Method of and apparatus for manufacturing polarization plate

Abstract
When a polarization plate is manufactured by laminating and laminating at least two types of retarder onto a polarizer by a laminating apparatus, the two films of at least the two types of the retarder including at least the polarizer are laminated such that the difference of the angle between the drawing directions of the two films is within the range of 40° to 80°. With this arrangement, a good handling property can be obtained, improvement of a yield ratio can be expected, the installation area of the laminating apparatus can be reduced due to reduction in size of the laminating apparatus.
Description
TECHNICAL FIELD

The present invention relates to a method of and an apparatus for manufacturing a polarization plate composed of a polarizer onto which at least two retarder having a different drawing direction are laminated.


BACKGROUND ART

A polarization plate composed of a polarizer onto which a retarder is laminated and laminated is used as an optical component constituting, for example, a liquid crystal display device (refer to, for example, Patent Document 1). The polarization plate, which is used in a TN (twisted nematic) type liquid crystal display device, a semi-transparent reflection type display device, and the like, is often composed of a polarization plate onto which a retarder is laminated. In the polarization plate, it is known that the angle of a drawing direction of the retarder to the polarizer is 15°±10°, 75°±10°.


Patent Document 1: Japanese Patent Application Laid-Open No. 11-231129 (pages 2 to 3)


DISCLOSURE OF THE INVENTION
Problems to be Solved by the Invention

Incidentally, since a retarder, which is cut off for laminating, may be formed in a very slender parallelogram shape depending on the angle of the retarder to be laminated a polarizer, there is a high possibility that a handling property is deteriorated before the retarder is laminated, that is, a yield is lowered.


Since the cut-out retarder is formed in a very slender parallelogram shape likewise, a problem arises in that the size of an apparatus for manufacturing it is increased, that is, the cost of the apparatus is increased, and the like.


Accordingly, an object of the present invention, which was made in view of the above circumstances, is to provide such a method of and an apparatus for manufacturing a polarization plate that a good handling property can be obtained, improvement of a yield ratio can be expected, and the size and the installation area of the apparatus can be reduced.


Means for Solving the Problems

To overcome the problems, the present invention is arranged as described below.


An invention according to claim 1 is characterized by a method of manufacturing a polarization plate by laminating and laminating at least two types of retarder onto a polarizer, wherein the two films of at least the two types of the retarder including at least the polarizer are laminated such that the difference of the angle between the drawing directions of the two films is within the range of 40° to 80°.


An invention according to claim 2 is characterized in a method of manufacturing a polarization plate according to claim 1, wherein the angle of at least one of the retarder in the drawing direction thereof to the polarizer is 15°±10° or 75°±10°.


An invention according to claim 3 is characterized in an apparatus for manufacturing a polarization plate by laminating and laminating at least two types of retarder onto a polarizer, wherein the apparatus is composed of a polarizer transport means for transporting the polarizer, a retarder transport means for transporting at least the two retarder, and a laminate/punch means for laminating and punching the two films of at least the two types of the retarder including at least the polarizer such that the difference of the angle between the drawing directions of the two films is within the range of 40° to 80°.


An invention according to claim 4 is characterized in an apparatus for manufacturing a polarization plate according to claim 3, wherein the angle of at least one of the retarder in the drawing direction thereof to the polarizer is 15°±10° or 75°±10°.


Effect of the Invention

With the above arrangements, the present invention has the following effects.


According to the inventions of claims 1 and 3, since the two films of at least the two types of the retarder including at least the polarizer are laminated such that the difference of the angle between the drawing directions of the two films is within the range of 40° to 80°, the laminated films are not made to, for example, an extremely slender parallelogram shape. Accordingly, a good handling property can be obtained and improvement of a yield ratio can be expected as well since the size of the apparatus can be reduced, an increase in length of the apparatus can be prevented by reducing the installation area thereof.


According to the inventions of claims 2 and 4, the polarization plate can be obtained using at least the two types of the retarder having a different drawing direction in which the angle of at least one of the retarder in the drawing direction thereof to the polarizer is 15°±10° or 75°±10°.


