KR20090011769U - By prism three dimensional video recording apparatus and camera that record the videos which can be watched without 3D glasses. - Google Patents

Abstract

The present invention provides an autostereoscopic stereoscopic image photographing apparatus and a stereoscopic imager for photographing stereoscopic images that can be viewed without using stereoscopic glasses. That is, a three-dimensional image photographing device coupled to the camera body having an objective lens, and reproduces in a conventional general conventional manner without a three-dimensional glasses to take a three-dimensional image that can be seen with only one eye and a prism axis as a three-dimensional imager including the device A motor; A first total reflection rectangular prism for reflecting light incident on the prism axis motor by making the oblique planes of the two total reflection rectangular prisms to be horizontal to each other in contact with the rectangular planes of the other total reflection rectangular prisms; A perpendicular plane is horizontally coupled to the prism axis of the prism shaft motor and is rotated in parallel with the prism shaft motor, and the other perpendicular plane is in contact with the right angle plane of the first totally perpendicular rectangular prism, and the oblique planes of the two total reflection rectangular prism are A second total right angle prism coupled to the horizontal so that the first total right angle prism is rotated in parallel, and receives the light reflected from the first total angle right angle prism and reflects the light back on the oblique plane to enter the objective lens; A connecting portion detachably connecting the prism shaft motor to the objective lens; The present invention relates to a stereoscopic image photographing apparatus comprising a housing for detachably connecting the prism shaft motor and the camera body, and a stereoscopic image photographing apparatus including the stereoscopic image photographing apparatus.

According to the stereoscopic image photographing apparatus and the stereoscopic image photographing apparatus using the prism according to the present invention, not only the clear and precise stereoscopic image of the auto glasses type can be seen with the naked eye, but also the solid, practical, and convenient state can be photographed in a special display means. 3D images can be easily viewed according to the existing method without the need for a method. That is, according to the present invention, by using a prism that is a three-dimensional shape, it is possible to increase the three-dimensional feeling and image quality of the three-dimensional image due to the stable and continuous maintenance of the required reflection angle, and the three-dimensional image photographing device and the three-dimensional image with robustness, durability and convenience It is effective to provide a camera.

3D image taking device using prism, 1st total right angle prism, 2nd total angle rectangular prism, prism axis motor, prism axis, camera body, objective lens

Description

Free prism, three dimensional video recording apparatus and camera that record the videos which can be watched without 3D glasses.}

The present invention relates to a stereoscopic image photographing apparatus and a stereoscopic imager that can be seen without a three-dimensional glasses using a prism, specifically, using a three-dimensional glasses or a prism that replaces the hollow axis of the hollow shaft motor with the total reflection rectangular prism A stereoscopic imaging device and a stereoscopic imager that can be seen with the naked eye and even with only one eye without the need for other tools.

The conventional stereoscopic image capturing apparatus or the stereoscopic image photographed by the camera was mainly a stereoscopic image capturing apparatus or a reflector according to the reflector, but this is due to the distance between the first reflector and the second reflector and the problem of magnification and angle of view and the reflector. Due to the distortion or non-solidity problems, the reflector is bent or deformed due to external impact, force, or shake, etc., resulting in weakness in durability and poor quality as well as problems in stereoscopic imaging.

In addition, in the stereoscopic imaging apparatus and the imager using the conventional hollow motor, when the image passing through the length due to the length of the hollow shaft, there was a problem of narrowing the angle of view so as to prevent the wall of the passage is caught in the image.

The present invention is designed to solve the above-described problems of the prior art, while complementing the problems of the reflector and the hollow shaft while providing a three-dimensional image photographing effect that can be seen with the naked eye, and a three-dimensional image photographing apparatus and stereoscopic having excellent image quality, durability, and convenience. It is an object to provide an imager.

Conventional shooting for stereoscopic images is mainly done by reflectors, but due to the characteristics of the reflectors being flat, problems such as horizontal deformation and weakness of external shocks can cause the precision and clarity of the stereoscopic images or the quality of stereoscopic images to be degraded. Stable parallelism, precision, robustness and convenience were needed. In addition, the conventional stereoscopic imaging apparatus and the camera have a wide range of limitations in view angle due to the space equal to the distance between the first reflecting mirror and the second reflecting mirror. It is an object of the present invention to provide a stereoscopic image recording device and a stereoscopic imager.

