KR102093941B1 - Ultraviolet irradiation apparatus - Google Patents

Abstract

[Task] A linear light source that emits ultraviolet rays, a gutter mirror that reflects ultraviolet rays from the light source, and a lower side of the gutter mirror, with the exit port of the gutter mirror interposed therebetween, In the ultraviolet irradiation device having an ultraviolet irradiator having a pair of first and second planar mirrors arranged to face along the longitudinal direction, in curing an adhesive of a liquid crystal touch panel to be treated, in particular, a wiring board It is to provide a structure so that the pointed ultraviolet irradiation process, which is incidentally performed from the side, can be omitted.
[Solution] The first planar mirror is installed obliquely so that the lower end is closer to the second planar mirror, and is installed on the downstream side in the conveying direction, so that at least part of the light reflected from the first planar mirror is, It is characterized in that it passes through the lower side of the second planar mirror and is irradiated obliquely from the upper side to be treated.

Description

Ultraviolet irradiation device {ULTRAVIOLET IRRADIATION APPARATUS}

The present invention relates to an ultraviolet irradiation device using a linear light source that emits ultraviolet rays, and more particularly, to an ultraviolet irradiation device used for attaching a liquid crystal touch panel.

Many devices with liquid crystal touch panels are manufactured and sold. The liquid crystal touch panel has a structure in which a cover glass is attached to the surface of the liquid crystal panel to protect the liquid crystal panel, and the cover glass is adhered with an adhesive so that air does not enter between the liquid crystal panels. Hereinafter, the state in which the liquid crystal panel and the cover glass are attached will be referred to herein as a touch panel even if the adhesive is not cured or not.

The structure of such a liquid crystal touch panel is disclosed, for example, in Japanese Patent Laid-Open No. 2011-113047 (Patent Document 1).

6 and 7 schematically show the structure of the touch panel 20, FIG. 6 is an exploded bottom perspective view, and FIG. 7 is a side sectional view.

The liquid crystal touch panel 20 is composed of a liquid crystal panel 21 and a cover glass 22 adhered thereto, and the cover glass 22 is a transparent glass substrate, and is larger than the liquid crystal panel 21. On the periphery of the cover glass 22 on the liquid crystal panel 21 side, a black coating called black matrix (BM) 23 or a black evaporation film is formed in a frame shape. The black matrix 23 is provided so that light leaking from the periphery of the liquid crystal panel 22 does not leak from the touch panel 20, and is usually about 1 mm to 2 mm in the periphery of the liquid crystal panel 21. It is formed to be covered (overlap) in the range of.

Moreover, a film-shaped wiring board 24 for operating the liquid crystal substrate is provided on one edge of the liquid crystal panel 21.

An ultraviolet curing adhesive 25 is used to bond the liquid crystal panel 21 and the cover glass 22. The adhesive 25 is applied to the entire surface of the liquid crystal panel 21 without stains, and a cover glass 22 is placed thereon. When the adhesive 25 is irradiated with ultraviolet rays in this state, the adhesive is cured so that the liquid crystal panel 21 and the cover glass 22 are fixed to complete the liquid crystal touch panel 20.

In order to cure this adhesive 25, as shown in FIG. 7, ultraviolet rays are first irradiated from the cover glass 22 side to cure the adhesive in the region surrounded by the black matrix 23. Thereafter, in order to cure the uncured region as a shade of the black matrix 23, ultraviolet rays are irradiated from the liquid crystal panel 21 side to cure the adhesive in this region.

As an apparatus for curing such an adhesive, an ultraviolet irradiation device shown in Figs. 8 and 9 is generally used.

The ultraviolet irradiation device 30 includes an ultraviolet irradiation device 31 and a touch panel transport mechanism (conveyor conveyor) 32.

The ultraviolet irradiator 31 includes an ultraviolet irradiation unit 33 and planar mirrors 36 and 37. The ultraviolet irradiation unit 33 includes a rod-shaped ultraviolet lamp 34 that emits ultraviolet rays, and a gutter-shaped mirror 35 that reflects light from the rod-shaped ultraviolet lamp 34. As the ultraviolet lamp 34, a high pressure mercury lamp, a metal halide lamp, or the like is used.

Further, the gutter-shaped mirror 35 has a gutter-shaped shape extending along the longitudinal direction of the rod-shaped ultraviolet lamp 34.

