SU934436A1 - High-speed cine camera - Google Patents

Description

(54) HIGH SPEED FILM CAMERA

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The invention relates to motion picture technology, and more specifically to high-speed motion picture cameras with optical compensation of continuous motion of a film.

Optical circuits of high-speed film cameras are known, in which the compensating element of the continuous motion of the film is a rotating optical compensator mounted between the shooting lens and the exposed film G1.

In such schemes, the compensator is an posterior multifaceted prism or a complex optical system.

 Closest to the present invention, there is a high-speed movie camera comprising a shooting lens located along the optical axis, a multi-faceted compensator and a wrapping system of two G2 lenses.

The disadvantages of this camera are the large dimensions of the camera and the compensator, as well as the insufficiently high image quality due to the inconvenience of aberrations over the frame field introduced by the prism compensator.

The purpose of the invention is to reduce the size and image quality.

The target is achieved by inserting three fixed flat mirrors located behind the first lens of the wrapping system, the third mirror parallel, and the second perpendicular to the first mirror, and the distance between the second and third mirrors equal to the distance from the center of the compensator to the first mirror .

The entrance pupil of the imaging lens is located in its front focus, and the back focus of the first object of the inverting system is aligned with the front focus of the second lens.

The drawing shows the optical layout of a high-speed movie camera.

The camera contains a shooting lens I, a field diaphragm 2, a rotating multifaceted prism compensator 3, a first inverting lens 4, a fixed mirror 5-7, a second rotating lens 8, a film 9 and a film channel 10.

The optical scheme works as follows.

The shooting lens 1 builds an image of the object to be shot in the plane of the field diaphragm 2, located in the rear focal plane of the lens 1 and the front focal plane of the first objective 4 of the reversing system aligned with it. Further down, the beam of rays passes through the prism compensator for the first time and falls on the first lens of the inverting system. The parallel beam of light coming out of the lens 4 is successively reflected from the fixed mirrors 5-7 and falls on the second lens 8 of the wrapping system. Pass the lens 8 and the second time through the prism. A compensator 3, the beam of rays is focused in the rear focal plane of the lens 8, where film is located in the film channel 10. As the prism compensator rotates, it displaces the image by an amount equal to the movement of the film.

In order to provide the telecentric motion of the Main beam in the image space, the entrance pupil of the shooting lens 1 is located in its front focal plane, and the back focus of the first lens 4 of the reversing system is aligned with the front focus of its second lens 8,

Due to the double passage of the optical axis and the image-forming beam of rays through a rotating multifaceted prism compensator, this beam is subjected to the biasing action of the compensator twice. Due to this, the compensator size along the optical axis is halved.

The introduction of fixed mirrors into the optical scheme for breaking the optical axis also makes it possible to reduce the dimensions of the entire camera.

The use of the telecentric course of the main beam in the image space in the image space eliminates the inconvenience of aberrations across the entire FLOOR frame and improves the image quality.

Claims (2)

1. A speeding camera containing a shooting lens located along the optical axis, a multifaceted prism compensator and a wrapping system of two lenses, characterized in that, in order to reduce the size, three fixed flat mirrors located behind the first lens of the wrapping system are inserted. the third mirror is parallel, and the second is perpendicular to the first mirror, and the distance between the second and third mirrors is equal to the distance from the center of the compensator to the first mirror. 2. The camera according to claim 1, wherein That, in order to improve the image quality, the entrance pupil of a shooting lens is located in its front focus, and the back focus of the first lens of the wrapping system is aligned with the front focus of the second lens. Sources of information taken into account in the examination 1, Schepetkin Yu.P. Systems with prism optical alignment. Optical-mechanical industry 1975, no. 8, p. 72-77. 2. USSR author's certificate number 496528, cl. G 03 B 41/04, 1973 (prototype),