KR101582613B1 - Apparatus Producing Optical Film with IR Heater for Preheating and Drying and Method Producing Optical Film using it - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical film production apparatus provided with an IR heater for preheating drying, and more particularly, to an optical film production apparatus provided with an IR heater for preheating and drying, In the early part of the process, the IR heater is installed to radiate infrared rays to preheat and dry the casting film to raise the temperature. Thus, when hot air drying is performed before the surface of the film is dried immediately after casting, damage to the appearance of the film is prevented, And an IR heater for pre-heating drying.

The present invention also relates to a method for producing an optical film using the apparatus for producing an optical film and an optical film produced by the method for producing an optical film.

Optical film, Infrared heater, Preheating, Drying

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an optical film manufacturing apparatus having an IR heater for pre-heating and an optical film manufacturing method using the IR heater,

More particularly, the present invention relates to an apparatus for manufacturing an optical film having an IR heater for preheating drying, and more particularly, to an apparatus for manufacturing an optical film having an IR heater for preheating drying, To an optical film production apparatus equipped with an IR heater for preheating drying to prevent damage to the outer surface of the film when hot air drying is performed before the surface of the film is dried.

In order to produce an optical film using a polymer solution, a casting process for casting the dope by stirring and filtering the polymer solution to prepare a dope, a first drying process for drying the casting film formed on the casting process, A peeling process for the film from the casting belt, a stretching process for stretching the peeled film through a tenter, a second drying process for further drying the stretched film, a winding process for winding the dried stretched film, and the like.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a longitudinal sectional view of a prior art relating to an optical film production apparatus used in the casting step and the first drying step. Fig.

Referring to FIG. 1, the prior art has a first rotating means 11 and a second rotating means 12 which are spaced apart from each other. The first rotating means 11 and the second rotating means 12 may be rollers.

Referring to FIG. 1, the casting belt 20 is wound around the first rotating means 11 and the second rotating means 12 so as to be rotatable. The casting belt 20 includes an upper running portion 21 located on the upper side of the first rotating means 11 and the second rotating means 12 and a lower running portion 22 located on the lower side.

An upper drying duct (31) is installed above the upper running part (21). A dope containing a polymer solution is cast by a casting die 40 on a portion of the upper running portion 21 connected to the first rotating means 11 to form a casting film 50. The upper drying duct 31 is for drying the casting film 50 conveyed by the upper running portion 21. The upper drying duct 31 is provided with a warm air inlet duct 31-1 through which a warm gas flows and a warm air outlet duct 31 through which a warm gas flows out -2) are formed.

Referring to FIG. 1, an upper heater 60 for heating the upper running part 21 to dry the casting film 50 is installed in the lower part of the upper running part 21. As shown in FIG.

As a method for improving the production speed of the optical film by shortening the drying time of the casting film 50, the temperature of the warm air discharged from the inlet duct 31-1 of the upper drying duct 31 is increased There is something to give.

In the prior art, the solvent contained in the casting film is evaporated at the central portion of the upper running portion 21, and heat is recovered in the form of vaporized heat. At this time, since the casting film 50 formed by the casting die 40 is driven by the upper running part 21, that is, immediately before the casting, before the surface of the film is dried, The outer appearance of the film is damaged, resulting in a problem of poor film production.

In other words, the solvent contained in the film is suddenly dried by the warm air flowing in the inlet duct 31-1 of the upper drying duct 31 at the beginning of the upper running portion 21 Such as surface defects such as dirt, wrinkles, and the like.

The present invention is to provide an apparatus for manufacturing an optical film which can prevent the appearance of a casting film from being damaged due to drying of warm gas by preheating and drying the casting film immediately after casting, thereby reducing defective film production.

The present invention comprises a first rotating means (111) installed adjacent to a casting die (130) on which a polymer solution is cast; A second rotating means 112 installed at a predetermined distance from the first rotating means 111; A casting belt 120 wound and rotated by the first rotating means 111 and the second rotating means 112; The casting film 130 is installed on the upper surface induction portion 121a of the upper running portion 121 of the casting belt 120 adjacent to the casting die 130. The casting film 140 is pre- A heater 150; In order to dry the casting film 140 installed in the upper half portion 121b of the upper running portion 121 of the casting belt 120 adjacent to the infrared heater 150 and preheated and dried by the infrared heater 150 An upper drying duct 211 installed at a predetermined distance from each other and having an inlet duct 211-1 through which a warm body flows and an outlet duct 211-2 through which a warm body flows, ; The present invention relates to an optical film manufacturing apparatus provided with an IR heater for preheating and drying.

In the present invention, the infrared drying zone in which the infrared heater 150 is installed is 20 to 40% of the length of the upper running portion 121 of the casting belt 120.

In addition, the evaporation amount of the solvent contained in the casting film 140 by the preheating drying of the infrared heater 150 is 10 to 20%.

