KR102288829B1 - Cover substrate and touch window comprising the same - Google Patents

Abstract

A cover substrate according to an embodiment includes a surface having a curvature in at least two directions; and a second surface having a curvature in one direction.

Description

Cover substrate and touch window including the same

The embodiment relates to a cover substrate and a touch window including the same.

Recently, in various electronic products, a touch panel for inputting an image by contacting an input device such as a finger or a stylus to an image displayed on a display device has been applied.

The touch panel may be typically divided into a resistive touch panel and a capacitive touch panel. In the resistive touch panel, when pressure is applied to the input device, the position is detected by detecting the change in resistance according to the connection between the electrodes. In the capacitive touch panel, a position is detected by detecting a change in capacitance between electrodes when a finger touches it. In consideration of the convenience and sensing power of the manufacturing method, the capacitive method has recently been attracting attention for small models.

Meanwhile, in recent years, a demand for a flexible touch panel is increasing. In particular, in the case of a display device used in a vehicle, etc., there are many parts to which the touch panel is applied to a curved surface rather than a flat surface, and thus the demand for the curved touch panel is increasing.

Such a curved touch panel can be used in various technical fields, such as a vehicle, in combination with other components such as LCD, and there is a problem in that it is difficult to combine when applied to components such as other vehicles according to the touch panel having such a curved surface.

In addition, there is a problem in that the degree of freedom in design is reduced when the curved surface is formed.

Accordingly, there is a need for a substrate capable of solving such a problem and a touch window to which the same is applied.

Embodiments are to provide a cover substrate with improved design freedom, and a touch window and a touch device including the same and improved reliability.

A cover substrate according to an embodiment includes a surface having a curvature in at least two directions; and a second surface having a curvature in one direction.

In the cover substrate according to the embodiments, one surface or one surface of the first layer is curved in at least two directions and has one or a plurality of curvature sizes, that is, has a double curved surface, and the other surface opposite to the one surface or one surface of the second layer is It may be curved in one direction and may have one or more curvature sizes, that is, a short curved surface.

Accordingly, it is possible to implement a cover substrate having one surface and the other surface having different curved surfaces. That is, it is possible to implement a cover substrate in which only the one surface is curved in a cross-section in one direction, and both the one surface and the other surface are curved in a cross-section in the other direction.

Accordingly, when applying such a cover substrate to a display device or a touch device, the degree of freedom in design can be improved. That is, the cover substrate according to the embodiment can be easily coupled regardless of the position or place where the cover substrate is coupled, and the degree of freedom for design can be improved according to the shape having a double curved surface on one side and a short curved surface on the other side. there is.

1 is a diagram illustrating a perspective view of a cover substrate according to an embodiment.
FIG. 2 is a view showing a cross-section taken along line A-A' of FIG. 1 .
FIG. 3 is a view showing a cross-section taken along line B-B' of FIG. 1 .
FIG. 4 is a view showing another cross-section taken along line A-A' of FIG. 1 .
FIG. 5 is a view showing another cross-section taken along line B-B' of FIG. 1 .
FIG. 6 is a view showing another cross-section taken along line A-A' of FIG. 1 .
FIG. 7 is a view showing another cross-section taken along line B-B' of FIG. 1 .
8 is a diagram illustrating a perspective view of a cover substrate according to another embodiment. FIG. 9 is a cross-sectional view taken along line C-C' of FIG. 8 .
FIG. 10 is a view showing a cross-section taken along line D-D' of FIG. 8 .
11 is a diagram illustrating a perspective view of a cover substrate according to another embodiment.
12 is a view illustrating a cross-section taken along line E-E' of FIG. 11 .
13 is a view illustrating a cross-section taken along line F-F' of FIG. 11 .
12 is a diagram illustrating a process flow diagram of a method for manufacturing a cover substrate according to an embodiment.
13 to 21 are views for explaining a method of manufacturing a cover substrate.
22 is a diagram illustrating a perspective view of a touch window including a cover substrate according to an embodiment.
23 is a diagram illustrating another perspective view of a touch window including a cover substrate according to an embodiment.
24 to 26 are diagrams illustrating various types of touch devices in which a touch window including a cover substrate and a display panel are combined according to an embodiment.
27 and 28 are diagrams illustrating a touch device apparatus to which a touch device including a cover substrate according to an embodiment is applied.

In the description of embodiments, each layer (film), region, pattern or structure is “on” or “under” the substrate, each layer (film), region, pad or patterns. The description of being formed in " includes all those formed directly or through another layer. The standards for the upper/above or lower/lower layers of each layer will be described with reference to the drawings.

In addition, when it is said that a certain part is "connected" with another part, it includes not only the case where it is "directly connected" but also the case where it is "indirectly connected" with another member interposed therebetween. In addition, when a part "includes" a certain component, this means that other components may be further provided without excluding other components unless otherwise stated.

In the drawings, the thickness or size of each layer (film), region, pattern, or structure may be changed for clarity and convenience of description, and thus does not fully reflect the actual size.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 10 , the cover substrate 100 according to the embodiment may include one surface 101 and the other surface 102 .

The one surface 110 and the other surface 120 of the cover substrate may include a curved surface. For example, at least one of the first surface 101 and the other surface 102 may include a curved surface. That is, at least one of the one surface 101 and the other surface 102 may be bent.

The one surface 101 and the other surface 102 may have curvatures in different directions. In addition, the one surface 101 and the other surface 102 may have the same or different curvature sizes.

