KR20160000040A - Integrated Dry and Curing Device, and Apparatus and Method of Manufacturing Printing Roll - Google Patents

Abstract

Disclosed are an integrated drying and curing device, and an apparatus and method for manufacturing a printing roll having the same. According to an embodiment of the present invention, the integrated drying and curing device comprises: a chamber for providing a space to dry and cure a target object; a chucking member for supporting the target object to be rotated; a rotation driving member connected to a rotation shaft of the target object at the outside of the chamber, and rotating the rotation shaft; a heater member provided at a lower portion of the target object in the chamber and drying the target object; a curing member provided at an upper portion of the target object in the chamber and curing a coating thin film applied on a surface of the target object; a transparent insulation member surrounding the outside of the curing member; and a door member provided at the front of the chamber.

Description

TECHNICAL FIELD The present invention relates to an integrated drying and curing apparatus, and an apparatus and a method for manufacturing a printing roll having the same,

The present invention relates to an integral drying and curing apparatus, and an apparatus and a method for manufacturing a printing roll having the same.

More specifically, the present invention provides a curing apparatus integrally provided in a drying apparatus of an object, wherein the curing apparatus prevents the drying apparatus from being damaged by heat, so that drying and curing of the object are carried out in a single chamber or sequentially And it is an object of the present invention to provide an integrated drying and curing apparatus which does not need to transfer an object between a drying process and a curing process and which can quickly dry and cure the object, will be.

In addition, the present invention is also applicable to an integrated drying and curing apparatus of the present invention, for example, after a thin coating of a specific coating liquid is formed on the surface of a roll such as a printing roll on which a printing pattern is formed, The coating liquid applied on the roll surface is prevented from flowing down before the roll is moved to the curing apparatus and the thickness uniformity of the coating film is remarkably improved and the coating liquid is prevented from being deposited on or onto the coating thin film It is possible to prevent adhesion or entrainment of foreign matter, reduce the possibility of scratching of the coating film, ultimately improve the quality of the final product, and achieve the effect of the use of the integral drying and curing apparatus described above. Apparatus and method.

In general, in order to manufacture a flat panel display (FPD) such as a plasma display panel (PDP), a liquid crystal display panel (LCD) or an organic light emitting diode (OLED), a printed circuit board A plurality of the same or different patterns (for example, an electrode pattern) such as electrodes or dots or the like should be formed on a film (hereinafter collectively referred to as a " film " These patterns are formed by, for example, a photoresist (PR) solution or a metal paste (hereinafter collectively referred to as "ink") such as copper (Cu), silver (Ag) . In order to form the above-described patterns on the film, a printing roll and a pattern printing method in which a printing pattern is formed directly on the printing roll 131 itself and a printing process and a curing process are simultaneously performed are used. A printing roll and a pattern printing method capable of simultaneously performing such a printing process and a curing process are disclosed in " Printing roll, a method of manufacturing a liquid crystal display using the same "by LG Display Co., Korean Patent Application No. 10-2006-0139151, filed on July 3, 2008, and Korean Patent Laid-Open No. 10-2008-0062952.

More specifically, Fig. 1A schematically shows a printing roll according to the prior art.

Referring to FIG. 1A, a printing roll 50 according to the prior art includes a blanket 55 provided on the outer circumferential surface thereof and a light irradiation device 58 provided therein. The printing roll 50 has a rotary shaft 51 disposed at the center thereof and is rotationally driven as the rotary shaft 51 is rotated. The blanket 55 is arranged so as to surround the outer circumferential surface of the printing roll 50, and a printing pattern 55P to be formed is formed on the surface thereof. The blanket 55 may be made of any one of silicone rubber, polyurethane, and photocurable acrylate.

The light irradiation device 58 is installed inside the printing roll 50 and selectively irradiates the light along the rotation direction of the printing roll 50. The light irradiating device 58 includes a light source 57 and a reflector 59 provided on the outer periphery of the light source 57 and shielding and reflecting the light emitted from the light source 57. Here, the light source 57 may use ultraviolet light having a wavelength of 300 to 500 mu m. The reflection plate 59 may be formed in an arc shape expanded at an angle of 1 to 179 degrees, or may be made of any one of stainless steel and metal.

On the other hand, as the light irradiation device 58 is provided in the printing roll 50, a transparent quartz material can be used so that light irradiation from the light irradiation device 58 is smooth.

1B to 1E are views showing a method of forming a print pattern using a printing roll according to the related art.

Referring to FIGS. 1B to 1E, in the prior art, an etching target layer 103 is formed on a substrate 101, as shown in FIG. 1B. Thereafter, a mask film 105 is formed on the substrate 101 having the etching target layer 103 in order. Thereafter, a uniform pressure is applied to the printing roll 50 so that the printing roll 50 shown in Fig. 1A is brought into contact with the substrate 101 having the mask film 105. Then,

Thereafter, the printing roll 50 is rotated in a predetermined direction on the substrate 101 having the mask film 105, as shown in Figs. 1C and 1D. In this case, a spare mask film pattern 105P1 filling the print pattern 55P of the printing roll 50 is formed while the printing roll 50 is rotated. This spare mask film pattern 105P1 corresponds to the mask film remaining in the print patterns 55P.

Thereafter, the light source 57 is irradiated through the light irradiation device 58 to cure the spare mask film pattern 105P1 filling the print patterns 55P. At this time, the printing process and the curing process can be performed at the same time, and in some cases, the curing process may be performed after the printing process. As a result, a mask pattern 105P2 is formed on the etching target layer 103 of the substrate 101. [

On the other hand, the light can be reflected at the surface of the spare mask film pattern 105P1 while the light is irradiated to the spare mask film pattern 105P1 filling the print pattern 55P. At this time, the reflection plate 59 serves to condense the reflected light reflected from the surface of the spare mask film pattern 105P1, thereby greatly increasing the amount of light irradiated to the spare mask film pattern 105P1. The reflector 59 is preferably made to have an angular range of 1 to 179 degrees so that the necessary amount of light can be selectively used.

