TWI471772B - Automated process of touch panel - Google Patents

Description

Touch panel automation process

The invention is an automatic process for a touch panel, which is used to improve the complicated process of the conventional capacitive touch panel, and is replaced by a full process automation without manual fitting, thereby greatly reducing labor costs.

According to the current touch panel input mode, including resistive, capacitive, optical, electromagnetic induction, sonic induction, etc.; Touching the surface of the panel with a finger or a sensor pen, and generating a change in voltage and current inside the panel subjected to the touched position, thereby detecting the position at which the panel surface is touched to achieve the purpose of touch input.

The general projected capacitive touch panel structure is formed by bonding a transparent substrate respectively coated with a transparent conductive electrode of an x-axis direction and a transparent substrate coated with a transparent conductive electrode of a y-axis direction with an adhesive layer, and then bonding The sensing structure is adhered to the rigid transparent substrate by an adhesive layer to form a stacked structure of a film/film/hard transparent substrate.

Among them, the structure of the Film/film/hard transparent substrate is complicated, and two layers of adhesive layers are required for the production, as well as multiple adhesive and alignment procedures. Since the fitting procedure still requires manual alignment and fitting, multiple adhesives are applied. And the registration procedures often result in low process yields due to environmental foreign matter entering the laminate or human factors, which will have a great impact on process stability. With the process of narrowing the width of the periphery of the touch panel, the line width of the peripheral line is reduced to less than 50 microns, which will greatly test the process stability of the traditional manual alignment.

The object of the present invention is to provide an automated process for a touch panel, which is used to improve the complicated process of the conventional capacitive touch panel, and to replace the whole process automation without manual fitting, thereby greatly reducing labor costs.

To achieve the above object, the automated process of the present invention comprises: providing a first rollable substrate in a roll by a first feed shaft, wherein the first rollable substrate has a plurality of first sensing structures; Providing a first rollable adhesive material into a roll by a second feed shaft; and continuously rolling the first rollable adhesive material to the first rollable substrate by rolling in a direction At the same time, the material is received by a receiving shaft.

In order to achieve the above object, the automated process of the touch panel of the present invention further comprises providing a second rollable substrate by a third feed shaft, wherein the second rollable substrate has a plurality of a second sensing structure; and continuously pressing the second rollable substrate in the direction by a roller to the first rollable adhesive, and adhering by the first rollable adhesive In the first rollable substrate, each of the first sensing structures and each of the second sensing structures are mutually corresponding while receiving the material by the receiving shaft.

In order to achieve the above object, the automated process of the touch panel of the present invention further includes a second rollable adhesive material in which a roll is provided by a fourth feed shaft; and the second roll can be continuously wound in the direction. The wound adhesive is rolled by a roller to the first rollable substrate while being received by the receiving shaft.

In order to achieve the above object, the automated process of the touch panel of the present invention further includes: continuously punching and pasting the first rollable substrate, the second rollable substrate, the first in the direction Each of the first sensing structures and each of the second sensing structures can be punched out to form a plurality of sensing sheets, and the second rollable adhesive material and the second rollable adhesive material are wound.

In order to achieve the above object, the automated process of the touch panel of the present invention further includes: continuously punching and pasting the first rollable substrate and the first rollable adhesive roll in the direction, Each first sensing structure is die cut to form a plurality of sensing sheets.

In order to achieve the above object, the automated process of the touch panel of the present invention, wherein the first rollable substrate further has a plurality of first alignment marks, and the second rollable substrate further has a plurality of second pairs a bit mark, by which the first alignment mark and the second alignment mark are aligned with each other, the second rollable substrate is rolled and adhered to the first rollable substrate by a roller, so that each A first sensing structure and each second sensing structure correspond to each other.

In order to achieve the above object, the automated process of the touch panel of the present invention further includes continuously forming the second rollable adhesive material into a roll to form a plurality of third alignment marks by a hob, and rolling the roller in the direction. When the first reelable adhesive is adhered, the first alignment mark, the second alignment mark and the third alignment mark are aligned with each other.

In order to achieve the above object, the automated process of the touch panel of the present invention, wherein the alignment mode is to use the CCD for alignment.

In order to achieve the above object, the automated process of the touch panel of the present invention further includes at least one appearance identifier to identify good products in an automated process.

In order to achieve the above object, the automated process of the touch panel of the present invention is further marked by laser or spray.

