KR20160026361A - A display device hardening apparatus and methode of hardening adhesive material using the same - Google Patents

Abstract

To obtain a thin display device, a hardening apparatus for a display device according to an embodiment of the present invention, includes a stage, a hardening lamp fixing unit, a line-type or surface-type hardening lamp which includes a lamp unit of generating light energy of at least one UV band, and emits energy to the lateral or flat surface of a shelf, a shelf moving part which is located along the major axis of a stage, and the shelf which touches the shelf moving part and moves along the major axis or minor axis of the stage. A method of hardening an adhesive material using a hardening apparatus for a display device according to an embodiment of the present invention, includes the steps of: spraying an adhesive material onto at least one substrate and coating the same; temporally hardening the substrate coated with the adhesive materal; bonding two substrates; additionally hardening a bonded substrate set; defoaming an additionally hardened substrate set; and completely hardening the additionally hardened substrate set.

Description

TECHNICAL FIELD [0001] The present invention relates to a curing apparatus for a display device, and a curing method for an adhesive material using the same.

The present invention relates to a curing apparatus for a display device and a method of curing an adhesive material using the curing apparatus. More particularly, the present invention relates to a curing apparatus for a display device, And a method of curing an adhesive material using the same.

The present invention relates to a curing apparatus for a display device and a method of curing an adhesive material using the curing apparatus. More particularly, the present invention relates to a curing apparatus for a display device, which can minimize bubbles in an adhesive material and optimize alignment between substrates And a method of curing an adhesive material using the same.

An ultra thin display device in which the thickness of the display screen is only a few centimeters (cm), the liquid crystal display (LCD) has advantages such as low power consumption and low power consumption, , Monitors, spacecrafts, aircraft, and so on.

Such a liquid crystal display device generally includes three components: a liquid crystal panel, a driving circuit, and a backlight unit.

In a liquid crystal display, a liquid crystal panel generally includes a thin film transistor array pixel electrode, a common electrode, and a liquid crystal layer, which are positioned between an opposing lower substrate and an upper substrate, and a color filter layer and a polarizing plate disposed on the lower substrate and the upper substrate.

In addition, in the liquid crystal display device, the driving circuit portion includes various circuit elements and a printed circuit board (PCB).

In a liquid crystal display device, a backlight unit includes a light emitting lamp, various light guiding members, an optical sheet and a support mold.

The liquid crystal display device including these components controls the intensity of the electric field formed by the pixel electrode and the common electrode to drive the liquid crystal layer. At this time, the intensity of the electric field is controlled by various signals applied to the liquid crystal panel by the driving system of the driving circuit portion. The liquid crystal layer thus driven adjusts the transmittance of light emitted from the backlight unit, thereby displaying an image on the liquid crystal display device.

2. Description of the Related Art [0002] Liquid crystal display devices have recently been manufactured in such a manner that tempered glass is further placed on a liquid crystal panel for the purpose of improving the visibility to external light and protecting the liquid crystal panel from an external impact.

In recent years, a liquid crystal display device has been manufactured in a form in which a touch sensor is placed in or on a liquid crystal panel while introducing a touch screen function. If a tempered glass and a touch sensor are present in the liquid crystal display, the touch sensor is present between the tempered glass and the liquid crystal panel.

A variety of methods have been proposed in which tempered glass is placed on a liquid crystal panel. First, a fastening hole is formed in each of the tempered glass edge and the upper case, and there is a method in which both fastening holes overlap with each other with screws. There is also a method in which a double-sided tape is attached only to the edge of the tempered glass or the edge of the liquid crystal panel, and then the tempered glass and the liquid crystal panel are combined by the double-sided tape. However, since the above-described methods require the addition of various components for coupling to the liquid crystal panel, the overall thickness of the liquid crystal display device necessarily becomes thick. In addition, all of the above methods form an air layer between the tempered glass and the liquid crystal panel. At this time, the light transmittance of the polarizing plate, the air layer, and the tempered glass is lowered due to the difference in refractive index, and the color of the image finally entering the human eye is deteriorated.

A method of using a cured adhesive sheet in such a manner that an air layer is not present between the tempered glass and the liquid crystal panel while the tempered glass is placed on the liquid crystal panel has been proposed. More specifically, the adhesive sheet at this time is a sheet in a cured state, which is suitable for use in a thin display device having both adhesive properties and being optically transparent. The tempered glass and the liquid crystal panel are combined with each other in such a manner that the entire surface of one of the tempered glass and the liquid crystal panel is in contact with the entire surface of the one adhered surface of the adhesive sheet. That is, at the time when the adhesive sheet is adhered to one of the two substrates, the adhesive sheet is already in a cured state. Since the adhesive sheet has no fluidity, the bonding must be performed in a state where the adhesive surface of the adhesive sheet and the substrate are perfectly aligned. However, the technique of precisely aligning the substrate and the substrate, or the substrate and the adhesive sheet in manufacturing a thin display device is a very complicated technique. Therefore, in a practical manufacturing process, . Therefore, in a state where the substrate and the substrate are bonded using the adhesive sheet in the cured state, or in a state where the substrate and the adhesive sheet are bonded to each other, these alignments can not be adjusted absolutely, It's a big problem. In addition, since the adhesive sheet has already been standardized and manufactured and sold, the adhesive sheet needs to be cut according to the size of the substrate to be bonded. The technique of cutting the adhesive sheet to the size of the substrate also requires margins, which makes the substrate and the substrate or the substrate and the adhesive sheet more difficult to align. In addition, since the adhesive sheet has a considerably high price, the portion cut off from the adhesive sheet becomes costly.

It is necessary to prevent air bubbles from being contained in the adhesive material which has undergone the curing step at the same time without the air layer between the tempered glass and the liquid crystal panel when the tempered glass and the liquid crystal panel are combined using the adhesive material.

Accordingly, the inventors of the present invention have invented a curing apparatus for a display device and a curing method of an adhesive material using the curing apparatus for preventing bubbles from being contained in the adhesive material as much as possible during the curing step of the adhesive material.

A solution according to embodiments of the present invention is to combine a substrate constituting a thin display device with another substrate such as a combination of a tempered glass and a liquid crystal panel using an adhesive material or a combination of a tempered glass and a touch panel screen The present invention provides a curing apparatus for a display apparatus and an apparatus for curing an adhesive material using the curing apparatus.

