device and a method of manufacturing the same.

Conventionally, as a display device, there is one in which a plurality of display panels are disposed adjacent to each other to form a large display surface (see, for example, JP-A-2015-22447 (Patent Document 1)).

JP, 2015-22447, A

However, in the above-described conventional display device, when each display panel is configured by a liquid crystal display, the following problem occurs.

The liquid crystal display has a structure in which a liquid crystal layer is sandwiched between a TFT array substrate in which a plurality of TFTs (thin film transistors) are arranged in a matrix and a CF (color filter) substrate having a color filter. More specifically, the periphery of the TFT array substrate and the periphery of the CF substrate are sealed with a sealing material. The sealing material is provided along the entire periphery of the TFT array substrate and the entire periphery of the CF substrate. At this time, the outer side end face of the sealing material is positioned on the inner side of the liquid crystal display than the side end faces of the TFT array substrate and the CF substrate.

The area surrounded by such a sealing material contributes to the display, while the area not surrounded by the sealing material does not contribute to the display. That is, the area between the side end faces of the TFT array substrate and the CF substrate and the outer side end face of the sealing material becomes a non-display area.

Therefore, the above-described conventional display device has a problem that a large non-display area is created along the boundary between the display panels.

Then, the subject of this invention is providing the display apparatus which can reduce the non-display area which arises in the boundary vicinity of display panels, and its manufacturing method.

The display device according to one aspect of the present invention is
A first display panel,
And a second display panel disposed so as to be adjacent to the first display panel and having a side end face facing the side end face of the first display panel.
The first display panel is
A first lower substrate having a rectangular shape in plan view,
A first upper substrate having a rectangular shape in a plan view disposed on the first lower substrate;
A first seal portion extending along the peripheral edge of the first lower substrate and the first upper substrate and sealing between the peripheral edge of the first lower substrate and the peripheral edge of the first upper substrate Have and
The side end face of the first lower substrate on the side of the second display panel, the side end face of the first upper substrate on the side of the second display panel, and the side end face of the first seal portion on the side of the second display panel Are formed flush with one another.

A method of manufacturing a display device according to an aspect of the present invention is
A display device for manufacturing a display device comprising: a first display panel; and a second display panel disposed adjacent to the first display panel and having a side end face facing the side end face of the first display panel. A manufacturing method,
In order to obtain the first display panel, the first lower substrate having a rectangular shape in a plan view, the first upper substrate having a rectangular shape in a plan view disposed on the first lower substrate, the first lower substrate, and the first upper Forming a first seal portion extending along the peripheral portion of the substrate to seal between the peripheral portion of the first lower substrate and the peripheral portion of the first upper substrate;
A side end face of the first lower substrate provided on the side of the second display panel by processing at least one of the first lower substrate, the first upper substrate, and the first seal portion; The side end face of the first upper substrate disposed on the second display panel side is flush with the side end face of the first seal portion disposed on the second display panel side. And the step of

According to the display device of the present invention, the side surface on the side of the second display panel of the first lower substrate, the side surface on the side of the second display panel of the first upper substrate, and the side of the second display panel on the first seal portion Since the side end faces are formed flush with each other, it is possible to reduce the non-display area generated near the boundary between the display panels.

According to the method of manufacturing a display device of the present invention, the side surface of the first lower substrate on the side of the second display panel, the side surface of the first upper substrate on the side of the second display panel, and the side of the second display panel on the first seal portion Since the side end face of the display panel is flush with the side end face of the display panel, it is possible to reduce the non-display area generated near the boundary between the display panels.

It is a block diagram of a display of a 1st embodiment of this invention. It is a schematic cross section of the liquid crystal display assembly of the said display apparatus, and its peripheral part. It is a model top view of the 1st liquid crystal panel of the above-mentioned liquid crystal display assembly. It is a model top view of the 2nd liquid crystal panel of the above-mentioned liquid crystal display assembly. It is a schematic cross section of the principal part of the said liquid crystal display assembly. It is a schematic cross section for demonstrating 1 process of the manufacturing method of the said display apparatus. It is a schematic cross section for demonstrating the process of following the process of FIG. 6A. It is a schematic cross section for demonstrating the process of following the process of FIG. 6B. It is a schematic cross section for demonstrating the process of following the process of FIG. 6C. It is a schematic cross section of the liquid crystal display assembly of 2nd Embodiment of this invention, and its peripheral part. They are a liquid crystal display assembly of 3rd Embodiment of this invention, and a schematic cross section of the peripheral part. It is a model top view of the principal part of the liquid crystal display assembly of a 4th embodiment of this invention. It is a model top view of the principal part of the liquid crystal display assembly of 5th Embodiment of this invention.

Hereinafter, the display device of the present invention and the method of manufacturing the same will be described in detail by the illustrated embodiments.

First Embodiment
FIG. 1 is a block diagram for explaining a schematic configuration of a display device according to a first embodiment of the present invention.

The display device includes a liquid crystal display assembly 1 for displaying an image or the like, and a control device 2 for controlling the liquid crystal display assembly 1. In addition, by directly touching the surface of the liquid crystal display assembly 1 with a finger or indirectly touching the surface of the liquid crystal display assembly 1 with, for example, a stylus pen, selection and movement of an image displayed on the liquid crystal display assembly 1 , Etc. can be deleted.

The liquid crystal display assembly 1 comprises a first liquid crystal display assembly 10A and a second liquid crystal display assembly 10B adjacent to the first liquid crystal display assembly 10A. The first and second liquid crystal display assemblies 10A and 10B can be independently controlled, and for example, the second liquid crystal display assembly 10B displays a desktop screen of a personal computer while watching a television broadcast by the first liquid crystal display assembly 10A. Is possible.

More specifically, the first liquid crystal display assembly 10A includes a first cover glass 11A, a first touch sensor sheet 12A, and a first liquid crystal panel 13A. Similar to the first liquid crystal display assembly 10A, the second liquid crystal display assembly 10B also has a second cover glass 11B, a second touch sensor sheet 12B, and a second liquid crystal panel 13B. The first liquid crystal panel 13A is an example of a first display panel. The second liquid crystal panel 13B is an example of a second display panel. The first and second touch sensor sheets 12A and 12B are examples of touch sensor sheets.

The first and second cover glasses 11A and 11B cover the surfaces of the first and second touch sensor sheets 12A and 12B and are located on the user side. The first and second cover glasses 11A and 11B are formed of a material that transmits light from the first and second liquid crystal panels 13A and 13B.

The first and second touch sensor sheets 12A and 12B are, for example, capacitive touch panels, and the touch of the user's finger or the like on the surface of the first and second liquid crystal display assemblies 10A and 10B changes the capacitance To detect. The first and second touch sensor sheets 12A and 12B are also formed of a material that transmits the light from the first and second liquid crystal panels 13A and 13B.

The first and second liquid crystal panels 13A and 13B have regions for displaying an image on the first and second cover glasses 11A and 11B side. The first and second touch sensor sheets 12A and 12B are superimposed on these areas.

