KR20090128165A - Touch window device and method for assembling the same - Google Patents

Abstract

PURPOSE: A touch window device and an assembling method thereof are provided to effectively prevent bubbles and increase of product cost by using inexpensive liquid type UV(Ultraviolet) ink adhesive. CONSTITUTION: A touch panel(10) is arranged to a lower part of a window panel(20). The touch panel detects an electric coordinate signal correspond to a touch location of a user touching the window panel. The touch panel outputs the detected coordinate signal to an electronic device. A supporter(50) for supporting the touch panel is arranged to the lower part of the touch panel. An LCD(Liquid Crystal Display) panel(60) is arranged to the lower part of the supporter. The LCD panel outputs display information of the electronic device to the window panel.

Description

Touch window device and method for assembling the same}

The present invention relates to a touch window device and a method for assembling the same, and more particularly, a part of the touch panel in contact with the window panel, another part of the touch panel in contact with the support, etc. In addition, new low-cost <liquid UV ink adhesive> which can block the generation of defective bubbles is newly placed, thereby stably eliminating the necessity of disposing the optical transparent adhesive. On the device producer side), the present invention relates to a touch window device and a method for assembling the same, which can be used to effectively avoid the <bubble generation problem>, <product cost rise problem> and the like caused by the arrangement of the optical transparent adhesive.

In recent years, with the rapid development of electric, electronic and communication technologies, the touch window device, which is a combination of a touch panel and an LCD window panel, is used as a series of interface means between user and electronic devices. Various electronic devices are widely developed and distributed.

Under such a conventional technology system, the touch window device 80 has a window panel 20, a touch panel 10, a support 50, an LCD panel 60, and the like as shown in FIGS. 1 and 2. It will be placed in a single configuration combined. In this case, a hard coating layer 21 may be additionally disposed on the surface of the window panel 20 to protect the window panel 20 from external impact, and in this situation, the LCD panel 60 may have a support holder 70. Take a structure supported by).

In this case, the touch panel 10 is disposed below the upper transparent substrate 1 having a series of transparent materials such as glass, film, and the like, and faces the upper transparent substrate 1 while facing each other. For example, the lower transparent substrate 8 having a series of transparent materials such as glass, the upper transparent conductive film 2 made of, for example, indium tin oxide (ITO), applied to one surface of the upper transparent substrate 1, For example, the lower transparent conductive film 6 made of indium tin oxide (ITO) material or the like is applied to one surface of the lower transparent substrate 8 so as to face each other. Done.

In this case, a plurality of insulating spacers 5 are disposed in the middle of the upper and lower transparent substrates 1 and 8 to induce a predetermined size gap between the upper and lower transparent substrates 1 and 8. In addition, the upper and lower transparent conductive films 2 and 6 applied to the lower and upper surfaces of the upper and lower transparent substrates 1 and 8 are induced to naturally maintain a series of electrical insulation states.

Here, one surface of the upper side of the insulating spacer 5 of the upper transparent conductive film 2, the upper electrode 3 for flowing electricity into and out of the upper transparent conductive film 2 is further disposed, the upper transparent conductive film ( On the one side of the insulating spacer 5 of the lower transparent conductive film 6 facing 2), the lower electrode 7 for flowing electricity into and out of the lower transparent conductive film 6 faces the upper electrode 3. Additionally arranged. In this case, the upper and lower electrodes 3 and 7 form opposite horizontal and vertical directions.

In this case, an insulating double-sided adhesive tape 4 is disposed in the middle of the upper and lower transparent substrates 1 and 8, and the insulating double-sided adhesive tape 4 has an edge or insulation of the upper and lower transparent conductive films 2 and 6. It wraps around the edges of the spacers 5 to firmly bond the upper and lower transparent conductive films 2 and 6 to each other, and also electrically insulates the upper and lower transparent conductive films 2 and 6. Will perform.

Here, in the middle of the window panel 20 and the touch panel 10, and further, in the middle of the touch panel 10 and the support 50, an optically clear adhesive (OCA) 30, 40 is additionally added. The optically clear adhesives 30 and 40 are disposed on the interlayer surface of the window panel 20 and the touch panel 10, and further, the interlayer of the touch panel 10 and the support 50. By sticking and covering the entire surface, the window panel 20 and the touch panel 10, and further, the touch panel 10 and the support 50 are firmly bonded to each other.

