WO2010134839A1

WO2010134839A1 - Sunglasses - a monolens with peripheral shading

Info

Publication number: WO2010134839A1
Application number: PCT/RU2009/000670
Authority: WO
Inventors: Александр Николаевич ГРЕЧУХИН
Original assignee: Grechukhin Aleksandr Nikolayevich
Priority date: 2009-05-21
Filing date: 2009-12-07
Publication date: 2010-11-25

Abstract

The area of eye glass in sunglasses - a monolens - is divided into a shady peripheral region and a field or fields of view. The field or fields of view may expand into lateral and lower edges of the monolens, may be without shade, or with a slight or greater shading, with shading in a different colour, or in the form of an aperture cut in the glass, to improve the field of view, to meter access of ultraviolet rays to the organism, to protect sight from colour distortions, to remove the hothouse effect of the glass in spectacles, to show the beauty of the eyes, for image‑wise demarcation of shady regions and to increase attentiveness as per horses' blinkers. The fields of view in a monolens play the role of "windows" making it possible to use the sun‑protective shading more easily. Various variant embodiments of shading and "windows" are proposed. The monolens lacks the harm caused by standard eye glass and does not distort reality.

Description

Sunglasses - Peripheral Dimming Mono Lens

Description of the invention

Application area

The invention relates to medicine and can be used to improve visibility, dosed access of UV rays to the body and protect vision from color distortion in sunglasses.

Prior art

Known sunglasses - mono lenses with uniformly darkened glasses. Heavily tinted windows tint reality in unrealistic colors, and slightly tinted glasses poorly protect vision from UV rays. It is known that glasses of strong and medium blackout with prolonged use can cause photophobia, discomfort in the sensations of reality, as well as mental and visual impairment.

Sunglasses greatly distort and obscure the view in the room. They have to be shot indoors to see well, or tolerate poor visibility and color distortion, which is not comfortable and unsafe for vision.

The need for eye protection from UV rays is controversial. Even in subtropical and tropical latitudes, the local population wears sunglasses very rarely. Many well-known scientists (Libegmap, Pankov et al. 1,2) have proved the need for UV radiation for eye health and brain function. Sunglasses are relevant when moving to another climate zone, for example, when Europeans move to Africa. Wearing sunglasses in your climate zone is often associated with fashion. Therefore, sunglasses are worn in light weather, indoors and even in the subway. Many women have beautiful and expressive eyes. Sunglasses hide them. There is a way to distribute the color flow in the glasses of glasses by peripheral dimming.

Peripheral dimming glasses are known for color therapy purposes (3). Color therapeutic dimming differs from sun dimming in terms of purpose, application and type of dimming. For example: color therapy dimming is an active component of glasses for influencing eyesight; sun-dimming is a passive component of glasses blocking effects on vision; unlike sun-dimming, the dimming of glasses in color therapy is done with medicinal colors to treat sick people, etc. Peripheral dimming color therapy glasses cannot be used by ordinary people wearing sunglasses.

Peripheral dimming sunglasses are known (4). The area of the spectacle glasses in these glasses is divided into 2 regions - a darkened peripheral region and a central region (the “window” region), which can be without darkening, or weaker or darker, or darken another color, or as a hole cut out in the glass, to improve visibility, dosed access of UV rays to the body, protect eyesight from color distortion, demonstrate the beauty of the eyes and image differentiation of areas of blackout. According to the text of the description and claims, such a characteristic of glasses is suitable only for classic sunglasses with two glasses. However, there is another kind of sunglasses - a mono lens, which has only one glass. The design of the mono lens does not fall under the prototype formula. Since all phrases about peripheral dimming and “windows” written in the plural refer to a pair of glasses, and in a mono lens there is only one glass. And all the phrases characterizing the central region (the “window” region) in a separate eyeglass do not make sense in a mono lens. In a single lens, it is not possible to distinguish a central region for viewing surrounded by peripheral dimming. There are two reasons. Firstly, in the central area of the mono lens there is a nasal cut. And secondly, the central area of the mono lens is located opposite the forehead and nose bridge, and not opposite the eyes.

