KR20220085704A - Method for manufacturing polarizing film and apparatus for manufacturing polarizing film - Google Patents

Abstract

[Problem] To provide the manufacturing method and manufacturing apparatus of the polarizing film which can manufacture the polarizing film with the uniform shrinkage force in the width direction.
[Solution Means] As a manufacturing method of a polarizing film, the extending|stretching process process of performing an extending|stretching process between a pair of nip rolls is included, conveying a polyvinyl alcohol-type resin film, An extending|stretching process process WHEREIN: Film conveyance among a pair of nip rolls In the direction, the width of the upstream nip roll is A [mm], the width of the downstream nip roll is B [mm] in the film conveyance direction, and the polyvinyl alcohol-based resin film immediately before contacting the downstream nip roll in the film conveying direction. When the width of C [mm], 3.0≤Y <7.0 [in the formula, Y = (A+B+C) / C] is satisfied.

Description

The manufacturing method and manufacturing apparatus of a polarizing film TECHNICAL FIELD

This invention relates to the manufacturing method and manufacturing apparatus of a polarizing film.

The manufacturing method of a polarizing film is proposed by patent document 1 and patent document 2, for example.

[Patent Document 1] Japanese Patent Laid-Open No. 2017-149052 [Patent Document 2] Japanese Patent Laid-Open No. 2017-105970

The objective of this invention is providing the manufacturing method and manufacturing apparatus of the polarizing film which can manufacture the polarizing film with the uniform shrinkage force in the width direction of a polarizing film.

This invention provides the manufacturing apparatus and manufacturing method of the following polarizing films.

[1] A method for producing a polarizing film, comprising:

A stretching treatment step of performing stretching treatment between a pair of nip rolls while conveying the polyvinyl alcohol-based resin film;

In the said stretching processing process, in the film conveyance direction, the width of an upstream nip roll is A [mm] among the said pair of nip rolls, In a film conveying direction, the width of a downstream nip roll is B [mm], In the said film conveying direction WHEREIN: When making the width|variety of the polyvinyl alcohol-type resin film immediately before contacting a downstream nip roll into C [mm], the manufacturing method of the polarizing film which satisfy|fills following formula (1).

3.0≤Y<7.0 (One)

[In the formula, Y=(A+B+C)/C]

[2] The method for producing a polarizing film according to [1], wherein A [mm] and C [mm] satisfy the following formula (2).

1.0<A/C<3.0 (2)

[3] The method for producing a polarizing film according to [1] or [2], wherein the B [mm] and the C [mm] satisfy the following formula (3).

1.0<B/C<3.0 (3)

[4] The following process:

An unwinding step of unwinding a long polyvinyl alcohol-based resin film from a raw roll;

A swelling treatment step of taking out the polyvinyl alcohol-based resin film after the unwinding step after immersing it in a swelling bath;

A dyeing treatment step of taking out the polyvinyl alcohol-based resin film after the swelling treatment step after immersing it in a dyeing bath, and

Crosslinking treatment step of taking out the polyvinyl alcohol-based resin film after the dyeing treatment after immersing it in a crosslinking bath

further comprising,

The said extending|stretching process process is the manufacturing method of the polarizing film as described in [1]-[3] performed by any one or more of the said swelling process process, the said dyeing process process, and the said crosslinking process process.

[5] The method for producing a polarizing film according to [4], wherein the stretching treatment step is performed in the crosslinking treatment step.

[6] The crosslinking treatment step includes a first crosslinking treatment step of immersing the polyvinyl alcohol-based resin film after dyeing treatment in a first crosslinking bath and then withdrawing the polyvinyl alcohol-based resin film after the first crosslinking treatment step 2 The manufacturing method of a polarizing film as described in [5] including the 2nd crosslinking treatment process withdrawing after making it immerse in a crosslinking bath, and the said extending|stretching treatment process is performed by the said 2nd crosslinking treatment process.

[7] An apparatus for manufacturing a polarizing film, comprising:

A guide roll for conveying a long polyvinyl alcohol-based resin film along a film conveying path while unwinding it from the original roll, and

A pair of nip rolls for performing stretching treatment on the unwound polyvinyl alcohol-based resin film,

The width of the nip roll disposed on the upstream side of the film transport path is A [mm], the width of the nip roll disposed on the downstream side of the film transport path is B [mm], and the nip roll disposed on the downstream side of the film transport path is on the downstream side. When making the width|variety of the polyvinyl alcohol-type resin film just before contacting into C [mm], the manufacturing apparatus of a polarizing film which satisfy|fills following formula (4).

3.0≤Y<7.0 (4)

[In the formula, Y=(A+B+C)/C]

[8] The apparatus for manufacturing a polarizing film according to [7], wherein A [mm] and C [mm] satisfy the following formula (5).

1.0<A/C<3.0 (5)

[9] The apparatus for manufacturing a polarizing film according to [7] or [8], wherein the B [mm] and the C [mm] satisfy the following formula (6).

1.0<B/C<3.0 (6)

[10] On the film conveying path, a bath for performing a swelling treatment, a bath for performing a dyeing treatment, and a bath for performing a crosslinking treatment are provided in this order,

The manufacturing apparatus of the polarizing film as described in [7]-[9] provided with the said pair of nip rolls in the inlet and outlet of any one or more bathtubs among the said bathtubs.

[11] The apparatus for manufacturing a polarizing film according to [10], wherein the pair of nip rolls are provided at the inlet and outlet of the bathtub for performing the crosslinking treatment.

[12] The bath for performing the crosslinking treatment includes a first crosslinking bath and a second crosslinking bath sequentially from an upstream side of the film transport path, and the pair of nip rolls at the inlet and outlet of the second crosslinking bath The apparatus for producing a polarizing film according to [11], comprising:

ADVANTAGE OF THE INVENTION According to this invention, the manufacturing method and manufacturing apparatus of the polarizing film which can manufacture the polarizing film with uniform shrinkage force in the width direction can be provided. Moreover, the polarizing film obtained using the manufacturing method and manufacturing apparatus of the polarizing film of this invention has favorable thickness uniformity and an optical characteristic.

BRIEF DESCRIPTION OF THE DRAWINGS It is the schematic which showed typically an example of the manufacturing method of a polarizing film.
2 is a flowchart illustrating a method of manufacturing a polarizing film.
It is sectional drawing which showed typically an example of the manufacturing apparatus of a polarizing film.
It is sectional drawing which showed typically an example of the crosslinking bath in the manufacturing apparatus of a polarizing film.