As described above, in the conventional technique, the printing roll 50 is rotated on the mask film 105 on the substrate 101 to form the spare mask film pattern 105P1 filling the printing pattern 55P of the blanket 55, The preliminary mask film pattern 105P1 is selectively cured to form a mask pattern 105P2. Accordingly, in the prior art, the printing process and the curing process are simultaneously performed, thereby achieving the advantage that the total number of processes and the process time are reduced.

However, since the blanket 55 in which the pattern is to be formed is made of an elastic material such as silicone rubber, polyurethane, photocurable acrylate or the like in the printing roll 50 according to the conventional art described above, However, there is a problem that the ink is pressed and spread due to elasticity during pattern transfer, which makes it difficult to accurately transfer the pattern.

One of the measures for solving the problem of the blanket 55 used in the printing roll 50 according to the above-mentioned prior art is to apply a specific coating liquid (for example, a photoresist PR ) Solution) in a spraying manner is used.

1F is a view schematically showing a printing roll manufacturing apparatus according to an embodiment of the prior art.

Referring to FIG. 1F, a printing roll manufacturing apparatus 100 according to an embodiment of the prior art is disposed in parallel to and spaced apart from a roll 50, and a coating film 54 A spray nozzle 102 for spraying the coating liquid to form a coating liquid; A moving member 104 for horizontally moving the spray nozzle 102; A rotary member 106 for rotating the rotary shaft 51 of the roll 50; A drying device (160) for drying the coating film (54) of the roll (50); A conveying member (150) for conveying the roll (50) to the drying apparatus (160); A curing device (170) for curing the coating film (54) of the roll (50); And a second conveying member (not shown) for conveying the roll 50 to the curing device 170. Here, the movable member 104 may be embodied as a conventional linear motor, for example, and the rotary member 106 may be embodied as a rotary motor. The conveying member 150 may be a crane or a robot arm, and the second conveying member may be a conveyor or a robot arm, for example. In addition, the both rotation shafts 51 of the roll 50 can be rotated in a fixed state by chucks (not shown).

The spray nozzle 102 is moved by the moving member 104 while the rotary shaft 51 of the roll 50 is rotated by the rotary member 106 in the roll 50 The coating liquid 108 is applied while moving along the surface 52 of the coating liquid. As a result, a coating film 54 is formed on the surface 52 of the roll 50. Thereafter, the chucks on both sides of which the rotary shafts 51 of the rolls 50 are fixed are released, and the conveying device 150 picks up the rotary shafts 51 on both sides of the rolls 50 and is conveyed to the separately provided drying device 160 The drying process of the coating thin film 54 formed on the surface 52 of the roll 50 is performed. Thereafter, the dried roll 50 is transferred into the hardening device 170 by a second transfer device (not shown), and then the hardening process of the coating film 54 is performed. As a result, the production of the printing roll 50 with the coating film 54 is completed. Thereafter, a printing pattern 55P to be formed on the cured coating film 54 of the printing roll 50 in a manner according to the above-described conventional technique can be formed.

It is possible to form the coating film 54 on the surface 52 of the roll 50 very simply and also to form the coating film 54 on the surface 52 of the roll 50 It is possible to realize a precise pattern transfer on the coating film 54 formed on the substrate 54. In addition, since the pressing and spreading phenomenon of the ink does not occur even during the pattern transfer, an advantage that precise pattern transfer is possible is achieved, A problem arises.

1. In the prior art, high temperature heat generated when the drying apparatus 160 is used generates heat damage to one or more ultraviolet (UV) lamps constituting the curing apparatus 170, and the drying apparatus 160 and the curing apparatus 170 It is practically impossible to integrate them. Thus, a drying device 160 and a curing device 170, which are provided separately for the drying process and the curing process of the object such as the roll 50, are required.

2. It has been required to use a separate transfer member (i.e., a second transfer member (not shown)) for transferring an object, such as a dried roll 50, to the hardening device 170 for the curing process after the drying process.

3. Due to the above-described problems 1 and 2, there is a problem that the time required for drying and curing the object becomes long, and the size and cost of the entire equipment are increased.

4. In the prior art, a coating film 54 is formed on the surface 52 of the roll 50 and then transferred to a drying device 160 and a curing device 170 to dry and cure the coating film 54 . In this case, the coating film 54 is in a wet state until the drying and curing process is completed after the coating film 54 is formed, so that the coating film 54 flows down on the surface 52 of the roll 50 by gravity. As a result, there arises a problem that the thickness uniformity of the coating film 54 formed on the surface 52 of the roll 50 is not uniform.

5. There is also the possibility that the foreign matter may flow into or onto the coating film 54 while moving the coating film 54 in the wet state into the drying device 160 and the curing device 170.

6. There is also a possibility that scratches or the like may occur in the coating film 54 while moving the coating film 54 in the wet state into the drying device 160 and the hardening device 170.

7. Problems 4 to 6 described above cause the possibility of occurrence of defects in the object itself such as the produced printing roll 50 or in the final product (for example, the substrate to which the pattern is transferred by the printing roll 50) .

Therefore, there is a need for a new method for solving the problems of the above-described conventional techniques.