Signals from the first and second touch sensor sheets 12A and 12B are input to the control device 2. At this time, the control device 2 specifies the position, the number, the time, and the like of the touch of the user based on the signals from the first and second touch sensor sheets 12A and 12B. Further, the control device 2 outputs a video signal to the first liquid crystal panel 13A and the second liquid crystal panel 13B. This video signal is suitably changed according to the input of the signal from the 1st touch sensor sheet 12A and the 2nd touch sensor sheet 12B.

FIG. 2 is a schematic view showing a cross section of the liquid crystal display assembly 1 and the periphery thereof.

The first and second liquid crystal panels 13A and 13B, the first and second touch sensor sheets 12A and 12B, and the first and second cover glasses 11A and 11B are stacked in this order. The first and second touch sensor sheets 12A and 12B are attached to the first and second liquid crystal panels 13A and 13B and the first and second cover glasses 11A and 11B by using, for example, OCA (Optical Clear Adhesive). ing.

The light guide plate 3 is disposed on the opposite side of the first and second liquid crystal panels 13A and 13B to the first and second cover glasses 11A and 11B. The light guide plate 3 guides the light from the light source 4 to the first and second liquid crystal panels 13A and 13B.

The first and second liquid crystal panels 13A and 13B, the first and second touch sensor sheets 12A and 12B, the first and second cover glasses 11A and 11B, the light guide plate 3 and the light source 4 are held by the frame 5. ing.

FIG. 3 is a schematic view of the first liquid crystal panel 13A as viewed from above. The second liquid crystal panel 13B is disposed on the right side of the first liquid crystal panel 13A in FIG.

The first liquid crystal panel 13A is a so-called open cell, and comprises a first TFT array substrate 21A rectangular in plan view on the light guide plate 3 side, while a first CF (color filter) substrate 22A rectangular in plan view 1 is provided on the touch sensor sheet 12A side (see FIG. 2). The surface of the first TFT array substrate 21A is formed larger than the surface of the first CF substrate 22A.

Further, the first liquid crystal panel 13A includes a first source driver 50A and a first gate driver 60A which drive the TFTs 32A, 32A,... (Shown in FIG. 5). The first source driver 50A and the first gate driver 60A are provided in a portion other than the side of the second TFT array substrate 21B (shown in FIG. 4) in the peripheral portion of the first TFT array substrate 21A. It is not provided in the part by the side of the 2nd TFT array substrate 21B among the peripheral parts of. The first source driver 50A and the first gate driver 60A are an example of a driver.

More specifically, a part of the upper surface of the first TFT array substrate 21A (hereinafter, referred to as "exposed surface") is not covered with the first CF substrate 22A. A first source driver 50A and a first gate driver 60A are provided along the outer edge of the exposed surface.

The first source driver 50A includes a plurality of driver ICs (Integrated Circuits) 51A, 51A,... Arranged along the longitudinal direction of the first TFT array substrate 21A, and one side (longitudinal direction of the first TFT array substrate 21A). The printed circuit board 52A is connected to one side along the direction via a plurality of driver ICs 51A, 51A,.

The first gate driver 60A includes a plurality of driver ICs 61A, 61A,... Arranged along the short direction of the first TFT array substrate 21A, and the plurality of driver ICs 61A, 61A,. The printed circuit board 62A is connected to one side (one side along the lateral direction) of the array substrate 21A in the lateral direction (direction perpendicular to the longitudinal direction). One side in the short direction of the first TFT array substrate 21A is one side of the first TFT array substrate 21A disposed on the opposite side to the second liquid crystal panel 13B.

On the exposed surface, ends of source lines (not shown) and gate lines (not shown) are provided, and the wirings of the driver ICs 51A and 61A are electrically connected to the ends. .

Although not shown, the first liquid crystal panel 13A is provided between the color filter 42A and the alignment film 25A, and includes an opposite electrode transparent to visible light and two polarizing filters having absorption axes orthogonal to each other. Have. Of the two polarizing filters, one is attached to the lower surface of the first TFT array substrate 21A (the surface opposite to the liquid crystal layer 23A in the glass substrate 31A), and the other is the upper surface (glass substrate 41A) of the first CF substrate 22A. In the surface opposite to the liquid crystal layer 23A).

The side end face of the polarizing plate disposed on the first TFT array substrate 21A side on the second liquid crystal panel 13B side is an inner side of the first liquid crystal panel 13A than the side end face of the first TFT array substrate 21A on the second liquid crystal panel 13B side. Located in

The side end face on the second liquid crystal panel 13B side of the polarization filter disposed on the first CF board 22A side is positioned on the inner side of the first liquid crystal panel 13A than the side end face on the second liquid crystal panel 13B side of the first CF board 22A. Do.

FIG. 4 is a schematic view of the second liquid crystal panel 13B as viewed from above. The first liquid crystal panel 13A is disposed on the left side of the second liquid crystal panel 13B in FIG.

Similar to the first liquid crystal panel 13A, the second liquid crystal panel 13B also has a second TFT array substrate 21B in a rectangular shape in plan view and a second CF substrate 22B in a rectangular shape in plan view. The second TFT array substrate 21B is a second CF substrate. 22B and the light guide plate 3 (see FIG. 2).

Further, the second source driver 50B and the second gate driver 60B are provided in a portion other than the side of the first TFT array substrate 21A (shown in FIG. 3) in the peripheral portion of the second TFT array substrate 21B. More specifically, the second source driver 50B and the second gate driver 60B play the same role as the first source driver 50A and the first gate driver 60A. The second source driver 50B is provided in the upper part in FIG. 4 of the peripheral portion of the second TFT array substrate 21B. On the other hand, the second gate driver 60B is provided on the right side in FIG. 4 (the opposite side to the first liquid crystal panel 13A) of the peripheral portion of the second TFT array substrate 21B. The second source driver 50B and the second gate driver 60B are an example of a driver.

In FIG. 4, reference numerals 51B and 61B denote driver ICs, and reference numerals 52B and 62B denote printed circuit boards.

Although not shown, the second liquid crystal panel 13B is also provided between the color filter 42B and the alignment film 25B in the same manner as the first liquid crystal panel 13A, and the absorption axis is opposite to the opposite electrode transparent to visible light. And two orthogonal polarization filters.

FIG. 5 is a schematic view showing a cross section of the boundary between the first liquid crystal display assembly 10A and the second liquid crystal display assembly 10B and the vicinity thereof. In FIG. 5, the same components as those in FIGS. 1 to 4 are denoted by the same reference numerals as those in FIGS. 1 to 4.

The side end face of the first liquid crystal panel 13A on the second liquid crystal panel 13B side faces the side end face of the second liquid crystal panel 13B on the first liquid crystal panel 13A side.

The first TFT array substrate 21A of the first liquid crystal panel 13A includes a glass substrate 31A, a plurality of TFTs 32A, 32A,... And pixel electrodes 33A, 33A,. There is. The pixel electrode 33A is electrically connected to the TFT 32A, and voltage application to the pixel electrode 33A is controlled by turning on and off the TFT 32A. When the first liquid crystal panel 13A adopts a TN (Twisted Nematic) method, when a voltage is applied to the pixel electrode 33A, liquid crystal molecules of the liquid crystal layer 23A stand upright, and the first liquid crystal panel 13A can not emit light. That is, light traveling from the light source 4 toward the first and second cover glasses 11A and 11B is blocked.

