KR20190027773A - Polarizing plate manufacturing method and apparatus - Google Patents

Abstract

The present invention provides a process for producing a modified polarizing plate having a concave R portion and / or a hole portion of a small diameter, particularly, a process for producing a modified polarizing plate capable of suppressing occurrence of cracks, .
A method for producing a mold-shaped polarizer having a concave R portion,
And forming the concave R portion by using a cutting means that abuts against a cutting surface in a direction perpendicular to the cutting surface.

Description

Polarizing plate manufacturing method and apparatus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of manufacturing a deformed polarizing plate and an apparatus for producing the same. More particularly, the present invention relates to a method of manufacturing a modified polarizing plate having a concave R portion and / or a hole portion and a manufacturing apparatus therefor. The present invention also relates to an optical film using the above-mentioned releasable polarizing plate. A liquid crystal display device using the optical film, an organic EL display device, and an image display device such as a PDP.

In recent years, the use of a polarizing plate is also expected in a meter display portion of a car or a smart watch. It is also expected that the shape of the polarizing plate may be used other than a quadrangle, or that a through hole may be formed in the polarizing plate from the design property of a smart phone or the like. Further, in these mold release machining, more delicate and precise machining processes and more complicated machining processes, which have not been seen in the past, are increasingly required. In the case where small-diameter concave R machining or small-diameter hole machining is performed .

In order to mold a polarizing plate into a mold, for example, there can be mentioned a punching process in which a release button is formed and a polarizing plate is punched out, or a cutting process using laser irradiation. However, in the electronic punching process, it has been found that cracking or bending occurs in the polarizing plate due to damage to the polarizing plate. In the latter laser processing, it has been found that the polarizing plate is discolored by heat. Particularly, in the examination by the applicants, it has been found that cracks and bending tend to occur in concave processing parts such as small-diameter hole machining and small-diameter concave R-machining.

Up to now, proposals have been made concerning finishing processing of the end face of the polarizing plate (see, for example, Patent Documents 1 and 2). However, all of the above proposals relate to the finishing treatment of the end portion of the cutting tool (machining hole) after cutting the polarizing plate to a quadrangle for the most part, and it was not a technique for concave processing of the polarizing plate itself. In addition, the above proposal does not disclose a problem that cracks or creases occur when the concave processing of a minute polarizing plate is performed.

Japanese Patent Application Laid-Open No. 2004-148461 Japanese Patent Application Laid-Open No. 2004-148419

In view of such circumstances, the present invention provides a process for producing a modified polarizing plate having a concave R portion and / or a hole portion of a small diameter in particular, and a process for producing a modified polarizing plate which suppresses generation of cracks or breakage or discoloration of the modified polarizing plate during processing And a manufacturing apparatus thereof.

Means for Solving the Problems As a result of intensive investigations to solve the above problems, the present inventors have found that the above objects can be achieved by the following production method and the like, and have completed the present invention.

In the method for producing a modified polarizing plate of the present invention,

A method for producing a mold-shaped polarizer having a concave R portion,

And forming the concave R portion by using a cutting means that abuts against a cutting surface in a direction perpendicular to the cutting surface.

The method of producing a modified polarizing plate of the present invention suppresses the occurrence of cracks and breaks or discoloration occurring at the time of processing a polarizing plate, which has hitherto been difficult to suppress, particularly by using a means for bringing the blades into contact with the cutting face of the polarizing plate from the lateral direction And it is possible to manufacture a modified polarizer having a concave R portion having a small diameter.

In the present invention, the concave R portion refers to a portion having a concave portion and a curved portion, and the concave portion includes a curved shape such as a circle, an ellipse, or a substantially circular shape. The convex R portion refers to a portion having a convex portion and a curved portion, and includes the convex portion having a curved shape such as a circular, elliptical, or substantially circular shape. For example, the concave R portion and convex R portion shown in Fig. 1 and the like can be given.

In the method of producing a modified polarizing plate of the present invention, it is preferable that the radius of the concave R portion is 5 mm or less. By using the above-described manufacturing method, even when the radius of the concave R portion is 5 mm or less, it is possible to suppress the generation of cracks and breakage or discoloration occurring at the time of processing the polarizer, and to prevent the concave R portion having a concave R It is possible to manufacture a modified polarizing plate having a part. The radius of the concave R portion refers to the radius of curvature when the R portion is a circle and the circle is not a circular shape such as an ellipse or a circle.