To achieve the above object, the automated process of the touch panel of the present invention, wherein the first rollable substrate, the second rollable substrate, the first rollable adhesive or the second The wound adhesive material is further covered with a protective film, and the protective film is used to take away the waste material during the punching.

To achieve the above object, the automated process of the touch panel of the present invention comprises: a first feed shaft for providing a first rollable substrate, and the roll-to-roll provides the first rollable substrate a second feed shaft for providing a first rollable adhesive, the roll-to-roll providing the first rollable adhesive; a first rolling wheel set for rolling the first A rollable substrate and the first rollable adhesive; and a cutting set for punching the bonded plurality of sensing structures.

To achieve the above object, the automated process of the touch panel of the present invention comprises: a first feed shaft for providing a first rollable substrate, and the roll-to-roll provides the first rollable substrate a second feed shaft for providing a first rollable adhesive, the roll-to-roll providing the first rollable adhesive; a first rolling wheel set for rolling the first a rollable substrate and the first rollable adhesive; a third feed shaft for providing a second rollable substrate, the roll-to-roll providing the second rollable substrate; a second rolling wheel set for rolling and bonding the second rollable substrate and the first rollable adhesive; a fourth feeding shaft for providing a second rollable adhesive a second roll-to-roll adhesive; a third rolling wheel set for rolling and bonding the second rollable adhesive and the first rollable substrate; A cutting tool set for punching and pasting the complex sensing structure.

Please refer to FIG. 1 , which is a schematic structural diagram of an automated process of a touch panel according to an embodiment of the present invention, and FIG. 2 is a schematic structural diagram of a sensing sheet according to an embodiment of the present invention. As shown in FIG. 1 and FIG. 2, the automated process includes at least: a first and second feeding shafts 81, 82, at least one rolling wheel set (including upper and lower arranged rollers 830), and a a third feed shaft 84, a fourth feed shaft 85, at least one cutting tool set 86, and a take-up shaft 87, wherein: the first feed shaft 81 is provided for the first rollable substrate 10, and the roll-to-roll Providing the first rollable substrate 10, please also refer to FIG. 3, wherein the first rollable substrate 10 has a first sensing structure 11 and a plurality of first alignment marks 12, a plurality of first pairs The bit mark 12 is disposed around the first sensing structure 11. The second feed shaft 82 is disposed under the first feed shaft 81 for providing the first rollable adhesive 20, and the roll-to-roll provides the first rollable adhesive 20, the first rollable adhesive The material 20 can be a clear optical glue.

The first rolling wheel set 831 is disposed behind the first and second feeding shafts 81 and 82, and continuously presses the first rollable adhesive 10 with the roller 830 in the first direction. The roll substrate 10 is simultaneously wound and received by the other end receiving shaft 87.

The third feed shaft 84 is provided with a second rollable substrate 40, and the roll-to-roll is provided with a second rollable substrate 40. Please also refer to FIG. 4, wherein the second rollable substrate is The 40 series has a second sensing structure 41 and a plurality of second alignment marks 42. The materials of the first rollable substrate 10 and the second rollable substrate 40 can be, for example, PEN, PET, PES, or One of the wound glass, PMMA, PC or PI may also be a multi-layer composite material of the above materials, and the above material may also be formed with a plurality of transparent transparent stacked substrates, and the multilayer transparent stack structure may be, for example, anti-reflection. Floor.

The third feeding shaft 84 is disposed on one side of the second rolling wheel set 832 (as shown in the lower roller 830 as shown in the figure, and can also be disposed on the upper roller), and is continuously continuous in one direction X. The second rollable substrate 40 is rolled and adhered to the first rollable adhesive 10 by a roller 830, wherein the plurality of first alignment marks 12 and the second alignment mark 42 are aligned with each other, and the alignment mode can use the CCD 71. For the alignment, please refer to FIG. 5 and FIG. 6 simultaneously, the second rollable substrate 40 is adhered to the first rollable substrate 10 by the first rollable adhesive 20, plural A sensing structure 11 and a second sensing structure 42 are staggered.

The fourth feed shaft 85 is provided with a second rollable adhesive 50, the roll-to-roll provides a second rollable adhesive 50, and the second rollable adhesive 50 can also be a transparent optical adhesive.

