KR100969571B1 - Glasses for watching 3d image - Google Patents

Abstract

PURPOSE: A 3D image watching eyeglasses is provided to minimize a view interference degree by secluding light which is irradiated from the overhead side. CONSTITUTION: A main body is composed of a bridge(14), a left and right lens frame(12), and an extension part(16). The extension part is bent from each side end of the left and right lens frame to the rearwards. The left and right lens frame is connected to the upper side of the extension part. A left and right glass hooking part is projected to the inner side to be fitted to the curve of both sides of a forehead. The pantoscopic angle of a 3D image watching eyeglasses is less than the pantoscopic angle of dioptric glasses as much as 1 or 2 degrees.

Description

Glasses for viewing stereoscopic images {GLASSES FOR WATCHING 3D IMAGE}

The present invention relates to glasses, and more particularly, to glasses for viewing stereoscopic images that are improved to be worn by the wearer regardless of whether or not wearing glasses for vision correction.

3D stereoscopic image technology starts from the principle that can sense the three-dimensional effect of the object by using the binocular parallax, which is the biggest factor for recognizing three-dimensional effect in the near distance. Using such a principle, a stereoscopic movie device, a game apparatus, a stereoscopic television, etc., which can display a stereoscopic image, has been released, and stereoscopic contents are also produced. In order to realize a stereoscopic image, two images must be simultaneously shot by two cameras viewed from a position angle such as the left and right eyes of a person. Most people are asked to wear glasses for viewing 3D images.

Glasses for viewing 3D images are repeated with anaglyph method using blue and red sunglasses on the left and right, polarization method using polarized glasses with different left and right polarization directions, and time-divided screens. There is a liquid crystal shutter method using glasses equipped with a liquid crystal shutter to be fitted, and mainly use a liquid crystal shutter method.

However, glasses for viewing stereoscopic images that are worn to view stereoscopic images are difficult for the wearer of vision correction glasses to use.

Recently, people wearing eyeglasses for vision correction are almost equivalent to the number of non-wearers, and Korean Patent Application Laid-Open No. 2002-0011747 "Three-dimensional liquid crystal shutter glasses" as an example of an effort to alleviate the eyewear wearer's difficulties. Is disclosed.

In Patent Publication No. 2002-0011747, a hinged wear position variable member may be used to advance the body of the liquid crystal shutter with the front or back.

However, the liquid crystal shutter glasses have a disadvantage in that the height of the liquid crystal shutter of the eyeglass body causes a difference between the eyeglass wearer and the non-wearer, and the eyeglass body may be hinged.

Accordingly, an object of the present invention is to provide an improved glasses for viewing stereoscopic images so that the wearer can wear comfortably and stably regardless of whether or not wearing glasses for vision correction.

Another object of the present invention is to provide a three-dimensional image viewing glasses that minimizes the interference of the vision by blocking the light flowing from the upper head as well as no flow down even if wearing the three-dimensional image viewing glasses on the vision correction glasses.

According to the above object, the present invention, in the glasses for viewing stereoscopic images, the eyeglass body is composed of an extension part that is extended rearward bending at each side end of the bridge, the left and right lens frame and the left and right lens frame, and the upper side of the left and right lens frame, the bridge and the extension part. It is characterized in that the eyeglass frame engaging portion protruding inward to meet the curvature of the forehead is integrally formed on the eyeglass body.

In addition, the present invention, in the glasses for viewing stereoscopic images, the eyeglass body is composed of an extension portion that is bent rearward extension at each side end of the bridge, the left and right lens frame and the left and right lens frame, and the part of the left and right lens frame and the upper side of each of the extension portion and the face Eyeglass frame engaging portion protruding inward in accordance with the bending of the forehead is characterized in that it is configured to be integrally formed on the eyeglass body.

In another aspect, the present invention is provided with an assembling nose support having an assembling pin hole and an assembling piece, and forming a protruding pin and an assembly groove so that the assembling nose rest is fitted to the left and right lens frames and the bridge, and supporting the nose rest of the eyewear wearer. The surface is characterized in that it is configured to be formed lower than the support surface of the general nose support,

In addition, the support surface of the assembled nose support for the spectacle wearer is characterized in that formed in a flat portion having a height similar to the height of the protruding pin.

