KR940006183B1 - Adaptor of vcr camera for solid photographing - Google Patents

Abstract

an optical system including first and second field lenses for concentrating light passing through right and left object lenses, right and left polarizing plates for passing through or cutting off the light concentrated in the field lenses, first to fourth polarizing prisms for changing a path of the light transmitting the right and left polarizing plates and a focalize lens for transmitting the changed path to a camera lens; and a controller for alternatively switching the right and left polarizing plates, thereby stereoscopically photographing images using a camera lens of a wide angle.

Description

Adapter of V-Cal camera for stereoscopic photography

1 is a principle diagram of a general VR camera.

2 is a block diagram of the adapter of the VR camera for stereoscopic imaging of the present invention.

3 (a), 3 (b), 3 (c) and 3 (d) are perspective, plan, side and front views of the polarizing prism of the present invention.

4 is a detailed configuration diagram of the control unit of the present invention.

5 is an explanatory diagram of a state in which the adapter of the present invention is connected to a VRC camera.

6 is an explanatory diagram of the optical system of the present invention.

* Explanation of symbols for main parts of the drawings

1: Camera lens 2: Image scanner

3: signal processor 4, 5, 14, 24: polarization prism

6: apocalypse lens 7: control unit

8 optical system 9 common optical system

11, 21: objective lens 12, 22: field lens

13, 23: right and left polarizer plate 15: right optical system

25: left optical system 41, 42: interface

71: differential circuit 72: diode

73: waveform shaping portion 74: flip-flop

75, 76: polarizer plate driver

The present invention relates to an adapter capable of capturing a stereoscopic image with a general VR camera, and more particularly, to an adapter of a stereo camera for a stereoscopic photographing camera capable of maintaining a vision even in a camera using a wide angle camera lens.

Generally, as shown in FIG. 1, the optical system principle of the VRC camera is an image obtained through the signal processing unit 3 after the light beam from the non-axis point passing through the camera lens 1 passes through the image scanner 2. A signal was formed.

However, in this case, since only the image viewed from one position is obtained, stereoscopic imaging is not possible. On the other hand, the zoom lens is adopted as a general video camera lens. When the lens is operated at a wide angle, even a parallel beam having a larger slope is formed on the image scanner 2 so that stereoscopic imaging cannot be performed. there was.

In view of such a conventional deficiency, the present invention not only enables stereoscopic imaging with a general V-Cal camera, but also creates an adapter for a stereoscopic V-Cal camera capable of stereoscopic imaging even with a camera using a wide-angle lens. This will be described with reference to the accompanying drawings.

2 is a block diagram of the adapter of the VR camera for stereoscopic photographing according to the present invention. As shown therein, the left side of the objective lens 21, the field lens 22, the left polarizer plate 23, and the polarizing prism 24 is shown. Optical system 25, right lens system 15 of objective lens 11, field lens 12, right polarizer plate 13, polarizing prism 14, polarizing prism 4, 5, apo The optical system 8 is formed with a common optical system 9 made of an afocalize lens 6, and is driven by a vertical synchronization signal to control the left and right polarizing plates 23 and 13 to perform stereoscopic imaging. The reference numerals 41 and 42 denote the interface between the polarization prisms 14 (4) and 24.

3 (a) to 3 (d) show a perspective view, a plan view, a side view, and a front view of the polarizing prism 4, 5, 14, and 24 of the present invention. Fig. 3 (b) shows a plan view, Fig. 3 (c) shows a side view, and Fig. 3 (d) shows a front view.

), (Q) 신호에 따라 편광체판 드라이버(75)(76)에서 상기 좌, 우측 편광체판(23)(13)를 제어하게 구성한 것으로, 상기 플립플롭(74)은 T 플립플롭이다.4 is a detailed configuration diagram of the controller 7 of the present invention, as shown in FIG. 4, in which the vertical synchronization signal is changed into a pulse through the differential circuit 71, the diode 72, and the waveform shaping unit 73 to flip the flip-flop. To the 74 as a clock signal, and the output terminal of this flip-flop 74

The left and right polarizer plates 23 and 13 are controlled by the polarizer plate drivers 75 and 76 according to the (Q) and (Q) signals, and the flip-flop 74 is a T flip-flop.

5 is an explanatory diagram of a state in which an adapter of the present invention is connected to a VRC camera. As shown in FIG. 5, light beams passing through the camera lens 1 are applied to the signal processor 3 through the image scanner 2. In the VR camera which extracts the video signal, the optical system 8 is provided in front of the camera lens 1, and the vertical synchronization signal extracted from the signal processing unit 3 is controlled by the control unit 7. Is applied to the left and right polarizer plates 23 and 13 by the control unit 7.

Referring to the effects of the present invention configured as described above in detail.

When the stereoscopic adapter is connected to a general VR camera as shown in FIG. 5, light passing through the objective lenses 11 and 21 is incident in all directions through the field lenses 12 and 22. The right and left polarizer plates 13 and 23 are transferred to the right polarizer plates 13 and 23. In this case, the right and left polarizer plates 13 and 23 block light when a low potential is input from the controller 7, and a high potential is input. TM and TE polarized light is passed through each polarizing prism (14, 24).

