TW201319638A - Method for producing polarizing plate - Google Patents
Method for producing polarizing plate Download PDFInfo
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- TW201319638A TW201319638A TW101135251A TW101135251A TW201319638A TW 201319638 A TW201319638 A TW 201319638A TW 101135251 A TW101135251 A TW 101135251A TW 101135251 A TW101135251 A TW 101135251A TW 201319638 A TW201319638 A TW 201319638A
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B5/00—Optical elements other than lenses
- G02B5/30—Polarising elements
- G02B5/3025—Polarisers, i.e. arrangements capable of producing a definite output polarisation state from an unpolarised input state
- G02B5/3033—Polarisers, i.e. arrangements capable of producing a definite output polarisation state from an unpolarised input state in the form of a thin sheet or foil, e.g. Polaroid
- G02B5/3041—Polarisers, i.e. arrangements capable of producing a definite output polarisation state from an unpolarised input state in the form of a thin sheet or foil, e.g. Polaroid comprising multiple thin layers, e.g. multilayer stacks
- G02B5/305—Polarisers, i.e. arrangements capable of producing a definite output polarisation state from an unpolarised input state in the form of a thin sheet or foil, e.g. Polaroid comprising multiple thin layers, e.g. multilayer stacks including organic materials, e.g. polymeric layers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B27/00—Layered products comprising a layer of synthetic resin
- B32B27/30—Layered products comprising a layer of synthetic resin comprising vinyl (co)polymers; comprising acrylic (co)polymers
- B32B27/306—Layered products comprising a layer of synthetic resin comprising vinyl (co)polymers; comprising acrylic (co)polymers comprising vinyl acetate or vinyl alcohol (co)polymers
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B37/00—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding
- B32B37/12—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by using adhesives
- B32B2037/1253—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by using adhesives curable adhesive
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B2307/00—Properties of the layers or laminate
- B32B2307/40—Properties of the layers or laminate having particular optical properties
- B32B2307/42—Polarizing, birefringent, filtering
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B2309/00—Parameters for the laminating or treatment process; Apparatus details
- B32B2309/08—Dimensions, e.g. volume
- B32B2309/10—Dimensions, e.g. volume linear, e.g. length, distance, width
- B32B2309/105—Thickness
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B2309/00—Parameters for the laminating or treatment process; Apparatus details
- B32B2309/14—Velocity, e.g. feed speeds
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B2309/00—Parameters for the laminating or treatment process; Apparatus details
- B32B2309/60—In a particular environment
- B32B2309/65—Dust free, e.g. clean room
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B2310/00—Treatment by energy or chemical effects
- B32B2310/08—Treatment by energy or chemical effects by wave energy or particle radiation
- B32B2310/0806—Treatment by energy or chemical effects by wave energy or particle radiation using electromagnetic radiation
- B32B2310/0831—Treatment by energy or chemical effects by wave energy or particle radiation using electromagnetic radiation using UV radiation
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B2457/00—Electrical equipment
- B32B2457/20—Displays, e.g. liquid crystal displays, plasma displays
- B32B2457/202—LCD, i.e. liquid crystal displays
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B2551/00—Optical elements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B37/00—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding
- B32B37/14—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by the properties of the layers
- B32B37/16—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by the properties of the layers with all layers existing as coherent layers before laminating
- B32B37/20—Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by the properties of the layers with all layers existing as coherent layers before laminating involving the assembly of continuous webs only
- B32B37/203—One or more of the layers being plastic
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- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Polarising Elements (AREA)
- Nonlinear Science (AREA)
- Mathematical Physics (AREA)
- Chemical & Material Sciences (AREA)
- Crystallography & Structural Chemistry (AREA)
- Liquid Crystal (AREA)
- Adhesives Or Adhesive Processes (AREA)
Abstract
Description
本發明係有關於一種可用來作為構成液晶顯示裝置等之光學零件之一的偏光板之製造方法。 The present invention relates to a method of manufacturing a polarizing plate which can be used as one of optical parts constituting a liquid crystal display device or the like.
偏光膜係被廣泛使用來作為於聚乙烯醇系樹脂薄膜吸附配向二色性色素者,已知有以碘作為二色性色素之碘系偏光膜、或以二色性直接染料作為二色性色素之染料系偏光膜等。此等偏光膜一般係於其單面或雙面隔著接著劑而貼合三乙醯基纖維素薄膜等透明薄膜,形成偏光板。 A polarizing film is widely used as a dichroic dye in a polyvinyl alcohol-based resin film, and an iodine-based polarizing film containing iodine as a dichroic dye or a dichroic direct dye as a dichroic property is known. The dye of the pigment is a polarizing film or the like. These polarizing films are generally formed by laminating a transparent film such as a triethylenesulfonated cellulose film on one or both sides thereof with an adhesive to form a polarizing plate.
偏光膜之單面或雙面層合透明薄膜之方法,有預先於透明薄膜之表面塗佈活性能量線硬化型樹脂後,使偏光膜與透明薄膜以一對貼合輥輪挾住來貼合,然後,照射活性能量線而接著硬化之方法(參照例如日本特開2004-245925號公報(專利文獻1)、日本特開2009-134190號公報(專利文獻2)、日本特開2011-95560號公報(專利文獻3)等)。 A method of laminating a transparent film on one side or both sides of a polarizing film, after applying an active energy ray-curable resin to a surface of the transparent film in advance, and bonding the polarizing film and the transparent film to each other by a pair of bonding rollers Then, the active energy ray is irradiated and then hardened (see, for example, JP-A-2004-245925 (Patent Document 1), JP-A-2009-134190 (Patent Document 2), and JP-A-2011-95560 Bulletin (Patent Document 3), etc.).
[專利文獻1]日本特開2004-245925號公報 [Patent Document 1] Japanese Patent Laid-Open Publication No. 2004-245925
[專利文獻2]日本特開2009-134190號公報 [Patent Document 2] Japanese Patent Laid-Open Publication No. 2009-134190
[專利文獻3]日本特開2011-95560號公報 [Patent Document 3] Japanese Laid-Open Patent Publication No. 2011-95560
在使偏光膜、與在單面塗佈有活性能量線硬化型之接著劑的透明薄膜貼合之偏光板中,有時在前述偏光膜與前述透明薄膜之間混入10至50μm左右之微小氣泡。認為此氣泡係一邊使貼合輥輪旋轉,一邊挾住偏光膜與透明薄膜時,起因於貼合輥輪之旋轉速度以及偏光膜及透明薄膜之搬送速度,於貼合輥輪之前的偏光膜與透明薄膜之間的區域產生朝向貼合輥輪之空氣的流動,該區域之壓力昇高,於偏光膜與透明薄膜之間捕捉到空氣所造成。 In the polarizing plate in which the polarizing film and the transparent film coated with the active energy ray-curable adhesive on one side are bonded, fine bubbles of about 10 to 50 μm may be mixed between the polarizing film and the transparent film. . It is considered that this bubble is a polarizing film before the roller is bonded to the polarizing film and the transparent film when the bonding roller is rotated while causing the rotation speed of the bonding roller and the conveying speed of the polarizing film and the transparent film. The area between the transparent film and the transparent film creates a flow of air toward the bonding roller, the pressure of which increases due to the trapping of air between the polarizing film and the transparent film.
本發明係為解決上述課題所構成者,其目的係在於提供一種方法,其係在使偏光膜、與在單面塗佈有活性能量線硬化型之接著劑的透明薄膜貼合之偏光板中,可製造於偏光膜與透明薄膜之間不易產生氣泡的偏光板。 The present invention has been made to solve the above problems, and an object of the invention is to provide a method of bonding a polarizing film to a polarizing film which is bonded to a transparent film having an active energy ray-curable adhesive on one side thereof. A polarizing plate which is less likely to generate bubbles between the polarizing film and the transparent film can be manufactured.
本發明之偏光板之製造方法,其係包含如下步驟:對聚乙烯醇系樹脂薄膜實施染色處理、硼酸處理及單軸延伸處理而製作偏光膜之步驟;於透明薄膜之單面塗佈活性能量線硬化型的接著劑之步驟;使用貼合輥輪挾住而將前述透明薄膜之塗佈有前述接著劑之面貼合於前述偏光膜之單面或雙面,以製作層合體之步驟;以及對前述層合體照射活性能量線,以製作偏光板之步驟,其中,製作前述層合體之步驟為一邊減少貼合之前的前述偏光膜與前述透明薄膜之間的區域之風壓一邊進行。 The method for producing a polarizing plate of the present invention comprises the steps of: performing a dyeing treatment, a boric acid treatment, and a uniaxial stretching treatment on a polyvinyl alcohol-based resin film to form a polarizing film; and coating the active energy on one side of the transparent film. a step of forming a laminate; a step of bonding a surface of the transparent film coated with the surface of the adhesive onto one or both sides of the polarizing film by using a bonding roller; And a step of irradiating the laminate with an active energy ray to form a polarizing plate, wherein the step of preparing the laminate is performed while reducing a wind pressure in a region between the polarizing film and the transparent film before bonding.
本發明之偏光板的製造方法係宜為藉由如介入於以貼合輥輪 挾住而貼合之前的前述偏光膜與前述透明薄膜之間所設置之障礙物,而減少貼合前之前述偏光膜與前述透明薄膜之間的區域之風壓。 The method for manufacturing the polarizing plate of the present invention is preferably by, for example, intervening to fit the roller The obstacle provided between the polarizing film and the transparent film before the bonding is caught, and the wind pressure in the region between the polarizing film and the transparent film before bonding is reduced.
本發明之偏光板的製造方法係亦可藉由吸引以貼合輥輪挾住而貼合之前的前述偏光膜與前述透明薄膜之間的空氣,俾減少貼合之前的前述偏光膜與前述透明薄膜之間的區域之風壓。 In the method for producing a polarizing plate of the present invention, the air between the polarizing film and the transparent film before bonding can be adhered by the bonding roller, and the polarizing film and the transparent film before bonding can be reduced. Wind pressure in the area between the films.
本發明之偏光板的製造方法係亦可於以貼合輥輪挾住而貼合之前的前述偏光膜與前述透明薄膜之間,朝相對於薄膜搬送方向之正交的方向送風或吸引,而減少貼合之前的前述偏光膜與前述透明薄膜之間的區域之風壓。 In the method for producing a polarizing plate of the present invention, the polarizing film and the transparent film before being bonded by the bonding roller may be blown or attracted in a direction orthogonal to the film conveying direction. The wind pressure in the region between the aforementioned polarizing film and the transparent film before bonding is reduced.
若依本發明之製造方法,可提供一種在使偏光膜、與在單面塗佈有活性能量線硬化型之接著劑的透明薄膜貼合之偏光板中,可製造於偏光膜與透明薄膜之間不易產生氣泡的偏光板之製造方法。 According to the production method of the present invention, it is possible to provide a polarizing film which is bonded to a transparent film coated with an active energy ray-curable adhesive on one side, and can be produced in a polarizing film and a transparent film. A method of manufacturing a polarizing plate in which bubbles are less likely to occur.
1‧‧‧偏光膜 1‧‧‧ polarizing film
2、3‧‧‧透明薄膜 2, 3‧‧‧ transparent film
4‧‧‧層合體 4‧‧‧Layer
5a、5b‧‧‧貼合輥輪 5a, 5b‧‧‧ fitting roller
6‧‧‧障礙物 6‧‧‧ obstacles
7‧‧‧吸引手段 7‧‧‧Attraction means
8‧‧‧送風或吸引手段 8‧‧‧Air supply or attraction
11、12‧‧‧接著劑塗佈裝置 11, 12‧‧‧ adhesive coating device
13‧‧‧輥輪 13‧‧‧Roller
14、15‧‧‧第1活性能量線照射裝置 14, 15‧‧‧1st active energy ray irradiation device
16、17、18‧‧‧第2以後之活性能量線照射裝置 16, 17, ‧ ‧ ‧ after 2nd active energy ray irradiation device
19‧‧‧夾持輥輪 19‧‧‧Clamping roller
20‧‧‧捲取輥輪 20‧‧‧Winding roller
第1圖係示意性表示本發明較佳的第1例之圖。 Fig. 1 is a view schematically showing a preferred first example of the present invention.
第2圖係示意性表示本發明較佳的第2例之圖。 Fig. 2 is a view schematically showing a second preferred example of the present invention.
第3圖係示意性表示本發明較佳的第3例之圖。 Fig. 3 is a view schematically showing a preferred third example of the present invention.
第4圖係示意性表示可適宜使用於本發明之吸引手段7的斜視圖。 Fig. 4 is a perspective view schematically showing an attraction means 7 which can be suitably used in the present invention.
第5圖係示意性表示本發明較佳的第4例之圖。 Fig. 5 is a view schematically showing a fourth example of the present invention.
第6圖係示意性表示用以進行適用第1圖所示之例的本發明之偏光板的製造方法之裝置全體之一例的圖。 Fig. 6 is a view schematically showing an example of a whole apparatus for carrying out the method for producing a polarizing plate of the present invention to which the example shown in Fig. 1 is applied.
第7圖係示意性表示用以進行適用第2圖所示之例的本發明之偏光板的製造方法之裝置全體之一例的圖。 Fig. 7 is a view schematically showing an example of a whole apparatus for carrying out the method for producing a polarizing plate of the present invention to which the example shown in Fig. 2 is applied.
第8圖係示意性表示用以進行適用第3圖所示之例的本發明之偏光板的製造方法之裝置全體之一例的圖。 Fig. 8 is a view schematically showing an example of a whole apparatus for carrying out the method for producing a polarizing plate of the present invention to which the example shown in Fig. 3 is applied.
第9圖係示意性表示用以進行適用第4圖所示之例的本發明之偏光板的製造方法之裝置全體之一例的圖。 Fig. 9 is a view schematically showing an example of a whole apparatus for carrying out the method for producing a polarizing plate of the present invention to which the example shown in Fig. 4 is applied.
第1圖係示意性表示本發明較佳的第1例之圖。本發明之偏光板之製造方法,其係基本上包含如下步驟:[1]對聚乙烯醇系樹脂薄膜實施染色處理、硼酸處理及單軸延伸處理而製作偏光膜之步驟;[2]於透明薄膜之單面塗佈活性能量線硬化型的接著劑之步驟;[3]使用貼合輥輪挾住而將前述透明薄膜之塗佈有前述接著劑之面貼合於前述偏光膜之單面或雙面,以製作層合體之步驟;[4]對前述層合體照射活性能量線,以製作偏光板之步驟。本發明之偏光板之製造方法,其特徵係一邊減少貼合之前的前述偏光膜與前述透明薄膜之間的區域之風壓一邊進行上述[3]之步驟。 Fig. 1 is a view schematically showing a preferred first example of the present invention. The method for producing a polarizing plate of the present invention basically comprises the steps of: [1] a step of preparing a polarizing film by subjecting a polyvinyl alcohol-based resin film to dyeing treatment, boric acid treatment, and uniaxial stretching treatment; [2] transparent a step of applying an active energy ray-curable adhesive to one side of the film; [3] bonding the surface of the transparent film coated with the adhesive to one side of the polarizing film by using a bonding roller Or a double-sided step of preparing a laminate; [4] a step of irradiating the laminate with an active energy ray to prepare a polarizing plate. In the method for producing a polarizing plate of the present invention, the step (3) is carried out while reducing the wind pressure in a region between the polarizing film and the transparent film before bonding.