Another object of the present invention is to provide a curing apparatus for a display device and a curing method of an adhesive material using the same, which can make a thinner display apparatus.

Another object of the present invention is to provide a curing apparatus for a display device and a curing method of an adhesive material using the curing apparatus, which can minimize a separation distance between two substrates when combining a substrate and another substrate .

Another object of the present invention is to provide a curing apparatus for a display device capable of improving the color of an image displayed from a display device and a curing method of an adhesive material using the same.

Another object of the present invention is to provide a curing apparatus for a display device and a curing method of an adhesive material using the curing apparatus for a display device so that bubbles are not included in the adhesive material as much as possible.

Another object of the present invention is to provide a liquid crystal display device which is capable of providing a liquid crystal display panel with a liquid crystal panel or a liquid crystal panel by combining a tempered glass and a liquid crystal panel using an adhesive material, The present invention provides a curing apparatus for a display device and a curing method of an adhesive material using the curing apparatus, which can minimize a defective rate due to curing of an adhesive material.

Another object of the present invention is to provide a curing apparatus for a display device and a curing apparatus for a display apparatus which can partially adjust the curing rate of an adhesive material between a substrate and a substrate, And a method of curing an adhesive material using the same.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. .

A curing apparatus for a display device according to an embodiment of the present invention is provided. A stage, a shelf positioned along the longitudinal axis of the stage, and a shelf moving by the shelf. At least one curing lamp located on the shelf and comprising a plurality of lamp units and a curing lamp fixture to which the curing lamp is attached, wherein the curing lamp irradiates energy toward the side or to the plane of the shelf, do.

According to another aspect of the present invention, the curing apparatus for a display device is characterized in that the lamp unit is arrayed in x in the minor axis direction and y directions in the major axis direction of the curing lamp.

According to another aspect of the present invention, the curing equipment for a display device is characterized in that the length of the minor axis of the curing lamp is less than the length of the minor axis of the unit curing area.

According to another aspect of the present invention, a curing apparatus for a display device is characterized in that the curing lamp has a shape that irradiates energy while covering only a part of the object to be cured in a state where the curing lamp is separated from the object to be cured for a unit time do.

According to another aspect of the present invention, in the curing apparatus for a display device, the length of the minor axis of the curing lamp is equal to the length of the minor axis of the unit curing area.

According to another aspect of the present invention, the curing apparatus for a display device is characterized in that the curing lamp has a shape that irradiates energy while covering the object to be cured in a state where the curing lamp is separated from the object to be cured for a unit time .

According to another aspect of the present invention, the curing apparatus for a display device is characterized in that the lamp unit is an LED unit that generates light energy in an ultraviolet wavelength band.

According to another aspect of the present invention, there is provided a curing apparatus for a display device, wherein the longitudinal axis of the curing lamp and the longitudinal axis of the stage are perpendicular or parallel to each other, the position of the curing lamp is changed with respect to the shelf for a unit time, And the position of the shelf is changed based on the curing lamp.

According to another aspect of the present invention, there is provided a curing apparatus for a display device, wherein the longitudinal axis of the curing lamp and the longitudinal axis of the stage are perpendicular or parallel to each other, and the position of the curing lamp is fixed with respect to the shelf for a unit time, And the positions of the curing lamp and the shelf are fixed based on the stage.

According to another aspect of the present invention, a curing apparatus for a display device further includes a lamp moving unit between the curing lamp and the curing lamp fixture, and the curing lamp moves in the direction of the long or short axis of the stage through the lamp moving unit .

According to another aspect of the present invention, in the curing apparatus for a display device, the plane of the curing lamp and the plane of the shelf are perpendicular to each other.

According to another aspect of the present invention, the curing apparatus for a display device is characterized in that the plane of the curing lamp and the plane of the shelf are parallel to each other.

According to another aspect of the present invention, the curing apparatus for a display device further includes a shield plate, and the shield plate is positioned between the shelf and the curing lamp so as to cover a part of the object to be cured.

A method of curing an adhesive material using a curing apparatus for a display device according to an embodiment of the present invention is provided. The method comprising: coating an adhesive material on at least one substrate; subjecting the substrate coated with the adhesive material to hardening; cementing the two substrates; further curing the substrate set in the cemented state; Defoaming, and curing the set of additional cured substrates.

According to another aspect of the present invention, there is provided a method of curing an adhesive material using a curing apparatus for a display device, characterized in that the additional curing step or the temporary curing step is performed using the curing apparatus of any one of claims 1 to 13 .

According to another aspect of the present invention, there is provided a method of curing an adhesive material using a curing apparatus for a display device, the method comprising: placing the substrate coated with an adhesive material on a shelf; Irradiating energy toward the substrate on which the adhesive material is coated with the curing lamp fixed or moving, masking a part of the substrate coated with the adhesive material with a shield plate, and And irradiating energy toward the substrate coated with the adhesive material while the curing lamp is fixed or moved.

According to another aspect of the present invention, there is provided a method of curing an adhesive material using a curing apparatus for a display device, wherein the step of curing the cured material includes a step of curing the adhesive material so that the substrate coated with the adhesive material faces the curing lamp Placing the substrate set on a shelf and irradiating energy toward the substrate set in a cemented state while holding or moving the curing lamp on the basis of the set of substrates in the cemented state .

The details of other embodiments are included in the detailed description and drawings.

The curing device for a display device according to the present invention and the curing method of an adhesive material using the same can be applied to a thin display device such as a combination of a tempered glass and a liquid crystal panel using an adhesive material or a combination of a tempered glass and a touch panel screen It is possible to prevent the air layer from being present between the two substrates.

INDUSTRIAL APPLICABILITY The curing device for a display device and the curing method for an adhesive material using the same according to the present invention can make a display device such as a liquid crystal display device thinner.

The curing device for a display device according to the present invention and the curing method of an adhesive material using the same can be applied to a thin display device such as a combination of a tempered glass and a liquid crystal panel using an adhesive material or a combination of a tempered glass and a touch panel screen The distance between the two substrates can be minimized.

INDUSTRIAL APPLICABILITY The curing apparatus for a display device and the curing method for an adhesive material using the same according to the present invention can improve the color of an image displayed from a display device such as a liquid crystal display device.

The curing apparatus for a display device according to the present invention and the method for curing an adhesive material using the same can prevent bubbles from being contained in the adhesive material as much as possible during the curing step of the adhesive material.

