KR20140135049A - Film guide unit using compressed air of roll to roll print system - Google Patents

Abstract

The present invention relates to a film guidance apparatus by injecting and inhaling air in a roll-to-roll printing apparatus to improve and maintain the quality of a printing film by guiding the printing film to change the direction and transfer by a non-contact type. According to the present invention, the film guidance apparatus by injecting and inhaling air in a roll-to-roll printing apparatus comprises: a transferring stand (10) having multiple outlets (11) and inlets (12) for injecting compressed air, and installed along a transfer path of a printing film (1); and a compressed air supply means (20) and an air suction means (30) for separating the printing film from the surface of the transferring stand by forming an air layer between the transferring stand and the printing film by supplying the compressed air to the outlet of the transferring stand, and recovering the compressed air through the inlet of the transferring stand. The compressed air supply means includes: an air compressor for compressing and supplying air; and a compressed air supply pipe for transferring the compressed air supplied by the air compressor to the outlet; and a compressed air regulator for adjusting the pressure of the compressed air injected by the air compressor. The air suction means includes: an air suction pipe connected to the inlet of the transferring stand; a vacuum suction device for forced suctioning air through the air suction pipe; and a suction damper for adjusting the amount of suction air by adjusting an opening of the air suction pipe.

Description

TECHNICAL FIELD [0001] The present invention relates to a film guiding apparatus using air injection and suction in a roll-to-roll printing apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a film guiding apparatus using air injection and suction in a roll-to-roll printing apparatus, and more particularly to a film guiding apparatus for guiding a non- The present invention relates to a film guiding apparatus using injection and suction of air in a two-roll printing apparatus.

Printed Electronics, which is one of the most popular technologies recently, refers to electronic devices or electronic products made by printing process techniques, and usually refers to devices that are printed on an inexpensive substrate in an automated process.

Unlike conventional semiconductor manufacturing methods or PCB manufacturing methods in which circuits are formed through complicated steps such as exposure, deposition, development, cleaning, and the like in a vacuum environment, such printing electronic technologies are conventionally used to print circuits directly on a substrate The entire process can be remarkably shortened, and there is no need to use the chemicals used in each treatment step, so that it is eco-friendly, and it is possible to print as much as necessary, which is advantageous in that less material is consumed compared to the conventional method .

In addition, printing electronic technology is a technology that is carried out in air instead of vacuum. Therefore, the unit cost of production equipment can be drastically reduced and continuous work can be performed by roll-to-roll method, And the cost of production can be reduced.

However, in spite of these advantages, the roll-to-roll method is characterized in that the printing or coating is carried out continuously at a speed of up to 60 m / min and the substrate is also in the form of a flexible film having a thickness of 100 microns or less. There arises a problem that the alignment degree between the print layers becomes poor while the film can not be normally transported in the process of passing through a plurality of printing processes and also the scratches by the rollers occur because the printing film is transported There is a problem that the quality of the printed film is deteriorated.

In addition, the rollers are only capable of transport (change direction) by the surface contact of the print film, that is, the roller is positioned in the direction requiring the change so that the film contacts and transports along the surface of the roller. At this time, since only the unprinted surface can be conveyed by contacting the roller with the roller on the printing surface, there is a problem that the direction can be switched using only one side of the film until the printing ink dries.

Patent No. 10-1215540 Patent No. 10-1213529 Published patent application No. 10-2012-0070743

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a non-contact type non- And to provide a film guiding apparatus using the air injection and suction in a roll-to-roll printing apparatus capable of preventing air from being spouted.

Another object of the present invention is to adjust and maintain the tension of the printing film in the conveying path section after printing of the printing film.

A film guiding apparatus using air injection and suction in a roll-to-roll printing apparatus according to the present invention comprises: a conveyance belt having a plurality of ejection openings for ejecting compressed air and an inlet, Air suction means for sucking air through the suction port to form a tension between the conveyance belt and the printing film, and compressed air supply means for spraying compressed air for forming an air layer for preventing damage to the printing film due to adsorption The air suction means includes an air suction pipe connected to the suction port of the conveyance platform, a vacuum suction device for forcedly sucking air through the air suction pipe, and an intake damper adjusting the opening degree of the air suction pipe to adjust the amount of the suction air , The compressed air supply means includes an air compressor for compressing and pressurizing the air, a compressed air supply pipe for transferring the compressed air supplied by the air compressor to the discharge port, a pressure regulator for regulating the pressure of the compressed air injected by the air compressor And a compressed air regulator.

The discharge port of the conveyance belt preferably includes a vortex guiding groove for guiding a vortex of the compressed air.

