KR102053296B1 - Ultraviolet irradiator and ultraviolet irradiation apparatus - Google Patents

Abstract

[Problem] The linear light source radiates ultraviolet rays, the gutter mirror reflecting the ultraviolet light from the light source, and the exit hole of the gutter-shaped mirror below the gutter mirror. In the ultraviolet irradiator and the ultraviolet irradiating apparatus having a pair of first and second planar mirrors disposed to be opposed to each other along the longitudinal direction, in curing the adhesive of the liquid crystal touch panel as the object to be treated, in particular, a side having a wiring board It is to provide a structure that can omit the drip ultraviolet irradiation step that is performed incidental to.
[Solution] The first planar mirror is installed to be inclined such that its lower end is closer to the second planar mirror, and at least a part of the light reflected from the first planar mirror passes below the second planar mirror. It is characterized by being arranged.

Description

UV irradiator and ultraviolet irradiator {ULTRAVIOLET IRRADIATOR AND ULTRAVIOLET IRRADIATION APPARATUS}

The present invention relates to an ultraviolet irradiator and an ultraviolet irradiator using a linear light source that emits ultraviolet rays, and more particularly, to an ultraviolet irradiator and an ultraviolet irradiator for attachment of a liquid crystal touch panel.

Many apparatuses provided with a touch panel of liquid crystal have been 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 for protection of the liquid crystal panel, and the cover glass is bonded by an adhesive so that no air enters between the liquid crystal panel. Hereinafter, what is called a touch panel is here, even if it is an unfinished state, such that an adhesive agent is not hardened | cured that the state with which a liquid crystal panel and a cover glass adhered.

The structure of such a touch panel of liquid crystal 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 cross-sectional view.

The liquid crystal touch panel 20 consists of the liquid crystal panel 21 and the cover glass 22 bonded to this, and this cover glass 22 is a transparent glass substrate and is larger than the liquid crystal panel 21. In the peripheral portion of the cover glass 22 on the liquid crystal panel 21 side, a black paint called a black matrix (BM) 23 or a black vapor deposition film is formed in a frame shape. The black matrix 23 is provided so that light leaking out 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 so that it may overlap (overlap) in the range of.

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

An ultraviolet curable adhesive 25 is used for bonding the liquid crystal panel 21 and the cover glass 22. Adhesive 25 is apply | coated to the whole surface of the liquid crystal panel 21 without a spot, and the cover glass 22 is put on it. When ultraviolet-ray is irradiated to the adhesive agent 25 in that state, an adhesive agent hardens | cures and the liquid crystal panel 21 and the cover glass 22 are fixed, and the liquid crystal touch panel 20 is completed.

In order to harden this adhesive agent 25, as shown in FIG. 7, an ultraviolet-ray is irradiated from the cover glass 22 side first, and the adhesive agent of the area | region enclosed by the black matrix 23 is hardened. Then, in order to harden the uncured area | region by becoming the shade of the black matrix 23, ultraviolet-ray is irradiated from the liquid crystal panel 21 side, and hardening of the adhesive agent of this area | region is performed.

As an apparatus for hardening such an adhesive agent, the ultraviolet irradiation apparatus shown to FIG. 8, FIG. 9 is generally used.

The ultraviolet irradiation device 30 consists of an ultraviolet irradiation device 31 and a touch panel conveyance mechanism (conveyor conveyor) 32.

The ultraviolet irradiator 31 includes an ultraviolet irradiator 33 and planar mirrors 36 and 37. The ultraviolet irradiation part 33 is provided with the rod-shaped ultraviolet lamp 34 which radiates an ultraviolet-ray, and the groove-shaped mirror 35 which reflects the light from this rod-shaped ultraviolet lamp 34. As shown in FIG. As this ultraviolet lamp 34, a high pressure mercury lamp, a metal halide lamp, etc. are used.

In addition, the groove-shaped mirror 35 has a groove shape extending along the longitudinal direction of the rod-shaped ultraviolet lamp 34.

Below the trough mirror 35, a pair of first planar mirrors 36 and second planar mirrors 37 are arranged along the longitudinal direction of the rod-shaped ultraviolet lamp 34 with the exit opening therebetween. Are arranged in parallel to each other, and function to shape the ultraviolet irradiation region L by suppressing the expansion of the ultraviolet rays emitted from the ultraviolet irradiation section 33.

