KR200474148Y1 - Touch-sensitive display apparatus - Google Patents

Abstract

A touch sensitive display device including a display panel and a touch panel is disclosed. The display panel displays a screen with a plurality of pixels, each of which is composed of a red subpixel, a green subpixel, and a blue subpixel. According to an embodiment of the present invention, a touch panel includes a transparent substrate on which a plurality of electrode lines are formed. In particular, each electrode line is installed along the diagonal of at least one pixel.

Description

[0001] Touch-sensitive display apparatus [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a touch sensitive display device, and more particularly, to a touch sensitive display device in which an electrode line including sub pixels is provided on a transparent substrate.

2. Description of the Related Art Generally, a touch sensitive display device is applied to a touch module in a touch sensitive display, which is a circuit board that provides a touch on a display. Typically, the touch sensitive display device is applied to the design of a transparent substrate, Thereby forming a circuit for providing a touch feeling in the touch sensitive display. The electrodes can be of various types, one of which is formed of an electrode of a conductive material, which is a metallic wire, has a constant width, and has crossed design to obtain signals of bidirectional X and Y directions of the touch control on the touch module, So as to achieve the purpose of the touch operation.

The structure of the touch-sensitive display device related to the related art refers to the schematic diagram presented in Fig.

The main structure of the touch sensitive display device shown in the figure is composed of one touch substrate 103 and row directional electrode lines 101 and column directional electrode lines 102 formed on the upper and lower surfaces and forming the panel 10 The upward direction of the panel 10 is coupled with the upward direction frame 105 through the adhesive 104 and the downward direction is coupled with the display panel 107 through the adhesive 106.

The row directional electrode lines 101 and the column directional electrode lines 102 formed in the upper and lower directions are arranged along the X direction and the Y direction, respectively, of the glass substrate, the plastic substrate, the mixed glass / plastic material, The capacitive effect generated when the user touches the touch panel with the finger can form an electric field, and the intersecting electrode lines 101 and 102 can accurately determine the touched position.

The conventional electrode pattern may refer to the capacitive touch panel of the prior art shown in Fig. The electrode layout of the capacitive touch panel shown in the figure includes the row directional electrode line 203 and the column directional electrode line 204 and the intersection thereof is located on each pixel 20 of the display, And a drift capacitance 201 exists at the position of the intersection pixel 20 between the row directional electrode line 203 and the column directional electrode line 204.

The capacitive touch panel can sense the signal capacitance 202 of the electric field change by the current passing therethrough using the drift capacitance 201 between the row directional electrode lines 203 and 204, Changes the electric field near the capacitance on the finger, palm or other body part or object and thus causes the signal capacitance 202 to change through the signal capacitance 202 to the associated row direction electrode line 203 and the column direction The electrode line 204 can sense the touch position.

Referring to FIG. 2B, there is shown a relationship between the electrode line and the pixel in the prior art, and the display panel shown in the drawing shows a pixel pattern arranged in order, and each pixel has a different color sub- One of them constitutes a single pixel with a red subpixel R, a green subpixel G and a blue subpixel B as shown in the drawing. A row directional electrode line 203 'and a column directional electrode line 204' which intersect each pixel are further shown in the figure and an intersection point of the row directional electrode line 203 'and the column directional electrode line 204' The points in the center are worth showing.

2C is a schematic diagram illustrating the prior art of each pixel and electrode line. One pixel 20 in the drawing is enlarged and displayed, and a single pixel 20 is composed of a red subpixel R, a green subpixel G and a blue subpixel B, The intersection of the row directional electrode line 203 " and the column directional electrode line 204 " provided on the green subpixel is located on the center green subpixel.

As depicted in FIG. 2B or FIG. 2C, the electrode lines designed on the prior art touch panel are arranged mainly in the vertical and horizontal directions, with the design of the intersection point corresponding to the center of each possible pixel. As shown in FIG. 2C, if the intersection is located on the subpixel at the center position of the three subpixels, the result is that the electrode lines with a constant width often cover one, There is a problem that the brightness to be required is obscured and the result of masking each subpixel among the respective pixels is also not matched so that the color among the subpixels of different colors among the pixels becomes uneven. ≪ / RTI >

For example, the design of the sensing circuit in the horizontal and vertical directions on the touch panel covers only one subpixel of each pixel and the other subpixels are not shaded, causing the color of each pixel to become uneven, .