Korean Patent Publication No. 10-2008-0062952

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems of the conventional art, and it is an object of the present invention to provide a curing device integrally in a drying device of an object, in which the curing device prevents damage to the drying device by heat, Can be carried out individually or sequentially in the chamber, there is no need to transport the object between the drying process and the curing process, the drying and curing of the object can be performed quickly, the size of the whole equipment can be reduced, And to provide an integral drying and curing apparatus.

In addition, the present invention is also applicable to an integrated drying and curing apparatus of the present invention, for example, after a thin coating of a specific coating liquid is formed on the surface of a roll such as a printing roll on which a printing pattern is formed, The coating liquid applied on the roll surface is prevented from flowing down before the roll is moved to the curing apparatus and the thickness uniformity of the coating film is remarkably improved and the coating liquid is prevented from being deposited on or onto the coating thin film It is possible to prevent adhesion or entrainment of foreign matter, reduce the possibility of scratching of the coating film, ultimately improve the quality of the final product, and achieve the effect of the use of the integral drying and curing apparatus described above. Apparatus, and method.

An integrated drying and curing apparatus according to a first aspect of the present invention includes a chamber for providing a space for drying and curing an object; A chucking member for rotatably mounting the object; A rotation driving member connected to a rotation axis of the object outside the chamber and rotating the rotation axis; A heater member provided at a lower portion of the object in the chamber, for drying the object; A curing member provided on the top of the object in the chamber for curing the coating film applied to the surface of the object; A transparent heat insulating member surrounding the outside of the curing member; And a door member provided in front of the chamber.

A printing roll manufacturing apparatus according to a second aspect of the present invention comprises: a roll having a surface; A chuck on which both rotary shafts of the roll are rotatably mounted; A spray nozzle spaced apart from and parallel to the roll, for spraying a coating liquid on the surface to form a coating thin film; A moving member for moving the spray nozzle in a horizontal direction; A rotating member for rotating the rotating shaft of the roll; A work hardening device rotatably mounted on the upper portion of the roll, the work hardening device for hardening the coating thin film; An integral drying and curing device for drying and curing the coating film of the roll; And a conveying member for conveying the roll to the integral drying and curing apparatus.

A printing roll producing apparatus according to a third aspect of the present invention includes: a roll having a surface; A chuck on which both rotary shafts of the roll are rotatably mounted; A spray nozzle spaced apart from and parallel to the roll, for spraying a coating liquid on the surface to form a coating thin film; A moving member for moving the spray nozzle in a horizontal direction; A rotating member for rotating the rotating shaft of the roll; A work hardening device movably provided at an upper portion of the roll, the work hardening device hardening the coating thin film; A second moving member for moving the temporary hardening device; An integral drying and curing device for drying and curing the coating film of the roll; And a conveying member for conveying the roll to the integral drying and curing apparatus.

A method of manufacturing a printing roll according to a fourth aspect of the present invention comprises the steps of: a) forming a coating thin film by spraying a coating liquid on a surface of a roll using a spray nozzle while rotating a roll; b) hardening the coating film by using a heater member provided at a lower portion of the hardening device provided on the upper portion of the roll while keeping the roll in a continuously rotating state; c) transferring the roll into a unitary drying and curing apparatus using a transfer member; And d) sequentially performing a drying process and a curing process of the roll in the integral drying and curing apparatus.

A printing roll production coating method according to a fifth aspect of the present invention comprises the steps of: a) moving a temporary curing device on top of a roll; b) spraying a coating liquid onto the surface of the roll using a spray nozzle while rotating the roll to form a coating thin film; c) curing the coating film using a heater member provided at a lower portion of the hardening device while keeping the roll in a continuously rotating state; d) returning the temporary hardening device to its original position; e) transferring the roll into a unitary drying and curing apparatus using a transfer member; And f) sequentially performing a drying process and a curing process of the roll in the integral drying and curing apparatus.

INDUSTRIAL APPLICABILITY The following advantages are achieved by using the integrated drying and curing apparatus according to the present invention and the apparatus and method for manufacturing a printing roll having the same.

1. Drying and curing of the object can be done individually or sequentially in one chamber.

2. There is no need to transport the object between the drying process and the curing process, so that the object can be dried and cured quickly.

3. The overall size of the equipment can be reduced and the cost can be reduced.

4. Since the thin film coating is formed on the surface of the roll, the coating liquid is prevented from flowing on the roll surface before the roll is moved to the hardening device.

5. The thickness uniformity of the applied coating film on the surface of the roll is significantly improved.

6. The coating film is tentatively cured so that foreign matter is prevented from adhering to or into the coating film.

7. Since the coating film is tentatively cured, the possibility of scratching of the coating film is reduced.

8. The quality of the final product is greatly improved.

Further advantages of the present invention can be clearly understood from the following description with reference to the accompanying drawings, in which like or similar reference numerals denote like elements.

1A is a schematic view of a printing roll according to the prior art.
1B to 1E are views showing a method of forming a print pattern using a printing roll according to the related art.
1F is a view schematically showing a printing roll manufacturing apparatus according to an embodiment of the prior art.
2A is a perspective view of an integral drying and curing apparatus according to an embodiment of the present invention.
2B is a front view of the integral drying and curing apparatus according to one embodiment of the present invention.
2C is a side view of an integral drying and curing apparatus according to an embodiment of the present invention.
FIG. 2d is a view illustrating an ultraviolet lamp unit and a transparent heat insulating member of the integrated drying and curing apparatus according to an embodiment of the present invention.
3A to 3D are schematic views for explaining an apparatus and operation of a printing roll according to a first embodiment of the present invention.
3E to 3G are schematic views for explaining the apparatus and operation of the printing roll according to the second embodiment of the present invention.
4A is a diagram showing a flowchart of a printing roll manufacturing method according to the first embodiment of the present invention.
4B is a flowchart showing a method of manufacturing a printing roll according to a second embodiment of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described with reference to embodiments and drawings of the present invention.