The curing device for a display device according to the present invention and the curing method of an adhesive material using the same can be applied to a thin display device such as a combination of a tempered glass and a liquid crystal panel using an adhesive material or a combination of a tempered glass and a touch panel screen It is possible to minimize the defect rate due to the hardening of the adhesive material.

The curing apparatus for a display device and the curing method for an adhesive material using the same according to the present invention can partially adjust the curing rate of the adhesive material between the substrate and the substrate to minimize the misalignment between the substrates when the two substrates are bonded together .

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

The scope of the claims is not limited by the content of the invention, as the contents of the invention described in the above-mentioned subject matter, the problem solving means and the effect to be solved do not specify essential features of the claims.

1 is a schematic structure of a curing apparatus for a display device according to an embodiment of the present invention.
FIG. 2 is a schematic structure of several examples illustrating a scanning method, which is a method of curing using a curing apparatus according to an embodiment of the present invention.
Fig. 3 is a cross-sectional view of a part of the liquid crystal display device, that is, one side section of the region from the upper substrate to the tempered glass of the liquid crystal panel.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

The shapes, sizes, ratios, angles, numbers and the like described in the drawings for describing the embodiments of the present invention are merely exemplary and the present invention is not limited thereto.

Like reference numerals refer to like elements throughout.

In the following description of the present invention, detailed description of known related arts will be omitted when it is determined that the gist of the present invention may be unnecessarily obscured by the present invention.

Where the terms "comprises", "having", "done", etc. are used in this specification, other portions may be added as long as "only" is not used.

The singular forms of the elements in this specification may include the plural unless the context clearly dictates otherwise.

In interpreting the constituent elements in this specification, even if there is no separate description, it is interpreted as including an error range.

In the case of the description of the positional relationship in the present specification, for example, when the positional relationship between two parts is described as 'on', 'on top', 'under', or 'next to' One or more other parts may be located between the two parts, unless " right " or " direct "

In the present specification, the first, second, etc. are used to describe various components, but these components are not limited by these terms. These terms are only used to distinguish one component from another. Therefore, the first component mentioned below may be the second component within the technical scope of the present invention.

In describing the elements of the present invention in this specification, terms such as first, second, A, B, (a), and (b) can be used. These terms are intended to distinguish the components from other components, and the terms do not limit the nature, order, order, or number of the components. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; intervening "or that each component may be" connected, "" coupled, "or " connected" through other components.

The hardening rate which is not described in this specification means the average hardening rate of the adhesive material.

In the present specification, the plane of any component is not limited to the actual area of the component but refers to the entire X-Y plane in which the actual area of the component is located in the X-Y-Z coordinate. That is, a plane of an element means an X-Y plane having a Z coordinate value equal to the actual area of the element by extending from the actual area of the element.

It is to be understood that each of the features of the various embodiments of the invention may be combined or combined with each other, partially or wholly, technically various interlocking and driving, and that the embodiments may be practiced independently of each other, It is possible.

Aligning and bonding other substrates constituting a thin display device, such as joining a tempered glass and a liquid crystal panel, or combining a tempered glass and a touch panel screen, when manufacturing a thin display device, The bonding of both substrates should be fixed.

The curing device for a display device according to an embodiment of the present invention is a curing device for a display device used in a manner of maintaining a bonded state of both substrates through an adhesive material in a non-cured state between both substrates. More specifically, in the case where the adhesive material is in a non-cured state at the time when the adhesive material is applied to either one of the two substrates, the display material used for curing the adhesive material interposed between the two substrates Curing equipment for curing.

 A method of curing an adhesive material using a curing apparatus for a display device according to an embodiment of the present invention includes applying and coating an adhesive material in an uncured state on the entire surface of at least one substrate of the substrates to be bonded . Then, the adhesive material is temporarily cured, rather than being 100% cured, thereby lowering the fluidity of the adhesive material and enhancing the adhesive property. Then, both substrates are bonded together. Next, additional curing, defoaming, and final curing are performed using the curing equipment for a display device according to an embodiment of the present invention.

At the time of temporary hardening, the adhesive material is hardened so that the position of the substrate for the alignment of both substrates can be adjusted in the subsequent laminating step, while the liquidity remains to some extent, and the adhesive force hardens to such an extent that adhesive force occurs. When the adhesive material is cured at a curing rate of about 75% at the time of temporary curing, the position of the substrate for alignment of both substrates can be adjusted and the adhesive force is also present. Alignment between substrates in the bonding step is a step of aligning the edges between the substrates. Therefore, only the edge of the adhesive material coated on the surface of the substrate is hardened more than the other area just before the adhesion, so that the adhesive force is increased to prevent the alignment of both substrates from being distorted during the adhesion process. The temporary curing step performed before the cementation step is a step of irradiating energy twice, one of which is carried out by using a shading plate.

However, since the tackified adhesive material still has fluidity, the appearance of the adhesive material can not be physically maintained in the high pressure defoaming step performed after the adhesion of both substrates. Therefore, the alignment of both substrates can not be maintained either. Therefore, after the cementation step, an additional curing step is carried out before the defoaming step.

The curing equipment for a display device according to an embodiment of the present invention used in the temporary curing step and the additional curing step is as follows.

1 is a schematic structure of a curing apparatus for a display device according to an embodiment of the present invention.

The curing apparatus for a display device according to an embodiment of the present invention includes a stage 110, a curing lamp fixture 120, at least one curing lamp 130, a shelf 140 located along the long axis of the stage 110 And a shelf 150 in contact with the shelf moving part 140.

The curing lamp fixture 120 may be located on the stage 110. At this time, it may be in contact with the stage 110 or not. For example, on the ceiling or side wall of the space in which the curing device according to an embodiment of the present invention is located

The curing lamp 130 may include at least one lamp unit 131. The long axis, short axis, area and plane of the area partitioned by at least one lamp unit 131 included in the curing lamp 130 are referred to as the long axis, short axis, area and plane of the curing lamp 130. The curing lamp is attached to the curing lamp fixture.

The energy irradiation time taken for the curing lamp 130 to cure one object to be cured or the energy irradiation time for curing one object set to be cured consisting of a plurality of objects to be cured is referred to as a unit time.

