KR20140022620A - Adhesive coating apparatus - Google Patents

Abstract

The present invention relates to an adhesive coating device which indirectly coats an adhesive uniformly on the entire surface of an adhering portion when parts of the adhering portion is cut to form protrusions. The adhesive coating device comprises the following: a discharging unit with a jetting valve for discharging the adhesive in a dot form; an edge coating unit including a cylindrical target for horizontally coating the adhesive discharged from the discharging unit along the outer circumference corresponding to the adhering portion of an adhesion object, and rotating and guiding the cylindrical target from one end to the other end of the adhering portion for uniformly coating the adhesive on the entire surface of the adhering portion regardless of the shape of the adhering portion; and a loading unit absorbing and supporting the adhesion object, and contacting one end of the adhering portion of the adhesion object to the adhesive coated on the edge coating unit.

Description

Adhesive coating device {ADHESIVE COATING APPARATUS}

The present invention relates to an adhesive coating device for indirectly applying an adhesive to an adhesive site, and more particularly, to an adhesive coating device for evenly indirectly applying an adhesive over the entire adhesive site even when a portion of the adhesive site is cut out to protrude. will be.

BACKGROUND OF THE INVENTION Organic light emitting diodes (OLEDs), which have recently emerged as display devices, are a display device capable of high-speed response and high brightness using organic light emitting materials that can be made thinner than LCDs because no backlight is required. In such an organic light emitting display device, electrons injected from one electrode and holes injected from another electrode combine in a light emitting layer positioned between the two electrodes to generate excitons, and the excitons emit energy. Will emit light.

Organic light emitting diodes are classified into active type and passive type according to the driving method. In active matrix OLED (AMOLED), each pixel is equipped with a TFT element for controlling each pixel, and passive matrix OLED (PMOLDE) And the pixel is powered on.

2. Description of the Related Art In recent years, with the spread of portable display devices becoming more active, portable devices having such active type organic light emitting diodes (AMOLED) as display means have been proposed.

1 is a perspective view showing a general active organic light emitting diode. As shown in FIG. 1, the active organic light emitting diode 1 includes a glass substrate 2 having a driving circuit and a glass cover 3 that protects the driving circuit formed on the glass substrate 2. Here, the glass cover 3 is bonded to the glass substrate 2 by a sealant (not shown) applied to the edge of the glass substrate 2.

On the other hand, even if the glass substrate 2 and the glass cover 3 are bonded by a sealant, when the active organic light emitting diode 1 is impacted, the adhesive surfaces of the glass substrate 2 and the glass cover 3 In order to solve this problem, a separate liquid adhesive is applied to the adhesive surfaces of the glass substrate 2 and the glass cover 3 bonded by the sealant along the adhesive surface.

In order to apply the liquid adhesive along the adhesive surface of the glass substrate 2 and the glass cover 3, an adhesive coating device is used. As a representative example, Korean Patent Application Publication No. 2010-0043367 (published date) : April 29, 2010, Name: Method and apparatus for applying liquid adhesive of active organic light emitting diode), Korean Patent Publication No. 2012-0021862 (published date: March 09, 2012, name: "contactless adhesive coating apparatus and Application method using the same "), Korean Patent Publication No. 2012-0051143 (published date: May 22, 2012, name: adhesive coating device and adhesive coating method using the same), and Korean Patent Publication No. 2012-0072003 (published Date: July 03, 2012, name: "contactless adhesive application device and method").

However, in the above-described Korean Patent Publications, dozens or hundreds of active organic light emitting diodes (hereinafter referred to as "glue objects") are transferred from upstream equipment and loaded vertically in a row at one time. There was a problem that often caused by the failure of loading.

And since the adsorption blocks adsorb and support one side of the adhesion object 1 so that the adhesion object 1 can be vertically loaded, any one edge of the adhesion object 1, for example, the adsorption block is formed by the adsorption block. There is a problem in that the adhesive is not applied to the lower edge of the adhesive object 1 when it is extended from the lower portion of the adhesive object 1 to adsorb and support the adhesive object 1, and the adhesive is applied to the lower edge of the adhesive object 1. In order to achieve the hassle of having to reload the adhesive objects (1).

In addition, in the above-described Korean Patent Laid-Open, the contaminant removal means must be used to prevent the surface of the adhesive object 1 from being contaminated by the fine particles of the adhesive scattered from the discharge port when discharging the adhesive to the adhesive portion of the adhesive object 1. There was a problem that must be provided.