Below this ultraviolet irradiation machine 31, the touch panel conveyance mechanism (conveyor conveyor) 32 is arrange | positioned, and the touch panel 20 is conveyed.

Next, the hardening process of an adhesive agent is demonstrated.

1st process; As shown to FIG. 8 (A), the touch panel 20 conveys the conveyance 32 to the cover glass 22 side of the touch panel 20 toward the upper side ultraviolet irradiator 31 first. ), It is conveyed downward of the ultraviolet irradiator 31, and an ultraviolet-ray is irradiated.

As a result, as shown in FIG. 8B, the adhesive 25 is cured in the region A surrounded by the black matrix 23.

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

Here, the liquid crystal panel 21 is non-transmissive, and ultraviolet rays do not penetrate here and irradiate the adhesive 25, but the ultraviolet rays from the ultraviolet irradiator 31 are caused by the pair of planar mirrors 36 and 37. It may be reflected and irradiated to the liquid crystal touch panel 20 with a slight oblique component, as shown in FIG. 9B, and enters the outer surface of the adhesive 25.

As a result, in the first irradiation step, a part of the outer surface of the region B of the uncured adhesive 25 becomes hardened by the shade of the black matrix 23, but the pair of planar mirrors 36, In order to suppress the expansion of the ultraviolet rays emitted from the ultraviolet irradiator 31 and to form a rectangular ultraviolet irradiation region, the arrangement 37 is not arranged to actively produce oblique components of ultraviolet rays. One oblique component is insufficient, and its hardening depth is not sufficient.

As shown in Fig. 6, the liquid crystal panel 21 is provided with a film-shaped wiring board 24 on one side thereof, and the wiring board 24 is a thin film and flexible, but ultraviolet rays Does not penetrate

Therefore, also in the second step, as shown in FIG. 10 (A), three sides without the wiring board 24 in the uncured region B that become the shade of the black matrix 23 in the first step are not shown. In contrast, the outer surface of the adhesive 25 is insufficient, but some regions are cured, but ultraviolet rays are not irradiated to the region C having the wiring board 24 at all, and remain as an uncured region C. .

If the uncured portion remains in this manner, it may cause hardening of the entire body, and also poor appearance, and the like. Therefore, the adhesive 25 between the liquid crystal panel 21 and the cover glass 22 should be cured in all regions. need.

Therefore, in the touch panel maker, after processing of the 1st process and the 2nd process in the ultraviolet irradiation device 30 shown to FIG. 8, 9, as shown to FIG. 10 (B), an ultraviolet-ray is irradiated gradually. The 3rd process operation | work for hardening the uncured part C of the side with the wiring board 24 was performed especially using the apparatus 40 to make.

That is, the film-shaped wiring board 24 is lifted upwards, ultraviolet-ray is irradiated from the side of the touch panel 20 using the drip ultraviolet irradiator 40, and the black matrix 23 of the cover glass 22 is carried out. ) And the uncured region C of the adhesive agent 25 corresponding to the wiring board 24 of the liquid crystal panel 21.

In addition, in the said 3rd process using the drip-ultraviolet irradiator 40, in the 2nd process of ultraviolet irradiation from the liquid crystal panel 21 side shown in FIG. When hardening of the outer side surface of the adhesive agent 25 in three sides is inadequate, it may be performed also about these three sides.

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

In the touch panel makers, there was a strong desire to reduce the third step of ultraviolet irradiation, which is particularly important for the worker, to reduce the third step of ultraviolet irradiation.

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-shaped mirror reflecting ultraviolet rays from the light source, and a lower portion of the gutter-shaped mirror. An ultraviolet irradiator having a pair of first and second planar mirrors disposed to face each other along the longitudinal direction of the linear light source with the exit opening of the gutter-shaped mirror interposed therebetween, wherein the ultraviolet irradiator In the process of adhering a liquid crystal panel and a cover glass, the black matrix formed in the cover glass and the wiring board of the liquid crystal panel only by the process of two times of ultraviolet irradiation of the ultraviolet irradiation from the cover glass side and the ultraviolet irradiation from the liquid crystal panel side. It is to provide a structure capable of curing the entire adhesive including a portion corresponding to the.