The present invention improves the quality and convenience of shooting and durability by using a prism having a three-dimensional shape rather than a flat surface to solve the above problems. Specifically, by shooting a three-dimensional image through the total reflection rectangular prism not only plays a role of the first reflecting mirror and the second reflecting mirror, but also the total reflection of the three-dimensional form of the separation space that the conventional first reflecting mirror and the second reflecting mirror must have in structure. The rectangular prism solves the problem as far as the separation, and by using the three-dimensional shape of the rectangular prism, it maintains stable parallelism and reflection. Increase the robustness and durability of the reflector. Accordingly, the reflection plane may not be broken or distorted due to external impacts, and thus a clear three-dimensional image may be captured. In particular, since the coating for total reflection is applied to the inclined surface, which is the reflective surface of the total reflection rectangular prism, the reflectance of the rectangular prism is close to 100%.

According to the present invention, each perpendicular plane of the two total reflection rectangular prisms is brought into contact with each other, and the other rectangular plane of the first rectangular prism faces the subject, and the other rectangular plane of the second rectangular prism faces the objective lens, Since the total reflection rectangular prism is rotated 360 degrees by the prism axis, the total reflection rectangular prism and the image of the subject coming through the prism axis are continuously photographed, and thus the space between the first hollow mirror and the second reflecting mirror is spaced. It is characterized by taking a three-dimensional image while solving the problem of the angle of view due to the occupied length by the total reflection rectangular prism and the prism motor axis.

The present invention does not rely only on the conventional connecting means, but complements the problems of the conventional connecting portion through the new connecting means. That is, in addition to the conventional connection method, the three-dimensional image recording device is connected to the camera body by using a housing (frame) that covers the entire body of the camera except for the operation part for operating the camera to capture the three-dimensional image. It is characterized in that the imaging device is designed to solve the problem of preventing the balance and stable shooting due to deviation or weight.

The present invention uses a prism that is a three-dimensional shape, so that the stable and continuous maintenance of the necessary reflection angle can increase the stereoscopic feeling and image quality of the stereoscopic image, and provide a stereoscopic image photographing device and a stereoscopic imager having robustness, durability, and convenience. This is possible.

In addition, since the prism fills the space between the two reflecting mirrors and the hollow shaft length at a ratio of 1: 1, the angle of incidence of the image between the reflecting mirrors and the hollow shaft is maintained to be the same. This solves the problem of the angle of view that occurs due to the wider angle than in the conventional to enable the shooting of the image.

The inside of the hollow shaft portion and the two conventional reflectors are filled with the total reflection rectangular prism and the prism axis, so that the image of the image due to foreign matter migration or air convection can be seen without any shaking.

The present invention encloses the body of the camera body except the operation part for camera shooting as well as the conventional method of connecting the three-dimensional image recording device and the camera in a housing (frame), the housing (frame) and the three-dimensional image recording device is integrated Since it is connected so as to be fastened to the device, it is designed so that the stereoscopic imaging apparatus is not separated from the camera body due to impact or weight during use.

In other words, through the housing (frame) that can cover other surfaces except the control part for controlling the camera (camera), the three-dimensional image recording device can not fall to the weight or stable three-dimensional through the safe and balanced combination It is designed to withstand the weight and external shock of the stereoscopic imaging device itself so as not to interfere with the shooting of the image.

Therefore, the whole part of the camera except for the operation of the frame is framed (framed) around the three-dimensional image recording device to fasten the problem of the conventional fastening that was dependent only on the camera lens, so the fastening is robust and convenient to use. Do.

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

As shown in FIG. 1, the stereoscopic image photographing apparatus 20 coupled to the objective lens 51 of the camera body 71 and photographing a stereoscopic image according to the present invention is configured to form an incident path of light L. And a first totally rectangular rectangular prism 11 and a second total rectangular rectangular prism 12 and a prism shaft motor 21.

When the prism shaft motor 21 is rotated, the first totally rectangular right prism 11 and the second totally rectangular right prism 12 are in contact with each other such that the inclined surfaces 17 and 18 of the two totally rectangular right prism are kept in parallel with each other (16). It rotates 360 degrees toward the front to form an incident path of the light (L). That is, the incident light L is reflected by the inclined surface 17 of the first totally rectangular right prism 11, and then reflected by the inclined surface 18 of the second totally rectangular right prism 12, and thus, of the camera body 71. The objective lens 51 is directed.