Accordingly, in the cover substrate according to the embodiment, the one surface 101 and the other surface 102 may have curvatures of various directions and various sizes, thereby improving design freedom. For example, the one surface 101 And/or the other surface 102 may have a certain curvature. For example, the one surface 101 may have curvature in at least two directions. In addition, the other surface 102 may have a curvature in one direction.

In detail, the one surface 101 may include a curvature R1 in a first direction and a curvature R2 in a second direction. In addition, the other surface 102 may include a curvature R1 in the first direction or a curvature R2 in the second direction. That is, the other surface 102 may be curved in a direction corresponding to one of the bending directions of the one surface 101 .

The first direction and the second direction may have different directions. For example, the first direction and the second direction may extend in different directions at a predetermined angle in a region crossing each other. For example, the first direction and the second direction may extend in a perpendicularly intersecting direction, but the embodiment is not limited thereto. However, the embodiment is not limited thereto, and the angle formed by the first direction and the second direction may be applied by being deformed into various angles and shapes according to a required design.

2 and 3 are views illustrating cross-sections taken along lines A-A' and B-B' of FIG. 1 .

2 and 3 , the one surface 101 may be curved in the first direction and the second direction, and the other surface 102 may be curved in the first direction or the second direction.

2 and 3 , the one surface 101 may be bent in at least two directions. For example, the one surface 101 may be bent with a curvature R1 in the first direction and a curvature R2 in the second direction. That is, the one surface 101 may have a double curved surface. The curvature R1 in the first direction may have a size of about 5R to about 1000R. In detail, the curvature R1 in the first direction may have a size of about 30R to about 1000R. In more detail, the curvature R1 in the first direction may have a size (mm) of about 500R to about 1000R.

The one surface 101 may be bent in a convex direction as a whole. For example, the one surface 101 may be formed as a convex curved surface as a whole. In detail, the one surface 101 may be bent in the first direction and the second direction to form a convex curved surface as a whole.

When the curvature R1 in the first direction is less than about 5R, the cover substrate is excessively bent, and cracks may occur on the cover substrate, and when the cover substrate is applied to a touch window, visibility due to light scattering is may be lowered. In addition, when it exceeds about 1000R, as the cover substrate approaches a flat surface, an effect according to the curved cover substrate may be reduced.

The curvature R2 in the second direction may have a size (mm) of about 5R to about 1000R. In detail, the curvature R2 in the second direction may have a size of about 30R to about 1000R. In more detail, the curvature R2 in the second direction may have a size of about 500R to about 1000R. The curvature R2 in the second direction may correspond to the curvature R2 in the first direction or may have curvatures of different magnitudes.

When the curvature R2 in the second direction is less than about 5R, the cover substrate is excessively bent, and cracks may occur on the cover substrate, and when the cover substrate is applied to a touch window, visibility due to light scattering is may be lowered. In addition, when it exceeds about 1000R, as the cover substrate approaches a flat surface, an effect according to the curved cover substrate may be reduced.

The curvature R1 in the first direction and the curvature R2 in the second direction may have curvatures of the same similar or different magnitudes within the above range.

2 and 3 , the other surface 102 may include a curvature R1 in the first direction or a curvature R2 in the second direction. That is, the other surface 102 may have a short curved surface. That is, the other surface 102 may be curved in one direction, and may be curved in one direction while having the curvature R1 in the first direction or the curvature R2 in the second direction. 3 illustrates that the other surface is curved in the second direction, but the embodiment is not limited thereto. That is, the other surface may be curved in the first direction or may be curved in a direction different from the first direction and the second direction, which are directions in which the one surface is curved.

That is, the other surface 102 may be bent in a direction corresponding to any one of the directions in which the one surface 101 is bent.

The other surface 102 may be bent in a convex direction as a whole. For example, the other surface 102 may be formed as a convex curved surface as a whole. In detail, the one surface 102 may be bent in the first direction or the second direction to form a convex curved surface as a whole.

The embodiment is not limited thereto, and the one surface 101 and the other surface 102 are all convex or all concave, or one surface is concave and the other surface is convex, or one surface is convex and the other surface is concave. It can be formed in various shapes, such as.

4 and 5 are views showing another cross-section taken along lines A-A' and B-B' of FIG. 1 .

4 and 5 , the one surface 101 of the cover substrate 100 may be curved in the first direction and the second direction, and the other surface 102 may be flat. For example, only the one surface 101 of the cover substrate 100 may have a curved surface, and the other surface 102 may have a flat surface. That is, the magnitude of the curvature of the other surface 102 may be zero.

6 and 7 are views showing other cross-sections taken along lines A-A' and B-B' of FIG. 1 .

6 and 7 , the one surface 101 of the cover substrate 100 is curved in the first direction and the second direction, and the other surface 102 is curved in the first direction or the second direction. can be bent to

The one surface 101 may be bent in a concave direction as a whole. For example, the one surface 101 may be formed as a concave curved surface as a whole. In detail, the one surface 101 may be bent in the first direction and the second direction to form a concave curved surface as a whole.

In addition, the other surface 102 may be bent in a concave direction as a whole. For example, the other surface 102 may be formed as a concave curved surface as a whole. In detail, the one surface 102 may be bent in the first direction or the second direction to form a concave curved surface as a whole.