The first CF substrate 22A of the first liquid crystal panel 13A includes, for example, a glass substrate 41A and a color filter 42A formed under the glass substrate 41A. The color filter 42A includes a plurality of red color filters, a plurality of green color filters, and a plurality of blue color filters. Each red color filter, each green color filter and each blue color filter correspond to a red sub-pixel, a green sub-pixel and a blue sub-pixel.

A liquid crystal layer 23A is provided between the first TFT array substrate 21A and the first CF substrate 22A. The liquid crystal layer 23A is sandwiched between the alignment films 24A and 25A from above and below, and liquid crystal molecules are aligned along the grooves of the alignment films 24A and 25A.

In addition, a first seal portion 26A is provided around the liquid crystal layer 23A. The first seal portion 26A extends along the peripheral edge of the glass substrate 41A of the first CF substrate 22A and the peripheral edge of the glass substrate 31A of the first TFT array substrate 21A, and seals between the peripheral edges thereof. doing.

A first black matrix 27A is provided between the first CF substrate 22A and the first seal portion 26A. The first black matrix 27A extends along the periphery of the glass substrate 31A of the first TFT array substrate 21A and the periphery of the glass substrate 41A of the first CF substrate 22A. The first black matrix 27A is an example of the first light shielding portion.

The width W12 in the direction orthogonal to the extending direction of the first black matrix 27A is the same as the width W11 in the direction orthogonal to the extending direction of the first seal portion 26A. The widths W11 and W12 are set, for example, in the range of 0.2 mm to 3.0 mm.

The first touch sensor sheet 12A is formed by, for example, bonding two transparent substrates to each other via an adhesive layer. The one transparent substrate is provided with a plurality of electrode portions extending in one direction extending along the surface. The other transparent substrate is provided with a plurality of other unidirectionally extending electrode portions extending along the surface. The extending direction of the electrode portion of one transparent substrate is a direction intersecting the extending direction of the electrode portion of the other transparent substrate.

The side end face of the first liquid crystal display assembly 10A on the second liquid crystal display assembly 10B side is the side end face of the first cover glass 11A on the second liquid crystal display assembly 10B side, and the second liquid crystal display assembly 10B of the first touch sensor sheet 12A. Side end face of the first CF substrate 22A on the second liquid crystal display assembly 10B side, a side end face of the first black matrix 27A on the second liquid crystal display assembly 10B side, and the second liquid crystal of the first seal portion 26A. It is comprised by the side end surface by the side of display assembly 10B, and the side end surface by the side of the 2nd liquid crystal display assembly 10B of 21 A of 1st TFT array substrates. These side end faces are formed to be flush with each other. In other words, the side end surfaces are aligned along the stacking direction of the first liquid crystal panel 13A, the first touch sensor sheet 12A, and the first cover glass 11A.

Here, the side end face of the first TFT array substrate 21A on the second liquid crystal display assembly 10B side is the side end face of the first TFT array substrate 21A on the side of the second TFT array substrate 21B of the glass substrate 31A. The side end face of the first CF substrate 22A on the second liquid crystal display assembly 10B side is the side end face of the first CF substrate 22A on the second CF substrate 22B side of the glass substrate 41A.

The second liquid crystal panel 13B is formed in the same manner as the first liquid crystal panel 13A. Thus, the second TFT array substrate 21B includes the glass substrate 31B, the plurality of TFTs 32B, 32B,... And the plurality of pixel electrodes 33B, 33B,. And a color filter 42B.

Further, the liquid crystal layer 23B between the second TFT array substrate 21B and the second CF substrate 22B is also sandwiched by the alignment films 24B and 25B from above and below and surrounded by the second seal portion 26B as in the first liquid crystal panel 13A. . The second seal portion 26B extends along the peripheral portion of the glass substrate 41B of the second CF substrate 22B and the peripheral portion of the glass substrate 31B of the second TFT array substrate 21B, and seals between the peripheral portions thereof. doing.

A second black matrix 27B is provided between the second CF substrate 22B and the second seal portion 26B. The second black matrix 27B extends along the periphery of the glass substrate 31B of the second TFT array substrate 21B and the periphery of the glass substrate 41B of the second CF substrate 22B. The second black matrix 27B is an example of a second light shielding unit.

The width W22 in the direction perpendicular to the extending direction of the second black matrix 27B is the same as the width W21 in the direction orthogonal to the extending direction of the second seal portion 26B. The widths W21 and W22 are set, for example, in the range of 0.2 mm to 3.0 mm.

The second touch sensor sheet 12B is formed in the same manner as the first touch sensor sheet 12A, and has two transparent substrates and an adhesive layer interposed between the two transparent substrates.

The side end face of the second liquid crystal display assembly 10A on the first liquid crystal display assembly 10A side is the side end face of the second cover glass 11B on the first liquid crystal display assembly 10A side, and the first liquid crystal display assembly 10A of the second touch sensor sheet 12B. Side end face, the side end face of the second CF substrate 22B on the side of the first liquid crystal display assembly 10A, the side end face of the second black matrix 27B on the side of the first liquid crystal display assembly 10A, and the first liquid crystal of the second seal portion 26B. It is comprised by the side end surface by the side of display assembly 10A, and the side end surface by the side of the 1st liquid crystal display assembly 10A of 2nd TFT array substrate 21B. These side end faces are formed to be flush with each other. In other words, the side end surfaces are aligned along the stacking direction of the second liquid crystal panel 13B, the second touch sensor sheet 12B, and the second cover glass 11B.

Here, the side end face of the second TFT array substrate 21B on the side of the first liquid crystal display assembly 10A is formed of the side end face of the glass substrate 31B on the side of the first TFT array substrate 21A in the second TFT array substrate 21B. Further, the side end surface of the second CF substrate 22B on the side of the first liquid crystal display assembly 10A is configured by the side end surface of the second CF substrate 22B on the side of the first CF substrate 22A of the glass substrate 41B.

According to the display device having the above configuration, the side end face of the first CF substrate 22A on the second liquid crystal panel 21B side, the side end face of the first black matrix 27A on the second liquid crystal panel 21B side, and the second seal portion 26A The side end face on the liquid crystal panel 21B side and the side end face on the second liquid crystal panel 21B side of the first TFT array substrate 21A are formed to be flush with each other. Thereby, the side end face of the first seal portion 26A on the second liquid crystal panel 21B side is brought into contact with the side end face of the second liquid crystal panel 13B, and the side end face of the first seal portion 26A on the second liquid crystal panel 21B side and the second It is possible to eliminate the non-display area between the side end face of the liquid crystal panel 13B. Therefore, it is possible to reduce the non-display area generated near the boundary between the first liquid crystal panel 13A and the second liquid crystal panel 13B.

Further, since the width W12 in the direction orthogonal to the extending direction of the first black matrix 27A is the same as the width W11 in the direction orthogonal to the extending direction of the first seal portion 26A, the first liquid crystal panel 13A has a narrow frame Can be

Further, since the width W12 in the direction orthogonal to the extending direction of the first black matrix 27A is set within the range of 0.2 mm to 3.0 mm, the first liquid crystal panel 13A can be reliably narrowed.