EMBODIMENT OF THE INVENTION Hereinafter, although embodiment of this invention is described, referring drawings, this invention is not limited to the following embodiment. In all the drawings below, the scales are appropriately adjusted for easy understanding of each component, and the scale of each component shown in the drawings and the scale of the actual component do not necessarily coincide.

<Method for producing polarizing film>

The manufacturing method of the polarizing film which concerns on one aspect of this invention includes the extending|stretching treatment process of performing an extending|stretching process between a pair of nip rolls, conveying a polyvinyl alcohol-type resin film.

[Polyvinyl alcohol-based resin film]

As polyvinyl alcohol-type resin which comprises a polyvinyl alcohol-type resin film, what saponified polyvinyl acetate-type resin can be used. As polyvinyl acetate-type resin, the copolymer of vinyl acetate and other monomer copolymerizable to this other than polyvinyl acetate which is a homopolymer of vinyl acetate is illustrated. Examples of the other monomer copolymerizable with vinyl acetate include unsaturated carboxylic acids, olefins, vinyl ethers, unsaturated sulfonic acids, and (meth)acrylamides having an ammonium group. The degree of saponification of the polyvinyl alcohol-based resin is usually about 85 mol% or more, preferably about 90 mol% or more, and more preferably about 99 mol% or more. In this specification, "(meth)acryl" means at least one chosen from acryl and methacryl. It is the same also about "(meth)acryloyl."

The polyvinyl alcohol-based resin may be modified, for example, polyvinyl formal, polyvinyl acetal, polyvinyl butyral, etc. modified with aldehydes may also be used.

The average degree of polymerization of polyvinyl alcohol-type resin becomes like this. Preferably it is 100 or more and 10000 or less, More preferably, they are 1500 or more and 8000 or less, More preferably, they are 2000 or more and 5000 or less. The average degree of polymerization of polyvinyl alcohol-type resin can be calculated|required based on JISK6726 (1994). If the average degree of polymerization is less than 100, it is difficult to obtain preferable polarization performance, and if it exceeds 10000, the film processability may be inferior.

The width|variety of the polyvinyl alcohol-type resin film which is a raw film is 300 mm or more and 5000 mm or less, for example.

The thickness of the polyvinyl alcohol-based resin film as the raw film is, for example, about 10 µm or more and 50 µm or less, and from the viewpoint of setting the thickness of the polarizing film to 15 µm or less, preferably 40 µm or less, more preferably 30 µm or less to be.

[Stretching process]

An extending|stretching process process is a process of performing an extending|stretching process between a pair of nip rolls, conveying a polyvinyl alcohol-type resin film. The stretching treatment may be a uniaxial stretching treatment. The stretching treatment may be either dry stretching in which stretching is performed in the air or wet stretching in which stretching is performed in a treatment bath described later, or both of them may be performed. An extending|stretching process may be interroll extending|stretching which uniaxially stretches in a film conveyance direction by putting a circumferential speed difference between a pair of nip rolls.

The draw ratio on the basis of the raw film (in the case of performing the stretching treatment in two or more steps, these cumulative draw ratios) are about 3 times or more and 8 times or less. In order to provide favorable polarization characteristics, a draw ratio becomes like this. Preferably it is 4 times or more, More preferably, it is 5 times or more.

BRIEF DESCRIPTION OF THE DRAWINGS It is the schematic which showed the extending|stretching process process. Among the nip rolls 1 and 2 constituting a pair of nip rolls, the width of the upstream nip roll 1 in the film conveyance direction is A [mm] (hereinafter, also referred to as upstream nip roll width A), downstream in the film conveying direction. The width of the side nip roll 2 is B [mm] (hereinafter, also referred to as downstream nip roll width B), the polyvinyl alcohol-based resin film 3 immediately before contacting the downstream nip roll 2 in the film conveying direction. When the width is C [mm] (hereinafter also referred to as PVA width C), the following formula (1) is satisfied.

3.0≤Y<7.0 (One)

[In the formula, Y=(A+B+C)/C]

A nip roll is normally comprised from two rolls. In FIG. 1, the nip roll 1 is comprised from the two rolls 1a and 1b, and the nip roll 2 is comprised from the two rolls 2a and 2b. The width of the two rolls constituting the nip roll may be the same or different from each other.

Stretching process WHEREIN: By satisfy|filling said Formula (1), the shrinkage force in the width direction of the polarizing film obtained and the dispersion|variation in thickness become small, and excellent visibility correction single transmittance Ty (henceforth transmittance Ty) and visibility correction|amendment. There exists a tendency for the single polarization degree Py (henceforth also referred to as polarization degree Py) to become easy to be obtained. In this specification, the width direction of a polarizing film is a direction perpendicular|vertical with respect to a film conveyance direction, and says the direction perpendicular|vertical with respect to the absorption axis of a polarizing film.

Y in Formula (1) becomes like this. Preferably it is 3.1 or more, More preferably, it is 3.3 or more, More preferably, it is 3.5 or more. Y in said Formula (1) becomes like this. Preferably it is 6.9 or less, More preferably, it is 6.7 or less, More preferably, it is 6.5 or less, Especially preferably, it is 6.3 or less.

The upstream nip roll width A is, for example, 300 mm or more and 3600 mm or less. In addition, in an upstream nip roll WHEREIN: When the width|variety of two rolls which comprises a nip roll mutually differ, let the shorter width|variety of a roll be the upstream nip roll width A.

The downstream nip roll width B is, for example, 300 mm or more and 3100 mm or less. In addition, in a downstream nip roll WHEREIN: When the width|variety of two rolls which comprises a nip roll mutually differ, let the shorter width of a roll be the downstream nip roll width B.

The upstream nip roll width A [mm] and the downstream nip roll width B [mm] may be the same or different.

The PVA width C is, for example, 300 mm or more and 3000 mm or less.

The upstream nip roll width A and PVA width C can preferably satisfy the following formula (2) further from the viewpoint of the shrinkage force and thickness uniformity in the width direction of the polarizing film.

1.0<A/C<3.0 (2)

A/C in said Formula (2) becomes like this. Preferably it is 1.1 or more, More preferably, it is 1.2 or more. A/C in said Formula (2) becomes like this. Preferably it is 2.9 or less, More preferably, it is 2.7 or less, More preferably, it is 2.6 or less, Especially preferably, it is 2.5 or less.