2 to 5, the one surface and the other surface are both convex or curved in a concave direction, but the embodiment is not limited thereto, and the one surface has a concave curved surface, and the other surface has a convex curved surface, or Alternatively, the one surface may have a convex curved surface, and the other surface may have a concave curved surface.

Hereinafter, a cover substrate according to another exemplary embodiment will be described with reference to FIGS. 8 to 10 . In the description of the cover substrate according to another embodiment, the description of the same or similar configuration to the cover substrate according to the above-described embodiment will be omitted. In addition, the same reference numerals are assigned to the same components.

8 to 10 , the cover substrate 100 according to another embodiment may include one surface 101 and the other surface 102 including a curved surface.

The one surface 101 may have curvature in at least two directions. Also, the one surface 101 may have a curvature having at least one size. That is, the one surface 101 may be curved in at least two directions and may have at least one curvature having various sizes.

Referring to FIG. 9 , one surface of the cover substrate 100 according to another embodiment may have a curvature that is curved in one direction, that is, in the R1 direction in one cross-section. In this case, the curvature sizes of one end and the other end of the cover substrate may be the same or similar.

Referring to FIG. 10 , one surface and the other surface of the cover substrate 100 according to another embodiment may be bent while having a plurality of curvature sizes in other cross-sections.

For example, the cover substrate 100 may be bent to a size (mm) of R2a at one end, and may be bent to a size (mm) of R2b at the other end, and in this case, the curvature directions of R2a and R2b are the same, The curvature magnitude may be different.

That is, one surface 101 of the cover substrate 100 according to another embodiment may be bent in at least two directions, that is, R1, R2a, and R2b, and has a plurality of curvature sizes, that is, different curvature sizes. may have R1, R2a and R2b.

In addition, the other surface 102 of the cover substrate 100 may be bent in one direction, that is, in the directions R2a and R2b, and may have a plurality of curvature sizes, that is, have different curvature sizes, that is, R2a and R2b.

Hereinafter, a cover substrate according to another exemplary embodiment will be described with reference to FIGS. 8 to 10 . In the description of the cover substrate according to another embodiment, a description of the same or similar configuration to the cover substrate according to the above-described embodiment will be omitted. In addition, the same reference numerals are assigned to the same components.

11 to 13 , the cover substrate 100 according to the embodiment may include at least two layers. For example, the cover substrate 100 according to the embodiment may include a first layer 110 and a second layer 120 . However, the embodiment is not limited thereto, and it goes without saying that the cover substrate 100 according to the embodiment may include a plurality of layers such as three or four layers.

The first layer 110 and the second layer 120 may include, for example, the same material. Alternatively, the first layer 110 and the second layer 120 may include different materials.

The first layer 110 and the second layer 120 may include plastic. For example, the first layer 110 and the second layer 120 may include polyimide (PI), polyethylene terephthalate (PET), propylene glycol (PPG), polycarbonate ( PC), COC (Cyclic Olefin Copolymer), COP (Cyclic Olefin Polymer), photoisotropic polycarbonate (PC), and photoisotropic polymethyl methacrylate (PMMA) may include at least one material.

Preferably, the first layer 110 and the second layer 120 may include an optical isotropic film.

The first layer 110 and the second layer 120 may include the same material or different materials from among the above materials. For example, the first layer 110 and the second layer 120 may include different materials.

For example, the first layer 110 may include a material having high strength and impact resistance. In detail, the first layer 110 may include a material having greater strength and impact resistance than the second layer 120 .

Also, the second layer 120 may include a material having high ductility. In detail, the second layer 120 may include a material having greater ductility than the first layer 110 .

The first layer 110 and the second layer 120 may be bent. For example, one surface of the first layer 110 and one surface of the second layer 120 may be bent.

In detail, the first layer 110 may include one surface and the other surface opposite to the one surface and in contact with the second layer 120 , and one surface of the first layer 110 may be curved. In addition, the second layer 120 may include one surface and the other surface opposite to the one surface and in contact with the first layer 110 , and the other surface of the second layer 120 may be curved.

12 and 13 , one surface of the first layer 110 may be bent in at least two directions. For example, one surface of the first layer 110 may be bent in the first direction and the second direction. In addition, one surface of the second layer 120 may be bent in one direction. For example, one surface of the second layer 120 may be bent in the first direction or the second direction.

That is, one surface of the first layer 110 may be a double curved surface curved in two directions, and one surface of the second layer 120 may be a short curved surface curved in one direction.

However, the embodiment is not limited thereto, and both one surface of the first layer 110 and one surface of the second layer 120 may be formed to have a double curved surface.

12 and 13 , one surface of the first layer 110 may be bent with a curvature R1 in a first direction and a curvature R2 in a second direction. That is, one surface of the first layer 110 may have a double curved surface. The curvature R1 in the first direction may have a size of about 5R to about 1000R. In detail, the curvature R1 in the first direction may have a size of about 30R to about 1000R. In more detail, the curvature R1 in the first direction may have a size of about 500R to about 1000R.

One surface of the first layer 110 may be bent in a convex or concave direction as a whole. For example, one surface of the first layer 110 may be formed as a concave or convex curved surface as a whole. In detail, one surface of the first layer 110 may be bent in the first direction and the second direction to form a concave or convex curved surface as a whole.

