KR102231403B1 - one-way magnification stereoscope device combined with ocular lens - Google Patents

Abstract

In the present invention, a lens plate structure comprising a single magnification eyepiece in which a first prism, a second prism and a magnifying lens are combined, and a mounting holder structure in which one of the image plates of a smartphone, a mobile phone, and a tablet PC can be inserted, has a focal length. It relates to a stereoscopic apparatus in which a single magnification eyepiece, characterized in that it is combined with a fixed case or a case that can be folded, is enlarged or reduced by 1.5 to 2.5 times in only one direction.

Description

One-way magnification stereoscope device combined with ocular lens}

The present invention relates to a stereoscopic mirror capable of viewing a stereoscopic image by combining with a small portable image device (hereinafter referred to as a small image plate) mainly having a screen size of “3.5 to 9” such as a mobile phone, a smart phone, or a small tablet PC.

In particular, it is characterized in that the two single magnification eyepieces in which the first and second prisms are combined with the magnifying lens are combined with a mounting hole through which the small image plate can be inserted and removed.

Many stereoscopic images are provided on stream sites or websites.

In general, the aspect ratio of a screen provided by a small image board such as a smart phone or a tablet PC is 16:9 as shown in Fig. 3(a).

In the stereoscopic screen provided by the general 2D small image plate, the left-eye image (L) and the right-eye image (R) must be simultaneously provided in one image frame.

Therefore, as shown in Fig. 4(c), the 16:9 screen size of the left-eye image (L) and the right-eye image (R) are reduced to half the size of the left and right screens in one frame. It is presented as an 8:9 screen on the screen.

For example, the left and right screen ratios as shown in (a) and (b) of Fig. 4 are

As shown in (c), the original stereoscopic image cannot be viewed by providing an image that is reduced to 1/2 in the left and right, that is, a long distorted image in only one direction up and down.

Therefore, some conventional stereoscopic enlargement apparatuses have no choice but to distort and enlarge the image whose left and right are reduced as described above. Korean Patent Application No. 20-1999-0021635 and Korean Patent Application No. 20-2009-0013483 The foldable stereoscopic image advertising device is a structure that cannot be combined with a portable image device such as a smart phone, and is not a single magnification structure, so it is a portable image device. It is not possible to view the provided 3D video.

Republic of Korea application number 20-1999-0021635

In order to solve the above problem, the present invention reduces the distorted image to the left and right of a small image plate of 3″ or more and less than 9″, such as a smart phone, mobile phone, or tablet PC, in one direction to the left and right without changing the focal length of the magnifying lens. The purpose of this study is to propose a method of viewing the corrected original image using the magnification eyepiece.

In addition, when the single magnification eyepiece is used, the focus of the magnifying lens is stabilized, and a method of combining it with a structure that becomes a thin film structure when carrying is provided.

The present invention

First: The same first prism and the second prism are formed in a symmetrical shape in which the right angles are opposite to each other in the left and right directions, and combined with the magnifying eyepiece to form a single magnification eyepiece.

Second: The single magnification eyepiece is composed of two single magnification eyepieces, that is, a single magnification eyepiece for the left eye and a single magnification eyepiece for the right eye.

Third: It is combined with a mounting hole structure for inserting and removing a small image board such as a tablet PC or smartphone.

Fourth: In combining the two single magnification eyepieces and the mounting hole structure, the focal length is stabilized when the user uses it and the case is combined with a thin film structure when carrying.

The left and right eyepieces in which the first and second prisms are combined with the magnifying lens are 3D images whose distortion is corrected by enlarging the left and right images of a small image plate that has been reduced to the left and right and distorted by 1.5 times or more and less than 2.5 times. Observation becomes possible.

This unidirectional magnification effect corrects the distorted image using the refraction of the prism, so that the focal length is fixed in a state in which only one direction is magnified without changing the focal length of the magnifying lens.

When using the case of the folding-type structure combined with the two unidirectional eyepiece structures, the user's small image plate is easily combined and separated, the focal length of the magnifying lens is stabilized, and when it is folded into a thin film structure when carrying, it is easy to carry.

1 is a diagram showing a combination of a left and right side magnification eyepiece and a small image plate
2 is an explanatory diagram of the configuration and operation of a single magnification eyepiece
3 is an explanatory diagram of an aspect ratio of an image received from a general 2D small image plate
Figure 4 is a folding structure and a combination use case 1
Figure 5 (a) is an actual example when folded
Figure 5(b) is an explanatory view of the appearance after folding
Figure 6 shows the upper and lower plates are combined with the folding-type case structure Example 2
Figure 7 (a) is an explanation of the operation when the structure of Figure 6 is folded 1
Figure 7 (b) is an explanation of the operation when the structure of Figure 6 is folded 1
Fig. 8 is an example of a use case and a configuration of a single magnification eyepiece
Figure 9 is an explanatory view when combined with the hat brim structure of the hat

1 is a diagram showing a basic combination of left and right magnification eyepieces 5 and 6 and a small image plate 200.

