RU42335U1 - STEREOSCOPIC PHOTO APPARATUS - Google Patents

Abstract

The utility model relates to the field of stereoscopy, namely, to the technique for obtaining and reproducing stereoscopic images. A stereoscopic camera containing two cameras identical in characteristics, placed next to each other on a horizontal platform so that their rear walls are located in the same vertical plane, and a camera shutter synchronizer. The camera additionally contains a bracket and an optical unit with two optical elements, the distance between the optical axes of which is equal to the average value of the stereobasis of a person, and the cameras in the camera are made in the form of digital electronic cameras with color displays mounted in the rear walls of these cameras, while the platform is equipped with a through rectangular a hole made in its rear vertical face, the vertical axis of symmetry of which is located at the same distance from the vertical axes of symmetry of the displays, one end of the bracket is made with the possibility of placing and centering it in a rectangular opening of the platform with the possibility of providing a running fit, and an optical fiber is attached to the second end of the bracket block so that when the first end of the bracket is placed in the rectangular opening of the platform, the optical axes of the optical elements pass through the centers of the displays.

Description

The utility model relates to the field of stereoscopy, namely, to the technique of obtaining and reproducing stereoscopic images.

A well-known stereoscopic camera (Valius N.A. Stereoscopy. M .: Art. 1962, p.156-159) containing a film camera and a stereoscopic nozzle, which is located in front of the camera lens. The camera allows you to receive images of the left and right frames of a stereo pair on a single film frame, and after printing these frames on photo paper, observe with a stereoscope three-dimensional images of the subject.

The disadvantage of this camera is the need for photo printing stereo frames on photo paper, which requires significant material and time costs.

A stereoscopic camera is known (Cass K., Cass A. Practical stereo photography. - Minsk: Polyma 1987, p.22-25), containing two identical cameras according to their technical characteristics, placed next to each other on a horizontal platform so that their rear walls are located in one vertical plane, and the synchronizer of the shutters of the camera. The camera allows you to receive images of the left and right frames of a stereo pair on two separate photographic films, which, when printing, combine and form a stereo pair, and a stereoscope is used to examine the latter.

The disadvantage of this camera is the need for photo printing frames of a stereo pair and their combination, which requires significant material and time costs.

The objective of the proposed utility model is to simplify the technique of obtaining and observing stereoscopic images.

The technical result is the creation of a stereoscopic camera, which ensures the receipt and reproduction of a stereoscopic image without the use of complex and time-consuming procedures for the manifestation of film and photo printing frames of a stereo pair.

The technical result is achieved by the fact that a stereoscopic camera containing two identical cameras according to their characteristics, placed next to each other on a horizontal platform so that their rear walls are located in the same vertical plane, and the shutter synchronizer of the cameras, according to a utility model, further comprises an arm and an optical a unit with two optical elements, the distance between the optical axes of which is equal to the average value of the stereo base of a person, and the cameras in the camera made in the form of digital electronic cameras with color displays mounted on the rear walls of these cameras, while the platform is equipped with a through hole made in its rear vertical face, the vertical axis of symmetry of which is located at the same distance from the vertical axis of symmetry of the displays, one end of the bracket is made with the possibility of placing and centering it in a rectangular hole of the platform with the possibility of providing a landing fit, and optically attached to the second end of the bracket unit so that when fitting the first end of the arm in the rectangular opening platform optical axes of optical elements pass through the center of the display.

This design of a stereoscopic camera provides the simplicity of obtaining the left and right frames of a stereo pair, the possibility of observing them both during the shooting process and after it has finished, allows you to quickly receive a stereo image and eliminates the material and time costs of processing photo materials and the formation of stereo pairs.

Compared with the prototype of the claimed design has a distinctive feature in the combination of elements, their characteristics and relative positioning.

A diagram of a stereoscopic camera is shown in figure 1.