When the curvature R1 in the first direction is less than about 5R, the cover substrate is excessively bent, and cracks may occur on the cover substrate, and when the cover substrate is applied to a touch window, visibility due to light scattering is may be lowered. In addition, when it exceeds about 1000R, as the cover substrate approaches a flat surface, an effect according to the curved cover substrate may be reduced.

The curvature R2 in the second direction may have a size (mm) of about 5R to about 1000R. In detail, the curvature R2 in the second direction may have a size of about 30R to about 1000R. In more detail, the curvature R2 in the second direction may have a size of about 500R to about 1000R. The curvature R2 in the second direction may correspond to the curvature R2 in the first direction or may have curvatures of different magnitudes.

When the curvature R2 in the second direction is less than about 5R, the cover substrate is excessively bent, and cracks may occur on the cover substrate, and when the cover substrate is applied to a touch window, visibility due to light scattering is may be lowered. In addition, when it exceeds about 1000R, as the cover substrate approaches a flat surface, the effect according to the curved cover substrate may be reduced.

12 and 13 , one surface of the second layer 120 may be curved with a curvature R1 in the first direction or a curvature R2 in the second direction. That is, one surface of the second layer 120 may have a short curved surface. The curvature R1 in the first direction or the curvature R2 in the second direction may have a magnitude of about 5R to about 1000R. In detail, the curvature R1 in the first direction or the curvature R2 in the second direction may have a size of about 30R to about 1000R. In more detail, the curvature R1 in the first direction or the curvature R2 in the second direction may have a size (mm) of about 500R to about 1000R.

One surface of the second layer 120 may be bent in a convex or concave direction as a whole. For example, one surface of the first layer 120 may be formed as a concave or convex curved surface as a whole. In detail, one surface of the second layer 120 may be bent in the first direction or the second direction to form a concave or convex curved surface as a whole.

12 and 13 illustrate that one surface of the first layer 110 and one surface of the second layer 120 both have curved surfaces, but the embodiment is not limited thereto, and the first layer 110 and the second layer 120 are not limited thereto. Only one surface of any one of the two layers 120 may have a curved surface. For example, one surface of the first layer 110 may be a double curved surface bent in two directions, and the second layer 120 may have a curvature of 0, that is, a flat surface.

As described above, as the first layer 110 includes a material having high strength and impact resistance, it is possible to prevent damage such as cracks from occurring in the first layer 110 in the process of bending in two directions. there is. In addition, since the second layer 120 includes a material with high ductility, etc., when the first and second layers are bent, the second layer 120 with high ductility can serve as a buffer, It is possible to prevent deformation due to cracks or the like occurring in the cover substrate.

The cover substrate according to the embodiments has one surface or one surface of the first layer that is curved in two directions, that is, has a double curved surface, and the other surface opposite to the one surface or one surface of the second layer is curved in one direction, that is, it has a short curved surface. can

Accordingly, it is possible to implement a cover substrate having one surface and the other surface having different curved surfaces. That is, it is possible to implement a cover substrate in which only the one surface is curved in a cross-section in one direction, and both the one surface and the other surface are curved in a cross-section in the other direction.

Accordingly, when applying such a cover substrate to a display device or a touch device, the degree of freedom in design can be improved. That is, the cover substrate according to the embodiment can be easily coupled regardless of the position or place where the cover substrate is coupled, and the degree of freedom for design can be improved according to the shape having a double curved surface on one side and a short curved surface on the other side. there is.

Hereinafter, a method of manufacturing a cover substrate according to an embodiment will be described with reference to FIGS. 14 to 21 .

14 is a view for explaining a method of manufacturing a cover substrate according to an embodiment.

Referring to FIG. 14 , the method for manufacturing the cover substrate according to the embodiment may include a first forming step ST10 and a second forming step ST20.

The first forming step ST10 and the second forming step ST20 may be sequentially performed. Also, the first forming step ST10 and the second forming step ST20 may be sequentially performed. In addition, the first forming step ST10 and the second forming step ST20 may be performed as separate processes, respectively.

In the first forming step ST10, a curved surface may be formed on at least one of one surface and the other surface of the cover substrate. For example, in the first forming step ST10, a curved surface may be formed on one surface or the other surface of the substrate. That is, in the first forming step ST10, a curved surface may be formed on any one of the one surface and the other surface of the cover substrate.

In detail, in the first forming step (ST10), at least one of the first surface and the other surface of the cover substrate may be bent in the first direction. For example, in the first forming step ( ST10 ), a curvature having a curvature may be formed on at least one of one surface and the other surface of the cover substrate.

15 to 19 are views for explaining the first forming step ST10.

15 to 19 , in the first forming step ST10, a cover substrate may be formed using a plurality of forming members.

Referring to FIG. 15 , the molding member 200 may include a first molding member 210 and a second molding member 220 . The first molding member 210 and the second molding member 220 may include metal.

At least one of the first molding member 210 and the second molding member 220 may be disposed. For example, a plurality of the first molding member 210 and the second molding member 220 may be disposed, and the first molding member 210 and the second molding member 220 are alternately disposed. can be

The first molding member 320 and the second molding member 220 may face each other. In addition, the first molding member 210 and the second molding member 220 may be disposed to be spaced apart from each other. For example, the first molding member 210 and the second molding member 220 may be spaced apart from each other and disposed to face each other.

Referring to FIG. 15 , a resin is injected between the first molding member 210 and the second molding member 220 , and the resin is formed in the first molding member 210 and the second molding member 220 . can pass through. For example, the resin material R may pass between the first molding member 210 and the second molding member 220 spaced apart from each other and disposed to face each other. Thereby, a 1st molded board|substrate can be manufactured.