Further, the side end face of the second CF substrate 22B on the side of the first liquid crystal panel 13A, the side end face of the second black matrix 27B on the side of the first liquid crystal panel 13A, and the side end face of the second seal portion 26B on the side of the first liquid crystal panel 13A. The side surface of the second TFT array substrate 21B on the side of the first liquid crystal panel 13A is formed to be flush with each other. As a result, the side end face of the second seal part 26B on the first liquid crystal panel 13A side is brought into contact with the side end face of the first liquid crystal panel 13A, and the side face of the second seal part 26B on the first liquid crystal panel 13A side and the first end face The non-display area between the liquid crystal panel 13A and the side end face can be eliminated. Therefore, the reduction effect of the non-display area in the vicinity of the boundary between the first liquid crystal panel 13A and the second liquid crystal panel 13B can be enhanced.

Further, since the width W22 in the direction orthogonal to the extending direction of the second black matrix 27B is the same as the width W21 in the direction orthogonal to the extending direction of the second seal portion 26B, the first liquid crystal panel 13A has a narrow frame Can be

Further, since the width W22 in the direction orthogonal to the extending direction of the second black matrix 27B is set within the range of 0.2 mm to 3.0 mm, the second liquid crystal panel 13B can be reliably narrowed.

Further, since the first and second touch sensor sheets 12A and 12B are disposed on the first and second liquid crystal panels 13A and 13B, the first and second liquid crystal panels 21A and 21B can be touched by the user's finger or the like. You can select the display.

Further, the first source driver 50A and the first gate driver 60A are not provided in a portion of the peripheral portion of the first TFT array substrate 21A on the second TFT array substrate 21B side. Further, the second source driver 50B and the second gate driver 60B are not provided in a portion on the first TFT array substrate 21A side of the peripheral portion of the second TFT array substrate 21B. Therefore, it is possible to prevent the non-display area generated in the vicinity of the boundary between the first liquid crystal panel 21A and the second liquid crystal panel 21B from becoming large.

Hereinafter, a method of manufacturing a display device will be described using the schematic cross-sectional views of FIGS. 6A to 6D.

First, as shown in FIG. 6A, the first CF substrate 122A is disposed on the first TFT array substrate 121A. At this time, the alignment film 24A, the liquid crystal layer 23A and the alignment film 25A are held by the first TFT array substrate 121A and the first CF substrate 122A, and the first seal portion 26A is formed between the first TFT array substrate 121A and the first CF substrate 122A. Seal with (see Figure 5). In addition, a first black matrix 127A is provided between the first CF substrate 122A and the first seal portion 26A. The first seal portion 26A and the first black matrix 127A extend along the peripheral portions of the first TFT array substrate 121A and the first CF substrate 122A.

Next, the ends of the first TFT array substrate 121A, the first CF substrate 122A, and the first black matrix 127A on the right side in FIG. 6A are polished. Thus, as shown in FIG. 6B, the first TFT array substrate 21A has a side end face disposed on the second liquid crystal panel 13B side and the first CF substrate 22A has a second end face disposed on the second liquid crystal panel 13B side. A side end face of the first seal portion 26A disposed on the second liquid crystal panel 13B side, and a side end face of the first black matrix 27A disposed on the second liquid crystal panel 13B side; But it will be flush.

Next, although not shown, the first liquid crystal panel 13A is formed by sticking a polarization filter on each of the lower surface of the first TFT array substrate 21A and the upper surface of the first CF substrate 22A.

Next, the first touch sensor sheet 12A and the first cover glass 11A are stacked in this order on the first liquid crystal panel 13A to which the polarizing filter is attached to form a first liquid crystal display assembly 10A (see FIG. See Figure 2). At this time, a side end face of the first liquid crystal panel 13A disposed on the second liquid crystal display assembly 10B side and a side end face of the first touch sensor sheet 12A disposed on the second liquid crystal display assembly 10B side The first touch sensor sheet 12A is pasted to the first liquid crystal panel 13A with OCA, for example, so that the first cover glass 11A is flush with the side end face of the first cover glass 11A disposed on the second liquid crystal display assembly 10B side. At the same time, the first cover glass 11A is attached to the first touch sensor sheet 12A by, for example, OCA.

Next, as shown in FIG. 6C, the second CF substrate 122B is disposed on the second TFT array substrate 121B. At this time, the alignment film 24B, the liquid crystal layer 23B and the alignment film 25B are held by the second TFT array substrate 121B and the second CF substrate 122B, and the second seal portion 26B is provided between the second TFT array substrate 121B and the second CF substrate 122B. Seal with In addition, a second black matrix 127B is provided between the second CF substrate 122B and the second seal portion 26B. The second seal portion 26B and the second black matrix 127B extend along the peripheral portions of the second TFT array substrate 121B and the second CF substrate 122B.

Next, the left end of the second TFT array substrate 121B, the second CF substrate 122B, and the second black matrix 127B in FIG. 6C is polished. Thus, as shown in FIG. 6D, the second TFT array substrate 21B has a side end surface disposed on the first liquid crystal panel 13A side and the second CF substrate 22B disposed on the first liquid crystal panel 13A side. A side end face which the second seal portion 26B has and is disposed on the side of the first liquid crystal panel 13A, and a side end face which the second black matrix 27B has and is disposed on the side of the first liquid crystal panel 13A But it will be flush.

Next, although not shown, the second liquid crystal panel 13B is formed by sticking a polarization filter on each of the lower surface of the second TFT array substrate 21B and the upper surface of the second CF substrate 22B.

Next, the second touch sensor sheet 12B and the second cover glass 11B are stacked in this order on the second liquid crystal panel 13B to which the polarizing filter is attached to form a second liquid crystal display assembly 10B (see FIG. See Figure 2). At this time, a side end face of the second liquid crystal panel 13B disposed on the first liquid crystal display assembly 10A side and a side end face of the second touch sensor sheet 12B disposed on the first liquid crystal display assembly 10A side The second touch sensor sheet 12B is pasted to the second liquid crystal panel 13B by OCA, for example, so that the second cover glass 11B is flush with the side end face of the second cover glass 11B disposed on the first liquid crystal display assembly 10A side. While attaching, the second cover glass 11B is attached to the second touch sensor sheet 12B by OCA, for example.

Finally, the second liquid crystal display assembly 10B is placed on the side of the first liquid crystal display assembly 10A such that the polished side end of the first liquid crystal panel 13A is in contact with the polished side end of the second liquid crystal panel 13B. Arrange to obtain the liquid crystal display assembly 1 (see FIG. 5).

Thus, the side end face of the first TFT array substrate 21A disposed on the second liquid crystal panel 13B side, the side end face of the first CF substrate 22A disposed on the second liquid crystal panel 13B side, and The side end face of the first seal portion 26A disposed on the second liquid crystal panel 13B side is flush with the side end face of the first black matrix 27A disposed on the second liquid crystal panel 13B side. Therefore, the side end surface of the first seal portion 26A disposed on the second liquid crystal panel 13B side can be brought into contact with the side end surface of the second liquid crystal panel 13B. Therefore, it is possible to eliminate the non-display area between the side end surface of the first seal portion 26A disposed on the second liquid crystal panel 13B side and the side end surface of the second liquid crystal panel 13B. As a result, it is possible to reduce the non-display area generated near the boundary between the first liquid crystal panel 13A and the second liquid crystal panel 13B.