Accordingly, when the curing lamp 130 irradiates energy toward the plane of the shelf 150 for a unit time, the area of the region irradiated with energy can be divided. This is referred to as a unit hardening region 132. For example, when the position of the curing lamp 130 changes with respect to the shelf 150 for a unit time, the unit cured region 132 is formed on the plane of the shelf 150 according to the trace of the curing lamp 130 Is defined. When the position of the shelf 150 is changed with respect to the curing lamp 130 for a unit time, the unit hardened region 132 is defined in the plane of the shelf 150 according to the trace of the shelf 150.

The curing lamp 130 irradiates energy toward the side or plane of the shelf 150. In the drawing, the plane of the curing lamp 130 and the plane of the shelf 150 are shown as being parallel to each other. However, the present invention is not limited thereto, and the angle formed by the plane of the curing lamp 130 and the plane 150 of the lathe may be larger than 0 ° and smaller than 90 °.

The curing lamps 130 may include a plurality of lamp units 131 arranged in x in the minor axis direction, y in the major axis direction, and arrayed in x * y directions. Although not shown in the drawing, the lamp unit 131 may not exist at the center, edge, or corner of the x * y arrays of the plurality of lamp units 131. Accordingly, the shape of the curing lamp 130 may also be such that the lamp unit 131 does not exist at the center, edge, or corner of the x * y arrays. Or the plurality of lamp units 131 may randomly exist in their positions without regularity. The shape of the curing lamp 132 is determined accordingly. The shape of the curing lamp 130 is merely an example, and various shapes of the curing lamp 130 are possible depending on the object to be cured and the curing condition.

The lamp unit 131, which serves to irradiate energy in the curing lamp 130, will now be described in more detail.

 The lamp unit 131 may be an LED unit emitting ultraviolet rays having a wavelength of 300 to 400 nm. At this time, since the adhesive material existing in the object to be cured has a unique absorption energy wavelength band, an appropriate lamp unit capable of generating a specific energy wavelength band capable of optimally curing the adhesive material depending on which material is used as an adhesive material (131) can be selected in various ways.

In this case, when the curing lamp 130 includes a plurality of lamp units 131, the plurality of lamp units 131 may be a plurality of lamp units 131 generating ultraviolet rays of the same wavelength band. Alternatively, when the curing lamp 130 includes a plurality of lamp units 131, the plurality of lamp units 131 may include a plurality of lamp units 131 in which LED units emitting ultraviolet rays of different wavelengths are mixed, Lt; / RTI > For example, it may be an LED unit that emits ultraviolet rays at a wavelength of 365 nm. Or an LED unit emitting ultraviolet rays of 385 nm wavelength band. Alternatively, an LED unit that emits ultraviolet rays at a wavelength of 365 nm and an LED unit that emits ultraviolet rays at a wavelength of 385 nm may be used in combination.

The shape of the curing lamp 130 may be linear. This means that the length of the minor axis of the curing lamp 130 is less than or equal to the length of the minor axis of the object to be cured. Or a shape capable of irradiating energy while covering only a part of the object to be cured in a state where the curing lamp 130 is separated from the object to be cured for a unit time. Or the length of the minor axis of the curing lamp 130 is less than the length of the minor axis of the unit curing area 132. [ Or the area of the curing lamp 130 is less than the area of the unit curing area 132. [

The shape of the curing lamp 130 may be planar. This means that the length of the minor axis of the curing lamp 130 is longer than the length of the minor axis of the object to be cured. Or a shape capable of irradiating energy while covering the object to be cured in a state where the curing lamp 130 is separated from the object to be cured for a unit time. Or that the length of the minor axis of the curing lamp 130 is equal to the length of the minor axis of the unit curing region 132. Or the area of the curing lamp 130 is equal to the area of the unit curing area 132. [

The curing lamp 130 may be a plurality of curing lamps. In this case, the criterion for distinguishing each of the plurality of curing lamps is whether or not the driving on / off and energy irradiation control of the plurality of curing lamps are individually performed, and whether or not the appearance is physically independent. . For example, a first curing lamp 130a and a second curing lamp 130b, and two curing lamps 130a and 30b. At this time, the angle formed by the plane of the first curing lamp 130a and the plane of the shelf 150 may be different from the angle formed by the plane of the second curing lamp 130b and the plane of the shelf 150. The unit hardened region 132a formed by the first hardening lamp 130a and the unit hardened region 132b formed by the second hardened lamp 130b may overlap all or only partially overlap or overlap each other .

The shelf moving part 140 is located along the long axis of the stage 110 but may or may not be in contact with the stage 110. The shelf moving part 140 allows the shelf 150 to move along the long or short axis of the stage 110.

The shelf 150 supports the object to be cured. The lathe 150 is moved by the shelf moving part 140 to carry the object to be cured. For example, the shelf 150 may be a shelf 150 that supports the object to be cured so that the object to be cured may be positioned parallel to the plane of the stage 110. Alternatively, the shelf 150 may be a shelf 150 that supports the object to be cured so that the object to be cured may be positioned perpendicular to the plane of the stage 110. Alternatively, the shelf 150 may be a shelf 150 on which the object to be cured rises. At this time, the area where the lathe 150 supports the object to be cured may be larger or smaller or smaller than the area to be cured.

A shading plate (not shown) covers some area of the object to be cured. Or the shading plate (not shown) is spaced apart from the object to be cured and overlaps with a part of the object to be cured. At this time, the shield plate (not shown) is positioned between the curing object and the curing lamp. A light shielding plate (not shown) can be selectively used when it is desired to prevent the energy irradiated from the curing lamp 130 from reaching a part of the area to be cured. Since the shading plate is not fixed with respect to the stage and can be moved, the shading plate can be introduced between the object to be cured and the curing lamp when the user desires, at any time between before and after the curing lamp 130 irradiates energy .