As a result of diligent study by the inventor about such a technical subject, when the component of the ultraviolet-ray which inject | occur | produces from the oblique upper direction is increased with respect to a touch panel, an ultraviolet-ray may enter between a black matrix and a wiring board, and the adhesive agent of this part can be hardened. I found something.

In order to solve the said subject, in the ultraviolet irradiator which concerns on this invention, the said 1st planar mirror is provided inclined so that the lower end side may become close to the said 2nd planar mirror, and at least one part of the light reflected by the said 1st planar mirror is It is arrange | positioned so that the said 2nd planar mirror may pass below.

The first planar mirror is rotatably supported, and the tilt angle can be freely adjusted.

The first planar mirror may include a first mirror part arranged in parallel with the second planar mirror and a second mirror part inclined at a lower end of the first mirror part.

Moreover, the 2nd mirror part of the said 1st planar mirror is mounted so that adjustment is possible in the up-down direction with respect to the said 1st mirror part.

Moreover, while having the said ultraviolet irradiator, below the said ultraviolet irradiator, it is equipped with the conveyance mechanism which conveys a to-be-processed object, and at least one part of the light reflected from the said 1st plane mirror was oblique with respect to the to-be-processed object. It is characterized by irradiating from above.

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 adhere | attached to this with an adhesive agent, The said liquid crystal touch panel has the said wiring board regarding the conveyance direction of the said conveyance mechanism. It is arrange | positioned so that it may be located on the opposite side to the said 1st planar mirror, It is characterized by the above-mentioned.

According to the ultraviolet irradiator and ultraviolet irradiator of this invention, in the hardening operation of the adhesive agent which adhere | attaches the liquid crystal panel and cover glass of the liquid crystal touch panel which are to-be-processed objects, since the ultraviolet-ray which has a sufficient oblique component from above a touch panel is irradiated, it is a cover glass. The area | region which becomes the shade of the black matrix of this, and the area | region which becomes the shade of the wiring board of a liquid crystal panel can be hardened by the ultraviolet of this oblique component, and of ultraviolet irradiation from a cover glass side and ultraviolet irradiation from a liquid crystal panel side All adhesives can be hardened only by the process of two ultraviolet irradiations, and the cumbersome and cumbersome work of ultraviolet irradiation from the side by a manual operation can be exhibited.

Moreover, since the inclination angle of the 1st planar mirror can be adjusted, the appropriate oblique irradiation corresponding to the to-be-processed object can be performed.

Moreover, since the inclined 2nd mirror part of a 1st planar mirror was made adjustable in the up-down direction, the ultraviolet-ray reflected by the said 2nd mirror part can be made to pass suitably below a 1st planar mirror.

1 is a schematic diagram of an ultraviolet irradiator and an ultraviolet irradiating apparatus of the present invention.
2 is a schematic view of another embodiment of the ultraviolet irradiator of the present invention.
3 is a schematic diagram of another embodiment of the ultraviolet irradiator of the present invention.
4 is an explanatory cross-sectional view of a curing action of ultraviolet light irradiation of a liquid crystal touch panel.
The evaluation table which shows the mirror angle and hardening range in this invention.
Fig. 6 is a perspective view from below in which the liquid crystal touch panel is disassembled.
7 is a cross-sectional view of a liquid crystal touch panel.
8 is an explanatory diagram (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 the treatment.
9 is an explanatory diagram (A) of a second step of ultraviolet irradiation by a conventional ultraviolet irradiation device, and a cross-sectional view (B) of a liquid crystal touch panel after the treatment.
10 is a partial cross-sectional view (A) illustrating a problem of ultraviolet treatment according to the prior art, and an explanatory diagram (B) of a third irradiation step.

1 is a schematic diagram of an ultraviolet irradiator and an ultraviolet irradiating apparatus of the present invention.