The resin material (R) is introduced into the chamber 300 through the injection unit 310 , and then mixed through the mixing member 330 and the like in the chamber 300 , and the molding member through the discharge unit 320 . direction can be moved. In this case, the discharge amount and temperature of the resin material R may be controlled to a desired amount and temperature in the chamber.

The resin material may include at least one resin material. For example, the resin material R may include one resin material or a mixture of two or more resin materials. In detail, the resin material (R) is polyimide (PI), polyethylene terephthalate (PET), propylene glycol (PPG), polycarbonate (PC), COC (Cyclic Olefin Copolymer), It may include at least one of cyclic olefin polymer (COP), photoisotropic polycarbonate (PC), and photoisotropic polymethyl methacrylate (PMMA).

However, the embodiment is not limited thereto, and a silica-based material for forming glass may be injected and passed between the first molding member 210 and the second molding member 220 instead of the resin material. For example, a silica-based material forming glass such as soda lime glass or aluminosilicate glass is injected and passed between the first molding member 210 and the second molding member 220 . can

Although FIG. 15 shows that four of the first molding member 210 and the second molding member 220 are disposed, the embodiment is not limited thereto, and the molding member may be disposed in more than four. is of course

The first molding member 210 and the second molding member 220 may include curved surfaces. For example, the first molding member 210 and the second molding member 220 may have a circular shape as a whole. in details. The first molding member 210 and the second molding member 220 may have a cylindrical shape.

In addition, any one of the first molding member 210 and the second molding member 220 may include a convex portion or a concave portion. That is, the first molding member 210 or the second molding member 220 may include a convex portion or a concave portion.

Referring to FIG. 16 , the second molding member 220 may include a concave portion 410 . For example, the second molding member 220 may have a concave portion formed on one surface facing the first molding member 410 . Here, the concave portion means a concave portion based on one surface of the first molding member facing the second molding member 220 .

When the resin material R passes between the first molding member 210 and the second molding member 220 shown in FIG. 16 , the first molding substrate is manufactured, and on one surface of the first molding substrate A curved surface may be formed. That is, when passing between the first molding member 210 and the second molding member 220, one surface of the first molded substrate passing through the portion where the recess 410 is formed has the same shape as the shape of the recess. A concave curved surface may be formed.

Referring to FIG. 17 , the second molding member 220 may include a convex portion 420 . For example, the second molding member 220 may have a convex portion formed on one surface facing the first molding member 210 . Here, the convex portion means a convex portion with respect to one surface of the first molding member facing the second molding member 220 .

When the resin material R is passed between the first molding member 210 and the second molding member 220 shown in FIG. 17 , the first molding substrate is manufactured, and on one surface of the first molding substrate A curved surface may be formed. That is, when passing between the first molding member 210 and the second molding member 220, one surface of the first molded substrate passing through the portion where the convex portion 420 is formed has the same shape as the convex portion. A convex curved surface may be formed.

Referring to FIG. 18 , the second molding member 220 may include a plurality of concave portions 410 . For example, the second molding member 220 may have a plurality of concave portions formed on one surface facing the first molding member 210 . Here, the concave portion means a concave portion based on one surface of the first molding member facing the second molding member 220 .

When the resin material R passes between the first molding member 210 and the second molding member 220 shown in FIG. 18 , the first molding substrate is manufactured, and on one surface of the first molding substrate A plurality of curved surfaces may be formed. That is, when passing between the first molding member 210 and the second molding member 220 , the shape of the recesses and the shape of the recesses are formed on one surface of the first molded substrate passing through the portion where the recesses 410 are formed. Similarly, concave curved surfaces may be formed.

Referring to FIG. 19 , the second molding member 220 may include a plurality of convex parts 420 . For example, the second molding member 220 may have a plurality of convex portions formed on one surface facing the first molding member 210 . Here, the convex portion means a convex portion with respect to one surface of the first molding member facing the second molding member 420 .

When the resin material R is passed between the first molding member 210 and the second molding member 220 shown in FIG. 19 , the first molding substrate is manufactured, and on one surface of the first molding substrate A plurality of curved surfaces may be formed. That is, when passing between the first molding member 210 and the second molding member 220 , the shape and Similarly, convex curved surfaces may be formed.

As described above, in the first molding step ST10, the first molding substrate 100a having a curved surface may be manufactured using a plurality of molding members.

Referring to FIG. 20 , in the first molding step, a first molding substrate 100a bent in a first direction may be manufactured. That is, the first molded substrate 100a may have a curved surface bent in the first direction on one of one surface and the other surface.

That is, in the resin material passing through the molding member, a curved surface having a certain size of curvature is formed on one surface or the other surface of the substrate by the concave or convex portion formed in the second molding member, so that the first molding substrate 100a is formed. can be formed.

21 is a view for explaining the second forming step.

Referring to FIG. 18 , after preparing the mold member 500 and disposing the first molding substrate in the mold member, the mold member may be bent in the second direction.

For example, the mold member 500 includes one substrate 510 and two substrates 520 , and the first molded substrate is disposed between the first substrate 510 and the second substrate 520 . Then, the mold member may be bent in the second direction. In this case, the bending of the mold member may proceed with high-temperature heat.