於第1圖係表示使偏光膜1之雙面,與於單面塗佈有活性能量線硬化型之接著劑的透明薄膜2、3以貼合輥輪5a、5b挾住,以製作層合體4之例。在第1圖所示之例中係以介入於使用貼合輥輪5a、5b挾住貼合之前的前述偏光膜1與前述透明薄膜2、3之間之方式設置障礙物6。藉由設有如此之障礙物6,而可使在貼合輥輪之前的偏光膜1與透明薄膜2之間的區域、以及偏光膜1與透明薄膜3之間的區域中流入貼合輥輪5a、5b間之空氣的流動混亂,可減少上述區域之風壓。藉此,貼合時,可減少在偏光膜 與透明薄膜之間所捕捉到之空氣的量,在所得到之偏光板中抑制氣泡的發生。 In the first embodiment, the transparent film 2, 3 coated with the active energy ray-curable adhesive on both sides of the polarizing film 1 is sandwiched by the bonding rolls 5a and 5b to form a laminate. 4 examples. In the example shown in Fig. 1, the obstacle 6 is placed so as to be interposed between the polarizing film 1 before the bonding using the bonding rollers 5a and 5b and the transparent films 2 and 3. By providing such an obstacle 6, a region between the polarizing film 1 before the bonding roller and the transparent film 2, and a region between the polarizing film 1 and the transparent film 3 can flow into the bonding roller. The flow of air between 5a and 5b is chaotic, which can reduce the wind pressure in the above area. Thereby, when bonding, it can be reduced in the polarizing film The amount of air trapped between the transparent film and the resulting polarizing plate suppresses the occurrence of bubbles.
在第1圖所示之例中,障礙物6係只要為可混亂如上述之空氣的流動即可,無特別限制,但例如只要以使板狀物、棒狀物、或繩狀物介入於貼合輥輪5a、5b之前的偏光膜與透明薄膜之間的區域而設置即可。有關如此之板狀物或棒狀物之大小係無特別限制,但較佳係涵蓋薄膜之寬度方向(垂直於搬送方向的方向)全體而如上述般充滿空氣之流動,故宜為使用大於薄膜之寬度方向者。具體上係可例示厚度或徑為0.1至30mm之範圍內,長度為600至2500mm之範圍內之板狀物、棒狀物、或繩狀物。又,板狀物、棒狀物、或繩狀物係可為中空、實心之任一者。此外,板狀物或棒狀物之材質亦無特別限制,但宜為使用例如SUS 304、SUS 316、鋁等金屬,碳纖維、或尼龍、鐵氟龍(註冊商標),進一步如PEEK、PES之液晶聚合物(LCP)等剛直的樹脂所形成之板狀物、棒狀物、或繩狀物。 In the example shown in Fig. 1, the obstacle 6 is not particularly limited as long as it can confuse the flow of air as described above, but for example, a plate, a rod, or a rope is involved. It suffices that the region between the polarizing film and the transparent film before the rollers 5a and 5b are bonded to each other. The size of such a plate or rod is not particularly limited, but preferably covers the entire width direction of the film (direction perpendicular to the conveying direction) and is filled with air as described above, so it is preferable to use a film larger than the film. The width direction of the person. Specifically, a plate, a rod, or a rope having a thickness or a diameter in the range of 0.1 to 30 mm and a length in the range of 600 to 2,500 mm can be exemplified. Further, the plate, the rod, or the rope may be either hollow or solid. Further, the material of the plate or the rod is not particularly limited, but it is preferably a metal such as SUS 304, SUS 316, aluminum, carbon fiber, or nylon, Teflon (registered trademark), and further such as PEEK, PES. A plate, a rod, or a rope formed of a rigid resin such as a liquid crystal polymer (LCP).
又,第2圖係示意性表示本發明較佳的第2例之圖。在第2圖所示之例中係藉由將以貼合輥輪5a、5b挾住貼合之前的偏光膜1與透明薄膜2、3之間的空氣以吸引手段7吸引,而減少貼合之前的偏光膜1與透明薄膜2、3之間的區域之風壓。又,第2圖所示之例除了使用吸引手段7取代障礙物6以外,其餘係與第1圖所示之例相同,有關同樣之構成係賦予相同元件符號而省略說明。 Further, Fig. 2 is a view schematically showing a second preferred example of the present invention. In the example shown in Fig. 2, the air between the polarizing film 1 and the transparent films 2 and 3 before the bonding of the bonding rollers 5a and 5b is attracted by the suction means 7 to reduce the fit. The wind pressure of the area between the previous polarizing film 1 and the transparent films 2, 3. In addition, the example shown in FIG. 2 is the same as the example shown in FIG. 1 except that the obstacle 7 is replaced by the suction means 7, and the same components are denoted by the same reference numerals, and the description thereof is omitted.
又,第3圖係示意性表示本發明較佳的第3例之圖。在第3圖所示之例中除了只有以貼合輥輪5a、5b挾住貼合之前的膜為偏 光膜1或偏光膜與其他薄膜的層合體1’與透明薄膜2,吸引手段7之具體例為如圖示之吸引裝置(減壓裝置)以外,係與第2圖所示之例相同,對於同樣之構成係賦予相同元件符號而省略說明。 Further, Fig. 3 is a view schematically showing a third example of the present invention. In the example shown in Fig. 3, only the film before the bonding roller 5a, 5b is caught by the bonding roller 5a, 5b is biased. The laminate 1' and the transparent film 2 of the light film 1 or the polarizing film and the other film are the same as the example shown in Fig. 2 except that the suction device 7 is a suction device (pressure reducing device) as shown in the figure. The same components are denoted by the same reference numerals, and description thereof will be omitted.
在第2圖及第3圖所示之例係在貼合輥輪之前的偏光膜1與透明薄膜2之間的區域、或偏光膜1與透明薄膜3之間的區域中,將流入於貼合輥輪5a、5b間之空氣的流動使用吸引手段7而積極地吸引,而可減少上述區域之風壓。所使用之吸引手段7可舉例如如第3圖所示之吸引裝置,此時之裝置內的減壓量(壓差)係0.4kPa以上,宜為1.0kPa以上,更宜為1.5至3.0kPa。又,該減壓量係指以減壓泵減壓,以壓差計測定裝置內之壓力的值。即使為如此做法,貼合時,可減少在偏光膜與透明薄膜之間捕捉到之空氣的量,在所得到之偏光板中可抑制氣泡的產生。在第2圖及第3圖所示之例中,有關所使用之吸引手段7係並無特別限制,只要使用以往公知之適當的吸引手段即可,可適宜使用第4圖之構成的裝置。 The examples shown in Figs. 2 and 3 are in the region between the polarizing film 1 and the transparent film 2 before the bonding roller, or in the region between the polarizing film 1 and the transparent film 3, and will flow in the sticker. The flow of air between the rollers 5a and 5b is actively attracted by the suction means 7, and the wind pressure in the above region can be reduced. The suction means 7 used is, for example, a suction device as shown in Fig. 3. In this case, the amount of pressure reduction (pressure difference) in the apparatus is 0.4 kPa or more, preferably 1.0 kPa or more, more preferably 1.5 to 3.0 kPa. . Further, the amount of pressure reduction means a value obtained by measuring the pressure in the apparatus by a pressure difference meter using a pressure reducing pump. Even in this case, the amount of air trapped between the polarizing film and the transparent film can be reduced at the time of bonding, and generation of bubbles can be suppressed in the obtained polarizing plate. In the examples shown in Figs. 2 and 3, the suction means 7 to be used is not particularly limited, and any conventionally known suction means can be used, and the apparatus having the configuration of Fig. 4 can be suitably used.
又,第5圖係示意性表示本發明較佳的第4例之圖。在第5圖所示之例中係在以貼合輥輪5挾住貼合之前的偏光膜1與透明薄膜2、3之間,藉相對於薄膜搬送方向之正交方向送入風,或吸引而減少貼合之前的偏光膜1與透明薄膜2、3之間的區域之風壓。又,第5圖所示之例除了使用送風或吸引手段8取代障礙物6以外,其餘係與第1圖所示之例相同,對於同樣之構成係賦予相同元件符號而省略說明。 Further, Fig. 5 is a view schematically showing a fourth example of the present invention. In the example shown in FIG. 5, the wind is applied between the polarizing film 1 and the transparent films 2 and 3 before the bonding roller 5 is attached, and the wind is fed in the direction orthogonal to the film conveying direction, or Attraction reduces the wind pressure in the region between the polarizing film 1 and the transparent films 2, 3 before bonding. In addition, the example shown in FIG. 5 is the same as the example shown in FIG. 1 except that the air blower or the suction means 8 is used instead of the obstacle 6, and the same components are denoted by the same reference numerals, and description thereof will be omitted.
在第5圖所示之例中係對於在貼合輥輪之前的偏光膜1與透明薄膜2之間的區域、以及偏光膜1與透明薄膜3之間的區域中 流入貼合輥輪5a、5b間的薄膜搬送方向之空氣的流動,使幾乎為其之正交方向的風從側面送入或吸引俾混亂空氣之流動,可減少上述區域之風壓。如此做法,於貼合時,可減少偏光膜與透明薄膜之間捕捉到的空氣量,在所得到之偏光板中可抑制氣泡的產生。在第5圖所示之例中,對於所使用之送風或吸引手段8係無特別限制,只要使用以往公知之適當的送風或吸引手段即可。又,送風或吸引方向係無特別限定,可從其中之一側面,亦可從兩側面。 In the example shown in Fig. 5, in the region between the polarizing film 1 and the transparent film 2 before the bonding roller, and in the region between the polarizing film 1 and the transparent film 3 The flow of the air flowing into the film transport direction between the bonding rollers 5a and 5b causes the wind in the direction orthogonal thereto to feed or suck the flow of the chaotic air from the side surface, thereby reducing the wind pressure in the above region. In this way, the amount of air trapped between the polarizing film and the transparent film can be reduced at the time of bonding, and generation of bubbles can be suppressed in the obtained polarizing plate. In the example shown in Fig. 5, the air blowing or suction means 8 to be used is not particularly limited, and any conventionally known air blowing or suction means may be used. Further, the air supply or the suction direction is not particularly limited, and may be from one side or both sides.
又,在第1圖、第2圖及第5圖中係表示於偏光膜1之雙面貼合透明薄膜2、3之例,但亦可為如第3圖般之在偏光膜1之任一面貼合透明薄膜2的構成,此時,在未與偏光膜之透明薄膜貼合之側係亦可預先層合透明薄膜、或保護薄膜、或背襯薄膜之層合體。 In addition, in the first, second, and fifth figures, the transparent film 2 and 3 are bonded to the double-sided side of the polarizing film 1, but the polarizing film 1 may be used as in the third drawing. The transparent film 2 is bonded to one another. In this case, a laminate of a transparent film or a protective film or a backing film may be laminated in advance on the side which is not bonded to the transparent film of the polarizing film.
此處,第6圖係示意性表示用以進行適用第1圖所示之例的本發明之偏光板的製造方法之裝置全體之一例的圖,第7圖係示意性表示用以進行適用第2圖所示之例的本發明之偏光板的製造方法之裝置全體之一例的圖,第8圖係示意性表示用以進行適用第3圖所示之例的本發明之偏光板的製造方法之裝置全體之一例的圖,第9圖係示意性表示用以進行適用第5圖所示之例的本發明之偏光板的製造方法之裝置全體之一例的圖。以下,參照第6圖、第7圖、第8圖及第9圖,詳細說明有關本發明之偏光板的製造方法之全體。 Here, Fig. 6 is a view schematically showing an example of a whole apparatus for carrying out the method for producing a polarizing plate of the present invention to which the example shown in Fig. 1 is applied, and Fig. 7 is a schematic view showing the application of the first embodiment. 2 is a view showing an example of a whole apparatus for manufacturing a polarizing plate of the present invention, and FIG. 8 is a view schematically showing a method of manufacturing a polarizing plate of the present invention for applying the example shown in FIG. FIG. 9 is a view schematically showing an example of the entire apparatus for manufacturing the polarizing plate of the present invention to which the example shown in FIG. 5 is applied. FIG. Hereinafter, the entire method of manufacturing the polarizing plate of the present invention will be described in detail with reference to FIGS. 6 , 7 , 8 , and 9 .
本發明之偏光板的製造方法中,首先,對聚乙烯醇系樹脂薄 膜實施染色處理、硼酸處理及單軸延伸處理而製作偏光膜。本發明所使用之偏光膜具體上係於單軸延伸之聚乙烯醇系樹脂薄膜吸附配向二色性色素者。聚乙烯醇系樹脂薄膜係可藉由使聚乙酸乙烯酯系樹脂皂化來得到。聚乙酸乙烯酯系樹脂係可舉例如乙酸乙烯酯之同元聚合物的聚乙酸乙烯酯之外,尚有乙酸乙烯酯與可和其共聚合之其他的單體之共聚物(例如乙烯-乙酸乙烯酯共聚物)等。可與乙酸乙烯酯共聚合之其他單體係可舉例如不飽合羧酸類、烯烴類、乙烯酯類、不飽和磺酸類、具有銨基之丙烯醯胺類等。聚乙烯醇系樹脂之皂化度係85莫耳%以上、較佳係90莫耳%以上,最佳係98至100莫耳%。聚乙烯醇系樹脂之平均聚合度一般為1000至10000,較佳係1500至5000。此等聚乙烯醇系樹脂係可經改性,例如可使用經醛類改性之聚乙烯甲醛、聚乙烯乙醛、聚乙烯丁醛等。 In the method for producing a polarizing plate of the present invention, first, the polyvinyl alcohol resin is thin. The film was subjected to dyeing treatment, boric acid treatment, and uniaxial stretching treatment to prepare a polarizing film. The polarizing film used in the present invention is specifically a one in which a uniaxially stretched polyvinyl alcohol-based resin film is adsorbed to a dichroic dye. The polyvinyl alcohol-based resin film can be obtained by saponifying a polyvinyl acetate-based resin. The polyvinyl acetate-based resin may, for example, be a polyvinyl acetate of a homopolymer of vinyl acetate, and a copolymer of vinyl acetate and another monomer copolymerizable therewith (for example, ethylene-acetic acid) Vinyl ester copolymer) and the like. Other single systems which can be copolymerized with vinyl acetate include, for example, unsaturated carboxylic acids, olefins, vinyl esters, unsaturated sulfonic acids, acrylamides having an ammonium group, and the like. The degree of saponification of the polyvinyl alcohol-based resin is 85 mol% or more, preferably 90 mol% or more, and most preferably 98 to 100 mol%. The average degree of polymerization of the polyvinyl alcohol-based resin is generally from 1,000 to 10,000, preferably from 1,500 to 5,000. These polyvinyl alcohol-based resins may be modified, and for example, aldehyde-modified polyethylene formaldehyde, polyvinyl acetaldehyde, polyvinyl butyral or the like may be used.
將如此之聚乙烯醇系樹脂製膜者可使用來作為偏光膜之原材薄膜。將聚乙烯醇系樹脂製膜之方法係無特別限定,可以以往公知之適當方法製膜。由聚乙烯醇系樹脂所構成之原材薄膜的膜厚係無特別限定,但例如為10至150μm左右。一般,可以輥輪狀來供給,厚度為20至100μm之範圍內,較佳係30至80μm之範圍內,又,工業上實用的寬度為1500至6000mm之範圍內。 A film made of such a polyvinyl alcohol-based resin can be used as a raw material film as a polarizing film. The method for forming a film of a polyvinyl alcohol-based resin is not particularly limited, and a film can be formed by a conventionally known appropriate method. The film thickness of the raw material film made of a polyvinyl alcohol-based resin is not particularly limited, but is, for example, about 10 to 150 μm. In general, it may be supplied in the form of a roll having a thickness in the range of 20 to 100 μm, preferably in the range of 30 to 80 μm, and an industrially practical width in the range of 1,500 to 6,000 mm.
市售之聚乙烯醇系薄膜(Vinylon VF-PS # 7500、Kuraray製/OPL薄膜、M-7500、日本合成製)之原材厚度為75μm,(Vinylon VF-PS # 6000、Kuraray製,Vinylon VF-PE # 6000、Kuraray製)之原材厚度為60μm等。 Commercially available polyvinyl alcohol-based film (Vinylon VF-PS #7500, Kuraray/OPL film, M-7500, manufactured by Nippon Synthetic Co., Ltd.) has a thickness of 75 μm (Vinylon VF-PS # 6000, manufactured by Kuraray, Vinylon VF) -PE # 6000, manufactured by Kuraray) The thickness of the raw material is 60 μm.
