Pressure force touch panel and method for manufacturing the same, and display apparatus

Embodiments of the present invention relates to the field of display technology, and particularly to a pressure force touch panel and a method for manufacturing the same, and a display apparatus including the abovementioned pressure force touch panel. In one embodiment, the pressure force touch panel comprises an array substrate and a color film substrate assembling with each other, and, the color film substrate comprises a black matrix, a plurality of spacers are provided at a side of the color film substrate facing the array substrate; grooves, in one-to-one correspondence with at least some of the spacers, are provided in a side surface of the array substrate facing the color film substrate, and a piezoelectric mechanism electrically connected to a detection circuit is mounted in each of the grooves and is located within a region of projection of the black matrix onto the array substrate; wherein, the piezoelectric mechanism generates an electrical signal when the spacer is pressed against the corresponding piezoelectric mechanism.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims the benefit of Chinese Patent Application No. 201610147019.8 filed on Mar. 15, 2016 in the State Intellectual Property Office of China, the whole disclosure of which is incorporated herein by reference.

BACKGROUND

1. Technical Field

Embodiments of the present invention generally relate to the field of display technology, and particularly to a pressure force touch panel and a method for manufacturing the same, and a display apparatus.

2. Description of the Related Art

At present, touch panel has been widely used in portable terminals such as mobile phone, tablet computer (PAD), and notebook computer and other display apparatuses, and, in accordance with the principle of touch action, conventional touch panels can be divided into resistive touch panels, capacitive touch panels, optical touch panels, sonic touch panel and the like. Recently, in-cell touch panel in which touch electrodes are embedded inside display screen has become the trend of development because it can achieve thinning, light weight of the panel and improve sensitivity of touch action. However, the skilled in the art face a technical problem that how to use a piezoelectric mechanism to realize the in-cell touch panel.

SUMMARY

According to one aspect of embodiments of the present invention, there is provided a pressure force touch panel comprises an array substrate and a color film substrate assembling with each other, the color film substrate comprises a black matrix, a plurality of spacers are provided at a side of the color film substrate facing the array substrate; grooves, in one-to-one correspondence with at least some of the spacers, are provided in a side surface of the array substrate facing the color film substrate, and a piezoelectric mechanism electrically connected to a detection circuit is mounted in each of the grooves and is located within a region of projection of the black matrix onto the array substrate; wherein, the piezoelectric mechanism generates an electrical signal when the spacer is pressed against the corresponding piezoelectric mechanism.

In some embodiments, the piezoelectric mechanism comprises a first electrode, a piezoelectric material, an insulation layer, a second electrode and an elastic material disposed in sequence within the groove from the color film substrate to the array substrate; the first electrode is electrically connected to the detection circuit, for detecting a positive voltage or a negative voltage generated by the piezoelectric material after being pressed; and, the second electrode is electrically connected to the detection circuit, for detecting a negative voltage or a positive voltage generated by the piezoelectric material after being pressed.

In some embodiments, the second electrode comprises an electrode made of metal material.

In some embodiments, the second electrode comprises an electrode made of tin indium oxide (ITO) material.

In some embodiments, the insulation layer comprises an insulation layer made of silicon oxide or silicon nitride material.

In some embodiments, the piezoelectric material comprises zinc oxide material or aluminum nitride material.

In some embodiments, the elastic material comprises material for the spacer or silica gel material.

In some embodiments, a portion of the array substrate where the grooves are provided is divided into a plurality of piezoelectric regions, a plurality of said grooves are included in each of the piezoelectric regions, and, the piezoelectric mechanisms in the grooves of each of the piezoelectric regions are connected in series and then are electrically connected to the detection circuit.

In some embodiments, the piezoelectric mechanisms in each of the piezoelectric regions are connected in series through metal material.

According to another aspect of embodiments of the present invention, there is provided a display apparatus comprising any one of the pressure force touch panels according to abovementioned technical solutions.

According to yet another aspect of embodiments of the present invention, there is provided a method for manufacturing any one of the pressure force touch panels according to abovementioned technical solutions, the method comprises:

forming an array substrate and a color film substrate, wherein, the color film substrate is provided thereon with a black matrix, a plurality of spacers are provided at a side of the color film substrate facing the array substrate; grooves, in one-to-one correspondence with at least some of the spacers, are provided in a side surface of the array substrate facing the color film substrate,

forming a piezoelectric mechanism in each of the grooves, wherein the piezoelectric mechanism is located within a region of projection of the black matrix onto the array substrate; and

assembling the array substrate and the color film substrate with each other.

In some embodiments, the step of forming the piezoelectric mechanism in each of the grooves, specifically comprises:

filling the groove with an elastic material;

forming a second electrode on the elastic material;

forming an insulation layer on the second electrode;

forming a piezoelectric material on the insulation layer; and

forming a first electrode on the piezoelectric material.

In some embodiments, the method further comprises: dividing a portion of the array substrate where the grooves are provided into a plurality of piezoelectric regions, wherein a plurality of said grooves are included in each of the piezoelectric regions; and,

connecting the piezoelectric mechanisms in the grooves of each of the piezoelectric regions in series.