In general, except for the chromatic deflection phenomenon in which the result of screening between the subpixels is different from each other, the allowable range of the error generated during the display assembly process deteriorates the correspondence accuracy between the touch panel and the display panel, The circuit does not match the situation corresponding to each pixel, causing the problem that the color of each pixel does not coincide, and the combination of the front and rear problems will cause the problem that the color is deflected more severely.

According to a kind of touch-sensitive display device proposed by the present invention, the main feature is that the electrode lines provided on the touch panel are provided in a manner of an oblique angle, and the subpixels of different colors on each pixel are made close to each other, So that it is possible to prevent the problem that the color of the screen is deflected.

According to one embodiment, the touch sensitive display device mainly includes one display panel, and the display panel displays a screen with a plurality of pixels, wherein each single pixel is composed of a plurality of sub-pixels of different colors, For example, there is a red subpixel, a green subpixel, and a blue subpixel, but it does not exclude the possibility of subpixels of white, black, or other colors.

The touch sensitive display device further includes one touch panel, and includes at least one transparent substrate, and a plurality of electrode lines are provided on the transparent substrate, and each electrode line is installed along a diagonal line of at least one pixel.

According to another embodiment, the display may include another transparent substrate, and a plurality of corresponding electrode lines on the transparent substrate are provided thereon in another electrode layout in different directions.

According to another embodiment, one or more electrode lines are further provided between the plurality of electrode lines on the transparent substrate, and the adjacent electrode lines have a distance of approximately one sub-pixel width in the horizontal direction.

1 is a schematic view showing a structure of a conventional touch-sensitive display device.
2A is a schematic diagram showing a capacitive touch panel of the prior art.
2B is a diagram showing a relationship between an electrode line and a pixel in the prior art.
2C is a schematic diagram illustrating the prior art of each pixel and electrode line.
3A is a first schematic view showing an embodiment of an electrode according to the present invention.
FIG. 3B is a second schematic view showing an embodiment of the electrode according to the present invention. FIG.
4 is a third schematic view showing an embodiment of the electrode according to the present invention.
FIG. 5 is a schematic view showing an embodiment of a combination of an electrode and a display panel according to the present invention.
6 is a fourth schematic view showing an embodiment of the electrode according to the present invention.
7 is a first schematic view showing an embodiment of a touch sensitive display device according to the present invention.
8 is a second schematic view showing an embodiment of a touch sensitive display device according to the present invention.

The layout of the electrode lines designed on the touch panel of the related art is generally designed in the vertical and horizontal directions or in an electrode layout designed by a specific requirement and the electrode line intersections in each direction are designed to correspond to the center of each possible pixel And the intersection point is located on the subpixel at the center position of the three subpixels, as in the prior art shown in FIG. 2C. Thus, an electrode line having a constant width mainly produces a result of masking one of the pixels formed on each pixel, and hides one subpixel, resulting in a certain degree of brightness. Accordingly, in order to avoid such a design in which the problem of color unevenness among different colors of pixels arises, the present invention proposes a touch sensitive display device using a kind of improved electrode layout method.

3A, which is a schematic diagram showing an electrode according to the present invention. According to the technical features of the present invention, the pixel 30 shown in the figure is composed of sub-pixels of different colors, and the red subpixel R, the green subpixel G, and the blue subpixel B are presented , But in practical applications the color of the subpixels is not so limited and does not exclude subpixels that are generated including black, white or other colors, for example creating a subpixel design of RGBW (white) do. Red subpixels, green subpixels, and blue subpixels of this type of single pixel are sequentially generated through the color filter as backlight modules installed in the display panel.

The red subpixel R, the green subpixel G and the blue subpixel B are arranged in this order to form one single pixel 30, and according to the embodiment of the present invention, The electrode line 301 is designed as a single shaft electrode and is disposed along the diagonal line of the pixel 30. The electrode line 301 is disposed at an angle? ).