In the method for producing a modified polarizing plate of the present invention, it is preferable that the cutting means is an endmill. The use of the above-described production method is preferable particularly in the case of machining a small diameter concave R.

In the method for producing a modified polarizing plate of the present invention, it is preferable that the cutting angle formed by the working direction and the blade surface of the blade is 60 degrees or more. By using the above-described production method, it is possible to suppress the occurrence of delamination of the modified polarizing plate.

Further, in the apparatus for producing a modified polarizing plate of the present invention,

An apparatus for producing a mold-shaped polarizer having a concave R portion,

And cutting means for cutting the cutting face in contact with the cutting edge from the lateral direction.

By using the above production apparatus, it is possible to easily produce a modified polarizing plate having a concave R portion with a small diameter while suppressing the occurrence of cracks and creases or discoloration occurring during processing of the polarizing plate.

Further, in the apparatus for producing a modified polarizing plate of the present invention, it is preferable that the radius of the concave R portion is 5 mm or less. By using the above manufacturing apparatus, it is possible to suppress the occurrence of cracks and breaks or discoloration occurring at the time of processing the polarizing plate, even when the radius of the concave R portion is 5 mm or less, and the concave R It is possible to easily carry out the production of a mold releasing polarizer having a part.

Further, in the apparatus for producing a mold-releasing polarizer of the present invention, it is preferable that the cutting means is an endmill. The use of the above-described manufacturing apparatus is preferable particularly in the case of machining a small diameter concave R.

In the apparatus for producing a polarized light polarizing plate of the present invention, it is preferable that the cutting angle formed by the cutting direction by the cutting means and the blade surface of the blade is 60 degrees or more. By using the above production apparatus, it is possible to suppress the occurrence of delamination of the modified polarizing plate.

Further, in the method for producing a modified polarizing plate of the present invention,

A method for producing a modified polarizer having a hole portion,

And forming the hole portion using an end mill.

In the above production method, particularly by using a means for bringing the blades into contact with the cutting face of the polarizing plate from the lateral direction, it is possible to suppress the occurrence of cracks and breaks or discoloration during processing of the polarizing plate, It is possible to manufacture a modified polarizing plate having a hole portion of the polarizing plate.

In the present invention, the hole portion refers to a portion having a hole such as a circle, an ellipse, a substantially circular shape, an angular shape, or the like and refers to a portion passing through a polarizing plate. For example, the hole portion shown in Fig. 1 and the like can be mentioned.

In the above-mentioned method of producing a modified polarizing plate, it is preferable that the radius of the hole is 5 mm or less. By using the above-described manufacturing method, even when the radius of the hole portion is 5 mm or less, it is possible to suppress generation of cracks and breakage or discoloration occurring at the time of processing of the polarizing plate and to provide a mold releasing portion having a hole portion with a small diameter of 5 mm or less A polarizing plate can be manufactured. The radius of the hole means the radius of the hole when the hole is circular, and the radius of curvature when the hole is not an elliptical shape or a circular shape such as a substantially circular shape.

In the above-mentioned method for producing a modified polarizing plate, it is preferable that the cutting angle formed by the working direction and the blade surface of the end mill is 60 degrees or more. By using the above-described production method, it is possible to suppress the occurrence of delamination of the modified polarizing plate.

Further, in the apparatus for producing a modified polarizing plate of the present invention,

An apparatus for producing a polarizing plate having a hole portion,

And an end mill.

By using the above-described production apparatus, it is possible to easily suppress the occurrence of cracks and creases or discoloration occurring at the time of processing the polarizing plate, and particularly the production of the polarizing plate having small-diameter holes.

In the apparatus for producing a modified polarizing plate of the present invention, it is preferable that the radius of the hole is 5 mm or less. By using the above production apparatus, even when the radius of the hole portion is 5 mm or less, it is possible to suppress the occurrence of cracks and breakage or discoloration occurring at the time of processing the polarizing plate, It is possible to easily manufacture the polarizing plate.

In the apparatus for manufacturing a mold releasing polarizer of the present invention, it is preferable that the cutting angle between the processing direction and the surface of the end mill is 60 ° or more. By using the above production apparatus, it is possible to suppress the occurrence of delamination of the modified polarizing plate.