2 is a view in which the first totally rectangular right prism 11 and the second totally rectangular right prism 12 are in contact with the pair 10. As shown in this figure, two total reflection rectangular prisms are paired 10, one of which faces 14 at right angles of the first total reflection rectangular prism faces the subject in front and the other surface 16 Is in contact with the same orthogonal plane 16 of the second totally rectangular right prism. One of the two orthogonal faces 16 of the second totally rectangular right prism 12 is in contact with the same orthogonal right face 16 of the first totally rectangular right prism 12 and the other right angled face 15 faces horizontally to the objective lens 51. The prism shaft 13 is in contact with the prism shaft motor 21. Therefore, the two oblique planes 17 and 18 of the first totally rectangular right prism 11 and the second totally rectangular right prism 12 are horizontal to each other and are not in contact with any surface. On each inclined plane (17, 18) of the first totally rectangular right prism (11) and the second totally rectangular right prism (12) to assist total reflection at the oblique planes of the first totally rectangular right prism (11) and the second totally rectangular right prism (12). Total reflection coating is possible for 100% reflection.

In the stereoscopic image photographing apparatus 20, the connection between the first totally rectangular right prism 11 and the second totally rectangular right prism 12 may be combined by a casing 19, and the first totally rectangular right prism 11 and the second total reflection Fig. 3 shows the respective triangular portions 73 and 74 which are the upper 73 and lower 74 portions, except for the two rectangular faces 14, 15 and 16 and the oblique faces 17 and 18 of the rectangular prism 12, respectively. As in 7, it may be connected to the adhesive plates (73, 74). Furthermore, it can adhere | attach by ultraviolet hardening point.

The second totally rectangular prism 12 is connected to the prism shaft 13 of the prism shaft motor 21 by the connecting portion 22, and the objective lens of the prism shaft motor 21 and the camera body 71 is connected. The connection with the 51 is also connected by the connecting portion 23.

Specifically, the objective lens 51 portion of the ordinary camera body 71 has an internal diameter of a female screw type, and a valley is formed to be mounted by screwing. Therefore, the connector 23 is screwed into the valley, and then the prism shaft motor 21 is filled in the valley of the connector 23 again.

In addition, the pair of prisms of the first totally rectangular rectangular prism and the second total rectangular rectangular prism are connected to the prism axis 13 of the prism shaft motor 21 by the connecting portion 22. At this time, the coupling structure of the connecting portion 22 may be provided by a screw type or a bonding type. Alternatively, the second totally rectangular rectangular prism 12 and the prism shaft 13 of the prism shaft motor 21 may be integrally manufactured to provide the second total rectangular rectangular prism 12 and the prism shaft 13 as one.

That is, the second total reflection rectangular prism 12 and the prism shaft 13 can be provided integrally, and can be connected through the housing 72 casing the connection between the prism shaft motor 21 and the camera body 71. A stereoscopic image photographing device can be provided.

Prism shaft drive means in the present invention can be applied to the forward and reverse rotation controllable motor.

Since the camera body 71 and the objective lens 51 mean a conventional camera and an objective lens, the description of the camera body 71 and the objective lens 51 will be omitted.

Hereinafter, the operation of the stereoscopic image photographing apparatus 20 using the prism of the present invention will be described in detail.

According to the present invention, when the prism axis 13 of the prism shaft motor 21 starts to rotate for capturing a stereoscopic image, the first totally rectangular right prism 11 and the second totally rectangular right prism coupled to the prism axis at the same time ( 12, the light incident on the first totally rectangular right prism 11 and the second totally rectangular right prism 12 is rotated on the inclined surface 17 of the first totally rectangular right prism 11 and the second totally rectangular right prism 12. 18 is incident on the objective lens 51 and photographed.

The first totally rectangular right prism 11 and the second totally rectangular right prism 12 are perpendicular to the first general right rectangular prism 11 facing forward when the prism axis 13 of the prism shaft motor 21 rotates. 14) and the right-angled surface 15 of the second totally rectangular right prism 12 facing the lens 51 are continuously rotated forward by 360 degrees along the direction in which the prism axis of the prism axis motor 21 rotates. The image L of the subject coming into the light enters the right angle plane 14 of the first total right angle prism 11 and then is reflected from the oblique plane 17 of the first total angle right prism 11 to be reflected by the second total right angle prism 12. And incident light L is reflected from the oblique surface 18 of the second totally rectangular right prism 12 to pass through the right angle 15 of the second totally rectangular right prism 12 to enter the objective lens 51. Since images from various directions are taken continuously, images of one subject are taken in three dimensions.

