This application claims priority under 35 U.S.C. § 119 from, and the benefit of, Korean Patent Application No. 10-2019-0168243, filed in the Korean Intellectual Property Office on Dec. 16, 2019, the contents of which are herein incorporated by reference in their entirety.
Embodiments of the present disclosure are directed to a display device.
In manufacturing a display device, to attach a window that protects a display panel to the display panel, an adhesive layer is formed between the display panel and the window and they are pressed to attach them.
However, an edge portion of the adhesive layer diffuses due to the applied pressure, so that the thickness of the edge portion of the adhesive layer becomes less than the thickness of the other portions, and a gap between the display panel and the window is not uniform, depending on the thickness difference.
As such, when a gap between the display panel and the window is not uniform, display quality degradation can occur.
Embodiments provide a display device that prevents the edge of an adhesive layer disposed between the display panel and the window from diffusing, thereby maintaining the interval between the display panel and the window.
Embodiments of the present invention are not limited to the above-described object, and may be variously extended without departing from the spirit and scope of embodiments of the present disclosure.
A display device according to an embodiment includes: a display panel; a touch unit that overlaps the display panel; a window that overlaps the display panel and the touch unit; an optical adhesive layer disposed between the touch unit and the window; and a blocking layer disposed between the touch unit and the window and next to the optical adhesive layer.
The blocking layer may have a thickness that increases with increasing distance from the optical adhesive layer.
The blocking layer may have step structure whose thickness increases with increasing distance from the optical adhesive layer.
A part of the blocking layer may overlap the optical adhesive layer.
The part of the blocking layer that overlaps the optical adhesive layer may extend between the optical adhesive layer and the touch unit.
The blocking layer may overlap the edge of the touch unit.
The display device may further include a light blocking film disposed on a surface of the window adjacent to the touch unit, where the light blocking film may be disposed at the edge of the window, and the blocking layer may overlap the light blocking film.
The display device may further include a driving unit connected to the touch unit through a connection part.
The touch unit may include a first edge portion on which the connection part is disposed and a second edge portion on which the blocking layer disposed.
The connection part is not disposed on the second edge portion, and the blocking layer is not disposed on the first edge portion.
A display device according to an embodiment includes: a touch unit; a window that overlaps the touch unit; a driving unit connected to the touch unit through a connection part; an optical adhesive layer disposed between the touch unit and the window; and a blocking layer disposed next to the optical adhesive layer and that overlaps an edge of the touch unit.
The touch unit may include a first edge portion on which the connection part is disposed and a second edge portion on which the blocking layer is disposed.
The blocking layer is not disposed at the first edge portion, and the connection part is not disposed on the second edge portion.
The display device may further include a display panel. The touch unit may overlap the display panel, and the window may overlap the display panel and the touch unit.
According to the embodiments, as an edge of the adhesive layer disposed between the display panel and the window can be prevented from expanding, an interval between the display panel and the window can be kept constant, thereby constantly maintaining the distance between the display panel and the window.
Exemplary embodiments of the present disclosure will be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments of the disclosure are shown. As those skilled in the art would realize, exemplary embodiments may be modified in various different ways, all without departing from the spirit or scope of embodiments of the present disclosure.
Like reference numbers may designate like constituent elements through the specification.
In addition, the size and thickness of each configuration shown in the drawings may be arbitrarily shown for better understanding and ease of description. In the drawings, the thickness of layers, films, panels, regions, etc., may be exaggerated for clarity.
It will be understood that when an element such as a layer, film, region, or substrate is referred to as being “on” another element, it can be directly on the other element or intervening elements may also be present.
Next, an exemplary embodiment of the present disclosure is described in detail with reference to accompanying drawings. The same reference numerals may be used for the same components in the drawings, and duplicate descriptions of the same components are omitted.
A display device according to an embodiment is described with reference to
First, referring to
According to an embodiment, the display panel 100 includes the bent part BA, and the display panel 100 includes a first portion FP1 and a second portion FP2 disposed on opposite sides of the bent part BA, facing each other along a third direction D3, and being substantially flat with respect to a plane defined by a first direction D1 and a second direction D2 that crosses the first direction DR1. Note that the third direction DR3 is normal to the plane defined by the first and second directions DR1, DR2. The bent part BA can be bent about a bending axis parallel to the second direction.