In some embodiments, the method further comprises: connecting the piezoelectric mechanisms in each of the piezoelectric regions in series through metal material.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Technical solutions according to embodiments of the present invention will be described hereinafter clearly and completely with reference to the attached drawings. Obviously, the embodiments illustrated in these drawings are only some of embodiments of the present invention, instead of all of the embodiments of the present invention. For those skilled in the art, other embodiments achieved by referring to the following embodiments without involving any inventive steps fall into the scope of the present invention.

Embodiments of the present invention provide a pressure force touch panel, which is an in-cell touch panel and which is improved in sensitivity of touch action and achieves thinning and light weight. Correspondingly, embodiments of the present invention further provide a method for manufacturing the abovementioned pressure force touch panel and a display apparatus including the pressure force touch panel.

Please refer toFIG. 1andFIG. 2, a pressure force touch panel according to an embodiment of the present invention comprises an array substrate1and a color film substrate2assembling with each other, the color film substrate2comprises a black matrix21, a plurality of spacers22are provided at a side of the color film substrate2facing the array substrate1; grooves11, in one-to-one correspondence with at least some of the spacers22, are provided in a side surface of the array substrate1facing the color film substrate2, and a piezoelectric mechanism3electrically connected to a detection circuit is mounted in each of the grooves11and is located within a region of projection of the black matrix21onto the array substrate1; wherein, the piezoelectric mechanism3generates an electrical signal when the spacer22is pressed against the corresponding piezoelectric mechanism3.

During use of this pressure force touch panel, when a finger5is pressed on the pressure force touch panel, the press operation of the finger5makes the spacer22in a position corresponding to location of the finger5to press against a corresponding piezoelectric mechanism3, in the pressure force touch panel, the piezoelectric mechanism3generates an electrical signal, and the detection circuit electrically connected to the piezoelectric mechanism3detects the electrical signal and thus determines location and gesture of touch action of the finger5, to achieve a corresponding touch operation. Since the piezoelectric mechanisms3are mounted in the grooves11of the array substrate1, provision of the piezoelectric mechanisms3within the array substrate forms an in-cell structure. As a result, this pressure force touch panel is an in-cell touch panel and is improved in sensitivity of touch action and achieves thinning and light weight.

As shown inFIG. 1andFIG. 2, the color film substrate2of the abovementioned pressure force touch panel may further comprise a color film23, and the array substrate1and the color film substrate2may be tightly connected through sealing adhesive4.

In one specific implementation, the piezoelectric mechanism3comprises a first electrode31, a piezoelectric material32, an insulation layer33, a second electrode34and an elastic material35disposed in sequence within the groove11from the color film substrate1to the array substrate2; the first electrode31is electrically connected to the detection circuit, for detecting a positive charge generated by the piezoelectric material32after being pressed; and, the second electrode34is electrically connected to the detection circuit, for detecting a negative charge generated by the piezoelectric material32after being pressed.

The piezoelectric mechanism3of the abovementioned pressure force touch panel comprises a piezoelectric material32, and, upper surface of the piezoelectric material32is electrically connected to the first electrode31, lower surface of the piezoelectric material32is electrically connected to the second electrode34, the first electrode31and the second electrode34of the piezoelectric mechanism3are electrically insulated through insulation layer33. During a normal use of the pressure force touch panel, when a finger5is pressed on the pressure force touch panel, the spacer22in a position corresponding to location of the finger5is pressed against a corresponding piezoelectric mechanism3. The elastic material35of the piezoelectric mechanism3is deformed after being pressed, and since the elastic material35supporting the piezoelectric material32is deformed by being pressed by the finger5, the piezoelectric material32is deformed accordingly upon deformation of the elastic material35. After deformation of the piezoelectric material32, positive charges are generated in the upper surface of the piezoelectric material32while negative charges are generated in the lower surface of the piezoelectric material32accordingly. Voltage difference between the upper surface of the piezoelectric material32and the lower surface of the piezoelectric material32are detectable by the detection circuit, and, the voltage difference between the upper surface of the piezoelectric material32and the lower surface of the piezoelectric material32is in proportion to a pressure force of the finger5, accordingly, location and size of the press action of the finger5can be detected accurately, which improves sensitivity of the touch panel.

Specifically, the first electrode31may be an electrode made of metal material lying in the same layer with a gate or a source and a drain. The second electrode34may be an electrode made of metal material, and the second electrode34may also be made of tin indium oxide (ITO) material. Moreover, materials for the first electrode31and for the second electrode34may be the same or may be different. The insulation layer33may be an insulation layer made of silicon oxide or silicon nitride material. The piezoelectric material32may be zinc oxide material or aluminum nitride material.

In order to increase degree of deformation of the piezoelectric material when a finger5is pressed against the pressure force touch panel so as to generate a greater piezoelectric signal, the elastic material35may be material for the spacer or silica gel material.