Under this conventional system, as described above, the optically clear adhesives 30 and 40 are interlayer surfaces of the window panel 20 and the touch panel 10, and further, interlayers of the touch panel 10 and the support 50. It takes the structure which sticks and covers the whole surface.

Of course, in this situation, since the optically clear adhesives 30 and 40 inevitably occupy the main display path of the device 80, the window from the LCD panel 60 side via the touch panel 10 to the window. Electronic device-side display information output to the panel 20 side can only be placed under the direct influence of the optically clear adhesives 30 and 40, and thus, the quality of the above-described optically clear adhesives 30 and 40 is a problem. Is very important factor in determining the overall display quality of the device 80.

Furthermore, under the above-described structure, since the optically transparent adhesives 30 and 40 inevitably occupy not only the main display path of the device 80 but also the main transmission path of the touch signal, the touch of the touch panel 10 The state is inevitably placed under the direct influence of the optically clear adhesives 30 and 40. Consequently, the question of the quality of the optically clear adhesives 30 and 40 mentioned above is the overall touch signal of the device (touch pad). Also in determining the delivery quality, it is inevitable to act as a very important factor.

However, as mentioned above, since the conventional optical transparent adhesives 30 and 40 basically have the inherent limitation of <solid-state transparent tape>, the arrangement phase of the optical transparent adhesives 30 and 40 is carried out. On the producer side, no matter how elaborate, this <solid transparent tape (i.e., optically clear adhesives 30 and 40) may be applied to the interlayer surface between the window panel 20 and the touch panel 10, furthermore. Even if the layer is bonded to the interlayer surface between the touch panel 10 and the support 50, the optical transparent adhesive is disposed on the interlayer surface between the window panel 20 and the touch panel 10 due to the instantaneous inflow of air. 30, further, inside the optical transparent adhesive 40 located on the interlayer surface between the touch panel 10 and the support 50, a large number of defective bubbles 31 and 41 are inevitably generated.

Of course, under such a condition of generating the defective bubbles 31 and 41, the electronic device-side display information output from the LCD panel 60 to the window panel 20 through the defective panel 31, 41 may be generated. Due to the adverse effect of 41, it is inevitably severely distorted, and the touch state of the touch panel 10 is also inevitably severely distorted due to the bad influence of the defective bubbles 31 and 41.

Naturally, under the unresolved situation of this problem, the final product will be forced to maintain a very low level of quality, and thus, the producers (device producers and electronic device producers) will avoid the damage that the competitiveness of their products will be greatly reduced. It becomes impossible.

Furthermore, the above-mentioned optical transparent adhesives 30 and 40 maintain very high prices despite the above-mentioned defects, and therefore, on the producer side (device producers and electronic device producers), the optical transparent adhesives 30 and 40 Unless further measures are taken to eliminate 40), the additional problem of rising product cost is inevitably suffered, in addition to the problems caused by the defective bubble described above.

Accordingly, an object of the present invention is to block the occurrence of defective bubbles at the same time, although it is possible to normally perform a series of transparent adhesives on a part of the touch panel in contact with the window panel, and further, another part of the touch panel in contact with the support. By newly deploying a low-cost liquid type liquid ultraviolet ink adhesive, which can stably eliminate the necessity of the optical transparent adhesive, the producer (device producer, electronic device producer) of the optical transparent adhesive It is to guide effectively to avoid <bubble generation problem> and <product cost rise problem> due to deployment.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

In order to achieve the above object, in the present invention, in the touch window device installed in the electronic device and acting as an interface means between the user and the electronic device, the window panel is disposed at the bottom of the window panel, and the window A touch panel that detects an electrical coordinate signal corresponding to a touch position of a user side touching the panel and outputs the detected coordinate signal to the electronic device, and a support that is disposed at the bottom of the touch panel and supports the touch panel And an LCD panel disposed on the bottom of the support, the LCD panel for outputting and displaying display information of the electronic device toward the window panel, wherein one surface of the touch panel is in contact with the window panel and the other surface of the touch panel is in contact with the support. The touch panel and the window panel, and the touch panel and the support Disclosed is a touch window device characterized in that an ultraviolet ink adhesive for bonding with a sieve is disposed.

