JP3371017B2 - Lens sheet - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lens sheet such as a joined lenticular lens sheet used in a large-sized projection television.

[0002]

2. Description of the Related Art In a transmissive screen used for a projection television, a horizontal diffusion lenticular lens sheet is generally arranged on the exit side. In recent years, projection televisions are becoming larger in size, and a large lenticular lens sheet used for this is one in which a plurality of lenticular lens sheets each having a width of about 1 m are joined (FIG. 1).

The reason why the lenticular lens sheet is bonded and used in this manner is that the manufacturing size of the lenticular lens sheet is limited in terms of manufacturing method and manufacturing apparatus. As a joining method, the actual method is Sho 58-144.
No. 340, No. 63-200832, No. 64-64
As described in Japanese Patent No. 23042 and the like, it is general that an adhesive having an optical performance substantially equal to that of the lenticular lens sheet is provided as an adhesive layer for bonding. For example, FIGS. 2 and 3 show a lenticular lens sheet joined by a conventional method, which is joined at an end portion of the lenticular lens via an adhesive layer.

[0004]

However, the conventional lens sheet joined by the above-mentioned method has the following problems.

That is, since the external light absorption layer is missing in the adhesive layer portion, a step of newly providing the external light absorption layer in that portion is necessary. If the external light absorption layer is not provided in that part, the leakage of the projection light will occur, or the discontinuous part will occur in the external light absorption layer, and it will be recognized as a white line due to the external light reflection. . For example, in the lenticular lens sheet as shown in FIG. 2, even if an external light absorbing layer is newly provided, the external light absorbing layer is widened by the width of the adhesive layer and is recognized as a discontinuous portion. Moreover, in the lenticular lens sheet as shown in FIG.
Since the valley of the lenticular lens is missing by the width of the adhesive layer, the projected light is not sufficiently diffused, and when the image is viewed from an angle, it is recognized as a black line on the image surface corresponding to that part. I will end up.

Further, as a manufacturing problem, since the adhesive adheres to the lenticular lens, or the surface of the adhesive layer on the entrance / exit side cannot be finished to be a flat surface, the adhesive part adhered to the lenticular lens is not formed. In addition, the incident light is reflected and scattered on the incident surface of the adhesive layer and is recognized as a discontinuous portion. That is, an object of the present invention due to the above problems is to make the width of the external light absorption layer equal to the width of other external light absorption layers at the joint portion, and to eliminate the lack of the valley portion of the lenticular lens, Eliminating the step of providing the light absorbing layer, and not attaching an adhesive to the lenticular lens.

[0007]

The present inventors have completed the present invention as a result of intensive studies to solve these problems. That is, according to the present invention, a plurality of lenticular lens sheets are used in which a joint end portion of each lens sheet is coated with a solvent.
The present invention relates to a lens sheet characterized by being melted and bonded to each other at a valley portion of a lenticular lens by mutual adhesion without interposing another adhesive resin layer.

The present invention will be described in detail below with reference to a lenticular lens sheet.

FIG. 4 is a sectional view of the lens sheet of the present invention. A plurality of lenticular lens sheets are joined together at their end faces by mutual adhesion.

The lens sheet to be joined is transparent or
It may be a translucent resin plate and may contain a light diffusing agent. As its material, for example, polymethylmethacrylate, polycarbonate, polystyrene, a copolymer of styrene and methylmethacrylate, or the like can be used.

As for the method of joining, first, the joining surface of the lens sheet is cut at a predetermined position using a router processing machine or a circular saw. For example, in a lenticular lens sheet, the lenticular lens valleys are cut to have the same pitch as other lenticular lenses. When the cut surface has irregularities, surface finishing may be performed with sandpaper or the like.

Next, the joint surfaces are butt-bonded to each other, but in order to obtain the flatness of the joint, it is preferable to place them on a surface plate having a good plane accuracy and butt them.

When the lens sheets are adhered to each other by dissolution with a solvent, the solvent used may be any solvent capable of dissolving the substrate, for example, toluene, xylene, ethyl acetate, methylene chloride, dichloroethane, tetrahydrofuran, methyl ethyl ketone, etc. Each may be used alone or in a mixture. These solvents are, for example by a syringe or the like, attached together the joint flushed crowded dissolved adhesion Ru performed.

In the present invention, the width W of the external light absorption layer at the joint is W.
_When the relation between ₁ and the width W of the external light absorption layer other than the joint portion and the relation between the pitch P ₁ of the lenticular lens at the joint portion and the pitch P thereof other than the joint portion are examined, the following matters are found. . That is, in the present invention, the width W ₁ of the external light absorption layer at the junction is relative to the width W of the light absorption layer other than the junction.
Is preferably 0.5W <W ₁ <1.5W.

Below 0.5 W or above 1.5 W,
This is because the joint is clearly recognized. Further, the pitch P _{1 of the} joint portion with respect to the pitch P of the lenticular lens other than the joint portion is 0.85P <P ₁ <1.1
It is preferably 5P. When P ₁ is 0.85P or less, or 1.15P or more, the projection light is not uniformly diffused to the left and right, and therefore when observed at an angle of about 45 ° with respect to the screen, the joint portion May be clearly recognized.