By the linear or planar curing lamp 130, the curing can be performed in such a manner that the entire curing region of the object to be cured does not harden at the same time for a unit time, but is cured with a parallax. This method is referred to as a scanning method. The position of the curing lamp 130 is changed on the basis of the shelf 150 for a unit time or the position of the shelf 150 is changed on the basis of the curing lamp 130 in the scanning type display curing apparatus. Accordingly, the curing apparatus for a display device according to an embodiment of the present invention is a curing apparatus for a display device, in which a linear or planar curing lamp 130 irradiates energy toward a side or a plane of a shelf 150, Lt; / RTI >

By the linear or planar curing lamp 130, curing can be performed in such a manner that the entire curing region of the object to be cured for one unit time is simultaneously cured. This method is called a blanket method. In the curing apparatus for a display device of the blanket type, the position of the curing lamp 130 is fixed with respect to the shelf 150 for a unit time without being changed. Alternatively, the position of the shelf 150 and the position of the curing lamp 130 are fixed with respect to the stage 110 for a unit time. Accordingly, the curing equipment for a display device according to one embodiment of the present invention can be a curing equipment for a display device of a blanket type in which a linear or planar curing lamp 130 irradiates energy toward a side or a plane of the shelf .

For example, in a curing apparatus for a display device according to an embodiment of the present invention, two curing lamps 130a and 130b facing each other are cured in a blanket method while irradiating energy toward both sides of the shelf 450 Or the like.

Alternatively, the curing apparatus for a display apparatus according to an embodiment of the present invention may be a curing apparatus that performs curing by a scanning method while a linear curing lamp 130 irradiates energy toward a plane of the shelf 150.

Alternatively, the curing device for a display device according to an embodiment of the present invention may be a curing device that performs curing in a blanket method while a planar curing lamp 130 irradiates energy toward a plane of the shelf 150.

However, the curing apparatus for a display apparatus according to an embodiment of the present invention is not limited thereto, and various combinations are possible within the scope of the present invention.

Referring to FIG. 2, a scanning type curing apparatus for a display apparatus, which is a curing apparatus for a display apparatus according to an embodiment of the present invention, will be described in more detail.

In the curing apparatus for a display device according to an embodiment of the present invention, the position of the curing lamp 230 is fixed with respect to the shelf 250 for a unit time, and the position of the shelf 250 can be changed. More specifically, the curing equipment for a display device according to an embodiment of the present invention can move the shelf 250 along the long axis or the short axis of the stage 210 by the shelf moving unit 240 for a unit time. Alternatively, in the curing apparatus for a display device according to an embodiment of the present invention, the position of the curing lamp 230 is fixed with respect to the stage 210 for a unit time, and the position of the shelf 250 can be changed. Alternatively, the position of the curing lamp 230 is changed with respect to the stage 210 for a unit time, and the position of the shelf 250 is also changed. However, in the curing apparatus for a display device according to an embodiment of the present invention, (For example, the position change speed of the shelf 250 may be larger than the position change speed of the curing lamp 230). At this time, the entire cured region to be cured is not cured at the same time, but is cured with a parallax. At this time, the long axis of the curing lamp 230 and the long axis of the stage 210 may be perpendicular or parallel to each other.

The position of the shelf 250 is fixed on the basis of the curing lamp 230 for a unit time and the position of the curing lamp 230 can be changed. In this case, the curing apparatus for a display device according to an embodiment of the present invention may further include a lamp moving part 260 located along a long axis of the stage 210, (230) can be moved. For example, the hardened lamp fixture 220 may contact the stage 210 via the ramp 260. Alternatively, the lamp moving part 260 may be positioned on the ceiling, or side wall, of the space in which the curing device according to an embodiment of the present invention is located, without touching the stage 210. Alternatively, the lamp moving part 260 and the curing lamp 230 can be contacted through the curing lamp fixing table 220. Alternatively, the curing lamp 230 may contact the curing lamp fixture 220 via the ramp 260.

More specifically, in the curing apparatus for a display device according to an embodiment of the present invention, the curing lamp 230 can be moved along the long axis or short axis of the stage 210 by the ramp moving unit 260 for a unit time. Alternatively, in the curing apparatus for a display device according to an embodiment of the present invention, the position of the shelf 250 is fixed with respect to the stage 210 for a unit time, and the position of the curing lamp 230 may be changed. Alternatively, the position of the curing lamp 230 is changed with respect to the stage 210 for a unit time, and the position of the shelf 250 is also changed. However, in the curing apparatus for a display device according to an embodiment of the present invention, (For example, the position change speed of the shelf 250 may be smaller than the position change speed of the curing lamp 230). At this time, the object to be cured is cured, and the entire cured region to be cured is hardened at the same time, and is hardened with a parallax. At this time, the long axis of the curing lamp 230 and the long axis of the stage 210 may be perpendicular or parallel to each other.

In other words, the curing by the curing apparatus for a display device according to an embodiment of the present invention is performed by scanning the curing lamp 230 while irradiating energy toward a side or a plane of the shelf 250 supporting the object to be cured, . At this time, the curing can be performed in such a manner that energy is irradiated while the curing lamp 230 is continuously moved with respect to the stage 210 and the shelf 250 for a unit time. Alternatively, the curing can be performed in such a manner that the shelf 250 is continuously moved and the curing lamp 230 irradiates energy based on the stage 210 and the curing lamp 230 for a unit time.

However, since the tackified adhesive material still has fluidity, it is difficult to align the alignment of both substrates when the two substrates are bonded together. Therefore, only the first adhesive material region located at the edge of the substrate can be relatively hardened so that the alignment can be fixed.

At this time, a shield plate (not shown) may be positioned between the shelf 250 and the curing lamp 230, more precisely between the object to be cured and the curing lamp 230. By covering a part of the object to be cured with a light shielding plate (not shown), the curing rate can be varied in one curing object in the temporary curing step.

The curing equipment for a display device according to an embodiment of the present invention can be used not only in the additional curing step but also in the temporary curing step.

A method of curing an adhesive material using a curing apparatus for a display device according to an embodiment of the present invention includes coating an adhesive material on at least one of two substrates to be cemented, , A step of hardening the curing apparatus for a display device according to an embodiment of the present invention, a step of cementing two substrates, a step of curing a substrate set in a cemented state, Further curing with the curing equipment, defoaming the set of additional cured substrates, and curing the set of additional cured substrates.

The step of applying and coating the adhesive material on at least one of the two substrates to be bonded includes, more specifically, coating the substrate with the adhesive material on the substrate in a slit-shaped nozzle to clean the nozzle can do. These steps may be progressive or simultaneous.

The step of curing the substrate coated with the adhesive material with the curing object of the display device according to an embodiment of the present invention more specifically includes the steps of placing the substrate coated with the adhesive material on the shelf, Irradiating energy toward a substrate coated with an adhesive material while fixing or moving a curing lamp on the basis of a substrate coated with the material; shading a part of the substrate coated with the adhesive material with a shield plate; And irradiating the energy toward the substrate on which the adhesive material is coated, with the curing lamp being fixed or moved, based on the coated substrate. These steps may be progressive or simultaneous.

