RU2599181C2 - Eyeglasses with length-calibrated bridge (gcb) - Google Patents

Abstract

FIELD: optics.

SUBSTANCE: invention relates to devices with manual or automatic change of focal distance of lenses of eyeglasses, wherein controlled liquid-crystal films are used to change focus of lenses. Eyeglasses with length-calibrated bridge include frames of glass lenses, ear arms, bridge connecting frames of glass lenses, nasal stops, optically transparent lenses, and at least one liquid-crystal film. Surfaces contain electrodes. Glasses with length-calibrated bridge (GCB) contain a set of length-calibrated bridges. Frames of glass lenses are made separate and connected to each other by flexible conductor cord made so that distance between frames of glass lenses is changeable in accordance with length of calibrated bridge. When selecting required length of calibrated bridge, it is attached to each of frames of glass lenses by fastener, rigidly connecting frames of glass lenses to each other. Length of calibrated bridge therein conforms to formula Ln=Lo+k*ΔL, where Ln is length of bridge, Lo is minimum length of bridge, k=0, 1, 2, … N, ΔL is elongation increment of every successive length-calibrated bridge in set. Besides, length-calibrated bridge is made hollow, and is assembled either of segments, or solid, and comprises slot or slit, wherethrough flexible conductor cord is introduced inside cavity of length-calibrated bridge. Length-calibrated bridge comprises plug for slot or slit. Nasal stops are attached to length-calibrated bridge. Nasal stops are attached to length-calibrated bridge asymmetrically. Length-calibrated bridge has guides for its installation in specified position and lock.

EFFECT: technical result is broader functional capabilities.

5 cl, 5 dwg

Description

The invention relates to devices with manual or automatic change of the focal length of the lenses of glasses that use controlled liquid crystal films to change the focus of the lenses, and is aimed at simplifying the technology of matching parameters of finished products with consumer requirements.

Known hydraulic glasses [1], the curvature of the lenses which changes in accordance with the pressure created by a special engine, as well as glasses with an electronic focus change [2], for the possibility of equally clearly seeing near and at long distances.

A disadvantage of the known devices is the difficulty or inability at the point of sale of such controlled glasses to coordinate the distance between the axes of the lenses of the glasses with the interpupillary distance of the consumer’s eyes.

The closest in technical essence and selected as a prototype is “Glasses with electronic focus change” [2], containing a liquid crystal film with a device for inducing an electric field in it.

The disadvantages of the prototype.

It is necessary for each consumer, for a specific interpupillary distance of the consumer’s eyes, to establish the corresponding distance between the axes of the lenses of the glasses, fitting the lenses under the frame of the glasses, which presents significant difficulties when using controlled lenses with liquid crystal films and optically transparent electrodes.

The claimed technical solution is aimed at simplifying the technology for matching the parameters of finished products with the requirements of a specific consumer.

1. This is achieved by the fact that, in contrast to the well-known "Glasses with electronic focus change" [2], including the frames of the lenses of glasses (1), which ensure the fixation of lenses, temples (6), the bridge (2) connecting the frames of the lenses of glasses, nasal stops (3), optically transparent lenses, which are made of elements of an optically transparent dielectric substance - a polymer with a given refractive index, between which at least one liquid crystal film is enclosed, and the surfaces contain electrodes - optically transparent electrically conductive films, “Points and with a length-calibrated bridge "(OKM) contains a set of length-calibrated bridges, and the frames of the lenses of the glasses (1) are made separately, independently, and are interconnected by a flexible bundle of conductors or at least one corrugated busbar of conductors (4), made in such a way that the distance between the frames of the lenses of the glasses (1) can be changed in accordance with the length of the calibrated bridge (2), and when you select the required length of the calibrated bridge, which determines the distance between the main axes of the lenses of the glasses and matches it with the interpupillaries m by the eye distance of a particular consumer, he attaches to each of the frames of the glasses lenses by means of fastening (5), mechanically rigidly connecting the frames of the glasses lenses (1), the length of the calibrated bridge corresponds to the formula Ln = Lo + k * ΔL, where Ln - the length of the bridge, Lo is the minimum length of the bridge, k = 0, 1, 2, ... N, ΔL is the elongation of each subsequent bridge calibrated along the length of the set, and in addition, the bridge (2) calibrated along the length is made hollow and is assembled from segments , or integral and contains a slot or slot through which the flexible burn ut conductors or at least one corrugated busbar of flexible conductors (4) are inserted into the cavity of the bridge calibrated along the length (2), when attaching it to each of the frames of the glasses lenses (1).