It is preferable that the evaporation amount of the solvent contained in the casting film 140 by drying the upper drying duct 211 is 20 to 40% of the total solvent.

The upper drying zone 220 is provided between the infrared heater 150 and the upper drying duct 211 and is formed by the infrared drying zone 170 by the infrared heater 150 and the upper drying zone 211 by the upper drying duct 211. [ And a partition plate (160) for partitioning the partition wall (160).

The casting belt 140 is installed below the lower running part 122 of the casting belt 120 to dry the casting film 140 by the upper drying duct 211, A lower drying duct 311 having an inflow duct 311-1 through which a warm air flows and an outflow duct 311-2 through which a warm air flows; As shown in FIG.

At this time, the evaporation amount of the solvent contained in the casting film 140 by drying of the lower drying duct 311 is preferably 40 to 80% of the total solvent.

A method of manufacturing an optical film using an IR heater for preheating and drying according to the present invention comprises the steps of: a) moving the casting belt 120 by the first rotating means 111 and the second rotating means 112, A casting step of casting a dope containing a polymer solution by a casting die 130 onto an inlet 121a of the casting die 121; b) casting the casting by the casting die 130 by an infrared heater 150 provided on the upper surface introduction portion 121a of the upper running portion 121 of the casting belt 120 adjacent to the casting die 130; Preheating and drying the film 140; c) a warm air which flows in and out through the upper drying duct 211 installed on the upper rear portion 121b of the upper running portion 121 of the casting belt 120 adjacent to the infrared heater 150, An upper drying step of drying the casting film 140 preheated and dried by the upper drying step; And a control unit.

In addition, the infrared drying area by the infrared heater 150 and the upper drying area by the upper drying duct 211 are divided by the partition plate 160 so that the steps a) and b) are performed separately .

After the step c), the upper part of the casting film 140 is dried by a warm air flowing in and out through the lower drying duct 311 installed at the lower part of the lower running part 122 of the casting belt 120, And a drying step of drying the lower layer.

On the other hand, the present invention relates to an optical film which is produced by any one of the above optical film production methods.

The present invention prevents the sudden temperature change caused by the gas that has been preheated and dried immediately after the casting to prevent the occurrence of surface defects or wave patterns, thereby preventing damage to the outer surface of the film, , It is possible to increase the drying speed by preheating and drying, thereby achieving high-speed production.

In addition, it is possible to prevent the appearance of the film from being deformed due to sudden temperature change through preheating drying.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 2 is a view showing an optical film production apparatus equipped with an IR heater for preheating drying according to the present invention, and FIG. 3 is a view showing an apparatus for manufacturing an optical film having an IR heater for another type of preheating drying according to the present invention .

As shown in the figure, an optical film production apparatus equipped with an IR heater for preheating drying includes a first rotating means 111 installed adjacent to a casting die 130; A second rotating means 112 installed at a predetermined distance from the first rotating means 111; A casting belt 120 wound and rotated by the first rotating means 111 and the second rotating means 112; An infrared heater 150 for pre-drying the casting film 140 cast by the casting die 130; An upper drying duct 211 for drying the casting film 140 preheated and dried by the infrared heater 150; .

In order to produce an optical film using a polymer solution, a dope containing a polymer solution subjected to agitation and filtration is cast on a casting belt, a casting process in which a casting film formed in a casting process is dried on a casting A drying step, a peeling step of the dried casting film from the casting belt, a stretching step of stretching the peeled film through a tenter, a second drying step of further drying the stretched film, a winding step of winding the dried stretched film, and the like .

The drawing relates to an optical film production apparatus used in the casting step and the first drying step.

Referring to FIG. 2, the first rotating means 111 and the second rotating means 112 are spaced apart from each other. The first rotating means 111 and the second rotating means 112 may be rollers.

Referring to FIG. 2, the casting belt 120 is rotatably wound around the first rotating means 111 and the second rotating means 112. The casting belt 120 includes an upper running portion 121 located on the upper side of the first rotating means 111 and a lower rotating portion 122 located on the lower side of the first rotating means 111 and the second rotating means 112. The upper traveling part 121 and the lower traveling part 122 are relative concepts, not absolute concepts. That is, the casting belt 120 is transferred by the first rotating means 111 and the second rotating means 112, so that the portion corresponding to the upper running portion 121 becomes the lower running portion 122, And the portion corresponding to the upper portion 122 may be the upper running portion 121. The casting belt 120 may be a conventional belt used in the manufacture of an optical film.

A dope including a polymer solution is cast by the casting die 130 to form a casting film 140 at a portion connected to the first rotating means 111 of the upper running portion 121.

An IR heater 150 is installed at an upper portion of the upper running portion 121 at a predetermined distance from the inlet portion 121a, that is, from the point where the dope is cast to the second rotating means 112, An upper drying duct 211 is installed on the rear portion 121b of the introduction portion 121a.