At this time, the shading plate should be spaced apart from the adhesive material by a predetermined distance, the second adhesive material area of the substrate coated with the adhesive material may be covered, and the first adhesive material area may be exposed. When the step of irradiating energy toward the substrate on which the adhesive material is coated is performed after placing the shading plate, the curing rate of the substrate coated with the adhesive material is varied. More specifically, the first adhesive material region has a higher curing rate than the second adhesive material region.

At this time, energy can be irradiated toward the both longitudinal axes of the objects to be cured, for example, while the curing lamp is not moved and fixed while the long axis of the curing lamp and the long axis of the stage are parallel or perpendicular to each other. This is referred to as an additional side curing method. Alternatively, during the unit time, the curing lamp may move while irradiating energy toward the plane of the object to be cured in a state where the long axis of the curing lamp and the long axis of the stage are parallel or perpendicular to each other. This is referred to as an additional downward scanning curing method. Alternatively, the curing lamp may irradiate energy toward the plane of the object to be cured while the curing lamp is not moved and fixed while the long axis of the curing lamp and the long axis of the stage are parallel or perpendicular to each other for a unit time. This is referred to as an additional downward blanket curing method.

When energy is irradiated, for example, energy can be irradiated so that the curing rate of the first adhesive material region exceeds 90%. More specifically, the step of irradiating energy toward the substrate on which the curing lamp is coated (without using a shielding plate) is performed by irradiating energy with an energy of ultraviolet light of 365 nm, The energy of 1000 J or more can be irradiated. (Using a light shielding plate), the step of irradiating the curing lamp toward the substrate on which the adhesive material is coated is carried out by using an LED lamp for irradiating energy of ultraviolet wavelength band of 365 nm, Energy can be inspected. These steps may be progressive or simultaneous.

The step of bonding the two substrates more specifically includes a step in which the two substrates enter the adhesion chamber, a step in which the two substrates are aligned with each other in a vacuum state, a step in which the two substrates are bonded together, And exiting the chamber. In this case, the vacuum state means a state in which the atmospheric pressure is lower than the atmospheric pressure. These steps may be progressive or simultaneous.

More specifically, the step of curing the substrate set in a cemented state as a curing target with the curing apparatus for a display device according to an embodiment of the present invention more specifically includes a step of curing the substrate with the adhesive material coated thereon Placing the substrate set on the shelf in such a way that the curing lamp is facing the substrate set on the shelf and irradiating energy towards the substrate set while the curing lamp is being fixed or moved on the basis of the set of substrates in the cemented state .

At this time, energy can be irradiated toward the both longitudinal axes of the objects to be cured, for example, while the curing lamp is not moved and fixed while the long axis of the curing lamp and the long axis of the stage are parallel or perpendicular to each other. This is referred to as an additional side curing method. Alternatively, during the unit time, the curing lamp may move while irradiating energy toward the plane of the object to be cured in a state where the long axis of the curing lamp and the long axis of the stage are parallel or perpendicular to each other. This is referred to as an additional downward scanning curing method. Alternatively, the curing lamp may irradiate energy toward the plane of the object to be cured while the curing lamp is not moved and fixed while the long axis of the curing lamp and the long axis of the stage are parallel or perpendicular to each other for a unit time. This is referred to as an additional downward blanket curing method.

When the energy is irradiated, for example, the energy can be irradiated so that the curing rate of the second adhesive material region exceeds 80%. Alternatively, an energy of 1000 J or more can be irradiated at a time of 0.5 second or more and 2 seconds or less per unit time by using an LED lamp that emits energy of ultraviolet wavelength band of 365 nm. These steps may be progressive or simultaneous.

The step of defoaming the set of additional cured substrates more specifically includes the steps of the set of additional cured substrates entering the defoaming chamber, the set of additional cured substrates being defoamed by pressurization with air, May be removed from the defoaming chamber. These steps may be progressive or simultaneous.

The step of curing the substrate with the additional cured substrate set as the object to be cured includes more specifically the step of placing the substrate set of the additional cured state on the shelf such that the substrate coated with the adhesive material faces upward, , And irradiating energy toward the substrate set in the further cured state while holding or moving the curing lamp on the basis of the object to be cured. These steps may be progressive or simultaneous

When energy is irradiated, for example, energy can be irradiated such that the curing rate of the adhesive material exceeds 90%, more preferably, the curing rate of the entire region of the adhesive material exceeds 90%. That is, even if the curing lamp is irradiated with energy toward the substrate on which the adhesive material is coated in the temporary curing step (using a light shielding plate), even if the curing rate of one curing object deviates, The curing rate of one curing object becomes uniform. These steps may be progressive or simultaneous.

Fig. 3 is a cross-sectional view of a part of the liquid crystal display device, that is, one side section of the region from the upper substrate to the tempered glass of the liquid crystal panel. (1) Bubbling can be suppressed in the adhesive material by performing additional curing according to one embodiment of the present invention; (2) Alignment can be performed by hardening according to an embodiment of the present invention; Can be improved.

The upper substrate 310 of the liquid crystal panel includes a color filter layer 311, a polarizing plate 312, a conductive wiring 313, and a conductive tape 314. At this time, the polarizer 312 is present in the active area, which is an area where an actual image is displayed, on the upper substrate 310 of the liquid crystal panel. The conductive wirings 313 and the conductive tape 314 are present in the non-active region, which is an edge region where no image is displayed on the upper substrate 310 of the liquid crystal panel. In this case, the conductive wiring 313 may include a transparent conductive material such as ITO (Indium Tin Oxide). At this time, the conductive tape 314 serves to compensate the step of the conductive wiring 313.

Tempered glass 340 is placed on the upper substrate 310 of the liquid crystal panel. Thus, the tempered glass 340 is positioned at the top of the liquid crystal display 300.

The touch sensor 320 may be positioned between the tempered glass 340 and the upper substrate 310 of the liquid crystal panel and the touch sensor 320 may be disposed on the entire surface of one side of the tempered glass 340 . Although not shown, the touch sensor 320 may be formed on the entire surface of one surface of the upper substrate 310 of the liquid crystal panel, or may be formed in the liquid crystal panel. 3, when the touch sensor 320 is positioned on the entire surface of one side of the tempered glass 340, an adhesive sheet 340 is provided between the touch sensor 320 and the tempered glass 340, Or an adhesive material may be located.