Best Mode for Carrying Out the Invention

An embodiment of a method of and an apparatus for manufacturing a polarization plate of the present invention will be explained below in detail based on drawings. Although the embodiment of the present invention shows a most preferable mode of the invention, the invention is not limited thereto.



FIG. 1 is a side elevational view of the polarization plate manufacturing apparatus when a polarizer and at least two types of retarder in the embodiment are supplied in a roll state and used, respectively and a laminated product is obtained in the roll state. FIG. 2 is a top view of the polarization plate manufacturing apparatus.


A strip-shaped film 12 composed of a polarizer 12b and a release film 12a having a sticky agent applied thereto and laminated the polarizer 12b is unwound from an unwinder 10 through nip rolls 14. The release film 12a is removed from the film 12 by a rewinding roll 16 along the nip rolls 14, and the polarizer 12b to which the sticky agent is applied is supplied to a laminate/punch device 24 constituting a laminate/punch means through free rolls 20 and 22, thereby a polarizer transport means for transporting the polarizer 12b is arranged.


A light source 26 composed of an incandescent lamp, a polarization device 28, and a photodetector 30 composed of a photodiode are disposed between the free rolls 20 and 22 to detect and control the angle of the polarizer 12b. More specifically, the absorption axis of the polarization device 28 is disposed in parallel with the roll axes of the unwinder 10, the nip rolls 14, and the free rolls 20 and 22, the angle of the polarizer 12b is controlled by an axially-movable rubber grip roll 32 so that the intensity of light detected by the photodetector 30 is minimized, and then the polarizer 12b is wound by a rewinder 34. These rolls and devices are mounted on and supported by a frame 36.


In contrast, two types of strip-shaped retarder 42a, 42b are rewound from an unwinder 40 through nip rolls 44. The retarder 42a, 42b are supplied to a position on the polarizer 12b, to which the sticky agent is applied, above the laminate-punch unit 24 at a predetermined gap through free rolls 46 and 48, thereby a retarder transport means for transporting the retarder 42a, 42b is arranged.


A light source 50 composed of an incandescent lamp, a polarization device 52, a polarizer 54 disposed such that the absorption axis thereof is orthogonal to the polarization device 52, and a photodetector 56 composed of a photodiode are disposed between the free rolls 46 and 48 so that the angle of a retarder 42 is detected and controlled. More specifically, the absorption axis of the polarization device 52 is disposed in parallel with the roll axes of the unwinder 40, the nip rolls 44, and the free rolls 46 and 48, the angles of the retarder 42a, 42b are controlled by a pair of axially-movable nip rolls 58 so that the intensity of light detected by the photodetector 56 is minimized, and the retarder 42 is wound by a rewinder 60. These rolls and the devices are mounted on and supported by a frame 62.


The direction in which the retarder 42a, 42b are transported and the direction in which the polarizer 12b is transported can be set to have an arbitrary angle by changing the angle between the frames 36 and 62 according to an object of an optical film to be manufactured. After a target angle is set as described above, the angle can be controlled with a high accuracy by optically detecting the actual angle between the films as described above and minutely adjusting it.


Both the films are laminated by the laminate/punch unit 24 and only the retarder 42a, 42b are cut off by being punched out.



FIG. 3 is an enlarged view of the laminate/punch unit 24 as well as a sectional view observed from a direction from which the polarizer 12b is transported. FIG. 4 is an enlarged view of the laminate/punch unit 24 and as well as a sectional view observed from a direction from which the retarder 42a, 42b are transported likewise.


When a pressure plate 70 moves upward, the polarizer 12b is laminated the retarder 42a, 42b by predetermined pressure. Subsequently, a cutting blade 72 moves upward and cuts off only the retarder 42a, 42b to the width of the polarizer 12b. Next, the cutting blade 72 moves downward and returns to an initial position, and a cutting blade 78 moves downward by the thickness of the retarder 42a, 42b and cuts off only the retarder 42. At the time, the retarder 42a, 42b are punched out remaining a continuous ear portion so that the angle thereof can be controlled by the nip rolls 58. In the boding/punching operation, transportation of the polarizer 12b and the retarder 42a, 42b is temporarily stopped.