In addition, in another aspect of the present invention, by discharging and applying a liquid ultraviolet ink adhesive on both sides of the combined touch panel, and mounting the window panel and the support on both sides of the touch panel coated with the ultraviolet ink adhesive In the step, the window panel and the support is mounted on both sides of the touch panel, by irradiating ultraviolet to the ultraviolet ink adhesive side to cure the ultraviolet ink adhesive, through the curing of the ultraviolet ink adhesive, the touch panel and A window panel and a method of assembling a touch window device comprising the step of integrally bonding the touch panel and the support.

According to the present invention, a low cost that can block the generation of defective bubbles at the same time, while being able to normally perform a series of transparent adhesive, such as part of the touch panel in contact with the window panel, and further, another part of the touch panel in contact with the support. Because of the newly-deployed <liquid ultraviolet ink adhesive>, the necessity of disposing the optically clear adhesive can be stably excluded under the implementation environment of the present invention, and eventually, on the producer side (device producer, electronic device producer), It is possible to effectively avoid <bubble generation problem>, <product cost rise problem> due to the arrangement of the optical transparent adhesive.

Hereinafter, a touch window device and an assembly method thereof according to the present invention will be described in detail with reference to the accompanying drawings.

The touch window device 100 according to the present invention, for example, is installed in various electronic devices such as a mobile phone, a PDA, a game machine, and acts actively as a series of <interface means between user / electronic devices>.

In this situation, as shown in FIGS. 3 and 4, the touch window device 100 includes, for example, a window panel 20 having a material of polycarbonate, polyethylene terephthalate, acrylic film, or the like, and the window panel 20. And a touch panel 10 that detects an electrical coordinate signal corresponding to a user's touch position touching the window panel 20 and outputs the detected coordinate signal to an electronic device. The display information of the electronic device is disposed on the bottom of the support 10, the support 50 of the polycarbonate, polyethylene terephthalate, acrylic film material and the bottom 50 of the support, which is disposed on the bottom of the (10) The LCD panel 60 for outputting the display to the window panel 20 side is displayed in a close combination.

In this case, a hard coating layer 21 may be additionally disposed on the surface of the window panel 20 to protect the window panel 20 from external impact. In this situation, the LCD panel 60 may include a support holder 70. It takes a structure supported by.

Here, the touch panel 10 is disposed below the upper transparent substrate 1 having a series of transparent materials such as glass, film, and the like, and facing the upper transparent substrate 1. Looking at it, for example, the lower transparent substrate 8 having a series of transparent materials such as glass, and the upper transparent conductive film 2 of, for example, indium tin oxide (ITO) applied to one surface of the upper transparent substrate 1 and For example, the lower transparent conductive film 6 made of indium tin oxide (ITO) material, which is applied to one surface of the lower transparent substrate 8 so as to face each other, may be closely combined. Get drunk.

In this case, a plurality of insulating spacers 5 are disposed in the middle of the upper and lower transparent substrates 1 and 8 to induce a predetermined size gap between the upper and lower transparent substrates 1 and 8. In addition, the upper and lower transparent conductive films 2 and 6 applied to the lower and upper surfaces of the upper and lower transparent substrates 1 and 8 are induced to naturally maintain a series of electrical insulation states.

At this time, an upper electrode 3 for flowing electricity into and out of the upper transparent conductive film 2 is further disposed on one surface of the insulating spacer 5 of the upper transparent conductive film 2, and the upper transparent conductive film 2 is disposed. ) On one side of the insulating spacer 5 of the lower transparent conductive film 6 facing the bottom), a lower electrode 7 for flowing electricity into and out of the lower transparent conductive film 6 is added facing the upper electrode 3. Is placed. In this case, the upper and lower electrodes 3 and 7 form opposite horizontal and vertical directions.

In this case, an insulating double-sided adhesive tape 4 is disposed in the middle of the upper and lower transparent substrates 1 and 8, and the insulating double-sided adhesive tape 4 has an edge or insulation of the upper and lower transparent conductive films 2 and 6. It wraps around the edges of the spacers 5 to firmly bond the upper and lower transparent conductive films 2 and 6 to each other, and also electrically insulates the upper and lower transparent conductive films 2 and 6. Will perform.

On the other hand, under the touch window device 100 system having such a configuration, the window panel 20 and the middle of the window panel 20 and the touch panel 10, and further, the middle of the touch panel 10 and the support 50 are provided. There is a need for a separate adhesive means for firmly bonding the touch panel 10 and the touch panel 10 and the support 50 to each other.

