KR100890198B1 - Structure for bonding touch screen and FPCB - Google Patents

Abstract

The present invention relates to a bonding structure of a touch screen and a flexible printed circuit board (FPCB), in order to more safely handle the FPCB acting as a connection between the touch screen and the system, the machining of NC, etc. in the outer portion of the touch screen where the FPCB is located. Forming a groove through it provides a bonding structure that is not exposed to the outside of the touch screen when the FPCB is folded.

Touch screen, FPCB, splicing, groove

Description

Structure for bonding touch screen and FPCB}

1 is a plan view illustrating a connection configuration between a general touch screen and an FPCB.

2 is a cross-sectional view illustrating a bonding structure between a touch screen and an FPCB according to a first comparative example.

3 is a cross-sectional view illustrating a bonding structure between a touch screen and an FPCB according to a second comparative example.

4 is a cross-sectional view illustrating a bonding structure between a touch screen and an FPCB according to a third comparative example.

5 is a cross-sectional view illustrating a bonding structure of a touch screen and an FPCB according to a fourth comparative example.

6 is a cross-sectional view illustrating a bonding structure between a touch screen and an FPCB according to a fifth comparative example.

7 is a cross-sectional view illustrating a bonding structure between a touch screen and an FPCB according to a sixth comparative example.

8 is a plan view illustrating a bonding structure of a touch screen and an FPCB according to the present invention.

9 is a plan view illustrating a bonding structure between a conventional touch screen and an FPCB.

10 is a cross-sectional view illustrating a bonding structure between a touch screen and an FPCB according to a first embodiment of the present invention.

11 is a cross-sectional view illustrating a bonding structure of a touch screen and an FPCB according to a second embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: touch screen

11: ITO film

12: adhesive / adhesive tape

13: dot spacer

14: ITO substrate

15: substrate

16: protective film

17: home

18: wiring

19: ACA / ACF

20: FPCB

The present invention relates to a bonding structure of a touch screen and a flexible printed circuit board (FPCB), and more particularly, to form a groove in the outer portion of the touch screen to which the FPCB is bonded, so that the FPCB is not exposed to the outer portion of the touch screen when the FPCB is folded. It relates to a joint structure that can be handled more safely.

Most touch screens use a flexible printed circuit board (FPCB) to connect to the system. To this end, the joints are bonded using heat and pressure with anisotropic conductive ACA or anisotropic conductive film (ACF).

1 illustrates a connection configuration of a general touch screen. As shown in the figure, a long part of the touch screen body 10 is the FPCB 20 that connects the touch screen 10 to the system.

2 is a cross-sectional view showing a bonding structure of the touch screen 10 and the FPCB 20 according to the first comparative example, the touch screen 10 is an indium tin oxide (ITO) film 11, adhesive / adhesion It consists of the tape 12, the dot spacer 13, and the ITO board | substrate 14, Here, the ITO board | substrate 14 is a transparent board | substrate, such as glass, a film, a plastic in which the ITO film was formed.

3 is a cross-sectional view illustrating a bonding structure of the touch screen 10 and the FPCB 20 according to the second comparative example, and when it is composed of a soft ITO film 11 or thin plastic instead of an ITO substrate, It is a structure in the case of padding a substrate 15 such as a rather thick plastic underneath.

4 is a cross-sectional view illustrating a bonding structure of the touch screen 10 and the FPCB 20 according to a third comparative example, and the FPCB 20 is disposed on both upper and lower surfaces of the touch screen 10 as needed. The structure in the case of joining is shown. In this case as well, the support may be reinforced in the lower part, and the drawings thereof will be omitted.

2 to 4 are exemplary cross-sectional views of the connection portion of the conventional touch screen body 10 and the FPCB 20. As shown in the figure, since the FPCB 20 is made longer than the lower substrate, it is inevitable to protrude.

5 and 6 are cross-sectional views illustrating a bonding structure of a touch screen and an FPCB according to a fourth comparative example and a fifth comparative example, respectively, to protect contamination of fingerprints and the like in a conventional single touchscreen finished product. It has a structure in which the film 16 is pasted.