2. In addition, the bridge calibrated along the length (2) contains a plug for a slit or slot.

3. In addition, the nose stops (3) are attached to the length-calibrated bridge (2).

4. In addition, the nose stops (3) are attached asymmetrically to the length-calibrated bridge (2).

5. In addition, the bridge calibrated along the length (2) has guides for installing it in a predetermined position and a latch.

The proposed technical solution is illustrated using FIG. 1 ... FIG. 5.

In FIG. 1 shows glasses with electronic focus change, containing a length-calibrated bridge (2).

In FIG. 2 shows a flexible harness or at least one corrugated flexible busbar (4) inserted between the glasses lens frames (1), electrically connecting control devices and glasses lens electrodes, and the arrows show the directions of displacement of the main axes of the glasses lenses with the lens frames points (1) in accordance with the installed length-calibrated bridge (2).

In FIG. 3 a, b shows the length-calibrated bridge (2), respectively, a front view and an end view.

In FIG. 4 shows a length-calibrated bridge (2) assembled from two segments.

In FIG. 5 shows glasses with electronic focus change, containing a bridge calibrated along the length (2) (top view).

In FIG. 1 ... Figure 5 and in the text the following notation:

1 - frame lenses glasses

2 - the bridge calibrated along the length, the nose bridge of the frame,

3 - nasal emphasis,

4 - flexible harness or at least one corrugated busbar flexible conductors,

5 - mounts,

6 - temples, temples,

7 - a stub.

Thus, glasses with a length-calibrated bridge (OKM) include eyeglass lens frames (1), earhooks (6), a set of length-calibrated bridges (2), nose stops (3), optically transparent lenses that are made of optical elements transparent dielectric substance - a polymer with a given refractive index, at least one liquid crystal film, the surfaces contain electrodes - optically transparent electrically conductive films, and the frames of the lenses of glasses (1) are made separately, independently, and are interconnected by a flexible wire harness one or at least one corrugated busbar of conductors (4), the calibrated bridge is attached to each of the frames of the glasses lenses by means of fastening (5), the length of the calibrated bridge corresponds to the formula Ln = Lo + к * ΔL, where Ln is the length of the bridge, Lo - the minimum length of the bridge, k = 0, 1, 2, ... N, ΔL is the elongation of each subsequent bridge calibrated along the length of the bridge in the set, and in addition, the bridge calibrated along the length of the bridge (2) is hollow and is assembled from segments, or integral and contains a slot or slot, in addition, a bridge calibrated along the length (2) of holds a gap or slot plug, nose stops (3) are attached to the length-calibrated bridge (2), nose stops (3) are attached to the length-calibrated bridge (2) asymmetrically, the length-calibrated bridge (2) has guides and a latch.

The device operates as follows.

The manufacture of glasses with electronic focus changes for a particular consumer is complicated by the fact that for the interpupillary distance of the consumer, it is necessary to establish the corresponding distance between the main axes of the glasses lenses, fitting (polishing) the lenses to the dimensions of the spectacle frame [1, 2].

This presents significant difficulties when using multilayer lenses from elements of an optically transparent dielectric substance - a polymer with a given refractive index, between which at least one liquid crystal film is enclosed, and the surfaces contain electrodes - optically transparent electrically conductive films, and in addition, the need for sealing electrical circuits from external influences, which impedes the possibility of adjusting the parameters of glasses for a specific consumer directly enno the point of sale and in a short time, on the same day.

The claimed device "Glasses with a length-calibrated bridge" (OKM) contains ear hooks (6), nose stops (3) (Fig. 1, Fig. 2), a set of bridges calibrated along the length, and the frames of the lenses of the glasses (1) are made separately, mechanically independently, and interconnected by a flexible bundle of conductors, made, for example, in the form of a spiral for the possibility of changing the length of the bundle or at least one corrugated busbar of conductors (4) (Fig. 2), so that the distance between the lens frames points (1) can be changed in accordance with the length of the calibrated bridge (2), and when choosing a calibrated bridge that is necessary along the length, which determines the distance between the main axes of the lenses of the glasses and matches it with the interpupillary distance of the eyes of a particular consumer, it is attached to each of the frames of the lenses of the glasses by means of fastening (5) (Fig. 2), mechanically rigidly connecting between the frames of the lenses of the glasses (1), while the length of the calibrated bridge (Fig. 3, Fig. 4) corresponds to the formula Ln = Lo + k * ΔL, where Ln is the length of the bridge, Lo is the minimum length of the bridge, k = 0, 1, 2, ... N, ΔL is the elongation of each subsequent length calibrated the bridge in the set, for example, equal to 1 mm, with the corresponding marking, and in addition, the bridge calibrated along the length (2) is hollow and assembled from segments (Fig. 4), or one-piece and contains a slot or slot (Fig. 3) through which a flexible cable bundle or at least one corrugated busbar of flexible conductors (4) are inserted into the cavity of the bridge calibrated along the length (2) when attaching it to each of the frames of the lenses of glasses (1). A bridge calibrated along the length (2) contains a plug for a slot or slot to protect the conductors from external influences.