In the past, the optical transparent adhesive performed such a role as the adhesive means, but since the optical transparent adhesive was basically expensive, and had the inherent limitation of <solid transparent tape>, In the arrangement phase of the optically transparent adhesive according to the technique of the present invention, in addition to the chronic problem of <rising cost of the product> on the producer side, there is a problem that the display information of the electronic device output to the window panel side is severely distorted due to a number of defective bubbles. >, <The problem that the touch state of the touch panel is severely distorted due to a large number of defective bubbles> and the like was forced to bear.

In this sensitive situation, as shown in the figure, the present invention takes measures to newly place the <UV ink adhesive 101>, which is a liquid adhesive, instead of the existing <Optical transparent adhesive>.

In this case, the ultraviolet ink adhesives 101 and 102 of the present invention initially form a liquid state, and are cured during the UV curing process described later, and the interlayer surfaces of the window panel 20 and the touch panel 10 are further touched. By fully sticking and covering the interlayer surfaces of the panel 10 and the support 50, the window panel 20 and the touch panel 10, and further, the touch panel 10 and the support 50 are integrally bonded to each other. It will play a role.

Of course, since the ultraviolet ink adhesives 101 and 102 of the present invention are in the liquid state as described above, unlike the conventional optical transparent adhesive which is a solid transparent tape, the ultraviolet ink adhesives 101 and 102 are different from the window panel 20. Even in a state where the liquid is discharged and coated on the upper transparent substrate 1 of the touch panel 10 in contact with the lower transparent substrate 8 of the touch panel 10 in contact with the supporter 50 (see FIGS. 5A and 5B), No bad bubbles are formed at all.

Naturally, even in the case where the defective bubble is not formed, even if the ultraviolet ink adhesives 101 and 102 of the present invention occupy the main display path of the device 100, the LCD panel 60 is moved from the LCD panel 60 side via the touch panel 10. The electronic device-side display information output to the window panel 20 side is not adversely affected by the ultraviolet ink adhesives 101 and 102, and thus, the final shipped product can maintain extremely normal quality. On the producer side (device producers, electronic device producers), it is easy to enjoy the advantage that the competitiveness of their products is greatly improved.

In addition, even if the above-mentioned defective bubble is not formed, even if the ultraviolet ink adhesives 101 and 102 of the present invention occupy the main transmission path of the touch signal, the overall touch signal transmission quality of the device 100 (the touch pad) (that is, The touch state of the touch panel 10 is not adversely affected by the ultraviolet ink adhesives 101 and 102, and even in this case, the final shipped product can maintain extremely normal quality, and ultimately, the producer (device producer) On the other hand, manufacturers of electronic devices can easily enjoy the advantage that the competitiveness of their products is greatly improved.

Furthermore, in addition to the above advantages, the ultraviolet ink adhesives 101 and 102 of the present invention also have a very effective advantage that the price is significantly lower than the conventional <Optical Transparent Adhesive>. On the producer side (device producer, electronic device producer), in addition to the above-mentioned <avoidance effect due to bad bubbles>, an additional effect of <product cost reduction> can also be enjoyed flexibly.

At this time, the present invention takes measures to maintain the thickness of the ultraviolet ink adhesive (101,102) to 30㎛ ~ 60㎛. The reason for taking such measures in the present invention is that, as a result of the applicant's repeated experiments, if the thickness of the ultraviolet ink adhesives 101 and 102 exceeds 60 μm, the transparency of the ultraviolet ink adhesives 101 and 102 may be rapidly decreased. On the contrary, it has been found that when the thicknesses of the ultraviolet ink adhesives 101 and 102 become smaller than 30 mu m, a problem may occur that the adhesive force of the ultraviolet ink adhesives 101 and 102 is rapidly lowered.

As a result, under the above-described measures, the ultraviolet ink adhesives 101 and 102 of the present invention can exhibit a good quality of adhesive force while maintaining a series of transparency normally by maintaining a thickness of 30 μm to 60 μm.

At this time, the ultraviolet ink adhesives 101 and 102 of the present invention are photopolymerizable resins such as, for example, acrylic resins, origoma, such as polyesters, acrylates, epoxy acrylates, urethane acrylates, and the like. Reactive diluents of monomas and acrylates, for example, a photoinitiator composed of a carbonyl compound, a sulfur compound, an azo compound, an organic peroxide, and the like, and a polymerization inhibitor for preventing the dark reaction of the ultraviolet ink adhesive are added. You will have a combined configuration.