偏光膜一般係經過下述步驟而製造:使聚乙烯醇系樹脂薄膜 以二色性色素染色而吸附二色性色素之步驟(染色處理步驟)、吸附有二色性色素之聚乙烯醇系樹脂薄膜以硼酸水溶液處理的步驟(硼酸處理步驟)、以及以此硼酸水溶液處理後進行水洗的步驟(水洗處理步驟)。 The polarizing film is generally produced by the following steps: making a polyvinyl alcohol resin film a step of dyeing a dichroic dye by dyeing a dichroic dye (dyeing step), a step of treating a polyvinyl alcohol-based resin film having a dichroic dye adsorbed with an aqueous solution of boric acid (boric acid treatment step), and an aqueous solution of boric acid The step of washing with water after the treatment (water washing treatment step).
又,偏光膜的製造時,一般,聚乙烯醇系樹脂薄膜係被單軸延伸,但此單軸延伸係可在染色處理步驟之前進行,亦可在染色處理步驟中進行,亦可在染色處理步驟之後進行。於染色處理步驟之後進行單軸延伸時,此單軸延伸可在硼酸處理步驟之前進行,亦可在硼酸處理步驟中進行。當然,亦可在此等之複數階段進行單軸延伸。 Further, in the production of the polarizing film, generally, the polyvinyl alcohol resin film is uniaxially stretched, but the uniaxial stretching may be performed before the dyeing step, or in the dyeing step, or in the dyeing step. After that. When the uniaxial stretching is performed after the dyeing treatment step, the uniaxial stretching may be performed before the boric acid treatment step or in the boric acid treatment step. Of course, uniaxial stretching can also be performed at these multiple stages.
單軸延伸係可在周速相異之輥輪間延伸為單軸,亦可使用熱輥輪而延伸為單軸。又,亦可為在大氣中進行延伸之乾式延伸,亦可為以溶劑膨潤之狀態進行延伸之濕式延伸。延伸倍率一般為3至8倍左右。 The uniaxial extension system can be extended to a single axis between rolls having different circumferential speeds, or can be extended to a single axis using a hot roll. Further, it may be a dry stretching which is extended in the atmosphere, or may be a wet stretching which is extended in a state in which the solvent is swollen. The stretching ratio is generally about 3 to 8 times.
在染色處理步驟中之聚乙烯醇系樹脂薄膜的藉由二色性色素之染色係例如藉由使聚乙烯醇系樹脂薄膜浸漬於含有二色性色素之水溶液中而進行。二色性色素係可使用例如碘、二色性染料等。二色性染料係包含例如C.I.DIRECT RED 39等雙偶氮化合物所構成之二色性直接染料,參偶氮、肆偶氮等化合物所構成之二色性直接染料。又,聚乙烯醇系樹脂薄膜係宜為於染色處理前實施於水中之浸漬處理。 The dyeing of the polyvinyl alcohol-based resin film in the dyeing treatment step by the dichroic dye is carried out, for example, by immersing the polyvinyl alcohol-based resin film in an aqueous solution containing a dichroic dye. As the dichroic dye system, for example, iodine, a dichroic dye or the like can be used. The dichroic dye includes a dichroic direct dye composed of a disazo compound such as C.I. DIRECT RED 39, and a dichroic direct dye composed of a compound such as azo or hydrazine azo. Further, the polyvinyl alcohol-based resin film is preferably subjected to immersion treatment in water before the dyeing treatment.
使用碘作為二色性色素時,一般採用於含有碘及碘化鉀之水溶液中浸漬聚乙烯醇系樹脂薄膜而染色的方法。於此水溶液中之碘的含量一般係相對於水每100重量份為0.01至1重量份,碘化 鉀之含量一般係相對於水每100重量份為0.5至20重量份。使用碘作為二色性色素時,使用於染色之水溶液的溫度一般為20至40℃,於此水溶液之浸漬時間(染色時間)一般為20至1800秒。 When iodine is used as the dichroic dye, a method in which a polyvinyl alcohol-based resin film is immersed in an aqueous solution containing iodine and potassium iodide and dyed is generally used. The content of iodine in the aqueous solution is generally 0.01 to 1 part by weight per 100 parts by weight of water, iodide The potassium content is generally from 0.5 to 20 parts by weight per 100 parts by weight of the water. When iodine is used as the dichroic dye, the temperature of the aqueous solution used for dyeing is generally 20 to 40 ° C, and the immersion time (dyeing time) of the aqueous solution is generally 20 to 1800 seconds.
另外,使用二色性染料作為二色性色素時,一般係可採用於含有水溶液二色性染料之水溶液中浸漬聚乙烯醇系樹脂薄膜而染色的方法。於此水溶液中之二色性染料之含量一般係相對於水每100重量份為1×10-4至10重量份,宜為1×10-3至1重量份,尤宜為1×10-3至1×10-2重量份。此水溶液係亦可含有硫酸鈉等無機鹽作為染色助劑。使用二色性染料作為二色性色素時,使用於染色之染料水溶液的溫度一般為20至80℃,又,於此水溶液之浸漬時間(染色時間)一般為10至1800秒。 Further, when a dichroic dye is used as the dichroic dye, a method in which a polyvinyl alcohol-based resin film is immersed in an aqueous solution containing an aqueous dichroic dye and dyed is generally used. The content of the dichroic dye in the aqueous solution is generally from 1 × 10 -4 to 10 parts by weight, preferably from 1 × 10 -3 to 1 part by weight, particularly preferably 1 × 10 - per 100 parts by weight of water . 3 to 1 × 10 -2 parts by weight. The aqueous solution may also contain an inorganic salt such as sodium sulfate as a dyeing auxiliary. When a dichroic dye is used as the dichroic dye, the temperature of the dye aqueous solution used for dyeing is generally 20 to 80 ° C, and the immersion time (dyeing time) of the aqueous solution is usually 10 to 1800 seconds.
硼酸處理步驟係藉由使經二色性色素染色之聚乙烯醇系樹脂薄膜浸漬於含有硼酸之水溶液中來進行。在含硼酸的水溶液中之硼酸的量相對於水每100重量份一般為2至15重量份,宜為5至12重量份。使用碘作為在上述之染色處理步驟中的二色性色素時,使用於此硼酸處理步驟的含硼酸水溶液係宜為含有碘化鉀。此時,含硼酸水溶液中之碘化鉀的量相對於水每100重量份,一般為0.1至15重量份,較佳係5至12重量份。於含硼酸的水溶液之浸漬時間一般為60至1200秒,較佳係150至600秒,更佳係200至400秒。含有硼酸之水溶液的溫度一般為40℃以上,宜為50至85℃,更佳係55至75℃。 The boric acid treatment step is carried out by immersing the polyvinyl alcohol-based resin film dyed with the dichroic dye in an aqueous solution containing boric acid. The amount of boric acid in the aqueous solution containing boric acid is usually 2 to 15 parts by weight, preferably 5 to 12 parts by weight per 100 parts by weight of water. When iodine is used as the dichroic dye in the above dyeing treatment step, the aqueous boric acid solution used in the boric acid treatment step preferably contains potassium iodide. At this time, the amount of potassium iodide in the aqueous solution containing boric acid is usually 0.1 to 15 parts by weight, preferably 5 to 12 parts by weight per 100 parts by weight of the water. The immersion time in the aqueous solution containing boric acid is generally from 60 to 1200 seconds, preferably from 150 to 600 seconds, more preferably from 200 to 400 seconds. The temperature of the aqueous solution containing boric acid is usually 40 ° C or higher, preferably 50 to 85 ° C, more preferably 55 to 75 ° C.
繼而,水洗處理步驟係藉由使上述之硼酸處理後的聚乙烯醇系樹脂薄膜例如浸漬於水中而進行水洗處理。在水洗處理中之水的溫度一般為4至40℃,浸漬時間一般為1至120秒。水洗處理 後,一般實施乾燥處理,可得到偏光膜。乾燥處理係適宜使用例如熱風乾燥機、遠紅外線加熱器等而進行。乾燥處理之溫度一般為30至100℃,宜為50至80℃。乾燥處理之時間一般為60至600秒,宜為120至600秒。 Then, the water washing treatment step is performed by subjecting the above-described boric acid-treated polyvinyl alcohol-based resin film to water, for example, by immersing in water. The temperature of the water in the water washing treatment is generally 4 to 40 ° C, and the immersion time is usually 1 to 120 seconds. Washing treatment Thereafter, drying treatment is generally carried out to obtain a polarizing film. The drying treatment is preferably carried out using, for example, a hot air dryer, a far infrared heater or the like. The temperature of the drying treatment is usually from 30 to 100 ° C, preferably from 50 to 80 ° C. The drying treatment time is generally from 60 to 600 seconds, preferably from 120 to 600 seconds.
如此做法,於聚乙烯醇系樹脂薄膜實施單軸延伸、以二色性色素之染色、硼酸處理及水洗處理,可得到偏光膜。此偏光膜之厚度一般為5至50μm之範圍內。 In this manner, the polyvinyl alcohol-based resin film is subjected to uniaxial stretching, dyeing with a dichroic dye, boric acid treatment, and water washing treatment to obtain a polarizing film. The thickness of the polarizing film is generally in the range of 5 to 50 μm.
構成本發明所使用之透明薄膜的材料係可舉例如環烯烴系樹脂、乙酸纖維素系樹脂,如聚對苯二甲酸乙二酯或聚萘二甲酸乙二酯、聚對苯二甲酸丁二酯之聚酯系樹脂,聚碳酸酯系樹脂、丙烯酸系樹脂、聚丙烯等在該領域中自以往即廣泛使用之薄膜材料。 The material constituting the transparent film used in the present invention may, for example, be a cycloolefin resin or a cellulose acetate resin such as polyethylene terephthalate or polyethylene naphthalate or polybutylene terephthalate. A polyester resin such as an ester resin, a polycarbonate resin, an acrylic resin, or a polypropylene is widely used as a film material in the field.
環烯烴系樹脂係具有例如降冰片烯、多環系降冰片烯單體之由環狀烯烴(環烯烴)所構成之單體的單元之熱塑性的樹脂(亦被稱為熱塑性環烯烴系樹脂)。環烯烴系樹脂係亦可為上述環烯烴之開環聚合物或使用2種以上環烯烴的開環聚合物之氫化物,亦可為環烯烴與鏈狀烯烴、具有乙烯基之芳香族化合物等的加成聚合物。又,導入極性基者亦有效。 The cycloolefin resin is a thermoplastic resin (also referred to as a thermoplastic cycloolefin resin) having a unit of a monomer composed of a cyclic olefin (cycloolefin) such as norbornene or a polycyclic norbornene monomer. . The cycloolefin resin may be a ring-opening polymer of the above cycloolefin or a hydrogenated product of a ring-opening polymer using two or more kinds of cycloolefins, or a cyclic olefin, a chain olefin, an aromatic compound having a vinyl group, or the like. Addition polymer. Also, it is effective to introduce a polar base.
使用環烯烴與鏈狀烯烴及/或具有乙烯基之芳香族化合物的共聚物時,鏈狀烯烴係可舉例如乙烯、丙烯等,又,具有乙烯基之芳香族化合物係可舉例如苯乙烯、α-甲基苯乙烯、核烷基取代苯乙烯等。在如此之共聚物中亦可為由環烯烴所構成之單體的單元為50莫耳%以下(較佳係15至50莫耳%)。尤其,使用環烯烴與 鏈狀烯烴與具有乙烯基之芳香族化合物的三元共聚物時,由環烯烴所構成之單體的單元,如上述般可為比較少量。在如此之三元共聚物中,由鏈狀烯烴所構成之單體的單元一般為5至80莫耳%,由具有乙烯基之芳香族化合物所構成之單體的單元一般為5至80莫耳%。 When a copolymer of a cycloolefin and a chain olefin and/or an aromatic compound having a vinyl group is used, the chain olefin may, for example, be ethylene or propylene, and the aromatic compound having a vinyl group may, for example, be styrene. Α-methylstyrene, nucleoalkyl-substituted styrene, and the like. In such a copolymer, the unit of the monomer composed of the cyclic olefin may be 50 mol% or less (preferably 15 to 50 mol%). In particular, the use of cyclic olefins In the case of a terpolymer of a chain olefin and an aromatic compound having a vinyl group, the unit of the monomer composed of the cyclic olefin may be a relatively small amount as described above. In such a terpolymer, the unit of the monomer composed of the chain olefin is generally 5 to 80 mol%, and the unit of the monomer composed of the aromatic compound having a vinyl group is generally 5 to 80 mol. ear%.
環烯烴系樹脂可適宜使用適當的市售品,例如Topas(Ticona公司製)、Arton(JSR(股)公司製)、ZEONOR(日本ZEON(股)製)、ZEONEX(日本ZEON(股)製)、Apel(三井化學(股)製)、OXIS(大倉工業公司製)等。將如此之環烯烴系樹脂製膜而形成薄膜時,可適宜使用溶劑澆鑄法、熔融押出法等公知之方法。又,亦可使用例如Escena(積水化學工業(股)製)、SCA 40(積水化學工業(股)製)、Zeonor Film(Optes(股)製)等預先製膜的環烯烴系樹脂製之薄膜的市售品。 For the cycloolefin-based resin, an appropriate commercially available product can be suitably used, for example, Topas (manufactured by Ticona Co., Ltd.), Arton (manufactured by JSR Co., Ltd.), ZEONOR (manufactured by Japan ZEON Co., Ltd.), and ZEONEX (manufactured by Japan ZEON Co., Ltd.). , Apel (Mitsui Chemical Co., Ltd.), OXIS (manufactured by Okura Industrial Co., Ltd.), etc. When a film is formed by forming a film of such a cycloolefin-based resin, a known method such as a solvent casting method or a melt-extrusion method can be suitably used. Further, for example, a film made of a cycloolefin-based resin which has been previously formed into a film such as Escena (manufactured by Sekisui Chemical Co., Ltd.), SCA 40 (manufactured by Sekisui Chemical Co., Ltd.), or Zeonor Film (manufactured by Optes) may be used. Commercial products.
環烯烴系樹脂薄膜係亦可為經單軸延伸或雙軸延伸者。可以藉由延伸而對環烯烴系樹脂薄膜賦予任意之相位差值。延伸一般係一邊捲出薄膜輥輪一邊連續地進行,在加熱爐朝輥輪之行進方向(薄膜之長度方向)、與其行進方向垂直的方向(薄膜之寬度方向)、或其雙方延伸。加熱爐之溫度一般採用從環烯烴系樹脂之玻璃轉移溫度附近至玻璃轉移溫度+100℃之範圍。延伸之倍率一般為1.1至6倍,較佳係1.1至3.5倍。 The cycloolefin resin film may be one which is uniaxially stretched or biaxially stretched. Any phase difference value can be imparted to the cycloolefin resin film by stretching. The extension is generally performed while the film roll is being wound out, and the heating furnace extends in the traveling direction of the roll (the longitudinal direction of the film), the direction perpendicular to the traveling direction (the width direction of the film), or both. The temperature of the heating furnace is generally in the range from the vicinity of the glass transition temperature of the cycloolefin resin to the glass transition temperature + 100 °C. The extension ratio is generally 1.1 to 6 times, preferably 1.1 to 3.5 times.
環烯烴系樹脂薄膜係若在輥輪捲繞狀態,則薄膜彼此接著而有易產生阻塞(blocking)之傾向,故一般係貼合保護膜後,形成輥輪捲繞。又,環烯烴系樹脂薄膜係因一般表面活性差,與偏光膜接著之表面係宜為進行電漿處理、電暈處理、紫外線照射處理、 火焰處理、皂化處理等表面處理。其中,適宜為可比較容易實施之電漿處理,尤宜為大氣壓電漿處理、電暈處理。 When the cycloolefin-based resin film is wound in a roll state, the films tend to block each other and tend to block. Therefore, the roll is wound after the protective film is generally bonded. Further, the cycloolefin-based resin film is generally poor in surface activity, and the surface of the polarizing film is preferably subjected to plasma treatment, corona treatment, ultraviolet irradiation treatment, Surface treatment such as flame treatment and saponification. Among them, it is suitable for plasma treatment which can be relatively easily carried out, and is particularly suitable for atmospheric piezoelectric slurry treatment and corona treatment.