FIG. 2A is a perspective view of an integral drying and curing apparatus according to an embodiment of the present invention, FIG. 2B is a front view of an integral drying and curing apparatus according to an embodiment of the present invention, FIG. And FIG. 2D is a view showing an ultraviolet lamp part and a transparent heat insulating member of the integrated drying and curing apparatus according to an embodiment of the present invention.

Referring to FIGS. 2A to 2D, an integrated drying and curing apparatus 260 according to an embodiment of the present invention includes a chamber 264 for providing a space for drying and curing an object 50; A chucking member (266) for rotatably mounting said object (50); A rotation driving member 268 connected to the rotation axis 51 of the object 50 outside the chamber 264 and rotating the rotation axis 51; A heater member 262 provided in the lower portion of the object 50 in the chamber 264 for drying the object 50; A curing member (262) provided on the top of the object (50) in the chamber (264) for curing the coating film applied to the surface of the object (50); A transparent heat insulating member 274 surrounding the outside of the curing member 272; And a door member 261 provided in front of the chamber 264. Here, the transparent heat insulating member 274 may be embodied as quartz, for example. Further, the coating thin film may be formed of various functional coating liquids including, for example, patterning resin, high viscosity or low viscosity coating liquid, resist and the like (hereinafter collectively referred to as "coating liquid").

Hereinafter, a specific construction and operation of the integral drying and curing apparatus according to one embodiment of the present invention will be described in detail.

Referring again to FIGS. 2A to 2D, in the integral drying and curing apparatus 260 according to the embodiment of the present invention, the door member 261 is first opened to transfer the object 50 into the chamber 264 The rotating shaft 51 of the object 50 is placed on the chucking member 266. [

Thereafter, while the object 50 is rotated using the rotation driving member 268 connected to the rotating shaft 51, the object 50 (more precisely, the coating applied to the surface of the object 50) Thin film) is dried. Here, the heater member 262 may be embodied as an infrared (IR) drying apparatus or a hot air drying apparatus, for example. At this time, during the drying process of the object 50 by the heater member 262, the heat generated by the heater member 262 is blocked by the transparent heat insulating member 274 so that the curing member 272 Is prevented.

The coating film applied to the surface of the object 50 is cured while the object 50 is continuously rotated by using the curing member 272 provided on the top of the object 50 in the chamber 264. [ Here, the curing member 272 may be embodied as an ultraviolet (UV) curing module having, for example, one or more ultraviolet (UV) lamps embedded therein.

The object 50 used in the integrated drying and curing apparatus 260 according to one embodiment of the present invention may be applied to the surface 52 of the coating film (for example, as shown in FIGS. 3A to 3G) 54 may be a formed roll 50 or a substrate 101 coated with a coating film 54 as shown in Figure 2B. It is preferable to use a gripper 53 connected to each of the rotation shafts 51 to fix both sides of the substrate 101 when the substrate 101 is used.

Further, it is preferable to keep the object 50 continuously rotated by the rotation driving member 268 in order to increase the drying efficiency and the curing efficiency while the drying process and the curing process of the object 50 are performed.

In the integrated drying and curing apparatus 260 according to the embodiment of the present invention, the drying process and the curing process of the object 50 are sequentially performed. However, those skilled in the art will understand that the drying of the object 50 It will be appreciated that only the process may be performed or only the curing process may be performed.

As described above, in the integrated drying and curing apparatus 200 of the present invention, since the drying member 262 and the curing member 272 are integrally formed, drying and curing of the object 50 are performed in one chamber 264, 2. It is not necessary to transfer the object 50 between the drying step and the hardening step, and the drying and curing of the object 50 can be performed quickly, and the size of the whole equipment can be miniaturized An advantage that the cost can be reduced is achieved.

3A to 3D are schematic views for explaining an apparatus and operation of a printing roll according to a first embodiment of the present invention.

Referring to FIGS. 3A to 3D, with reference to FIGS. 2A to 2D, a printing roll manufacturing apparatus 300 according to a first embodiment of the present invention includes a roll 50 having a surface 52; A chuck 355 rotatably mounted on both rotation shafts 51 of the roll 50; A spray nozzle 102 spaced apart from and parallel to the roll 50 and spraying a coating liquid onto the surface 52 to form a coating thin film 54; A moving member 104 for horizontally moving the spray nozzle 102; A rotating member (not shown) for rotating the rotating shaft 51 of the roll 50; A work hardening device (310) rotatably mounted on the upper side of the roll (50) and hardening the coating thin film (54); An integral drying and curing device (260) for drying and curing the coating film (54) of the roll (50); And a transfer member 350 for transferring the roll 50 to the integral drying and curing device 260. Here, the movable member 104 is realized, for example, by a conventional linear motor, the rotary member (not shown) is realized by a conventional rotary motor, and the conveying member 350 can be realized by a conventional crane or a robot arm have.

In addition, the integral drying and curing apparatus 260 may be embodied as an integral drying and curing apparatus 260 according to an embodiment of the present invention described in detail with reference to FIGS. 2A to 2D. More specifically, the integral drying and curing apparatus 260 according to an embodiment of the present invention includes a chamber 264 providing a space for drying and curing the roll 50; A chucking member (266) for rotatably mounting the roll (50); A rotation driving member 268 connected to the rotation axis 51 of the roll 50 outside the chamber 264 and rotating the rotation axis 51; A second heater member 262 provided at the bottom of the roll 50 in the chamber 264 for drying the roll 50; A curing member (262) provided on the top of the roll (50) in the chamber (264) for curing the coating film (54) of the roll (50); A transparent heat insulating member 274 surrounding the outside of the curing member 272; And a door member 261 provided in front of the chamber 264.