On the other hand, under the structure of the touch window device 100 according to the present invention having the above-described structure, when the user's finger or pen using the electronic device is in contact with a specific position of the window panel 20 (or, the window panel 20 Touch the specific position), the upper transparent conductive film 2 on the touch panel 10 side held by the insulating spacer 5 with the lower transparent conductive film 6 at a constant size is pressed by the force. In this situation, the upper and lower electrodes (3,7) formed on the upper and lower transparent conductive films (2,6) are formed. ) Flexibly form a series of electrical connections, and detect the electrical coordinate signal corresponding to the contact position of the user's finger or pen according to the voltage applied to the electronic device, and then transfer it to the control circuit of the electronic device. Output In the operation of the upper and lower electrodes 3 and 7 on the touch panel 10 side, electrical coordinates corresponding to the contact position (or touch position) of the user's finger or pen on the electronic device side are obtained. It is possible to accurately recognize the signal and to quickly take various actions corresponding thereto (for example, display of the user's touch position on the screen of the electronic device, computer process action corresponding to the user's instruction, etc.).

Of course, as described above, under the framework of the present invention, the ultraviolet ink adhesives 101 and 102 have no adverse effect on the overall touch signal transmission quality (ie, the touch state of the touch panel 10) of the device 100 (touch pad). On the other hand, the electronic device has no difficulty in taking the above-described action (e.g., displaying the user's touch position on the screen of the electronic device, computing process action corresponding to the user's instruction, etc.). You do not suffer.

Hereinafter, a method of assembling the touch window device 100 according to the present invention having the above-described configuration will be described in detail.

First, as shown in FIGS. 5A and 5B, in the present invention, components such as upper and lower transparent substrates 1 and 8, insulating spacers 5, and upper and lower transparent conductive films 2 and 6 are combined. After the touch panel 10 is formed, the ultraviolet ink adhesive ejector 201 is used, on both sides of the bonded touch panel 10, for example, on the upper and lower transparent substrates 1 and 8. A procedure of discharging and applying the liquid ultraviolet ink adhesives 101a and 102a is performed.

At this time, in the present invention, the ultraviolet ink adhesive ejector 201 is appropriately controlled so that the discharge amount of the ultraviolet ink adhesives 101a and 102a may have a value of about 5 g / m 2 to 10 g / m 2.

The reason for taking such measures in the present invention is that, as a result of the applicant's repeated experiments, if the discharge amount of the ultraviolet ink adhesives 101a and 102a exceeds 10 g / m 2, it is finally formed by the UV curing procedure to be performed later. Since the thickness of the ultraviolet ink adhesives 101 and 102 exceeds 60 µm, the transparency of the ultraviolet ink adhesives 101 and 102 may be lowered. On the contrary, the discharge amount of the ultraviolet ink adhesives 101a and 102a may be less than 5 g / m 2. If less, the thickness of the UV ink adhesives 101 and 102, which is finally formed by the UV curing procedure, becomes smaller than 30 µm, which may cause a problem that the adhesive strength of the UV ink adhesives 101 and 102 may be degraded. Because it was found.

As a result, under the above-described measures, the ultraviolet ink adhesives 101a and 102a and 101 and 102 of the present invention can maintain the discharge amount of about 5 g / m 2 to 10 g / m 2, and finally have a thickness of 30 μm to 60 μm. By having it, it becomes possible to maintain a certain level of transparency and adhesive strength normally.

In this way, when the liquid ultraviolet ink adhesives 101a and 102a are discharged and coated on both surfaces of the bonded touch panel 10, for example, the upper and lower transparent substrates 1 and 8, in the present invention, As shown in FIG. 6, after mounting the window panel 20 and the support 50 on both sides of the touch panel 10 to which the ultraviolet ink adhesives 101a and 102a are applied, the assembly is attached to the ultraviolet lamp 202. The process of loading in an ultraviolet ink curing apparatus (not shown) equipped with a.

In this case, the LCD panel 60 may be combined with the support 50 in advance in the assembly, and the coupling between the support 50 and the touch panel 10 is completed by a predetermined UV curing process described later. In the state, it may further be combined with the support (50).