Fig. 1 shows an example of a modified polarizing plate obtained by the method for producing a modified polarizing plate of the present invention.
Fig. 2 shows an example of an embodiment of the process for producing the modified polarizing plate of the present invention.
Fig. 3 shows an example of an embodiment of the method for producing a modified polarizing plate of the present invention.
Fig. 4 shows an example of the end mill in the production method of the mold polarizing plate of the present invention.
Fig. 5 shows an example of the end mill in the production method of the mold polarizing plate of the present invention.
Fig. 6 shows a processing shape performed in the embodiment of the present invention.
Fig. 7 shows a processing shape performed in the embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described.

In the method for producing a modified polarizing plate of the present invention,

A method for producing a mold-shaped polarizer having a concave R portion,

And forming the concave R portion by using a cutting means that abuts against a cutting surface in a direction perpendicular to the cutting surface.

Further, in the method for producing a modified polarizing plate of the present invention,

A method for producing a modified polarizer having a hole portion,

And forming the hole portion using an end mill.

The method for producing a modified polarizing plate according to the present invention is characterized by comprising the step of forming the concave R portion and / or the hole portion by using a cutting means for cutting the cutting face in a state in which the blades are abutted from the lateral direction. Particularly, by using the means of abutting the blades against the cutting surface of the polarizing plate from the lateral direction, it is possible to suppress the generation of cracks and breaks or the discoloration occurring at the time of processing the polarizing plate, / RTI > and / or < RTI ID = 0.0 > a < / RTI > The cutting means for cutting the cutting face in the direction of abutting against the cutting edge in the lateral direction is, for example, a planar machining (machining to cut the machined surface in parallel by a protruding cutter having a rotation axis parallel to the machining surface) End milling, and the like. In the method for producing a modified polarizing plate of the present invention, it is particularly preferable that the cutting means is an end mill in the case of performing a small diameter concave R process or a small diameter hole process. In addition, in a method of producing a mold releasing polarizer having a hole, an end mill is used as the cutting means.

The end mill is a type of cutting tool, and machining is possible in a direction orthogonal to the rotation axis, unlike a drill which is only machined in the axial direction (only for drilling).

Hereinafter, an embodiment using end milling will be described as an example with reference to Fig. The edge of the end mill corresponding to the blade in this case is rotated with respect to the polarizing plate of the object on which the concave R portion and / or the hole portion is to be formed, and the edge is abutted against the cutting surface of the polarizing plate from the lateral direction. Then, while rotating the end portion of the end mill and moving it in the processing direction, the cutting process of the polarizing plate is continued to form a predetermined modified polarizing plate.

In the case of the end mill, the rotation of the cutting edge portion is rotated, for example, by a rotation axis (for example, the rotation axis is perpendicular to the surface of the polarizing plate) parallel to the cutting surface , The polarizing plate can be cut by the end mill in the processing direction while the rotation is performed continuously, stepwise, or intermittently. In this case, the blade portion of the end mill is cut while being in contact with the cutting surface from the lateral direction. In addition, in the punching process, which is performed with a conventional cutter, the blade is cut from the top of the surface of the polarizing plate (the direction parallel to the cutting surface and the direction perpendicular to the surface of the polarizing plate in Fig. 2).

Further, for example, in the case of using the cutting tool as the cutting means, it is possible to cut the cutting edge by abutting against the cutting surface in the lateral direction instead of the cutting edge portion of the end mill shown in Fig.

In addition, for example, in the case of performing hole machining, not only a hole is formed by using a direct end mill or the like, but also a hole formed by another punch or the like is firstly subjected to a section cutting by an end mill or the like But it may be a hole of a desired shape by extending the hole or the like.

Further, by using the method for producing a mold releasing polarizer of the present invention, it is possible to preferably manufacture and process, while suppressing the occurrence of cracks and creases or discoloration occurring at the time of processing, particularly when the concave R portion is a small- .

For this reason, in the method for producing a modified polarizing plate of the present invention, for example, even if the radius of the concave R portion is 5 mm or less, it is possible to easily manufacture and process. For example, the radius may be 1 mm or more and 5 mm or less, and may be 1 mm or more and 4 mm or less, or 2 mm or more and 3 mm or less. By using the above-described manufacturing method, even when the radius of the concave R portion is 5 mm or less, it is possible to suppress the generation of cracks and breakage or discoloration occurring at the time of processing the polarizer, and to prevent the concave R portion having a concave R It is possible to manufacture a modified polarizing plate having a part.