Although the embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and various modifications are possible within the spirit and scope thereof.

The stereoscopic imager 80 which manufactures the stereoscopic image capturing apparatus 20 and the camera body 71 integrally also corresponds to the idea of the present invention, and the above description is a stereoscopic image integrally containing the stereoscopic image capturing apparatus 20. Since it is applied to the imager 80 as it is, it is replaced by the above description.

The stereoscopic imaging apparatus and the stereoscopic imager using the first totally rectangular right prism 11 and the second totally rectangular right prism 12 and using a hollow shaft motor instead of the prism shaft motor 21 also fall under the spirit of the present invention. Since the hollow side is used instead of the axis, the above description is also applied to the stereoscopic imager and the stereoscopic imager using the hollow shaft motor instead of the first totally rectangular prism 11 and the second totally rectangular prism 12 and the prism shaft motor. Replace with the above description.

In addition, since the idea of the present invention is applied to the stereoscopic image photographing apparatus of FIG. 3 and the stereoscopic image photographing apparatus including the same using the prism and the general motor 21 ′, it is replaced with the above description.

3 and 4, the bearing 42 is embedded in the rotating plate 40 so that the rotating ring 41 of the rotating plate 40 is rotated by the rotating belt 45 connected to the rotating shaft 46 of the motor 21 '. The rotation ring 41, the first totally rectangular right prism 11 and the second totally rectangular right prism 12 are in contact with each other so that they can rotate at the same time. In addition, the rotating plate 40 is connected to the objective lens 51 by the rotating plate connecting ring 43 and also to the housing 72 by the connecting screw 44. 3 also shows that motor 21 ′ is connected 47 to housing 72.

As described above, according to the stereoscopic image photographing apparatus and the stereoscopic image photographing apparatus using the prism according to the present invention, not only the eyeglasses can see the clear and precise stereoscopic images with naked eyes, but also the solid, practical and convenient handling. There is no need for a special display means or methods, it is easy to see the three-dimensional image according to the existing method. In addition, it is possible to take a three-dimensional image by attaching and detaching the existing general camera.

According to the present invention, when the total reflection rectangular prism is used, the reflection angle can be prevented from being deformed by external impact or force when carrying or moving, so that it is convenient to handle and easy to photograph three-dimensional images. In addition, if the prism is used as the axis of the motor and the prism axis and the second total reflection rectangular prism are provided integrally and used as one, the availability and convenience are further amplified.

1 is a view schematically showing a state in which a stereoscopic image photographing apparatus using a prism is coupled to a camera according to an embodiment of the present invention;

2 is a perspective view of a prism in which a first totally rectangular rectangular prism and a second total rectangular rectangular prism are in contact with each other and formed as a pair;

3 is a view schematically showing a state in which a stereoscopic image photographing apparatus using a prism and a general motor is coupled to a camera according to an embodiment of the present invention;

4 shows the rotating plate of FIG. 3 showing the rotating ring and the bearing, the connecting ring, the connecting screw and the prism axis in detail.

5 is a schematic state diagram of a stereoscopic imager including a stereoscopic image recording apparatus using a prism according to an embodiment of the present invention

6 is a perspective view showing right angled surfaces of a first totally rectangular right prism and a second totally rectangular right prism;

7 is a perspective view illustrating a connecting plate connecting the first totally rectangular right prism and the second totally rectangular right prism;

FIG. 8 is a perspective view showing a state of a perpendicular surface in which the first totally rectangular right prism and the second totally rectangular right prism are in contact with each other; FIG.

Claims (26)