Through the above-described procedure, the window panel 20 and the support 50 are mounted on both sides of the touch panel 10 to which the ultraviolet ink adhesives 101a and 102a are applied, and the assembly is loaded in the ultraviolet ink curing apparatus. In the present invention, as shown in the figure, by operating the ultraviolet ray output lamp 202, the ultraviolet ray is irradiated to the ultraviolet ink adhesive (101, 102) side, and through this, the procedure of curing the ultraviolet ink adhesive (101, 102) proceeds Done.

In this case, as shown in FIG. 7, according to the present invention, the position of the ultraviolet output lamp 202 provided in the ultraviolet ink curing apparatus may be changed to change the irradiation direction of ultraviolet rays.

Of course, under the ultraviolet irradiation condition from the ultraviolet output lamp 202, the interlayer surfaces of the window panel 20 and the touch panel 10, and further, the interlayer surfaces of the touch panel 10 and the support 50 are applied. Under the influence of ultraviolet rays, the ultraviolet ink adhesives 101a and 102a become hardly tacky, producing a series of polymerizations, and finally, under this situation, the touch panel 10 and the window panel 20, and the touch panel ( 10) and the support 50 will naturally form a structure that is firmly integrally bonded to each other via the ultraviolet ink adhesives 101 and 102 of the present invention.

In this way, when the touch panel 10 and the window panel 20, and the touch panel 10 and the support base 50 form the structure which is integrally bonded via the ultraviolet ink adhesives 101 and 102, In the present invention, as shown in Figure 8, through the trimming device (not shown), around the interlayer surface of the window panel 20 and the touch panel 10, further, interlayer surface of the touch panel 10 and the support 50 By trimming the excesses 101b and 102b of the ultraviolet ink adhesives 101 and 102 exposed to the surroundings, a procedure of arranging the periphery of the device 100 proceeds, and after completion of this trimming procedure, the touch window of the present invention The device 100 normally undergoes a process of being shipped as a finished product (of course, depending on the situation, various subsequent processes may be additionally performed in addition to the previous trimming process).

The present invention described above exhibits an overall useful effect in various types of electronic / electrical devices requiring a touch window device.

And, in the foregoing, specific embodiments of the present invention have been described and illustrated, but it is obvious that the present invention may be variously modified and implemented by those skilled in the art. Such modified embodiments should not be understood individually from the technical spirit or point of view of the present invention and such modified embodiments should fall within the scope of the appended claims of the present invention.

1 is an exemplary view showing a separate touch window device according to the prior art.

2 is a cross-sectional view of FIG.

Figure 3 is an exemplary view showing a separate touch window device according to the present invention.

4 is a cross-sectional view of FIG. 3.

5A to 8 are conceptual views conceptually illustrating an assembly procedure of a touch window device according to the present invention.

Claims (5)

A touch window device installed in an electronic device and functioning as an interface means between a user and the electronic device, A window panel; A touch panel disposed at a bottom of the window panel, configured to detect an electrical coordinate signal corresponding to a touch position of a user side touching the window panel, and output the detected coordinate signal to the electronic device; A supporter disposed on a bottom of the touch panel to support the touch panel; Is disposed on the bottom of the support, and includes an LCD panel for displaying and displaying the display information of the electronic device to the window panel side, Touch the touch panel and the window panel, and the other surface of the touch panel in contact with the window panel and the other side of the touch panel, UV ink adhesive for integrally bonding the touch panel and the support is disposed, characterized in that the touch Windows device. The touch window device of claim 1, wherein the ultraviolet ink adhesive has a thickness of 30 μm to 60 μm. The touch window device according to claim 1, wherein the ultraviolet ink adhesive is made of a combination of a photopolymerizable resin, origoma, a reactive diluent, a photopolymerization initiator, and a polymerization inhibitor. Discharging and applying a liquid ultraviolet ink adhesive on both sides of the combined touch panel; Mounting window panels and supports on both sides of the touch panel to which the ultraviolet ink adhesive is applied; In the situation where the window panel and the support are mounted on both sides of the touch panel, ultraviolet light is irradiated to the ultraviolet ink adhesive side to cure the ultraviolet ink adhesive, and through the curing of the ultraviolet ink adhesive, the touch panel and the window panel, And integrating the touch panel and the support together with each other. The method of claim 4, wherein the ultraviolet ink adhesive has a discharge amount of 5 g / m 2 to 10 g / m 2 and is applied to both surfaces of the bonded touch panel.

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