Further, the side surface of the second TFT array substrate 21B disposed on the side of the first liquid crystal panel 13A, the side surface of the second CF substrate 22B disposed on the side of the first liquid crystal panel 13A, the second seal Since the side end surface of the portion 26B disposed on the first liquid crystal panel 13A side and the side end surface of the second black matrix 27B disposed on the first liquid crystal panel 13A are flush with each other, The side end surface of the second seal portion 26B disposed on the side of the first liquid crystal panel 13A can be brought into contact with the side end surface of the first liquid crystal panel 13A. Therefore, it is possible to eliminate the non-display area between the side end surface of the second seal portion 26B disposed on the side of the first liquid crystal panel 13A and the side end surface of the first liquid crystal panel 13A. As a result, the reduction effect of the non-display area in the vicinity of the boundary between the first liquid crystal panel 13A and the second liquid crystal panel 13B can be enhanced.

In the first embodiment, the surface of the first TFT array substrate 21A is formed to be larger than the surface of the first CF substrate 22A, but is formed to have the same size as the surface of the first CF substrate 22A. It is also good.

In the first embodiment, the surface of the second TFT array substrate 21B is formed to be larger than the surface of the second CF substrate 22B, but is formed to have the same size as the surface of the second CF substrate 22B. It is also good.

As described above, when the surfaces of the first and second TFT array substrates 21A and 21B and the surface of the first CF substrate 22A have the same size, the TFTs 32A, 32A,..., 32B, 32B,. The IC chip for this purpose may be formed directly on the TFT array substrates 21A and 21B. For example, there is a technology called GOA (Gate on Array) as a technology for directly forming on a TFT array substrate an IC chip that outputs a signal to the gate of the TFT.

In the first embodiment, nothing is interposed between the side end face of the first liquid crystal panel 13A on the second liquid crystal panel 13B side and the side end face of the second liquid crystal panel 13B on the first liquid crystal panel 13A side. However, for example, an adhesive may be interposed.

In the first embodiment, the side end face of the first liquid crystal panel 13A on the second liquid crystal panel 13B side is obtained by performing only the polishing process, but for example, after performing the cutting process or the laser process, the polishing process is performed May be obtained.

In the first embodiment, after the laminated structure of FIG. 6A is formed, the end portions on the right side in FIG. 6A of the first TFT array substrate 21A, the first CF substrate 22A and the first black matrix 27A are polished to form the first seal portion. The right end in FIG. 6A of 26A was not polished but may be polished.

Further, the side end surface of the first seal portion 26A disposed on the second liquid crystal panel 13B side and the side end surface of the first black matrix 27A disposed on the second liquid crystal panel 13B side are polished Even if it is not included, if it is included in the same surface, only the end on the right side in FIG. 6A of the first TFT array substrate 21A and the first CF substrate 22A may be polished.

In the first embodiment, a side end face of the first liquid crystal panel 13A disposed on the second liquid crystal display assembly 10B side and a first touch sensor sheet 12A disposed on the second liquid crystal display assembly 10B side And the side end face of the first cover glass 11A disposed on the second liquid crystal display assembly 10B side are not made flush by processing such as polishing, but processing such as polishing It may be made flush with the process.

In addition, the modification as described above may be performed in the second liquid crystal panel 13B or the second liquid crystal display assembly 10B.

In the first embodiment, after the steps corresponding to FIGS. 6A and 6B are performed, the steps corresponding to FIGS. 6C and 6D are performed. However, after the steps corresponding to FIGS. 6C and 6D are performed, The steps corresponding to FIGS. 6A and 6B may be performed.


Second Embodiment
FIG. 7 is a schematic view showing a cross section of the liquid crystal display assembly 201 and the periphery thereof included in the display device of the second embodiment of the present invention. In FIG. 7, the same components as those in FIG. 2 are denoted by the same reference numerals as those in FIG. 2.

The liquid crystal display assembly 201 according to the second embodiment differs from the liquid crystal display assembly 1 according to the first embodiment in that the liquid crystal display assembly 201 according to the second embodiment includes a single cover glass 211 covering the first and second touch sensor sheets 12A and 12B. However, the other points are the same as those of the liquid crystal display assembly 1 of the first embodiment.

The liquid crystal display assembly 201 configured as described above provides the same effects as the liquid crystal display assembly 1 of the first embodiment, and additionally includes a single cover glass 211 covering the first and second touch sensor sheets 12A and 12B. , Cover glass pasting process will be once. Therefore, the manufacturing process of the liquid crystal display assembly 201 can be simplified to reduce the manufacturing cost.

In the second embodiment, the first and second touch sensor sheets 12A and 12B are covered with a single cover glass 211, but may be covered with a single protective film, for example.

Third Embodiment
FIG. 8 is a schematic view showing a cross section of a liquid crystal display assembly 301 and the periphery thereof provided in a display device according to a third embodiment of the present invention. In FIG. 8, the same components as those in FIG. 2 are denoted by the same reference numerals as those in FIG.

The liquid crystal display assembly 301 according to the third embodiment includes a cover glass 311 whose section has a curved shape, and first and second touch sensor sheets 312A and 312B whose section has a curved shape. , And second liquid crystal panels 313A and 313B. This cover glass 311 is equivalent to what curved the cover glass 211 of 2nd Embodiment.

Further, the first and second touch sensor sheets 312A and 312B and the first and second liquid crystal panels 313A and 313B are the first and second touch sensor sheets 12A and 12B and the first and second liquid crystal panels of the first embodiment. It corresponds to what curved 13A, 13B.

Further, on the opposite side of the first and second liquid crystal panels 313A and 313B to the first and second cover glasses 311A and 311B, a light guide plate 303 having a curved cross section is disposed. The light guide plate 303 plays the same role as the light guide plate 3 of the first embodiment.

According to the liquid crystal assembly of the above configuration, in addition to the same function and effect as the liquid crystal assembly 1 of the first embodiment, since the cross sections of the first and second liquid crystal panels 313A and 313B have a curved shape, the viewing angle is widened. be able to.

Fourth Embodiment
FIG. 9 is a schematic view of an essential part of a liquid crystal display assembly 401 provided in a display device according to a fourth embodiment of the present invention as viewed from above. In FIG. 9, the same components as those in FIGS. 3 and 4 are denoted by the same reference numerals as those in FIGS. 3 and 4.

The liquid crystal display assembly 401 according to the fourth embodiment is different from the liquid crystal display assembly 1 according to the first embodiment in that the liquid crystal display assembly 401 according to the fourth embodiment includes two first and second liquid crystal panels 13A and 13B. As for the case, the liquid crystal display assembly of the first embodiment is formed in the same manner.

More specifically, the upper first liquid crystal panel 13A in FIG. 9 is adjacent to the upper second liquid crystal panel 13B in FIG. 9 in the longitudinal direction of the first TFT array substrate 21A and the first CF substrate 22A. It is adjacent to the lower second liquid crystal panel 13B in FIG. 9 in the lateral direction (direction orthogonal to the longitudinal direction) of the 1 TFT array substrate 21A and the first CF substrate 22A.