In order to cover an edge region where no image is displayed on the upper substrate 310 of the liquid crystal panel when the tempered glass 340 is attached to the upper substrate 310 of the liquid crystal panel, (330) is formed. The edge region of the tempered glass 340 on which the black matrix 330 is formed is defined as a bezel region. At this time, the black matrix 330 serves to cover the conductive wiring 313 and the conductive tape 314, and may include a black resin that absorbs light. The black resin may include at least one selected from the group consisting of chrome particles, carbon particles and color pigments, and the surface of the particles may be insulated.

By the bezel area, an area where the user can finally view an image is finally defined. In Fig. 8, the boundaries of the active region and the bezel region are shown as not coinciding with each other, but they may coincide with each other. However, in any case, when the user views the liquid crystal display device from the front, the black matrix 330 completely covers the conductive tape 314 and the conductive wiring 313, so that the conductive tape 314, (313) should not be visible. That is, the bezel region must cover the non-active region.

The upper substrate 310 of the liquid crystal panel and the tempered glass 340 are adhered by an adhesive material 350. That is, the adhesive material 350 is fixed to the upper substrate 310 of the liquid crystal panel and the tempered glass 340 as they are. The adhesive material 350 is positioned on the entire surface of one surface of the upper substrate 310 of the liquid crystal panel and the entire surface of one surface of the tempered glass 340. That is, the adhesive material 350 is positioned so as to adhere to the entire area of the upper substrate 310 of the liquid crystal panel and the entire area of the tempered glass 340 irrespective of the non-active area and the bezel area. The portion of the adhesive material 350 corresponding to the bezel region in this specification is referred to as a first adhesive material region 351 and a portion of the remaining adhesive material 350, that is, an adhesive material corresponding to a region where the user can finally see an image (350) portion is defined as a second adhesive material region (352).

At this time, bubbles may be generated when the bubbles are directly contained in the adhered adhesive material in the adhesion and high pressure defoaming step for the following reason, or when the bubbles are exposed to extreme conditions such as high temperature. The reason for this is as follows. There is a physical gap between the polarizing plate 312 and the conductive tape 314. The polarizing plate 312 and the conductive tape 314 are not made of the same material so that the adhesive force between the polarizing plate 312 and the adhesive substance 350 and the adhesive force between the conductive tape 314 and the adhesive substance 350 are different I go. More specifically, the portion that is relatively hardened in the adhesive material 350 becomes more elastic than the portion that is not yet hardened. When the liquid-crystal display device is released from the high-pressure state after the high-pressure defoaming step is completed, the portion of the adhesive material 350 that is relatively more resilient has a strong tendency to return to the original state. As a result, tensile or shrinkage of the adhesive material 350 occurs, and bubbles are generated in the center and the periphery of the region where the curing rate or the elastic force differs in the adhesive material 350. Such bubbles are exposed in the active area, which is an area where an image is displayed in the liquid crystal display device, resulting in deterioration of image quality.

Even if the black matrix 330 covers the first adhesive material region 351 and energy is simultaneously applied to the adhesive material 350 for curing, the curing rate may be partially different. That is, in the adhesive material 350, the second adhesive material region 352 may be relatively less cured than the first adhesive material region 351. In the cementation step, the inter-substrate alignment is a step of aligning the edges of the substrates. Accordingly, the first adhesive material region 351, which corresponds to the edge of the adhesive material 350 coated on the surface of the substrate immediately before the adhesion, is cured to such an extent that it can be fixed or supported. As a result, the inter-substrate alignment in the laminating step is not affected due to the relatively high curing rate of the first adhesive material region 351.

If additional curing is performed between pre-degassing and pre-degassing using the curing apparatus according to an embodiment of the present invention, it is possible to prevent the misalignment between the substrates, which may occur as a result of receiving a high-pressure external force in the defoaming step, It is possible to reduce the occurrence of bubbles in the adhesive material due to the deformation of the alignment.

A curing apparatus for a display device according to an embodiment of the present invention is provided. A stage, a shelf positioned along the longitudinal axis of the stage, and a shelf moving by the shelf. At least one curing lamp located on the shelf and comprising a plurality of lamp units and a curing lamp fixture to which the curing lamp is attached, wherein the curing lamp irradiates energy toward the side or to the plane of the shelf, do.

According to another aspect of the present invention, the curing apparatus for a display device is characterized in that the lamp unit is arrayed in x in the minor axis direction and y directions in the major axis direction of the curing lamp.

According to another aspect of the present invention, the curing equipment for a display device is characterized in that the length of the minor axis of the curing lamp is less than the length of the minor axis of the unit curing area.

According to another aspect of the present invention, a curing apparatus for a display device is characterized in that the curing lamp has a shape that irradiates energy while covering only a part of the object to be cured in a state where the curing lamp is separated from the object to be cured for a unit time do.

According to another aspect of the present invention, in the curing apparatus for a display device, the length of the minor axis of the curing lamp is equal to the length of the minor axis of the unit curing area.

According to another aspect of the present invention, the curing apparatus for a display device is characterized in that the curing lamp has a shape that irradiates energy while covering the object to be cured in a state where the curing lamp is separated from the object to be cured for a unit time .

According to another aspect of the present invention, the curing apparatus for a display device is characterized in that the lamp unit is an LED unit that generates light energy in an ultraviolet wavelength band.

According to another aspect of the present invention, there is provided a curing apparatus for a display device, wherein the longitudinal axis of the curing lamp and the longitudinal axis of the stage are perpendicular or parallel to each other, the position of the curing lamp is changed with respect to the shelf for a unit time, And the position of the shelf is changed based on the curing lamp.

According to another aspect of the present invention, there is provided a curing apparatus for a display device, wherein the longitudinal axis of the curing lamp and the longitudinal axis of the stage are perpendicular or parallel to each other, and the position of the curing lamp is fixed with respect to the shelf for a unit time, And the positions of the curing lamp and the shelf are fixed based on the stage.

According to another aspect of the present invention, a curing apparatus for a display device further includes a lamp moving unit between the curing lamp and the curing lamp fixture, and the curing lamp moves in the direction of the long or short axis of the stage through the lamp moving unit .