According to the film guiding apparatus using air injection and suction in the roll-to-roll printing apparatus according to the present invention, the conveyance of the print film is guided while maintaining the tension between the conveyance belt and the film using the suction of air, It is possible to maintain the print quality satisfactorily and improve the reliability of the product. Particularly, it is possible to prevent the deviation of the path of the printing film due to the shape of the curved section (outward curve, inward curved line, etc.) by guiding the printing film to the direction changing path by the conveying belt, The printing quality can be improved by allowing the printing medium to be conveyed in a state in which it is always spaced apart from the printing medium by a predetermined distance.

Also, by maintaining the tension of the print film in the entire section of the conveyance path of the print film, and transferring the print film in a taut state, the print quality can be maintained well.

1 is a conceptual view of a film guiding apparatus using air injection and suction in a roll-to-roll printing apparatus according to the present invention.
FIG. 2 and FIG. 3 are diagrams showing examples of arrangement states of transfer bars applied to a film guiding apparatus using air injection and suction in a roll-to-roll printing apparatus according to the present invention, respectively.
FIG. 4 is a view showing a pattern of a discharge port and a suction port applied to a film guiding apparatus using air injection and suction in a roll-to-roll printing apparatus according to the present invention. FIG.
FIG. 5 is an enlarged view of a discharge port applied to a film guiding apparatus using air injection and suction in a roll-to-roll printing apparatus according to the present invention. FIG.

As shown in FIG. 1, the film guiding apparatus using the injection and suction of air in the roll-to-roll printing apparatus according to the present invention comprises a conveying belt 10 for providing a conveying path of the printing film 1, And a compressed air supplying means (20) and an air suction means (30) for forming an air layer for supporting the printing film (1) on the conveying table (10).

The present invention is very useful for changing the feeding, particularly the path, of the print film (1) transported with tension. The printing film (1) is transported in the same path To prevent the print film 1 from being damaged by the non-contact type by the compressed air, and to prevent the transfer surface from being contacted with the print surface.

The present invention is very effective in changing the direction of the transfer of the printing film 1 for the purpose.

The relationship between the tension of the film by the compressed air and the amount of compressed air injected depends on the tension, the conveying speed, the area of the film, and the like. The tension of the film depends on the conveyance path of the print film 1, , The ratio of the suction amount increases and the ratio of the compressed air increases in the section subjected to the force in the direction of attaching to the conveying belt (10).

The conveying belt 10 is configured to have a predetermined thickness and width and has a discharge port 11 for jetting the compressed air toward the print film 1, a suction port 12 for sucking in air between the print film 1 and the print film 1, . A plurality of discharge ports (11) and suction ports (12) are provided, and the discharge ports (11) and the suction ports (12) are alternately repeatedly arranged at equal intervals to induce stable transfer of the printing film (1) in all areas.

The size, spacing and pattern of the discharge port (11) and the suction port (12) can be variously changed according to the speed of the process, required tension, and printing range. 4 is an exemplary view showing a pattern of the discharge port 11 (blue) and the suction port 12 (red color).

As shown in FIG. 5, the discharge port 11 of the conveyance table 10 is provided with a spiral vortex guiding groove 11a on the wall surface so that the compressed air is discharged while forming a vortex.

The vortex guiding groove 11a may be formed entirely in the discharge port 11 or may be formed only in a predetermined section from the discharge end.

According to the vortex guiding groove 11a, the compressed air is sprayed in the form of a vortex along the vortex guiding groove 11a to produce the same effect as the compression spring, thereby stably guiding the printing film 1.

Since the conveying table 10 provides a conveying path of the printing film 1, various types (curved sections, curves) required in the roll-to-roll printing process of the printing film 1, for example, A combination of a section and a straight line section, etc.).

The compressed air supply means 20 and the air suction means 30 form an air layer on the conveyance belt 10 through the compressed air so that the print film 1 is conveyed to the conveyance belt 10 in a non- The tension of the printing film 1 can be adjusted.

The compressed air supply means 20 is a means for supplying the compressed air to the suction port 12 when a phenomenon that may be generated when air is sucked by the air suction means 30 (a phenomenon in which the print film 1 is sucked into the suction port 12, ), A compressed air supply pipe for transferring the compressed air supplied by the air compressor to the discharge port (11), an air compressor for compressing the compressed air supplied to the air compressor And a compressed air regulator for regulating the pressure of compressed air injected by the compressed air regulator.

The compressed air supply pipe connected to the plurality of discharge ports 11 is connected to the air compressor through one or a small number of manifolds.