According to the description of the comparatively good embodiment, if the area occupied by the three subpixels is coincident, the approximate angle [theta] between the electrode line 301 and the horizontal direction is set so as to be approximately along the diagonal line of the pixel 30 And the interval between 18.435 degrees and 71.565 degrees. The electrode line 301 is a thin line of metal having a line width of 1 to 10 mu m. The electrode lines 301 according to the present invention can be proportional to the adjacent areas occupied by the respective subpixels R, G, and B in order to prevent a relatively large difference in the subpixel areas included in the electrode lines 301 And does not cause an excessive color deflection problem on the generated screen.

3B is a schematic view of an embodiment of presenting electrodes in yet another orientation. Of these, there is an electrode line 302 of a single shaft electrode design passing on the same pixel 30, and there is an angle? In the direction of the electrode line 302 and in the horizontal direction.

The electrode line 302 provided on the touch panel can be proportional to the area of each of the subpixels R, G, and B in the electrode layout scheme that passes along the diagonal line of the pixel 30 on the same principle, It is possible to prevent a color deflection phenomenon of a screen which is represented by a < RTI ID = 0.0 >

FIG. 4 is a schematic view showing another embodiment of the electrode according to the present invention, in which electrode lines 401 and 402 are installed by designing a kind of double shaft electrode in two mutually intersecting directions, The electrode lines 401 and 402 of this biaxial design are respectively installed at angles (? ₁ and? ₂ ) relative to the arrangement direction of the pixels 40 (horizontal direction in the figure). θ ₁ and θ ₂ are designed to be the same, close, or at different angles.

According to the main technical means of the present invention, these two-directional electrode lines 401, 402 can still be installed along the diagonal of the pixel 40, respectively, when hiding the pixel 40. [ This objective is equally to approximate the degree of shading on each sub-pixel of the pixel 40. [

5 is a schematic view of an embodiment showing the combination of an electrode and a display panel according to the present invention.

In the figure, a display panel 5 is shown, and a plurality of pixels 50 are formed in an upward direction. A single pixel is composed of a plurality of sub-pixels of different colors, (R), a green subpixel (G), and a blue subpixel (B), but does not exclude subpixels of other colors included in a particular panel design. The backlight module installed in the display panel 5 may be various types of backlight sources such as a cold cathode fluorescent lamp (CCFL) and a light emitting diode (LED) The white light generates light of various colors through the color filter on the backlight module, and thus sub-pixels of different colors of each pixel are generated in order.

A plurality of electrode lines 501 provided on a transparent substrate (not shown) are provided on the display panel 5, and each of the electrode lines 501 is installed along a diagonal line of a single pixel on an individual pixel.

Fig. 6 is another embodiment showing the electrode layout according to the present invention.

In addition to the electrode line 600 disposed above the diagonal line on the single pixel 60 shown in the above embodiment in the upward direction and the other one or a plurality of the electrode lines 601 And two adjacent electrode lines 600 and 601 on the transparent substrate have a distance of approximately one sub-pixel width W in the horizontal direction.

The embodiment shown in FIG. 6 still aims to make the electrode line according to the present invention have a proportional area close to the subpixels in each pixel, and the plurality of electrode lines 600 and 601 are arranged in correspondence with each subpixel And the occurrence of a color deflection problem due to uneven generation is still prevented.

The touch sensitive display device using the electrode layout method in each of the above embodiments can refer to the schematic diagram shown in FIG.

The display panel 70 shown in the drawings is generally a liquid crystal display panel (LCD), a plasma display panel (PDP) or an organic light emitting diode panel (OLED), and a plurality of pixels formed of sub- Among them, the red subpixel R, the green subpixel G, and the blue subpixel B are presented and are not limited to actual realization.

The touch panel to which the display panel 70 is coupled includes a transparent substrate 72 and the material of the transparent substrate 72 is generally glass, plastic, mixed glass / plastic (for example, PET, PMMA) And an electrode (for example, an electrode line 721) on the transparent substrate 72 is subjected to a casting process for forming metal lines on the substrate by etching, printing, depositing, can do.

