KR20150047685A - Vacuum coating film drying system of in the tensionless state and Dry method - Google Patents

Abstract

The present invention relates to a vacuum coating film drying system in a tensionless state and a dry method, for heating and drying, in a vacuum state, a film in which various materials are coated in various deposition manners, and, more specifically, to the vacuum coating film drying system in the tensionless state and the dry method, which are complemented to remove a damage of a coating thin film which is able to be generated at the time of heating in a tension state, as a device for heating, in the tensionless state, a film coated with film dry equipment separately included besides depositing equipment. The vacuum coating film drying system in the tensionless state comprises: an unwinding part (110) in which the film is wound; a winding part (120) in which the film is wound after dying; two tension insulating rollers (131, 133) which separate a tension section from a tensionless section; a rip roller (140) mounted on one side of the tension insulating roller, which attaches the film to the insulating roller; a heating apparatus (150), a cooling part (160), and a heat coupler (180), which heating and cooling process the film having the tensionless state; and a plasma source (170) for a surface treatment and cleaning of the film.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vacuum coating film drying system in a non-

The present invention relates to a vacuum coating film drying apparatus in an unarmed state, and more particularly, to a vacuum coating film drying apparatus and a drying method in a muffler state in which a film coated with various materials is heated by heating in vacuum And more particularly, to a device for heating a film coated with a film drying equipment separately provided in addition to a deposition facility through a heater in a non-tension state, so as to eliminate damages of a coating film which may be generated in heating in a tension state And more particularly, to a vacuum coating film drying apparatus in a muffled state.

In general, the film drying equipment is used separately before and after the deposition equipment using the film as a substrate.

The film dryer includes a device for heating and drying the film before and after the deposition.

Typically used film substrates (PET, PEN, PI, PC, etc.) are made of polyester and various additives are added to them to adjust the surface roughness, to control the transparency and to complement the heat resistance Is being developed.

These films contain moisture, solvents and the like in the film. In addition, the flatness is poor, the surface energy is uneven, and the surface is not clean. These factors may cause poor adhesion of the coating film, poor appearance of the coating film (smear, wrinkle, etc.).

The film dryer is widely used for improving film surface processing, process productivity and quality, and improving efficiency.

The equipment in the film drying facility is largely divided into a unwinder for unwinding the film, a rewinder for the film, a conveying part, and a film processing part (heat treatment, cooling treatment).

The first film drying facility used was in the atmosphere. Such atmospheric film drying is not only long-lasting due to heating and processing near the secondary potential of the film, but also has a small effect when the film is thickened, and repeated heating treatment is inevitable. In addition, the treatment price was high and the scale of the facility was considerably large.

So, what is developed is a vacuum processing apparatus. The heat treatment apparatus in vacuum can be subjected to film heating treatment at a relatively low temperature, and the effects of dehydration, degassing, demolding, and the like are large, and a small-sized and low-cost is possible.

In addition to the basic four treatment units, a plasma treatment unit has been added to enable the surface cleaning function of the film, and the surface energy of the film can be increased to ensure adhesion between the film and the deposited thin film

In such a vacuum heat treatment apparatus, there is no problem in the pretreatment before the thin film is deposited on the film, but the thin film is damaged by the heat treatment to obtain the annealing effect after the thin film deposition.

Basically, the film has a property to return to the original state by receiving heat and force.

The thermal and force properties of the film and the thermal and mechanical properties of the deposited film are different. In order to obtain the annealing effect of the thin film, it is inevitable to heat treatment to a temperature at which the crystallization temperature and the heat shrinkage ratio are low, so that the problem of the force property has to be solved.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and has the following objectives.

It is an object of the present invention to solve the tension of force properties by making the film processing part of the processing part in the film drying equipment device to be a silent force so that no problems arise in the heat treatment of the deposited film.

In addition to the evaporated film, the multi-purpose device structure allows the tension to be used again in the film heating process before the deposition, so that the two devices can be used in one facility without the need for multiple facilities, And it is an object of the present invention to provide a multi-purpose film dryer capable of increasing production efficiency.

It is also an object of the present invention to provide a thermocouple (thermal coupler) for temperature detection in a film processing section and real-time temperature monitoring to cope with films of various thicknesses of various items.

In order to accomplish the above object, the present invention is implemented by the following embodiments.

The vacuum coating film drying apparatus in the present invention in an emulsion state

A winding unit 110 in which a film is wound;

A winding unit 120 for winding the film after drying;

Two tension isolation rollers (131, 133) isolating the tension section and the tension section;

A lip roller 140 provided at one side of the tension insulating roller to closely contact the film with an insulating roller;

A heating unit 150 and a cooling unit 160 for heating and cooling the film in the non-tension state, a thermal coupler 180;

And a plasma source 170 for surface treatment and cleaning of the film.

Then, tension is applied from the winding portion 110 to the tension insulating roller 131 to the winding insulating portion 120 from the tension insulating roller 133, and the film is driven in a non-tension state in the other region, ;

The tension section on the winding section 110 includes a warming up unit 310 capable of preheating, a tension measuring roller 320 capable of measuring a tension to maintain tension, A tension measuring roller 320, and a cutter 360 having a cutting and clamping function when the film is changed.