In order to solve this problem, Patent Application No. 2012-0080909 (Application date: July 25, 2012, name: "adhesive application device") by the present applicant in the adhesive application device for indirectly applying the adhesive to the adhesive site Is disclosed.

However, in the above-described adhesive application device of Patent Application No. 2012-0080909, after discharging the adhesive to a vertical flat plate-like target, the structure of contacting the adhesive portion of the object to be bonded to the adhesive discharged to the target Since the adhesive part of the adhesive object is cut unevenly during the cutting process, the adhesive may not be evenly applied to the adhesive part of the adhesive object.

The present invention is to provide an adhesive applying device that allows the adhesive to be evenly applied indirectly over the entire adhesive site even if a portion of the adhesive site is cut out to protrude.

In addition, the present invention can minimize the loading failure of the adhesive object to be applied to the adhesive, to provide an adhesive coating device that can apply the adhesive to the entire adhesive portion (edge) of the adhesive object without reloading the adhesive object will be.

The technical objects to be achieved by the present invention are not limited to the above-mentioned technical problems.

Adhesive applying apparatus according to the present invention for achieving the above object, the discharge portion having a jetting valve for discharging the adhesive in the form of dots; The adhesive discharged from the discharge part has a cylindrical target that is applied horizontally along the outer circumferential surface to correspond to the adhesive part of the adhesive object, and the adhesive is evenly applied to the entire joint part regardless of the shape of the adhesive part when the adhesive is applied to the adhesive part. An edge applicator for guiding while rotating the cylindrical target from one end of the site to the other end; And a loading unit which adsorbs and supports the adhesive object and contacts one end of the adhesive portion of the adhesive object to the adhesive applied to the edge coating unit.

Specifically, the loading unit, the adsorption table to which the adhesion object is horizontally supported by the adsorption; Suction table rotation motor for supporting rotatably; And a cylinder shaft having a lower portion connected to the suction table rotary motor and an upper portion connected to the lower surface of the suction table.

Specifically, the suction table rotary motor may rotate the suction table by 90 degrees.

More specifically, the loading unit further includes a first transfer unit for transferring the suction table in the y-axis direction, the first transfer unit comprising: a first linear motor extending along the y-axis direction; And a first slider guided along the first linear motor by the operation of the first linear motor, and a lower portion of the suction table rotary motor may be fixedly mounted on an upper portion of the first slider.

Specifically, the edge coating unit further includes a second transfer unit for transferring the cylindrical target along the z-axis direction, the second transfer unit comprising: a second linear motor extending vertically along the z-axis direction; And a second slider guided along the second linear motor by the operation of the second linear motor, wherein the second slider is rotatably supported by the cylindrical target, and at one end of the cylindrical target, the cylindrical target is rotated. A target rotary motor may be mounted.

More specifically, the edge applying unit may further include a third transfer unit configured to transfer the cylindrical target along the x axis direction, and the third transfer unit may include a third linear motor extending along the x axis direction; And a third slider guided along the third linear motor by the operation of the third linear motor, wherein the rear surface of the second transfer unit for transferring the cylindrical target in the z-axis direction may be connected to the third slider.

Specifically, the adhesive supplied from the outside is accommodated in the jetting valve, and the adhesive contained in the jetting valve may be discharged through a discharge port disposed to face the cylindrical target.

More specifically, the adhesive applying apparatus further includes an upper coating portion for applying the adhesive in the form of a line on top of the adhesive object, wherein the upper coating portion is guided along the cylindrical target without interfering with the cylindrical target and the adhesive is accommodated therein. Discharge cylinders; And an adhesive container having a lower portion connected to the discharge cylinder so that the adhesive can be supplied into the discharge cylinder. The nozzle may be integrally provided at the lower portion of the discharge cylinder to discharge the adhesive contained therein.

As described above, in the adhesive coating apparatus according to the present invention, the adhesive discharged from the discharge portion is applied along the outer circumferential surface so as to correspond to the adhesive portion of the adhesive object, and the adhesive is evenly applied to the entire bonding portion when the adhesive is applied to the adhesive portion. By including an edge coating portion guided while rotating from one end of the bonding portion to the other end, and a loading portion for loading the adhesive object carried in the upstream equipment and contacting one end of the adhesive portion of the adhesive object to the adhesive applied to the edge coating portion, In addition to minimizing the loading failure of the object to be caught, it is possible to apply the adhesive to the entire adhesive portion of the adhesive object without reloading the adhesive object there is an advantage to improve the productivity.