The stereoscopic camera contains two cameras, identical in technical characteristics, 1 and 2, placed next to each other on a horizontal platform 3 so that their rear walls 4 and 5 are located in the same vertical plane 6, and a shutter synchronizer 7 of the cameras. The stereoscopic camera further comprises a bracket 8 and an optical unit 9 with two optical elements 10 and 11, the distance l between the optical axes 12 and 13 of which is equal to the average stereo-base of the human eye. The cameras 1 and 2 in the camera are made in the form of digital electronic cameras with color displays 14 and 15 mounted in the rear walls 4 and 5 of the cameras 1 and 2. The platform 3 is equipped with a through rectangular hole 16 made in its rear vertical edge 17, the vertical axis of symmetry 18 which is located at the same distance from the vertical axis of symmetry 19 and 20 of the displays 14 and 15.

One end 21 of the bracket 8 is arranged to accommodate and center it in the rectangular hole 16 of the platform 3 with the possibility of a landing fit, and an optical unit 9 is attached to the second end 22 of the bracket 8 so that when placing the first end 21 of the bracket 8 in the rectangular hole 16 of the platform 3, the optical axes of the optical elements 10 and 11 pass through the centers 23 and 24 of the displays 14 and 15.

The optical unit 9 is mounted on the bracket 8 using the bracket 25. To fix the position of the bracket 8 in the hole 16 is a screw 26.

The operation of a stereoscopic camera is as follows.

Before using the stereoscopic camera when the electronic cameras 4 and 5 are turned on, the bracket 8 is moved in the rectangular hole 16 and observed by the left and right eyes through the optical elements 10 and 11 of the image on the displays 14 and 15. The best viewing position of the images displayed on the displays is achieved. Using the screw 26, the position of the bracket 8 is fixed in the hole of the platform 3, and with it the entire optical system relative to the displays 14 and 15. In this case, the optical axes 12 and 13 of the optical elements 10 and 11 are aligned with the centers 23 and 24 of the displays 14 and 15 .

The camera lenses are directed to the subject and to the optical elements 10 and 11 constituting the stereoscope, the left and right frames of the stereo pair on the displays 14 and 15 are observed, as well as the stereoscopic image of the objects being captured. After selecting the desired or best angle using the shutter synchronizer 7, cameras 4 and 5 are simultaneously shot. The left and right frames of the stereo pair are recorded on the displays of cameras 4 and 5. This information is recorded in the electronic memory of the cameras. Moreover, the obtained stereoscopic image can be observed immediately after shooting or at any time after it. In the latter case, images of the left and right frames of a stereo pair are called up from the electronic memory of cameras 4 and 5.

It has been experimentally established that a stereoscopic camera allows you to select the best angle of view of the subject in terms of the effect of volumetric vision and obtain stereoscopic images of both stationary and moving objects that are unattainable in quality for stereoscopic cameras that provide photo printing of stereo pair frames on photo paper.

The proposed stereoscopic camera combines two functions, namely, it provides shooting of objects and viewing images using optical elements that make up the stereoscope.

The advantages of the proposed device:

- simplicity of design;

- the ability to determine during shooting the angle that provides the best stereoscopic effect;

- low cost of reproducing stereoscopic images, which during operation of the device is determined by the cost of electric power sources. The proposed device can be implemented on the basis of any two electronic digital cameras equipped with color displays, which are currently widely produced by various companies, and a prism-lens stereoscope.

The device can be widely used in amateur photography practice.

Claims (1)

A stereoscopic camera containing two identical cameras according to their characteristics, placed next to each other on a horizontal platform so that their rear walls are located in the same vertical plane, and a shutter synchronizer for the cameras, characterized in that the camera further comprises a bracket and an optical unit with two optical elements whose distance between the optical axes is equal to the average value of the stereo basis of a person, and the cameras in the camera are made in the form of digital electron cameras with color displays mounted on the rear walls of these cameras, while the platform is equipped with a through hole made in its rear vertical face, the vertical axis of symmetry of which is located at the same distance from the vertical axis of symmetry of the displays, one end of the bracket is designed to accommodate and centering it in a rectangular hole of the platform with the possibility of providing a landing fit, and an optical unit is attached to the second end of the bracket so that when placing the first At the end of the bracket in the rectangular hole of the platform, the optical axes of the optical elements pass through the centers of the displays.