In addition, the pantoscopic angle of the stereoscopic image viewing glasses of the present invention is characterized in that it is formed 1 ~ 2 ° less than the foreground angle of the vision correction glasses.

The improved glasses for viewing 3D images as in the present invention can be worn comfortably and stably regardless of whether the corrective glasses are worn, and there is no flow even when wearing the glasses for viewing 3D images. It also has the advantage of minimizing visual interference by blocking light entering from above the head.

1 and 2 are perspective views of glasses for viewing stereoscopic images according to an embodiment of the present invention;
3 is a plan view of the glasses for viewing stereoscopic images according to FIG.
Figure 4 is a perspective view of the assembled nose support for the general wearer,
5 is a perspective view of the assembled nose support for the wearer,
6 is a side cross-sectional view of the main portion of the eyeglasses equipped with an assembled nose support part for a general wearer;
7 is a side cross-sectional view of the main portion of the eyeglasses equipped with an assembled nose support part for eyewear wearers;
8 is a state wearing glasses for correcting vision and glasses for viewing stereoscopic images,
9 is a perspective view of a three-dimensional image viewing glasses according to another embodiment of the present invention;
10 is a plan view of the glasses for viewing stereoscopic images according to FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are perspective views of glasses for viewing stereoscopic images according to an embodiment of the present invention, Figure 3 is a plan view of the glasses for viewing stereoscopic images according to FIG. 8 is a state diagram in which the glasses for correcting vision and glasses for viewing 3D images are worn together.

Eyeglasses 2 for viewing stereoscopic images according to an embodiment of the present invention is a pair of glasses 14, the left and right lens frame 12 and the left and right lens frame 12, the extension portion 16 is extended back bent at each end The main body 10 is provided, and the eyeglass main body 10 is configured to be hinged with the left and right eyeglasses 20.

Furthermore, the glasses 2 for viewing stereoscopic images according to the embodiment of the present invention extend the upper and lower sides of the left and right lens frames 12, the bridge 14, and the extension part 16, and protrude inwardly in accordance with the curvature of the forehead. The locking portion 18 has a main constitution that is formed integrally with the spectacle body 10. The eyeglass frame locking part 18 is caught by the lens frame 6 of the eyeglasses 4 for correcting eyesight when the eyeglasses for vision correction wear the eyeglasses 4 for correcting eyesight as shown in FIG. 8.

Eyeglass frame locking part 18 is protruding deeply into the inner side to fit the wearer's face forehead with an ergonomic design, and also serves as a shade shade that minimizes visual interference by blocking light entering from the top of the head in addition to the eyeglass frame locking function. Take charge together.

9 is a perspective view of a stereoscopic image viewing glasses according to another embodiment of the present invention, Figure 10 is a plan view of the stereoscopic image viewing glasses according to FIG.

The glasses 2 for viewing stereoscopic images according to another embodiment of the present invention are almost similar to the glasses 2 shown in FIGS. 1 to 3, but the eyeglass frame locking portion 18a is different from the left and right lenses. The upper side of the frame 12, the bridge 14, and the extension portion 16 are not contiguous. That is, the eyeglass frame locking portion 18a illustrated in FIGS. 9 and 10 extends the left and right lens frames 12 and the upper side of each of the extension parts 16 and protrudes inward to meet the curvature of both sides of the forehead.

The eyeglass frame locking portion 18a of the glasses 2 for viewing stereoscopic images of FIGS. 9 and 10 is to perform the eyeglass frame locking function as in the embodiment of FIGS. 1 to 3, and also blocks the light flowing from above the head. The role of the shade shade to minimize visual field interference is missing.

Glasses for viewing stereoscopic images according to an embodiment of the present invention (2) is implemented to be used regardless of whether or not wearing glasses, according to the assembled nose support part 24A suitable for general wearers (glasses wearers) and eyewear wearers accordingly 24B).