The fourth feeding shaft 85 is disposed on the other side of the third rolling wheel set 833 with respect to the third feeding shaft 84 (as shown in the figure above the upper roller 830, or may be disposed on the lower roller In the lower part, the cutting tool set 86 is disposed above the third rolling wheel set 833, and the second rollable adhesive material 50 can be first rolled to form a plurality of third alignment marks 51, and then the roller 830 is used. Rolling the second rollable adhesive 50 in a direction X continuously to the first rollable adhesive 10, wherein the plurality of first alignment marks 12, the second alignment marks 42 and the third The alignment marks 51 are aligned with each other. Please also refer to Figure 7, where the alignment mode can also be aligned using the CCD 71.

In addition, the cutting tool set 86 is disposed behind the third rolling wheel set 833, and can perform the fourth roll-to-roll process for continuous die-cutting and pasting the first rollable substrate 10 and the second rollable substrate 40. The first rollable adhesive 20 and the second roll of the rollable adhesive 50 form a plurality of sensing sheets 100, as shown in Figures 2 and 8.

As shown in FIGS. 9 and 10, another embodiment of the present invention is also provided by a first feed shaft 81 for winding a first rollable substrate 10, wherein the first rollable substrate The substrate has a plurality of first sensing structures, wherein the first sensing structure includes a plurality of first and second sensing pads 130, 140 and a plurality of first and second bridge wires 131, 141, and each of the first bridge wires 131 Electrically connecting each of the adjacent first sensing pads 130 in a first direction, and each of the second bridge wires 141 is electrically connected to each of the adjacent second sensing pads 140 in a second direction; The shaft 82 is provided as a roll of the first rollable adhesive 20; and in a direction X, the first rollable adhesive 20 is continuously rolled by the roller 830 to the first rollable base. At the same time, the material is wound up and received by a receiving shaft 87; of course, the roll-to-roll process can be further continuously cut by the cutting tool set to form a plurality of sensing pieces.

Furthermore, in another embodiment of the present invention, the second roll-wound substrate and the first rollable adhesive roll may be continuously die-cut and adhered during the second roll-to-roll process. The material is formed into a plurality of sensing sheets, and then the third and fourth winding-to-roll processes are performed.

In the above embodiment, there is at least one appearance identifier, which can identify the good products in the automatic process and pick out the good products; and further, the plurality of sensing sheets can be marked by laser or spraying.

In addition, the first rollable substrate, the first rollable substrate, the first rollable adhesive or the second rollable adhesive are further covered with a protective film thereon, during die cutting The protective film is used to carry away the waste. Since the protective film is not broken during the punching, the scrap can be carried away by the viscosity of the protective film.

Although the present invention has been disclosed above by way of example, it is not intended to limit the invention. The scope of the present invention is defined by the scope of the claims, and the scope of the invention is intended to be limited by the scope of the invention.

100. . . Sensing film

10. . . First rollable substrate

11. . . First sensing series

12. . . First alignment mark

20. . . First rollable adhesive

40. . . Second rollable substrate

41. . . Second sensing series

42. . . Second alignment mark

50. . . Second rollable adhesive

51. . . Third alignment mark

71. . . CCD

81. . . First feed axis

82. . . Second feed axis

830. . . Wheel

831. . . First rolling wheel set

832. . . Second rolling wheel set

833. . . Third rolling wheel set

84. . . Third feed axis

85. . . Fourth feed axis

86. . . Hob group

87. . . Receiving shaft

X. . . direction

FIG. 1 is a schematic structural view of an automated process of a touch panel according to an embodiment of the invention.

FIG. 2 is a schematic structural view of a sensing sheet according to an embodiment of the present invention.

Figure 3 is a schematic view showing the structure of the first reelable substrate in the present invention.

Figure 4 is a schematic view showing the structure of a second rollable substrate in the present invention.

Figure 5 is a schematic view showing the structure of the second roll-to-roll process of the present invention.

Figure 6 is a schematic view showing the structure of the semi-finished product formed after the second roll-to-roll process in the present invention.

Figure 7 is a schematic view showing the structure of the third roll-to-roll process of the present invention.

Figure 8 is a schematic view showing the structure of the sensing sheet formed after the third roll-to-roll process in the present invention.

FIG. 9 is a schematic structural diagram of an automated process of a touch panel according to another embodiment of the present invention.

Fig. 10 is a view showing another structure of the first reelable substrate in the present invention.