Below the gutter-shaped mirror 35, a pair of first plane mirrors 36 and second plane mirrors 37 are arranged to follow the longitudinal direction of the rod-shaped UV lamp 34 with their exits interposed therebetween. Is arranged parallel to each other, and suppresses the expansion of ultraviolet rays emitted from the ultraviolet irradiation unit 33, and functions to shape the ultraviolet irradiation region L.

A touch panel transport mechanism (conveyor conveyor) 32 is disposed below the ultraviolet irradiator 31 to transport the touch panel 20.

Next, the curing process of the adhesive will be described.

1st process; As shown in FIG. 8 (A), first, the touch panel 20 is conveyed to the cover glass 22 side of the touch panel 20 toward the upper ultraviolet irradiator 31 side. ), And conveyed through the lower side of the ultraviolet irradiator 31, and irradiated with ultraviolet rays.

Thereby, as shown in FIG. 8 (B), the adhesive 25 is cured in the region A surrounded by the black matrix 23.

2nd process; As shown in FIG. 9 (A), the touch panel 20 which went through the 1st process is inverted, and the liquid crystal panel 21 side is placed toward the ultraviolet irradiator 31 side upward. And the touch panel 20 is conveyed by the conveyance conveyor 32, and ultraviolet rays are irradiated from the liquid crystal panel 21 side.

Here, the liquid crystal panel 21 is non-transmissive, and ultraviolet rays do not pass through it and are not irradiated to the adhesive 25, but the ultraviolet rays from the ultraviolet irradiator 31 are caused by a pair of flat mirrors 36 and 37. It is also reflected and irradiated to the liquid crystal touch panel 20 with a slight oblique component, and as shown in Fig. 9B, it enters the outer surface of the adhesive 25.

As a result, in the first irradiation step, a portion of the outer surface of the area B of the uncured adhesive 25 becomes the shade of the black matrix 23, so that a pair of planar mirrors 36, Since 37) is arranged in parallel to suppress the expansion of ultraviolet rays emitted from the ultraviolet ray irradiator 31 and to shape the rectangular ultraviolet ray irradiation region, it does not actively generate an oblique component of ultraviolet rays, and the above description One oblique component is insufficient, and its curing depth cannot be said to be sufficient.

6, the liquid crystal panel 21 is provided with a film-like wiring board 24 on one side thereof, and the wiring board 24 is a thin film-like material, but is flexible. Does not penetrate.

Accordingly, also in the second step, as shown in Fig. 10 (A), the three sides without the wiring board 24 in the uncured area B which becomes the shade of the black matrix 23 in the first step With respect to, the outer surface of the adhesive 25 is insufficient and some areas are hardened, but the region C with the wiring substrate 24 is not irradiated with ultraviolet rays at all, and remains as the uncured region C. .

When the uncured portion remains as described above, it is a cause of overall curing failure, and further appearance failure, so that the adhesive 25 between the liquid crystal panel 21 and the cover glass 22 is hardened in all areas. need.

Therefore, in the touch panel maker, after the treatment of the first step and the second step in the ultraviolet irradiation device 30 shown in FIGS. 8 and 9, as shown in FIG. A third process operation for curing the uncured portion C of the side with the wiring board 24 was performed, using the device 40 to be used.

That is, the black matrix 23 of the cover glass 22 is lifted by lifting the film-shaped wiring board 24 upwards, using a pointed ultraviolet irradiator 40, and irradiating ultraviolet rays from the side of the touch panel 20. ) And the uncured region C of the adhesive 25 corresponding to the wiring substrate 24 of the liquid crystal panel 21.

In addition, in the third step using the dropwise ultraviolet irradiator 40, in the second step of irradiating ultraviolet light from the liquid crystal panel 21 side shown in FIG. 9 (B), another wiring board 24 is not provided. In the case where curing of the outer surface of the adhesive 25 on three sides is insufficient, it may be performed on these three sides.

In this way, (1) ultraviolet irradiation from the cover glass side, (2) ultraviolet irradiation from the liquid crystal panel side, and (3) (by lifting the wiring substrate), the adhesion between the liquid crystal panel 21 and the cover glass 22 is carried out. ) Three steps of irradiation from the side are performed.

In the touch panel maker, there has been a strong desire to reduce the process of ultraviolet irradiation for the third time, in particular, to eliminate the third process, which is the manual work of the operator.