乙酸纖維素系樹脂係纖維素之部分或完全酯化物,可舉例如纖維素之乙酸酯、丙酸酯、丁酸酯、該等之混合酯等所構成之薄膜。更具體地,可舉例如三乙醯基纖維素薄膜、二乙醯基纖維素薄膜、纖維素乙酸酯丙酸酯薄膜、纖維素乙酸酯丁酸酯薄膜等。如此之纖維素酯系樹脂薄膜係可適宜使用適當之市售品例如Fujitac TD 80(富士Film(股)製)、Fujitac TD 80UF(富士Film(股)製)、Fujitac TD 80UZ(富士Film(股)製)、KC 8UX 2M(Konica Minolta Opto(股)製)、KC8UY(Konica Minolta Opto(股)製)、Fujitac TD 60UL(富士Film(股)製)、KC4UYW(Konica Minolta Opto(股)製)、KC6UAW(Konica Minolta Opto(股)製)等。 The cellulose acetate-based resin is a partial or complete esterified product, and examples thereof include a cellulose acetate, a propionate, a butyrate, and a mixed ester of these. More specifically, for example, a triethylenesulfonated cellulose film, a diethylidene cellulose film, a cellulose acetate propionate film, a cellulose acetate butyrate film, or the like can be given. As such a cellulose ester-based resin film, a commercially available product such as Fujitac TD 80 (manufactured by Fuji Film Co., Ltd.), Fujitac TD 80UF (manufactured by Fuji Film Co., Ltd.), and Fujitac TD 80UZ (Fuji Film) can be suitably used. )), KC 8UX 2M (Konica Minolta Opto Co., Ltd.), KC8UY (Konica Minolta Opto Co., Ltd.), Fujitac TD 60UL (Fuji Film Co., Ltd.), KC4UYW (Konica Minolta Opto Co., Ltd.) , KC6UAW (Konica Minolta Opto (share) system) and so on.
又,就透明薄膜而言,亦可適宜使用賦予相位差特性之乙酸纖維素系樹脂薄膜。如此之賦予相位差特性之乙酸纖維素系樹脂薄膜的市售品係可舉例如WV BZ 438(富士Film(股)製)、KC4FR-1(Konica Minolta Opto(股)製)、KC4CR-1(Konica Minolta Opto(股)製)、KC4AR-1(Konica Minolta Opto(股)製)等。乙酸纖維素係亦被稱為乙醯基纖維素,或亦被稱為纖維素乙酸酯。 Moreover, as for the transparent film, a cellulose acetate-based resin film which imparts phase difference characteristics can be suitably used. Commercially available products of the cellulose acetate-based resin film having such a phase difference characteristic are, for example, WV BZ 438 (manufactured by Fuji Film Co., Ltd.), KC4FR-1 (manufactured by Konica Minolta Opto Co., Ltd.), and KC4CR-1 ( Konica Minolta Opto Co., Ltd., KC4AR-1 (Konica Minolta Opto Co., Ltd.), and the like. Cellulose acetate is also known as acetaminocellulose or is also known as cellulose acetate.
此等乙酸纖維素系薄膜易吸水,有偏光板之水分率影響偏光板之端部鬆弛之情形。偏光板製造時之水分率係愈接近偏光板之保管環境、例如無塵室之製造生產線或在輥輪捲繞保管倉庫之平衡水分率愈佳,雖依層合薄膜之構成而定,但例如為2.0至3.5%左右,更宜為2.5至3.0%。此偏光板之水分率的數值係以乾燥重量法所測定者,為105℃/120分鐘後之重量變化。 These cellulose acetate-based films are easy to absorb water, and the moisture content of the polarizing plate affects the relaxation of the ends of the polarizing plates. The water content at the time of manufacture of the polarizing plate is closer to the storage environment of the polarizing plate, for example, the manufacturing line of the clean room or the equilibrium moisture content in the roll winding storage warehouse is better, depending on the composition of the laminated film, for example, It is about 2.0 to 3.5%, more preferably 2.5 to 3.0%. The numerical value of the moisture content of the polarizing plate was measured by the dry weight method and was changed by weight after 105 ° C / 120 minutes.
在本發明中,透明薄膜可具有作為相位差薄膜之功能、作為提昇亮度薄膜之功能、作為反射薄膜之功能、作為半透過反射薄膜之功能、作為擴散薄膜之功能、作為光學補償薄膜之功能等光學功能。此時,例如藉由於透明薄膜之表面層合相位差薄膜、提昇亮度薄膜、反射薄膜、半透過反射薄膜、擴散薄膜、光學補償薄膜等光學功能性薄膜,除可具有如此之功能外,亦可對透明薄膜本身賦予如此之功能。又,如具有亮度提昇薄膜之功能的擴散薄膜等,亦可於透明薄膜具有複數的功能。 In the present invention, the transparent film can have a function as a retardation film, a function as a brightness enhancement film, a function as a reflection film, a function as a semi-transmissive reflection film, a function as a diffusion film, a function as an optical compensation film, and the like. Optical function. In this case, for example, an optical functional film such as a surface laminated retardation film, a brightness enhancement film, a reflective film, a semi-transmissive reflection film, a diffusion film, or an optical compensation film may be used in addition to the function of the transparent film. This function is imparted to the transparent film itself. Further, a diffusion film having a function as a brightness enhancement film or the like may have a plurality of functions in the transparent film.
例如,可藉由對上述之透明薄膜實施日本特許第2841377號公報、日本特許第3094113號公報等所記載之延伸處理,或實施日本特許第3168850號公報所記載之處理,賦予作為相位差薄膜之功能。在相位差薄膜之相位差特性係可適當選擇例如正面相位差值為5至100nm、厚度方向相位差值為40至300nm之範圍等。又,藉由於上述之透明薄膜以日本特開2002-169025號公報或日本特開2003-29030號公報所記載之方法形成微細孔,或重疊選擇反射之中心波長相異之2層以上的膽固醇液晶層,俾可賦予作為亮度提昇薄膜之功能。 For example, the above-mentioned transparent film can be subjected to the stretching treatment described in Japanese Patent No. 2841377, Japanese Patent No. 3094113, or the like, or the treatment described in Japanese Patent No. 3168850 can be applied as a retardation film. Features. The phase difference characteristic of the retardation film can be appropriately selected, for example, in the range of the front phase difference value of 5 to 100 nm, the thickness direction retardation value of 40 to 300 nm, and the like. In addition, the above-mentioned transparent film is formed into fine pores by the method described in JP-A-2002-169025 or JP-A-2003-29030, or two or more layers of cholesteric liquid crystals having different center wavelengths of reflection and reflection are overlapped. The layer, 俾 can be imparted as a function of the brightness enhancement film.
若於上述之透明薄膜以蒸鍍或濺鍍等而形成金屬薄膜,則可賦予作為反射薄膜或半透過反射薄膜的功能。藉由於上述透明薄膜塗佈含有微粒子之樹脂溶液,可賦予作為擴散薄膜之功能。又,藉由於上述之透明薄膜塗佈碟狀型(discotic)液晶性化合物等液晶性化合物而配向,俾可賦予作為光學補償薄膜之功能。又,亦可於透明薄膜含有顯現相位差之化合物。進一步,使用適當的接著劑,亦可使各種之光學功能性薄膜直接貼合於偏光膜。光學功能 性薄膜之市售品可舉例如DBEF(3M公司製、在日本係可從住友3M(股)取得)等亮度提昇薄膜、WV薄膜(富士薄膜(股)製)等視角改良薄膜,Arton Film(JSR(股)製)、Zeonor Film((股)Optes製)、Escena(積水化學工業(股)製)、VA-TAC(Konica Minolta Opto(股)製)、Sumika light(住友化學(股)製)等相位差薄膜等。 When the transparent film described above is formed into a metal thin film by vapor deposition or sputtering, it can be provided as a reflective film or a semi-transmissive reflective film. By applying the resin solution containing fine particles to the above transparent film, it is possible to impart a function as a diffusion film. Moreover, the transparent film is coated with a liquid crystal compound such as a discotic liquid crystal compound, and the film can be provided as an optical compensation film. Further, a compound having a phase difference may be contained in the transparent film. Further, various optical functional films may be directly bonded to the polarizing film by using an appropriate adhesive. Optical function For example, a brightness-enhancing film such as DBEF (made by 3M Company, available from Sumitomo 3M (shares) in Japan), or a WV film (made by Fujifilm Co., Ltd.) can be used as a commercially available product. JSR (share) system, Zeonor Film (made by Optes), Escena (made by Sekisui Chemical Industry Co., Ltd.), VA-TAC (Konica Minolta Opto), Sumika light (Sumitomo Chemical Co., Ltd.) ) A retardation film or the like.
本發明所使用之透明薄膜的厚度宜為薄者,但若太薄,則強度降低,加工性變差。另外,若太厚,則透明性降低,造成層合後所需之硬化時間變長等問題。因此,透明薄膜之適當的厚度例如為5至200μm,較佳係10至150μm,更佳係10至100μm。 The thickness of the transparent film used in the present invention is preferably thin, but if it is too thin, the strength is lowered and the workability is deteriorated. On the other hand, if it is too thick, the transparency is lowered, and the hardening time required after lamination becomes long. Therefore, a suitable thickness of the transparent film is, for example, 5 to 200 μm, preferably 10 to 150 μm, more preferably 10 to 100 μm.
為提昇接著劑與偏光膜及/或透明薄膜之接著性,亦可對偏光膜及/或透明薄膜實施電暈處理、火焰處理、電漿處理、紫外線處理、底塗(primer)塗佈處理、皂化處理等表面處理。 In order to improve the adhesion between the adhesive and the polarizing film and/or the transparent film, the polarizing film and/or the transparent film may be subjected to corona treatment, flame treatment, plasma treatment, ultraviolet treatment, primer coating treatment, Surface treatment such as saponification treatment.
又,於透明薄膜係亦可分別單獨或組合2種以上實施抗眩處理、抗反射處理、硬塗處理、抗靜電處理、防污處理等表面處理。又,透明薄膜及/或透明薄膜表面保護層係亦可含有二苯甲酮系化合物、苯并三唑系化合物等紫外線吸收劑,或磷酸苯酯系化合物、酞酸酯化合物等可塑劑。 Further, in the transparent film system, surface treatment such as anti-glare treatment, anti-reflection treatment, hard coating treatment, antistatic treatment, and antifouling treatment may be carried out alone or in combination of two or more. Further, the transparent film and/or the transparent film surface protective layer may contain a UV absorber such as a benzophenone compound or a benzotriazole compound, or a plasticizer such as a phenyl phosphate compound or a phthalate compound.
活性能量線硬化型之接著劑,從耐候性或折射率、陽離子聚合性等觀點來看,可舉例如由含有藉活性能量線之照射而硬化之環氧樹脂的環氧系樹脂組成物所構成之接著劑。但,不限定於此,可採用自以往使用於偏光板之製造的各種活性能量線硬化型之接著劑(有機溶劑系接著劑、熱熔系接著劑、無溶劑型接著劑等)、例如丙烯醯胺、丙烯酸酯、胺基甲酸酯丙烯酸酯、環氧基丙烯酸 酯等丙烯酸系樹脂組成物所構成之接著劑等。 The active energy ray-curable adhesive is composed of, for example, an epoxy resin composition containing an epoxy resin which is cured by irradiation with an active energy ray, from the viewpoints of weather resistance, refractive index, and cationic polymerizability. The adhesive. However, the present invention is not limited thereto, and various active energy ray-curable adhesives (organic solvent-based adhesives, hot-melt adhesives, solventless adhesives, etc.), such as propylene, which have been conventionally used for the production of polarizing plates, can be used. Indoleamine, acrylate, urethane acrylate, epoxy acrylate An adhesive or the like composed of an acrylic resin composition such as an ester.
所謂環氧樹脂意指於分子內具有2個以上環氧基的化合物。從耐候性、折射率、陽離子聚合性等觀點來看,於接著劑之硬化性環氧樹脂組成物所含有之環氧樹脂係宜為於分子內不含有芳香環的環氧樹脂(參照例如專利文獻1)。如此之環氧樹脂可例示氫化環氧樹脂、脂環式環氧樹脂、脂肪族環氧樹脂等。 The epoxy resin means a compound having two or more epoxy groups in the molecule. From the viewpoints of weather resistance, refractive index, cationic polymerizability, and the like, the epoxy resin contained in the curable epoxy resin composition of the adhesive is preferably an epoxy resin which does not contain an aromatic ring in the molecule (see, for example, a patent) Document 1). Such an epoxy resin may, for example, be a hydrogenated epoxy resin, an alicyclic epoxy resin, an aliphatic epoxy resin or the like.
氫化環氧樹脂可藉由使芳香族環氧樹脂之原料的多羥基化合物在觸媒的存在下、加壓下選擇性經核氫化反應所得到之核氫化多羥基化合物進行縮水甘油基醚化之方法來得到。芳香族環氧樹脂係可舉例如雙酚A之二縮水甘油基醚、雙酚F之二縮水甘油基醚、及雙酚S之二縮水甘油基醚等雙酚型環氧樹脂;酚酚醛清漆環氧樹脂、甲酚酚醛清漆環氧樹脂、及羥基苯甲醛酚酚醛清漆環氧樹脂等酚醛清漆型之環氧樹脂;四羥基苯基甲烷的縮水甘油基醚、四羥基二苯甲酮之縮水甘油基醚、及環氧化聚乙烯基酚等多官能型的環氧樹脂等。氫化環氧樹脂中,宜為氫化之雙酚A的縮水甘油基醚。 The hydrogenated epoxy resin can be subjected to glycidyl etherification by a nuclear hydrogenation polyol obtained by selectively hydrogenating a polyhydroxy compound of a raw material of an aromatic epoxy resin in the presence of a catalyst under pressure. The method to get. Examples of the aromatic epoxy resin include bisphenol type epoxy resins such as bisphenol A diglycidyl ether, bisphenol F diglycidyl ether, and bisphenol S diglycidyl ether; and phenol novolac varnishes; Epoxy resin, cresol novolac epoxy resin, and phenolic novolac epoxy resin such as novolac type epoxy resin; glycidyl ether of tetrahydroxyphenylmethane and shrinkage of tetrahydroxybenzophenone A polyfunctional epoxy resin such as glyceryl ether or epoxidized polyvinyl phenol. Among the hydrogenated epoxy resins, a glycidyl ether of hydrogenated bisphenol A is preferred.
脂環式環氧樹脂係意指於分子內具有1個以上結合於脂環式環之環氧基的環氧樹脂。「結合於脂環式環之環氧基」係意指在如下式所示之結構中的架橋之氧原子-O-。下式中,m為2至5之整數。 The alicyclic epoxy resin means an epoxy resin having one or more epoxy groups bonded to an alicyclic ring in the molecule. The "epoxy group bonded to the alicyclic ring" means the oxygen atom -O- of the bridge in the structure shown by the following formula. In the following formula, m is an integer of 2 to 5.
在上述式中之(CH2)m中除去1個或複數個氫原子的形之基結合於其他的化學結構之化合物可成為脂環式環氧樹脂。(CH2)m中 之1個或複數個之氫原子係亦可經甲基或乙基等直鏈狀烷基適當取代。脂環式環氧樹脂之中,具有氧雜雙環己烷環(在上述式中m=3者)、或氧雜雙環庚烷環(在上述式中m=4者)之環氧樹脂,從顯示優異之接著性來看,較宜使用。以下,具體地例示較宜使用之脂環式環氧樹脂,但不限定於此等之化合物。 A compound in which one or a plurality of hydrogen atoms are removed in the formula (CH 2 ) m in the above formula and is bonded to another chemical structure may be an alicyclic epoxy resin. One or a plurality of hydrogen atoms of (CH 2 ) m may be appropriately substituted with a linear alkyl group such as a methyl group or an ethyl group. Among the alicyclic epoxy resins, an epoxy resin having an oxabicyclohexane ring (m=3 in the above formula) or an oxabicycloheptane ring (in the above formula, m=4) It is better to use it in terms of excellent adhesion. Hereinafter, the alicyclic epoxy resin which is preferably used is specifically exemplified, but the compound is not limited thereto.