If the shape of the mold member is manufactured in the shape of the first molding substrate and bent in 2 directions, defects can be reduced when bending in 2 directions, and even if the directionality of the 2 directions is varied, the curved shape formed in the first molding step is maintained. can be bent

Accordingly, curved surfaces in the second direction may be formed on one surface and the other surface of the first molded substrate. That is, the curved surface in the second direction may be formed on both one surface and the other surface of the first molded substrate.

When bending in the second direction, each of the action points, that is, F1, F2, and F3, may be bent with different curvature sizes by varying the bending heat, temperature, and pressure. Accordingly, in the second forming step, a cover substrate having a plurality of curvature sizes may be formed. The second direction may be different from the first direction. For example, the first direction and the second direction may be orthogonal to each other. However, the embodiment is not limited thereto, and the first direction and the second direction may extend in directions having an obtuse angle or an acute angle.

By the second forming step, one surface of the first molded substrate may be bent in two directions, that is, the first direction and the second direction, and the other surface of the first molded substrate may be bent in one direction, that is, the second direction. It can be bent in two directions.

Accordingly, a double curved surface having a curvature in two directions may be formed on one surface of the finally manufactured substrate, and a short curved surface having a curvature in one direction may be formed on the other surface of the substrate.

In addition, the direction and/or size of the curved surface of one surface and the other surface may be formed differently, and the one surface and the rear surface may be formed as a double curved surface having different shapes.

The curved surface curved in the first direction and the curved surface curved in the second direction may have a curvature size (mm) of about 5R to about 1000R.

When the curvature is less than about 5R, the substrate is excessively curved, and cracks may occur on the substrate, and when the substrate is applied to a touch window, visibility due to light scattering may be reduced. In addition, when it exceeds about 1000R, as the substrate approaches a flat surface, the effect according to the curved substrate may be reduced.

In addition, the bending in the first direction and the bending in the second direction may have sizes corresponding to each other within the curvature range or may have curvatures of different magnitudes.

13 to 21, a method of manufacturing a substrate according to an extrusion process has been described, but the embodiment is not limited thereto, and using various molds according to a desired shape, the substrate may be manufactured by injection molding, etc. Of course.

Hereinafter, a touch window including a cover substrate according to an embodiment will be described with reference to FIGS. 22 and 23 .

Referring to FIG. 22 , the touch window according to the embodiment may include a cover substrate 100 , a substrate 600 , and an electrode.

For example, the touch window according to the embodiment may include the cover substrate 100 , the substrate 600 on the cover substrate 100 , and the electrode on the substrate 600 .

The cover substrate 100 and the substrate 600 may be adhered by an optically transparent adhesive or the like. For example, the cover substrate 100 and the substrate 600 may be bonded to each other through an adhesive such as OCA or OCR.

The substrate 600 may include the same or similar material to the cover substrate 100 . Also, like the cover substrate 100 , at least one of one surface and the other surface of the substrate 600 may have a curved surface. For example, the substrate 600 may have a shape corresponding to the cover substrate 100 . That is, one surface of the substrate 600 may have a double curved surface, and the other surface may have a short curved surface.

An effective area AA and an invalid area UA may be defined for the cover substrate 100 and the substrate 600 .

A display may be displayed in the effective area AA, and a display may not be displayed in the ineffective area UA disposed around the effective area AA.

In addition, the position of the input device (eg, a finger, a stylus pen, etc.) may be detected in at least one of the effective area AA and the ineffective area UA. When an input device such as a finger is in contact with the touch window, a difference in capacitance occurs at a portion in contact with the input device, and the portion in which the difference occurs may be detected as a contact position.

Electrodes may be disposed on the substrate 600 . For example, a sensing electrode 710 and a wiring electrode 720 may be disposed on the substrate 600 .

The sensing electrode 710 may be disposed on the effective area AA.

The sensing electrode 710 may include a transparent conductive material to allow electricity to flow without interfering with the transmission of light. For example, the sensing electrode 710 may include indium tin oxide, indium zinc oxide. (indium zinc oxide), copper oxide (copper oxide), tin oxide (tin oxide), zinc oxide (zinc oxide), may include a metal oxide such as titanium oxide (titanium oxide).

Alternatively, the sensing electrode 710 may include a nanowire, a photosensitive nanowire film, a carbon nanotube (CNT), graphene, a conductive polymer, or a mixture thereof. When a nano-composite such as nanowire or carbon nanotube (CNT) is used, it can be configured in black, and has the advantage of being able to control color and reflectance while securing electrical conductivity by controlling the content of nanopowder.

Alternatively, the sensing electrode 710 may include various metals. For example, the sensing electrode 200 is chromium (Cr), nickel (Ni), copper (Cu), aluminum (Al), silver (Ag), molybdenum (Mo). At least one of gold (Au), titanium (Ti), and alloys thereof may be included.

In addition, the sensing electrode 710 may be formed in a mesh shape. In detail, the sensing electrode 710 may include a plurality of sub-electrodes, and the sub-electrodes may be disposed while crossing each other in a mesh shape.

In detail, the sensing electrode may include a mesh line LA and a mesh opening OA between the mesh line LA by a plurality of sub-electrodes crossing each other in a mesh shape.