According to an embodiment, two flat supporting layers 1100 face each other and overlap the first portion FP1 and the second portion FP2, respectively. Each supporting layer 1100 supports the flat first portion FP1 and second portion FP2 of the display panel 100.
According to an embodiment, a metal layer 1200 and an auxiliary layer 1300 are disposed between the two supporting layers 1100. The auxiliary layer 1300 uniformly maintains the interval between the flat first portion FP1 and the second portion FP2 of the display panel 100, and may adhere the overlying and underlying layers by having adherence.
According to an embodiment, a protection layer 120 is disposed in the bent part BA of the display panel 100, thereby protecting the bent part BA of the display panel 100. A polarization layer 130 is disposed between the display panel 100 and the touch unit 200.
According to an embodiment, a first adhesive layer 1400 is disposed between the polarization layer 130 and the touch unit 200, a second adhesive layer 1500 is disposed between parts of the flat display panel 100 and two supporting layers 1100, and a third adhesive layer 1600 is disposed between the metal layer 1200 and the one of the supporting layers 1100.
According to an embodiment, a display panel driving unit 110 is connected to the display panel 100, and a touch unit driving unit 210 is connected to the touch unit 200.
According to an embodiment, an optically clear adhesive layer 3000 is disposed between the touch unit 200 and the window 300. The optical adhesive layer 3000 is adhesive and has a transmittance of about 90% or more.
According to an embodiment, a blocking layer 3100 is disposed next to the optical adhesive layer 3000 along the first direction D1 and overlaps the edge of the touch unit 200.
According to an embodiment, the blocking layer 3100 prevents the optical adhesive layer 3000 from diffusing toward the edge.
Referring to
According to an embodiment, the blocking layer 3100 overlaps the light blocking film 400.
According to an embodiment, the blocking layer 3100 becomes with increasing distance from the edge of the optical adhesive layer 3000, and has a step shape.
According to an embodiment shown in
The display device 10 according to an embodiment includes the blocking layer 3100 disposed between the window 300 and the touch unit 200, adjacent to the edge of the optical adhesive layer 3000, and overlapping of the touch unit 200.
According to an embodiment, the blocking layer 3100 is disposed adjacent to the edge of the optical adhesive layer 3000, thereby preventing the edge of the optical adhesive layer 3000 from unnecessarily extending in the step of adhering the window 300 and the step applying external pressure from the outside. As such, by preventing the edge of the optical adhesive layer 3000 from expanding, the thickness of the edge portion of the optical adhesive layer 3000 is prevented from thinning. Accordingly, the distance between the window 300 and the touch unit 200, and the window 300 and the display panel 100, is kept constant.
Next, according to an embodiment, a path of light between the window 300 and the touch unit 200, and between the window 300 and the display panel 100 under the touch unit 200, is described with reference to
Referring to
After a first light L1 incident from the outside is refracted by the window 300, the first light L1 is refracted again at a different angle while passing through the optical adhesive layer 3000 having the first thickness DD1, and then a part of the first light L1 is reflected from the surface of the touch unit 200 and exits by a first path L11 through the optical adhesive layer 3000 and the window 300. The remaining part is incident to the touch unit 200 and then is reflected from the surface of the display panel 100 disposed below the touch unit 200 and again exits by a second path L12 through the touch unit 200, the optical adhesive layer 3000, and the window 300. As such, the first light L1 exits along the first path L11 and the second path L12, depending on the incident and reflected layer, and a first path difference x1 occurs between the first path L11 and the second path L12.
A second light L2 incident from the outside has the same initial incident angle as the first light L1, but passes through the optical adhesive layer 3000 having the second thickness DD2. In detail, after the second light L2 incident from the outside is refracted by the window 300, the second light L2 is again refracted at a different angle through the optical adhesive layer 3000 having the second thickness DD2, and then a part of the second light L2 is reflected from the surface of the touch unit 200 and exits by a third path L21 through the optical adhesive layer 3000 and the window 300. The remaining part is incident to the touch unit 200 and then reflected from the surface of the display panel 100 disposed below the touch unit 200 and again exits by a fourth path L22 through the touch unit 200, the optical adhesive layer 3000, and the window 300. As such, the second light L2 exits along the third path L21 and the fourth path L22, depending on the incident and reflected layer, and a second path difference x2 occurs between the third path L21 and the fourth path L22. The second path difference x2 is less than the first path difference x1. Since the second thickness DD2 through which the second light L2 has passed is less than the first thickness DD1 through which the first light L1 has passed, the change of the refractive angle due to the optical adhesive layer 3000 is relatively small, and since the angle between the surface of the optical adhesive layer 3000 and the incident angle of the second light L2 is also increased, the second path difference x2 of the second light L2 differs from the first path difference x1 of the first light L1.