(a)以下式(I)所示之環氧基環己基甲基環氧基環己烷羧酸酯類;
(b)以下式(II)所示的烷二醇的環氧基環己烷羧酸酯類:
(c)以如下式(III)所示之二羧酸的環氧基環己基甲基酯類;
(d)以下式(IV)所示的聚乙二醇之環氧基環己基甲基醚類:
(e)以下式(V)所示之烷二醇的環氧基環己基甲基醚類:
(f)以下式(VI)所示之二環氧基三螺化合物;
(g)以下式(VII)所示之二環氧基單螺化合物;
(h)以下式(VIII)所示之乙烯基環己烯二環氧化物類:
(i)以下式(IX)所示之環氧基環戊基醚類:
(j)以下式(X)所示之二環氧基三環癸烷類:
上述例示之脂環式環氧樹脂之中,後述之脂環式環氧樹脂係市售者,或其類似物,從比較容易取得等理由來看,更宜使用。 Among the alicyclic epoxy resins exemplified above, those of the alicyclic epoxy resin described later, or the like, are preferably used because they are relatively easy to obtain.
(A)7-氧雜雙環[4.1.0]庚烷-3-羧酸與(7-氧雜-雙環[4.1.0]庚-3-基)甲醇之酯化物[在式(I)中,R1=R2=H之化合物]、(B)4-甲基-7-氧雜雙環[4.1.0]庚烷-3-羧酸與(4-甲基-7-氧雜-雙環[4.1.0]庚-3-基)甲醇之酯化物[在式(I)中,R1=4-CH3、R2=4-CH3之化合物]、(C)7-氧雜雙環[4.1.0]庚烷-3-羧酸與1,2-乙二醇之酯化物[在式 (II)中,R3=R4=H、n=2之化合物]、(D)(7-氧雜雙環[4.1.0]庚-3-基)甲醇與己二酸之酯化物[式(III)中,R5=R6=H、p=4之化合物]、(E)(4-甲基-7-氧雜雙環[4.1.0]庚-3-基)甲醇與己二酸之酯化物[在式(III)中,R5=4-CH3、R6=4-CH3、p=4之化合物]、(F)(7-氧雜雙環[4.1.0]庚-3-基)甲醇與1,2-乙二醇之醚化物[在式(V)中,R9=R10=H、n=2之化合物]。 (A) an ester of 7-oxabicyclo[4.1.0]heptane-3-carboxylic acid with (7-oxa-bicyclo[4.1.0]heptan-3-yl)methanol [in formula (I) , compound with R 1 =R 2 =H], (B) 4-methyl-7-oxabicyclo[4.1.0]heptane-3-carboxylic acid and (4-methyl-7-oxa-bicyclic ring) [4.1.0]Hept-3-yl)methanol ester [in formula (I), R 1 =4-CH 3 , R 2 =4-CH 3 compound], (C) 7-oxabicyclo [4.1.0] An esterified product of heptane-3-carboxylic acid and 1,2-ethanediol [in the formula (II), a compound of R 3 = R 4 = H, n = 2], (D) ( An ester of 7-oxabicyclo[4.1.0]heptan-3-yl)methanol with adipic acid [in the formula (III), a compound of R 5 =R 6 =H, p=4], (E) ( Esterified product of 4-methyl-7-oxabicyclo[4.1.0]heptan-3-yl)methanol with adipic acid [In formula (III), R 5 =4-CH 3 , R 6 =4- a compound of CH 3 , p=4], (F) (7-oxabicyclo[4.1.0]heptan-3-yl)methanol and 1,2-ethanediol ether [in formula (V), R 9 = R 10 = H, n = 2 of the compound].
又,脂肪族環氧樹脂係可舉例如脂肪族多元醇或其之環氧烷加成物之聚縮水甘油基醚。更具體地係可舉例如1,4-丁二醇之二縮水甘油基醚;1,6-己二醇之二縮水甘油基醚;甘油之三縮水甘油基醚;三羥甲基丙烷之三縮水甘油基醚;聚乙二醇之二縮水甘油基醚;丙二醇之二縮水甘油基醚;乙二醇、丙二醇、及甘油等脂肪族多元醇加成1種或2種以上環氧烷(環氧乙烷或環氧丙烷)所得到之聚醚多元醇的聚縮水甘油基醚等。 Further, the aliphatic epoxy resin may, for example, be a polyglycidyl ether of an aliphatic polyhydric alcohol or an alkylene oxide adduct thereof. More specifically, for example, diglycidyl ether of 1,4-butanediol; diglycidyl ether of 1,6-hexanediol; triglycidyl ether of glycerol; three of trimethylolpropane Glycidyl ether; diglycidyl ether of polyethylene glycol; diglycidyl ether of propylene glycol; aliphatic polyols such as ethylene glycol, propylene glycol, and glycerin are added in one or more alkylene oxides (rings) Polyglycidyl ether of a polyether polyol obtained by oxyethane or propylene oxide.
構成由環氧系樹脂組成物所構成之接著劑的環氧樹脂係可1種單獨使用,亦可併用2種以上。此組成物所用之環氧樹脂的環氧當量一般為30至3000g/當量,較佳係50至1500g/當量之範圍內。若環氧當量低於30g/當量,則有可能硬化後之複合偏光板的可撓性降低,或接著強度降低。另外,若超過3000g/當量,則有可能與接著劑所含有之其他成分的相溶性降低。 The epoxy resin which is a binder which consists of an epoxy resin composition can be used individually by 1 type, and can also use 2 or more types together. The epoxy resin used in the composition has an epoxy equivalent of usually from 30 to 3,000 g/equivalent, preferably from 50 to 1,500 g/equivalent. When the epoxy equivalent is less than 30 g/eq, the flexibility of the composite polarizing plate after curing may be lowered, or the strength may be lowered. On the other hand, when it exceeds 3000 g/eq, the compatibility with other components contained in the adhesive may be lowered.
在此接著劑中,從反應性之觀點來看,就環氧樹脂之硬化反應而言宜使用陽離子聚合。因此,於活性能量線硬化型接著劑之硬化性環氧樹脂組成物中宜摻合陽離子聚合起始劑。陽離子聚合起始劑係藉由可見光線、紫外線、X線、電子束等活性能量線的 照射而產生陽離子種或路易士酸,使環氧基的聚合反應開始。以下,藉活性能量線之照射而產生陽離子種或路易士酸,使環氧基之聚合反應開始的陽離子聚合起始劑稱為「光陽離子聚合起始劑」。 In this adhesive, from the viewpoint of reactivity, cationic polymerization is preferably used in the curing reaction of the epoxy resin. Therefore, it is preferred to incorporate a cationic polymerization initiator in the curable epoxy resin composition of the active energy ray-curable adhesive. Cationic polymerization initiators are active energy lines such as visible light, ultraviolet light, X-rays, and electron beams. The cationic species or Lewis acid is generated by irradiation to initiate the polymerization of the epoxy group. Hereinafter, a cationic polymerization initiator which generates a cationic species or a Lewis acid by irradiation with an active energy ray and starts the polymerization of an epoxy group is referred to as a "photocationic polymerization initiator".
使用光陽離子聚合起始劑,藉活性能量線之照射進行接著劑之硬化的方法使在常溫之硬化成為可能,從減少考量偏光膜之耐熱性或膨脹所造成的變形之必要,且可使薄膜間良好地接著之點而言很有利。又,光陽離子聚合起始劑係以光觸媒性作用,故即使混合於環氧樹脂中,保存安定性或作業性仍優異。 The use of a photocationic polymerization initiator to cure the adhesive by irradiation of an active energy ray makes it possible to harden at room temperature, and it is necessary to reduce the deformation caused by heat resistance or expansion of the polarizing film, and to form a film. It is advantageous in terms of good follow-up. Further, since the photocationic polymerization initiator acts by photocatalytic activity, it is excellent in storage stability and workability even when it is mixed in an epoxy resin.
光陽離子聚合起始劑係可舉例如芳香族二偶氮鎓鹽;芳香族碘鎓鹽或芳香族鋶鹽等鎓鹽;鐵-累積二烯烴(iron-allene)錯合物等。 The photocationic polymerization initiator may, for example, be an aromatic diazolium salt; an onium salt such as an aromatic iodonium salt or an aromatic onium salt; an iron-accumulated diene (iron-allene) complex.
芳香族二偶氮鎓鹽係可舉例如苯二偶氮鎓 六氟銻酸鹽、苯二偶氮鎓 六氟磷酸鹽、苯二偶氮鎓 六氟硼酸鹽等。又,芳香族碘鎓鹽係可舉例如二苯基碘鎓 肆(五氟苯基)硼酸鹽、二苯基碘鎓 六氟磷酸鹽、二苯基碘鎓 六氟銻酸鹽、二(4-壬基苯基)碘鎓 六氟磷酸鹽等。 The aromatic diazo hydrazine salt may, for example, be benzodiazepine hexafluoroantimonate, benzodiazepine hexafluorophosphate or benzodiazepine hexafluoroborate. Further, examples of the aromatic iodonium salt include diphenyliodonium (pentafluorophenyl) borate, diphenyliodonium hexafluorophosphate, diphenyliodonium hexafluoroantimonate, and di(4). - mercaptophenyl) iodonium hexafluorophosphate or the like.
芳香族鋶鹽係可舉例如三苯基鋶 六氟磷酸鹽、三苯基鋶 六氟銻酸鹽、三苯基鋶 肆(五氟苯基)硼酸鹽、4,4’-雙(二苯基鋶基)二苯基硫醚 雙(六氟磷酸酯)、4,4’-雙[二(β-羥基乙氧基)苯基鋶基]二苯基硫醚 雙(六氟銻酸酯)、4,4’-雙[二(β-羥基乙氧基)苯基鋶基]二苯基硫醚 雙(六氟磷酸酯)、7-[二(對甲苯甲醯基)鋶基]-2-異丙基硫雜蔥酮 六氟銻酸鹽、7-[二(對甲苯甲醯基)鋶基]-2-異丙基硫雜蔥酮 肆(五氟苯基)硼酸鹽、4-苯基羰基-4’-二苯基鋶基- 二苯基硫醚 六氟磷酸鹽、4-(對第三丁基苯基羰基)-4’-二苯基鋶基-二苯基硫醚 六氟銻酸鹽、4-(對第三丁基苯基羰基)-4’-二(對甲苯甲醯基)鋶基-二苯基硫醚 肆(五氟苯基)硼酸鹽等。 Examples of the aromatic onium salt include triphenylsulfonium hexafluorophosphate, triphenylsulfonium hexafluoroantimonate, triphenylsulfonium (pentafluorophenyl) borate, and 4,4'-bis(diphenyl). Diphenyl sulfide bis(hexafluorophosphate), 4,4'-bis[bis(β-hydroxyethoxy)phenylindenyl]diphenyl sulfide bis(hexafluoroantimonate) , 4,4'-bis[bis(β-hydroxyethoxy)phenylindenyl]diphenyl sulfide bis(hexafluorophosphate), 7-[bis(p-tolylmethyl) fluorenyl] 2-isopropylthione onion hexafluoroantimonate, 7-[bis(p-tolylmethylhydrazino)indolyl]-2-isopropylthioxanthone (pentafluorophenyl)borate, 4-phenylcarbonyl-4'-diphenylfluorenyl- Diphenyl sulfide hexafluorophosphate, 4-(p-tert-butylphenylcarbonyl)-4'-diphenylfluorenyl-diphenyl sulfide hexafluoroantimonate, 4-(paired third Phenylphenylcarbonyl)-4'-bis(p-tolylmethyl) fluorenyl-diphenyl sulfide quinone (pentafluorophenyl) borate.
又,鐵-累積二烯烴錯合物可舉例如二甲苯-環戊二烯基鐵(II)六氟銻酸鹽、異丙苯-環戊二烯基鐵(II)六氟磷酸鹽、二甲苯-環戊二烯基鐵(II)-參(三氟甲基磺醯基)甲基化物等。 Further, examples of the iron-accumulating diene complex compound include xylene-cyclopentadienyl iron (II) hexafluoroantimonate, cumene-cyclopentadienyl iron (II) hexafluorophosphate, and Toluene-cyclopentadienyl iron (II)- cis (trifluoromethylsulfonyl) methide or the like.
此等光陽離子聚合起始劑的市售品係可容易取得。例如,分別以商品名,可舉例如「Kayarad PCI-220」及「Kayarad PCI-620」(以上,日本化藥(股)製)、「UVI-6990」(Union Carbide公司製)、「Adeka optomer SP-150」及「Adeka optomer SP-170」(以上,ADEKA(股)製),「CI-5102」、「CIT-1370」、「CIT-1682」、「CIP-1866S」、「CIP-2048S」及「CIP-2064S」(以上,日本曹達(股)製),「DPI-101」、「DPI-102」、「DPI-103」、「DPI-105」、「MPI-103」、「MPI-105」、「BBI-101」、「BBI-102」、「BBI-103」、「BBI-105」、「TPS-101」、「TPS-102」、「TPS-103」、「TPS-105」、「MDS-103」、「MDS-105」、「DTS-102」及「DTS-103」(以上,Midori化學(股)製),「PI-2074」(Rhodia公司製)等。 Commercially available products of such photocationic polymerization initiators are readily available. For example, "Kayarad PCI-220" and "Kayarad PCI-620" (above, Nippon Kayaku Co., Ltd.), "UVI-6990" (manufactured by Union Carbide Co., Ltd.), "Adeka optomer" SP-150" and "Adeka optomer SP-170" (above, ADEKA (share) system), "CI-5102", "CIT-1370", "CIT-1682", "CIP-1866S", "CIP-2048S" And "CIP-2064S" (above, Japan's Soda (share) system), "DPI-101", "DPI-102", "DPI-103", "DPI-105", "MPI-103", "MPI -105", "BBI-101", "BBI-102", "BBI-103", "BBI-105", "TPS-101", "TPS-102", "TPS-103", "TPS-105" "MDS-103", "MDS-105", "DTS-102" and "DTS-103" (above, Midori Chemical Co., Ltd.), "PI-2074" (manufactured by Rhodia Co., Ltd.).
光陽離子聚合起始劑係可只單獨使用1種,亦可混合2種以上而使用。其中,芳香族鋶鹽係即使在300nm以上的波長區域亦可具有紫外線吸收特性,故可提供硬化性優異、具有良好之機械強度或接著強度之硬化物,故較宜使用。 The photocationic polymerization initiator may be used singly or in combination of two or more. Among them, the aromatic sulfonium salt has ultraviolet absorbing properties even in a wavelength region of 300 nm or more, and therefore it is preferably used because it can provide a cured product having excellent curability and good mechanical strength or adhesion strength.
光陽離子聚合起始劑之摻合量相對於環氧樹脂100重量份一般為0.5至20重量份,較佳係1重量份以上,且較佳係15重量份以下。光陽離子聚合起始劑之摻合量若相對於環氧樹脂100重 量份為低於0.5重量份,則硬化不充分,有機械強度或接著強度降低之傾向。又,光陽離子聚合起始劑之摻合量若相對於環氧樹脂100重量份為超過20重量份,則硬化物中之離子性物質增加,硬化物之吸濕性變高,有可能耐久性能降低。 The blending amount of the photocationic polymerization initiator is generally 0.5 to 20 parts by weight, preferably 1 part by weight or more, and preferably 15 parts by weight or less based on 100 parts by weight of the epoxy resin. The amount of the photocationic polymerization initiator blended is relative to the epoxy resin 100 When the amount is less than 0.5 part by weight, the hardening is insufficient, and the mechanical strength or the subsequent strength tends to decrease. In addition, when the amount of the photocationic polymerization initiator is more than 20 parts by weight based on 100 parts by weight of the epoxy resin, the ionic substance in the cured product increases, and the hygroscopic property of the cured product becomes high, and the durability may be high. reduce.