In particular, in the case of the protective film 16, it should be unfolded like the ITO film 11 on the upper side due to the external consideration, and 1: 1 1: 1 with the ITO film 11 on the upper side or the substrates 14 and 15 on the lower side. It is aesthetically very important that they stick together in size.

As shown in FIGS. 5 and 6, the protective film 16 is unfolded and the touch screen is placed thereon in order to properly attach the protective film 16, and then along the outer edges (like a line with a pencil). When the protective film 16 is drawn with a knife, the protective film 16 having a size that exactly matches the lower substrates 14 and 15 can be attached.

By the way, when the FPCB 20 is not folded in this process, if care is not taken when drawing with a knife, since the FPCB 20 is disconnected by the knife, it is necessary to fold and fix the FPCB 20.

FIG. 7 is a cross-sectional view illustrating a bonding structure between a touch screen and an FPCB according to a sixth comparative example, and a process of folding the FPCB 20 in advance and then attaching the protective film 16 to prevent the disconnection. It is shown. As shown in the figure, even if the FPCB 20 is folded, it is present in the protruding state.

Therefore, when the FPCB 20 is folded close to the substrate 14 as shown in FIG. 7, the FPCB 20 is also torn by a sharp edge or the like, or in the process of attaching the protective film 16 in a loosely folded state. There is always a risk of being injured by a careless blade.

In addition, even when the sharp corners are easy to use by the user, or when processing the corners to increase the stability of the part having the FPCB 20 is a lot of defects occur.

Accordingly, it is an object of the present invention to provide a touch screen and FPCB bonding structure that can prevent damage to the FPCB and facilitate the process when it is necessary to fold the FPCB in process and finished product handling.

In order to achieve the above object, the present invention, in the bonding of the touch screen and the flexible printed circuit board (FPCB), the touch screen and the flexible, characterized in that the groove is formed on the substrate outer surface of the touch screen bonded to the flexible printed circuit board Provides a bonding structure of a printed circuit board.

In the present invention, since the thickness of the flexible printed circuit board is smaller than the width of the outer groove of the substrate of the touch screen, when the flexible printed circuit board is folded, the flexible printed circuit board is disposed inside the outer groove of the substrate of the touch screen.

In the present invention, the ITO film or the like formed on the substrate of the touch screen is preferably formed in contact with the outer groove or inward.

In the present invention, the substrate of the touch screen may extend from the main body and a groove may be formed in the extension portion thereof.

The present invention can be applied to resistive touch screens or capacitive touch screens such as 4 wires, 5 wires, 6 wires and 8 wires.

Most touchscreens use FPCB to connect to the system. That is, the FPCB is bonded to the touch screen body, and after the FPCB bonding, the final finished product is required through several processes, and the FPCB must be safely maintained until the process of mounting the system using the touch screen.

To this end, the present invention provides a bonding structure in which a groove is formed in the outer periphery of the touch screen so that the FPCB is easily folded inside the groove of the touch screen so that the FPCB is not damaged at all.

According to the present invention, it is easy to attach the protective film on the front of the touch screen in the size of 1: 1 with the touch screen, the FPCB is folded in the corner of the touch screen can prevent the phenomenon of being broken by the sharp edge, the problem of breaking In order to solve the problem, the edges of the touch screen can be processed smoothly without damaging the FPCB, and when it is put in the product tray, the FPCB is folded securely for easy handling.

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

FIG. 8 is a plan view illustrating a bonding structure between a touch screen and an FPCB according to the present invention, in which a groove 17 that can fold the FPCB 20 is formed on the outer periphery of the substrate of the touch screen 10 bonded to the FPCB 20. It is. In other words, before joining the FPCB 20, the groove 17 is made in advance, and then the FPCB 20 is bonded. When the FPCB 20 is folded using the space of the groove 17, the FPCB ( 20) can be folded without protruding.

FIG. 9 is a plan view illustrating a bonding structure between a conventional touch screen and an FPCB. In the case of the present invention shown in FIG. 8 in comparison with this figure, it can be seen that the groove 17 has a clear groove 17 at the bonding portion of the FPCB 20.