The electrode lines 721 are provided on the transparent substrate 72 in the manner of an inclined angle with a predetermined angle and the transparent substrate 72 is provided with a flexible control or drive circuit as well as a layout of electrodes mainly, (721), and a substantially more favorable design feature may be installed along the diagonal of at least one pixel on the display panel 70. In general, the material of the electrode line 721 to which the touch sense is applied may be a kind of transparent conductor, for example, ITO (indium tin oxide). However, the present invention is not limited to the opaque conductor such as copper, aluminum, gold, It is more suitable for metal conductors.

8 is a schematic view showing another embodiment of the touch sensitive display device according to the present invention. The touch panel includes a first transparent substrate 81 and a second transparent substrate 82. The transparent substrates 81 and 82 are connected to the electrode lines 811, and 821 are installed.

Among them, the plurality of electrode lines 811 on the first transparent substrate 81 are provided at a specific angle, and in particular, are determined according to the layout of each pixel on the display panel 80, and relatively preferably, in the diagonal direction of at least one pixel Respectively. Electrode lines 821 in different directions corresponding to the plurality of electrode lines 811 on the first transparent substrate 81 are formed on the second transparent substrate 82, Is installed.

According to another embodiment (not shown), the two first transparent substrates 81 and the second transparent substrate 82 are different from each other, and the electrode lines 811 and the electrode lines 821 are And a plurality of electrode lines 811 and 821 on one side or both sides of the transparent substrate may be formed along the diagonal lines of at least one pixel but in different directions.

According to an embodiment of the manufacturing process for manufacturing the electrode line, the width of the sensing electrode line in the double shaft layout is 1 to 10 mu m and can be provided on both sides of the single-chip transparent substrate or separately on the double-chip transparent substrate . The coarse angle? ₁ between the direction of the electrode line and the horizontal direction is between 18.435 degrees and 71.565 degrees, and the coarse angle? ₂ is between 18.435 degrees and 71.565 degrees. The angle may refer to Figs. 3A, 3B, and 4.

The main feature of the touch-sensitive display device proposed by the present invention is that each electrode line is installed along a diagonal line of each pixel, and such an electrode line is shielded by each of the sub-pixels R, G, So that the color deviation problem of the screen can be prevented.

According to a comparatively preferred embodiment of the present invention, it is possible to apply the structural changes such as the contents of the present invention and the drawings, without departing from the scope of the claims of the present invention. However, .

10: panel 101: row direction electrode line
102: column direction electrode line 103: touch substrate
104, 106: Adhesive 107: Display panel
105: frame
20: pixel 201: drift capacitance
202: signal capacitances 203, 203 ', 203 ": row direction electrode lines
204, 204 ', 204 ": column direction electrode lines
30: pixels 301, 302: electrode lines
R, G, B: Subpixels?,? ',? ₁ ,? ₂ :
40: pixels 401, 402:
5: display panel 50: pixel
501: Electrode line
60: pixel 600, 601: electrode line
W: Width
70: display panel 72: transparent substrate
721: Electrode line
80: display panel 81: first transparent substrate
82: second transparent substrate 811, 821: electrode line

Claims (7)

A display panel which displays a screen with a plurality of pixels, each of which is composed of a plurality of sub-pixels of different colors, and
A touch panel coupled to the top and bottom of the display panel and including at least one transparent substrate, wherein a plurality of electrode lines are provided on the transparent substrate, and each electrode line is installed along a diagonal line of at least one pixel,
One or a plurality of electrode lines are provided between a plurality of electrode lines formed along the diagonal direction of at least one pixel and two electrode lines that are in contact with each other on the transparent substrate have a distance in the horizontal direction by the width of one sub pixel And the touch sensitive display device. The method according to claim 1,
Wherein the plurality of subpixels of the single pixel include at least red subpixels, green subpixels, and blue subpixels. The method according to claim 1,
Wherein a narrow angle (?) Between the electrode line and the horizontal direction is between 18.435 degrees and 71.565 degrees. delete The method according to claim 1,
Wherein the electrode line is an opaque metal line. 6. The method of claim 5,
Wherein the width of the metal line is between 1 μm and 10 μm. The method according to claim 1,
Wherein the display panel is a liquid crystal display panel, a plasma display panel, or an organic light emitting diode panel.

Images