1 is a perspective view showing a general active organic light emitting diode,
2 is a perspective view showing an adhesive applying device according to the present invention,
3 is a front view of the adhesive coating device shown in FIG.
4 is a side view of the adhesive applying device shown in FIG. 2, and
5 is a plan view of the adhesive applying device shown in FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components are denoted by the same reference symbols whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

2 is a perspective view showing an adhesive applying apparatus according to the present invention, the adhesive applying apparatus 100 according to the present invention, the discharge portion 130 for discharging the adhesive in the form of dots (dot), and in the discharge portion 130 The discharged adhesive is applied to correspond to the edge (hereinafter referred to as “adhesion site”) of the adhesive object 1, so that the adhesive is evenly applied to the entire joint area regardless of the shape of the adhesion site when the adhesive is applied to the adhesion site. The edge application portion 140 guided while rotating from one end of the joint portion to the other end, and the adhesive object 1 carried in the upstream equipment (not shown) are loaded and the adhesive object 1 is loaded. It includes a loading portion 110 for contacting one end of the adhesive portion to the adhesive applied to the edge application portion 140.

That is, in the adhesive applying apparatus 100 according to the present invention, after the adhesive portion of the adhesive object 1 adsorbed to the loading unit 110 is brought into contact with the adhesive applied to the edge applying unit 140, the edge applying unit 140 is applied. ) Is guided from one end of the bonding object 1 to the other end, whereby an adhesive is applied to the bonding portion of the bonding object 1.

First, the loading unit 110 includes a suction table 112 for horizontally supporting and supporting the adhesive object 1 carried in the upstream equipment. The suction table 112 is formed with a vacuum suction hole 114 as shown. As anyone can know, the vacuum suction hole 114 is connected to a conventional vacuum suction pipe line (not shown).

And the adsorption table 112 to which the adhesion object 1 is adsorbed horizontally is arrange | positioned rotatably. To this end, a suction table rotary motor 116 is disposed below the suction table 112, and the suction table rotary motor 116 and the suction table 112 are connected to each other by the cylinder shaft 118. As shown, the cylinder shaft 118 has a lower portion connected to the suction table rotary motor 116 and an upper portion connected to the lower surface of the suction table 112.

Preferably, the suction table rotary motor 116 employs a conventional direct drive motor (DD-MOTOR), and the suction table rotary motor 116 is attached to the suction table 112 and the suction table 112. The adsorbed adhesive object 1 is rotated by 90 degrees.

On the other hand, the loading unit 110 further includes a first transfer unit 120 for transferring the adsorption table 112 in front and rear of the adhesive coating device 100, that is, along the y-axis direction as shown in the figure. do.

The first transfer unit 120 guides the adsorption table 112 so as to load the adhesion object 1 carried through the upstream equipment, and rotates the adhesion object 1 loaded on the adsorption table 112 by 90 degrees. While guiding the adhesive part of the adhesive object 1 to the application | coating work position. The first transfer unit 120 is a first linear motor by the operation of the first linear motor 122, and the first linear motor 122 extending along the front-back direction, that is, the y-axis direction of the adhesive coating device 100. And a first slider 124 guided along the motor 122. At this time, the lower portion of the suction table rotary motor 116 is fixedly mounted on the upper portion of the first slider 124. In addition, linear guides 126 extending along the longitudinal direction of the first linear motor 122 are disposed on both sides of the first linear motor 122, and linear guides 126 are provided on both sides of the lower surface of the first slider 124. The linear block 128 that slides along is mounted. It will be appreciated by anyone that the first linear motor 122 and the linear guide 126 of the first transfer unit 120 are fixedly arranged above the work stage (not shown).

The discharge part 130 is disposed in the loading part 110 formed as described above, and the edge coating part 140 is disposed on the rear side of the loading part 110 so as to face the discharge part 130.

The discharge unit 130 includes a jetting valve 132 for discharging the liquid adhesive.