As described above, the path difference of emitted light that was incident from outside of the display device with the same incidence angle and reflected through each layer differs depending on where the light is incident on the display device, and the difference can recognized from the outside of the display device. This degrades the display quality.
However, as described above, the display device 10 according to an embodiment includes the blocking layer 3100 disposed between the window 300 and the touch unit 200, adjacent to the edge of the optical adhesive layer 3000, and overlapping the edge of the touch unit 200.
According to an embodiment, the blocking layer 3100 is disposed adjacent to the edge of the optical adhesive layer 3000, thereby preventing the optical adhesive layer 3000 from unnecessarily expanding in the step of adhering the window 300 and the step of applying external pressure. As such, by preventing the edge of the optical adhesive layer 3000 from expanding, the thickness of the edge portion of the optical adhesive layer 3000 can be maintained constant. Accordingly, the distance between the window 300 and the touch unit 200, and between the window 300 and the display panel 100 is kept constant, and the display quality degradation that may be generated by the path difference of the external light incident on the display device can be prevented.
Next, a display device according to another embodiment is described with reference to
Referring to
Referring to
As such, according to an embodiment, the connection part 220 of the touch part driver 210 is attached to a part of the edge of the touch part 200, and the part of the touch part 200 to which the connection part 220 is not attached overlaps the blocking layer 3100. Thus, the optical adhesive layer 3000 disposed between the touch unit 200 and the window 300 can be prevented from diffusing toward the outermost edges of the touch unit 200 and the window 300.
The blocking layer 3100 of the display device according to another embodiment is described with reference to
Referring to
Referring to
Next, a method of forming the blocking layer is described with reference to
First, according to an embodiment, as shown in
Next, according to an embodiment, as shown in
Next, according to an embodiment, as shown in
As such, according to an embodiment, by forming the second sub-blocking layer P2 on a portion of the first sub-blocking layer P1 and continuously forming the third sub-blocking layer P3 on a portion of the second sub-blocking layer P2, it is possible to form the barrier layer that gradually increases in thickness toward the edges and has a step shape. For example, the thicknesses of the portion where the first sub-blocking layer P1 is disposed, the portion where the first sub-blocking layer P1 and the second sub-blocking layer P2 overlap, and the portion where the first sub-blocking layer P1, the second sub-blocking layer P2, and the third sub-blocking layer P3 overlap, sequentially increase. By adjusting the number, the thickness, and the width of the sub-blocking layer, the final thickness and the width of the blocking layer and the shape of the blocking layer can be adjusted.
As described above, the display device 10 according to an embodiment includes the blocking layer 3100 disposed between the window 300 and the touch unit 200, adjacent to the edge of the optical adhesive layer 3000 and overlapping the edge of the touch unit 200.
According to an embodiment, the blocking layer 3100 is disposed adjacent to the edge of the optical adhesive layer 3000, thereby preventing the edge of the optical adhesive layer 3000 from unnecessarily expanding in a step of adhering the window 300 and a step of applying external pressure from the outside. As such, by preventing the edge of the optical adhesive layer 3000 from expanding, the thickness of the edge portion of the optical adhesive layer 3000 can be maintained constant. Accordingly, the distance between the window 300 and the touch unit 200, and the window 300 and the display panel 100 may be kept constant.
While embodiments of the disclosure have been described in connection with what is presently considered to be exemplary embodiments, it is to be understood that embodiments are not limited to exemplary embodiments. On the contrary, it is intended to cover various modifications and equivalent embodiments included within the spirit and scope of the appended claims.
Number | Date | Country | Kind |
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10-2019-0168243 | Dec 2019 | KR | national |