KR20080078479A - Apparatus for sealing and method for sealing using it - Google Patents

Abstract

A sealing apparatus and a sealing method using the same are provided to reduce the number of processes and a processing time for sealing work by simultaneously performing a sealant dispensing work and a sealant curing work in one apparatus. A sealing apparatus includes a body(401), a dispenser unit(403), and a curing unit(413). The movable body is installed on a substrate having at least one image display unit. The dispenser unit is formed in the body to dispense a sealant on an outer edge of the image display unit of the substrate. The curing unit is formed in the body to cure the dispensed sealant. The dispenser unit is one of a nozzle and a syringe. The curing unit is formed at a rear end of the body with the dispenser unit. The sealing apparatus further includes a control unit(407) to control on/off of the dispenser unit and the curing unit.

Description

Sealing device and sealing method using the same {APPARATUS FOR SEALING AND METHOD FOR SEALING USING IT}

1 is a schematic view showing a sealing apparatus according to the present invention.

2A to 2B are cross-sectional views illustrating a sealing method using a sealing apparatus according to the present invention.

The present invention relates to a sealing apparatus and a sealing method using the same, and more particularly, to a sealing apparatus and a sealing method using the same that can be performed at the same time sealant dispensing and curing operations.

The organic light emitting device includes: a first electrode arranged in one direction at a predetermined interval on a substrate; a second electrode arranged at a predetermined interval to intersect the first electrode; and the first electrode and the second electrode. The organic light emitting device includes an organic light emitting layer interposed therebetween, and emits light to the organic light emitting layer between both electrodes according to a voltage provided to the first electrode and the second electrode. In this case, when the first electrode is an anode, the second electrode corresponds to a cathode.

Such organic light emitting diodes are widely used as display devices because they have advantages such as high resolution, high impact resistance, and full color. However, when the organic light emitting diode is driven for a certain period of time, light emission characteristics such as light emission luminance and light uniformity are not only significantly lowered than the initial light emission characteristics but also have a short lifespan.

One of the causes of the deterioration of the characteristics and lifespan of the organic light emitting diode is due to the moisture adsorbed on the organic light emitting layer or the moisture penetrating into the device through the defects or edges. This is because a dark spot defect occurs in which a portion that does not emit light is generated.

Therefore, in order to prevent deterioration of characteristics and lifespan of the device due to moisture, oxygen, etc., the substrate on which the organic light emitting diode is formed, that is, the array substrate and the encapsulation substrate, should be sealed using a sealant. In this case, the portion sealed by the sealant corresponds to the outer portion of the panel. The sealant is dispensed using a nozzle or a syringe. After dispensing the sealant, the dispensed sealant is cured using a separate curing means. In this case, a laser, a beam heater, an ultraviolet light, or the like may be used as the hardening means.

However, as described above, in order to seal the substrate on which the organic light emitting device is formed, that is, the array substrate and the encapsulation substrate, the organic electroluminescent device is formed through two steps, such as a sealant dispensing operation and a curing operation. Therefore, there is a problem in that the number of processes and process time according to the sealing operation takes a lot.

Accordingly, to solve the above problems, an object of the present invention is to provide a sealing device that can proceed with the dispensing operation and the curing operation at once.

Another object of the present invention is to provide a sealing method that can proceed with the dispensing operation and the curing operation at the same time.

In order to achieve the above object, the sealing apparatus according to the present invention is installed on the substrate provided with at least one image display portion and a movable body, a dispenser for dispensing the sealant formed on the body and the outer portion of the image display portion of the substrate And a hardened portion formed on the body and for curing the dispensed sealant.

Preferably, the dispenser is any one of a nozzle and a syringe. Preferably, the curing unit is installed at the rear end of the body in which the dispenser unit is formed.

It further includes a control unit for controlling the dispenser and the curing unit on / off.

The control unit preferably controls the curing unit and the dispensing unit to operate continuously.

And a table on which the substrate is loaded, and a driver for driving the table.

Preferably, the curing unit is at least one of a laser, a beam heater, and an ultra violet lamp.

It is provided in the curing unit further includes a temperature sensor for controlling the temperature of the curing unit.