The inside of the jetting valve 132 is a liquid adhesive is supplied from the outside. The adhesive contained in the jetting valve 132 is discharged through the discharge port 134 by the operation of the jetting valve 132. That is, the jetting valve 132 opens the discharge port 134 for a very short time under the condition that pressure is applied to the adhesive contained therein. When the discharge port 134 is opened for a short time, the liquid adhesive is jetted valve 132. Is discharged through the discharge port 134 by the pressure. Herein, the structure of the jetting valve 132 and the structure of supplying the liquid adhesive to the inside of the jetting valve 132 are well known techniques, and thus detailed descriptions thereof will be omitted.

The jetting valve 132 formed as described above is fixedly mounted on the first subframe S1 extending from one side of the first transfer unit 120 so as not to interfere with the first transfer unit 120 of the loading unit 110. .

Meanwhile, the edge applicator 140 includes a cylindrical target 142 to which the adhesive discharged from the jetting valve 132 is applied, and a target rotating motor 143 to rotate the cylindrical target 142. Here, the target rotary motor 143 is connected to any one end of the cylindrical target 142.

The target 142 has a cylindrical shape extending vertically as shown. The outer circumferential surface of the target 142 disposed as described above is disposed to face the discharge port 134 of the jetting valve 132, and the adhesive discharged through the discharge port 134 of the jetting valve 132 is coated on the outer circumferential surface of the target 142. do.

That is, when the adhesive is applied on the outer circumferential surface of the cylindrical target 142, the cylindrical target 142 is rotated to one side by the target rotary motor 143, and the jetting valve 132 is on the outer circumferential surface of the rotating target 142. The adhesive is discharged. Therefore, a dot-shaped adhesive is applied on the outer circumferential surface of the cylindrical target 142 while maintaining a constant interval along the outer circumferential surface of the target 142. Here, since the connection relationship between the target 142 and the target rotary motor 143 is a known technique, detailed description thereof will be omitted.

On the other hand, the edge coating portion 140 is a second transfer unit 144 for transferring the cylindrical target 142 to the upper and lower sides of the adhesive coating device 100, that is, the target 142 along the z-axis direction as shown in the figure And a third transfer unit 150 for transferring the target 142 to the left and right sides of the adhesive coating device 100, that is, the target 142 along the x-axis direction as shown in the drawing.

The second transfer unit 144 guides the cylindrical target 142 up and down, and the height of the target 142 to which the adhesive is applied, that is, the application height of the adhesive, and the adhesion portion of the adhesive object 1 to the applied adhesive are easy. The height of the target 142 is adjusted to be in contact with each other. In addition, the third transfer unit 150 guides the target 142 to the jetting valve 132 side so that the adhesive can be applied on the outer circumferential surface of the cylindrical target 142, and also loads the target 142 coated with the adhesive. Guide to face 110.

The second transfer unit 144 is disposed to face the discharge port 134 of the jetting valve 132 and the second linear motor 146 vertically extending along the upper side of the adhesive coating device 100, that is, the z-axis direction. And a second slider 148 guided along the longitudinal direction of the second linear motor 146 by the operation of the second linear motor 146. And the third transfer unit 150 is a third linear motor 152 extending horizontally along the left and right sides, that is, the x-axis direction of the adhesive coating device 100 so as not to interfere with the rear surface of the second transfer unit 144, And a third slider 154 guided along the longitudinal direction of the third linear motor 152 by the operation of the third linear motor 152.

In this case, the cylindrical target 142 is disposed on the second slider 148 so as to face the discharge port 134 of the jetting valve 132 and is rotatably supported by the bracket B extending integrally from the second slider 148. And a rear surface of the second linear motor 146 is connected to the third slider 154.

Preferably, the third transfer unit 150 is fixedly disposed on the second subframe S2 extending from the work stage, and the first subframe S1 is fixed to the second subframe S2.

On the other hand, the adhesive applying apparatus 100 according to the present invention further includes an upper coating unit 160 for applying an adhesive on the upper portion of the adhesive object 1 adsorbed and supported by the suction table 112 of the loading unit 110. . The upper coating part 160 protects the glass substrate 2 of the active organic light emitting diode (AMOLED) (see FIG. 5), which is the adhesive object 1, and the driving circuit formed on the glass substrate 2, for example. Adhesive is apply | coated to the level | step difference site | part of the glass cover 3 shown to be.

The upper coating unit 160 is to apply a liquid adhesive in the form of a line (line) on the upper surface of the adhesive object 1, the upper coating unit 160 is discharge cylinder 162 in which the adhesive is accommodated therein ) And an adhesive container 166 for supplying an adhesive to the interior of the discharge cylinder 162.