The ultraviolet irradiator 1 includes an ultraviolet irradiator 2 and a pair of first and second planar mirrors 6, 7. The ultraviolet irradiation part 2 is provided with the linear ultraviolet light source 3 which radiates an ultraviolet-ray, and the groove-shaped mirror 4 which reflects the light from this linear ultraviolet light source 3. As this ultraviolet light source 3, rod-shaped ultraviolet lamps, such as a high pressure mercury lamp and a metal halide lamp, the LED light source which linearly arranged LED, etc. are used.

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

And the pair of 1st planar mirror 6 and the 2nd planar mirror 7 are below the said gutter-shaped mirror 4 WHEREIN: The said line is provided with the exit opening of the said gutter-shaped mirror 4 interposed. It is arrange | positioned so that it may follow the longitudinal direction of the shape light source 3.

The first planar mirror 6 is pivotally attached to the upper end of the first planar mirror 6 so as to freely adjust the inclination angle, and the lower end of the first planar mirror 6 is inclined so as to be close to the second planar mirror 7. At least a part of the light reflected by the first plane mirror 6 is disposed to pass below the second plane mirror 7.

The conveyance conveyor 9 is arrange | positioned under the said ultraviolet irradiation machine 1, and the liquid crystal touch panel 20 which is a to-be-processed object is mounted on the said conveyance conveyor 9. As shown in FIG.

The ultraviolet irradiator 1 and the conveyance mechanism (conveyor conveyor) 9 comprise the ultraviolet irradiator 10.

Here, the inclined first plane 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 at which the wiring board 24 is located. , With respect to the conveying direction, is placed on the side opposite to the first plane mirror 6, that is, on the second plane mirror 7 side.

In FIG. 1, the 1st plane mirror 6 is located downstream of a conveyance direction, and the liquid crystal touch panel 20 was mounted on the conveyance conveyor 9 so that the side surface with the wiring board 24 may be upstream. An example is shown.

Another embodiment is shown in FIG. 2, wherein the first planar mirror 6 comprises a first mirror portion 6a and a second mirror portion 6b. The first mirror portion 6a is provided in parallel with the second plane mirror 7, and the second mirror portion 6b is rotatably provided at the lower end of the first mirror portion 6a to have a tilt angle. The adjustment is free, and the lower end side is inclined so as to be close to the second plane mirror 7.

FIG. 3 shows another embodiment as a modification of the embodiment of FIG. 2, in which the second mirror portion 6b of the first planar mirror 6 is adjusted in the vertical direction with respect to the first mirror portion 6a. Possibly supported.

That is, the support 6c of the 2nd mirror part 6b is slidably supported by the 1st mirror part 6a, and is fixed by being able to adjust the position of the up-down direction by the screw 8 etc. The second mirror portion 6b is conically bonded to the support member 6c so as to be rotatable, and the inclination angle is freely adjusted.

2 and 3, at least a part of the light reflected by the second mirror portion 6b of the first planar mirror 6 passes through the second planar mirror 7. And irradiated to the liquid crystal touch panel 20 on the conveyer 9 from the oblique upper direction is the same as the Example shown in FIG.

4, the aspect of adhesive hardening by ultraviolet irradiation to the liquid crystal touch panel 20 by this invention is shown.

As shown in FIG. 4A, first, the liquid crystal touch panel 20 is irradiated with ultraviolet rays from the cover glass 22 side. At this time, the adhesive agent 25 in the so-called screen area A, which is surrounded by the black matrix 23 by the vertical light component, is cured. And in the side which has the wiring board 24, the inclination-light component of the ultraviolet-ray reflected by the 1st planar mirror 6 (2nd mirror 6b of) is the black matrix 23 of the cover glass 22. As shown in FIG. Irradiated so as to penetrate underneath), and hardened to a predetermined area X which 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 rays from the liquid crystal panel 21 side, the inclined light component is irradiated from the outer side surface of the liquid crystal touch panel 20. Then, it enters from the outer side of the adhesive agent 25, and the adhesive agent 25 hardens to predetermined area | region Y. As shown in FIG.

In the irradiation of ultraviolet rays from the cover glass 22 side, since the inclined light component having a larger width is irradiated than the inclined light component reflected by a pair of planar mirrors arranged in parallel in the prior art, the wiring board Also in the side surface which has (24), the area | region which goes under the black matrix 23 becomes large, and the width | variety of the hardening area | region X becomes large by this.