It is preferable that the membrane which removes the bubble of the said sealant is provided in the said dispenser part. The sealant may be any one selected from a thermosetting sealant, an ultraviolet curable sealant, and a sealant mixed with a thermosetting sealant and an ultraviolet curable sealant.

The sealing method according to the present invention comprises the steps of: loading a substrate provided with at least one image display unit on a table; a sealing comprising a dispenser unit for dispensing the sealant on the table and a hardening unit for curing the dispensed sealant Installing an apparatus, dispensing the sealant through the dispenser portion outside the image display portion of the substrate, and curing the dispensed sealant through the curing portion.

Preferably, the dispensing step and the curing step are sequentially performed with a predetermined time. In this case, after the dispensing, the method may further include moving the table in a predetermined direction so that the dispensed sealant of the substrate is positioned under the hardened part.

Preferably, the dispensing step and the curing step proceed simultaneously.

(Example)

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

The sealing apparatus according to the present invention can proceed the sealant dispensing process and the sealant curing process simultaneously or sequentially with a predetermined time, and includes a dispensing unit and a hardening unit provided at the rear end of the dispensing unit. Therefore, the sealant dispensing operation and the sealant curing operation can be performed in one apparatus, thereby reducing the number of processes and the processing time according to the sealing operation.

1 is a schematic view showing a sealing apparatus according to the present invention. 2A to 2B are cross-sectional views illustrating a sealing method using a sealing apparatus according to the present invention.

1, 2A and 2B, the sealing apparatus according to the present invention includes a body 401, a dispenser portion 403, and a hardening portion 413.

The body 401 is installed on the substrate 421 on which the sealing process is to proceed, and is manufactured to be movable. At this time, the substrate 421 is provided with at least one image display unit.

The dispenser 403 is connected to the body 401 and serves to dispense the sealant on the substrate 421. In this case, the dispenser 403 may be a nozzle or a syringe. In addition, the substrate 421 is loaded on the table 420. The table 420 is driven by the driver 422.

The dispenser 403 may further include a membrane 403 for removing micro-sized bubbles of the sealant. The sealant may be any one selected from a thermosetting sealant, an ultraviolet curable sealant, and a sealant mixed with a thermosetting sealant and an ultraviolet curable sealant.

The curing unit 413 is connected to the body 401 and serves to cure the dispensed sealant. That is, the curing unit 413 cures a portion of the substrate on which the sealant is dispensed by the dispenser 403 to form seal patterns. In this case, the hardening part 413 is preferably formed at the rear end of the body 401 on which the dispenser part 403 is formed in order to cure the portion of the substrate on which the sealant is dispensed.

On the other hand, the dispenser unit 403 and the curing unit 413 is controlled by the control unit 407 on / off operation.

Preferably, the dispensing step and the curing step proceed simultaneously. That is, the dispenser 403 and the curing unit 413 may be controlled to proceed sequentially over a predetermined time. In this case, after the dispensing operation, the table is moved in a predetermined direction so that the dispensed sealant of the substrate is positioned below the curing unit 431. Alternatively, the dispenser 403 and the curing unit 413 may be controlled to proceed simultaneously.

The curing unit 413 may be a laser, a beam heater, an ultraviolet (ultra violet) lamp, or the like.

When using a laser or a beam heater as the curing unit 413, the curing unit 413 should operate in a temperature range that does not affect the driving transistors. Thus, the curing unit 413 is connected to the temperature control unit, so that the temperature of the laser, beam or ultraviolet light irradiated through the curing unit 413 can be controlled. In addition, the temperature controller may adjust the viscosity of the sealant or allow the sealant to be dispensed in a molten state. In this case, the temperature control unit may be a temperature sensor 413. The temperature sensor 413 may be mounted in the curing unit 413.

On the other hand, when using an ultraviolet lamp as the curing unit 413, the center wavelength of the ultraviolet rays corresponds to about 350nm. Therefore, only certain wavelengths of the ultraviolet rays may be selectively irradiated so as not to affect the driving transistors. To this end, an optical filter 415 may be mounted on the curing unit 413. For example, the optical filter 415 may remove short wavelengths of 250 nm or less of the ultraviolet rays so as not to affect the driving transistors.