Japanese Patent Publication 2011-113047

In view of the problems of the prior art, the problem to be solved by the present invention is a linear light source that emits ultraviolet rays, a gutter mirror that reflects ultraviolet rays from the light source, and a lower portion of the gutter mirror. In the ultraviolet irradiation device having a pair of first and second planar mirrors which are arranged to face the longitudinal direction of the linear light source with the outlet of the gutter-shaped mirror interposed therebetween, the ultraviolet irradiation device comprising: In the process of bonding the liquid crystal panel and the cover glass of the liquid crystal touch panel by using, a black matrix formed on the cover glass with only two steps of ultraviolet irradiation from the cover glass side and ultraviolet irradiation from the liquid crystal panel side , A structure that can cure the entire adhesive, including the portion corresponding to the wiring board of the liquid crystal panel Is to provide.

As a result of the inventor's diligent study of these technical problems, when the amount of ultraviolet rays incident on the touch panel is increased from an oblique upper side, ultraviolet rays enter between the black matrix and the wiring board, and the adhesive in this portion can be cured. Found something.

In order to solve the above problem, in the ultraviolet irradiation device according to the present invention, the first flat mirror is installed obliquely so that the lower side is closer to the second flat mirror, and at least a part of the light reflected from the first flat mirror A, an ultraviolet irradiator arranged to pass under the second planar mirror, and a conveying mechanism for conveying an object to be treated under the ultraviolet irradiator, wherein the first flat mirror is downstream side in the conveying direction It is characterized in that the light is reflected from the first planar mirror, and passed through the lower side of the second planar mirror, is irradiated from an oblique upper side to the object to be treated.

Moreover, the said to-be-processed object is a liquid crystal touch panel which consists of a liquid crystal panel which has a wiring board, and the cover glass adhered by this to an adhesive, and in the said liquid crystal touch panel, the said wiring board is about the conveyance direction of the said conveying mechanism It is characterized in that it is arranged to be located on the opposite side to the first plane mirror and conveyed.

In addition, the first planar mirror is supported so as to be rotatable, so that the inclination angle can be adjusted freely.

According to the ultraviolet irradiation device of the present invention, in the curing operation of the adhesive bonding the liquid crystal panel and the cover glass of the liquid crystal touch panel to be treated, since the ultraviolet rays having sufficient oblique components from above the touch panel are irradiated, the black matrix of the cover glass The shaded area or the shaded area of the wiring board of the liquid crystal panel can be cured by ultraviolet rays of this oblique component, and the UV radiation from the cover glass side and the UV radiation from the liquid crystal panel side are twice. It is an effect that all adhesives can be cured only by the process of ultraviolet irradiation, and the cumbersome and troublesome operation such as ultraviolet irradiation from the side by hand can be omitted.

Further, since the inclination angle of the first flat mirror can be adjusted, an appropriate oblique irradiation corresponding to the object to be treated can be performed.

In addition, since the inclined second mirror portion of the first flat mirror can be adjusted in the vertical direction, it is possible to make it possible for the ultraviolet rays reflected from the second mirror portion to pass through the lower side of the first flat mirror.

1 is a schematic view of an ultraviolet irradiation device of the present invention.
2 is a schematic view of another embodiment of an ultraviolet irradiator used in the ultraviolet irradiation device of the present invention.
3 is a schematic view of another embodiment of an ultraviolet irradiator used in the ultraviolet irradiation device of the present invention.
4 is an explanatory cross-sectional view of a curing action by ultraviolet irradiation of a liquid crystal touch panel.
5 is an evaluation table showing a mirror angle and a curing range in the present invention.
Fig. 6 is a perspective view from below of the disassembled liquid crystal touch panel.
7 is a cross-sectional view of a liquid crystal touch panel.
8 is an explanatory view (A) of a first step of ultraviolet irradiation by a conventional ultraviolet irradiation device, and a cross-sectional view (B) of a liquid crystal touch panel after treatment.
9 is an explanatory view (A) of a second step of ultraviolet irradiation by a conventional ultraviolet irradiation device, and a cross-sectional view (B) of the liquid crystal touch panel after treatment.
10 is a partial cross-sectional view (A) for explaining the problem of ultraviolet treatment according to the prior art, and an explanatory view (B) for a third irradiation process.

1 is a schematic view of an ultraviolet irradiation device of the present invention.