The configuration of the left and right single magnification eyepieces 5 and 6 is the right angle (∠a) of the first prism 2 and the second prism 2 at the front end of the magnifying lens 1 having a magnifying function as shown in FIG. The position of the right angle (∠a) of) is composed of a square in the opposite direction to each other.

The position of the magnifying lens 1 has the same effect even if it is positioned at the front or rear of the first and second prisms 2 and 3.

The left and right single magnification eyepieces 5 and 6 as described above are configured in a single lens plate 8 structure as shown in FIG. 1.

The action of the first and second prisms 2 and 3 is that the left-eye image R1 among the images distorted in the left and right directions as shown in FIG. 3C is the left-hand magnification eyepiece 5 of FIG. ), the first prism 2 is refracted in the process of incident and transmission to the inclined surface of the first prism 2 as shown in FIG. 2a, and the left and right are enlarged at the inclination angle as shown in FIG. 2b.

The enlarged image as shown in FIG. 2A is refracted while incident on the inclined surface of the second prism 3 of FIG. 3 at an inverted inclination angle, and goes straight again as in FIG. 3C.

In addition, according to the same logic, the image L1 for the right eye in Fig. 3C is an inclined plane of the first prism 2 in the first prism 2 of the right magnification eyepiece 6 in Fig. It refracts in the process of incident and transmission as shown in a, and the left and right are enlarged at an inclination angle as shown in b of FIG. 2.

The enlarged image as shown in b of FIG. 2 is refracted while incident on the inclined surface of the second prism 3 of FIG. 3 at an inverted angle, and goes straight again as shown in c of FIG. 3.

Therefore, the installation angle of the first prism (2) is installed at an angle in which light incident in a straight line is refracted by the inclined surface of the first prism (2) by the necessary magnification as shown in b of Fig. 2, and the second prism (3) is installed. The angle is configured as an angle in which the angle of the image that is refracted as shown in b of FIG. 2 is reversely refracted so as to go straight as shown in c of FIG. 2.

The action of the first prism (2) and the second prism (3), as shown in Fig. 2(d), is to enlarge or enlarge the left and right distorted stereoscopic image R1(L1) like R2(L2). -The bottom is reduced and corrected to restore the original aspect ratio as shown in Fig. 2C.

The refraction of the first and second prisms 2 and 3 is not refraction due to curvature such as a curved surface or a concave, but is enlarged by refraction by the inclination angle of the prism's own plane, and the focal length of the magnifying lens There is a characteristic that it can be refracted only in one direction without affecting the.

The left and right single magnification eyepieces 4 and 5 constituted by the first prism 2 and the second prism 3 and the left and right magnifying lenses 1a.1b of FIG. 1 are combined with the structure of FIG. do.

That is, Fig. 4. Fig. 5(a). As shown in (b) of FIG. 5, the single magnification eyepieces 5 and 6 for the left and right eyes are provided on the left and right sides of the lens plate 8, and a small image plate ( 200) is composed of a mounting holder (7) that can be inserted and removed, and the lens plate (8) and the mounting holder (7) are configured to be rotated and folded as shown in Fig. 5 (a) based on the support base (9). A cover 10 is formed on the upper surface of the holder 7, and when the cover 9 is provided, a holder 11 is provided that can be folded in the left and right directions in the front and rear directions.

In the use of the present invention, as shown in Fig. 5 (a), the mounting holder 7 is opened, and then the small image plate 200 is inserted, the cover 9 is opened, and the holder 11 is set under the cover 9, and then the lens When the plate (8) is used upright, the focal length between the left and right unidirectional eyepieces (5, 6) of the lens plate (8) and the small image plate (200) of the mounting holder (7) is reduced by the support (9). It is fixed.

Conversely when carrying, the cover 10 and the holder 11 are folded, the lens plate 8 is folded, and the mounting holder 7 is folded to form a thin film structure as shown in Fig. 5(b).

When using this structure, the focal lengths of the left and right unidirectional eyepieces 5 and 6 are fixed by the support base 9 and the fixing base 11, and the thin film structure makes it easy to carry.

The structure of the lens plate 8 provided with the left and right eyepieces () is combined as shown in FIGS. 6 and 7 (a) and (b).