Hereinafter, the specific configuration and operation of the printing roll manufacturing apparatus according to the first embodiment of the present invention will be described in detail.

Referring again to Figs. 3a to 3d with Figs. 2a to 2d, the printing roll manufacturing apparatus 300 according to the first embodiment of the present invention includes a roll 50 having a surface 52. Fig. Both side rotary shafts 51 of the roll 50 are rotatably mounted on the chuck 355. [ A spray nozzle 102 is provided in front of the roll 50 so as to be spaced apart from the roll 50 in parallel.

Further, the rotary shaft 51 of the roll 50 can be rotated by a rotary member (not shown) while being fixed by the chuck 355. At this time, the spray nozzle 102 ejects the coating liquid onto the surface 52 of the rotating roll 50 while moving along the longitudinal direction (horizontal direction) of the roll 50 by the moving member 104, (54).

On the other hand, on the upper side of the roll 50, a temporary hardening device 310 is rotatably mounted. The tilting apparatus 310 includes a heater member 312 for hardening the coating film 54 formed on the surface 52 of the roll 50, a heater member 312 for rotating the heater member 312, 1 support member 322 and a second support member 323 that supports the first support member 322 movably in the horizontal direction. Here, the first support member 322 and the second support member 323 constitute the support member 320. [ The heater member 312 is rotatably mounted to the first support member 322 about the hinge member 324, for example, manually or by a separate rotation drive member (not shown) It is not. The heater element 312 may also be embodied as, for example, one or more ultraviolet (UV) lamps or infrared lamp (IR) lamps.

Further, an air supply member 330 may be provided at a lower portion of the second support member 323 to provide an air curtain or an air knife at a position opposite to the heater member 312, for example.

In the printing roll manufacturing apparatus 300 according to the first embodiment of the present invention as described above, both side rotation shafts 51 of the roll 50 are rotated by the rotating member (not shown) The coating liquid sprayed by the coating liquid forms a coating film 54 on the surface 52 of the roll 50.

Immediately after the coating film 54 is formed on the surface 52 of the roll 50, the roll 50 is kept in a constantly rotating state while the heater member < RTI ID = 0.0 > 312 reduces the thickness of the coating film 54. At this time, the heater member 312 maintains the orientation in which the heat generating surface 312a is oriented toward the center of the roll 50, either manually or by a separate rotation drive member (not shown). An air curtain or an air knife is formed by the air supply member 330 provided under the second support member 322 of the temporary curing device 310 so that the coating liquid sprayed from the spray nozzle 102 is supplied to the roll 50 (The counterclockwise direction as shown in Fig. 3B) of the roll 50 and the heater member 312 can be prevented from penetrating.

In addition, after the hardening of the coating film 54 by the heater member 312 is finished, the heater member 312 does not need to be used any longer, so that the hinge member 324 is rotated around the hinge member 324 And is turned counterclockwise to orient the heat generating surface 312a shown in FIG. 3B upward. The upward orientation of the heat generating surface 312a of the heater member 312 may be achieved by mounting the rotary shaft 51 of the roll 50 on the chuck 355 using a conveying member 350 such as a crane or a robot arm, The space for avoiding the interference between the heater member 312 and the roll 50 is secured when the roll 50 is transferred to the integral drying and curing apparatus 260 after the temporary hardening is completed and also when the heater member 312 is not used Foreign matter such as dust can be prevented from accumulating.

On the other hand, the first support member 322 rotatably mounted on the heater member 312 can move along the second support member 323 in the horizontal direction (i.e., the direction perpendicular to the longitudinal direction of the roll 50) (See Fig. 3d). This is for facilitating the rotation space in the upward direction of the heat generating surface 312a of the heater member 312. [ The air supply member 330 can also move in the horizontal direction (that is, in the direction perpendicular to the longitudinal direction of the roll 50) along the second support member 323 (see FIG. 3D). This is for adjusting the forming position of the air curtain or the air knife according to the diameter size of the roll 50. [ The horizontal movement of the first support member 322 and the air supply member 330 along the second support member 323 can be performed, for example, by a conventional LM guide and a linear motor.

Thereafter, the rotary shaft 51 of the roll 50 is released from the chuck 355, and then transferred into the integral drying and curing apparatus 260 by using the transferring member 350. In the integral drying and curing device 260, a drying process and a curing process are sequentially performed on the thinned coating film 54 formed on the surface 52 of the roll 50. The drying process and the curing process of the roll 50 (more precisely the recycled coating film 54 on the surface 52 of the roll 50) in this integrated drying and curing device 260 are the same as the drying process shown in Figs. 2d, detailed description thereof will be omitted.

When the drying process and the curing process of the thinned coating film 54 of the roll 50 by the integral drying and curing device 260 as described above are completed, the printing roll 50 with the coating film 54 is heated, Is completed. Thereafter, the printing roll 50 is subjected to a printing pattern formation method using a printing roll according to a conventional technique as described with reference to Figs. 1A to 1E to form a mask pattern (not shown) on the coating film 54 instead of the blanket 55 105P2 may be formed.

3E to 3G are schematic views for explaining the apparatus and operation of the printing roll according to the second embodiment of the present invention.