使用光陽離子聚合起始劑時,硬化性環氧樹脂組成物係依需要而亦可進一步含有光增感劑。使用光增感劑,陽離子聚合之反應性提高,可提昇硬化物之機械強度或接著強度。光增感劑可舉例如羰化合物、有機硫化合物、過硫化物、氧化還原系化合物、偶氮及二偶氮化合物、鹵化合物、光還原性色素等。 When a photocationic polymerization initiator is used, the curable epoxy resin composition may further contain a photosensitizer as needed. With the use of a photosensitizer, the reactivity of the cationic polymerization is improved, and the mechanical strength or the strength of the cured product can be improved. The photosensitizer may, for example, be a carbonyl compound, an organic sulfur compound, a persulfide compound, a redox compound, an azo or diazo compound, a halogen compound or a photoreductive dye.
若舉例光增感劑更具體的例子,則例如有苯偶姻甲基醚、苯偶姻異丙基醚、及α,α-二甲氧基-α-苯基乙醯苯等苯偶姻衍生物;二苯甲酮、2,4-二氯二苯甲酮、鄰苯甲醯基苯甲酸甲酯、4,4’-雙(二甲基胺基)二苯甲酮、及4,4’-雙(二乙基胺基)二苯甲酮等二苯甲酮衍生物;2-氯硫雜蔥酮、及2-異丙基硫雜蔥酮等硫雜蔥酮衍生物;2-氯蔥醌、及2-甲基蔥醌等蔥醌衍生物;N-甲基吖啶酮、及N-丁基吖啶酮等吖啶酮衍生物;其他,α,α-二乙氧基乙醯苯、二苯乙二酮(benzil)、茀酮、氧雜蔥酮、鈾醯(uranyl)化合物、鹵化合物等。光增感劑係可只單獨使用1種,亦可併用2種以上。光增感劑係宜在硬化性環氧樹脂組成物100重量份中,含有0.1至20重量份之範圍內。 Specific examples of the photosensitizer include benzoin methyl ether, benzoin isopropyl ether, and benzoin such as α,α-dimethoxy-α-phenylethyl benzene. a derivative; benzophenone, 2,4-dichlorobenzophenone, methyl ortho-benzoylbenzoate, 4,4'-bis(dimethylamino)benzophenone, and 4, a benzophenone derivative such as 4'-bis(diethylamino)benzophenone; a thione onone derivative such as 2-chlorothianicone or 2-isopropylthiolenac; 2 - chlorophyll 醌, and 2-methyl onion 醌 醌 醌 derivatives; N-methyl acridone, and N-butyl acridone and other acridone derivatives; other, α, α-diethoxy Ethyl benzene, benzil, anthrone, xanthonone, uranyl compound, halogen compound, and the like. The photosensitizer may be used alone or in combination of two or more. The photosensitizer is preferably contained in an amount of from 0.1 to 20 parts by weight per 100 parts by weight of the curable epoxy resin composition.
接著劑所含有之環氧樹脂係藉光陽離子聚合而硬化,但亦可藉光陽離子聚合及熱陽離子聚合之兩者進行硬化。後者之情形,宜為併用光陽離子聚合起始劑與熱陽離子聚合起始劑。 The epoxy resin contained in the subsequent agent is hardened by photocationic polymerization, but may be hardened by both photocationic polymerization and thermal cationic polymerization. In the latter case, it is preferred to use a photocationic polymerization initiator together with a thermal cationic polymerization initiator.
熱陽離子聚合起始劑係可舉例如苯甲基鋶鹽、噻吩鎓鹽、四 氫噻吩鎓(thiolanium)鹽、苯甲基銨、吡啶鎓鹽、聯胺鎓鹽、羧酸酯、磺酸酯、胺醯亞胺等。此等熱陽離子聚合起始劑,就市售品而言可容易取得,任一者皆就商品名,可舉例如「Adeka opton CP77」及「Adeka opton CP66」(以上,ADEKA股份有限公司製)、「CI-2639」及「CI-2624」(以上,日本曹達股份有限公司製),「Sun-aid SI-60L」、「Sun-aid SI-80L」及「Sun-aid SI-100L」(以上,三新化學工業股份有限公司製)等。 The thermal cationic polymerization initiator may, for example, be a benzyl sulfonium salt, a thiophene sulfonium salt, or a tetra A thiolanium salt, a benzylammonium salt, a pyridinium salt, a hydrazine salt, a carboxylic acid ester, a sulfonate, an amine imine or the like. Such a thermal cationic polymerization initiator can be easily obtained as a commercial product, and any of them may be, for example, "Adeka opton CP77" and "Adeka opton CP66" (above, ADEKA Co., Ltd.) "CI-2639" and "CI-2624" (above, manufactured by Japan Soda Co., Ltd.), "Sun-aid SI-60L", "Sun-aid SI-80L" and "Sun-aid SI-100L" ( Above, Sanshin Chemical Industry Co., Ltd.) and so on.
活性能量線硬化型之接著劑可進一步含有環氧丙烷(oxetane)類或多元醇類等促進陽離子聚合之化合物。 The active energy ray-curable adhesive may further contain a compound which promotes cationic polymerization such as oxetane or polyol.
環氧丙烷類係於分子內具有4員環醚之化合物,可舉例如3-乙基-3-羥甲基環氧丙烷、1,4-雙[(3-乙基-3-環氧丙烷基)甲氧基甲基]苯、3-乙基-3-(苯氧基甲基)環氧丙烷、二[(3-乙基-3-環氧丙烷基)甲基]醚、3-乙基-3-(2-乙基己氧基甲基)環氧丙烷、酚酚醛清漆環氧丙烷等。此等環氧丙烷類,就市售品而言可容易取得,任一者皆就商品名,可舉例如「Aron oxetane OXT-101」、「Aron oxetane OXT-121」、「Aron oxetane OXT-211」、「Aron oxetane OXT-221」及「Aron oxetane OXT-212」(以上,東亞合成(股)製)等。此等環氧丙烷類於硬化性環氧樹脂組成物中,一般為以5至95重量%,較佳係以30至70重量%之比率含有。 The propylene oxide is a compound having a 4-membered cyclic ether in the molecule, and examples thereof include 3-ethyl-3-hydroxymethyl propylene oxide and 1,4-bis[(3-ethyl-3-epoxypropane). Methoxymethyl]benzene, 3-ethyl-3-(phenoxymethyl) propylene oxide, bis[(3-ethyl-3-epoxypropenyl)methyl]ether, 3- Ethyl-3-(2-ethylhexyloxymethyl) propylene oxide, phenol novolac propylene oxide, and the like. These propylene oxides are easily available in the case of commercially available products, and any of them may be referred to as "Aron oxetane OXT-101", "Aron oxetane OXT-121", or "Aron oxetane OXT-211". "Aron oxetane OXT-221" and "Aron oxetane OXT-212" (above, East Asia Synthetic Co., Ltd.). These propylene oxides are generally contained in the curable epoxy resin composition in a ratio of 5 to 95% by weight, preferably 30 to 70% by weight.
多元醇類係宜為不存在酚性羥基以外之酸性基者,可舉例如不具有羥基以外之官能基的多元醇化合物、聚酯多元醇化合物、聚己內酯多元醇化合物、具有酚性羥基之多元醇化合物、聚碳酸酯多元醇等。此等多元醇類的分子量一般為48以上,宜為62以上,更宜為100以上,最佳為1000以下。此等多元醇類於硬化性 環氧樹脂組成物中,一般以50重量%以下,較佳係30重量%以下之比率含有。 The polyol is preferably an acidic group other than the phenolic hydroxyl group, and examples thereof include a polyol compound having no functional group other than a hydroxyl group, a polyester polyol compound, a polycaprolactone polyol compound, and a phenolic hydroxyl group. Polyol compound, polycarbonate polyol, and the like. The molecular weight of these polyols is generally 48 or more, preferably 62 or more, more preferably 100 or more, and most preferably 1,000 or less. These polyols are hardenable The epoxy resin composition is generally contained in a ratio of 50% by weight or less, preferably 30% by weight or less.
活性能量線硬化型之接著劑中可進一步摻合離子捕捉劑、抗氧化劑、鏈移動劑、增黏劑、熱塑性樹脂、填充劑、流動調整劑、調平劑、可塑劑、消泡劑等添加劑。離子捕捉劑係可舉例如粉末狀之鉍系、銻系、鎂系、鋁系、鈣系、鈦系及此等之混合系等無機化合物,抗氧化劑係可舉例如受阻酚系抗氧化劑等。 The active energy ray-curable adhesive may further incorporate an ion trapping agent, an antioxidant, a chain shifting agent, a tackifier, a thermoplastic resin, a filler, a flow regulator, a leveling agent, a plasticizer, an antifoaming agent, and the like. . The ion scavenger may, for example, be an inorganic compound such as a powdery lanthanum, a lanthanide, a magnesium, an aluminum, a calcium, a titanium or a mixed system thereof. The antioxidant may, for example, be a hindered phenol antioxidant.
活性能量線硬化型之接著劑係可使用來作為實質上不含有溶劑成分的無溶劑型接著劑,但各塗佈方式分別具有最適度的黏度範圍,故為了黏度調整,亦可含有溶劑。溶劑係宜使用不降低偏光膜之光學性能,且良好地溶解環氧樹脂組成物等者,可舉例如以甲苯為代表之烴類、以乙酸乙酯為代表之酯類等有機溶劑。本發明所使用之活性能量線硬化型的接著劑之黏度係例如5至1000mPa‧s左右之範圍,宜為10至200mPa‧s,更佳係20至100mPa‧s。 The active energy ray-curable adhesive can be used as a solventless adhesive which does not substantially contain a solvent component. However, each coating method has an optimum viscosity range, and therefore, a solvent may be contained for viscosity adjustment. The solvent is preferably an organic solvent such as a hydrocarbon represented by toluene or an ester represented by ethyl acetate, for example, which does not lower the optical performance of the polarizing film and dissolves the epoxy resin composition. The viscosity of the active energy ray-curable adhesive used in the present invention is, for example, in the range of about 5 to 1000 mPa ‧ s, preferably 10 to 200 mPa ‧ s, more preferably 20 to 100 mPa ‧ s.
第6圖、第7圖、第8圖及第9圖所示之例中,從捲繞成輥狀之狀態連續地拉出的透明薄膜2、3係藉由接著劑塗佈裝置11、12,分別於單面塗佈活性能量線硬化型之接著劑。接著劑於透明薄膜的塗佈方法並無特別限定,但例如可利用刮刀、線棒、模頭(die)塗佈器、缺角(comma)塗佈器、凹版塗佈器等多種塗佈方式。其中,若考量對應於薄膜塗佈、通行線(pass line)之自由度、幅寬等,則接著劑塗佈裝置11、12宜為凹版輥輪。市售之塗佈裝置可舉例如富士機械公司製之MCD(Micro Chamber doctor)等。 In the examples shown in Fig. 6, Fig. 7, Fig. 8, and Fig. 9, the transparent films 2 and 3 which are continuously drawn in a state of being wound into a roll are used by the adhesive applicator 11 and 12 The active energy ray-curable adhesive is applied to one side, respectively. The method of applying the coating agent to the transparent film is not particularly limited, and for example, various coating methods such as a doctor blade, a wire bar, a die applicator, a comma applicator, and a gravure coater can be used. . Here, if the degree of freedom, the width, and the like of the film coating, the pass line, and the like are considered, the adhesive application devices 11, 12 are preferably gravure rolls. The commercially available coating device may, for example, be MCD (Micro Chamber doctor) manufactured by Fuji Machinery Co., Ltd., or the like.
就接著劑塗佈裝置11、12使用凹版輥輪而進行接著劑之塗佈 時,所塗佈之接著劑的厚度(塗佈厚)宜為0.1至10μm,更佳係0.2至4μm。接著劑之塗佈厚度係藉由凹版輥輪之速度對透明薄膜之線速度的比之拉伸比而調整。一般,藉由使拉伸比(凹版輥輪之速度/線速度)調整至0.5至10,可使接著劑之塗佈厚度調整至約0.1至10μm。更具體地,使透明薄膜2、3之線速度為10至100m/分鐘,凹版輥輪朝向與透明薄膜2、3之搬送方向的相反方向旋轉,使凹版輥輪之速度為5至1000m/分鐘,而可使接著劑之塗佈厚度調整至約0.1至10μm。 Applying an adhesive to the adhesive application devices 11 and 12 using a gravure roll The thickness (coating thickness) of the applied adhesive is preferably from 0.1 to 10 μm, more preferably from 0.2 to 4 μm. The coating thickness of the subsequent agent is adjusted by the ratio of the speed of the gravure roll to the linear speed of the transparent film. In general, the coating thickness of the adhesive can be adjusted to about 0.1 to 10 μm by adjusting the draw ratio (speed/line speed of the gravure roll) to 0.5 to 10. More specifically, the linear speed of the transparent films 2, 3 is 10 to 100 m/min, and the gravure roll is rotated in the opposite direction to the conveying direction of the transparent films 2, 3 so that the speed of the gravure roll is 5 to 1000 m/min. The coating thickness of the adhesive can be adjusted to about 0.1 to 10 μm.
接著劑在調製後,一般係在調整為15至40℃之範圍內的特定溫度±5℃(例如,特定溫度為30℃時,30℃±5℃),較佳係±3℃,更佳係±1℃的環境下塗佈。 The subsequent agent is generally adjusted to a specific temperature within a range of 15 to 40 ° C ± 5 ° C (for example, a specific temperature of 30 ° C, 30 ° C ± 5 ° C), preferably ± 3 ° C, preferably Coating in an environment of ±1 °C.
其次,有關本發明之很大的特徵係如上述般,使透明薄膜之塗佈有活性能量線硬化型之接著劑的面以貼合輥輪挾住而貼合於偏光膜之單面或雙面,製作層合體。在本發明之偏光板的製造方法中,透明薄膜可僅貼合於上述偏光膜的任一面,亦可貼合於雙面。貼合於雙面時,各別之透明薄膜可為相同,亦可為相異種類。 Next, a large feature of the present invention is that, as described above, the surface of the transparent film coated with the active energy ray-curable adhesive is adhered to the bonding roller and adhered to one side or double of the polarizing film. Face, make a laminate. In the method for producing a polarizing plate of the present invention, the transparent film may be bonded only to either side of the polarizing film or may be bonded to both surfaces. When laminated on both sides, the respective transparent films may be the same or different types.
第6圖、第7圖、第8圖及第9圖所示之例中,從捲繞成輥狀之狀態連續地拉出的透明薄膜2、3係藉由接著劑塗佈裝置11、12,而分別於單面塗佈活性能量線硬化型之接著劑。繼而,與上述透明薄膜2、3同樣做法而可製作於連續拉出之偏光膜1的雙面分別藉貼合輥輪5a、5b並隔著前述接著劑重疊透明薄膜2、3的層合體4。此時,在本發明之偏光板的製造方法中設有障礙物6(第6圖)或吸引手段7(第7、8圖)或者送風或吸引手段8(第9圖), 係如參照第1圖、第2圖、第3圖及第5圖所說明般。又,於偏光膜之雙面貼合透明薄膜時,相對於與貼合輥輪的押壓方向垂直之面構成±3°的範圍內之角度,較佳係構成±1°之範圍內之角度,尤佳係,宜為以與垂直於押壓方向的面重疊之方式而使偏光模在貼合輥輥間搬送。如此做法,偏光膜與透明薄膜在貼合輥輪之前接觸而未產生氣泡。 In the examples shown in Fig. 6, Fig. 7, Fig. 8, and Fig. 9, the transparent films 2 and 3 which are continuously drawn in a state of being wound into a roll are used by the adhesive applicator 11 and 12 The active energy ray-curable adhesive is applied to one side, respectively. Then, in the same manner as the transparent films 2 and 3 described above, the laminated body 4 in which the transparent films 2 and 3 are superposed on each other on the both sides of the polarizing film 1 which is continuously pulled out by the bonding rolls 5a and 5b, respectively, can be formed. . In this case, in the method of manufacturing a polarizing plate of the present invention, an obstacle 6 (Fig. 6) or a suction means 7 (Fig. 7 and Fig. 8) or a blowing or suction means 8 (Fig. 9) are provided. For example, as described with reference to FIGS. 1 , 2 , 3 , and 5 . Further, when the transparent film is bonded to both surfaces of the polarizing film, the angle in the range of ±3° with respect to the surface perpendicular to the pressing direction of the bonding roller is preferably an angle within a range of ±1°. Preferably, the polarizing mold is conveyed between the bonding rolls in such a manner as to overlap the surface perpendicular to the pressing direction. In this way, the polarizing film and the transparent film are in contact with each other before the roller is attached, and no air bubbles are generated.
