RU2600509C2 - Anti-dazzling device - Google Patents

Abstract

FIELD: optics.

SUBSTANCE: invention relates to eye protection from bright light optical devices, including to driver's eye protection devices against on-coming vehicle head lights blinding. Anti-dazzling device is made in form of housing with anti-head light glasses transparent optical elements and light-protective screen and light filters and correspondingly on second optical element in these devices, reducing visible light intensity, where optical elements are contained in device housing. At that, at same level horizontally for both eyes in vertical relative to housing devices have optical media with different degree of visible light transmission or transparency, including light filter with maximum protective effect in one of anti-head light glasses optical elements asymmetrically located relative to optical centers of eyes or relative to device housing or in light-protective screen and opposite optical element or in corresponding device for observation with other eye, which is made with visually more transparent optical medium than opposite one.

EFFECT: technical result is maintaining maximum possible natural colour rendering under conditions of visible light flow intensity decrease.

5 cl, 3 dwg

Description

The invention relates to optical devices for protecting the human eye from bright light, including devices for protecting the eyes of a vehicle driver from being dazzled by the headlights of an oncoming car.

Known devices for protecting the driver’s eyes from being dazzled by headlights of oncoming vehicles in the form of anti-glare glasses with dimming screens [1. RF patent No. 2088190, IPC: A61F 9/02, application No. 94036022/14, 08.27.1997, 2. RF application No. 93037244/28, IPC G02C 7/10, 06.20.1997]. The disadvantage of the above devices is the use of wide dimming zones, screens and visors, limiting the field of view of the driver.

In addition, optical devices are known in the housing of which light-protective elements with light filters are installed that attenuate the light flux, for example, glasses with polarizing filters installed with the ability to change the transparency of optical glasses or eyeglass lenses [RF patent No. 2029328 by application: No. 4933804/10 publ. 02.20.1995].

Optical binocular devices are also known in which different sections of eyeglass lenses or glasses of glasses are made with different degrees of transparency [RF Patent No. 2189802 according to application 98118892/14, publ. 09/27/2002]

The inevitable significant changes in color and light perception and the limitation of visibility due to a sharp decrease in the intensity of light entering the eyes that arise when using binocular polarizing, color light-shielding filters are the main disadvantages of all known optical devices for protection from bright light.

The aim of the invention was the creation of an anti-glare device that does not limit visibility and retains the maximum possible natural light transmission when the filters are installed in the device under conditions of a decrease in the intensity of the visible light flux.

To effectively solve the problem of the invention, the well-known physiological features of human vision were used, such as a significant weakening of the subjective effect of blinding in the event of exposure to only one eye, as well as maintaining the possibility of binocular vision of almost full natural light perception when protective, darkening or color filters are installed in the projection only one eye.

This problem is solved in that the anti-glare device is designed as a binocular device in the form of a body with transparent optical elements equipped with light filters that reduce the intensity of visible light, where the optical elements in the device body are at the same horizontal level for both eyes within the interpupillary distance or more have optical media with varying degrees of transmittance of visible light or transparency in a certain part or over the entire area of the optical element, including asymmet a filter that is located relative to the optical centers of the eyes in the device case with the maximum protective effect in one of the optical elements and a second optical element for the other eye, which is made with a visually more transparent optical medium than the opposite, and the device itself is made, for example, either in the form of glasses -antifar with one spectacle glass, including a polarizing filter, and a second spectacle glass, having a similar color of the optical medium, or the casing of the device is designed as a stationary light a shield screen, which is a transparent plate having optical elements successively arranged horizontally, including asymmetrically or bipolarly located optical elements with polarizing or color filters for one of the eyes and an optical element with a similar color of the optical medium for the other eye.

In FIG. 1 shows a variant of a portable anti-glare device in the form of antifar glasses, a general rear view. In FIG. 2 shows a stationary version of the device in the form of a light shield, a general front view. In FIG. 3 shows a variant of a light-shielding screen with light-shielding filters bipolarly located at different levels and sides, a general front view.

The anti-glare device for the driver of the vehicle is made both in the embodiment of the portable device, for example in the form of antifar glasses 1 (Fig. 1), and in the variant of the stationary device in the form of a light shield 2 (Fig. 2, 3), having comparable or large comparing with glasses the sizes of optical elements.

In all variants of the invention (Figs. 1, 2), anti-glare devices consist of a housing 3 and optical elements with special optical media for the visual fields of the right and left eyes, respectively, which are represented by spectacle glasses 4 and 5 or lenses in antifog glasses and in light protection screen - the corresponding analogues in the form of transparent sections or optical fields 7 and 8 for binocular vision spaced along the horizontal axis 6 of the housing 2 of the device, representing, for example, the right and left halves of ozrachnogo screen housing, or in another embodiment, the screen in the form of three horizontally successive fields of different optical transparency or light transmission degree, two of which are located relatively bipolar device body and asymmetrically with respect to the optical centers of the eyes.