The ultraviolet irradiator 1 includes an ultraviolet irradiator 2 and a pair of first and second planar mirrors 6 and 7. The ultraviolet irradiation section 2 includes a linear ultraviolet light source 3 that emits ultraviolet rays and a gutter-shaped mirror 4 that reflects light from the linear ultraviolet light source 3. As the ultraviolet light source 3, a rod-shaped ultraviolet lamp such as a high-pressure mercury lamp or a metal halide lamp, or an LED light source in which LEDs are arranged in a linear shape is used.

Further, the gutter-shaped mirror 4 is in a state extending along the longitudinal direction of the linear ultraviolet light source 3.

Then, the pair of first planar mirrors 6 and second planar mirrors 7 are located below the gutter-shaped mirror 4, with the exit opening of the gutter-shaped mirror 4 interposed therebetween. The shape light sources 3 are arranged to face each other along the longitudinal direction.

In addition, the first flat mirror 6 is freely rotated at its upper end and is conically adhesively supported, so that the angle of inclination can be adjusted freely, and the lower side is installed to be inclined so as to be closer to the second flat mirror 7. At least a portion of the light reflected by the one plane mirror 6 is arranged to pass under the second plane mirror 7.

A transport conveyor 9 is disposed below the ultraviolet irradiator 1, and a liquid crystal touch panel 20 as an object to be processed is placed on the transport conveyor 9.

The ultraviolet irradiator 1 and the transport mechanism (conveyor conveyor) 9 constitute the ultraviolet irradiator 10.

Here, the inclined first flat mirror 6 may be on either side with respect to the conveying direction, but the liquid crystal touch panel 20 placed on the conveying conveyor 9 has a side surface with a wiring board 24. , It is placed on the side opposite to the first planar mirror 6 with respect to the conveying direction, that is, on the second planar mirror 7 side.

In Fig. 1, the first flat mirror 6 is located on the downstream side in the conveying direction, and the liquid crystal touch panel 20 is placed on the conveying conveyor 9 so that the side with the wiring board 24 is on the upstream side. An example is shown.

2 shows another embodiment, and the first planar mirror 6 is composed of a first mirror portion 6a and a second mirror portion 6b. The first mirror portion 6a is installed parallel to the second planar mirror 7, and the second mirror portion 6b is freely rotated at the lower end of the first mirror portion 6a to obtain a tilt angle. The adjustment is free, and the lower side is installed obliquely so as to be closer to the second plane mirror 7.

In Fig. 3, another embodiment as a modification of the embodiment of Fig. 2 is shown, and the second mirror portion 6b of the first planar mirror 6 is adjusted in the vertical position relative to the first mirror portion 6a. It is supported as possible.

That is, the support opening 6c of the second mirror portion 6b is slidably supported by the first mirror portion 6a, and is fixed by adjusting the position in the vertical direction by screws 8 or the like. The 2nd mirror part 6b is conically adhered to this support tool 6c so that rotation is possible, and the inclination angle can be adjusted freely.

Also, in the embodiment of FIGS. 2 and 3, at least a portion of the light reflected from the second mirror portion 6b of the first plane mirror 6 is arranged to pass under the second plane mirror 7. It is the same as the embodiment shown in FIG. 1 that the liquid crystal touch panel 20 on the conveyer 9 is irradiated from an oblique upper side.

4 shows an embodiment of curing the adhesive by ultraviolet irradiation on the liquid crystal touch panel 20 according to the present invention.

As shown in FIG. 4 (A), first, the liquid crystal touch panel 20 is irradiated with ultraviolet light from the cover glass 22 side. At this time, the adhesive 25 in the so-called area A, which is surrounded by the black matrix 23 by the vertical light component, is cured. Then, on the side having the wiring board 24, the inclined light component of ultraviolet light reflected by the first planar mirror 6 (the second mirror 6b of) is a black matrix 23 of the cover glass 22 ) Is irradiated to dig downward, and is cured to a predetermined area (X) that is a shade of the black matrix 23.

Subsequently, as shown in Fig. 4B, when the liquid crystal touch panel 20 is inverted and irradiated with ultraviolet light from the liquid crystal panel 21 side, the inclined light component is irradiated from the outer surface of the liquid crystal touch panel 20. It enters from the outer surface of the adhesive 25, and the adhesive 25 is cured to a predetermined area Y.