The upstream nip roll width B and PVA width C can preferably satisfy the following formula (3) further from the viewpoint of the shrinkage force and thickness uniformity in the width direction of the polarizing film.

1.0<B/C<3.0 (3)

B/C in said Formula (3) becomes like this. Preferably it is 1.1 or more, More preferably, it is 1.2 or more. B/C in said Formula (3) becomes like this. Preferably it is 2.9 or less, More preferably, it is 2.7 or less, More preferably, it is 2.6 or less, Especially preferably, it is 2.5 or less.

Although not shown in FIG. 1, you may support a film using one or more guide rolls between a pair of nip rolls 1, 2.

[An embodiment of a method for producing a polarizing film]

The manufacturing method of a polarizing film is the following process: Unwinding process of unwinding a long polyvinyl alcohol-type resin film from a raw roll, Swelling treatment process of withdrawing after immersing the polyvinyl alcohol-type resin film after the unwinding process in a swelling bath , a dyeing treatment step of withdrawing the polyvinyl alcohol-based resin film after the swelling treatment step after immersing it in the dyeing bath, and a crosslinking treatment step of withdrawing the polyvinyl alcohol-based resin film after the dyeing treatment after immersing it in the crosslinking bath can

An extending|stretching treatment process can be performed in any one or more of a swelling treatment process, a dyeing|staining treatment process, and a crosslinking treatment process. Moreover, you may perform other extending|stretching process other than the said extending|stretching process process. The other stretching treatment may be, for example, inter-roll stretching, hot roll stretching, tenter stretching, etc. other than the above stretching treatment.

The said process can be performed continuously by conveying the polyvinyl alcohol-type resin film which is a raw film continuously along the film conveyance path|route of the manufacturing apparatus of a polarizing film. The film conveyance path|route is equipped with the facilities (processing tank, a furnace, etc.) for implementing each process in these implementation order.

The film transport path may be constructed by arranging guide rolls, nip rolls, and the like in appropriate positions in addition to the above equipment. For example, the guide roll can be disposed before or after the treatment bath or in the treatment bath, which will be described later, whereby the film can be introduced and immersed into the treatment bath and taken out from the treatment bath. More specifically, by providing two or more guide rolls in each treatment bath, and conveying a film along these guide rolls, a film can be immersed in each treatment bath.

The manufacturing method of a polarizing film is demonstrated in detail, referring FIG. The manufacturing method shown in FIG. 2 is unwinding process S10 which unwinds a long polyvinyl alcohol-type resin film from a raw roll, and swelling treatment process S20 which draws out after immersing the polyvinyl alcohol-type resin film after the unwinding process in a swelling bath. , a dyeing treatment step S30 of withdrawing the polyvinyl alcohol-based resin film after the swelling treatment step after immersing it in a dyeing bath, and a crosslinking treatment step S40 of withdrawing the polyvinyl alcohol-based resin film after the dyeing treatment after immersing it in a crosslinking bath; Washing process S50 of immersing the film after crosslinking treatment process S40 in a washing tank, and drying process S60 after washing|cleaning process S50 are included.

As described above, the polyvinyl alcohol-based resin film may be subjected to a stretching treatment step in any one or more steps in the manufacturing process of the polarizing film, more specifically, in any one or more steps from the swelling treatment step S20 to the crosslinking treatment step S40. can

[Unwinding process]

The polyvinyl alcohol-based resin film, which is a raw film, can be prepared, for example, as a roll (wound product) of a long unstretched or stretched polyvinyl alcohol-based resin film. In this case, a polarizing film is also obtained as an elongate object. Unwinding process S10 can unwind a long polyvinyl alcohol-type resin film from a master roll using an unwinding apparatus. The unwound polyvinyl alcohol-type resin film is conveyed continuously along a film conveyance path|route.

[Swelling treatment process]

The swelling treatment is a treatment performed as needed for the purpose of removing foreign substances from the polyvinyl alcohol-based resin film, which is a raw film, removing a plasticizer, imparting ease of dyeing, plasticizing the film, etc., specifically, a treatment solution containing water It can carry out by immersing a polyvinyl alcohol-type resin film in the bath (henceforth a swelling bath) for performing a swelling process to accommodate. The said film may be immersed in one swelling bath, and may be immersed in two or more swelling baths one by one.

An extending|stretching process process can be performed before a swelling process, at the time of a swelling process, or before a swelling process and at the time of a swelling process.

The treatment liquid accommodated in the swelling bath may be water (eg, pure water) or an aqueous solution to which a water-soluble organic solvent such as alcohol is added.

The temperature of the processing liquid accommodated in the swelling bath at the time of immersing a film is about 10-70 degreeC normally, Preferably it is about 15-50 degreeC, and the immersion time of a film is about 10-600 second normally, Preferably 20 to 300 seconds.

A swelling treatment process may be equipped with the tank (henceforth a water washing treatment tank) for performing the water washing process for wash|cleaning a polyvinyl alcohol-type resin film, before performing a swelling process.

[Dyeing treatment process]

The dyeing treatment in this step is a treatment performed for the purpose of adsorbing and orienting the dichroic dye to the polyvinyl alcohol-based resin film, specifically, performing a dyeing treatment containing a treatment liquid containing the dichroic dye. It can carry out by immersing a polyvinyl alcohol-type resin film in the bath (henceforth a dyeing bath) for this purpose. The said film may be immersed in one dyeing bath, and may be immersed sequentially in two or more dyeing baths. For example, when sequentially immersed in two dyeing baths, it may be called a 1st dyeing process process and a 2nd dyeing process process from an upstream in a film conveyance direction.

In order to improve the dyeability of a dichroic dye, the extending|stretching process to a certain extent may be given to the film used for a dyeing|staining treatment process at least. Instead of the stretching treatment before the dyeing treatment, or in addition to the stretching treatment before the dyeing treatment, the stretching treatment step may be performed at the time of the dyeing treatment.

The dichroic dye may be iodine or a dichroic organic dye. Specific examples of the dichroic organic dye include Red BR, Red LR, Red R, Pink LB, Rubin BL, Bordeaux GS, Sky Blue LG, Lemon Yellow, Blue BR, Blue 2R, Navy RY, Green LG, Violet LB, Violet. B, Black H, Black B, Black GSP, Yellow 3G, Yellow R, Orange LR, Orange 3R, Scarlet GL, Scarlet KGL, Congo Red, Brilliant Violet BK, Supra Blue G, Supra Blue GL, Supra Orange GL, Direct Sky Includes Blue, Direct First Orange S, and First Black. A dichroic dye may be used individually by 1 type, and may use 2 or more types together.