Further, the lower first liquid crystal panel 13A in FIG. 9 is adjacent to the lower second liquid crystal panel 13B in FIG. 9 in the longitudinal direction of the first TFT array substrate 21A and the first CF substrate 22A, and the first TFT It is adjacent to the upper second liquid crystal panel 13B in FIG. 9 in the short direction of the array substrate 21A and the first CF substrate 22A.

The first and second liquid crystal panels 13A and 13B on the upper side in FIG. 9 rotated 180 degrees correspond to the first and second liquid crystal panels 13A and 13B on the lower side in FIG.

Further, although not shown, a touch sensor sheet and a cover glass are disposed on the first and second liquid crystal panels 13A and 13B as in the first embodiment.

The liquid crystal display assembly 401 configured as described above exerts the same function and effect as the liquid crystal assembly 1 of the first embodiment, and widens the display screen in the longitudinal direction and the lateral direction (direction orthogonal to the longitudinal direction) of the liquid crystal panel 413. be able to.

Further, the lower side end surface in FIG. 9 of the upper first liquid crystal panel 13A in FIG. 9, the lower side end surface in FIG. 9 of the upper second liquid crystal panel 13B in FIG. At least one of the upper side end face of the first liquid crystal panel 13A in FIG. 9 and the upper side end face of the lower second liquid crystal panel 13B in FIG. 9 in the same manner as in the first embodiment. The surface may be polished to a flat surface.

Fifth Embodiment
FIG. 10 is a schematic view of the main part of a liquid crystal display assembly 501 provided in the display device of the fifth embodiment of the present invention as viewed from above. In FIG. 10, the same components as those in FIG. 3 are denoted by the same reference numerals as those in FIG.

The liquid crystal display assembly 501 of the fifth embodiment includes two liquid crystal panels 513 and 513.

The liquid crystal panels 513 and 513 have the same laminated structure as the first and second liquid crystal panels 13A and 13B in the first embodiment, but along three sides of the TFT array substrate 521 having a rectangular shape in plan view. A part of the top surface of the TFT array substrate 521 is exposed. Among the three sides, one side in parallel with the longitudinal direction of the liquid crystal panels 513 and 513 is connected to the source drivers 50A and 50A. Further, of the three sides, gate drivers 60A and 60A are connected to two sides parallel to the short side direction (direction orthogonal to the longitudinal direction) of the liquid crystal panels 513 and 513.

Further, at least one of the lower side end surface of the upper liquid crystal panel 513 in FIG. 10 and the upper side end surface of the lower liquid crystal panel 513 in FIG. 10 is the first embodiment. It is polished in the same way as above, and has a flat surface.

Although not shown, a touch sensor sheet and a cover glass are disposed on the liquid crystal panels 513 and 513 as in the first embodiment.

In FIG. 10, reference numeral 522 denotes a CF substrate having a rectangular shape in plan view.

According to the liquid crystal display assembly 501 having the above configuration, in addition to the same function and effect as the liquid crystal display assembly 1 of the first embodiment, the display screen is widened in the short side direction (direction orthogonal to the longitudinal direction) of the liquid crystal panel 513. be able to.

In the fifth embodiment, a part of the top surface of the TFT array substrate 521 is exposed along the three sides of the TFT array substrate 521, but the top surface of the TFT array substrate 521 along only one side of the TFT array substrate 521 Some may be exposed. In this case, a driver having both the functions of the source driver 50A and the gate driver 60A may be connected to the one side.

Although the specific embodiment of this invention was described, this invention is not limited to the said embodiment, It can change variously within the scope of this invention, and can be implemented. For example, a combination of the contents described in the first to fifth embodiments as appropriate, in which a part of the component is deleted or replaced with another component as necessary, corresponds to one of the present invention. It is good also as an embodiment.

The following is the summary of the above disclosure.

The display device according to one aspect of the present invention is
First display panels 13A, 313A, 513,
A second display panel 13B, 313B, 513, which is disposed adjacent to the first display panel 13A, 313A, 513 and whose side end faces the side end faces of the first display panel 13A, 313A, 513;
The first display panels 13A, 313A, 513 are
First lower substrates 21A, 521 having a rectangular shape in plan view,
A first upper substrate 22A, 522 having a rectangular shape in a plan view disposed on the first lower substrate 21A, 521;
The peripheral portion of the first lower substrate 21A, 521 and the peripheral edge of the first upper substrate 22A, 522 extend along the peripheral portions of the first lower substrate 21A, 521 and the first upper substrate 22A, 522. And a first seal portion 26A for sealing between the
Side end surfaces of the first lower substrates 21A, 521 on the second display panels 13B, 313B, 513 side, and side end surfaces of the first upper substrates 22A, 522 on the second display panels 13B, 313B, 513 side; The side end surfaces of the first seal portion 26A on the side of the second display panels 13B, 313B, and 513 are flush with each other.

According to the above configuration, the side surface of the first lower substrate 21A, 521 on the side of the second display panel 13B, 313B, 513 and the side of the first upper substrate 22A, 522 on the side of the second display panel 13B, 313B, 513 The end face and the side end face of the first seal portion 26A on the second display panel 13B, 313B, 513 side are flush with each other. As a result, the side end surface of the first seal portion 26A on the second display panel 13B, 313B, 513 side is brought close to the side end surface of the second display panel 13B, 313B, 513, and the second display panel of the first seal portion 26A. It is possible to reduce the non-display area between the side end face on the side of 13B, 313B, 513 and the side end face of the second display panel 13B, 313B, 513. Therefore, it is possible to reduce the non-display area generated near the boundary between the first display panel 13A, 313A, 513 and the second display panel 13B, 313B, 513.

The display device of an embodiment
The first upper substrate 22A, 522 is provided between the first seal portion 26A and extends along the peripheral portions of the first lower substrate 21A, 521 and the first upper substrate 22A, 522. 1 has a light shielding portion 27A,
The side end surfaces of the first light shielding portion 27A on the second display panel 13B, 313B, and 513 side are flush with the side end surfaces of the first seal portion 26A on the second display panel 13B, 313B, and 513 side. ing.

According to the above embodiment, the side end surface of the first light shielding portion 27A on the second display panel 13B, 313B, 513 side is flush with the side end surface of the first seal portion 26A on the second display panel 13B, 313B, 513 side. Is formed. Thus, even if the first light shielding portion 27A is provided between the first upper substrate 22A, 522 and the first seal portion 26A, the second display panel 13B, 313B, 513 side of the first seal portion 26A The side end face can be brought close to the side end face of the second display panel 13B, 313B, 513.

In the display device of one embodiment,
The width W12 in the direction orthogonal to the extending direction of the first light shielding portion 27A is the same as the width W11 in the direction orthogonal to the extending direction of the first seal portion 26A.

According to the embodiment, the width W12 in the direction orthogonal to the extending direction of the first light shielding portion 27A is the same as the width W11 in the direction orthogonal to the extending direction of the first seal portion 26A. The display panels 13A, 313A, 513 can be narrowed.

In the display device of one embodiment,
The width W12 in the direction orthogonal to the extending direction of the first light shielding portion 27A is in the range of 0.2 mm to 3.0 mm.

According to the above embodiment, since the width W11 in the direction orthogonal to the extending direction of the first light shielding portion 27A is in the range of 0.2 mm to 3.0 mm, the first display panels 13A, 313A, The frame 513 can be reliably narrowed.