As described above, unlike the related art, the sealing apparatus of the present invention is configured to include both a dispenser portion through which sealant dispensing proceeds and a hardening portion for curing the portion of the substrate on which the sealant is dispensed by the dispenser portion. The number of processes and the time required for the work are shortened.

Hereinafter, a method of sealing using a sealing apparatus according to the present invention having the above configuration with reference to FIGS. 1 and 2A to 2B will be described.

As shown in FIG. 2A, a sealing device including a dispenser portion 403 for dispensing a sealant and a hardening portion 411 for curing the dispensed sealant is provided. In this case, the dispenser 403 may be any one of a nozzle and a syringe. In addition, the curing unit 413 is preferably installed at the rear end of the body 401 is formed with the dispenser 403.

Subsequently, the substrate 421 to be sealed is loaded on the table 420. At this time, the substrate 421 is provided with at least one image display unit. Next, a sealing apparatus according to the present invention is installed on the substrate 421.

Thereafter, as illustrated in FIG. 2B, the sealant is dispensed to the outside of the image display unit of the substrate 420 through the dispenser unit 411.

Subsequently, an operation of curing the dispensed sealant through the curing unit 411 is performed. At this time, the dispenser unit 403 and the curing unit 413 are controlled by the control unit 407 on / off operation, respectively. The dispenser 403 and the curing unit 413 may be sequentially turned on for a predetermined time by the controller 407. In this case, after dispensing the sealant through the dispenser unit 403, the sealant dispensed on the substrate 421 by moving the table 420 in a predetermined direction through the driving unit 422 may be the curing unit ( 411) beneath it. Alternatively, the dispenser 403 and the curing unit 413 may be turned on at the same time by the controller 407. In this case, the dispensing operation and the curing operation proceed simultaneously.

Embodiments of the present invention described above are disclosed for the purpose of illustration, and those skilled in the art will be able to make various modifications, changes, and additions within the spirit and scope of the present invention.

According to the present invention, there is provided a sealing device capable of simultaneously performing a sealant dispensing operation and a curing operation. Therefore, there is an advantage that the working time and the number of processes according to the sealing process is shortened.

Claims (15)

A movable body installed on an upper portion of the substrate provided with at least one image display unit, A dispenser unit formed in the body and configured to dispense a sealant outside the image display unit of the substrate; And a hardening part formed on the body and configured to cure the dispensed sealant. The sealing apparatus according to claim 1, wherein the dispenser unit is any one of a nozzle and a syringe. The sealing apparatus as claimed in claim 1, wherein the curing unit is installed at a rear end of the body in which the dispenser unit is formed. The sealing apparatus of claim 1, further comprising a control unit for controlling on / off of the dispenser unit and the curing unit. The sealing apparatus as claimed in claim 4, wherein the control unit controls the curing unit and the dispensing unit to operate simultaneously. The sealing apparatus as claimed in claim 4, wherein the control unit controls the curing unit and the dispensing unit to sequentially operate for a predetermined time. The method of claim 1, wherein the table is loaded, Sealing apparatus further comprises a driving unit for driving the table. The sealing apparatus of claim 1, wherein the curing unit is at least one of a laser, a beam heater, and an ultra violet lamp. 2. The sealing apparatus according to claim 1, further comprising a temperature sensor provided at the curing portion to control a temperature of the curing portion. The sealing apparatus according to claim 1, wherein the hardening part is provided with a membrane for removing bubbles of the sealant. The sealing apparatus of claim 1, wherein the sealant is any one selected from a thermosetting sealant, an ultraviolet curable sealant, and a sealant mixed with a thermosetting sealant and an ultraviolet curable sealant. Providing a sealing device comprising a dispenser portion for dispensing the sealant and a hardening portion for curing the dispensed sealant; Loading a substrate provided with at least one image display unit on a table; Installing the sealing device on the table; Dispensing the sealant outside the image display unit of the substrate through the dispenser unit; And sealing the dispensed sealant through the hardened portion. 13. The sealing method according to claim 12, wherein the dispensing step and the curing step are performed sequentially over a predetermined time. The sealing method of claim 12, further comprising, after the dispensing step, moving the table in a predetermined direction so that the dispensed sealant of the substrate is positioned under the hardened part. 13. The sealing method according to claim 12, wherein the dispensing step and the curing step proceed simultaneously.

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