The infrared heater 150 is for preheating the casting film 140 conveyed by the upper run 121 immediately after casting. The infrared heater 150 uses a known one.

The reason why the infrared heater 150 is installed in the inlet portion 121a of the upper running portion 121 is that the upper running portion 121 having a high concentration of methylene chloride (Not shown).

The upper drying duct 211 is conveyed by the casting belt 120 through an inlet 121a of the upper running part 121 to dry the casting film 140 preheated and dried by the infrared heater 150 . The upper drying duct 211 is provided with an inlet duct 211-1 through which a warm gas flows and an outlet duct 211-2 through which a warm gas flows out.

As described above, according to the present invention, the casting film is preheated and dried by the infrared heater 150 immediately after casting, thereby preventing a sudden change in temperature caused by the heated gas, thereby preventing the occurrence of surface defects or wavy patterns, Damage can be prevented, and defective film production can be reduced. Also, since the drying speed by the upper drying duct can be increased through the preheating drying, there is an advantage that the high speed production can be performed. In addition, it is also possible to prevent the outer appearance of the film from being deformed due to sudden temperature change through preheating drying.

The infrared drying zone in which the infrared heater 150 is installed is preferably 20 to 40% of the length of the upper run 121 of the casting belt 120.

If the length of the infrared drying zone is too long, preheating and drying can be performed well. However, since the drying time of the film by the upper drying duct 211 is shortened, the evaporation amount of the solvent contained in the casting film 140 becomes small, In order to match, the temperature of the warmed gas must be increased. If the temperature of the warmed gas is increased, the thermal deformation of the film occurs and the product is defective.

If the length of the infrared drying region is too short, sufficient preheating and drying can not be performed, and there is a problem that the appearance of the film is damaged due to abrupt temperature change caused by the gas. Thus, it is desirable to have a suitable infrared drying zone.

It is preferable that the evaporation amount of the solvent contained in the casting film 140 by the preheating drying of the infrared heater 150 is 10 to 20 percent and the casting film 140 by drying of the upper drying duct 211 140) is preferably 20 to 40% of the total solvent.

The upper drying zone 220 is provided between the infrared heater 150 and the upper drying duct 211 and is formed by the infrared drying zone 170 by the infrared heater 150 and the upper drying zone 211 by the upper drying duct 211. [ And a partition plate 160 for partitioning the partition plate 160. When the partition plate 160 is installed as described above, the hot gas can be preheated and dried without interfering with the casting film that is preheated and dried.

3, in order to dry the casting film 140 dried by the upper drying duct 211 in the lower running part 122, the lower part of the casting film 140 is formed under the lower running part 122 of the casting belt 120, A lower drying duct 311-1 provided with a predetermined distance from each other and having an inlet duct 311-1 through which a warm body flows and an outlet duct 311-2 through which a warm body flows, 311); As shown in FIG.

At this time, the evaporation amount of the solvent contained in the casting film 140 by drying of the lower drying duct 311 is preferably 40 to 80% of the total solvent.

A method of manufacturing an optical film using the apparatus for manufacturing an optical film having the IR heater for preheating and drying according to the present invention is as follows.

4 is a flowchart showing a method of manufacturing an optical film.

As shown in the drawing, the casting step S10, the preheating drying step S20, the upper drying step S30, the peeling step S40, the stretching step S50, the second drying step S60 and the winding step S70, .

Referring to FIG. 2, in the casting step S10, dope is applied to the inlet 121a of the upper running part 121 of the casting belt 120, which is wound around the first rotating device 111 and the second rotating device 112 And the casting film 140 is formed by casting. The dope is cast using a casting die 130.

In the preheating and drying step S20, the casting die 130 is heated by the infrared heater 150 installed on the upper surface introduction portion 121a of the upper running portion 121 of the casting belt 120, The casting film 140 is preheated and dried.

In the upper drying step S30, a hot air is supplied through the inlet duct 211-1 of the upper drying duct 211 installed at the rear portion of the upper surface introduction portion 121a of the upper running portion 121, Respectively. As the warm body is discharged, the preheated and dried casting film 140 transferred to the rear portion 121b of the upper running portion 121 is dried. In the upper drying step S30, the warm gas is moved along the running direction of the upper running part 121, drying the casting film 140 preheated and dried, and flowing out through the outlet duct 211-2 .

In order to separately perform the preheating-drying step and the upper-drying step, the infrared drying area by the infrared heater 150 and the upper drying area by the upper drying duct 211 are partitioned by the partition plate 160 .

The casting film 140 dried by the upper drying step S30 is conveyed through the lower running part 122. [

3, the lower running part 122 is connected to the lower part of the lower running part 122 through the inflow duct 311-1 of the lower drying duct 311 and the lower end of the inflow duct 311-2 And a lower drying step (S35) in which the drying is performed by a heated warm body.