In the display device of one embodiment,
The second display panels 13B, 313B and 513 are
Second lower substrates 21B and 521 having a rectangular shape in plan view;
Second upper substrates 22B and 522 having a rectangular shape in plan view disposed on the second lower substrates 21B and 521, and
The peripheral portion of the second lower substrate 21B, 521 and the peripheral edge of the second upper substrate 22B, 522 extend along the peripheral portions of the second lower substrate 21B, 521 and the second upper substrate 22B, 522. And a second seal portion 26B for sealing between the
Side end surfaces of the second lower substrates 21B, 521 on the first display panels 13A, 313A, 513 side, and side end surfaces of the second upper substrates 22B, 522 on the first display panels 13A, 313A, 513 side; The side end surfaces of the second seal portion 26B on the first display panel 13A, 313A, 513 side are flush with each other.

According to the above embodiment, the side surface of the second lower substrate 21B, 521 on the side of the first display panel 13A, 313A, 513 and the second upper substrate 22B, 522 on the side of the first display panel 13A, 313A, 513 The side end surface and the side end surface of the second seal portion 26B on the first display panel 13A, 313A, 513 side are formed flush with each other. As a result, the side end surface of the second seal portion 26B on the first display panel 13A, 313A, 513 side is brought close to the side end surface of the first display panel 13A, 313A, 513, and the first display panel of the second seal portion 26B. It is possible to reduce the non-display area between the side end face on the side of 13A, 313A, 513 and the side end face of the first display panel 13A, 313A, 513. Therefore, the reduction effect of the non-display area in the vicinity of the boundary between the first display panel 13A, 313A, 513 and the second display panel 13B, 313B, 513 can be enhanced.

In the display device of one embodiment,
A second upper substrate 22B provided between the second upper substrate 22B, 522 and the second seal portion 26B, and extending along the peripheral portions of the second lower substrate 21B, 521 and the second upper substrate 22B, 522; 2 has a light shielding portion 27B,
The side end face of the second light shielding portion 27B on the first display panel 13A, 313A, 513 side is formed flush with the side end face of the second seal portion 26B on the first display panel 13A, 313A, 513 side. ing.

According to the above-described embodiment, the side end surface of the second light shield 27B on the second display panel 13B, 313B, 513 side is flush with the side end surface of the second seal portion 26B on the first display panel 13A, 313A, 513 side. Is formed. Thus, even if the second light shielding portion 27B is provided between the second upper substrate 22B, 522 and the second seal portion 26B, the side of the second display portion 26B on the side of the first display panel 13A, 313A, 513 The end face can be brought close to the side end face of the first display panel 13A, 313A, 513.

In the display device of one embodiment,
The width W22 in the direction orthogonal to the extending direction of the second light shielding portion 27B is the same as the width W21 in the direction orthogonal to the extending direction of the second seal portion 26B.

According to the above embodiment, the width W22 in the direction orthogonal to the extending direction of the second light shielding portion 27B is the same as the width W21 in the direction orthogonal to the extending direction of the second seal portion 26B. The display panels 13B, 313B, and 513 can be narrowed.

In the display device of one embodiment,
The width W22 in the direction orthogonal to the extending direction of the second light shielding portion 27B is in the range of 0.2 mm to 3.0 mm.

According to the above embodiment, since the width W22 in the direction orthogonal to the extending direction of the second light shielding portion 27B falls within the range of 0.2 mm to 3.0 mm, the second display panels 13B, 313B, The frame 513 can be reliably narrowed.

The display device of an embodiment
The touch sensor sheets 12A, 12B, 312A, and 312B disposed on the first and second display panels 13B, 313B, and 513, respectively, detect a touch of the user.

According to the above embodiment, since the touch sensor sheets 12A, 12B, 312A, and 312B for detecting the touch of the user are disposed on the first and second display panels 13B, 313B, and 513, the user can By touching the second display panels 13B, 313B, and 513, the display of the first and second display panels 13B, 313B, and 513 can be selected.

In the display device of one embodiment,
The first lower substrate 21A, 521 and the second lower substrate 21B, 521 respectively have a plurality of thin film transistors 32A, 32A, ..., 32B, 32B, ...
The drivers 50A, 60A for driving the thin film transistors 32A, 32A,... Of the first lower substrate 21A, 521 are the peripheral portions of the first lower substrate 21A, 521 other than the second lower substrate 21B, 521 side. Provided in a portion and not provided in a portion on the second lower substrate 21B, 521 side of the peripheral portion of the first lower substrate 21A, 521, and
The drivers 50A, 60B, 50B, 60B for driving the thin film transistors 32B, 32B,... Of the second lower substrate 21B, 521 are the first lower substrate of peripheral portions of the second lower substrate 21B, 521. It is provided in a portion other than the 21A, 521 side, and is not provided in a portion of the peripheral portion of the second lower substrate 21 B, 521 at the first lower substrate 21 A, 521 side.

According to the above-described embodiment, the thin film transistors 32A, 32A,... Of the first lower substrate 21A, 521 are formed in the peripheral portion of the first lower substrate 21A, 521 on the second lower substrate 21B, 521 side. The drivers 50A, 60A, 50B, 60B for driving the drive are not provided. Further, a driver for driving the thin film transistors 32B, 32B,... Of the second lower substrate 21B, 521 is provided at a portion of the peripheral portion of the second lower substrate 21B, 521 on the side of the first lower substrate 21A, 521. 50A, 60A, 50B, 60B are not provided. Therefore, it is possible to prevent the non-display area generated in the vicinity of the boundary between the first display panel 13A, 313A, 513 and the second display panel 13B, 313B, 513 from becoming large.

A method of manufacturing a display device according to an aspect of the present invention is
To manufacture a display device including a first display panel 13A and a second display panel 13B disposed adjacent to the first display panel 13A and having a side end face facing the side end face of the first display panel 13A A method of manufacturing a display device of
In order to obtain the first display panel 13A, the first lower substrate 121A having a rectangular shape in plan view, the first upper substrates 122A and 522 having a rectangular shape in plan view disposed on the first lower substrate 121A, and the first upper substrate A first seal extending along the peripheral edge of the lower substrate 121A and the first upper substrate 122A and sealing between the peripheral edge of the first lower substrate 121A and the peripheral edge of the first upper substrate 122A Forming a portion 26A;
By processing at least one of the first lower substrate 121A, the first upper substrate 122A, and the first seal portion 26A, the first lower substrate 121A is provided and disposed on the second display panel 13B side. Side end face, the side end face of the first upper substrate 122A disposed on the second display panel 13B side, and the first seal portion 26A disposed on the second display panel 13B side And making the end face flush with the end face.

According to the above configuration, the side surface of the first lower substrate 121A is disposed on the second display panel 13B side and the side of the first upper substrate 122A is disposed on the second display panel 13B The end face and the side end face which the first seal portion 26A has and is disposed on the second display panel 13B side are made flush. As a result, the side end surface of the first seal portion 26A disposed on the second display panel 13B side is brought close to the side end surface of the second display panel 13B, and the side end surface and the side end surface of the second display panel 13B The non-display area between can be reduced. Therefore, the non-display area generated in the vicinity of the boundary between the first display panel 13A and the second display panel 13B can be reduced.