FIG. 10 is a cross-sectional view illustrating a bonding structure between a touch screen and an FPCB according to a first embodiment of the present invention, and is a cross-sectional view taken along line AA ′ of FIG. 8.

As shown in the figure, when the FPCB 20 is folded to avoid various constraints, it can be seen that the FPCB 20 is located inward of the normal substrate 15 and does not protrude.

Specifically, in the method of connecting the FPCB 20 by the bonding of the ACA or the ACF 19, the groove 17 is formed on the touch screen main body of the bonding portion of the FPCB 20, that is, the substrate 15 or the ITO substrate 14. By forming), the FPCB 20 does not protrude when the FPCB 20 is folded inward.

In some cases, the substrate 15 may not be the original function of the touch screen, but the size of the substrate 15 is larger than that of the touch screen body 10, that is, the substrate 15 extends outward from the length of a conventional substrate. The grooves 17 may be formed only on the pure substrate 15 portion, not the film portion of the ITO film 11 constituting the touch screen, or a portion of the substrate composed of glass or plastic.

When the touch screen body 10 is formed of a film, the support substrate 15 may be formed at the bottom of glass or plastic to support the touch screen when pressed with a stylus pen or a finger for touch. In this case, since it is not easy to match the touch screen 10 and the support substrate 15 with a precise size of 1: 1, if the support area is larger than the touch screen, the appearance problem caused by the tolerance generated during the bonding operation is difficult. Can be improved.

In this embodiment, the ITO film 11 formed on the substrate 15, the wiring 18 such as Ag, and the ACA / ACF 19 are in contact with the outer groove 17, and the FPCB 20 is drawn according to the folded state. You can fold it to the side like this, or you can fold it less so that there is some space.

By processing the grooves 17 in this manner, damage to the FPCB 20 can be prevented when the FPCB 20 is folded and then processed.

FIG. 11 is a cross-sectional view illustrating a bonding structure between a touch screen and an FPCB according to a second embodiment of the present invention. In this embodiment, the ITO film 11, the wiring 18, and the ACA / ACF are formed on the substrate 15. 19 is formed inside the outer groove 17, the FPCB 20 can be folded by sticking to each side as shown in the figure, depending on the folded state, may be less attached so that there is a little space. 11 is an example when the FPCB 20 is folded, and the cross section of the actual product may not be in the folded state.

In the present invention, the substrate 15 is slightly larger than the touch screen 10, so that in addition to the advantages described above, the process of digging into the pure substrate 15 is possible, and the ITO film 11 of the touch screen body 10 By preventing the back from being damaged, the touch screen itself can be left in a more stable product state.

According to the present invention, it is easy to attach the protective film on the front of the touch screen in the size of 1: 1 with the touch screen, the FPCB is folded in the corner of the touch screen can prevent the phenomenon of being broken by the sharp edge, the problem of breaking In order to solve the problem, the edges of the touch screen can be smoothly processed without damaging the FPCB, and in the case of the product tray, the FPCB is safely folded for easy handling.

Claims (6)

In the bonding structure of the touch screen including a substrate and a flexible printed circuit board (FPCB) provided on one side of the touch screen, A flexible printed circuit board mounting groove having a width corresponding to the width of the flexible printed circuit board is provided at one side of the substrate, and the flexible printed circuit board is folded and seated in the flexible printed circuit board mounting groove. Bonding structure of screen and flexible printed circuit board. According to claim 1, wherein the thickness of the flexible printed circuit board is smaller than the width of the outer groove of the substrate of the touch screen when the flexible printed circuit board is folded, the touch, characterized in that the flexible printed circuit board is disposed inside the outer groove of the substrate of the touch screen Bonding structure of screen and flexible printed circuit board. The bonding structure of claim 1, wherein the indium tin oxide (ITO) film formed on the substrate of the touch screen is in contact with the outer groove. The bonding structure of claim 1, wherein an indium tin oxide (ITO) film formed on the substrate of the touch screen is formed inside the outer groove. 2. The bonding structure of claim 1, wherein the substrate of the touch screen extends from the main body and a groove is formed in the extension portion. The bonding structure of a touch screen and a flexible printed circuit board according to claim 1, wherein the touch screen is a resistive touch screen or a capacitive touch screen.

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