That is, the upper and lower plates 13 and 14 are provided between the lens plate 8 and the mounting holder 7 as shown in Figs. 7 (a) and (b), but a predetermined position of the upper and lower plates 13 and 14 A support (9) provided with a folding line (15) in the upper and lower plates (13, 14) and a folding line (15) in which a predetermined position is folded between the internal mounting holder (7) and the lens plate (8). Make up.

When using such a configuration, the focal length between the magnifying lens 1 of the lens plate 8 and the small image substrate 200 of the mounting holder 7 is fixed by the support 9 as shown in Fig. 7(a).

When carrying, since the fold lines of the upper and lower plates 13 and 14 and the fold lines 15 of the support 9 are folded, they can be carried in a thin film structure as shown in Fig. 7(b).

As shown in Fig. 8, a lens plate 8 structure in which one of a magnifying lens 1 or a single magnification eyepiece is selected and a mounting holder 7 is provided at the focal length position of the lenses on one side of the fixed case. It is equipped with a fixed case ().

In this case, the user simply mounts the small image plate 200 on the mounting holder 7 so that the focal length of the lens plate 8 is fixed.

That is, the lens plate 8 provided with the left and right side magnification eyepieces 5 and 6 and the case in which the mounting holder 7 is formed between the mounting holder 7 are provided, and the lens plate 8 and the mounting holder 7 are provided. ), the focal length of the lens plate 8 is fixed.

This invention is used by configuring the upper and lower parts of the visor of the hat 400 like a tile.

In the structure of the hat brim 401, it is configured at the bottom, but the first reflector 12 and the mounting groove 1 for mounting the small image plate are formed on the top of the hat brim 401, and the left and right side magnification eyepieces under the hat brim 401 It is characterized in that it includes a lens plate 8 with lenses 5 and 6 and a second reflector 13 or a translucent mirror 13a on the front surface thereof.

That is, the hat brim 401 is provided with a mounting groove 7 on the upper surface of the hat brim 401, a first reflector 12 in a square shape on the front, and a second reflector 13 in an inverted square shape in the lower surface of the hat brim 401, and the front observer 600 ) The left and right side magnification eyepieces 5 and 6 are configured in front of the eyes.

In the structure of FIG. 9, when a smartphone or a small image plate is mounted in the mounting groove 1, the image of the imaging device is reflected from the first reflector 12 and then reflected again from the second reflector 13, and left and right side magnifications It is enlarged in one direction by the first prism 2 and the second prism 3 by the eyepiece 5.6, and enlarged by each magnifying lens 1.

The structure of FIG. 9 may be used as the hat brim 401 itself or may be used in combination with the helmet 402 structure.

In addition, when the second reflector 13 is replaced with a translucent mirror 13a, there is an advantage in that an image of a small image plate and an external image can be viewed at the same time.

This structure allows viewing of a 3D image while both hands are free.

Therefore, the structure of the present invention is restored by the left and right side magnification eyepieces 5 and 6 in which the first prism 2 and the second prism 3 are combined with the left and right magnifying lenses 1, respectively. As in the above embodiment, the focal length is fixed when used, and when portable, it can be folded and used in a thin film structure, so it can be used for various purposes such as video viewing, games, sports relaying, and stereoscopic image observation using a smartphone or the like.

1. Magnifying lens 1a. Left eye magnifying lens 1b. Right eye magnifying lens
2. 1st prism 3. 2nd prism 4. Eyepiece case
5. Left-hand magnification eyepiece 6. Right-hand magnification eyepiece 7. Mounting holder
8. Lens plate 200. Small image plate 300. Case ∠a: right angle

Claims (6)

delete delete delete delete In a stereoscopic device that enlarges and views images for three-dimensional left and right eyes on a small image board of a mobile phone, tablet PC, or smartphone.
A left side magnification eyepiece 5 configured by combining the first prism 2 and the second prism 3 with the magnifying lens 1; and
The right-side magnification eyepiece 6 configured in the same manner as the left-hand magnification eyepiece 5; And
A lens plate 8 including the left and right side magnification eyepieces 5 and 6; and
Mounting holder 7 provided at the focal length position of the left and right side magnification eyepieces 5 and 6; And
The structure of the small image plate 200 that is inserted and detached in the mounting holder 7
It is composed on the top and bottom of the hat brim 401, but
A mounting holder 7 for mounting the first reflector 12 and the small image plate 200 is formed on the top of the hat brim 401, and
A single magnification eyepiece comprising a lens plate 8 provided with the left and right single magnification eyepieces 5 and 6 in the lower part of the hat brim 401 and a second reflector 13 on the front side thereof. Stereoscopic device combined with a lens The method of claim 5
A stereoscopic apparatus combined with a single magnification eyepiece, characterized in that the structure of the second reflector 13 is provided as a translucent mirror 13a

Images