Combined with a camera body with an objective lens, it is an image capture device that captures stereoscopic images that can be viewed with only one eye by playing in a conventional general manner without stereoscopic glasses. Prism shaft motor; A first total reflection rectangular prism that reflects light incident on the prism axis motor from the oblique plane by making the oblique planes of the two total reflection rectangular prisms to be horizontal to each other in contact with the rectangular planes of the other total reflection rectangular prisms; A perpendicular plane is horizontally coupled to the prism axis of the prism shaft motor to be rotated in parallel with the prism shaft motor, and the other perpendicular plane is in contact with the perpendicular plane of the first totally perpendicular rectangular prism, so that the oblique planes of the two total reflection rectangular prisms are mutually different. A second total right angle prism coupled to be horizontal so that the first total angle rectangular prism is rotated in parallel, and receives light reflected from the first total angle rectangular prism and reflects the light back on the oblique plane to be incident on the objective lens; A connecting portion detachably connecting the prism shaft motor to the objective lens; And a housing for detachably connecting the prism shaft motor and the camera body. The stereoscopic image photographing according to claim 1, wherein a total reflection coating is applied to the inclined surfaces of the first and second total rectangular prisms to assist the total reflection of the first and second rectangular prisms. Device. The stereoscopic image photographing apparatus of claim 1, further comprising a connecting portion connecting the first totally rectangular rectangular prism and the second total rectangular rectangular prism to the prism axis of the prism shaft motor. The stereoscopic image photographing apparatus according to claim 1, wherein the prism axis of the prism axis motor and the second totally rectangular right prism are integrally formed as one prism. The stereoscopic image photographing apparatus of claim 1, wherein the prism shaft motor is a motor capable of forward and reverse rotation. It is a stereoscopic imager that reproduces the stereoscopic image which can be seen with only one eye by playing in the conventional general method without stereoscopic glasses. A camera body having an objective lens; Prism Shaft Morty; A first total reflection rectangular prism that reflects light incident on the prism axis motor from the oblique plane by making the oblique planes of the two total reflection rectangular prisms to be horizontal to each other in contact with the rectangular planes of the other total reflection rectangular prisms; A perpendicular plane is horizontally coupled to the prism axis of the prism shaft motor to be rotated in parallel with the prism shaft motor, and the other perpendicular plane is in contact with the perpendicular plane of the first totally perpendicular rectangular prism, so that the oblique planes of the two total reflection rectangular prisms are mutually different. A second total right angle prism coupled to the horizontal so that the first total right angle prism is rotated in coordination, and receives light reflected from the first total angle right angle prism and reflects back from the oblique plane to be incident on the objective lens; And a coupling means for coupling the prism shaft motor to the objective lens. 7. The stereoscopic image photographing apparatus according to claim 6, wherein a total reflection coating is applied to the inclined surfaces of the first and second rectangular prism in order to assist the total reflection of the first and second rectangular prisms. The stereoscopic imager according to claim 6, further comprising coupling means for coupling the first totally rectangular rectangular prism and the second total rectangular rectangular prism to the prism axis of the prism shaft motor. The stereoscopic image photographing apparatus according to claim 6, wherein the prism axis of the prism axis motor and the second totally rectangular right prism are integrally formed as one prism. The stereoscopic imager according to claim 6, wherein the prism shaft motor is a motor capable of forward and reverse rotation. Combined with a camera body having an objective lens, it is a stereoscopic image photographing device that captures a stereoscopic image that can be seen with only one eye by playing in a conventional general manner without stereoscopic glasses, A hollow motor including a hollow rotor functioning as an incident path of light; A first total reflection rectangular prism for reflecting light incident on the hollow motor from the oblique plane by making the oblique planes of the two total reflection rectangular prisms to be horizontal to each other in contact with the other total reflection rectangular prisms; The perpendicular axis is horizontally coupled to the hollow lens of the hollow motor and is rotated in parallel with the hollow motor, and the other perpendicular plane is in contact with the rectangular plane of the first totally rectangular rectangular prism, so that the oblique planes of the two totally rectangular rectangular prisms are horizontal to each other. A second total right angle prism coupled to the first total right angle prism so as to rotate in parallel, and receiving light reflected from the first total angle right angle prism and reflecting the light on the oblique plane to be incident on the objective lens; A connecting part detachably connecting the hollow motor to the objective lens; And a housing for detachably connecting the hollow motor and the camera body. 12. The stereoscopic image photographing according to claim 11, wherein a total reflection coating is applied to the inclined surfaces of the first and second total rectangular prisms to assist the total reflection of the first and second rectangular prisms. Device. 12. The stereoscopic image photographing apparatus according to claim 11, further comprising a connecting portion connecting the first totally rectangular rectangular prism and the second total rectangular rectangular prism to the hollow shaft of the hollow motor. 