In order to detect magnitudes of the pressure force of a finger5applied on the pressure force touch panel, referring toFIG. 3andFIG. 4, a portion of the array substrate1where the grooves are provided is divided into a plurality of piezoelectric regions, such as piezoelectric region A1, piezoelectric region A2and piezoelectric region A3divided on the array substrate1as shown inFIG. 3; and, piezoelectric region B1, piezoelectric region B2and piezoelectric region B3divided on the array substrate1as shown inFIG. 4. A plurality of grooves are included in each of the piezoelectric regions. For example, inFIG. 3, the piezoelectric region A1comprises twenty-four grooves; and, inFIG. 4, the piezoelectric region B2comprises eighteen grooves; and, the piezoelectric mechanisms3in the grooves of each of the piezoelectric regions are connected in series and then are electrically connected to the detection circuit. Standard for division of the plurality of piezoelectric regions may be similar to that of the touch electrodes, for example, pitch of 5 mm*5 mm may be adopted. Positioning of the pressure force point can be achieved conveniently by dividing a portion of the array substrate where the grooves are provided into a plurality of piezoelectric regions.

In the abovementioned pressure force touch panel, a portion of the array substrate1where the grooves are provided is divided into a plurality of piezoelectric regions, and, the piezoelectric mechanisms3in the grooves of each of the piezoelectric regions are connected in series and then are electrically connected to the detection circuit. As shown inFIG. 3, eighteen piezoelectric mechanisms3in eighteen grooves within the piezoelectric region A1are connected in series, which makes all of the positive charges on the upper surfaces of the piezoelectric materials32and the negative charges on the lower surfaces of the piezoelectric materials32within the piezoelectric region A1to be accumulated, to increase quantity of the charges on both upper and lower surfaces of all of the piezoelectric materials32within the piezoelectric region A1, so as to form voltage difference between the upper surfaces of the piezoelectric materials32and the lower surfaces of the piezoelectric materials32. Since the voltage difference is in proportion to a pressure force of the finger5, size of the pressure force of the finger5against the pressure force touch panel can be detected accurately, which further improves sensitivity of the touch panel.

Furthermore, the piezoelectric mechanisms3in each of the piezoelectric regions are connected in series through metal conductive material. Of course, other electrically conductive material may also be used to connect the piezoelectric mechanisms3in each of the piezoelectric regions in series.

Embodiments of the present invention further provide a display apparatus comprising any one of the pressure force touch panels according to abovementioned embodiments.

In addition, please refer toFIG. 5, embodiments of the present invention further provide a method for manufacturing any one of the pressure force touch panels according to abovementioned embodiments, the method comprises the followings:

a step S11of, forming an array substrate1and a color film substrate2, wherein, the color film substrate2is provided thereon with a black matrix21, a plurality of spacers22are provided at a side of the color film substrate2facing the array substrate1; grooves11, in one-to-one correspondence with at least some of the spacers22, are provided in a side surface of the array substrate1facing the color film substrate2;

a step S12of, forming a piezoelectric mechanism3in each of the grooves11, wherein the piezoelectric mechanism3is located within a region of projection of the black matrix21onto the array substrate1; and

a step S13of, assembling the array substrate1and the color film substrate2with each other.

Particularly, referring toFIG. 6, the step S12of forming the piezoelectric mechanism3in each of the grooves11, specifically comprises the following steps:

a step S121of, filling the groove11with an elastic material35;

a step S122of, forming a second electrode34on the elastic material35;

a step S123of, forming an insulation layer33on the second electrode34;

a step S124of, forming a piezoelectric material32on the insulation layer33; and

a step S125of, forming a first electrode31on the piezoelectric material32.

In some embodiments, the abovementioned method for manufacturing the pressure force touch panel may further comprise the following steps:

dividing a portion of the array substrate1where the grooves11are provided into a plurality of piezoelectric regions, wherein a plurality of the grooves11are included in each of the piezoelectric regions; and,

connecting the piezoelectric mechanisms3in the grooves11of each of the piezoelectric regions in series.

In some embodiments, the abovementioned method for manufacturing the pressure force touch panel may further comprise the following steps:

connecting the piezoelectric mechanisms3in each of the piezoelectric regions in series through metal material.

Concerning the above, with the abovementioned pressure force touch panel and the method for manufacturing the same and the display apparatus including the pressure force touch panel provided by embodiments of the present invention, during use of this pressure force touch panel, when a finger is pressed on the pressure force touch panel, the press operation of the finger makes the spacer in a position corresponding to location of the finger to press against a corresponding piezoelectric mechanism, in the pressure force touch panel, the piezoelectric mechanism generates an electrical signal, and the detection circuit electrically connected to the piezoelectric mechanism detects the electrical signal and thus determines location and gesture of touch action of the finger, to achieve a corresponding touch operation. Since the piezoelectric mechanisms are mounted in grooves of the array substrate, provision of the piezoelectric mechanisms within the array substrate forms an in-cell structure. As a result, this pressure force touch panel is improved in sensitivity of touch action and achieves thinning and light weight.

Obviously, for those skilled in the art, various changes and modifications can be made in embodiments of the present invention without departing from the principles and spirit of the invention. The present invention intends to contain these changes and modifications once these changes and modifications fall into the principles and spirit of the present invention, the scope of which is defined in the claims and their equivalents.