Disclosure of invention

The aim of the present invention is the adaptation of the beneficial properties of peripheral dimming of spectacle glasses to a sunscreen mono lens, as well as the disclosure of new effects of peripheral dimming associated with a special form of mono lens. To implement this chain, two options for peripheral dimming of the monolysis are used: in the first embodiment, the total area of the eyeglass is divided into three zones consisting of a zone of peripheral dimming of the mono lens and two viewing zones located opposite the eyes; in the second variant, the total area of the eyeglass is divided into two zones, consisting of the peripheral darkening zone of the monolith and the combined field of vision of both eyes, while the viewing zones can extend to the lateral and lower edges of the mono lens, of any size and shape, with clearly distinguishable borders or with fuzzy borders with weaker or stronger dimming, without dimming, or from dimming of a different color, or as a hole cut out in glass to improve visibility, dosed access of UV rays to the body, protection s of vision from color distortion, demonstrating the beauty of the eyes and image differentiation of areas of blackout.

The viewing areas in the mono lens play the role of “windows” allowing the most comfortable use of sun dimming. Sunglasses really protect your vision from strong radiation from the sun for a very short time. People rarely look in sunglasses in the sun. In other cases, the sun's rays fall on the area of the glasses along a tangent line or in a weaker reflected form. People constantly look at objects of different lighting conditions, enter the shadow zone, the room, wear glasses during periods of weak sun activity, in regions with a temperate climate, etc. All this time, protection from strong solar radiation is superfluous, and vision experiences constant stress from dimming reality and color distortions. Peripheral dimming makes it possible to differentiate the protection of vision from UV rays to the protection of peripheral vision, which occupies about 80% of the area of the spectacle glass and the protection of the view, which occupies about 20% of the area of the spectacle (direct vision area).

For consumer purposes, the ratio of the zones of peripheral and central vision can be arbitrarily changed. For example, when using glasses in the image version, the area of peripheral darkening of glasses can be reduced to 20% of the glass area, and the viewing area is increased to 80%, for example, to demonstrate eye makeup. The version of glasses with “windows” without dimming is not “safe”. It is known that the molecular structure of spectacle glass delays part of the UV rays, and a special vacuum coating can greatly enhance this protection. Different additives are often introduced into the structure of colorless spectacle glasses and plastic, which protect the eyes from ultraviolet light. Transparent UV films are also applicable. Modern sunglasses glasses can reliably protect your eyes from UV rays, even without dimming. However, if the consumer wants to wear traditional sunglasses, then we must give him the opportunity to choose a more comfortable and safe option for such glasses. Through the colorless “windows” of glasses, it is possible, for example, to read safely. Which is already good.

The choice of glasses with “windows” of weaker dimming is the consumer’s choice and additional protection against ultraviolet radiation. The phrase “more weak eclipse” is a relative concept. With respect to peripheral dimming, central dimming may be weaker. But strong enough for UV protection in this climate region and more comfortable for vision.

The option with cut out "windows" is convenient in light sunny weather and in countries with a temperate climate. If you do not look directly at the sun, these glasses have good peripheral protection. They are convenient for people who have watery eyes from glasses and often sweat glasses. Sunglasses have a second function - fashion. The “windows” cut out in glasses solve the problem of obscuring the view and color distortion indoors and outdoors and remove the greenhouse effect of the glasses.

The option of glasses with a stronger darkening in the central part of the glasses is characterized by a very high degree of vision protection from direct sunlight on the retina. It is intended for use in extreme situations, for example, in the polar regions of the earth or in the tropics, where direct sunlight can damage the retina. Therefore, in the central part of the sunglasses, enhanced dimming is used, but peripheral dimming here serves the opposite - to improve visibility and visibility. Through weaker peripheral dimming, the sun's rays can penetrate only at an angle safe for the retina. The technique for using peripheral dimming sunglasses is the same as for conventional sunglasses. The size, shape of the cut-out and the tinting power of the “window” area can depend on the style of the glasses and the necessary degree of protection against UV rays.