The manufacturing method of the display device of one embodiment is
In order to obtain the second display panel 13B, a second lower substrate 121B having a rectangular shape in a plan view, a second upper substrate 122B having a rectangular shape in a plan view disposed on the second lower substrate 121B, and the second lower substrate A second seal portion 26B extending along the peripheral edge of the second upper substrate 122B and sealing between the peripheral edge of the second lower substrate 121B and the peripheral edge of the second upper substrate 122B. And forming the
By processing at least one of the second lower substrate 121B, the second upper substrate 122B, and the second seal portion 26B, the second lower substrate 121B is provided and disposed on the first display panel 13A side. Side end face, the side end face of the second upper substrate 122B disposed on the side of the first display panel 13A, and the second seal portion 26B disposed on the side of the first display panel 13A And making the end face flush with the end face.

According to the above embodiment, the second lower substrate 121B has the side end surface disposed on the first display panel 13A side and the second upper substrate 122B has the second end substrate disposed on the first display panel 113A side. The side end face and the side end face which the second seal portion 26B has and is disposed on the first display panel 13A side are made flush. As a result, the side end surface of the second seal portion 26B disposed on the side of the first display panel 13A is brought closer to the side end surface of the first display panel 13A, and the side end surface and the side end surface of the first display panel 13A The non-display area between can be reduced. Therefore, the reduction effect of the non-display area in the vicinity of the boundary between the first display panel 13A and the second display panel 13B can be enhanced.

1,201,301,401,501 Liquid Crystal Display Assembly 2 Controller 3 Light Guide Plate 4 Light Source 10A First Liquid Crystal Display Assembly 10B Second Liquid Crystal Display Assembly 11A First Cover Glass 11B Second Cover Glass 12A First Touch Sensor Sheet 12B First 2 touch sensor sheet 13A, 313A first liquid crystal panel 13B, 313B second liquid crystal panel 21A, 121A first TFT array substrate 21B, 121B second TFT array substrate 22A, 122A first CF substrate 22B, 122B second CF substrate 26A first seal portion 26B Second seal portion 27A First black matrix 27B Second black matrix 32A, 32B TFT
33A, 33B pixel electrode 50A source driver 60A gate driver 211 cover glass 513 liquid crystal panel 521 TFT array substrate 522 CF substrate

Claims (12)

1. A first display panel,
   And a second display panel disposed so as to be adjacent to the first display panel and having a side end face facing the side end face of the first display panel.
   The first display panel is
   A first lower substrate having a rectangular shape in plan view,
   A first upper substrate having a rectangular shape in a plan view disposed on the first lower substrate;
   A first seal portion extending along the peripheral edge of the first lower substrate and the first upper substrate and sealing between the peripheral edge of the first lower substrate and the peripheral edge of the first upper substrate Have and
   The side end face of the first lower substrate on the side of the second display panel, the side end face of the first upper substrate on the side of the second display panel, and the side end face of the first seal portion on the side of the second display panel The display device is characterized in that it is formed flush.
2. In the display device according to claim 1,
   A first light shielding portion provided between the first upper substrate and the first seal portion and extending along the peripheral edge portions of the first lower substrate and the first upper substrate;
   A display device characterized in that a side end face on the second display panel side of the first light shielding part is flush with a side end face on the second display panel side of the first seal part.
3. In the display device according to claim 2,
   A display device characterized in that a width in a direction orthogonal to the extending direction of the first light shielding portion is the same as a width in a direction orthogonal to the extending direction of the first seal portion.
4. In the display device according to claim 3,
   A display device characterized in that the width in the direction orthogonal to the extending direction of the first light shielding portion is in the range of 0.2 mm to 3.0 mm.
5. The display device according to any one of claims 1 to 4.
   The second display panel is
   A second lower substrate having a rectangular shape in plan view,
   A second upper substrate having a rectangular shape in plan view disposed on the second lower substrate;
   A second seal portion extending along the peripheral portions of the second lower substrate and the second upper substrate to seal between the peripheral portion of the second lower substrate and the peripheral portion of the second upper substrate Have and
   A side end face of the second lower substrate on the first display panel side, a side end face of the second upper substrate on the first display panel side, and a side end surface of the second seal portion on the first display panel side The display device is characterized in that it is formed flush.
6. In the display device according to claim 5,
   A second light shielding portion provided between the second upper substrate and the second seal portion and extending along the peripheral edge portions of the second lower substrate and the second upper substrate;
   A display device characterized in that a side end face on the first display panel side of the second light shielding part is flush with a side end face on the first display panel side of the second seal part.
7. In the display device according to claim 6,
   A display device characterized in that the width of the second light shielding portion in the direction orthogonal to the extending direction is the same as the width of the second seal portion in the direction orthogonal to the extending direction.
8. In the display device according to claim 7,
   A display device characterized in that the width in the direction orthogonal to the extending direction of the second light shielding portion is in the range of 0.2 mm to 3.0 mm.
9. The display device according to any one of claims 1 to 8.
   A display device comprising a touch sensor sheet disposed on the first and second display panels and detecting a touch of a user.
10. The display device according to any one of claims 1 to 9.
    Each of the first lower substrate and the second lower substrate has a plurality of thin film transistors,
    The driver for driving the thin film transistor of the first lower substrate is provided at a portion other than the second lower substrate side of the peripheral portion of the first lower substrate, and the driver of the first lower substrate 2) not provided on the lower substrate side,
    A driver for driving the thin film transistor of the second lower substrate is provided at a portion other than the first lower substrate side of the peripheral portion of the second lower substrate, and a driver of the peripheral portion of the second lower substrate is provided. A display device characterized in that the display device is not provided in the portion on the first lower substrate side.
11. A display device for manufacturing a display device comprising: a first display panel; and a second display panel disposed adjacent to the first display panel and having a side end face facing the side end face of the first display panel. A manufacturing method,
    In order to obtain the first display panel, the first lower substrate having a rectangular shape in a plan view, the first upper substrate having a rectangular shape in a plan view disposed on the first lower substrate, the first lower substrate, and the first upper Forming a first seal portion extending along the peripheral portion of the substrate to seal between the peripheral portion of the first lower substrate and the peripheral portion of the first upper substrate;
    A side end face of the first lower substrate provided on the side of the second display panel by processing at least one of the first lower substrate, the first upper substrate, and the first seal portion; The side end face of the first upper substrate disposed on the second display panel side is flush with the side end face of the first seal portion disposed on the second display panel side. And a process of manufacturing the display apparatus.
12. In the method of manufacturing a display device according to claim 11,
    In order to obtain the second display panel, a second lower substrate having a rectangular shape in a plan view, a second upper substrate having a rectangular shape in a plan view disposed on the second lower substrate, and the second lower substrate and a second upper surface Forming a second seal portion extending along the peripheral portion of the substrate to seal between the peripheral portion of the second lower substrate and the peripheral portion of the second upper substrate;
    A side end face which the second lower substrate has and is disposed on the first display panel side by processing at least one of the second lower substrate, the second upper substrate, and the second seal portion; The side end face of the second upper substrate disposed on the side of the first display panel is flush with the side end face of the second seal portion disposed on the side of the first display panel. A method of manufacturing a display device.

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