The line width of the mesh line LA may be about 0.1 μm to about 10 μm. The mesh line portion having a line width of less than about 0.1 μm of the mesh wire LA may be impossible due to the manufacturing process, or a short circuit of the mesh line may occur, and when it exceeds about 10 μm, the electrode pattern may be visually recognized from the outside and visibility may be reduced. there is. Preferably, the line width of the mesh line LA may be about 0.5 μm to about 7 μm. More preferably, the line width of the mesh wire may be about 1㎛ to about 3.5㎛.

In addition, the mesh opening may be formed in various shapes. For example, the mesh opening OA may have various shapes, such as a rectangular shape, a diamond shape, a pentagonal shape, a hexagonal polygonal shape, or a circular shape. In addition, the mesh opening may be formed in a regular shape or a random shape.

Since the sensing electrode has a mesh shape, the pattern of the sensing electrode may be invisible on the display area as an example of an effective area. That is, even if the sensing electrode is formed of a metal, the pattern may be invisible. In addition, even when the sensing electrode is applied to a large-sized touch window, the resistance of the touch window may be lowered.

The sensing electrode 710 may include a first sensing electrode 711 and a second sensing electrode 712 .

The first sensing electrode 711 and the second sensing electrode 712 may be disposed to be spaced apart from each other. For example, the first sensing electrode 711 is arranged to extend in one direction, the second sensing electrode 712 is arranged to extend in a direction different from the one direction, and the first sensing electrode 711 is arranged to extend in a direction different from the one direction. and the second sensing electrode 712 may be disposed to be spaced apart from each other.

The wiring electrode 720 may be disposed on the effective area AA and the non-effective area UA.

The wiring electrode 720 may include a first wiring electrode 721 connected to the first sensing electrode 711 and a second wiring electrode 722 connected to the second sensing electrode 712 .

The first wiring electrode 721 and the second wiring electrode 722 are connected to the first sensing electrode 711 and the second sensing electrode 712 on the effective area AA, and the non-effective area direction, it may be disposed in connection with the printed circuit board on the ineffective area UA.

The wire electrode 720 may include a conductive material. For example, the wiring electrode 720 may include the same or similar material as the sensing electrode 710 described above. Also, the wire electrode 720 may be formed in a mesh shape like the sensing electrode.

The touch window according to the embodiment may reduce the thickness of the touch window by arranging both the first and second sensing electrodes on the substrate. In addition, by disposing the electrodes on a substrate other than the cover substrate, it is possible to prevent the cover substrate from being damaged when the electrodes are arranged.

Referring to FIG. 23 , in the touch window according to the embodiment, the substrate may be omitted and electrodes may be disposed directly on the cover substrate 100 .

In detail, a sensing electrode and a wiring electrode may be disposed on the cover substrate 100 . Materials, arrangement positions, and shapes of the sensing electrodes and the wiring electrodes are the same as those described above, and thus the following description will be omitted.

In the touch window according to the embodiment, since the sensing electrode and the wiring electrode are directly disposed on the cover substrate, the substrate can be omitted, and thus the thickness of the touch window can be reduced. can be implemented

Hereinafter, a touch device in which a touch window to which a cover substrate is applied and a display panel are combined will be described with reference to FIGS. 24 to 26 .

Referring to FIG. 24 , the touch device according to the embodiment may include a cover case 800 , a touch window 1000 accommodated in the cover case 800 , and a display panel 2000 .

In detail, the display panel 2000 may be disposed in the cover case 800 , and the touch window 1000 including a curved surface may be disposed on the display panel 2000 .

The cover case 1000 may include metal or plastic.

In the drawings, the cover case 1000 is illustrated at a right angle for convenience of explanation, but the embodiment is not limited thereto, and the cover case 1000 may include a curved surface when used in a vehicle or the like.

The touch window 1000 may include the above-described cover substrate 100 and the electrode 700 on the cover substrate.

The display panel 2000 may include a light module 2100 and a liquid crystal panel 2200 . The light module 2100 may include a light source emitting light in the direction of the liquid crystal panel 2200 . For example, the light source may include a light emitting diode (LED) or an organic light emitting diode (OLED).

The liquid crystal panel 2200 may include a plurality of liquid crystal elements. The liquid crystal device may have a specific pattern of directionality by changing the arrangement of molecules inside it according to an electric signal applied from the outside.

The display panel 2000 may refract the light emitted from the light module 2100 in different patterns while passing through the liquid crystal panel 2200 .

Also, although not shown in the drawings, the display panel 2000 may further include a polarizing filter and a color filter disposed on the liquid crystal panel 2200 .

That is, the display panel 2000 that does not have a curved surface, that is, a flat surface, and the touch window 1000 that is disposed on the display panel and has a curved surface to which the above-described cover substrate is applied are provided in the cover case 800 . can be placed.

Accordingly, a gap may be formed between the touch window 1000 and the display panel 2000 .

Referring to FIG. 25 , the touch device according to the embodiment may include a cover case 800 , a touch window 1000 accommodated in the cover case 800 , and a display panel 2000 .

In detail, the display panel 2000 may be disposed in the cover case 800 , and the touch window 1000 including a curved surface may be disposed on the display panel 2000 .

That is, the display panel 2000 that does not have a curved surface, that is, a flat surface, and the touch window 1000 that is disposed on the display panel and has a curved surface to which the above-described cover substrate is applied are provided in the cover case 800 . can be placed.

Accordingly, an air gap AG may be formed between the touch window 1000 and the display panel 2000 .

A reinforcing member 3000 may be disposed in the gap. That is, the reinforcing member 3000 filling the void may be disposed in the void.