When using iodine as a dichroic dye, the aqueous solution containing an iodine and potassium iodide can be used for the processing liquid accommodated in a dyeing bath. Instead of potassium iodide, another iodide such as zinc iodide may be used, or potassium iodide and another iodide may be used in combination. In addition, you may make it coexist with compounds other than iodide, for example, boric acid, zinc chloride, cobalt chloride, etc. When boric acid is added, it is distinguished from the crosslinking process mentioned later at the point containing an iodine. Content of the iodine in the said aqueous solution is 0.01 mass part or more and 1 mass part or less per 100 mass parts of water normally. Moreover, content of iodides, such as potassium iodide, is 10.5 mass parts or more and 20 mass parts or less per 100 mass parts of water normally.

The temperature of the treatment liquid accommodated in the dyeing bath at the time of immersing the film is usually 10°C or more and 45°C or less, preferably 10°C or more and 40°C or less, more preferably 20°C or more and 35°C or less, Immersion time is 30 second or more and 600 second or less normally, Preferably they are 60 second or more and 300 second or less.

When using a dichroic organic dye as a dichroic dye, the aqueous solution containing a dichroic organic dye can be used for the processing liquid accommodated in a dyeing bath. Content of the dichroic organic dye in the said aqueous solution is 1x10 ^-4 mass part or more and 10 mass parts or less per 100 mass parts of water normally, Preferably they are 1x10 ^-3 mass part or more and 1 mass part or less. The dyeing bath may be made to coexist with a dyeing aid etc., For example, inorganic salts, such as sodium sulfate, surfactant, etc. may be made to contain. A dichroic organic dye may be used individually by 1 type, and may use 2 or more types together. The temperature of the treatment liquid accommodated in the dyeing bath at the time of immersing the film is, for example, 20°C or more and 80°C, preferably 30°C or more and 70°C or less, and the immersion time of the film is usually 30 seconds or more and 600 seconds or less, preferably It is usually 60 seconds or more and 300 seconds or less.

[Crosslinking treatment process]

Crosslinking treatment of treating the polyvinyl alcohol-based resin film with a crosslinking agent after the dyeing treatment step is a treatment performed for the purpose of water resistance or color adjustment by crosslinking, specifically, a bath for crosslinking treatment containing a crosslinking agent ( Hereinafter, it may be a treatment in which the film after the dyeing treatment process is immersed in a treatment solution accommodated in a crosslinking bath). The film may be immersed in one crosslinking bath or may be sequentially immersed in two or more crosslinking baths. You may perform an extending|stretching process process at the time of a crosslinking process. For example, when sequentially immersed in two crosslinking baths, it may be called a 1st crosslinking treatment process and a 2nd crosslinking treatment process from an upstream in a film conveyance direction.

As a crosslinking agent, a boric acid, a glyoxal, glutaraldehyde, etc. are mentioned, A boric acid is used preferably. Two or more types of crosslinking agents can also be used together. Content of the boric acid in the process liquid accommodated in a crosslinking bath is 0.1 mass part or more and 15 mass parts or less per 100 mass parts of water normally, Preferably they are 1 mass part or more and 10 mass parts or less. When the dichroic dye is an iodine, it is preferable that the processing liquid accommodated in a crosslinking bath contains iodide other than boric acid. Content of the iodide in the processing liquid accommodated in a crosslinking bath is 0.1 mass part or more and 15 mass parts or less per 100 mass parts of water normally, Preferably they are 5 mass parts or more and 12 mass parts or less. Potassium iodide, zinc iodide, etc. are mentioned as an iodide. In addition, compounds other than iodide, such as zinc chloride, cobalt chloride, zirconium chloride, sodium thiosulfate, potassium sulfite, sodium sulfate, etc., may be coexisted in the crosslinking bath.

The temperature of the treatment liquid accommodated in the crosslinking bath at the time of immersing the film is usually 50°C or more and 85°C or less, preferably 50°C or more and 70°C or less, and the immersion time of the film is usually 10 seconds or more and 600 seconds or less, Preferably it is 20 second or more and 300 second or less.

When the crosslinking bath is constituted by two or more sets, the composition and temperature of the treatment liquid accommodated in each crosslinking bath may be the same or different. The processing liquid accommodated in a crosslinking bath may have the density|concentration and temperature of a crosslinking agent, iodide, etc. according to the objective of immersing a polyvinyl alcohol-type resin film. The crosslinking treatment for water resistance by crosslinking and the crosslinking treatment for color adjustment (complementary color) may be respectively performed in a plurality of steps (eg, a plurality of sets).

In general, when both crosslinking treatment for water resistance by crosslinking and crosslinking treatment for color adjustment (complementary color) are performed, a ton (complementary color tint) subjected to crosslinking treatment for color adjustment (complementary color) is placed at the rear end do. The temperature of the treatment liquid accommodated in the complementary color tone is, for example, 10°C or more and 55°C or less, and preferably 20°C or more and 50°C or less. Content of the crosslinking agent in the processing liquid accommodated in the complementary color tone is, for example, 1 mass part or more and 5 mass parts or less per 100 mass parts of water. Content of the iodide in the processing liquid accommodated in the complementary color tone is, for example, 3 mass parts or more and 30 mass parts or less per 100 mass parts of water.

The stretching treatment step is preferably performed in the crosslinking treatment step from the viewpoint of the shrinkage force and thickness uniformity in the width direction of the polarizing film. desirable. The crosslinking treatment step includes a first crosslinking treatment step of immersing the polyvinyl alcohol-based resin film after dyeing treatment in the first crosslinking bath and then withdrawing the polyvinyl alcohol-based resin film after the first crosslinking treatment step in a second crosslinking bath When the 2nd crosslinking treatment process taken out after making it immerse is included, it is preferable to perform an extending|stretching treatment process by a 2nd crosslinking treatment process.

[Cleaning process]

The washing treatment in this step is a treatment performed as needed for the purpose of removing drugs such as excess crosslinking agent and dichroic dye adhering to the polyvinyl alcohol-based resin film, and crosslinking using a washing solution containing water. It is a process which wash|cleans the polyvinyl alcohol-type resin film after a process process. Specifically, it may be a treatment in which the polyvinyl alcohol-based resin film after the crosslinking treatment step is immersed in the treatment liquid (washing liquid) accommodated in the cleaning tank. The said film may be immersed in one washing tank, and may be immersed in two or more washing tanks sequentially. Alternatively, the washing treatment may be a treatment in which a washing liquid is sprayed as a shower onto the polyvinyl alcohol-based resin film after the crosslinking treatment step, or a combination of immersion and spraying described above.

