JPH0343601B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a plastic lens sheet.

Generally, when optical lenses are made from plastic, they can be made lighter when they have a large aperture, and by making Fresnel lenses, large lenses with a large aperture can be made into a thin sheet with a small F number. can. These plastic lenses can be used as traffic signal lenses, flashlight covers, collimators in automobile tail lamps, card readers and POS scanners, light condensers in solar cells, overhead directiors, camera viewfinders, etc. Micro film and 8mm film viewing, LED or
It has come to be widely used in applications such as LC displays and projection lenses for large transmissive televisions.

Although many plastic lens sheets are known in terms of their lens shape, there are still many unresolved problems in their manufacture, especially when used in mass-produced products as described above.

To give an example of the problems when manufacturing Fresnel lenses, especially when manufacturing Fresnel lenses by injection molding or compression molding, it is necessary to compare the shrinkage rate of the mold during cooling with the shrinkage rate of the synthetic resin used. Then, since the shrinkage rate of the synthetic resin 1 is usually about 100 times the shrinkage rate of the mold 2, the synthetic resin 1 presses against the rising part 4 of the lens shape.
It becomes extremely difficult to release from the mold. Furthermore, burrs generated during mold cutting also contribute to the difficulty of mold release. Transparent and colorless acrylic resin is often used as a material for plastic lens sheets, but since acrylic resin is hard and brittle, the tips 3 of the prisms are often chipped when released from the mold. This tendency is particularly noticeable when the lens sheet is enlarged.

The above drawback can be overcome by making the rising part 4 not perpendicular to the mold surface but by providing an inclination to facilitate mold release, but such a measure would sacrifice the optical properties of the lens itself. This is not desirable. Alternatively, although the mold releasability may be improved somewhat by plating the mold surface, this does not provide an essential solution.

In view of the above-mentioned drawbacks, the present inventor conducted research and constructed a multi-layered lens sheet composed of a cellulose resin with high moldability and excellent impact resistance, and a majority of the lens sheet composed of an acrylic resin. The inventors have discovered that the above-mentioned drawbacks can be solved by doing so, have conducted further research, and have arrived at the present invention.

That is, the present invention provides a plastic lens sheet, which is made of an acrylic resin sheet and has lenses on at least one surface, and the surface on which the lenses are formed is made of a cellulose resin sheet. This is the summary.

The acrylic resin sheet in the present invention is a sheet made of a polymer of methyl methacrylate, typified by polymethyl methacrylate, or a polymer of acrylic esters.

As shown in FIG. 2, the acrylic resin sheet 5 has a lens 6 formed on one surface thereof, and this lens surface is made of a cellulose resin sheet 7. The lens 6 in FIG. 2 shows an example of a Fresnel lens.

In the above, the cellulose resin sheet includes cellulose propionate resin, cellulose propionate acetyl butyrate, cellulose acetate, cellulose acetate propionate,
Examples include cellulose resins such as ethyl cellulose, methyl cellulose, and carboxymethyl cellulose.

In the present invention, the sum of the thicknesses of the acrylic resin sheet and the cellulose resin sheet is 1.0 to 10 mm, preferably 2 to 5 mm, and the ratio of the thickness of the acrylic resin sheet 5 to the cellulose resin sheet 7 is usually acrylic resin sheet:cellulose System resin sheet = 1:
Approximately 0.3 to 0.05 is preferable. In the above, the reason why the cellulose resin sheet is set to 0.3 or less is because the transparency of the plastic lens sheet decreases if it exceeds 0.3, and the reason why the cellulose resin sheet is set to 0.05 or more is that if it is less than 0.05, hardly any improvement in mold releasability can be expected. It is from.
The cellulose resin described above has a pale yellowish brown color.

Although the plastic lens sheet of the present invention has been described above with reference to an example in which a Fresnel lens is provided on one side, the present invention is not limited to the above example. The lens sheet to which the present invention can be applied is not limited to one in which the lens shape is provided on one side of the sheet, but may be one in which the lens shape is provided on both sides. Further, the lenses provided on both surfaces may have the same shape or different shapes. Examples of the lens shape include a linear Fresnel lens, a circular Fresnel lens, a lenticular lens, a stepped prism with a sawtooth cross section, and a fly's eye lens. An interesting lens shape is (a) one in which a large number of lenticular lenses are arranged in parallel on the back surface, and the non-light condensing parts of the lenticular lenses on the front surface are covered with a black light shielding layer. There is one in which the portion where the light shielding layer is provided is made to protrude in a convex shape. Variations of (a) include those in which the cross-sectional shape of the lenticular lens is oval, those in which the space between the light shielding layers is shaped like a prism, and those in which the cross-section is shaped like a lens. Other interesting lens shapes include (b) one in which a large number of rotating convex lenses are arranged on the front and back sides, and one in which a light shielding layer is further provided on the front side and the non-light condensing part of the rotating convex lens on the back side. The above (a) and (b) can be used as a bright room projection screen for color television.