10. . . First rollable substrate

20. . . First rollable adhesive

40. . . Second rollable substrate

50. . . Second rollable adhesive

81. . . First feed axis

82. . . Second feed axis

830. . . Wheel

831. . . First rolling wheel set

832. . . Second rolling wheel set

833. . . Third rolling wheel set

84. . . Third feed axis

85. . . Fourth feed axis

86. . . Hob group

87. . . Receiving shaft

Claims (13)

An automated process for a touch panel, comprising: providing a first rollable substrate by a first feed shaft, wherein the first rollable substrate has a plurality of first sensing structures and a plurality of a pair of bit marks; a first rollable adhesive material is provided by the second feed shaft; and the first rollable adhesive material is continuously rolled by the roller in the first direction The wound substrate is simultaneously received by a receiving shaft. The automated process of the touch panel of claim 1, further comprising: providing a second rollable substrate by a third feed shaft, wherein the second rollable substrate is Having a plurality of second sensing structures; and continuously adhering the second rollable substrate to the first rollable adhesive in a roller direction in the direction, and by the first rollable adhesive The material is adhered to the first rollable substrate such that each of the first sensing structures and each of the second sensing structures correspond to each other while receiving the material by the receiving shaft. The automated process of the touch panel of claim 2, further comprising: providing a roll of the second rollable adhesive by the fourth feed shaft; and continuously winding the second in the direction The rollable adhesive can be roller-bonded to the first rollable substrate while receiving the material by the receiving shaft. The automated process of the touch panel of claim 3, further comprising: continuously punching and pasting the first rollable substrate, the second rollable substrate, the first in the direction The rollable adhesive material and the second rollable adhesive material roll, corresponding to each of the first sensing structures and each second sense Under the die-cutting structure, a plurality of sensing sheets are formed. The automated process of the touch panel of claim 1, further comprising: continuously punching and pasting the first reelable substrate and the first rollable adhesive in the direction, Each first sensing structure is die cut to form a plurality of sensing sheets. The automated process of the touch panel of claim 2, wherein the first rollable substrate further has a plurality of first alignment marks, and the second rollable substrate has a plurality of second The alignment mark is aligned with the second alignment mark by the first alignment mark and the second alignment mark, and the second rollable substrate is rolled and adhered to the first rollable substrate by a roller. Each of the first sensing structures and each of the second sensing structures correspond to each other. The automated process of the touch panel according to claim 3, further comprising continuously forming the second reelable adhesive material into a roll and forming a plurality of third alignment marks by a hob, and rolling the roller in the direction When the first reelable adhesive is adhered, the first alignment mark, the second alignment mark and the third alignment mark are aligned with each other. For example, the automatic process of the touch panel described in claim 6 or 7, wherein the alignment mode is to use a CCD for alignment. For example, the automated process of the touch panel described in claim 1, 2, 3, 4 or 5, wherein there is at least one appearance identifier, the good product is identified in the automated process. Such as the touch panel described in claim 1, 2, 3, 4 or 5 Automated processes, which are marked by laser or spray. The automated process of the touch panel of claim 1, 2, 3, 4 or 5, wherein the first rollable substrate, the first rollable substrate, the first wrapable The roll-type adhesive material or the second roll-wrap adhesive material further has a protective film covering thereon, and the protective film is used to carry away the waste material during punching. An automatic device for a touch panel, comprising: a first feed shaft for providing a first rollable substrate, the roll-to-roll providing the first rollable substrate, wherein the first rollable substrate The substrate has a plurality of first sensing structures and a plurality of first alignment marks; a second input shaft for providing a first rollable adhesive, the roll-to-roll provides the first rollable adhesive a first rolling wheel set for rolling and bonding the first rollable substrate and the first rollable adhesive; a cutting set for punching the plurality of sensing structures Cut; and a receiving shaft to receive material. An automatic device for a touch panel, comprising: a first feed shaft for providing a first rollable substrate, the roll-to-roll providing the first rollable substrate, wherein the first rollable substrate The substrate has a plurality of first sensing structures and a plurality of first alignment marks; a second input shaft for providing a first rollable adhesive, the roll-to-roll provides the first rollable adhesive a first rolling wheel set for rolling and bonding the first rollable substrate and the first rollable adhesive; a third feed shaft for providing a second rollable a substrate, the roll-to-roll provides the second rollable substrate; a second roll wheel set for rolling and pasting the second rollable substrate and the a first rollable adhesive; a fourth feed shaft for providing a second rollable adhesive, a roll to roll for the second rollable adhesive; a third roll set, a roll-on adhesive bonding the second rollable adhesive and the first rollable substrate; a cutting set for punching and pasting the plurality of sensing structures; and a receiving shaft material.