To improve the vision, the “window” area is sufficient comparable with the size of the palpebral fissure (contours of the eyelids). The size of the palpebral fissure is the physiological size of the "window" given to us by nature. The smallest sunglasses are available for children aged 2 to 14 years. At the age of 1.5-2 years, the palpebral fissure has an almond-shaped shape measuring 20 mm in length, 8.5 mm in width, with an area of 75-80 mm2. In the average adult the human palpebral fissure also has an almond-shaped shape measuring 28 mm in length and 10 mm in height. Therefore, if glasses are selected solely in order to improve visibility, it is desirable to observe the minimum physiological dimensions of “windows”. Especially with glasses for children. In childhood, color distortions are dangerous for the formation of vision, and the deterioration of visibility in sunglasses is the cause of childhood injuries.

However, if the “window” area is used as a decor element for glasses, the size and shape of the “window” can depend only on the imagination of the designer, i.e. be of any size and shape.

Positive effects

- The integrated viewing area in the mono lens allows you to maximize the visibility of the glasses, which is not available to the analogue. At the analogue, the rim around the glasses glasses and peripheral darkening in the bow of each glass interfere with the maximum review.

- Unlike the analog, the total area of the spectacle glass in the mono lens is divided into three areas, and not into two in each glass. The novelty is the combined field of view of both eyes in one glass. In the analogue, this cannot be done due to the fragmentation of the glasses.

- Compared to glasses with peripheral dimming in each glass, the mono lens has a large and solid surface of peripheral dimming and a “window”. And this creates new opportunities for creating image designs along the borders of blackout. For example, for the image of large pointed stars in the viewing areas, which cannot be done in classic glasses with scattered glasses of a smaller size. Conventional sunscreen mono lenses have a serious drawback associated with a large area of glass that sometimes covers the face. Under such a glass, the greenhouse effect of glasses is particularly pronounced - sweating and tearing of the eyes, fogging of glasses, etc. This reduces the popularity and sales of mono lenses. A mono lens with cut out “windows” eliminates this drawback and provides physiological frontal airflow of the mucous membrane. - The usual sunscreen mono lens has a second serious drawback associated with a greater curvature of glass than in ordinary glasses. This flaw creates significant distortion and spoils the vision. What consumers do not like. A mono lens with cut out “windows” eliminates this drawback. A monolith with “windows” without dimming protects the eyesight from negative side effects inherent in the color of the glasses of sunglasses - color distortion, shading and obscuring the view, especially indoors, photophobia, etc.

The consumer is given the opportunity to choose the option of glasses, without harmful side effects that he does not like or interfere with work or health.

- Glasses with peripheral dimming are perceived in the room not as sun glasses, but as image glasses; they do not need to be removed indoors.

- Glasses with cut out “windows” in the central part of the glasses can be a compromise for opponents of glasses, claiming that the glasses block UV rays necessary for physiological processes (Libermap, Pankov, etc. 3.4). Glasses with cut out “windows” retain the excess UV rays from the peripheral part, but let the central one pass, ensuring the normal functioning of the body. Unlike glasses with 30% permeability of rays, the “final” penetration of UV rays occurs in natural concentration (but in a small dose) and will not be artificially lowered in light sunny periods.

- Peripheral dimming in mono lens can increase the concentration of attention in work and study. Using varying degrees of transparency of peripheral dimming, it is possible to restrict or block (opaque dimming) the flow of information from the lateral view into the brain, which leads to concentration of attention on central vision (horse blinkers effect).

- Beyond mental stress, a dark-toned peripherally darkened mono lens reduces lateral vision information flowing into the brain, providing relaxation to the brain.

- The “window” area can be used for weaker dimming of the comfort level. The colors of the peripheral dimming and the “window” area may be different.