Therefore, in the method for producing a modified polarizing plate of the present invention, it is possible to easily manufacture and process, for example, even if the radius of the hole is 5 mm or less. For example, the radius may be 1 mm or more and 5 mm or less, 1 mm or more and 4 mm or less, or 2 mm or more and 3 mm or less. By using the above-described manufacturing method, even when the radius of the hole portion is 5 mm or less, it is possible to suppress generation of cracks and breakage or discoloration occurring at the time of processing of the polarizing plate and to provide a mold releasing portion having a hole portion with a small diameter of 5 mm or less A polarizing plate can be manufactured.

In the method for producing a modified polarizing plate of the present invention, it is preferable that the cutting angle formed by the working direction and the blade surface of the blade is 60 degrees or more. The cutting angle is preferably 60 ° to 90 °, and may be 65 ° to 90 °, 70 ° to 85 °, or 70 ° to 80 °. By using the above-described production method, it is possible to suppress the occurrence of delamination of the modified polarizing plate.

In the present invention, the cutting angle refers to the cutting angle between the cutting direction by the cutting means and the blade surface of the blade, and an example of the case of machining with an end mill is shown in Fig. When the end mill is machined such that the direction of the axis of rotation of the end mill is perpendicular to the machining direction as shown in Fig. 3, an angle obtained by subtracting the twist angle of the end mill blade at 90 deg. .

Further, in the apparatus for producing a modified polarizing plate of the present invention,

An apparatus for producing a mold-shaped polarizer having a concave R portion,

And cutting means for cutting the cutting face in contact with the cutting edge from the lateral direction.

In the apparatus for producing a mold releasing polarizer having the concave R part of the present invention, the cutting means including the end mill, which cuts off from the lateral direction against the above-mentioned cut surface, is appropriately cut by the known method .

Further, in the apparatus for producing a modified polarizing plate of the present invention, it is possible to easily manufacture and process, for example, even if the radius of the concave R portion is 5 mm or less. For example, the radius may be 1 mm or more and 5 mm or less, 1 mm or more and 4 mm or less, or 2 mm or more and 3 mm or less. By using the above-described manufacturing method, even when the radius of the concave R portion is 5 mm or less, it is possible to suppress the generation of cracks and breakage or discoloration occurring at the time of processing the polarizer, and to prevent the concave R portion having a concave R It is possible to manufacture a modified polarizing plate having a part.

In the apparatus for producing a polarized light polarizing plate of the present invention, it is preferable that the cutting angle formed by the cutting direction by the cutting means and the blade surface of the blade is 60 degrees or more. The cutting angle is preferably 60 ° to 90 °, and may be 65 ° to 90 °, 70 ° to 85 °, or 70 ° to 80 °. By using the above production apparatus, it is possible to suppress the occurrence of delamination of the modified polarizing plate.

Further, in the apparatus for producing a modified polarizing plate of the present invention,

An apparatus for producing a polarizing plate having a hole portion,

And an end mill.

In the apparatus for producing a polarized-light polarizing plate having the hole portion of the present invention, the above-mentioned end mill can be suitably provided in the apparatus by a known technique.

Further, in the apparatus for producing a modified polarizing plate of the present invention, it is possible to easily manufacture and process, for example, even if the radius of the hole is 5 mm or less. For example, the radius may be 1 mm or more and 5 mm or less, 1 mm or more and 4 mm or less, or 2 mm or more and 3 mm or less. By using the above manufacturing method, even when the radius of the hole portion is 5 mm or less, generation of cracks and breakage or discoloration occurring at the time of processing of the polarizing plate is suppressed, and the releasably polarized light having a small diameter hole portion with a radius of 5 mm or less Can be produced.

In the apparatus for producing a polarized light polarizing plate of the present invention, it is preferable that the cutting angle formed by the cutting direction by the cutting means and the blade surface of the blade is 60 degrees or more. The cutting angle is preferably 60 ° to 90 °, and may be 65 ° to 90 °, 70 ° to 85 °, or 70 ° to 80 °. By using the above production apparatus, it is possible to suppress the occurrence of delamination of the modified polarizing plate.