To reduce the brightness of the light and obtain a light-shielding effect, individual transparent optical elements are equipped with protective light filters, which are located in the housing in such a way that they create dimming or reduce the light intensity only or mainly for one eye. This one-sided decrease in the visible light flux for only one eye allows using polarizing or darkening color filters to keep binocular and color vision practically unchanged and at the same time reduce the subjective effect of blindness of the eyes.

To obtain such an effect in all device variants, darkening, polarizing, color, and other special filters that reduce the intensity of visible light are set in such a way that they form optical media of different transparency asymmetrically located horizontally relative to the body and at the same level for both eyes or the degree of decrease in the intensity of visible light. For this, the filters in the optical elements are installed in different versions, for example, only on one of the two optical elements or on two elements, but at different levels horizontally and on different sides or on each optical element of the device, but with a significant difference in the degree of transparency or light transmission intensities of optical media of two different optical elements, as well as bipolar - on two optical elements or fields separated by a third optical element or field. In all these devices, the filter is located asymmetrically relative to the optical centers of one of the eyes.

In all variants of the arrangement of light filters within the interpupillary or intercenter distance, optical media for both eyes are visually distinguished by the intensity of transmittance of visible light or transparency for both eyes in a certain part or in the whole area and at a certain level horizontally, and to obtain the maximum effect in one of the optical elements is set to a maximum filter, sufficient to prevent glare of the eye with bright light, and on the second optical skom element or similar used color stain of optical media, or use the same filter but with a minimal effect of polarization or light protection.

In an embodiment of the invention, in the form of antifar glasses 2, the maximum dimming filter made of a polarizing or other filter is mounted on one, for example, left, glasses 4, while the second glasses 5 can be transparent, can have the same color as the filter or be a filter , but with a minimum degree of polarization, and the area of the polarizing filter may be equal to or less than the area of the optical element or spectacle glass.

With such an asymmetric horizontal arrangement of the light filter in the anti-headlight glasses, there is a significant difference in the intensity of light exposure on the right and left eyes, respectively, since the polarizing filter with the maximum effect delays about 50% of the light flux intensity. Similarly, polarizing and other light-shielding light filters are installed on a device such as a light shielding screen.

Thus, by using such a simulation of asymmetric light fluxes, a light-shielding device creates the basis for the appearance of another adaptive reaction from the side of the eyes to bright light, when the physiological reaction of the eyes to bright light is simultaneously reduced and at the same time almost normal light perception is maintained due to one of the eyes that is not protected light filter.

To create optical media or optical elements with the aforementioned light-shielding effects in the anti-headlight glasses 1 and the light shielding screen 2, simple methods of light shielding are technically used in the form of applying a polarizing film, a color filter, or a reflective mirror layer to one optical glass or the corresponding visual field of the screen.

The device in the form of antifar glasses technically represents the usual construction of glasses 1, in the case 3 of which optical elements 4 and 5 are installed in the form of spectacle glasses or lenses that have different visually distinguishable optical properties, namely one of the spectacle glasses or lenses, for example, the left 4, is made polarized, respectively, transmitting less light or with a more intensely colored optical medium than the right spectacle glass 5 or lens. The right eyeglass 5 can be completely transparent or made with slight dimming and (or) polarization, which reduces the contrast for both eyes when viewed through such a device. The color characteristic of light-protective filters and optical elements may be different, however, the same or the same color of both optical media is optimal, for example, the yellow or gray color of the polarizer and the second optical element.

In such an optical device, the optical media of spectacle glasses 4 and 5 or lenses of antifar glasses 1, different in their optical properties, where one spectacle glass is made without a filter or with its minimum dimming, and the other with a polarization or a dimming filter sufficient to prevent glare, is determined and light intensities of different intensities on one or another eye, which is an essential sign of the claimed invention.

With this design of the antifar glasses 1, the friendly protective reaction of the pupils to light decreases and the color and light perception of one of the eyes through the glasses 5 with minimal dimming is kept practically unchanged, while, for comparison, the use of darkening filters for two eyes simultaneously dramatically reduces visibility for the driver.

The housing of the stationary device 2 (Fig. 2, 3) is, as an option, a narrow long transparent plate made of glass or plastic with a conventional horizontal axis 6, along which optical fields 7 and 8 of different degrees of transparency or polarization are made in the housing, representing in this form, optical elements 7 and 8 for binocular vision in the form of right and left parts or halves of a light-shielding screen or in the form of several optical fields successively arranged in a special horizontal order with different degrees New light transmittance.

A feature of the developed light-shielding screen is a different degree of transparency or polarization of the optical fields 7 and 8 or parts of the screen for the right and left eye, either at all horizontal levels or at the same horizontal or vertical level for the eyes, which determines a different intensity light exposure to a particular eye in the projection of these fields or corresponding individual horizontal levels within these fields on different sides.