The steps used in the peeling step (S40), the stretching step (S50), the second drying step (S60) and the winding step (S70) can be used in a conventional optical film manufacturing method.

In the peeling step S40, the casting film 140 is peeled from the casting belt 120 by using the peeling roller 113 provided at the root of the first rotating means 111. [

In the stretching step S50, the peeled film is stretched in the width direction by using a clip tenter (not shown) or a pin tenter (not shown). After the stretching step (S50), an edge trimming step may be performed in which both side edges of the stretched film are cut off.

In the second drying step (S60), the residual solvent contained in the stretched film is removed.

In the winding step S70, the film from which the residual solvent has been removed is wound on a winding drum (not shown).

1 is a longitudinal sectional view of a prior art related to an optical film production apparatus used in a casting process and a first drying process.

2 is a view showing an optical film production apparatus equipped with an IR heater for preheating and drying according to the present invention.

3 is a view showing an apparatus for manufacturing an optical film provided with another type of IR heater for preheating drying according to the present invention.

Description of the Related Art

111: first rotating means 112: second rotating means

120: casting belt 121: upper running part

122: Lower running part 130: Casting die

140: Casting film 150: Infrared heater

160: partition plate 170: infrared drying region

211: Upper drying duct 220: Upper drying zone

311: Lower drying duct

Claims (11)

A first rotating means 111 installed adjacent to the casting die 130 on which the polymer solution is cast; A second rotating means 112 installed at a predetermined distance from the first rotating means 111; A casting belt 120 wound and rotated by the first rotating means 111 and the second rotating means 112; The casting film 130 is installed on the upper surface induction portion 121a of the upper running portion 121 of the casting belt 120 adjacent to the casting die 130. The casting film 140 is pre- A heater 150; In order to dry the casting film 140 installed in the upper half portion 121b of the upper running portion 121 of the casting belt 120 adjacent to the infrared heater 150 and preheated and dried by the infrared heater 150 An upper drying duct 211 installed at a predetermined distance from each other and having an inlet duct 211-1 through which a warm body flows and an outlet duct 211-2 through which a warm body flows, ; And And an upper drying zone 220 which is provided between the infrared heater 150 and the upper drying duct 211 and is formed by the infrared drying zone 170 by the infrared heater 150 and the upper drying zone 211, A partition plate (160); And an IR heater for preheating and drying the optical film. The method according to claim 1, Wherein the IR drying zone in which the infrared heater (150) is installed is 20 to 40% of the length of the upper run (121) of the casting belt (120). 3. The method according to claim 1 or 2, Wherein the evaporation amount of the solvent contained in the casting film (140) by the preheating drying of the IR heater (150) is 10 to 20%. 3. The method according to claim 1 or 2, Wherein the evaporation amount of the solvent contained in the casting film (140) by drying the upper drying duct (211) is 20 to 40% of the total solvent. delete The method according to claim 1, The casting belt 120 is installed below the lower running part 122 of the casting belt 120 to dry the casting film 140 by the upper drying duct 211, A lower drying duct 311 provided with an inflow duct 311-1 through which the hot air flows and an outflow duct 311-2 through which a warm air flows; Further comprising an IR heater for preheating and drying the optical film. The method according to claim 6, Wherein the evaporation amount of the solvent contained in the casting film (140) by drying the lower drying duct (311) is 40 to 80% of the total solvent. a) The casting belt 120 is wound around the first rotating means 111 and the second rotating means 112 and the polymer solution is introduced into the inlet 121a of the upper running portion 121 by the casting die 130 A casting step of casting a dope to be cast; b) casting the casting by the casting die 130 by an infrared heater 150 provided on the upper surface introduction portion 121a of the upper running portion 121 of the casting belt 120 adjacent to the casting die 130; Preheating and drying the film 140; And c) a warm air which flows in and out through the upper drying duct 211 installed on the upper rear portion 121b of the upper running portion 121 of the casting belt 120 adjacent to the infrared heater 150, Drying the casting film 140 preheated and dried by the casting film 140, The infrared drying zone 170 by the infrared heater 150 and the upper drying zone 220 by the upper drying duct 211 are partitioned by the partition plate 160 so that steps b) and c) Respectively, The evaporation amount of the solvent contained in the casting film 140 by the preheating drying of the infrared heater 150 in the step b) is 10 to 20%, and in the drying of the upper drying duct 211 in the step c) Wherein the evaporation amount of the solvent contained in the casting film (140) is 20 to 40% of the total solvent. delete 9. The method of claim 8, After the step c), the casting film 140, which is dried by the warm air flowing in and out through the lower drying duct 311 installed at the lower part of the lower running part 122 of the casting belt 120, And a lower drying step of drying the pre-dried IR film. delete

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