As the end mill described above, for example, those described in Figs. 4 and 5 can be suitably used. 5 shows an example in which the number of blades is two, three, four and six.

In the shape of the end mill, the number of blades is preferably 1 to 6, and the number of blades may be 1 to 4 blades.

Further, the rake angle of the end portion of the end mill is preferably less than 0 to 15 degrees, more preferably 3 to 12 degrees. When the rake angle is 15 DEG or more, the edge of the blade tends to fall off.

The flank angle of the end portion of the end mill is preferably larger than 0 DEG and less than 20 DEG, and may be 3 DEG to 15 DEG. If the flank angle is 0 °, the film is scratchy. If the flank angle is 20 ° or more, the edge of the blade tends to fall off.

It is also preferable that the twist angle of the end portion of the end mill is -75 占 to 75 占 and -65 占 to 65 占. When the twist angle exceeds the above range, discharge failure of the cutting chips tends to occur.

The blade diameter (outer diameter)? Of the end portion of the end mill is preferably 3 to 30 mm, and may be 5 to 25 mm. When the blade diameter (?) Is smaller than 3 mm, it tends to be broken. When the blade diameter is larger than 30 mm, delicate shaping becomes difficult.

In addition, as a manufacturing condition when the end mill is manufactured, the feed rate of the end portion of the end mill is preferably 100 to 10000 mm / min and may be 200 to 8000 mm / min.

The rotation speed of the end portion of the end mill is preferably 1000 to 120000 rpm, may be 2000 to 60000 rpm, or may be 3000 to 50000 rpm. If the rotation speed is slower than 1000 rpm, it may cause cracks. On the other hand, if the rotation speed is faster than 60000 rpm, it may cause heat generation and cause damage to the polarizing plate or the like.

The polarizing plate used in the present invention is not particularly limited, and a known polarizing plate can be suitably used. Examples of the polarizing plate include a polarizing plate produced by stretching molding, a polarizing plate manufactured by coating molding, and the like.

The polarizer is not particularly limited, and various polarizers can be used. As the polarizer, a dichroic material such as iodine or a dichroic dye may be added to a hydrophilic polymer film such as, for example, a polyvinyl alcohol film, a partially porous polyvinyl alcohol film, or an ethylene / vinyl acetate copolymerization system partially saponified film A polyvinyl alcohol-based dehydrated product, a polyvinyl chloride dehydrochloric acid-treated product, and the like. Among them, a polyvinyl alcohol film and a polarizer made of a dichroic material such as iodine are preferable.

As the material of the polyvinyl alcohol film applied to the polarizer, polyvinyl alcohol or a derivative thereof is used. Examples of polyvinyl alcohol derivatives include polyvinyl formal, polyvinyl acetal and the like. In addition, olefins such as ethylene and propylene, unsaturated carboxylic acid glycol alkyl esters such as acrylic acid, methacrylic acid and crotonic acid, Amides and the like. The degree of polymerization of polyvinyl alcohol is generally about 1000 to 10000, and the degree of saponification is about 80 to 100 mol%.

The polyvinyl alcohol film (unstretched film) is subjected to at least a uniaxial stretching treatment and an iodine dyeing treatment according to a conventional method. Further, boric acid treatment and iodine ion treatment can be performed. The polyvinyl alcohol film (stretched film) subjected to the above treatment is dried by a conventional method to become a polarizer.

The polarizing plate used in the present invention may be one obtained by bonding a protective film to at least one side of the polarizer with an adhesive interposed therebetween. The protective film may be bonded to one side or both sides of the polarizer. The protective film may have different optical functions at the same time, or may be formed by stacking other layers.

When the polarizing plate has a protective film on both surfaces of the polarizer, the protective film on the surface of the polarizing plate and the protective film on the other surface may be the same or different. At least one protective film per one surface may be used, or a laminate of two or more layers may be used.

The thickness of the protective film can be appropriately determined, but generally it is about 1 to 500 占 퐉 in terms of workability such as strength and handling properties, and thin layer properties. Particularly preferably from 1 to 300 mu m, and more preferably from 5 to 200 mu m.