- The “windows” contours can be made expressors of the style and image of the owner: highlight in the form of thematic drawings, contours of spots, etc. It is possible to use darkening amplified from the “window” to the periphery of the spectacle glass.

- Mono lenses with “windows” do not hide beautiful female eyes. Brief Description of the Drawings

The figure 1 shows sunglasses - a mono lens with a peripheral dimming zone 1 and cut out "windows" 2 in the viewing areas. The figure 2 shows sunglasses - a mono lens with a peripheral dimming zone 1 and a combined field of view of both eyes passing to the lower edges of the mono lens.

Variants of the invention

Option 1. Sunglasses - a mono lens without dimming the viewing areas (the “window” area).

Option 2. Sunglasses - a mono lens with a zone of understated dimming of the “window” area. The colors of peripheral dimming and dimming of the “windows” can be different.

Option 3. Sunglasses - a mono lens with cut out “windows” in the viewing areas (Fig. 1).

Option 4. Sunglasses - a mono lens with image dimming or cut-out of the “window” area in the form of thematic drawings, contours of spots, etc. Option S. Sunglasses - a mono lens with dimming, intensifying from the window to the periphery of the glasses.

Option b. Mono-lens sunglasses with combined peripheral dimming and UV protection (in combination with gradient dimming, rainbow dimming, mirror dimming, UV protective films, etc.) to enhance the style of the glasses.

Option 7. Sunglasses - a peripheral darkening mono lens for the purpose of increasing concentration and relaxation according to the effect of horse blinkers.

Option 8. Sunglasses - a mono lens with a combined field of vision of both eyes passing to the lower edges of the mono lens (Fig. 2). Option 9. Sunglasses - a mono lens with a combined field of view of both eyes passing to the side edges of the mono lens. For example, a lighter dividing horizontal strip from edge to edge of a mono lens. Option 10. Sunglasses - a mono lens with a combined field of view of both eyes without crossing the edge of the mono lens. Those. the “window” area is completely surrounded by peripheral dimming.

These points are indicative and may be supplemented, 5 modified or combined in accordance with the claims.

Industrial applicability

Sunglasses - peripheral darkening mono lenses can be sought after by people who want to protect their eyesight from UV rays and maintain the visibility of the vision and eye health. The new properties of the glasses and the decor element in the form of “windows” allow us to diversify and increase the production of sunglasses, providing the consumer with a wide range of choices. Sunglasses production - peripheral dimming mono lenses are identical to the production of conventional sunglasses and S can be performed on the same equipment.

Bibliography

1. Job Libegmap. Light: thе Medicipe оf thе Future. 1992 0 2. Pankov O. Glasses-killers. Moscow, 2007. http://www.bookvoed.ru/seaгching_for_shop397325.html

3. A method of increasing potency and color therapy with glasses with peripheral dimming. WO / 2009/104984

4. Thе Supplássés with Reirhegal Dagkepipg. WO / 2009/145668 5

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Claims

Claim

Sunglasses - a peripheral darkening mono lens that consists of sunglasses with one tinted glass for protection from UV rays containing a darkened peripheral region and a viewing area or viewing area (“window” area), characterized in that two types of peripheral darkening of the glasses are used in the mono lens : in the first option (a), the total area of the eyeglass is divided into three zones consisting of a zone of peripheral darkening of the mono lens and two viewing zones located opposite the eyes; in the second option (b) the total area of the eyeglass is divided into two zones, consisting of a peripheral darkening zone of the mono lens and a combined field of vision of both eyes, while the zone / field of vision of the eyes in the mono lens can extend to the lateral and lower edges of the mono lens, of any size and shapes with clearly distinguishable borders or with fuzzy borders with weaker or stronger dimming, without dimming, or with dimming of a different color, or in the form of a hole cut out in glass to improve visibility, metered access F rays into the body, protecting eyesight from color distortions, eliminating the greenhouse effect of glasses, demonstrating the beauty of the eyes, image differentiation of areas of blackout and increasing concentration according to the type of horse blinkers.