The washing liquid may be water (eg, pure water) or an aqueous solution to which a water-soluble organic solvent such as alcohol is added. The temperature of the cleaning liquid may be, for example, about 5°C or more and 40°C or less.

Washing process S50 is an arbitrary process, and may be abbreviate|omitted, and a washing process may be performed during drying process S60 so that it may mention later. Preferably, drying process S60 is performed with respect to the film after performing washing|cleaning process S50.

[Drying process]

Drying process S60 is a zone for drying the polyvinyl alcohol-type resin film after washing|cleaning process S50. A drying process can be performed by introduce|transducing the said film into drying process S60, continuing conveying the polyvinyl alcohol-type resin film after washing|cleaning process S50, Thereby, a polarizing film can be obtained.

A drying process is performed using the drying means (heating means) of a film. A suitable example of a drying means is a drying furnace. As for a drying furnace, Preferably, the temperature in a furnace is controllable. The drying furnace is, for example, a hot air oven capable of raising the furnace temperature by supply of hot air or the like. In addition, the drying treatment by the drying means may be a treatment of adhering the polyvinyl alcohol-based resin film after the washing step S50 to one or two or more heating elements having a convex curved surface, or a treatment of heating the film using a heater.

Examples of the heating body include a roll (eg, a guide roll that also serves as a heat roll) having a heat source (for example, a heat source such as hot water or an infrared heater) therein to increase the surface temperature. As said heater, an infrared heater, a halogen heater, a panel heater, etc. are mentioned.

The temperature (for example, the furnace temperature of a drying furnace, the surface temperature of a hot roll, etc.) of a drying process is 30 degreeC or more and 100 degrees C or less normally, It is preferable that they are 50 degreeC or more and 90 degrees C or less. Although the drying time in particular is not restrict|limited, For example, it is 30 second or more and 600 second or less.

[Other treatment processes]

As another treatment process, the complementary color treatment process etc. which are immersed in the iodide aqueous solution which does not contain boric acid performed after a crosslinking process, for example may be sufficient.

Through the above process, the polarizing film in which the dichroic dye is adsorbed-oriented to the polyvinyl alcohol-type resin film uniaxially stretched can be obtained.

The obtained polarizing film can also be conveyed to the next polarizing plate preparation process (process of bonding a thermoplastic resin film to one side or both surfaces of a polarizing film) as it is, for example.

[Polarizing film]

The thickness of a polarizing film may be 4 micrometers or more and 40 micrometers or less, for example, Preferably they are 4 micrometers or more and 30 micrometers or less, More preferably, they are 4 micrometers or more and 24 micrometers or less.

The contractile force of a polarizing film may be 1.0 N or more and 10.0 N or less, for example, Preferably they are 1.0 N or more and 5.0 N or less, More preferably, they are 1.0 N or more and 4.0 N or less.

As for the polarizing film, 0.3 N or less may be sufficient as the dispersion|variation of the shrinkage force in the width direction, For example, Preferably it is 0.25 N or less. In this specification, the dispersion|variation in the contracting force in the width direction means the difference of the contractile force in the center part and an edge part in the width direction.

The transmittance Ty of a polarizing film may be 40 % or more, for example, and may be 50.0 % or less normally, for example, less than 50.0 % may be sufficient and 49.0 % or less may be sufficient as it.

As for the polarizing film, the dispersion|variation in transmittance|permeability Ty in the width direction may be 2.0 % or less, for example, Preferably it is 1.0 % or less. In this specification, the dispersion|variation in the transmittance|permeability Ty in the width direction means the difference of the maximum value and the minimum value of the transmittance|permeability Ty in the width direction.

The polarizing film may have a polarization degree Py of, for example, 99.00% or more, preferably 99.90% or more, and usually 100% or less, for example, less than 100%.

As for the polarizing film, the dispersion|variation of the polarization degree Py in the width direction may be 0.1 % or less, for example, Preferably it is 0.01 % or less. In this specification, the deviation of the polarization degree Py in the width direction means the difference between the maximum value and the minimum value of the polarization degree Py in the width direction.

The thickness, shrinkage force, transmittance Ty, and polarization degree Py of the polarizing film can be measured according to the method described in the section of Examples to be described later.

<Manufacturing apparatus of a polarizing film>

An apparatus for manufacturing a polarizing film according to another embodiment of the present invention includes a guide roll for conveying a long polyvinyl alcohol-based resin film along a film conveying path while unwinding it from a master roll, and to the unwound polyvinyl alcohol-based resin film. A pair of nip rolls to which an extending|stretching process is performed are provided. The description in the manufacturing method of the above-mentioned polarizing film applies to description about a polyvinyl alcohol-type resin film, a raw roll, a film conveyance route, a guide roll, an extending|stretching process, and a pair of nip rolls.

The width of the nip roll disposed on the upstream side of the film transport path is A [mm] (hereinafter also referred to as the upstream nip roll width A), and the width of the nip roll disposed on the downstream side of the film transport path is B [mm] (hereinafter, the downstream When the width of the polyvinyl alcohol-based resin film immediately before contacting the nip roll arranged on the downstream side of the side nip roll width B), C [mm] (hereinafter also referred to as PVA width C), the following Equation (4) is satisfied.

3.0≤Y<7.0 (4)

[In the formula, Y=(A+B+C)/C]

In the manufacturing apparatus of a polarizing film, by satisfying said Formula (4), the shrinkage force in the width direction of the polarizing film obtained and the dispersion|variation in thickness become small, and there exists a tendency for the outstanding transmittance|permeability Ty and polarization degree Py to become easy to be obtained. .

In said Formula (4), Y becomes like this. Preferably it is 3.1 or more, More preferably, it is 3.3 or more, More preferably, it is 3.5 or more. In said Formula (4), Y becomes like this. Preferably it is 6.9 or less, More preferably, it is 6.7 or less, More preferably, it is 6.5 or less, Especially preferably, it is 6.3 or less.

The upstream nip roll width A is, for example, 300 mm or more and 3600 mm or less. In addition, in an upstream nip roll WHEREIN: When the width|variety of two rolls which comprises a nip roll mutually differ, let the shorter width|variety of a roll be the upstream nip roll width A.

