KR101105468B1 - Printing roll for roll printing apparatus - Google Patents

Abstract

The present invention provides a printing roll for a printing apparatus for a roll printing apparatus, which is used when a pattern is to be formed using a roll printing apparatus, and has a form in which a cross-sectional area decreases from a central region to both end regions. do.

Printing rolls for roll printing device

Description

Printing roll for roll printing device {PRINTING ROLL FOR ROLL PRINTING APPARATUS}

The present invention relates to a printing roll for a roll printing apparatus used when a pattern is to be formed by a roll printing method.

Generally, semiconductor circuit elements; Micro-patterns used in display devices such as liquid crystal displays (LCDs) and plasma display panels (PDPs) are formed by photolithography using photoresist, and are generally coated, exposed, developed, cleaned, And a step of curing.

Photolithography has the advantage of obtaining precisely the desired pattern, but it has to go through many steps and uses many kinds of materials in order to maximize the effect of photoresist. Has the disadvantage of being consumed.

Recently, in order to solve the problems of the photolithography method, a technique for obtaining a fine pattern by a roll printing method has been proposed and researched.

The roll printing apparatus for pattern formation is applicable to a variety of offset printing, inverted offset printing, and roll-to-roll printing methods, and R (Red) and G, which are components of the color filter. In addition to (Green), B (Blue) color patterns and BM (Black Matrix) patterns, the present invention can be widely applied to TFT (Thin Film Transistor) and PDP electrode formation patterns and pattern transfer of partition material.

The roll printing device is basically composed of a coater, a cylindrical printing roll, a printing roll driving device, a drive device for a cliché or a substrate stage and a stage alignment, in addition to a solvent absorbed by the cliché and / or pipe cleaning device and blanket. It may further include a drying device, and various sensor devices for drying the blanket to absorb the.

The precision and pattern transfer efficiency of the pattern formed by the roll printing method may be determined by coating state from the coater to the printing roll or the blanket wound on the printing roll, the degree of volatilization and waiting time of the solvent after the coating is transferred to the cliché or the substrate, and It may depend on process conditions, such as phosphorous pressure formed by the space | interval between a stage and a printing roll or a blanket during transfer.

In particular, when coating with a printing roll or a blanket wound on the printing roll, which is the first step of the roll printing process, not only the uniformity of the entire pattern but also various types of stains are determined depending on the coating state.

The type, pumping pressure, and speed of the pump mounted on the coater to control this; Control of the viscosity and rheological and surface properties of the coating; And it can be improved to some extent by adjusting the distance between the coater nozzle and the surface of the printing roll or blanket.

However, in order to improve the uniformity of the entire pattern and to prevent the formation of various types of stains, the vibration generated by the driving motor for driving the printing roll, the vibration of the printing roll generated when the printing roll is rotated, And it is important to solve the problem of uniformity of the printing roll surface.

In addition, when the blanket is mounted on the printing roll, the rotation of the printing roll may not be smoothly performed due to the imbalance of the center of gravity due to the weight difference in the blanket holder portion, and thus the pattern uniformity is lowered. Various types of stains can be formed.

In addition, in the case of using a printing roll of a large size due to the enlargement of the roll printing apparatus, warpage of the printing roll may occur due to the weight of the printing roll itself, which is coated with a blanket of the printing roll from the coater or the coater from the coater. When coating water, the coating is not uniformly coated on the printing roll or the blanket of the printing roll, so that the pattern uniformity is lowered and various types of stains may be formed.

Accordingly, the present invention is a printing roll for a roll printing apparatus used when a pattern is to be formed using a roll printing apparatus, the vibration generated by a drive motor for driving the printing roll, and the rotation of the printing roll. An object of the present invention is to provide a printing roll for a roll printing apparatus which can minimize vibration of the printing roll itself and maintain the surface of the printing roll uniformly.

In addition, by adjusting the center of gravity to the printing roll for the roll printing device to enable the printing roll to rotate smoothly, providing a printing roll for the printing device for the roll printing device that can minimize the rotational vibration due to the imbalance of the center of gravity during the rotation of the printing roll For the purpose of

In addition, an object of the present invention is to provide a printing roll for a roll printing apparatus capable of solving the warpage problem caused by the weight of the printing roll itself by reducing the weight of the printing roll for a roll printing apparatus as much as possible.

The present invention provides a printing roll for a printing apparatus for a roll printing apparatus, the cross-sectional area of which decreases from the central region to both end regions.