As a material constituting the protective film, for example, a thermoplastic resin excellent in transparency, mechanical strength, thermal stability and moisture barrier property can be mentioned. When optical isotropy is required for the protective film, it is preferable to select a resin having a small intrinsic birefringence. Specific examples of such a thermoplastic resin include, for example, a polyester resin, a polyether sulfone resin, a polysulfone resin, a polycarbonate resin, a polyamide resin, a polyimide resin, a polyolefin resin, Meth) acrylic resins, norbornene resins, polyarylate resins, and mixtures thereof. Further, a thermosetting resin such as (meth) acrylic resin, or an ultraviolet curable resin can also be used. Among them, (meth) acrylic resin, polyimide resin and norbornene resin are preferably used from the viewpoint of moisture permeability and optical characteristics.

As the protective film, the protective film on the cell side may have a retardation function for compensating the viewing angle, and the opposite side of the protective film on the cell side may or may not have a retardation.

The surface of the protective film to be adhered to the polarizer can be easily adhered. Examples of the easy-to-adhere treatment include a dry treatment such as a plasma treatment and a corona treatment, a chemical treatment such as an alkali treatment (saponification treatment), and a coating treatment for forming an easy adhesion layer. Of these, a coating treatment for forming an adhesive layer and an alkali treatment are preferred. Various easy-to-adhere materials such as a polyol resin, a polycarboxylic acid resin, and a polyester resin can be used for forming the adhesion-facilitating layer. The thickness of the easy-to-adhere layer is usually about 0.001 to 10 mu m, more preferably about 0.001 to 5 mu m, particularly about 0.001 to 1 mu m.

The surface of the protective film on which the polarizer is not adhered may be subjected to treatment for the purpose of hard coat layer, antireflection treatment, anti-sticking treatment, diffusion or anti-glare treatment.

The adhesive constituting the polarizing plate is not particularly limited as far as it is optically transparent, and various types of water-based, solvent-based, hot-melt-based, and radical-curing types of adhesives may be used, but water-based adhesives or radical-curing adhesives are preferred.

The water-based adhesive for forming the adhesive layer is not particularly limited, and examples thereof include vinyl polymer, gelatin, vinyl, latex, polyurethane, isocyanate, polyester, epoxy and the like .

As the radical curing type adhesive, various kinds such as an actinic radiation ray curable type such as an electron ray curable type and an ultraviolet ray curable type, a thermosetting type and the like can be exemplified, but an active energy ray curable type which can be cured in a short time is preferable.

A method for producing a mold-releasing polarizing plate according to the present invention is a method for producing a mold releasing polarizing plate having a concave R portion and / or a hole portion, characterized in that cutting means is used for cutting the end face, And forming an R portion.

The production of the polarizing plate itself before the formation of the concave R portion and / or the hole portion, which is used in the present invention, can be suitably used in a known technique. Further, in the manufacturing method of the present invention, the step of forming the concave R portion by using the cutting means that abuts against the cutting face of the end mill or the like from the lateral direction may be performed after the production of the polarizing plate itself, In some cases, it may be carried out during the manufacturing process of the polarizing plate itself.

In the production step of the polarizing plate itself before the concave R portion and / or the hole portion is formed, a known technique may be appropriately used as the cutting. For example, in the step of making a certain size before microfabrication, the manufacturing method of the present invention or the like in the step of forming a fine concave R portion and / or a hole portion by using a conventional laser or the like in a rectangular shape or the like It is also possible to use it appropriately. In the former step, the shape of the polarizing plate at the time of cutting is not particularly limited, but it is generally rectangular, and the polarizing plate may be cut in the absorption axis direction and the transmission axis direction. In the former step, for example, laser cutting may be performed on at least one of the short sides, but it is preferable to perform the cutting in the direction of the absorption axis or the transmission axis, or both.

The production of the polarizing plate itself can be carried out, for example, by a step of producing the polarizing film by bonding the polarizing film and the protective film using the adhesive. In the obtained polarizing plate, a protective film can be formed on one side or both sides of the polarizer via an adhesive layer formed by the polarizing plate adhesive.

The polarizing plate can be used as an optical film laminated with another optical layer in actual use. The modified polarizing plate in the process for producing a modified polarizing plate of the present invention includes a release polarizing plate and a release optical film in which at least one polarizing plate is laminated. In the production process of the present invention, the polarizing plate itself may be subjected to a processing step of releasing the polarizing plate first, followed by an optical film. Alternatively, the optical film may be first subjected to a processing step of releasing the optical film, .