The downstream nip roll width B is, for example, 300 mm or more and 3100 mm or less. In addition, in a downstream nip roll WHEREIN: When the width|variety of two rolls which comprises a nip roll mutually differ, let the shorter width of a roll be the downstream nip roll width B.

The upstream nip roll width A [mm] and the downstream nip roll width B [mm] may be the same or different.

The PVA width C is, for example, 300 mm or more and 3000 mm or less.

The upstream nip roll width A and PVA width C can preferably further satisfy the following formula (5) from the viewpoint of the contractile force.

1.0<A/C<3.0 (5)

A/C in said Formula (5) becomes like this. Preferably it is 1.1 or more, More preferably, it is 1.2 or more. The right side of the formula (5) is preferably 2.9 or less, more preferably 2.7 or less, still more preferably 2.6 or less, particularly preferably 2.5 or less.

The upstream nip roll width B and PVA width C can preferably further satisfy the following formula (6) from the viewpoint of the contractile force.

1.0<B/C<3.0 (6)

B/C in said Formula (6) becomes like this. Preferably it is 1.1 or more, More preferably, it is 1.2 or more. B/C in said Formula (6) becomes like this. Preferably it is 2.9 or less, More preferably, it is 2.7 or less, More preferably, it is 2.6 or less, Especially preferably, it is 2.5 or less.

In the manufacturing apparatus of a polarizing film, a pair of nip rolls is a process which performs a process with respect to the polyvinyl alcohol-type resin film installed on the film conveyance path, such as one or more treatment baths (swelling bath, dyeing bath, crosslinking bath, and a washing bath) A bath accommodating a liquid may be disposed at the inlet and outlet of the treatment bath). Thereby, in one or more processing baths, between the rolls extending|stretching which uniaxially stretches in a film conveyance direction with the circumferential speed difference between the nip rolls arrange|positioned before and behind that can be implemented.

[An embodiment of an apparatus for manufacturing a polarizing film]

The manufacturing apparatus of a polarizing film is equipped with the bathtub for performing a swelling process on a film conveyance path, a bathtub for performing a dyeing process, and a bathtub for performing a crosslinking process in this order, The bathtub of any one or more of the said bathtubs A pair of nip rolls may be provided at the inlet and outlet for performing the stretching treatment. The description in the manufacturing method of the above-mentioned polarizing film applies to the description about a swelling process, a dyeing|staining process, and a crosslinking process.

Hereinafter, the manufacturing apparatus of the polarizing film of this invention is demonstrated in detail, referring FIG. The polarizing film manufacturing apparatus shown in FIG. 3 conveys the raw (unstretched) film 10 which consists of polyvinyl alcohol-type resin along a film conveyance path while continuously unwinding from the raw roll 11, A film conveyance path It is comprised so that the swelling bath 13, the dyeing|staining bath 15, the crosslinking bath 17, and the washing|cleaning bath 19 provided on the top may pass sequentially, and finally the drying furnace 21 may be passed through. The obtained polarizing film 23 can be conveyed by the next polarizing plate preparation process (the process of bonding a protective film to one side or both surfaces of the polarizing film 23) as it is, for example. The arrow in FIG. 3 has shown the conveyance direction of a film.

3 shows an example in which one treatment bath (swelling bath 13, dyeing bath 15, cross-linking bath 17, and washing bath 19) is provided one by one, if necessary, any one or more treatments Two or more sets of bathtubs may be installed.

The pair of nip rolls may be, for example, a combination of nip rolls 51 and 52 , a combination of nip rolls 52 and 53 , a combination of nip rolls 53 and 54 , and the like.

The film conveyance path of a polarizing film manufacturing apparatus presses and clamps the guide roll 30-50 which can support the film conveyed or can change a film conveyance direction other than the said processing bath, and the conveyed film, and the rotation It can be constructed by arranging the nip rolls 51 to 55 capable of imparting a driving force to the film or changing the film conveying direction at an appropriate position. A guide roll and a nip roll can be arrange|positioned before and after each process bath or in a process bath, and can perform introduction|introduction and immersion of the film to a process bath, and extraction|take-out from a process bath by this. For example, by providing one or more guide rolls in each treatment bath, and conveying a film along these guide rolls, a film can be immersed in each treatment bath.

In the swelling treatment, while continuously unwinding the raw film 10 from the raw roll 11, it is transported along the film transport path, and the raw film 10 is placed in the swelling bath 13 (processing liquid accommodated in the swelling bath). It can be carried out by immersing in time and then withdrawing. In a swelling process, it is conveyed along the film conveyance path built by the nip rolls 51 and 52 and the guide rolls 30-34.

In a swelling process, the problem that the raw film 10 swells in the width direction, and a wrinkle arises in a film tends to generate|occur|produce. As one means for conveying the film while removing the wrinkles, a roll having a widening function such as an expander roll, a spiral roll, or a crown roll is used for any one or more of the guide rolls 30 to 34, or a cloth guider, bend The use of other widening devices such as bars and tenter clips may be mentioned. Moreover, when performing an extending|stretching process with the nip rolls 51 and 52, there exists a tendency for generation|occurrence|production of a wrinkle to become easy to suppress.

In the case of performing the stretching treatment of the film in the swelling bath 13, it can be carried out by a method such as providing a circumferential speed difference between the nip roll 51 and the nip roll 52 respectively arranged at the inlet and the outlet of the swelling bath 13. have.

In the swelling treatment, since the film swells and expands also in the conveying direction of the film, when active stretching is not performed on the film, in order to eliminate the slack of the film in the conveying direction, for example, before and after the swelling bath 13. It is preferable to take measures, such as controlling the speed of the nip rolls 51 and 52. In addition, for the purpose of stabilizing the film transport in the swelling bath 13, the water flow in the swelling bath 13 is controlled by an underwater shower, or an EPC device (Edge Position Control device: edge position control device: detects the edge of the film, the meandering of the film) It is also useful to use or use a device to prevent

In the example shown in FIG. 3 , the film drawn out from the swelling bath 13 passes through the nip roll 52 and the guide roll 35 in order and is introduced into the dyeing bath 15 .

The dyeing process is carried out along the film transport path constructed by the nip rolls 52 and 53 and the guide rolls 35 to 39, and the film after the swelling process is placed in the dyeing bath 15 (treatment liquid accommodated in the dyeing bath). It can be carried out by immersing in time and then withdrawing. In order to improve the dyeability of the dichroic dye, the film provided in the dyeing process is preferably a film subjected to at least some stretching treatment, or instead of the stretching treatment before the dyeing treatment, or in addition to the stretching treatment before the dyeing treatment. It is more preferable to perform an extending|stretching treatment process at the time of a process.