According to the present invention, a printing roll for a roll printing apparatus capable of minimizing vibration generated in a driving motor for driving a printing roll and vibration of the printing roll itself generated when the printing roll is rotated, and maintaining the surface of the printing roll uniformly. This is provided.

In addition, when the center of gravity is mounted on the printing roll, the center of gravity of the printing roll is well fitted, so that the printing roll can be rotated smoothly, thereby minimizing the rotational vibration due to the imbalance of the center of gravity during the rotation of the printing roll. A printing roll for a roll printing apparatus is provided.

In addition, when forming a through-hole in the printing roll to lighten the printing roll, there is provided a printing roll for a roll printing apparatus that can solve the bending problem by the weight of the printing roll itself.

The printing roll for a roll printing apparatus according to the present invention is characterized in that it has a form in which the cross-sectional area decreases from the central region to both end regions.

The printing roll for a roll printing apparatus according to the present invention may be made of stainless steel for precision machining, the surface of which is electrolytic polished.

For example, a printing roll may be manufactured using SUS304 stainless steel, SUS305 stainless steel, or SUS316 stainless steel surface electropolished. When the surface of the stainless steel is surface treated with a metal element such as nickel, corrosion and oxidation of the stainless steel can be prevented.

Here, the printing roll for a roll printing apparatus according to the present invention, a cylindrical printing portion corresponding to the center area and having a circular cross section; And a pair of non-printing portions corresponding to both end regions and positioned on both sides of the printing portion with respect to the printing portion. And, in order to rotate the printing roll for the roll printing apparatus, it may further include a printing roll rotation axis located at each end of the pair of non-printing portion.

The printing portion may have a hollow cylindrical shape having a circular cross section, or may have a form filled inside.

The pair of non-printing portions have a form in which the cross-sectional area decreases toward each end of the printing portion.

The pair of non-printing portions may have a funnel cross-sectional shape, respectively, such that the cross-sectional area decreases toward both ends from both sides of the printing portion with respect to the printing portion (see FIG. 1).

Each of the pair of non-printing portions may have an inclined surface that is inclined at an inclination angle of 60 degrees or more and less than 90 degrees based on the plate surface of the printing portion.

In the case of the non-printed portion having the funnel cross-sectional shape, the inclination angle of the inclined plane of the non-printed portion, that is, the bending angle of the funnel cross-section, should be the value at which the torque, which is the physical momentum, is maximized. same.

[Equation 1]

τ (torque) = r (radius of printing roll) × F (force of rolling roll, horsepower) × sinθ (cutting angle)

Accordingly, according to Equation 1, the cutting angle of the funnel cross-sectional shape is preferably 60 or more and less than 90 degrees, the maximum torque.

Thus, unlike the conventional printing roll having a cylindrical shape, the longitudinal area of the center region and the end area of both end regions are the same, in the case of the printing roll for a roll printing apparatus according to the present invention, the vibration generated in the driving motor for driving the printing roll And, it is possible to minimize the vibration of the printing roll itself generated during the rotation of the printing roll, it is possible to maintain a uniform surface of the printing roll.

On the other hand, in the printing roll for a roll printing apparatus according to the present invention, In order to reduce the own weight of the printing roll for a roll printing apparatus, a plurality of through holes can be formed.

The plurality of through holes may be formed to pass through each plate surface of the pair of non-printing portions corresponding to both end regions of the printing roll for a roll printing apparatus according to the present invention.

As such, when making the plurality of through holes in the printing roll for a roll printing apparatus according to the present invention to make the weight as light as possible, the bending problem due to the weight of the printing roll itself can be solved. In this way, as the coating is uniformly coated on the printing roll or the blanket of the printing roll, pattern uniformity can be improved and stains can be prevented from being formed.

The plurality of through holes may each have an elliptical cross-sectional shape. The through hole may be formed such that the long horizontal diameter of the through hole having the elliptical cross-sectional shape is located along the length direction of the printing roll for a roll printing apparatus. This can solve the bending problem by the weight of the printing roll itself.

Here, the number, size, and shape of the through holes are not limited thereto, and may be variously implemented within a range in which the shape of the printing roll for a roll printing apparatus is not deformed and a vibration of the printing roll does not occur.

The printing roll for a roll printing apparatus according to the present invention may further include a center of gravity which is installed in the printing unit corresponding to the center area and adjusts the center of gravity of the printing roll for the roll printing apparatus. This can minimize the rotational vibration due to the imbalance of the center of gravity during the rotation of the printing roll.