When the ultraviolet light is irradiated from the cover glass 22 side, the inclined light component of a large inclination angle is irradiated with a larger width than the inclined light component reflected by a pair of parallel planar mirrors arranged in the prior art. Even on the side having (24), the region entering the lower side of the black matrix 23 increases, and accordingly the width of the curing region X increases.

In addition, since the incident angle from the outer surface of the liquid crystal touch panel 20 is large even on the side that does not have the wiring board 24 for ultraviolet irradiation from the liquid crystal panel 21 side, the downward direction of the liquid crystal panel 21 The area to enter increases, and the width of the curing area Y of the adhesive also increases in this aspect.

Fig. 5 shows the results of examining the curing range X on the side surface having the wiring board 24 by changing the inclination angle of the first planar mirror 6 (or the first mirror portion 6a) in the present invention. It is described in Table 1.

Here, the mirror angle θ is an angle forming a vertical line with the first planar mirror 6 (the second mirror portion 6b), and the curing range A is a black matrix at the side having the wiring board 24 ( It is the curing distance of the adhesive 25 from the inner surface of 23).

In general, the distance (width) of the cover glass 23 to the periphery of the liquid crystal panel 21 is about 1 to 2 mm, and as the evaluation of the curing range A, 1 mm or more was targeted.

As can be seen from Table 1, when the mirror angle θ is set to 20 ^° to 40 ^° , the curing range A exceeds 1 mm.

As described above, according to the ultraviolet irradiation device according to the present invention, of the pair of flat mirrors installed below the gutter mirror surrounding the linear light source, one first flat mirror is attached to the other second flat mirror. In addition to being inclined to be closer, at least a portion of the light reflected from the first plane mirror is arranged to pass under the second plane mirror, so the reflected light from the first plane mirror has a large inclined light component, Upon irradiation from the cover glass side, it is incident so as to dig down the black matrix, and can penetrate into the adhesive below the black matrix and harden.

In addition, even when irradiating from the liquid crystal panel side, since light of a large oblique component is irradiated from the outer surface of the liquid crystal touch panel, it penetrates deeply into the uncured region below the black matrix, and the curing region can be enlarged. .

By doing this, in particular, the cumbersome process of irradiating ultraviolet rays, which has been conventionally required on the side with the wiring board, is omitted, and the irradiation of the two steps of irradiation from the cover glass side and irradiation from the liquid crystal panel side is performed. Thereby, the effect that a sufficient hardening area can be obtained is exhibited.

1 UV irradiator
2 UV irradiation unit
3 Linear light source
4 Cylindrical mirror
6 1st flat mirror
6a 1st mirror part
6b second mirror
6c support
7 2nd flat mirror
9 Conveying mechanism (conveyor)
10 UV irradiation device
20 LCD touch panel
21 LCD panel
22 cover glass
23 black matrix
24 wiring board
25 glue
A hardened area
B, C uncured area
Hardened area on the side with the X wiring board
Hardened area on the side without Y wiring board

Claims (3)

A linear light source that emits ultraviolet rays,
A gutter-shaped mirror reflecting ultraviolet light from the light source,
Below the gutter mirror, the pair of first and second planar mirrors are arranged to face the longitudinal direction of the linear light source with the exit port of the gutter mirror interposed therebetween,
The first flat mirror is provided so that the lower side is inclined to be closer to the second flat mirror, and at least a part of the light reflected from the first flat mirror is disposed so as to pass under the second flat mirror. Investigator,
Below the ultraviolet irradiator, there is provided a transport mechanism for transporting the object to be treated,
The first plane mirror is provided on the downstream side in the conveying direction, and light reflected from the first plane mirror and passed below the second plane mirror is irradiated from the upper side obliquely to the object to be treated. Ultraviolet irradiation device characterized by. The method according to claim 1,
The said to-be-processed object is a liquid crystal touch panel which consists of a liquid crystal panel which has a wiring board, and the cover glass adhered to it, and the said liquid crystal touch panel is a said liquid crystal touch panel in which the said wiring board is said with respect to the conveyance direction of said conveyance mechanism Ultraviolet irradiation device, characterized in that it is arranged to be placed on the opposite side of the plane mirror and conveyed. The method according to claim 1 or claim 2,
The first flat mirror is supported so as to be rotatable, and the ultraviolet irradiation device is characterized in that the adjustment of the inclination angle is free.

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