4 is a perspective view of the assembled nose support 24A for a general wearer, and FIG. 5 is a perspective view of the assembled nose support 24B for an eye wearer.

The assembled nose support part 24A, 24B of the present invention is an assembly type that can be mounted and detached at the eyeglass nose support position, and is preferably manufactured as a left and right body in which left and right nose supports are leg-connected, and soft such as urethane or latex. It is preferable to comprise with resin material.

Assembled nose support 24A, 24B of the present invention has a common configuration having an assembly pin hole 32 located on the left and right sides and the assembly stone piece 30 located in the center, the assembled nose support 24A ( In order to fit 24B) into the eyeglass body 10, the left and right lens frames 12 and the bridge 14 of the eyeglass body 10 are provided with a protrusion pin 42 and an assembly groove 40 as shown in FIG. 2. To form. At this time, the assembling groove 40 and the assembling stone piece 30 is preferably to form an inclined surface or locking jaw structure on the upper side to facilitate the locking after insertion when fitting.

Among the assembled nose support parts 24A and 24B having such an assembly configuration, the assembled nose support part 24A for the general wearer has a ridge 36 formed at the rear of the body, as shown in FIG.

In addition, in the present invention, the assembled nose support part 24B for the spectacle wearer is configured to form a flat portion 38 having a very low height at the rear of the body. That is, the assembling nose support part 24B for eyewear wearers is formed with the support surface lower than the support surface of the general nose support part 24A. Preferably, the height of the protruding pins 42 formed in the nose support position in the spectacle body 10 is as uniform and low as possible as shown in FIG. 7, and the support surface of the assembled nose support part 24B for the spectacle wearer is It is formed of a flat portion 38 having a height similar to that of the uniform protrusion pins 42 and having a planar shape.

FIG. 6 shows a sectional side surface of the main portion of the eyeglasses in which the assembled nose support 24A for the general wearer having the ridge 36 at the rear of the body is mounted on the eyeglass main body 10. In FIG. An eyeglass main body side cross section in which the assembled nose support 24B for eyewear wearer having a 38 is attached to the eyeglass main body 10 is shown.

Assembly type nose support 24A for a general wearer can be classified into two types according to the height of the ridge 36. Therefore, when a general wearer who does not wear glasses wears the glasses 2 for viewing stereoscopic images, among the various types of assembled nose rests 24B prepared, one of the prepared nose rests 24B suitable for one's nose height is selected. Pick and assemble the spectacle body 10 and watch the stereoscopic image.

When the wearer wants to wear the glasses 2 for viewing 3D image, the glasses wearer may be replaced with the private nose support 24B as shown in FIG. 7. As shown in FIG. 7, the assembled nose support part 24B for a wearer who has a flat part 38 at the rear of the body is not close to the lens frame 6 near the nose support of the vision correcting glasses 4 because the nose support height is not so high. Therefore, the lens 22 of the glasses 2 for viewing stereoscopic images and the lenses of the glasses for correcting vision 4 become as close as possible as shown in FIG. At this time, the eyeglass frame engaging portion 18 of the glasses 2 for stereoscopic image viewing is in close contact with the lens frame 6 of the vision correcting glasses 4 as described above. As a result, even when the glasses for viewing 3D images are worn on the glasses for correcting vision, almost no glasses flow down, and the cornea at the rear apex of the stereoscopic lenses in the state of wearing the glasses for viewing 3D images. The distance between the vertices, which refers to the distance to the vertex, is also similar to that of the vision correcting glasses 4, thereby minimizing discomfort in visual function.

In addition, another structural feature of the present invention is that the pantoscopic angle (θ ₂ of FIG. 8) of the glasses 2 for viewing stereoscopic images is greater than the foreground angle (θ ₁ of FIG. 8) of the vision correction glasses 4. It is to form 1 ~ 2 ° less. The foreground angle refers to the angle formed by the rim of the spectacle frame and the face (more precisely, the Lifting's surface) .The reason why the foreground angle is important for fitting is the optical axis of the corrective lens and the eye of the spectacle wearer. This is because the visual function is improved by matching or matching the lines.