Referring to FIGS. 3E to 3G together with FIGS. 2A to 2D, a printing roll manufacturing apparatus 300 according to a second embodiment of the present invention includes a roll 50 having a surface 52; A chuck 355 rotatably mounted on both rotation shafts 51 of the roll 50; A spray nozzle 102 spaced apart from and parallel to the roll 50 and spraying a coating liquid onto the surface 52 to form a coating thin film 54; A moving member 104 for horizontally moving the spray nozzle 102; A rotating member (not shown) for rotating the rotating shaft 51 of the roll 50; A hardening device (310) movably provided at an upper portion of the roll (50) and hardening the coating film (54); A second shifting member (340) for moving the temporary hardening device (310); An integral drying and curing device (260) for drying and curing the coating film (54) of the roll (50); And a transfer member 350 for transferring the roll 50 to the integral drying and curing device 260. Here, the movable member 104 is implemented by, for example, a conventional linear motor, and the second movable member 340 is implemented by, for example, a conventional linear motor, a robot arm, ) Is realized by a conventional rotary motor, and the conveying member 350 can be realized by a conventional crane or a robot arm.

In addition, the integral drying and curing apparatus 260 may be embodied as an integral drying and curing apparatus 260 according to an embodiment of the present invention described in detail with reference to FIGS. 2A to 2D. More specifically, the integral drying and curing apparatus 260 according to an embodiment of the present invention includes a chamber 264 providing a space for drying and curing the roll 50; A chucking member (266) for rotatably mounting the roll (50); A rotation driving member 268 connected to the rotation axis 51 of the roll 50 outside the chamber 264 and rotating the rotation axis 51; A second heater member 262 provided at the bottom of the roll 50 in the chamber 264 for drying the roll 50; A curing member (262) provided on the top of the roll (50) in the chamber (264) for curing the coating film (54) of the roll (50); A transparent heat insulating member 274 surrounding the outside of the curing member 272; And a door member 261 provided in front of the chamber 264.

Hereinafter, the specific configuration and operation of the printing roll manufacturing apparatus according to the second embodiment of the present invention will be described in detail.

Referring again to Figs. 3E to 3G, with reference to Figs. 2A to 2D, a printing roll manufacturing apparatus 300 according to a second embodiment of the present invention includes a roll 50 having a surface 52. Fig. Both side rotary shafts 51 of the roll 50 are rotatably mounted on the chuck 355. [ A spray nozzle 102 is provided in front of the roll 50 so as to be spaced apart from the roll 50 in parallel.

Further, the rotary shaft 51 of the roll 50 can be rotated by a rotary member (not shown) while being fixed by the chuck 355. At this time, the spray nozzle 102 ejects the coating liquid onto the surface 52 of the rotating roll 50 while moving along the longitudinal direction (horizontal direction) of the roll 50 by the moving member 104, (54).

On the other hand, on the top of the roll 50, a temporary hardening device 310 is movably provided. This temporary hardening device 310 includes a heater member 312 for hardening the coating film 54 formed on the surface 52 of the roll 50 and a heater member 312 for heating the heater member 312 to be rotatably mounted And a supporting device 320. The heater element 312 can be pivotably mounted to the support device 320 about the hinge member 324, for example, manually or by a separate rotational drive member (not shown). The heater element 312 may also be embodied as, for example, one or more ultraviolet (UV) lamps or infrared lamp (IR) lamps.

Further, an air supply member (not shown) for providing an air curtain or an air knife, for example, in a non-interference position with the heater member 312 may be further provided at the lower portion of the support device 320. The air supply member (not shown) according to this second embodiment can be implemented substantially the same as the air supply member 330 according to the first embodiment shown in Figs. 3A to 3D.

In the printing roll manufacturing apparatus 300 according to the second embodiment of the present invention as described above, the temporary curling apparatus 310 is transferred to the upper portion of the roll 50 by the second moving member 340 first.

Thereafter, a coating solution jetted by the spray nozzle 102 while the both side rotational shafts 51 of the roll 50 are rotated by a rotating member (not shown) is applied onto the surface 52 of the roll 50, ). Immediately after the above-described coating film 54 is formed on the surface 52 of the roll 50, the heater member 312 hardens the coating film 54 while the roll 50 keeps rotating. At this time, the heater member 312 maintains the orientation in which the heat generating surface 312a is oriented toward the center of the roll 50 manually or by a separate rotation drive member (not shown) (see FIG. 3F) ).

An air curtain or an air knife is formed by an air supply member (not shown) provided at a lower portion of the supporting device 320 constituting the temporary curing device 310 so that the coating liquid sprayed from the spray nozzle 102 is supplied to the roll (The counterclockwise direction as shown in FIG. 3F) of the rollers 50 and the heater member 312 can be prevented from penetrating into the rear surface of the roll 50 and the heater member 312.

Further, after the temporary thinning of the coating film 54 by the heater member 312 is finished, the heater member 312 does not need to be used any more, so that the second moving member 340 Return to the original position. At this time, the heater member 312 is rotated about the hinge member 324 so that the heat generating surface 312a is oriented upward. The upward orientation of the heat generating surface 312a can prevent foreign matter such as dust from accumulating when the heater member 312 is not used.

The use of the moving hardening device 310 described above allows the rotary shaft 51 of the roll 50 to be mounted on the chuck 355 by using a conveying member 350 such as a crane or a robot arm, The space for avoiding the interference between the temporary hardening device 310 and the roll 50 is secured when the roll 50 is transferred to the integral drying and curing device 260 after the drying is completed.

On the other hand, the air supply member (not shown) can move in the horizontal direction (i.e., the direction perpendicular to the longitudinal direction of the roll 50) along the support device 320 in the manner shown and described in Fig. 3D. This is for adjusting the forming position of the air curtain or the air knife according to the diameter size of the roll 50. [

Thereafter, the rotary shaft 51 of the roll 50 is released from the chuck 355, and then transferred into the integral drying and curing apparatus 260 by using the transferring member 350. In the integral drying and curing device 260, a drying process and a curing process are sequentially performed on the thinned coating film 54 formed on the surface 52 of the roll 50. The drying process and the curing process of the roll 50 (more precisely the recycled coating film 54 on the surface 52 of the roll 50) in this integrated drying and curing device 260 are the same as the drying process shown in Figs. 2d, detailed description thereof will be omitted.