The optical layer is not particularly limited. For example, it is used for forming a liquid crystal display device such as a reflection plate, a transflective plate, a retardation plate (including a wave plate of 1/2 or 1/4) Or one or more optical layers may be used. Particularly, a reflection type polarizing plate or a semi-transmission type polarizing plate in which a reflection plate or a transflective reflection plate is further laminated on the polarizing plate, an elliptically polarizing plate or a circular polarizing plate laminated with a retardation plate in addition to the polarizing plate, It is preferable to use a polarizing plate in which a brightness enhancement film is laminated on a polarizing plate of a wide viewing angle or a polarizing plate.

It is also possible to form an adhesive layer for bonding to another member such as a liquid crystal cell in the above-mentioned polarizing plate or an optical film in which at least one polarizing plate is laminated. The pressure-sensitive adhesive for forming the pressure-sensitive adhesive layer is not particularly limited. For example, it is possible to appropriately select and use a polymer such as an acrylic polymer, a silicone polymer, a polyester, a polyurethane, a polyamide, a polyether, . In particular, it is possible to preferably use an acrylic pressure-sensitive adhesive which is excellent in optical transparency, exhibits appropriate wettability, cohesiveness and adhesive property, and is excellent in weather resistance and heat resistance.

Laying of an adhesive layer on one side or both sides of a polarizing plate or an optical film can be carried out in an appropriate manner. For example, a base polymer or a composition thereof is dissolved or dispersed in a solvent composed of a single substance or a mixture of an appropriate solvent such as toluene or ethyl acetate to prepare a pressure-sensitive adhesive solution of about 10 to 40% by weight, Or a coating method, or a method in which a pressure-sensitive adhesive layer is formed on a separator and the pressure-sensitive adhesive layer is transferred onto a polarizing plate or an optical film in accordance with the above-mentioned method.

The adhesive layer may be formed on one side or both sides of a polarizing plate or an optical film as a superposed layer of a different composition or kind. Further, in the case of being formed on both surfaces, it may be a pressure-sensitive adhesive layer such as a composition, a kind, and a thickness which are different from each other on the front and back of a polarizing plate or an optical film. The thickness of the adhesive layer can be suitably determined in accordance with the purpose of use or the adhesive force, and is generally 1 to 500 탆, preferably 5 to 200 탆, particularly preferably 10 to 100 탆.

With regard to the exposed surface of the adhesive layer, a separator is temporarily attached and covered for the purpose of preventing contamination before it is actually used. This makes it possible to prevent contact with the adhesive layer in a conventional handling state. As the separator, a suitable thin film such as a plastic film, a rubber sheet, a paper, a cloth, a non-woven fabric, a net, a foam sheet, a metal foil and a laminate thereof, Such as a fluorine-based or molybdenum sulfide coated with a suitable releasing agent, can be used.

The polarizing plate or optical film can be suitably used for forming various devices such as a liquid crystal display device.

Example

Hereinafter, embodiments and the like that specifically describe the structure and effects of the present invention will be described.

[Examples, Comparative Examples]

The processing in Examples 1 and 2 and Comparative Examples 1 to 3 was carried out by processing under the conditions shown in Table 1 below and the processing shape shown in Fig. In addition, a laminate obtained by laminating a surface protecting film (PPF-100T) manufactured by Nitto Corporation on a polarizing plate (NPF-CWQ1463VDUAG380-ACJ) manufactured by Nitto Corporation was used as a workpiece. The unit in Fig. 6 is mm.

(Measurement and Evaluation of Shape Degree of Freedom)

The degree of freedom of shape of each of the modified polarizers processed and manufactured according to Examples and Comparative Examples was measured and evaluated as follows. In each of the examples and comparative examples, when the formed part of the convex R part, the concave R part and the hole part shown in Fig. 1 was processed into a polarizing plate and the result was that the processed part could be formed, , And when it was impossible, it was evaluated as " x ". In the case where formation of the processed portion was possible, the minimum value that could be formed was measured using a three-dimensional dimensional measuring instrument QV-Apex606 manufactured by Mitsutoyo Corporation.

(Measurement of dimensional accuracy and perpendicularity accuracy)

The dimensional accuracy and squareness accuracy of each of the modified polarizers processed and fabricated according to Examples and Comparative Examples were measured as follows. Each dimensional accuracy was calculated by observing with an optical microscope BX51 manufactured by OLIMPUS and a three-dimensional dimension measuring instrument QV-Apex606 manufactured by Mitsutoyo Corporation. Also, all the same results were obtained.