For this, in one embodiment of the device, the left side or half of the screen, like the optical field 7 in whole or in part only at one particular level, is visually less transparent or, for example, as polarized as possible due to the polarizing filter, unlike the right half of the screen, which is right optical field 8 for the other eye. The right optical field 8 can be completely transparent or performed with slight dimming or slight polarization completely over the entire area or at a certain part and level horizontally, and can also have a similar or different color to the optical medium. Thus, the difference in light transmission between the optical elements in the projection of the eyes will be about 50%, which allows you to create the necessary effect of one-sided darkening of the eyes. The effect of light protection in such devices is also achieved with a smaller difference in the light transmission of optical fields. The housing of the stationary device itself may have fastening elements 9 or be fixed in an adhesive manner to the windshield of the vehicle.

The device can also be performed (Fig. 3) in the form of a light shield 2 and antifar glasses, where optical light filters 7 and 8, for example, in a stationary device are mounted on two optical elements in the projection of both eyes, but at different levels horizontally and vertically and on opposite sides, forming optical media bipolarly located on the sides, where the degree of decrease in the light transmission or transparency of the optical medium of one of the optical elements with a light filter is sufficient to reduce This can cause a glare to the eye, and may have a smooth transition in the direction of another optical element.

The next variant of the stationary device is a light-shielding screen 2 with three optical fields or optical elements 7 and 8, successively located at the same horizontal level of the screen body 3, the optical media of which have different degrees of light absorption or transparency at the same horizontal level for the eyes or relative to the horizontal axis 6 of the device body, two of which are filters 7, bipolar located at a distance from each other, more or less, or commensurate with the inter crustacean or centering distance, and the third - visually more transparent optical element 8 located between them, having a similar color or minimal degree of polarization, and the dividing boundaries of these optical fields facing each other can be vertically directed or can be made at an angle to the horizontal axis. In the latter case, optical media of different transparency arise not only horizontally, but also along the same vertical line.

As an option, the optical elements of antifar glasses and a light shield can be made in the form of an electro-optical device with a photosensitive element and a scheme for automatically controlling the transparency of the optical filters of spectacle glasses and optical fields of the screen, made in the form of electrochromic optical elements.

Anti-glare goggles are used as ordinary glasses that a person or a driver of a vehicle wears to protect from bright light. Unlike the well-known designs of glasses, the developed antifog glasses even when using a dimming filter allow you to get a virtually unshaded color and light image while protecting one eye from bright light, which significantly reduces the overall blind effect for the driver. This allows the use of such anti-headlight glasses both for protection from the glare of the headlights of the vehicle, and for protection from bright sunlight.

Anti-glare device in a stationary version in the form of a light shield 2 is used as follows. The light-shielding screen 2 is installed in the car opposite the driver’s eyes at or above the line of his eyes using standard fastening devices. Regardless of the position of the screen relative to the eye level, the driver has practically no restrictions for viewing the roadway, since when looking through two optical fields that are different in optical properties, a single visual picture is formed, which, when a light filter is installed only in the projection of one eye, maximally reflects the light characteristic of the road canvases. In this case, the driver is also protected to one degree or another from blinding by bright light.

Thus, the developed anti-glare device effectively prevents glare of the eyes with bright light and can be used to prevent glare of the driver of the vehicle with headlights.

Claims (5)

1. An anti-glare device in the form of a case with a filter in the optical elements, characterized in that the filter in the device is installed asymmetrically so that the optical media within the interpupillary or centering distance at the same level horizontally of the device have visually different transmittance visible light with the degree of decrease in the light filter of the light flux intensity, which is sufficient to reduce or prevent the effect of blinding one of the eyes 2. An anti-glare device according to claim 1, characterized in that the device case is made in the form of antifar glasses with optical elements in the form of spectacle glasses, where one of the spectacle glasses, for example, the left one, is represented by a polarizing filter asymmetrically located relative to the device case, and the other spectacle the glass has a color of the optical medium that is similar to the left spectacle glass, the filter area may be equal to or less than the area of the optical element. 3. The anti-glare device according to claim 1, characterized in that the device body is made as a stationary light-shielding screen, which is a transparent plate that includes two separate optical elements in series in the form of right and left parts of the device body, where the polarizing or a color filter, and the right half of the transparent casing has a similar optical color to the first, 4. An anti-glare device according to claim 1 or 3, characterized in that the body of the device is designed as a stationary binocular screen with three optical fields in series, horizontally arranged horizontally, including two bipolar filters located at a distance from each other, larger, smaller, or commensurate with the interpupillary or centering distance, and a third, located between them, a visually more transparent optical element for the second eye, having a similar color or minimum degree of polarization, and more generally nye to each other dividing boundaries of these optical fields may be the vertical direction or may be formed at an angle to the horizontal axis. 5. An anti-glare device according to claim 1, characterized in that the optical light-protective filters in the stationary device and in the antifog glasses are mounted on two optical elements in the projection of both eyes, but at different levels horizontally and on opposite sides, forming different optical media as vertically and horizontally, where the degree of decrease in the light transmission or transparency of the optical medium of one of the optical elements with a filter is sufficient to reduce or prevent effects This blinding eye and has a smooth transition in the direction of another optical element.

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