Here, the light transmitted to and passed through the polarizing prisms 14 and 24 passes through the polarizing prisms 24, 5, 14 and 4 as shown in FIG. It is reflected and moved in the path of D → E.

By the way, here the interface 41 of the polarization prism 14 (4) is coated so that TM polarization is transmitted, and TE polarization is reflected, and the interface 42 of the polarization prism 24 (4) reflects TM polarization TE polarized light is coated to transmit.

Accordingly, TM polarized light passing through the polarization prism 14 is reflected by the interface 42 irrespective of the presence of the interface 41 and then input to the apocalase reds 6 through the polarization prism 5, The TE polarized light passing through the polarizing prism 24 is input to the apocalize lens 6 via the boundary 41 and the polarizing prism 5 regardless of the existence of the boundary 42.

At this time, the apocalypse lens 6 is the objective lens (11) (21), by making the incident parallel light back to parallel light so that the camera lens (1) at the rear end normally forms an image on the image scanner (2). A simple illustration of its optical system function is shown in FIG.

That is, as the two focal lengths of the objective lenses 11 and 21 and the apocalypse lens 6 are the same, the incident parallel rays are formed into the internal image through the objective lenses 11 and 21, and the internal image is The light is converted into parallel light through the apocalase lens 6 and is incident on the camera lens 1.

Here, the light beams (a) and (b) pass through the objective lenses 11 and 21 and the apocalase lens 6, and are then flipped over, where the flip is the polarization prism (4) (5) (14) (24). Compensated by flipping over at

의 방향의 광선이 편광프리즘(14)(24)(5)(4)를 통해

방향의 광선으로 바뀌게 되는 것이다.In other words,

Ray of light through the polarization prism 14 (24) (5) (4)

It turns into a ray of direction.

On the other hand, the control unit 7 controls the right and left polarizer plates 13 and 23 so as to alternate between fields one by one, and to obtain images viewed from the right and left sides of the imaging device such as a charge coupled device (CCD). In this case, since the photoelectrons generated in the photosensor are transmitted simultaneously when the vertical synchronous signal is applied, the light incident to the right side is switched at the front end of the vertical synchronous signal.

Accordingly, the vertical synchronization signal extracted from the signal processing unit 3 is differentiated through the differential circuit 71, is converted into a pulse through the diode 72 and the waveform shaping unit 73, and then supplied to the flip-flop 74 as a clock signal. do.

) 신호가 각각의 편광체판 드라이버(76)(75)를 통해 우, 좌측 편광체판(13)(23)의 온/오프기능을 제어함으로써 좌, 우측에서 본 입체영상이 얻어지는 것이다.At this time, the output terminal Q of the flip-flop 74 (

) Is obtained by controlling the on / off function of the right and left polarizer plates 13 and 23 through the respective polarizer plate drivers 76 and 75.

Here, the objective lenses 11 and 12 and the apocalypse lens 6 serve to prevent light from being scattered even when shooting at a wide angle.

As described in detail above, the present invention forms an adapter for obtaining a stereoscopic image signal by switching the left and right polarizer plates, so that the stereoscopic image can be photographed with a general VR camera as well as a wide angle camera lens. In the camera using the three-dimensional shooting effect is possible.

Claims (3)

In the VR camera comprising an image scanner (2) for scanning the light incident through the camera lens (1) and a signal processor (3) for processing the output signal of the image scanner (2) and extracting an image signal, To alternately transmit and block the light formed in the field lenses 12 and 22 and the field lenses 12 and 22 to form light passing through the objective lenses 11 and 21 on the left. , Polarizing prisms 14, 24, 4, 5 to change the path of light transmitted through the left polarizing plate 13, 23, the right side of the left polarizing plate 13, 23 And an optical system 8 composed of an apocalypse lens 6 that transfers the path to the camera lens 1 and the vertical synchronization signal processed by the signal processor 3. The adapter of the VR camera for stereoscopic imaging, comprising a control unit 7 which alternately controls switching of the left polarizer plates 13 and 23. The polarizing prisms 14, 24, 4, and 5 are coated to reflect the light transmitted through the right and left polarizer plates 13 and 23, and reverse the path of the light incident by the coating. The adapter of the VR camera for stereoscopic photography, which is composed of a triangular prism. 3. The polarizing prism (14) according to claim 1 or 2, wherein the polarizing prisms (14, 24, 4, 5) are coated with a polarizing prism (14) and a left polarizing plate (23) coated to reflect polarized light transmitted through the right polarizing plate (13). And a polarizing prism 24 coated to reflect polarized light transmitted through the polarization prism, and polarizing prisms 4 and 5 reflecting the polarized light reflected from the polarizing prisms 14 and 24 toward the apocalize lens 6, Adapter of V-Cal for three-dimensional photography characterized in that it became.

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