In addition, the non-tension section (110 to 133 sections) on the film processing section includes a heating device 150 capable of heating the film, a position sensor 330 for maintaining the film position in an unarmed state, a dampener roller 340, A Polycold 350 for use in absorbing moisture from the film, and a cooling unit 160 for cooling the heated film.

The motor operation of the tension insulating roller 130 is changed according to the tension change of the tension measuring roller 320 of the winding unit 110 and the winding unit 120 and the motor operation of the winding unit 110 and the winding unit 120 And is changed according to the detection of the position sensor 330 of the film processing unit.

The present invention has the following effects with the above-described configuration.

The present invention has the effect of eliminating problems in the heating process of the deposited film by solving the tension of the force nature by making the film processing part of the processing part in the film drying equipment device to be a silent force.

In addition to the evaporated film, the multi-purpose device structure allows the tension to be used again in the film heating process before the deposition, so that the two devices can be used in one facility without the need for multiple facilities, And has an effect of increasing production efficiency.

In addition, by providing a thermocouple (thermal coupler) for temperature detection in the film processing section and performing real-time temperature monitoring, it is possible to cope with films of various thicknesses of various items.

1 shows a conventional drying apparatus.
Figure 2 shows an apparatus for drying a vacuum coated film of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The applicants will now describe in detail the construction of the present embodiments with reference to the accompanying drawings.

Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

The present invention is a device driven in a vacuum container (100) and heating and drying a film (200) passing through a film processing section in an unarmed state.

The present invention mainly relates to a winding unit 110 in which a film is wound; A winding unit 120 for winding the film after drying; Two tension isolation rollers (131, 133) isolating the tension section and the tension section; A lip roller 140 provided at one side of the tension insulating roller to closely contact the film with an insulating roller; A heating unit 150 and a cooling unit 160 for heating and cooling the film in the non-tension state, a thermal coupler 180; And a plasma source 170 for surface treatment and cleaning of the film.

Tension is applied from the winding portion 110 to the tension insulating roller 131 to the winding insulating portion 120 from the tension insulating roller 133 and is driven in a non-tension state in the other region, do.

The tension section on the winding section 110 is composed of a warming up unit 310 capable of preheating and a tension measuring roller 320 capable of measuring a tension to maintain the tension.

The tension section on the winding section 120 is composed of a tension measuring roller 320 capable of measuring a tension to maintain tension, and a cutter 360 having a cutting and clamping function when the film is changed.

The film processing section side tension section includes a heating device 150 capable of heating the film, a position sensor 330 for maintaining the position of the film in the non-tension state, a damping roller 340, A Polycold 350, and a cooling unit 160 for cooling the heated film.

The lip roller 140 is in an open state during pumping for maintaining the vacuum state (evacuation) of the initial vacuum container 100, and the tension of the film is maintained throughout the entire length of the film. Also, heating starts the same when pumping starts.

The lip roller 140 is crossed and the motor of the winding unit 110 and the motor of the tension insulating roller 130 at the winding unit 110 side start to be driven .

The film side of the film processing section starts to be in an emissive state, and when the film is detected by the position sensor 330, the winding section 110 side motor stops driving.

The production preparation of the film drying apparatus is completed.

The winding unit 110, the winding unit 120, and the tension insulating roller 130 motors are synchronized to start production (film drying).

The motor operation of the tension insulation roller 130 is varied in accordance with the tension change of the tensioning roller 320 of the winding unit 110 and the winding unit 120 and the operation of the motor of the winding unit 110 and the winding unit 120 is changed And is varied according to the detection of the position sensor 330 of the processing unit.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. Will be clear to those who have knowledge of.

100: vacuum container 110:
120: winding section 130: tension insulating roller
140: Lip roller 150: Heating
160: Cooling unit 170: Plasma source
180: Thermal couple
200: film
310: Warm up unit
320: tension measuring roller 330: position sensor
340: Idle roller 350: Polycold
360: Cutter

Claims (4)

A winding unit 110 in which a film is wound;
A winding unit 120 for winding the film after drying;
Two tension isolation rollers (131, 133) isolating the tension section and the tension section;
A lip roller 140 provided at one side of the tension insulating roller to closely contact the film with an insulating roller;
A heating unit 150 and a cooling unit 160 for heating and cooling the film in the non-tension state, a thermal coupler 180;
And a plasma source (170) for surface treatment and cleaning of the film.
The method according to claim 1,
The tension is applied from the winding portion 110 to the tension insulating roller 131 to the winding insulating portion 120 from the tension insulating roller 133. The film is driven in a non-tension state in the other region, ;
The tension section on the winding section 110 includes a warming up unit 310 capable of preheating, a tension measuring roller 320 capable of measuring a tension to maintain tension, A tension measuring roller (320), and a cutter (360) having a cutting and clamping function when the film is changed.

The method according to claim 1,
The section on the side of the film processing section (sections from 110 to 133) includes a heating device 150 capable of heating the film, a position sensor 330 for maintaining the position of the film in an unarmed state, a damping roller 340, And a cooling unit (160) for cooling the heated film. The apparatus for drying a vacuum coated film according to claim 1,
The method according to claim 1,
The motor operation of the tension insulation roller 130 is varied in accordance with the tension change of the tensioning roller 320 of the winding unit 110 and the winding unit 120 and the operation of the motor of the winding unit 110 and the winding unit 120 is changed And is varied according to the detection of the position sensor (330) of the processing unit.

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