A product, which is composed of the polarizer 12b and the retarder 42a, 42b laminated the polarizer 12b, is rewound by the rewinder 34 in the roll state. In contrast, the remaining ear portion from which the retarder 42a, 24b are cut off is rewound by the rewinder 60. The roll-state laminated product can be obtained as described above.



FIG. 5 is a view showing an embodiment in which two types of strip-shaped retarder are laminated and laminated onto a strip-shaped polarizer. In the embodiment, the retarder 42a, 42b are laminated the strip-shaped polarizer 12b such that the difference of the angle between drawing directions is within the range of 40° to 80°. In the embodiment, the two types of the retarder 42a, 42b may have the same drawing direction or a different drawing direction, and they are transported in a laminated state.



FIG. 6 shows a product composed of the polarizer onto which the retarder is laminated as described above, wherein a part (a) shows plan view and (b) shows a side elevational view. The punched-out retarder 42a, 42b are laminated the continuous polarizer 12b.


As shown in FIGS. 5 and 6, the product composed of the polarizer onto which the retarder is laminated is not formed in an extremely slender parallelogram shape A as the laminated shape of the product. Since the parallelogram shape A as the laminated shape is an approximately regular parallelogram shape, a good handling property can be obtained and improvement of a yield ratio can be expected. Further, the size of the laminate/punch device 24 can be reduced because the parallelogram shape A is not made to an extremely slender shape, thereby an increase of length of the apparatus can be prevented because the installation area of the apparatus can be reduced.


In the embodiment, the polarization plate of the product, in which the angle of the two the retarder 42a, 42b in the drawing direction thereof is 75°±10° to the polarizer 12b and the retarder 42a, 42b are laminated the polarizer 12b, can be obtained.



FIG. 7 is a view showing another embodiment of at least two types of strip-shaped retarder laminated and laminated onto a strip-shaped polarizer. In the embodiment, the two types of the retarder 42a, 42b are laminated the strip-shaped polarizer 12b while being individually transported from different directions.


In the embodiment, the two types of the retarder 42a, 42b in the different drawing directions are laminated such that the difference of the angle between the drawing directions is within the range of 40° to 80°. It is possible to obtain a product of a polarization plate in which the angle of the retarder 42a on one hand in the drawing direction thereof to the polarizer 12b is 15°±10°, the angle of the retarder 42b on the other hand in the drawing direction thereof to the polarizer 12b is 75°±10°, and the retarder 42a, 42b are laminated the polarizer 12b.


The fundamental structure of the polarizer used in the embodiment is as shown in FIG. 8. The strip-shaped polarizer 12b has such a structure that a polarizer film 12b1, which is, for example, a polarization layer and composed of PVA (polyvinyl alcohol) and the like, is sandwiched between two TAC (triacetyl cellulose) films 12b11, 12b12 as cellulose films. In the polarizer 12b, a sticky layer 12b13 is formed on the outside surface of the TAC film 12b13 on one hand, the release film 12a is laminated the sticky layer 12b13. Further, a protection film 12c is laminated the outside surface of the TAC film 12b12 on the other hand. Note that the polarizer film 12b is colored with, for example, iodine, a dichroic dye, and the like to shut off light other than the light vibrating in a given direction.


The fundamental structure of the strip-shaped retarder used in the embodiment is as shown in FIG. 9. The strip-shaped retarder 42a, 42b are retarder containing, for example, polycarbonate, polyethersulfone, and the like as a phase difference layer 42c1. Each of the retarder 42a, 42b has a protection film 42c2 laminated an outside surface thereof as well as a sticky layer 42c3 disposed on the other outside surface thereof so as to be laminated a liquid crystal display device, and a release film 42c4 is laminated the sticky layer 42c3.


The fundamental structure of the product of the polarization plate in which the retarder 42a, 42b are laminated the polarizer 12b is as shown in FIG. 10. The release film 12a is removed from the polarizer 12b, and protection films 20b are removed from the retarder 42a, 42b, respectively, and the polarizer 12b is laminated the retarder 42a through the sticky layer 42c3. Further, the retarder 42b is laminated the retarder 42a.