In the dyeing treatment, in order to convey the polyvinyl alcohol-based resin film while removing the wrinkles of the film as in the swelling treatment, any one or more of the guide rolls 35 to 39 has an expanding function such as an expander roll, a spiral roll, and a crown roll. It is possible to use a roll having a Moreover, when performing an extending|stretching process with the nip rolls 52 and 53, there exists a tendency for generation|occurrence|production of a wrinkle to become easy to suppress.

When the film is stretched in the dyeing bath 15, it can be carried out by a method such as providing a circumferential speed difference between the nip rolls 52 and 53 respectively arranged at the inlet and the outlet of the dyeing bath 15. have.

The film drawn out from the dyeing bath 15 passes through the nip roll 53 and the guide roll 40 in order and is introduced into the crosslinking bath 17 .

The crosslinking treatment is carried out along the film conveying path constructed by the nip rolls 53 and 54 and the guide rolls 40 to 44, and the film after the dyeing treatment is placed in the crosslinking bath 17 (treatment liquid accommodated in the crosslinking bath). It can be carried out by immersing in time and continuously withdrawing.

The extending|stretching process can also be performed within the crosslinking bathtub 17 using the circumferential speed difference of the nip roll 53 and the nip roll 54 respectively arrange|positioned at the inlet and the outlet of the bathtub for crosslinking process. From a viewpoint of the shrinkage force in the width direction of a polarizing film, and thickness uniformity, Preferably, an extending|stretching process process is performed within the crosslinking bath 17.

The crosslinking bath 17 may be composed of a first crosslinking bath 17a and a second crosslinking bath 17b sequentially from the upstream side of the film conveying path, as shown in FIG. 4 . When the crosslinking bath 17 is composed of the first crosslinking bath 17a and the second crosslinking bath 17b, a pair of nip rolls 56 and 57 disposed at the inlet and outlet of the second crosslinking bath 17b It is preferable to perform an extending|stretching process by this. In FIG. 4, the nip roll 56 turns into an entry nip roll, and the nip roll 57 turns into an exit nip roll.

In the crosslinking treatment, as in the swelling treatment, in order to convey the polyvinyl alcohol-based resin film while removing the wrinkles of the film, any one or more of the guide rolls 40 to 44 has an expanding function such as an expander roll, a spiral roll, and a crown roll. It is possible to use a roll having a Moreover, when performing an extending|stretching process with the nip rolls 53 and 54, there exists a tendency for generation|occurrence|production of a wrinkle to become suppressed easily.

The film drawn out from the crosslinking bath 17 passes through the nip roll 54 and the guide roll 45 in order and is introduced into the washing tank 19 . Also in the washing treatment, for the purpose of conveying the polyvinyl alcohol-based resin film while removing wrinkles, a roll having an expanding function such as an expander roll, a spiral roll, or a crown roll is used for at least one of the guide rolls 45 to 49 Alternatively, another widening device such as a cloth guider, bend bar, or tenter clip may be used.

It is preferable to perform the process of drying a polyvinyl alcohol-type resin film after a washing process. The drying of the film is not particularly limited, but, for example, may be performed using a drying furnace 21 as shown in FIG. 3 .

The manufacturing method of a polarizing film may be equipped with another processing bath. Examples of the other treatment bath include a complementary color treatment bath for treatment with an aqueous iodide solution containing no boric acid, which is performed after the crosslinking treatment.

Example

Hereinafter, the present invention will be described in more detail by way of Examples. "%" and "part" in the examples are mass% and parts by mass unless otherwise specified.

(1) Contraction force of polarizing film

Supercut the polarizing film into a rectangle having a short side of 2 mm and a long side of 50 mm from the center and the end in the width direction so that the slow axis of the polarizing film coincides with the long side (manufactured by Ogino Seiki Seisakusho Co., Ltd.) ) and cut out to obtain a test piece. The shrinkage force of the test piece was measured using a thermomechanical analyzer (manufactured by SI Nanotechnology Co., Ltd., model TMA/6100). This measurement is performed in the dimension constant mode (the distance between chucks is 10 mm), and after leaving the test piece in a room at 20°C for a sufficient time, the room temperature setting of the sample is increased from 20°C to 80°C over 10 minutes. After the temperature was raised, the room temperature of the sample was set to be maintained at 80 °C. After the temperature was raised and left for 4 hours, the contractile force in the long side direction of the test piece was measured under an environment of 80°C. In this measurement, the static load was set to 0 mN, and a SUS probe was used for the jig. The difference in the contractile force of the center part and the edge part was calculated|required as a deviation.

(2) Visibility correction single transmittance Ty and visibility correction polarization degree Py of the polarizing film

An alkali-free glass plate (trade name "EAGLEXG" by Corning Corporation, thickness 0.7mm) was bonded to the polarizing film through the (meth)acrylic-type adhesive layer, and the measurement sample was obtained. A spectrophotometer equipped with an integrating sphere for this measurement sample ("V7100" by Nippon Bunko Co., Ltd., 2 degree field of view; C light source], and the transmittance Ty and the polarization degree Py were measured. The measurement sample was set so that incident light was incident from the opposite side to the alkali-free glass plate.

In addition, the transmittance|permeability Ty and the polarization degree Py are each defined by the following formula.

Transmittance (λ)=0.5×(Tp(λ)+Tc(λ))

Polarization degree (λ)=100×(Tp(λ)−Tc(λ))/(Tp(λ)+Tc(λ))

Tp(λ) is the transmittance (%) when measured with the relationship between the incident linearly polarized light at the wavelength λnm and the parallel Nicols, and Tc(λ) is measured in the relationship between the incident linearly polarized light at the incident wavelength λnm and the orthogonal Nicols It is the transmittance (%) when

The transmittance Ty and the degree of polarization Py are those obtained by correcting the visibility with respect to the single transmittance (λ) and the degree of polarization (λ) obtained for each wavelength using a 2 degree field of view (C light source) of JIS Z 8701. Ty and Py were measured at intervals of 5 nm in the wavelength range of 380 to 780 nm.

(3) thickness of polarizing film

Using Nikon Corporation digital micrometer "MH-15M", the thickness in the width direction (direction perpendicular|vertical with respect to a film conveyance direction) of a polarizing film is measured at multiple points, and the difference between the maximum value and the minimum value among them When , was taken as the deviation, the improvement rate was calculated according to the following equation.