According to another aspect of the present invention, in the curing apparatus for a display device, the plane of the curing lamp and the plane of the shelf are perpendicular to each other.

According to another aspect of the present invention, the curing apparatus for a display device is characterized in that the plane of the curing lamp and the plane of the shelf are parallel to each other.

According to another aspect of the present invention, the curing apparatus for a display device further includes a shield plate, and the shield plate is positioned between the shelf and the curing lamp so as to cover a part of the object to be cured.

A method of curing an adhesive material using a curing apparatus for a display device according to an embodiment of the present invention is provided. The method comprising: coating an adhesive material on at least one substrate; subjecting the substrate coated with the adhesive material to hardening; cementing the two substrates; further curing the substrate set in the cemented state; Defoaming, and curing the set of additional cured substrates.

According to another aspect of the present invention, there is provided a method of curing an adhesive material using a curing apparatus for a display device, characterized in that the additional curing step or the temporary curing step is performed using the curing apparatus of any one of claims 1 to 13 .

According to another aspect of the present invention, there is provided a method of curing an adhesive material using a curing apparatus for a display device, the method comprising: placing the substrate coated with an adhesive material on a shelf; Irradiating energy toward the substrate on which the adhesive material is coated with the curing lamp fixed or moving, masking a part of the substrate coated with the adhesive material with a shield plate, and And irradiating energy toward the substrate coated with the adhesive material while the curing lamp is fixed or moved.

According to another aspect of the present invention, there is provided a method of curing an adhesive material using a curing apparatus for a display device, wherein the step of curing the cured material includes a step of curing the adhesive material so that the substrate coated with the adhesive material faces the curing lamp Placing the substrate set on a shelf and irradiating energy toward the substrate set in a cemented state while holding or moving the curing lamp on the basis of the set of substrates in the cemented state .

Although the embodiments of the present invention have been described in detail with reference to the accompanying drawings, it is to be understood that the present invention is not limited to those embodiments and various changes and modifications may be made without departing from the scope of the present invention. .

Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention by these embodiments.

Therefore, it should be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

The scope of protection of the present invention should be construed according to the claims, and all technical ideas within the scope of the same shall be construed as being included in the scope of the present invention.

100: Hardening equipment for display
110: stage
120: Hardening lamp holder
130: Hardening lamp
140: Shelf is eastern
150: Shelf

Claims (17)

stage;
A shelf positioned along the longitudinal axis of the stage;
A shelf in which the shelf is moved by an easel;
At least one curing lamp located on the shelf and comprising a plurality of lamp units; And
And a curing lamp fixture to which the curing lamp is attached,
Wherein the curing lamp irradiates energy toward a side or a plane of the shelf.
Curing device for display device. The method according to claim 1,
Characterized in that the lamp unit is arrayed in x in the minor axis direction and y directions in the major axis direction of the curing lamp.
Curing device for display device. The method according to claim 1,
Wherein the length of the minor axis of the curing lamp is less than the length of the minor axis of the unit curing area.
Curing device for display device. The method according to claim 1,
Wherein the curing lamp has a shape that irradiates energy while covering only a part of the object to be cured in a state where the curing lamp is separated from the object to be cured for a unit time.
Curing device for display device. The method according to claim 1,
Wherein a length of a minor axis of the curing lamp is equal to a length of a minor axis of the unit hardening region.
Curing device for display device. The method according to claim 1,
Wherein the curing lamp has a shape that irradiates energy while covering the object to be cured in a state where the curing lamp is separated from the object to be cured for a unit time.
Curing device for display device. The method according to claim 1,
Wherein the lamp unit is an LED unit that generates light energy in an ultraviolet wavelength band.
Curing device for display device. The method according to claim 1,
The long axis of the curing lamp and the long axis of the stage are perpendicular or parallel to each other,
Wherein the position of the curing lamp changes with respect to the shelf for a unit time or the position of the shelf changes with respect to the curing lamp.
Curing device for display device. The method according to claim 1,
The long axis of the curing lamp and the long axis of the stage are perpendicular or parallel to each other,
Wherein the position of the curing lamp is fixed with respect to the shelf for a unit time or the positions of the curing lamp and the shelf are fixed with respect to the stage.
Curing device for display device. 9. The method of claim 8,
Further comprising a lamp moving part between the curing lamp and the curing lamp fixing part,
Characterized in that the curing lamp moves in the longitudinal direction or the minor axis direction of the stage through the lamp moving part.
Curing device for display device. The method according to claim 1,
Characterized in that the plane of the curing lamp and the plane of the shelf are perpendicular to each other,
Curing device for display device. The method according to claim 1,
Characterized in that the plane of the curing lamp and the plane of the shelf are parallel to each other,
Curing device for display device. The method according to claim 1,
Further comprising a shading plate,
Wherein the shielding plate is positioned between the shelf and the curing lamp so as to cover a part of the object to be cured.
Curing device for display device. Coating an adhesive material on at least one substrate;
Curing the substrate coated with the adhesive material;
Attaching two substrates;
Further curing the set of substrates in the bonded state;
Defoaming the substrate set in an additional cured state; And
And finally curing the set of additional cured substrates
Hardening method of adhesive material using hardening device for display device 15. The method of claim 14,
Characterized in that the additional curing step or the temporary curing step is carried out using the curing apparatus of any one of claims 1 to 13
(Method for curing an adhesive material using a curing device for a display device). 16. The method of claim 15,
The step of hardening
Placing a substrate coated with an adhesive material on a shelf;
Irradiating energy toward a substrate coated with an adhesive material while fixing or moving the curing lamp on the basis of the substrate coated with the adhesive material;
Shielding a portion of the substrate coated with the adhesive material with a shield plate; And
Irradiating energy toward the substrate coated with the adhesive material while fixing or moving the curing lamp on the basis of the substrate coated with the adhesive material
(Method for curing an adhesive material using a curing device for a display device). 16. The method of claim 15,
The further curing step
Placing on a shelf a set of substrates in a cemented state, such that the substrate coated with the adhesive material faces the curing lamp direction; And
Irradiating energy toward a set of substrates in a cemented state with the curing lamps being fixed or moved on the basis of the set of cemented substrates,
(Method for curing an adhesive material using a curing device for a display device).

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