12. The stereoscopic image photographing apparatus according to claim 11, wherein the hollow motor is a motor capable of forward and reverse rotation. It is a stereoscopic imager that reproduces the stereoscopic image which can be seen with only one eye by playing in the conventional general method without stereoscopic glasses. A camera body having an objective lens; A hollow motor including a hollow rotor functioning as an incident path of light; A first total reflection rectangular prism for reflecting light incident on the hollow motor from the oblique plane by making the oblique planes of the two total reflection rectangular prisms to be horizontal to each other in contact with the rectangular planes of the other total reflection rectangular prisms; The perpendicular axis is horizontally coupled to the hollow lens of the hollow motor and is rotated in parallel with the hollow motor, and the other perpendicular plane is in contact with the rectangular plane of the first totally rectangular rectangular prism, so that the oblique planes of the two totally rectangular rectangular prisms are horizontal to each other. A second total right angle prism coupled to the first total right angle prism so as to rotate in rotation, and receiving the light reflected from the first total angle right angle prism and reflecting the light back on the oblique plane to enter the objective lens; And a coupling means for coupling the hollow motor to the objective lens. 16. The stereoscopic image photographing apparatus according to claim 15, wherein a total reflection coating is applied to the inclined surfaces of the first and second rectangular prism to assist the total reflection of the first and second rectangular prisms. The stereoscopic image photographing apparatus according to claim 15, further comprising coupling means for coupling the first totally rectangular rectangular prism and the second total rectangular rectangular prism to the hollow shaft of the hollow motor. The stereoscopic imager according to claim 15, wherein the hollow motor is a motor capable of forward and reverse rotation. Combined with a camera body having an objective lens, it is a stereoscopic image photographing device that captures a stereoscopic image that can be seen with only one eye by playing in a conventional general manner without stereoscopic glasses, A motor; A rotating plate including a rotating ring rotating in front of the objective lens by the motor, and a bearing and a connecting ring; A prism axis; A first total reflection rectangular prism for reflecting light incident on the camera from the oblique plane by making the oblique planes of the two total reflection rectangular prisms to be horizontal to each other in contact with the rectangular planes of the other total reflection rectangular prisms; The right angled surface is horizontally coupled to the rotation lens of the rotating plate to rotate in parallel with the rotating ring of the rotating plate, and the other right angled surface is in contact with the right angled surface of the first totally perpendicular rectangular prism, and the inclined surfaces of the two totally perpendicular rectangular prism are horizontal to each other. A second total right angle prism coupled to the first total right angle rectangular prism so as to be rotated in parallel, and receiving light reflected from the first total angle rectangular prism and reflecting the light back on the oblique plane to enter the objective lens; A rotating belt which transmits power of the motor to the rotating plate; A connection part for detachably connecting the rotating plate to the objective lens; And a housing for detachably connecting the motor, the rotating plate, and the camera body. 20. The stereoscopic image photographing apparatus according to claim 19, wherein a total reflection coating is applied to the inclined surfaces of the first and second totally rectangular prisms to assist the total reflection of the first and second totally rectangular prisms. . The stereoscopic image photographing apparatus according to claim 19, further comprising a connecting portion connecting the first totally rectangular rectangular prism and the second total rectangular rectangular prism to the rotating ring of the rotating plate. The stereoscopic imaging apparatus according to claim 19, wherein the motor is a motor capable of forward and reverse rotation. It is a stereoscopic imager that reproduces the stereoscopic image which can be seen with only one eye by playing in the conventional general method without stereoscopic glasses. A camera body having an objective lens; A motor; A rotating plate including a rotating ring rotating in front of the objective lens by the motor, and a bearing and a connecting ring; A prism axis; A first total reflection rectangular prism for reflecting light incident on the camera from the oblique plane by making the oblique planes of the two total reflection rectangular prisms to be horizontal to each other in contact with the rectangular planes of the other total reflection rectangular prisms; A perpendicular surface is horizontally coupled to the rotating lens of the rotating plate to rotate in parallel with the rotating ring of the rotating plate, and the other perpendicular surface is in contact with the perpendicular surface of the first totally perpendicular rectangular prism, and the inclined surfaces of the two totally rectangular rectangular prism are mutually A second total right angle prism coupled to the horizontal so that the first total right angle prism is rotated in coordination, and receives light reflected from the first total angle right angle prism and reflects back from the oblique plane to be incident on the objective lens; A rotating belt which transmits power of the motor to the rotating plate; And a coupling means for coupling the rotating plate to the objective lens. 24. The stereoscopic image photographing apparatus according to claim 23, wherein a total reflection coating is applied to the inclined surfaces of the first and second rectangular prism to assist the total reflection of the first and second rectangular prisms. 24. The stereoscopic imager as claimed in claim 23, comprising coupling means for coupling the first totally rectangular rectangular prism and the second total rectangular rectangular prism to the rotating ring of the rotating plate. The stereoscopic imager according to claim 23, wherein the motor is a motor capable of forward and reverse rotation.

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