Among the cooking range sheets having various lens shapes described above, if the cooker sheets have lens shapes on the front and back sides, or if the lens shape has a convex protrusion on only one side but on the other side, cellulose resin sheet 7 and 7' may be provided on both sides of the lens sheet. When the lens sheet has a lens shape on only one side, it is sufficient to provide the cellulose resin sheet 7 only on the side that has the lens shape, but it may be provided on both sides.

Furthermore, when the cellulose resin sheet is provided on both sides of the acrylic resin sheet, the plastic lens sheet can be warped by changing the thickness of the cellulose resin sheet on the front side and the cellulose resin sheet on the back side. Having a sled like this is convenient for mounting on a flat surface.

Next, methods for manufacturing the plastic lens sheet of the present invention include coextrusion with embossing, heat fusion, and compression molding. To describe a method for producing a two-layer lens sheet with lenses on one side by compression molding, first, a prescribed cellulose resin sheet and an acrylic resin sheet are stacked, and a lens mold is placed on top of the cellulose resin sheet. , during a molding cycle of 30 to 60 minutes, the pressure is increased as the temperature rises under the following conditions.

Temperature Pressure (surface pressure) Room temperature to 70℃ 0.5Kg/cm ² 50 to 90℃ 20Kg/cm ² 70 to 120℃ 30Kg/cm ² 100 to 150℃ 35Kg/cm ² In the same way, attach the lens to both the front and back sides. To manufacture a three-layer plastic lens sheet with uneven shapes, etc., a predetermined cellulose resin plate,
After stacking the acrylic plate and the cellulose resin plate, compression molding is performed. Molding cycle is 30 minutes to 60 minutes
As the temperature rises, the pressure (surface pressure) changes as shown in the table below; Temperature Pressure (surface pressure) Room temperature to 70℃ 0.5Kg/cm ² 50 to 90℃ 25Kg/cm ² 70 to 120℃ 35Kg/cm ² 100-180℃ 45Kg/cm ² In addition, when stacking two or three boards in the above, if one of the surfaces in contact with each other is a mirror surface and the other is a matte surface, air bubbles will easily escape. preferable.

The plastic lens sheet of the present invention as described above has a cellulose resin sheet with excellent moldability and high impact resistance on the side where the lens is formed, so there is no need for a plasticizer, and there is no need for separation during manufacturing. It is easy to mold and suitable for stable production without any changes to the metal itself, and prevents chipping of the tip of the prism when demolding, and also prevents chipping of the tip of the lens side that may occur due to misalignment during transportation. prevent,
Defects in appearance can be prevented, and since a commercially available acrylic resin sheet is used as the base material, there is no decrease in transparency.

Since the present invention has the above characteristics, it is particularly suitable for Fresnel lenses having many rising portions perpendicular to the mold surface.

Example 1 The first layer is a cellulose propionate acetyl butyrate resin (CAB, manufactured by Bayer) sheet (thickness 0.5 mm), and the second layer is an acrylic resin (manufactured by Sumitomo Chemical Industries, Ltd., thickness 2.5 mm). Place the first layer on the flannel lens mold (1000 x 1200 mm) in order, stack the second layer again so that the matte surface of the first layer is in contact with the mirror surface of the second layer, and then Compression and heating molding was performed so that the matte surface was in contact with the mirror plate.

Cushion paper was placed between the heating plate and the mirror plate, and between the heating plate and the Fresnel lens mold plate.

The molding conditions are room temperature to 60℃, pressure 0.5Kg/ ^cm2 or less,
20Kg/cm ² at 60-80℃, 30Kg/cm ² at 80-110℃,
The temperature was 35 Kg/cm ² at 110°C to 140°C, and pressure was applied in steps as the temperature rose, then cooled to 70°C and released from the mold. The molding cycle was 50 minutes. Fresnel lens molded like this (960 x 730 mm)
There was no whitening phenomenon due to chipping of the prism tips that occurred during mold release, and the appearance and optical properties were good.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing an example of a conventional method of manufacturing a plastic lens sheet, and FIGS. 2 and 3 are sectional views showing examples of the plastic lens sheet of the present invention. 1... Synthetic resin, 2... Mold, 3... Tip of prism, 4... Rising portion, 5... Acrylic resin sheet, 6... Lens, 7... Cellulose resin sheet.

Claims (1)

[Claims] 1. A plastic lens sheet comprising an acrylic resin sheet as a base material, at least one surface of which a lens is formed, and the surface on which the lens is formed is made of a cellulose resin sheet.