再者,第6圖、第7圖、第8圖及第9圖所示之例中表示,於透明薄膜2、3之單面均勻地塗佈接著劑,於透明薄膜2、3之塗佈有接著劑的面重疊偏光膜1並藉貼合輥輪5a、5b而貼合之方法,但,亦可於偏光膜1之雙面均勻地塗佈接著劑,於偏光膜1之塗佈有接著劑的面重疊透明薄膜3、2並藉貼合輥輪5a、5b貼合。 Further, in the examples shown in Fig. 6, Fig. 7, Fig. 8, and Fig. 9, it is shown that the adhesive is uniformly applied to one surface of the transparent films 2 and 3, and the coating is applied to the transparent films 2 and 3. The surface of the adhesive film is overlapped with the polarizing film 1 and bonded by the bonding rollers 5a and 5b. However, the adhesive may be uniformly applied to both surfaces of the polarizing film 1, and the polarizing film 1 may be coated. The surface of the subsequent agent overlaps the transparent films 3 and 2 and is bonded by the bonding rolls 5a and 5b.
在本發明中,貼合輥輪的旋轉速度係與線速度聯動。線速度一般為10至100m/分鐘,但考量生產性而較佳係20m/分鐘以上,更佳係30m/分鐘以上。減少本發明之貼合之前的區域之風壓的方法,尤其在線速度快時,發揮有效性。 In the present invention, the rotational speed of the bonding roller is linked to the linear velocity. The linear velocity is generally from 10 to 100 m/min, but the productivity is preferably 20 m/min or more, more preferably 30 m/min or more. The method of reducing the wind pressure in the region before the bonding of the present invention, especially when the line speed is fast, is effective.
在本發明中,一對貼合輥輪5a、5b的其中一者可為具有從中央部至端部之直徑漸變小(亦即,中央部之半徑大於端部之半徑)之錐狀(taper)的外周形狀之冠狀輥輪。此時,非冠狀輥輪者的貼合輥輪係宜直徑實質上為均一的扁平輥輪(flat roll)。 In the present invention, one of the pair of bonding rollers 5a, 5b may have a tapered shape (that is, the radius of the central portion is larger than the radius of the end portion) from the central portion to the end portion (taper) The crown roller of the outer peripheral shape. In this case, the non-coronal roller of the non-coronal roller is preferably a flat flat roll having a substantially uniform diameter.
冠狀輥輪之形狀在貼合步驟中進行押壓之狀態,宜設計成冠狀輥輪與扁平輥輪之間隔實質上均一。此處,冠狀輥輪與扁平輥輪之間隔係指在含有前述冠狀輥輪之軸及前述扁平輥輪的軸之截面中的前述冠狀輥輪及前述扁平輥輪相對向的外周之間隔。又, 一般,冠狀輥輪及扁平輥輪係在不進行押壓之狀態中,配置成使冠狀輥輪之軸及扁平輥輪之軸為平行。 The shape of the crown roller is pressed in the laminating step, and the interval between the crown roller and the flat roller should be substantially uniform. Here, the interval between the crown roller and the flat roller refers to the interval between the outer circumference of the crown roller and the flat roller in the cross section including the shaft of the crown roller and the shaft of the flat roller. also, Generally, the crown roller and the flat roller are arranged such that the shaft of the crown roller and the shaft of the flat roller are parallel in a state where the pressing is not performed.
例如,貼合輥輪5a為金屬製之扁平輥輪,貼合輥輪5b為橡膠製之冠狀輥輪時,對於扁平輥輪之軸承構件,朝冠狀輥輪之方向施加壓力。以進行此押壓的狀態,冠狀輥輪係產生撓曲,但若以冠狀輥輪與扁平輥輪之間隔實質上成為均一之方式設計冠狀輥輪之形狀,則可均勻地加壓層合體。又,對於冠狀輥輪朝扁平輥輪之方向進行押壓時,可得到同樣之效果。又,冠狀輥輪及扁平輥輪之兩者亦可朝互相接近的方向押壓。 For example, when the bonding roller 5a is a flat roller made of metal and the bonding roller 5b is a crown roller made of rubber, pressure is applied to the bearing member of the flat roller toward the direction of the crown roller. In the state in which the pressing is performed, the crown roller system is deflected. However, if the shape of the crown roller is designed such that the interval between the crown roller and the flat roller is substantially uniform, the laminate can be uniformly pressed. Further, the same effect can be obtained when the crown roller is pressed in the direction of the flat roller. Further, both the crown roller and the flat roller can be pressed in a direction in which they approach each other.
使用冠狀輥輪時,其中央部的直徑與端部之直徑的差之比率相對於前述冠狀輥輪的長度(軸方向之長度)宜為0.0020至0.0500%。更佳係0.0020至0.020%。一般,在如此之比率範圍中,可設計冠狀輥輪之形狀以使在貼合步驟中進行押壓之狀態下冠狀輥輪與扁平輥輪的間隔成為均一。 When the crown roller is used, the ratio of the difference between the diameter of the central portion and the diameter of the end portion is preferably 0.0020 to 0.0500% with respect to the length of the crown roller (the length in the axial direction). More preferably, it is 0.0020 to 0.020%. In general, in such a ratio range, the shape of the crown roller can be designed such that the interval between the crown roller and the flat roller is uniform in the state of being pressed in the bonding step.
又,使用冠狀輥輪時,其上述錐狀之外周形狀係宜為圓弧狀。此處,前述冠狀輥輪之前述錐狀的外周形狀為圓弧狀係意指在含有前述冠狀輥輪之前述錐狀的外周形狀之軸的面之截面為圓弧狀。在貼合步驟中押壓扁平輥輪之軸構件時,扁平輥輪係常有外周形狀撓曲成為圓弧狀之情形,使相對向之冠狀輥輪的外周形狀形成為具有與其同程度的曲率半徑之圓弧狀,而可使相對向之貼合輥輪(冠狀輥輪與扁平輥輪)之押壓時的間隔均一化,可以均勻的壓力貼合偏光膜與透明薄膜。 Further, when the crown roller is used, the tapered outer peripheral shape is preferably an arc shape. Here, the arcuate outer circumferential shape of the crown roller means that the cross section of the surface including the axis of the tapered outer peripheral shape of the crown roller is an arc shape. When the shaft member of the flat roller is pressed in the bonding step, the flat roller system often has a shape in which the outer peripheral shape is curved into an arc shape, so that the outer peripheral shape of the crown roller is formed to have the same degree of curvature. The radius of the arc is uniform, and the interval between the pressing rollers (the crown roller and the flat roller) can be made uniform, and the polarizing film and the transparent film can be bonded to each other with uniform pressure.
貼合輥輪之直徑無特別限定,但為扁平輥輪之時的直徑宜為50至400mm。又,為冠狀輥輪之時的端部之直徑係宜為50至 400mm。又,一對貼合輥輪各別的直徑係可為相同,亦可為相異。貼合輥輪之寬為300至3000mm。 The diameter of the bonding roller is not particularly limited, but the diameter of the flat roller is preferably 50 to 400 mm. Further, the diameter of the end portion of the crown roller is preferably 50 to 400mm. Moreover, the diameters of the pair of bonding rollers may be the same or different. The width of the bonding roller is 300 to 3000 mm.
前述押壓的壓力係無特別限定,但使用金屬製輥輪與橡膠製輥輪時,富士Film製2片型Prescale(商品名)(超低壓用)中的瞬間壓宜為0.5至3.0MPa,更佳係0.7至2.3MPa。在本發明中,對於此貼合輥輪之押壓的壓力一般施加於貼合輥輪之兩端的軸承構件。 The pressure of the pressing force is not particularly limited. However, when a metal roller and a rubber roller are used, the instantaneous pressure in a two-piece Prescale (trade name) (for ultra low pressure) manufactured by Fuji Film is preferably 0.5 to 3.0 MPa. More preferably 0.7 to 2.3 MPa. In the present invention, the pressure for the pressing force of the bonding roller is generally applied to the bearing members of the both ends of the bonding roller.
貼合輥輪之材質係可舉例如金屬或橡膠,較佳係一對貼合輥輪的其中一者為金屬製輥輪,另一者為橡膠製輥輪。進一步,更佳係扁平輥輪為金屬製,冠狀輥輪為橡膠製。 The material of the bonding roller may be, for example, metal or rubber. Preferably, one of the pair of bonding rollers is a metal roller, and the other is a rubber roller. Further, it is more preferable that the flat roller is made of metal and the crown roller is made of rubber.
以往之貼合輥輪一般係所押壓之上側的貼合輥輪為橡膠製,下側之貼合輥輪為金屬製。此係對下側之貼合輥輪附上驅動馬達而控制旋轉速度,故下側之貼合輥輪為金屬製者在押壓時下側之貼合輥輪不變形,易使貼合輥輪之周速度維持一定。但,此時,為了易進行捲曲調整,較佳係押壓之(上側之)貼合輥輪為金屬製,另一者之(下側之)貼合輥輪為橡膠製。 In the conventional bonding roller, the bonding roller on the upper side of the pressing force is generally made of rubber, and the lower bonding roller is made of metal. This is to control the rotation speed by attaching a drive motor to the lower bonding roller, so that the bonding roller on the lower side is not deformed by the metal roller when the pressing roller is pressed at the lower side, and the bonding roller is easy to be fitted. The weekly speed is maintained at a constant rate. However, in this case, in order to facilitate curl adjustment, it is preferable that the bonding roller (upper side) is made of metal, and the other (lower side) bonding roller is made of rubber.
金屬製輥輪之母材係可使用各種公知之材質,但較佳係不銹鋼,更佳係SUS 304(含有18%之Cr與8%之Ni的不銹鋼)。金屬製輥輪的表面宜為實施鉻鍍覆處理。 The base material of the metal roll can be made of various known materials, but is preferably stainless steel, and more preferably SUS 304 (stainless steel containing 18% of Cr and 8% of Ni). The surface of the metal roller is preferably subjected to a chromium plating treatment.
橡膠製輥輪的材質無特別限定,但可舉例如NBR(腈橡膠)、Titan、胺基甲酸酯、聚矽氧、EPDM(乙烯-丙烯-二烯橡膠)等,較佳係NBR、Titan、胺基甲酸酯。橡膠輥輪之硬度無特別限定,一般為60至100°,宜為85至95°。又,橡膠輥輪之硬度係可以使用依據JISK 6253之硬度計測定。市售之硬度計係可使用例如Asuka 公司製之橡膠硬度計「Type-A」等。具體上係將表面使用如棒等者押住時,以硬度計測定橡膠輥輪的表面電阻。 The material of the rubber roller is not particularly limited, and examples thereof include NBR (nitrile rubber), Titan, urethane, polyfluorene oxide, EPDM (ethylene-propylene-diene rubber), and the like, and are preferably NBR or Titan. , urethane. The hardness of the rubber roller is not particularly limited and is generally 60 to 100°, preferably 85 to 95°. Further, the hardness of the rubber roller can be measured using a hardness meter according to JIS K 6253. Commercially available durometers can be used, for example, Asuka Rubber hardness tester "Type-A" made by the company. Specifically, when the surface is used such as a stick, the surface resistance of the rubber roller is measured by a durometer.
又,第6圖、第7圖、第8圖及第9圖中表示以一對貼合輥輪貼合的例子,但不限制於此,亦可為以挾住一對貼合輥輪之方式進一步設置一對輥輪之構成。 6 , 7 , 8 , and 9 show an example in which a pair of bonding rollers are bonded to each other. However, the present invention is not limited thereto, and may be used to hold a pair of bonding rollers. The method further comprises the configuration of a pair of rollers.
後續步驟中係對如上述做法所得到之層合體照射活性能量線,得到偏光板。第6圖、第7圖、第8圖及第9圖所示之例中,其後,層合體4一邊密著於輥輪13之外周面一邊搬送。第6圖、第7圖、第8圖及第9圖所示之例中,係使設置於與該輥輪13的外周面相對之位置的第1活性能量線照射裝置14、15,進一步沿著搬送方向而依序設置:設置於相較上述者為搬送方向下流側之第2以後之活性能量線照射裝置16、17、18,與搬送用夾持輥輪(nip roll)19。藉此,使層合體4密著於輥輪13的外周面同時並搬送之過程中,從第1活性能量線照射裝置14、15朝向輥輪13之外周面而照射活性能量線,使接著劑聚合硬化。又,配置於搬送方向下流側之第2以後之活性能量線照射裝置16、17、18係用以使接著劑完全聚合硬化之裝置,可依需要而追加、省略。最後,層合體4係通過搬送用夾持輥輪19,形成偏光板而捲取成捲取輥輪20。 In the subsequent step, the laminate obtained by the above method is irradiated with an active energy ray to obtain a polarizing plate. In the examples shown in Fig. 6, Fig. 7, Fig. 8, and Fig. 9, the laminate 4 is then conveyed while being adhered to the outer peripheral surface of the roller 13. In the examples shown in Fig. 6, Fig. 7, Fig. 8, and Fig. 9, the first active energy ray irradiation devices 14, 15 provided at positions facing the outer peripheral surface of the roller 13 are further advanced. In the transport direction, the second and subsequent active energy ray irradiation devices 16 , 17 and 18 and the nip roll 19 for transport are provided in the same manner as the above-described one in the transport direction downstream. In this way, the laminate 4 is adhered to the outer peripheral surface of the roller 13 while being conveyed, and the active energy ray is irradiated from the first active energy ray irradiation devices 14 and 15 toward the outer peripheral surface of the roller 13 to form an adhesive. Polymerization hardening. Further, the second and subsequent active energy ray irradiation devices 16, 17, and 18 disposed on the downstream side in the transport direction are devices for completely curing and curing the adhesive, and may be added or omitted as needed. Finally, the laminated body 4 is formed by the conveyance nip roller 19, and the polarizing plate is formed, and it is wound up as the winding roller 20.
輥輪13係構成外周面經鏡面精加工之凸曲面,一邊使層合體4密著其表面一邊搬送,在其過程藉活性能量線照射裝置14、15使接著劑聚合硬化。使接著劑聚合硬化,並使層合體4充分密著時,輥輪13之直徑係無特別限定。輥輪13係亦可對於層合體4之生產線的動作從動或旋轉驅動,或者固定而使層合體4於表面 滑動。又,輥輪13在以活性能量線之照射進行聚合硬化時,亦可作用為用以將層合體4所產生之熱放熱的冷卻輥輪。其時,作用為冷卻輥輪之輥輪13的表面溫度宜為設定於4至30℃。 The roller 13 is formed by a mirror-finished convex curved surface of the outer peripheral surface, and is conveyed while the laminate 4 is adhered to the surface thereof, and the adhesive is polymerized and hardened by the active energy ray irradiation devices 14 and 15 in the process. When the adhesive is polymerized and hardened, and the laminate 4 is sufficiently adhered, the diameter of the roller 13 is not particularly limited. The roller 13 can also be driven or rotationally driven by the action of the production line of the laminate 4, or the laminate 4 can be fixed on the surface. slide. Further, when the roller 13 is subjected to polymerization hardening by irradiation with an active energy ray, it can also function as a cooling roller for radiating heat generated by the laminated body 4. At this time, the surface temperature of the roller 13 acting as a cooling roller is preferably set to 4 to 30 °C.