The discharge cylinder 162 is fixedly mounted perpendicularly to one side of the second slider 148 so as not to interfere with the cylindrical target 142. The lower portion of the discharge cylinder 162 is integrally provided with a nozzle 164 for discharging the adhesive contained therein, the adhesive contained in the discharge cylinder 162 is the air pressure introduced into the interior from the outside of the discharge cylinder 162 It is pressurized by and discharged through the nozzle 164.

On the other hand, the adhesive container 166 is disposed adjacent to the discharge cylinder 162 so that the lower portion can be connected to the interior of the discharge cylinder 162. The liquid adhesive supplied to the discharge cylinder 162 is filled in the adhesive container 166. The adhesive filled in the adhesive container 166 is pressurized by the air pressure introduced from the outside of the adhesive container 166 to be supplied to the discharge cylinder 162. Preferably, the discharge cylinder 162 and the adhesive container 166 are preferably operated in conjunction with each other.

Hereinafter, the operating state of the adhesive coating device 100 formed as described above will be briefly described.

In order to transfer the adhesive object 1 to be applied to the adhesive portion from the upstream equipment (not shown), first, the loading unit 110 operates the first transfer unit 120 to apply the adhesive table 112 to the adhesive. To the front side of the device 100. When the adhesive object 1 is loaded and supported by the suction table 112, the first transfer unit 120 is operated to move the suction table 112 to the rear side of the adhesive applying apparatus 100, that is, the coating work position. Transfer to.

Meanwhile, when the loading unit 110 is transferred to load the adhesive object 1, the edge applying unit 140 operates the third transfer unit 150 to jet the cylindrical target 142 to the discharge unit 130. Transfer to the valve 132 side. When the outer circumferential surface of the cylindrical target 142 and the discharge port 134 of the jetting valve 132 face each other, the jetting valve 132 is operated to discharge the adhesive, and the target rotary motor 143 is the cylindrical target 142. Rotate As the cylindrical target 142 is rotated in the process of discharging the adhesive as described above, a dot-shaped adhesive is applied horizontally along the outer circumferential surface on the outer circumferential surface of the cylindrical target 142. When the adhesive is applied to the cylindrical target 142 in this way, the third transfer unit 150 is operated again to transfer the cylindrical target 142 to which the adhesive is applied to return to the loading unit 110, that is, to the application work position. .

As described above, when the adhesive object 1 loaded on the adsorption table 112 of the loading unit 110 and the cylindrical target 142 of the edge application unit 140 to which the adhesive is applied are respectively guided to the application work position, One end of the adhesive portion of the adhesive object 1 and the adhesive applied to the cylindrical target 142 come into contact with each other. At this time, the third target unit 150 is operated to move the cylindrical target 142 to the adhesive portion of the adhesive object 1. The target rotary motor 143 is operated such that the cylindrical target 142 is rotated while being transferred to the other end side. When the third transfer unit 150 and the target rotary motor 143 are operated as described above, the cylindrical target 142 is transferred from one end of the adhesive object 1 to the other end and rotates while the adhesive is applied to the entire adhesive portion of the adhesive object 1. Allow to be applied.

When the adhesive is applied to one adhesive site as described above, the adhesive is applied to another adhesive site. To this end, first, the rotary motor 116 is operated to rotate the adsorption table 112 on which the adhesive object 1 is adsorbed and supported by 90 degrees, and to jet the cylindrical target 142 to apply the adhesive to the cylindrical target 142. Guide to 132 side. In addition, the coating operation is performed on another adhesive portion in the same manner as the above-described method of returning the cylindrical target 142 to which the adhesive is applied.

In this way, the adhesive coating work is performed on the entire bonding portion of the bonding object 1.

On the other hand, in the case of applying the adhesive on the upper portion of the adhesive object 1, first, the first, second and third transfer unit (120, 144, 150) by operating the nozzle 164 of the discharge cylinder 162 and After arranging the parts to be applied to face the adhesive, the upper coating unit 160 and the third transfer unit 150 is operated to perform the adhesive coating operation. At this time, the liquid adhesive contained in the discharge cylinder 162 is pressurized by the air pressure flowing into the discharge cylinder 162 and is discharged through the nozzle 164. In addition, the third transfer unit 150 horizontally moves the upper discharge unit 160 so that the adhesive discharged through the nozzle 164 may be discharged in a line form along the adhesive portion.