Here, the center of gravity may be installed in the upper portion of the printing portion of the printing roll for the roll printing apparatus.

The weight of the center of gravity is determined in a range in which the center of gravity is not oriented in any particular direction when the printing roll for the roll printing apparatus is rotated.

A blanket fixing holder for fixing a blanket wound on an outer surface of the central region may be installed in an area where the center of gravity is installed among the printing units corresponding to the central region.

The blanket fixing holder may be provided in pairs and spaced apart from each other. A straight line connected from the position of one of the pair of blanket fixing holders to a circle center of the cylindrical printing unit having a circular cross section and a straight line connecting from the position of the other blanket fixing holder to the circle center of the cylindrical printing unit It is preferable that this angle is more than 0 and 60 degrees or less.

After the blanket fixing holder is installed and the center of gravity weight is installed thereon, as the blanket fixing holder is covered by the center of gravity, the blanket fixing holder may not be visible from the outside. It becomes possible.

A blanket tightening part for tensioning a blanket wound on an outer surface of the center area and a blanket tightening for adjusting a tension state of the blanket in an area where the center of gravity is installed among the printing parts corresponding to the center area. The adjuster can be installed.

The blanket fasteners may be provided in pairs and spaced apart from each other.

The blanket tightening control unit may be a threaded adjustment bolt installed in the blanket tightening unit.

When the blanket tightening unit and the blanket tightening adjusting unit are installed, and then the weight center weight is installed thereon, the blanket tightening unit and the blanket tightening adjusting unit are covered by the weight center weight. The blanket tightening unit and the blanket tightening control unit may be invisible from the outside.

As such, the blanket fixing holder, the blanket tightening unit, and the blanket tightening adjusting unit are installed so that the blanket is wound on the surface of the printing roll for a roll printing apparatus according to the present invention. It can be fixed firmly.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figures 1 to 3, the printing roll for a roll printing apparatus according to the present invention, the printing roll body (1); And a center of gravity weight 4 coupled to the central upper region of the printing roll body 1.

The printing roll main body 1 includes the cylindrical printing part 1a; A pair of non-printing portions 1b disposed on both sides of the printing portion 1a, each having a funnel cross-sectional shape; And a pair of printing roll rotating shafts 2 for rotating the printing roll body 1.

In each non-printing portion 1b, a plurality of through holes 3 having an elliptical cross-sectional shape are formed.

3 and 4, in the upper region of the printing portion 1a of the printing roll main body 1, that is, the region where the center of gravity weight 4 is installed, the outer surface of the printing roll main body 1 A pair of blanket fixing holders 5 for holding the blanket 8 wound; A pair of blanket fasteners 6a, 6b for tensioning the blanket 8; And a plurality of blanket tightening adjustment portions 7 for adjusting the tension of the blanket 8.

After the blanket 8 is wound around the surface of the printing unit 1a of the printing roll body 1, a pair of blanket fixing holders 5 are used for two end regions of the four end regions of the blanket 8. To fix it. Since the remaining two end regions of the blanket 8 are bitten by a pair of blanket fasteners 6a and 6b, the blanket 8 is brought into close contact with the printing portion 1a of the printing roll body 1 with a certain tension. You can do it. And, the tension of the blanket 8 can be adjusted using the blanket tightening control unit (7).

As described above, in the case of forming a fine pattern using the printing roll body 1 having a form in which the cross-sectional area becomes smaller from the center region to both end regions, vibration generated from the driving motor for driving the printing roll, and the printing roll. The vibration of the printing roll itself generated when the rotation of the can be minimized, and the surface of the printing roll can be kept uniform.

On the other hand, the coating uniformity of the coating of the coating coated on the printing roll body 1 according to the present invention, and the coating uniformity of the conventional printing roll of the cylindrical shape having the same longitudinal cross-sectional area of the central region and the end region of both ends, Figure 5 and It can be confirmed through the measurement result of FIG.

5 and 6 shows that after the photoresist is coated on the printing roll body 1 and the cylindrical conventional printing roll using a slit nozzle, the photoresist of each printing roll is shown. 370 × 470 mm ² What was obtained by transferring each of the planar glasses to was measured at an interval of 10 mm using an optical thickness meter. Here, the degree of coating uniformity of the photoresist coated on the printing roll is affected by the vibration of the printing roll, and the degree of coating uniformity of the photoresist coated on the printing roll is transferred when the photoresist of the printing roll is transferred to the flat glass. It will appear on the flat glass.