Since the air compressor and the compressed air supply pipe can use all known products, a detailed description thereof will be omitted, and the discharge pressure and discharge amount of the compressed air may vary depending on the tension of the film.

The compressed air regulator adjusts the discharge pressure and discharge amount of the compressed air discharged through the discharge port (11).

Since the discharge amount of the compressed air is related to the suction amount of the suction air, it is adjusted together with the suction amount of the suction air.

The compressed air supply means may include a temperature controller for adjusting the temperature of the compressed air supplied to the discharge port 11 of the conveyance platform 10. The temperature regulator may be, for example, a device that regulates the temperature of the compressed air by receiving heat from a power source, and may be wound around the compressed air supply pipe.

The temperature control is intended to increase the printing efficiency by controlling the interfacial energy of the ink on the printing surface until the ink is completely dried after printing (influence of the formation of water droplets when the interfacial energy changes), and the solubility characteristics , And the temperature may be from room temperature to 100 degrees Celsius (Celsius), depending on the type of printing ink and film.

The air suction means comprises an air suction pipe connected to the suction port 12 of the conveyance belt 10 and a vacuum suction device for forcibly sucking the air between the conveyance belt 10 and the printing film 1 through the air suction pipe And additionally includes an intake damper for adjusting the amount of intake air.

A plurality of air intake pipes connected to the plurality of intake ports 12 may be combined through one or a small number of manifolds

The intake air is discharged into the atmosphere in a non-circulating manner or discharged to the outside through separate air conditioning. The suction amount depends on the discharge amount of the compressed air, the tension of the printing film, and the like, so that the suction amount is not limited to a specific value.

The compressed air regulator and the intake damper may be manually adjusted by the manager or automatically adjusted by the controller. In the latter case, for example, a discharge amount and a suction amount of compressed air are built in a database on the basis of the tensile force of the print film 1, and the controller sets the compressed air regulator and the intake damper It is possible to adjust it.

A method of conveying a print film in the roll-to-roll printing apparatus according to the present invention is as follows.

The compressed air generated by the compressed air supply means 20 is discharged to the conveyance path of the conveyance platform 10 through the discharge port 11 and the discharged compressed air is sucked through the suction port 12 around the discharge port 11 do.

In this way, tension is generated between the conveying table 10 and the film through the action of the compressed air being discharged and sucked through the plurality of discharge ports 11 and the suction port 12, (Redirected, etc.) in a state of being spaced apart from the conveyance belt 10 at regular intervals through the air layer generated by the injection and suction of the compressed air.

That is, the print film 1 is conveyed (changed direction, etc.) along the conveyance belt 10, but is not in contact with the conveyance platform 10 and other physical structures. Therefore, Quality deterioration does not occur.

In addition, the compressed air is discharged in the form of a vortex along the eddy-current guiding grooves 11a, so that the printing film 1 is prevented from being bent during conveyance of the printing film 1.

The quality of the printed film 1 and the quality of the printed material printed on the print film 1 can be maintained well by maintaining the tension of the print film 1 at an appropriate tension by adjusting the discharge amount and the suction amount of the compressed air .

1: Printing film,
10: conveying stand, 11: outlet
12: inlet, 20: compressed air supply means
30: air suction means,

Claims (3)

A conveyance belt installed along a required path of the printing film 1 required in the process and having a plurality of suction ports 11 for sucking air and a discharge port 11 for spraying compressed air;
Compressed air supply means (20) for separating the print film from the surface of the conveyance band by supplying compressed air to the ejection port of the conveyance band and recovering the compressed air through the suction port to form an air layer between the conveyance band and the print film, Means (30)
Wherein the compressed air supply means comprises: an air compressor which compresses and pressurizes the air; a compressed air supply pipe which conveys the compressed air supplied by the air compressor to the discharge port; a compression unit which adjusts the pressure of the compressed air injected by the air compressor An air regulator,
The air suction means includes an air suction pipe connected to the suction port of the conveyance platform, a vacuum suction device for forcedly sucking air through the air suction pipe, and an intake damper adjusting the opening degree of the air suction pipe to adjust the amount of the suction air Wherein the film is fed to the film feeder. [2] The apparatus according to claim 1, wherein the discharge port of the conveyance belt includes a vortex guiding groove (11a) on a wall surface so as to discharge the compressed air while forming a vortex. Device. 3. The roll-to-roll printing apparatus according to claim 1 or 2, wherein the compressed air supply means includes a temperature controller for adjusting the temperature of the compressed air supplied to the discharge port of the conveyance belt. The film guidance device used.

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