When the drying process and the curing process of the thinned coating film 54 of the roll 50 by the integral drying and curing device 260 as described above are completed, the printing roll 50 with the coating film 54 is heated, Is completed. Thereafter, the printing roll 50 is subjected to a printing pattern formation method using a printing roll according to a conventional technique as described with reference to Figs. 1A to 1E to form a mask pattern (not shown) on the coating film 54 instead of the blanket 55 105P2 may be formed.

As described above, since the printing roll manufacturing apparatus 300 according to the first and second embodiments of the present invention is used after the thin film coating 54 is formed on the surface 52 of the roll 50, The applied coating liquid is prevented from flowing on the roll surface before the roll 50 is moved to the hardening device. The thickness uniformity of the applied coating film 54 on the surface 52 of the roll 50 is thereby significantly improved.

In addition, in the printing roll manufacturing apparatus 300 according to the first and second embodiments of the present invention, since the coating thin film 54 is toughened, it is prevented that foreign matter is adhered or introduced into the coating thin film 54 , The possibility of scratching of the coating film 54 is reduced. As a result, the quality of the final product is greatly improved.

In the printing roll manufacturing apparatus 300 according to the first and second embodiments of the present invention, since the drying process and the curing process of the roll 50 are performed in the integral drying and curing apparatus 260, The effects of the use of the integral drying and curing device 260 as described with reference to Figs. 2d and 2d can also be achieved at the same time.

4A is a diagram showing a flowchart of a printing roll manufacturing method according to the first embodiment of the present invention.

Referring to FIG. 4A, with reference to FIGS. 2A through 2D and FIGS. 3A through 3D, a method 400 of manufacturing a printing roll according to a first embodiment of the present invention includes the steps of: a) Forming a coating thin film (54) by spraying a coating solution onto a surface (52) of the roll (50) by using the coating solution (410); b) Using the heater member 312 provided in the lower portion of the hardening device 310 provided on the upper side of the roll 50 while keeping the roll 50 in a rotating state, (420); c) transferring (430) the roll (50) into the integral drying and curing apparatus (260) using the transferring member (350); And d) performing a drying process and a curing process of the roll 50 in sequence in the integrated drying and curing apparatus 260 (step 440).

The method of manufacturing a printing roll 400 according to the first embodiment of the present invention is characterized in that the step a) includes the steps of a1) a step of spraying the spray nozzle 102 using an air supply member 330 provided in the temporary hardening device 310, Forming the air curtain or the air knife to prevent the coating liquid injected from the heater member (312) from penetrating into the rear surface of the roll (50) and the heater member (312).

4B is a flowchart showing a method of manufacturing a printing roll according to a second embodiment of the present invention.

Referring to FIG. 4B, with reference to FIGS. 3E to 3G, a method 400 of manufacturing a printing roll according to a second embodiment of the present invention includes the steps of: a) moving a temporary hardening device 310 on a roll 50 410); b) forming a coating thin film (54) by spraying a coating solution onto a surface (52) of the roll (50) using a spray nozzle (102) while rotating the roll (50); c) hardening (430) the coating film (54) using a heater member (312) provided below the hardening device (310) while keeping the roll (50) constantly rotated; d) returning (440) the temporary hardening device (310) to its original position; e) transferring (450) the roll (50) into the integral drying and curing apparatus (260) using the transferring member (350); And f) performing the drying and curing processes of the rolls 50 in sequence in the integrated drying and curing apparatus 260 (step 450).

The method of manufacturing a printing roll 400 according to the second embodiment of the present invention is characterized in that the step a) includes the steps of a1) a step of moving the spray nozzle 102 using the air supply member 330 provided in the temporary hardening device 310, Forming the air curtain or the air knife to prevent the coating liquid injected from the heater member (312) from penetrating into the rear surface of the roll (50) and the heater member (312).

Various modifications may be made by those skilled in the art without departing from the spirit and scope of the invention as defined by the following claims. It is not. Accordingly, the scope of the present invention should not be limited by the above-described exemplary embodiments, but should be determined only in accordance with the following claims and their equivalents.

50: printing roll / roll 50a: outer peripheral surface 51: rotating shaft 52: surface
52a: coating start portion 52b: coating end portion 54: coating thin film 55: blanket
55P: print pattern 57: light source 58: light irradiation device 59:
100, 200: printing roll manufacturing apparatus 101: substrate 102: spray nozzle
103: etching target layer 104,214: moving member 105: mask film
105P1: spare mask film pattern 106: rotating member 108: coating liquid
160: drying apparatus 170: hardening apparatus 260: integral drying and curing apparatus
261: door member 262: heater member / second heater member 264: chamber
266: chucking member 268: rotation drive member 272; Curing member
274: transparent heat insulating member 310: temporary hardening device 312: heater member
312a: heat generating surface 320: support member 322: first support member
323: second support member 324: hinge member 330: air supply member
340: second moving member 355: chuck

Claims (17)