5 shows the measurement result of the printing roll body 1 according to the present invention and FIG. 6 shows the measurement result of the conventional cylindrical printing roll. It can be seen that the thickness variation is small. Here, the thickness deviation is calculated by calculating a percentage of each thickness measured on the basis of the average thickness of the photoresist film transferred to the 370 × 470 mm ² flat glass, and then measured all measured points. It is calculated in this way and averaged.

As can be seen in Figure 5 in the case of the printing roll main body 1 according to the present invention is 1.55%, the deviation of the average thickness is about 1.02% less than 2.57% of Figure 6 corresponding to the measurement results of the conventional printing roll Thus, it can be seen that the coating uniformity of the printing roll body 1 according to the present invention is better.

As such, as the coating uniformity of the printing roll main body 1 according to the present invention is excellent, when using the printing roll main body 1 according to the present invention, it is possible to form a clean fine pattern without spots.

Further, according to the present invention, when the center of gravity weight 4 is attached to the printing portion 1a of the printing roll body 1, the center of gravity of the printing roll body 1 is well fitted, and the printing roll body 1 As can be smoothly rotated, it is possible to minimize the rotational vibration due to the imbalance of the center of gravity during the rotation of the printing roll body (1). This makes it possible to form a clean and fine pattern without stains.

According to the present invention, when the plurality of through holes 3 are formed in the non-printing portion 1b of the printing roll body 1 to reduce the weight of the printing roll body 1, The problem of bending by weight can be solved. This makes it possible to form a clean and fine pattern without stains.

1 is a plan view of a printing roll for a roll printing apparatus according to the present invention,

2 is a side view and a cross-sectional view of a printing roll for a roll printing apparatus according to the present invention;

Figure 3 is an exploded view and cross-sectional view of the printing roll body and the center of gravity for the roll printing apparatus according to the present invention,

4 is an exploded perspective view of the blanket, the blanket tightening unit, and the blanket tightening control unit of FIG. 3;

5 is a result of measuring the thickness at 10mm intervals using an optical thickness meter after transferring the photoresist to the flat glass using a roll for printing a roll printing apparatus according to the present invention,

6 is a result of measuring the thickness at 10 mm intervals using an optical thickness meter after transferring the photoresist to the flat glass using a cylindrical conventional printing roll.

* Description of the symbols for the main parts of the drawings *

1: printing roll body

1a: printing part

1b: non-printing part

2: printing roll rotation axis

3: through hole

4: center of gravity

5: Blanket Fixed Holder

6a, 6b: blanket fastener

7: blanket tightening control unit

8: blanket

Claims (10)

A printing roll for a roll printing apparatus, the cross-sectional area of which decreases from a central region to both end regions, the cross-sectional area is reduced, and a plurality of through holes are formed in the both end regions. The method of claim 1, wherein the central region is a cylindrical printing portion having a circular cross section, the both end regions are a pair of non-printing portions located on both sides of the printing portion relative to the printing portion, And the pair of non-printing portions has a form in which the cross-sectional area decreases toward each end in the printing portion. The printing roll for a roll printing apparatus according to claim 2, wherein the pair of non-printing portions each have a funnel cross-sectional shape. The printing roll for a roll printing apparatus according to claim 2, wherein the pair of non-printing portions each have an inclined surface inclined at an inclination angle of 60 degrees or more and less than 90 degrees with respect to the plate surface of the printing portion. The printing roll for a roll printing apparatus according to claim 2, wherein the pair of non-printing portions include a printing roll rotating shaft positioned at each end thereof. delete The printing roll of claim 1, wherein each of the plurality of through holes has an elliptical cross-sectional shape. The printing roll for printing apparatus according to claim 1, further comprising a center of gravity installed in the central region. The blanket mounting holder for fixing the blanket wound on the outer surface of the central region is installed in the region where the center of gravity is installed in the central region, The blanket fixing holder is printing roll for printing device, characterized in that the cover by the center of gravity. The method of claim 8, wherein the center of gravity center of the center region is installed, the blanket tightening portion for tensioning the blanket wound on the outer surface of the central region and the blanket tightening control for adjusting the tension of the blanket Additional parts are installed, The blanket tightening portion and the blanket tightening control portion printing roll for a roll printing device, characterized in that the cover by the center of gravity.

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