JPH02150818A - Liquid crystal sunglasses - Google Patents

Abstract

PURPOSE:To easily constitute the liquid crystal sunglasses with degrees by using a concave or convex surface plastic plate to sandwich a liquid crystal display element. CONSTITUTION:The sunglasses which vary in transmissivity by utilizing the electrooptic effect of liquid crystal is formed by sticking the plastic plate 2 which has a concave or convex surface as one surface on a couple of substrates 1 constituting the liquid crystal element. Namely, the plastic plate 2 having the concave or convex surface corresponding to the visual acuity of a person who uses the glasses is stuck to make the lens concave or convex. Consequently, the liquid crystal sunglasses with degrees can be manufactured.

Description

DETAILED DESCRIPTION OF THE INVENTION "Field of Industrial Application" The present invention relates to sunglasses that are constructed by utilizing the electro-optic effect of liquid crystals and whose transmittance can be varied. More specifically, the present invention relates to a means for prescribing the sunglasses.

[Prior Art] Various sunglasses have been proposed that utilize the electro-optical effect of liquid crystal to vary the transmittance.

Also, liquid crystal sunglasses used in guest-host mode have recently been commercialized, but they are so-called flat lenses and are not prescription lenses. Naturally, it is preferable to use prescription sunglasses for people with myopia or farsightedness, but at present it is extremely difficult to manufacture liquid crystal display elements with curved surfaces, especially three-dimensional curves. Have difficulty.

FIG. 4 shows a cross-sectional view of a lens of a conventional liquid crystal sunglass. In this case, since the liquid crystal element 1 is sandwiched between the flat plastic plates 9, the lenses are not prescription lenses.

[Problems to be Solved by the Invention] When prescription liquid crystal sunglasses are used, it is extremely difficult to curve the liquid crystal display element itself three-dimensionally. Furthermore, it is impossible to manufacture a liquid crystal display element with a curved surface that corresponds to the visual acuity or degree of astigmatism of the individual using it.

Therefore, an object of the present invention is to provide prescription liquid crystal sunglasses that can be easily manufactured.

[Means for Solving the Problems] The liquid crystal sunglasses of the present invention are manufactured by laminating a plastic plate having a concave or convex surface on at least one side of a pair of substrates constituting a liquid crystal element to produce prescription liquid crystal sunglasses. characterized by things.

[Function] A plastic plate having a concave or convex surface depending on the visual acuity of the user is attached to at least one side of a pair of substrates constituting the liquid crystal display element used in the lenses of liquid crystal sunglasses, thereby forming the lenses into concave or convex lenses. can be used to create prescription liquid crystal sunglasses.

[Example] (Example 1) Fig. 1 shows a cross-sectional view of a lens of liquid crystal sunglasses according to the present invention. Reference numeral 1 denotes a liquid crystal element, and in this example, a positive twisted nematic mode using a polarizing plate was employed using a film substrate of a polarity such as a uniaxial DET. Therefore, the transmittance of the liquid crystal sunglasses can be varied by switching the voltage applied to the liquid crystal element. 2 and 3 are plastic plates, and the liquid crystal element is sandwiched and bonded between these plates to protect it. The reason for using a film for the substrate of a liquid crystal element is that it can be made thinner and lighter, and it is also highly safe because it does not break like glass. Furthermore, it is better for the plastic plate to have a high refractive index and high transparency. In the case of this embodiment, the surface of the plastic plate 2 on the eye 10 side to which the liquid crystal element is bonded is flat and bound, and the opposite side is a concave surface. The plastic plate 6 on the opposite side from the eye 10 is a flat one. With this structure, the entire lens becomes a concave lens, and liquid crystal sunglasses for myopia can be constructed. Note that by changing the degree of concavity of the plastic plate 2, the strength of the degree can be controlled.

(Example 2) FIG. 2 shows a cross section of a farsighted lens of liquid crystal sunglasses according to the present invention. The basic structure is the same as (Example 1), but the plastic plate 4 on the side of the eye 10 is made flat, and the eye 1
The surface of the plastic plate 5 on the opposite side of the plastic plate 5 to be bonded to the liquid crystal display element is a flat surface, and the opposite surface is a convex surface. With this structure, the entire lens becomes a convex lens, and by changing the degree of convexity of the plastic plate 5, the strength of the power can be controlled.

(Example 5) FIG. 3 is an example of application of liquid crystal sunglasses according to the present invention.

A frame 6 has a built-in circuit for driving a liquid crystal element. Reference numeral 7 denotes a solar cell, which generates an electromotive force that can drive a liquid crystal element in a bright place such as under sunlight. Reference numeral 8 denotes a lens, which is made into a concave or convex lens by making at least one of the plastic plates sandwiching the liquid crystal element into a concave or convex surface, as in the previous embodiment, and is used as a prescription lens. Note that the mode constituting the liquid crystal element is not limited to the above-mentioned twisted nematic mode, but may also be guest-host mode or other modes; It is desirable that it be small.

[Effects of the Invention] As described above, according to the present invention, by making at least one side of the plastic plate sandwiching the liquid crystal display element concave or convex, prescription liquid crystal sunglasses can be constructed extremely easily. have.

[Brief explanation of the drawing]

1 and 2 show cross-sectional views of lenses of liquid crystal sunglasses according to the present invention. FIG. 3 is a diagram showing an example of application of the present invention. Figure 4 is a cross-sectional view of the lens of conventional liquid crystal sunglasses. 1...Liquid crystal element 2.1...Concave plastic plate...
...Flat plastic plate...Flat plastic plate...Convex plastic plate...Frame... ...Solar cell...Lens...Flat plastic plate 0...
eye

Claims (1)

[Claims] Liquid crystal sunglasses configured using the electro-optic effect of liquid crystal, characterized in that a plastic plate having a concave or convex surface is bonded to at least one side of a pair of substrates constituting a liquid crystal element.