用以藉活性能量線之照射而進行接著劑的聚合硬化所使用之光源係無特別限定,但宜為於波長400nm以下具有發光分布之光源。如此之光源係可舉例如低壓水銀燈、中壓水銀燈、高壓水銀燈、超高壓水銀燈、化學燈、黑光燈、微波激發水銀燈、金屬鹵素燈。 The light source used for the polymerization hardening of the adhesive agent by irradiation with the active energy ray is not particularly limited, but is preferably a light source having a light-emitting distribution at a wavelength of 400 nm or less. Such a light source may be, for example, a low pressure mercury lamp, a medium pressure mercury lamp, a high pressure mercury lamp, an ultra high pressure mercury lamp, a chemical lamp, a black light lamp, a microwave excited mercury lamp, or a metal halide lamp.
對活性能量線硬化型接著劑之光照射強度係依每一接著劑之組成所決定者而無特別限定,但宜為10至5000mW/cm2。若對樹脂組成物之光照射強度未達10mW/cm2,則反應時間太長,若超過5000mW/cm2,則由燈所輻射之熱及組成物的聚合時之發熱,有可能產生接著劑之構成材料的環氧樹脂組成物等之黃變或偏光膜的劣化。又,照射強度係宜為對於光陽離子聚合起始劑的活化有效之波長區域中的強度,更佳係波長400nm以下之波長區域中的強度,最佳係波長280至320nm之波長區域中的強度。 The light irradiation intensity of the active energy ray-curable adhesive is not particularly limited as long as it is determined by the composition of each adhesive, but is preferably 10 to 5000 mW/cm 2 . If the light irradiation intensity of the resin composition is less than 10 mW/cm 2 , the reaction time is too long. If it exceeds 5000 mW/cm 2 , the heat radiated from the lamp and the heat generated during the polymerization of the composition may cause an adhesive. The yellowing of the epoxy resin composition or the like of the constituent material or the deterioration of the polarizing film. Further, the irradiation intensity is preferably the intensity in the wavelength region effective for activation of the photocationic polymerization initiator, more preferably the intensity in the wavelength region of 400 nm or less, and the intensity in the wavelength region of the optimum wavelength of 280 to 320 nm. .
活性能量線對活性能量線硬化型接著劑的照射時間係針對每一硬化之組成物而控制,無特別限定,但設定成作為照射強度與照射時間之積所示的累積光量為55mJ/cm2以上,較佳係55至5000mJ/cm2。若對上述接著劑之累積光量未達55mJ/cm2,則源自起始劑之活性種的產生不充分,接著劑之硬化不充分以外,尚有可能產生偏光板之兩端部波浪鬆弛缺陷。另外,若其累積光量超過5000mJ/cm2,則照射時間變成非常長,成為對於生產性提昇不利者。此時,會因所使用之薄膜或接著劑種的組合等,而對何種 波長區域(UVA(320至390nm)或UVB(280至320nm)等)的累積光量是否需要有所相異。 The irradiation time of the active energy ray-curable active energy ray-curable adhesive is controlled for each hardened composition, and is not particularly limited. However, the cumulative light amount as a product of the irradiation intensity and the irradiation time is set to 55 mJ/cm 2 . Above, it is preferably 55 to 5000 mJ/cm 2 . When the cumulative amount of the above-mentioned adhesive is less than 55 mJ/cm 2 , the generation of the active species derived from the initiator is insufficient, and the hardening of the adhesive is insufficient, and the wave relaxation defects at both ends of the polarizing plate may be generated. . In addition, when the cumulative light amount exceeds 5000 mJ/cm 2 , the irradiation time becomes extremely long, which is disadvantageous for productivity improvement. At this time, whether or not the cumulative light amount of the wavelength region (UVA (320 to 390 nm) or UVB (280 to 320 nm), etc.) needs to be different depending on the combination of the film or the adhesive used.
在本發明中,雖對層合體照射活性能量線而使接著劑聚合硬化,但亦可以併用藉由加熱之聚合硬化。 In the present invention, the laminate is irradiated with an active energy ray to cure and cure the adhesive, but it may be cured by polymerization by heating.
活性能量線為紫外線時,在對層合體4照射活性能量線之步驟中,較佳係對層合體4朝長度方向(搬送方向)施加100至800N/m的張力,同時以使照射時間成為0.1秒以上之線速度搬送層合體4。又,紫外線之照射強度宜為10mW/cm2以上。 When the active energy ray is ultraviolet ray, in the step of irradiating the laminated body 4 with the active energy ray, it is preferable to apply the tension of the laminated body 4 to the longitudinal direction (transport direction) by 100 to 800 N/m while making the irradiation time 0.1. The laminate 4 is conveyed at a line speed of seconds or more. Further, the irradiation intensity of ultraviolet rays is preferably 10 mW/cm 2 or more.
又,藉由活性能量線照射裝置14、15之活性能量線的累積光量不充分時,宜進一步設置第2以後之活性能量線照射裝置16、17、18,追加照射活性能量線,促進層合體4之接著劑的硬化。此等之全步驟中的累積光量為55mJ/cm2以上,宜設定成55至5000mJ/cm2。如此地,在照射活性能量線之步驟中,活性能量線之照射宜分成複數次來進行。 Further, when the accumulated light amount of the active energy ray of the active energy ray irradiation devices 14 and 15 is insufficient, it is preferable to further provide the second and subsequent active energy ray irradiation devices 16, 17, and 18, and additionally irradiate the active energy ray to promote the laminate. 4 of the hardening of the adhesive. The cumulative light amount in all of the steps is 55 mJ/cm 2 or more, and is preferably set to 55 to 5000 mJ/cm 2 . As such, in the step of irradiating the active energy ray, the irradiation of the active energy ray is preferably carried out in plural times.
為了確實進行偏光板(層合體)端部的接著劑之硬化,可舉例如使無電極D燈泡燈之Fusion製「Light Hammer 10」以相對於薄膜移動為橫跨之方式排列之方法等。 In order to securely cure the adhesive at the end of the polarizing plate (laminate), for example, a method in which the Light Hammer 10 manufactured by Fusion, an electrodeless D-bulb lamp, is arranged so as to straddle the film.
活性能量線硬化型樹脂硬化的比率,亦即反應率係宜為90%以上,更宜為95%以上。 The ratio of the active energy ray-curable resin hardening, that is, the reaction rate is preferably 90% or more, more preferably 95% or more.
捲取層合體(偏光板)4之張力係無特別限定,但宜為30至150N/cm2之範圍內,更宜為30至120N/cm2之範圍內。捲取層合體4之張力未達30N/cm2時,移送長條狀的輥輪捲時,有引起捲起偏移之虞,大於150N/cm2時,捲緊繃強,有易產生鬆弛之傾向。 The tension of the take-up laminate (polarizing plate) 4 is not particularly limited, but is preferably in the range of 30 to 150 N/cm 2 , more preferably in the range of 30 to 120 N/cm 2 . When the tension of the take-up laminate 4 is less than 30 N/cm 2 , when the roll of the long roll is transferred, there is a tendency to cause a roll-off offset. When the roll is larger than 150 N/cm 2 , the roll is stretched and stretched, and slack is likely to occur. The tendency.
又,捲取長度愈長,在同一張力時愈易引起捲緊繃(拉出時很難返回平坦的狀態的現象),故可一邊使偏光板捲於核芯,一邊使張力連續或階段性降低。即使在如此使用所謂錐體而降低張力之方法中,此時之張力係150 N/cm2以下。 Further, the longer the winding length is, the more the winding tension is likely to occur when the same tension is applied (it is difficult to return to a flat state when pulled out), so that the tension can be continuously or stepwise while the polarizing plate is wound around the core. reduce. Even in the method of reducing the tension by using a so-called cone as described above, the tension at this time is 150 N/cm 2 or less.
捲取於核芯的偏光板之長度並無特別限定,但宜為100至4000m。 The length of the polarizing plate taken up from the core is not particularly limited, but is preferably 100 to 4000 m.
圓筒狀之核芯的直徑宜為6至12英吋。核芯的直徑愈大愈佳,更宜為11英吋、12英吋等,直徑若太大時,有很難移送或保管之傾向。 The cylindrical core preferably has a diameter of 6 to 12 inches. The larger the diameter of the core, the better, preferably 11 inches, 12 inches, etc. If the diameter is too large, there is a tendency to be difficult to transfer or store.
圓筒狀核芯的材質係在無塵室使用,故其本身很難發塵,只要可確保能捲取寬度廣的偏光板之適當的強度,無特別限定,但,可選擇FRP(玻璃纖維強化塑膠)等。 Since the material of the cylindrical core is used in a clean room, it is difficult to dust itself, and it is not particularly limited as long as it can secure the appropriate strength of the polarizing plate having a wide width, but FRP (glass fiber) can be selected. Reinforced plastic).
於以下,舉出實施例,更詳細地說明本發明,但,本發明係不限定於此等實施例。 Hereinafter, the present invention will be described in more detail by way of examples, but the invention is not limited to the examples.
在本實施例中係使用如第3圖所示之裝置,製作使含有1片偏光膜之複合薄膜層合體與1片透明薄膜貼合而成之偏光板。 In the present embodiment, a polarizing plate obtained by laminating a composite film laminate containing one polarizing film and one transparent film was produced by using the apparatus shown in Fig. 3.
使用聚乙烯醇薄膜「Vinylon VF-PS #7500」(Kuraray(股)製)所製作之偏光膜與纖維素酯系樹脂薄膜「KC4UYW」(Konica Minolta Opto(股)製)隔著水系接著劑而接著,準備於KC4UYW面層合附有黏著劑層之表面保護薄膜「NBO-0424」(藤森工業(股)製)之總厚度135μm的複合薄膜層合體。另外,準備厚度40μm之賦有相位差特性的乙酸纖維素系樹脂薄膜「KC4CR-1」(Konica Minolta Opto(股) 製)。於賦有相位差特性的乙酸纖維素系樹脂薄膜「KC4CR-1」之單面,使用接著劑塗佈裝置而塗佈紫外線硬化型的接著劑之環氧樹脂組成物(含有陽離子聚合起始劑)「KR系列」(ADEKA公司製、黏度:44mPa‧s)。此時,使在接著劑塗佈裝置中之偏光膜層合體的線速度成為40m/分鐘,使凹版輥輪朝與層合材的搬送方向相反方向旋轉,使接著劑層的厚度成為約1.0μm。 A polarizing film produced by using a polyvinyl alcohol film "Vinylon VF-PS #7500" (manufactured by Kuraray Co., Ltd.) and a cellulose ester resin film "KC4UYW" (manufactured by Konica Minolta Opto Co., Ltd.) are interposed with a water-based adhesive. Then, a composite film laminate having a total thickness of 135 μm, which is a surface protective film "NBO-0424" (manufactured by Fujimori Industrial Co., Ltd.) to which an adhesive layer is attached, is laminated on the KC4UYW surface. In addition, a cellulose acetate-based resin film "KC4CR-1" having a phase difference characteristic of 40 μm (Konica Minolta Opto) was prepared. system). An epoxy resin composition (containing a cationic polymerization initiator) coated with an ultraviolet curing type adhesive agent on one surface of a cellulose acetate-based resin film "KC4CR-1" having a phase difference characteristic by using an adhesive application device "KR series" (made by ADEKA, viscosity: 44mPa‧s). At this time, the linear velocity of the polarizing film laminate in the adhesive application device was set to 40 m/min, and the gravure roll was rotated in the opposite direction to the direction in which the laminate was conveyed, so that the thickness of the adhesive layer was about 1.0 μm. .
其次,以線速度40M/分鐘之狀態,將複合薄膜層合體的偏光膜面以與塗佈於賦有相位差特性之乙酸纖維素系樹脂薄膜的接著劑相接之方式層合的層合體,一起挾於直徑250mm之一對夾持輥輪(貼合輥輪),以約1.5MPa之夾持壓押住,而貼合上述賦有相位差特性之乙酸纖維素系樹脂薄膜與上述偏光膜。 Next, a laminate in which the polarizing film surface of the composite film laminate is laminated to the adhesive applied to the cellulose acetate resin film having phase difference characteristics is laminated at a linear velocity of 40 M/min. The nip roller (bonding roller) of one of the diameters of 250 mm was pressed at a pressure of about 1.5 MPa, and the cellulose acetate-based resin film having the phase difference characteristics described above was bonded to the polarizing film.
在以上述一對夾持輥輪挾住所貼合之前的賦有相位差特性之乙酸纖維素系樹脂薄膜與偏光膜之間設置第3圖之吸引裝置,減少薄膜間之區域的風壓。此時之裝置內的減壓量為2.0kPa。 A suction device of Fig. 3 is provided between the cellulose acetate-based resin film having phase difference characteristics and the polarizing film before the pair of nip rolls are bonded, and the wind pressure in the region between the films is reduced. The amount of pressure reduction in the apparatus at this time was 2.0 kPa.
使貼合有上述2種薄膜之層合體以線速度40m/分鐘移送,照射總累積光量(波長280至320nm之波長區域中的光照射強度之累積量)為約100mJ/cm2(測定器:Fusion UV公司製UV Power Puck II的測定值)之紫外線(UVB)。 The laminate in which the above two types of films were bonded was transferred at a linear velocity of 40 m/min, and the total accumulated light amount (the cumulative amount of light irradiation intensity in a wavelength region of a wavelength of 280 to 320 nm) was about 100 mJ/cm 2 (measuring device: Ultraviolet (UVB) of the measured value of UV Power Puck II manufactured by Fusion UV.
評估所得到之偏光板後,在偏光膜與賦有相位差特性之乙酸纖維素系樹脂薄膜之間幾乎觀察不到氣泡。結果表示於表1中。 After the obtained polarizing plate was evaluated, almost no bubbles were observed between the polarizing film and the cellulose acetate-based resin film having the phase difference characteristics. The results are shown in Table 1.
除了使線速度為25m/分鐘,使第3圖之吸引裝置內的減壓量為0.6kPa之點以外,其餘係與實施例1同樣做法而製作偏光板。 A polarizing plate was produced in the same manner as in Example 1 except that the linear velocity was 25 m/min, and the amount of pressure reduction in the suction device of Fig. 3 was 0.6 kPa.
評估所得到之偏光板後,在偏光膜與賦有相位差特性之乙酸 纖維素系樹脂薄膜之間氣泡很少。結果表示於表1中。 After evaluating the obtained polarizing plate, the polarizing film and the acetic acid imparting phase difference characteristics There are few bubbles between the cellulose resin films. The results are shown in Table 1.
除了未設置吸引設備,未實施吸引之點以外係與實施例1同樣做法而製作偏光板。 A polarizing plate was produced in the same manner as in Example 1 except that the suction device was not provided and the suction was not performed.
評估所得到之偏光板後,在偏光膜與賦有相位差特性之乙酸纖維素系樹脂薄膜之間全面觀察到許多氣泡。結果表示於表1中。 After the obtained polarizing plate was evaluated, a large number of bubbles were observed in the entire surface between the polarizing film and the cellulose acetate-based resin film having the phase difference characteristics. The results are shown in Table 1.
從以上之結果,得知藉由減少貼合之前的薄膜間之區域的風壓,可抑制偏光板之氣泡的產生。 From the above results, it was found that the generation of air bubbles in the polarizing plate can be suppressed by reducing the wind pressure in the region between the films before bonding.
本發明之偏光板係可有效地適用於以液晶顯示裝置為主之各種顯示裝置。 The polarizing plate of the present invention can be effectively applied to various display devices mainly including liquid crystal display devices.
1‧‧‧偏光膜 1‧‧‧ polarizing film
2、3‧‧‧透明薄膜 2, 3‧‧‧ transparent film
4‧‧‧層合體 4‧‧‧Layer
5a、5b‧‧‧貼合輥輪 5a, 5b‧‧‧ fitting roller
6‧‧‧障礙物 6‧‧‧ obstacles
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