In an integral drying and curing apparatus,
A chamber for providing space for drying and curing the object;
A chucking member for rotatably mounting the object;
A rotation driving member connected to a rotation axis of the object outside the chamber and rotating the rotation axis;
A heater member provided at a lower portion of the object in the chamber, for drying the object;
A curing member provided on the top of the object in the chamber for curing the coating film applied to the surface of the object;
A transparent heat insulating member surrounding the outside of the curing member; And
A door member provided in front of the chamber,
The drying and curing apparatus comprising: The method according to claim 1,
Wherein the transparent heat insulating member is implemented as quarts. The method according to claim 1,
Wherein the object is a substrate coated with a roll or a coating film having a coating film formed on a surface thereof. The method according to claim 1,
Wherein the integral drying and curing apparatus further comprises a gripper connected to the rotating shaft for fixing both sides of the substrate when the object is the substrate coated with the coating thin film. 5. The method according to any one of claims 1 to 4,
The heater element is implemented as an infrared (IR) drying device or a hot air drying device,
The curing member is embodied as an ultraviolet (UV) curing module with one or more ultraviolet (UV) lamps embedded therein
Integrated drying and curing device. In a printing roll production apparatus,
A roll having a surface;
A chuck on which both rotary shafts of the roll are rotatably mounted;
A spray nozzle spaced apart from and parallel to the roll, for spraying a coating liquid on the surface to form a coating thin film;
A moving member for moving the spray nozzle in a horizontal direction;
A rotating member for rotating the rotating shaft of the roll;
A work hardening device rotatably mounted on the upper portion of the roll, the work hardening device for hardening the coating thin film;
An integral drying and curing device for drying and curing the coating film of the roll; And
A conveying member for conveying the roll to the integral drying and curing apparatus,
And a plurality of rollers. The method according to claim 6,
Wherein the temporary hardening device comprises: a heater member for hardening the coating thin film; A first support member to which the heater member is rotatably mounted; And a second support member, the first support member being movably supported in a horizontal direction,
Said integral drying and curing apparatus comprising: a chamber for providing a space for drying and curing said roll; A chucking member for rotatably mounting the roll; A rotation drive member connected to the rotation shaft of the roll outside the chamber and rotating the rotation shaft; A second heater member provided in the chamber at a lower portion of the roll, for drying the roll; A curing member provided on the top of the roll in the chamber, for curing the coating film of the roll; A transparent heat insulating member surrounding the outside of the curing member; And a door member provided in front of the chamber
A printing roll manufacturing apparatus. 8. The method of claim 7,
Wherein the heater member is rotatably mounted to the first support member about the hinge member by a manual or separate rotation drive member. 9. The method according to any one of claims 6 to 8,
And an air supply member for providing an air curtain or an air knife at a position opposite to the heater member is further provided at a lower portion of the second support member. In a printing roll production apparatus,
A roll having a surface;
A chuck on which both rotary shafts of the roll are rotatably mounted;
A spray nozzle spaced apart from and parallel to the roll, for spraying a coating liquid on the surface to form a coating thin film;
A moving member for moving the spray nozzle in a horizontal direction;
A rotating member for rotating the rotating shaft of the roll;
A work hardening device movably provided at an upper portion of the roll, the work hardening device hardening the coating thin film;
A second moving member for moving the temporary hardening device;
An integral drying and curing device for drying and curing the coating film of the roll; And
A conveying member for conveying the roll to the integral drying and curing apparatus,
And a plurality of rollers. 11. The method of claim 10,
Wherein the temporary hardening device comprises: a heater member for hardening the coating thin film; And a supporting device to which the heater member is rotatably mounted,
Said integral drying and curing apparatus comprising: a chamber for providing a space for drying and curing said roll; A chucking member for rotatably mounting the roll; A rotation drive member connected to the rotation shaft of the roll outside the chamber and rotating the rotation shaft; A second heater member provided in the chamber at a lower portion of the roll, for drying the roll; A curing member provided on the top of the roll in the chamber, for curing the coating film of the roll; A transparent heat insulating member surrounding the outside of the curing member; And a door member provided in front of the chamber
A printing roll manufacturing apparatus. 12. The method of claim 11,
Wherein the heater member is rotatably mounted to the support device about the hinge member by a manual or separate rotation drive member. 13. The method according to any one of claims 10 to 12,
Wherein an air supply member for providing an air curtain or an air knife at a non-interference position with the heater member is further provided at a lower portion of the supporting device. A method of producing a printing roll,
a) forming a coating thin film by spraying a coating liquid onto the surface of the roll using a spray nozzle while rotating the roll;
b) hardening the coating film by using a heater member provided at a lower portion of the hardening device provided on the upper portion of the roll while keeping the roll in a continuously rotating state;
c) transferring the roll into a unitary drying and curing apparatus using a transfer member; And
d) sequentially performing the drying step and the curing step of the roll in the integral drying and curing apparatus
Wherein the method comprises the steps of: 15. The method of claim 14,
Wherein the step a) comprises the steps of: a1) forming an air curtain or an air knife to prevent the coating liquid injected from the spray nozzle from penetrating into the rear surface of the roll and the heater member using the air supply member provided in the hardening device ≪ / RTI > further comprising the step of spraying the roll surface. A method of producing a printing roll,
a) moving the temporary curing device to the top of the roll;
b) spraying a coating liquid onto the surface of the roll using a spray nozzle while rotating the roll to form a coating thin film;
c) curing the coating film using a heater member provided at a lower portion of the hardening device while keeping the roll in a continuously rotating state;
d) returning the temporary hardening device to its original position;
e) transferring the roll into a unitary drying and curing apparatus using a transfer member; And
f) sequentially performing the drying step and the curing step of the roll in the integral drying and curing apparatus
Wherein the method comprises the steps of: 17. The method of claim 16,
Wherein the step a) comprises the steps of: a1) forming an air curtain or an air knife to prevent the coating liquid injected from the spray nozzle from penetrating into the rear surface of the roll and the heater member using the air supply member provided in the hardening device ≪ / RTI > further comprising the step of spraying the roll surface.

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