In the case of using a length-calibrated bridge (2) of segments (Fig. 4), its segments are folded so that a flexible harness of conductors or at least one corrugated busbar of flexible conductors (4) are placed inside the bridge, and then the ends of the calibrated along the length of the bridge are inserted into the corresponding holes of the frames of the lenses of glasses, which are designed for the use of such bridges. For greater rigidity, the bridge and its installation in the frame of the lenses of glasses can be made of metal.

At the same time, the bridge calibrated along the length (2) can have guides for installing it in a predetermined position and exclude the possibility of changing the position of the glasses lens frames relative to each other, and a latch holding the bridge in the holes of the glasses lens frames (1).

If necessary, nasal stops (3) for a specific consumer can be attached to a bridge calibrated along the length (2), for example, in special grooves, which is more convenient with a sufficiently large interpupillary distance of the eyes and small lenses.

In the case of an asymmetry in the location of the pupils of the eyes relative to the midline of the nose bridge, the nasal stops (3) are attached asymmetrically to the bridge calibrated along the length (2), which will allow the main axis of the lenses to shift to the corresponding side, while maintaining the specified value of the interpupillary distance.

Thus, the ability to set the distance necessary for the consumer between the main axes of the glasses lenses by selecting the appropriate length-calibrated bridge at the point of sale or directly by the consumer, will allow the manufacturer of glasses with electronic focus changes to sell a finished product with the ability to establish compliance directly at the point of sale between the interpupillary distance of the consumer’s eyes and between the main axes of the glasses lenses.

In this case, a set of bridges calibrated along the length can be equipped separately for the corresponding batch of glasses.

Using the invention will allow:

Eliminate in most cases the need for individual production of glasses with electronic focus changes for a specific value of the interpupillary distance of the consumer’s eyes or the manufacture of a large number of glasses with electronic focus changes with different distance values between the main axes of the lenses of glasses to cover the entire range of values of the interpupillary distance of the eyes of consumers.

LITERATURE

1. US Patent 7.008.054, G02C 1/00, March 7, 2006.

2. US Patent 8.408.699 B2, G02C 7/00, 06/23/2006.

Claims (5)

1. Glasses with a bridge calibrated along the length, including frames of the lenses of the glasses, which provide the fixation of the lenses, temples, a bridge connecting the frames of the lenses of glasses, nose stops, optically transparent lenses, which are made of elements of an optically transparent dielectric substance - a polymer with a given refractive index, between which encloses at least one liquid crystal film, and the surfaces contain electrodes - optically transparent electrically conductive films, characterized in that they contain a set of length calibrated mos , and the frames of the lenses of the glasses are made separately, independently, and are interconnected by a flexible bundle of conductors or at least one corrugated busbar of conductors, made in such a way that the distance between the frames of the lenses of the glasses can be changed in accordance with the length of the calibrated bridge, and when choosing the calibrated bridge necessary along the length, which determines the distance between the main axes of the lenses of the glasses and matches it with the interpupillary distance of the eyes of a particular consumer, it is attached to each frame of the lenses of glasses fastening means, mechanically rigidly connecting the frames of the lenses of glasses, the length of the calibrated bridge corresponds to the formula Ln = Lo + k * ΔL, where Ln is the length of the bridge, Lo is the minimum length of the bridge, k = 0, 1, 2, ... N, ΔL is the elongation of each subsequent bridge calibrated along the length of the bridge in the set, and in addition, the bridge calibrated along the length of the bridge is hollow and is assembled from segments, or solid and contains a slot or slot through which a flexible wire harness or at least one corrugated bus flexible conductors are inserted inside the floor spans calibrated along the length of the bridge, when attaching it to each of the frames of the lenses of glasses. 2. Glasses according to claim 1, characterized in that the bridge calibrated along the length contains a plug for a slit or slot. 3. Glasses according to claim 1 or 2, characterized in that the nose stops are attached to a bridge calibrated along the length. 4. Glasses according to claim 1 or 2, characterized in that the nose stops are attached asymmetrically to the bridge calibrated along the length. 5. Glasses according to claim 1 or 2, characterized in that the bridge calibrated along the length has guides for installing it in a given position and a latch.

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