The foreground angle θ ₁ in general glasses such as vision correction glasses 4 is approximately 5-8 °. Therefore, in the present invention, the foreground angle θ ₂ of the glasses 2 for viewing stereoscopic images is formed at 4-7 ° or 3-6 °. In the present invention, forming the foreground angle θ ₂ of the glasses 3 for viewing stereoscopic images 1 to 2 ° less than the foreground angle θ ₁ of the vision correcting glasses 4 is that the spectacle wearer At the same time as wearing (4) and wearing the 3D viewing glasses (2) as shown in FIG. 8, the rear portion of the eyeglass legs 20 of the 3D viewing glasses (2) is affected by the pinwheels. This may sound a bit more than the latter part of 4) to compensate for this. If the foreground angle θ ₂ of the stereoscopic image viewing glasses 2 exceeds 2 ° or more than the foreground angle (θ ₁ of FIG. 8) of the vision correction glasses 4, the stereoscopic image viewing glasses required for the general wearer Since 2 ° can be out of the optimum foreground angle θ _{2 of} ( ₂ ), the 2 ° has a critical significance.
In the present invention, even if the wearer wears the glasses 4 for correcting vision, and at the same time overwrite the glasses 2 for viewing 3D images as shown in FIG. Since this state has no obstacles, it is still possible to maintain the height of the optical center point, that is, the fitting so that the optical center point of the vision correcting glasses 4 is located in the pupil.

It is to be understood that the glasses 2 for viewing stereoscopic images attached to the specification of the present invention are exemplified by the glasses of the liquid crystal shutter type, and the present invention can be applied to other types of glasses. Self-evident to those who have knowledge of

Therefore, reference numeral 26, which is not described in the drawings attached to the present specification, is a sensor for synchronizing a period in which the time-divided screen is repeated, and "28" is a power switch. The lens 22 fitted to the left and right lens frames 12 becomes a liquid crystal shutter. In addition, an extension module 16 in which the power switch 28 is located includes an electronic module for driving the liquid crystal shutter.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be defined by the described embodiments, but should be defined by the claims and their equivalents.

The present invention can be used to watch stereoscopic images.

(2)-Glasses for viewing stereoscopic images (4)-Glasses for vision correction
(6) (12)-Lens Frame (10)-Glasses Body
(14)-Bridge (16)-Extension
(18) (18a)-eyeglass frame hanger (20)-eyeglass legs
(22)-Lens (24A) (24B)-Assemble nose rest
(26)-Sensor (28)-Power switch
(30)-Assembly Stone Piece (32)-Assembly Pin Hole
(40)-Assembly Groove (42)-Protruding Pin
(θ _1, θ ₂ )-foreground angle

Claims (5)

delete In the glasses for viewing stereoscopic images,
The bridge body 14, the left and right lens frames 12, and the extension portions 16 which are bent and extended rearward at each side end of the left and right lens frames 12 constitute the spectacle body 10 and a part of each of the left and right lens frames 12. The left and right eyeglass frame engaging portions 18a protruding inwardly in accordance with the curvature of both sides of the face forehead are the stereoscopic image viewing glasses 2 integrally formed on the eyeglass body 10, which extends between the corresponding extensions 16, respectively. The pantoscopic angle θ ₂ of the glasses 2 for viewing an image is 1 to 2 ° less than the foreground angle θ ₁ of the glasses for correcting vision 4.
It has an assembly pin hole 32 and the assembly stone piece 30, and the left and right nose pads 24A, 24B of the left and right nose rests are connected to the legs, and assembled to the left and right lens frame 12 and the bridge 14 The protruding pin 42 and the assembly groove 40 are formed so that the type nose support part 24A and 24B are fitted together, and the support surface of the nose support part 24B for the wearer of the spectacles is of the general nose support part 24A. The eyeglasses for vision correction are formed by forming a flat portion 38 having a height similar to the height of the protruding pin 42 but lowering the support surface, and adding the eyeglasses 2 for viewing stereoscopic images to the eyesight correction glasses 4. Glasses for viewing 3D video, characterized in that the glasses 2 is configured to be in close contact with the hook. delete delete delete

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