Improvement rate [%] = [(Deviation of Comparative Example 1 - Variation of Example) / Deviation of Comparative Example 1] × 100

<Example 1>

While continuously conveying a long polyvinyl alcohol-based resin film (disc width: 550 mm, average degree of polymerization: about 2400, degree of saponification: 99.9 mol% or more, thickness: 30 μm), It was immersed in a bath sequentially, giving tension|tensile_strength, and it extended|stretched in the film conveyance direction. Then, after washing|cleaning with pure water, it dried and obtained the elongate polarizing film by which the iodine adsorption|suction orientation was carried out to the polyvinyl alcohol film uniaxially stretched.

However, when extending|stretching between a pair of nip rolls in the 2nd crosslinking bathtub of [4], the width (nip roll width A) of the nip roll on the inlet side (film conveyance direction upstream side) of the 2nd crosslinking bathtub is 900 mm, and the exit The width (nip roll width B) of the side (film conveyance direction downstream) nip roll was set to 900 m, and the width (PVA width C) of the polyvinyl alcohol-type resin film just before contacting an exit side nip roll was set to 355 nm. (A+B+C)/C=6.1.

[1] Swelling bath: pure water at 40°C

[2] Dyeing bath: aqueous solution containing iodine and potassium iodide

[3] First crosslinking bath: aqueous solution containing potassium iodide and boric acid

[4] Second crosslinking bath: aqueous solution containing potassium iodide and boric acid

Table 1 shows the improvement rate of the shrinkage force, optical performance, and thickness variation of the obtained polarizing film.

<Examples 2 to 5, Comparative Example 1>

A polarizing film was produced in the same manner as in Example 1, except that the original width of the long polyvinyl alcohol-based resin film, the nip roll widths A and B, and the PVA width C were set to the values shown in Table 1. A result is shown in Table 1.

1,2: nip roll 1a, 1b, 2a, 2b: roll
3: polyvinyl alcohol-based resin film 10: raw film
11: original roll 13: swelling bath
15: dyeing bath 17; bridge bath
17a: first cross-linked bathtub 17b: second cross-linked bathtub
19: washing tank 21: drying furnace
23: polarizing film 30-50: guide roll
51-57: nib roll

Claims (12)

A method for producing a polarizing film, comprising:
A stretching treatment step of performing stretching treatment between a pair of nip rolls while conveying the polyvinyl alcohol-based resin film;
In the above-mentioned stretching treatment step, the width of the upstream nip roll in the film conveying direction among the pair of nip rolls is A [mm], the width of the downstream side nip roll in the film conveying direction is B [mm], in the film conveying direction WHEREIN: When making the width|variety of the polyvinyl alcohol-type resin film immediately before contacting a downstream nip roll into C [mm], the manufacturing method of the polarizing film which satisfy|fills following formula (1).
3.0≤Y<7.0 (1)
[In the formula, Y=(A+B+C)/C] The method of claim 1, wherein A [mm] and C [mm] satisfy the following formula (2).
1.0<A/C<3.0 (2) The method for manufacturing a polarizing film according to claim 1 or 2, wherein B [mm] and C [mm] satisfy the following formula (3).
1.0<B/C<3.0 (3) 4. The process according to any one of claims 1 to 3, wherein:
An unwinding step of unwinding a long polyvinyl alcohol-based resin film from a raw roll;
A swelling treatment step of taking out the polyvinyl alcohol-based resin film after the unwinding step after immersing it in a swelling bath;
A dyeing treatment step of taking out the polyvinyl alcohol-based resin film after the swelling treatment step after immersing it in a dyeing bath, and
Crosslinking treatment step of taking out the polyvinyl alcohol-based resin film after the dyeing treatment after immersing it in a crosslinking bath
further comprising,
The said extending|stretching process process is a manufacturing method of a polarizing film performed by any one or more of the said swelling process process, the said dyeing process process, and the said crosslinking process process. The manufacturing method of the polarizing film of Claim 4 whose said extending|stretching process process is performed by the said crosslinking process process. The polyvinyl alcohol-based resin after the first crosslinking treatment step, and the first crosslinking treatment step, wherein the crosslinking treatment step is a first crosslinking treatment step of immersing the polyvinyl alcohol-based resin film after the dyeing treatment in the first crosslinking bath and then withdrawing it The manufacturing method of a polarizing film including the 2nd bridge|crosslinking process process withdraw|derived after making a film immerse in a 2nd crosslinking bath, and the said extending|stretching process process is performed by a said 2nd bridge|crosslinking process process. An apparatus for manufacturing a polarizing film, comprising:
A guide roll for conveying a long polyvinyl alcohol-based resin film along a film conveying path while unwinding it from the original roll, and
A pair of nip rolls for performing stretching treatment on the unwound polyvinyl alcohol-based resin film,
The width of the nip roll disposed on the upstream side of the film transport path is A [mm], the width of the nip roll disposed on the downstream side of the film transport path is B [mm], and the nip roll disposed on the downstream side of the film transport path is When making the width|variety of the polyvinyl alcohol-type resin film just before contacting into C [mm], the manufacturing apparatus of a polarizing film which satisfy|fills following formula (4).
3.0≤Y<7.0 (4)
[In the formula, Y=(A+B+C)/C] The apparatus for manufacturing a polarizing film according to claim 7, wherein A [mm] and C [mm] satisfy the following formula (5).
1.0<A/C<3.0 (5) The apparatus for manufacturing a polarizing film according to claim 7 or 8, wherein B [mm] and C [mm] satisfy the following formula (6).
1.0<B/C<3.0 (6) 10. The method according to any one of claims 7 to 9, wherein a bath for performing a swelling treatment, a bath for performing a dyeing treatment, and a bath for performing a crosslinking treatment are provided in this order on the film conveying path,
An apparatus for manufacturing a polarizing film comprising the pair of nip rolls at the inlet and outlet of any one or more of the bathtubs. The manufacturing apparatus of the polarizing film of Claim 10 provided with the said pair of nip rolls in the inlet and outlet of the bathtub for performing the said crosslinking process. 12. The method according to claim 11, wherein the bath for performing the crosslinking treatment includes a first crosslinking bath and a second crosslinking bath sequentially from an upstream side of the film conveyance path, and the 1 at an inlet and an outlet of the second crosslinking bath. The manufacturing apparatus of a polarizing film provided with a pair of nip rolls.

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