The gap between the lenticular lens sheets formed at the joint is preferably 100 μm or less. If it exceeds 100 μm, leakage of the projected light will occur and the joint will be clearly recognized.

As the type of lens sheet, in addition to the above-mentioned lenticular lens sheet provided with the external light absorbing layer, a lenticular lens sheet having a sectional shape as shown in FIG. 5 and a linear Fresnel having a sectional shape as shown in FIG. A lens sheet or a prism sheet may be used. The joining position is preferably the position shown in the figure from the viewpoint that the optical performance is not impaired and the seam is less noticeable.

[0018]

As described above, the lens sheets of the present invention are joined by mutual adhesion and there is no adhesive resin layer at the joined portion, so that the continuity of the lens shape is not impaired.

Further, since no adhesive resin is used and the adhesive resin does not adhere to the lens surface, reflection of projection light,
No scattering occurs. Further, in the joining of the lenticular lens sheet provided with the external light absorbing layer, the step of newly providing the external light absorbing layer at the joining portion is unnecessary.

[0020]

The present invention will be described in detail below with reference to the drawings and the like.

FIG. 7 is a diagram for explaining the shape of the lenticular lens sheet used in the embodiment of the lens sheet according to the present invention, and FIG. 4 is a diagram for explaining the embodiment of the lens sheet according to the present invention.

The lenticular lens sheets 61 and 62 are extruded sheets of polymethylmethacrylate having a width of 0.9 m and a length of 1.3 m, the surfaces to be joined are router-cut at the valleys of the lenticular lens. The shape of the lenticular lenses of the lenticular lens sheets 61 and 62 is, as shown in FIG. 7, an incident side lenticular lens pitch P = 0.
9 mm external light absorption layer width W = 0.45 mm, sheet thickness t =
It is 1.2 mm. (Example 1) The surfaces of the lenticular lens sheets 61 and 62, which were router-cut at the valleys of the lenticular lenses, were butted on a surface plate which was made by milling a brass plate to make a flat surface, and 50 wt% of methylene chloride and 50 wt% of methyl ethyl ketone The mixed solvent was poured along the joint surface with a syringe. The joint surface is dissolved by the solvent,
The solvent that was adhered and adhered to the lens surface and the surface of the external light absorption layer immediately vaporized.

After the adhesive surface was completely solidified, the external light absorption layer width W ₁ and the lenticular lens pitches P ₁₁ and P ₁₂ at the joint were measured with a microscope. W
₁ = 0.46 mm, P ₁₁ = 0.87 mm, P ₁₂ =
It was 0.94 mm, and the gap between the lenticular lens sheets 61 and 62 was 0.01 mm. Next, the joined lenticular lens sheet was combined with a Fresnel lens sheet, set on a projection television, and white light was projected to observe an image. It was observed from the front and angles of 45 ° to the left and right with respect to the screen, but the joint could not be recognized. Similar observations were made with the projected light extinguished, but no joint was recognized .

[0024]

The large-sized lens sheet of the present invention, in which a plurality of lens sheets are joined, is made by bonding the lens sheets to each other without interposing an adhesive resin layer. Video can be provided.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a joined lens sheet.

FIG. 2 is a view showing a conventional example of a joined lens sheet.

FIG. 3 is a view showing a conventional example of a joined lens sheet.

FIG. 4 is a diagram for explaining an example of a lens sheet according to the present invention.

FIG. 5 is a diagram for explaining an example of a lens sheet according to the present invention.

FIG. 6 is a diagram for explaining an example of a lens sheet according to the present invention.

FIG. 7 is a diagram for explaining the shape of a lenticular lens sheet used in an example of a lens sheet according to the present invention.

[Explanation of symbols]

1 Bonded Lenticular Lens Sheet 2 Bonding Part 3 Adhesive Resin Layer 4 External Light Absorbing Layer 5 External Light Absorbing Layers 61, 62 Lenticular Lens Sheet 7 Bonding Part P of the Lens Sheet of the Present Invention P Lenticular Other than Bonding Part Pitch of lens P ₁₁ , P ₁₂ Lenticular lens pitch at the joint W Width of external light absorption layer other than the joint W ₁ Width of external light absorption layer at the joint

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Claims (2)

(57) [Claims] 1. A plurality of lenticular lens sheets ,
For dissolving the joint end of each lens sheet with a solvent
Further, the lens sheet is characterized in that it is joined at the valley portion of the lenticular lens by mutual adhesion without interposing another adhesive resin layer. 2. The width W ₁ of the external light absorbing layer at the junction is 0.5W <W ₁ <1.
5. The pitch P ₁ of the lenticular lens at the joint is 0.85P <P ₁ <1.15P with respect to the pitch P of the lenticular lens other than the joint, which is 5 W.
The lens sheet described in.