(Measurement and evaluation of end grade)

The end portions of each of the modified polarizers processed and manufactured according to Examples and Comparative Examples were measured and evaluated as follows. In each of the examples and comparative examples, "○" was shown when cracks, bending, or discoloration did not occur at each end of processing and production, and "×" was observed when cracks, bending, or discoloration occurred . When cracks, bending, or discoloration occurred, the magnitude of such problems was measured using a microscope (optical microscope BX51 manufactured by OLIMPUS).

The results obtained are shown in Table 2 below.

In Example 1, the minimum value of R in the concave R was 3 mm. In Example 2, the minimum value of R in the concave R was 62.5 mm. On the other hand, in Comparative Examples 1 and 2, cracks of 100 mu m maximum occurred. In Comparative Examples 1 and 2, bending of 1000 占 퐉 at the maximum occurred. In Comparative Example 3, discoloration of 50 mu m maximum occurred.

As described above, in the case of using the production method in the present embodiment as described above, it is possible to suppress the generation of cracks, tortuosity, and discoloration, and to easily obtain a releasable polarizer having a concave R portion and / there was. On the other hand, when the manufacturing method of the comparative example was used, cracks, bending, or discoloration occurred.

The processing in Examples 3 to 5 and Comparative Examples 4 to 5 was carried out by processing under the conditions shown in Table 3 below and the processing shape shown in Fig. In addition, a laminate obtained by laminating a surface protective film (RP296C) manufactured by Nitto Corporation on a polarizing plate (APCFU4MS) manufactured by Nitto Denki Corporation was used as a workpiece. The processing conditions of the Thomson type in Comparative Example 5 are the same as those in Comparative Example 1. The R of the concave portion in Fig. 7 is 3 mm.

(Measurement of amount of delamination)

The measurement of the amount of delamination of each of the modified polarizers processed and produced by the examples and comparative examples was carried out as follows. The obtained diopside polarizers were subjected to microscopic observation and the distances at which the delaminations occurred most deeply from the end portions in the corners, straight portions and recesses were measured.

The obtained results are shown in Table 3 below.

In Examples 3 to 5, the maximum value of the amount of delamination was less than 0 占 퐉 in any of the corner portion, the straight line portion and the concave portion. On the other hand, in Comparative Examples 4 and 5, the maximum value of the amount of delamination was 60 mu m or more in both of the corner portion, the straight portion and the concave portion.

As described above, in the case of processing at a cutting angle of 60 DEG or more, it was possible to further suppress the occurrence of delamination of the modified polarizing plate.

Claims (14)

A method for producing a mold-shaped polarizer having a concave R portion,
And forming the concave R portion by using a cutting means that abuts against a cutting surface in a direction perpendicular to the cutting surface. The method according to claim 1,
And the radius of the concave R portion is 5 mm or less. 3. The method according to claim 1 or 2,
Wherein the cutting means is an endmill. 4. The method according to any one of claims 1 to 3,
Wherein the cutting angle between the processing direction and the blade surface of the blade is 60 DEG or more. An apparatus for producing a mold-shaped polarizer having a concave R portion,
And cutting means for cutting the cutting face in contact with the cutting edge from the lateral direction. 6. The method of claim 5,
Wherein the concave R portion has a radius of 5 mm or less. The method according to claim 5 or 6,
Wherein the cutting means is an endmill. 8. The method according to any one of claims 5 to 7,
Wherein the cutting angle between the processing direction by the cutting means and the blade surface of the blade is 60 ° or more. A method for producing a modified polarizer having a hole portion,
And forming the hole portion using an end mill. 10. The method of claim 9,
Wherein the hole has a radius of 5 mm or less. 11. The method according to claim 9 or 10,
Wherein the cutting angle between the processing direction and the blade surface of the end mill is 60 DEG or more. An apparatus for producing a polarizing plate having a hole portion,
And an end mill. The apparatus for manufacturing a mold-shaped polarizing plate according to claim 1, 13. The method of claim 12,
Wherein the hole has a radius of 5 mm or less. The method according to claim 12 or 13,
Wherein the cutting angle between the processing direction and the blade surface of the end mill is 60 degrees or more.

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