In the present invention, the types of the retarder to be laminate are not limited as long as a polarization plate, in which at least two types of retarder are laminated the polarizer 12b, is manufactured. Further, in the structure, since the two films of at least the two types of the retarder including at least the polarizer are laminated such that the difference of the angle between the drawing directions of the two films is within the range of 40° to 80°, laminating is carried out so that the difference of the angle between the polarizer and the drawing direction of any of the retarder or the difference of the angle between the drawing directions of the retarder is within the range of 40° to 80°.


INDUSTRIAL APPLICABILITY

In the present invention, since the two films of at least the two types of the retarder including at least the polarizer are laminated such that the difference of the angle between the drawing directions of the two films is within the range of 40° to 80°, they are not laminated in, for example, an extremely slender parallelogram shape. Accordingly, a good handling property can be obtained and improvement of a yield ratio can be expected as well since the size of the apparatus can be reduced, an increase in length of the apparatus can be prevented by reducing the installation area thereof.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is a side elevational view of an apparatus for manufacturing a polarization plate when a polarizer and at least two types of retarder of the present invention are supplied in a roll state and used, respectively and a laminated product is obtained in the roll state.



FIG. 2 is a top view of the polarization plate manufacturing apparatus when the polarizer and at least the two types of the retarder of the present invention are supplied in the roll state and used, respectively and the laminated product is obtained in the roll state.



FIG. 3 is an enlarged view of a laminate/punch unit of the apparatus for manufacturing the polarization plate of the present invention as well as a sectional view observed from a direction from which the polarizer is transported.



FIG. 4 is an enlarged view of the laminate/punch unit of the apparatus for manufacturing the polarization plate of the present invention as well as a sectional view observed from a direction from which the retarder are transported.



FIG. 5 is view showing an embodiment in which the two types of the strip-shaped retarder are laminated and laminated onto the strip-shaped polarizer.



FIG. 6 shows a product composed of the polarizer on which the retarder are laminated, wherein a part (a) is a plan view, and part (b) is a side elevational view.



FIG. 7 is a view showing another embodiment in which at least the two types of the strip-shaped retarder are laminated and laminated onto the strip-shaped polarizer.



FIG. 8 is a view showing the fundamental structure of the polarizer used in the embodiment.



FIG. 9 is a view showing the fundamental structure of the strip-shaped retarder used in the embodiment.



FIG. 10 is a view showing the fundamental structure of the polarization plate of the product composed of the polarizer on which the retarder are laminated.





REFERENCE NUMERALS




  • 10 unwinder


  • 12 film


  • 12
    a release film


  • 12
    b polarizer


  • 12
    c protection film


  • 24 laminate/punch unit


  • 26 light source


  • 28 polarization device


  • 30 photodetector


  • 34 rewinder


  • 40 unwinder


  • 42
    a, 42b retarder


  • 50 light source


  • 52 polarization device


  • 54 polarizer


  • 56 photodetector


  • 60 rewinder


Claims
  • 1. A method of manufacturing a polarization plate by laminating and laminating at least two types of retarder onto a polarizer, characterized in that the two films of at least the two types of the retarder including at least the polarizer are laminated such that the difference of the angle between the drawing directions of the two films is within the range of 40° to 80°.
  • 2. A method of manufacturing a polarization plate according to claim 1, characterized in that the angle of at least one of the retarder in the drawing direction thereof to the polarizer is 15°±10° or 75°±10°.
  • 3. An apparatus for manufacturing a polarization plate by laminating and laminating at least two types of retarder onto a polarizer, characterized by comprising: a polarizer transport means for transporting the polarizer;a retarder transport means for transporting at least the two retarder; anda laminate /punch means for laminating and punching the two films of at least the two types of the retarder including at least the polarizer such that the difference of the angle between the drawing directions of the two films is within the range of 40° to 80°.
  • 4. An apparatus for manufacturing a polarization plate according to claim 3, characterized in that the angle of at least one of the retarder in the drawing direction thereof to the polarizer is 15°±10° or 75°±10°.
PCT Information
Filing Document Filing Date Country Kind 371c Date
PCT/JP2005/005485 3/25/2005 WO 00 10/20/2008