Moreover, since the incidence angle from the outer side surface of the liquid crystal touch panel 20 is large also in the side surface which does not have the wiring board 24 in the ultraviolet irradiation from the liquid crystal panel 21 side, it is located below the liquid crystal panel 21. The area | region which enters becomes large, and also the width | variety of the hardening area | region Y of an adhesive agent becomes large also in this side surface.

The result of having investigated the hardening range X in the side surface which has the wiring board 24 by changing the inclination angle of the 1st planar mirror 6 (or 1st mirror part 6a) in this invention is shown in FIG. It is listed in Table 1.

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

Generally, the distance (width) which the cover glass 23 covers the peripheral part of the liquid crystal panel 21 is about 1-2 mm, and aimed at 1 mm or more as evaluation of the hardening range (A).

As it can be seen in Table 1, and when the mirror angle (θ) to 20 ~ 40 ^{о о} curing range (A) exceeding 1mm.

As described above, according to the ultraviolet irradiator and the ultraviolet irradiator according to the present invention, one of the pair of planar mirrors provided below the trough mirror surrounding the linear light source, the first first mirror is the second of the other The oblique light component having a large reflection light from the first planar mirror is disposed so as to be inclined to approach the plane mirror, and at least a part of the light reflected by the first plane mirror passes below the second plane mirror. In the case of irradiation from the cover glass side, it is incident so as to penetrate below the black matrix, and can penetrate deeply into the adhesive agent below the black matrix and harden | cure it.

Moreover, also at the time of irradiation from the liquid crystal panel side, since light of large oblique component is irradiated from the outer surface of a liquid crystal touch panel, it can penetrate deeply into the uncured area | region below the black matrix, and can enlarge a hardened area | region. .

By doing in this way, the complicated process called the point ultraviolet irradiation which was conventionally required in the side surface with a wiring board is abbreviate | omitted, and for irradiation of two processes called irradiation from the cover glass side and irradiation from the liquid crystal panel side, This exhibits the effect that a sufficient hardened region can be obtained.

1 UV irradiator
2 ultraviolet rays irradiation department
3 linear light source
4 Groove Mirror
6 first plane mirror
6a first mirror
6b 2nd mirror part
6c support
7 second plane mirror
9 conveyance mechanism (conveyor)
10 UV irradiation device
20 LCD Touch Panel
21 liquid crystal panel
22 cover glass
23 black matrix
24 wiring board
25 glue
A hardening area
B, C uncured area
Cured area on side with X wiring board
Cured Area on Side Without Y Wiring Board

Claims (6)

A linear light source that emits ultraviolet rays,
A trough mirror reflecting ultraviolet rays from the light source,
Below the trough mirror having a pair of first and second planar mirrors opposed to each other along the longitudinal direction of the linear light source with the outlet of the trough mirror interposed therebetween,
The first planar mirror is disposed to be inclined such that a lower end thereof is closer to the second planar mirror, and at least a part of the light reflected from the first planar mirror is disposed to pass below the second planar mirror.
And said first planar mirror comprises a first mirror portion arranged in parallel with said second plane mirror and a second mirror portion inclined at a lower end of said first mirror portion. The method according to claim 1,
The first planar mirror is rotatably supported, and the inclination angle can be adjusted freely. The method according to claim 1,
The second mirror portion of the first planar mirror is mounted so as to be adjustable in the vertical direction with respect to the first mirror portion. In addition to providing the ultraviolet irradiator according to any one of claims 1 to 3,
Below the said ultraviolet irradiator, it is equipped with the conveyance mechanism which conveys a to-be-processed object,
At least a part of the light reflected from the first planar mirror is irradiated from an oblique upper direction with respect to the object to be processed, The ultraviolet irradiation device characterized by the above-mentioned. The method according to claim 4,
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 adhere | attached to this by an adhesive agent, The said liquid crystal touch panel is a said board | substrate with respect to the conveyance direction of the said conveyance mechanism. The ultraviolet irradiation device characterized by being arrange | positioned so that it may be located in the opposite side to 1 planar mirror, and conveyed. delete

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