The reinforcing member 3000 may be transparent. For example, the reinforcing member 3000 may include at least one of an air layer, an adhesive layer, and a plastic layer. in details. The reinforcing member 500 is an air layer such as air, an optical clear resin (OCA), a photosensitive resin, polymethylmethacrylate (PMMA) and polycarbonate (polycarbonate). It may include an adhesive layer, such as a resin layer, such as an optical clear adhesive (Optical Clear Adhesive, OCA).

The reinforcing member 3000 is disposed while filling the void AG, and accordingly, the interior of the void AG may be completely filled with the reinforcing member 3000 . Accordingly, the reinforcing member 3000 may be disposed while contacting the touch window 1000 and the display panel 2000 .

Accordingly, the reliability of the touch device may be improved by blocking external impurities that may be introduced through the voids by the reinforcing member.

Referring to FIG. 26 , the touch device according to the embodiment may include a cover case 800 , a touch window 1000 accommodated in the cover case 800 , and a display panel 2000 .

In detail, a display panel 2000 including a curved surface may be disposed in the cover case 800 , and a touch window 1000 including a curved surface may be disposed on the display panel 2000 . That is, both the touch window 1000 and the display panel 2000 may have curved surfaces.

23 illustrates that the touch window 1000 and the display panel have curved surfaces in a convex direction with respect to one surface of the cover case, the embodiment is not limited thereto, and may have curved surfaces in a concave direction.

Accordingly, the reliability of the touch device may be improved by preventing a void from being formed between the touch window and the display panel and blocking external impurities that may be introduced through the void by the reinforcing member.

Hereinafter, an example of a touch device apparatus to which a substrate is applied to the embodiments described above will be described with reference to FIGS. 27 to 28 .

Referring to FIG. 27 , such a cover substrate may be applied not only to a touch device such as a mobile terminal, but also to a car navigation system.

Also, referring to FIG. 28 , such a cover substrate may be applied in a vehicle. That is, the cover substrate may be applied to various parts within a vehicle to which a touch device may be applied. Accordingly, it is applied to not only a personal navigation display (PND), but also a dashboard, etc. to implement a center information display (CID). However, the embodiment is not limited thereto, and it goes without saying that such a touch device may be used in various electronic products.

Features, structures, effects, etc. described in the above-described embodiments are included in at least one embodiment of the present invention, and are not necessarily limited to one embodiment. Furthermore, features, structures, effects, etc. illustrated in each embodiment can be combined or modified for other embodiments by those of ordinary skill in the art to which the embodiments belong. Accordingly, the contents related to such combinations and modifications should be interpreted as being included in the scope of the present invention.

In addition, although the embodiments have been described above, these are merely examples and do not limit the present invention, and those of ordinary skill in the art to which the present invention pertains are exemplified above in a range that does not depart from the essential characteristics of the present embodiment. It can be seen that various modifications and applications that have not been made are possible. For example, each component specifically shown in the embodiments may be implemented by modification. And the differences related to these modifications and applications should be construed as being included in the scope of the present invention defined in the appended claims.

Claims (20)

delete delete delete delete delete delete In the cover substrate disposed on the top of the display device including a display panel and a touch window,
first floor; and
a second layer on the first layer;
The first layer is bent with one end and the other end in the first direction and one end and the other end in the second direction having a curvature,
The second layer is curved in the first direction or the second direction while having a curvature,
The one end and the other end face the direction of the display device,
The first layer and the second layer have a curvature in a convex direction,
The curvature in the first direction and the curvature in the second direction are different,
The first layer includes a material having greater strength and impact resistance than the material of the second layer,
The second layer is a cover substrate comprising a material having a greater ductility than the material of the first layer. 8. The method of claim 7,
The curvature in the first direction and the curvature in the second direction are 5R to 1000R. delete display panel;
a touch window disposed on the display panel and including a cover substrate;
The cover substrate is
first floor; and
a second layer on the first layer;
The first layer is bent with one end and the other end in the first direction and one end and the other end in the second direction having a curvature,
The second layer is curved in the first direction or the second direction while having a curvature,
the one end and the other end face a direction of the display panel;
The first layer and the second layer have a curvature in a convex direction,
The curvature in the first direction and the curvature in the second direction are different,
The first layer comprises a material having greater strength and impact resistance than the material of the second layer,
The second layer includes a material that is softer than the material of the first layer. 11. The method of claim 10,
An effective area and an ineffective area are defined on the cover substrate;
a sensing electrode disposed on the effective area; and a wiring electrode disposed on the ineffective area. 12. The method of claim 11,
Further comprising a substrate disposed under the cover substrate,
The sensing electrode may include: a first sensing electrode extending in one direction; and a second sensing electrode extending in a direction different from the one direction,
The first sensing electrode and the second sensing electrode are disposed on the same surface of the substrate. 13. The method of claim 12,
At least one sensing electrode of the first sensing electrode and the second sensing electrode is formed in a mesh shape. 12. The method of claim 11,
The sensing electrode may include: a first sensing electrode extending in one direction; and a second sensing electrode extending in a direction different from the one direction,
The first sensing electrode and the second sensing electrode are disposed on the same surface of the cover substrate. delete delete 11. The method of claim 10,
The curvature in the first direction and the curvature in the second direction are 5R to 1000R. 11. The method of claim 10,
The cover substrate is a display device including glass or plastic. delete delete

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