The adhesive applying apparatus 100 according to the present invention formed as described above is applied along the outer circumferential surface such that the discharge portion 130 for deriving the adhesive and the adhesive discharged from the discharge portion 130 correspond to the adhesive portion of the adhesive object 1. When the adhesive is applied to the adhesive site, the edge coating unit 140 is guided while rotating from one end of the joint site to the other end so that the adhesive is evenly applied to the entire joint site, and the adhesive object 1 carried in the upstream equipment is loaded. By including a loading part 110 for contacting one end of the adhesive portion of the adhesive object 1 with the adhesive applied to the edge coating part 140, it is possible to minimize loading failure of the adhesive object as well as to reload the adhesive object. Without the adhesive can be applied to the entire adhesive portion of the adhesive object there is an advantage that can improve the productivity.

Adhesive applying device 100 as described above is not limited to the configuration and operation of the embodiments described above. The above embodiments may be configured such that all or some of the embodiments may be selectively combined so that various modifications can be made.

100: adhesive coating device 110: loading part
112: adsorption table 114: vacuum adsorption hole
116: suction table rotary motor 118: cylinder shaft
120: first transfer unit 130: discharge part
132: jetting valve 134: discharge port
140: edge coating portion 142: cylindrical target
143: target rotation motor 144: second transfer unit
150: third transfer unit 160: upper coating portion
162: discharge cylinder 164: nozzle
166: glue container

Claims (8)

A discharge part having a jetting valve for discharging the adhesive in a dot form;
The adhesive discharged from the discharge portion has a cylindrical target that is applied horizontally along the outer circumferential surface so as to correspond to the adhesive portion of the adhesive object, so that the adhesive is evenly applied to the entire bonding portion regardless of the shape of the adhesive portion when the adhesive is applied to the adhesive portion. An edge applicator for guiding the target while rotating the target from one end of the joint portion to the other end side; And
And a loading part for adsorbing and supporting the adhesive object and contacting one end of the adhesive part of the adhesive object with the adhesive applied to the edge coating part.
The method according to claim 1,
The loading unit may include:
An adsorption table on which the adhesion object is horizontally adsorbed and supported;
The suction table is a suction table rotary motor for rotatably supporting; And
And a cylinder shaft having a lower portion connected to the suction table rotary motor and an upper portion connected to the lower surface of the suction table.
The method according to claim 2,
The adsorption table rotating motor is an adhesive coating device for rotating the suction table by 90 degrees.
The method according to claim 2,
The loading unit may include:
Further comprising a first transfer unit for transferring the suction table in the y-axis direction,
The first transfer unit,
a first linear motor extending along the y-axis direction; And
And a first slider guided along the first linear motor by the operation of the first linear motor.
Adhesive applying apparatus is fixed to the lower portion of the suction table rotary motor on the upper portion of the first slider.
The method according to claim 1,
The edge applicator,
Further comprising a second transfer unit for transferring the target along the z-axis direction,
The second transfer unit,
a second linear motor extending vertically along the z-axis direction; And
And a second slider guided along the second linear motor by the operation of the second linear motor.
The cylindrical slider is rotatably supported by the second slider, and any one end of the cylindrical target is an adhesive coating device is mounted to the target rotary motor for rotating the cylindrical target.
The method according to claim 1,
The edge applicator,
Further comprising a third transfer unit for transferring the target along the x-axis direction,
The third transfer unit,
a third linear motor extending along the x axis direction; And
And a third slider guided along the third linear motor by the operation of the third linear motor.
Adhesive coating device is connected to the back of the second transfer unit for transferring the target in the z-axis direction to the third slider.
The method according to claim 1,
The adhesive supplied from the outside is accommodated in the jetting valve,
And the adhesive contained in the jetting valve is discharged through a discharge port disposed to face the target.
The method according to claim 1,
The adhesive coating device,
Further comprising: an upper coating unit for applying an adhesive in the form of a line on top of the adhesive object,
The upper coating unit,
A discharge cylinder which is guided along the cylindrical target without interfering with the cylindrical target and in which an adhesive is received; And
And an adhesive container having a lower portion connected to the discharge cylinder so that the adhesive can be supplied into the discharge cylinder.
Adhesive dispensing apparatus is provided in the lower portion of the discharge cylinder integrally provided with a nozzle for discharging the adhesive contained therein.

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