SU573790A1 - Telecentric objective - Google Patents

Description

The invention relates to optics and can be used as a lighting-wrapping system in small-sized projection devices, where the frame field is divided into a large number of elements. the back system and a positive component installed near the image plane, the fore focus of which falls from the six-lens system with the center of the exit pupil topics l. The closest in technical essence to the invention is a body with a telecentric ray path in the image space, containing three components, the first of which is a positive component consisting of two identical plano-convex lenses, facing in one direction, the back focus of which coincides with the center of the entrance pupil of the second component; the second component is a positive six-lens system, asymmetrical with respect to the diaphragm, and the third component is a negative meniscus, the concavity facing the second component 2. The lens works from a projection distance of 1 m, in one direction a pupil aligned with back focus (i.e., the negative focal length is negative) is inside the system, the relative aperture of the lens is It8.8, the aberration in the pupils is 10 mm. However, this object has a small luminosity and a large spherical ablation in the pupils. In addition, the distance between the plane of the object and the image plane is more than one meter; exit pupil of the markings inside the lens. This prevents the lens from being used as the lighting part of small-sized projection systems where a large luminosity is required, the small distance between the plane of the object and the image and the entrance pupil must be moved beyond the limits of the system. The purpose of the invention is (reduction of the projection distance and impingement of the exit pupil beyond the image plane with simultaneous increase in the relative aperture and correction of the spherical pupil.

The goal is achieved by the fact that in a telecentric lens containing three components, the first of which includes two single identical lenses and the specified focus of which coincides with the entrance pupil of the second component / the first component is equipped with a positive, meniscus mounted behind the positive lens, The flat convex lenses are facing each other, the second component is made of two groups of lenses that are silometric with respect to the diaphragm, each of which consists of positive and negative single menisci with the concavity facing the diaphragm; the third component consists of three single positive meniscules, of which the first and the third are the same and convexity facing each other, and the second concavity the first component and the first and third meniscus of the third component are made in the form of parabolas, and the focal distances of the components; Refer as 6: 2.55: 1.

The drawing shows a schematic diagram of the lens.

The lens consists of three components 1,2 and 3. The first component 1 contains two identical plane-convex lenses 4 and 5 and meniscus 6; the second component 2 contains four 7 10 menisci located symmetrically with respect to the diaphragm 11, of which two are positive 7 and 10 and two are negative 8 and 9; the third component 3 contains three positive meniscus 12, 13 and 14, and the menisci 12 and 13 are the same.

A pre-lens with this lens allows you to place the plane of objects 15 on the first surface of lens 4 and get the image plane 16 near the last surface of the lens. A parallel beam of light in the object's space is collected first in the entrance pupil of component 2, and then is transferred by the third component 3 to the back focal plane of the entire system,; which is located the exit pupil 17.

The lens can be used as a lighting part in a small-sized projection device with a frame plane located in the image plane.

A distinctive feature of such a device is that the frame is divided into a large number of elements that need to be projected onto the screen in an arbitrary combination. The small dimensions of each of the elements do not provide the possibility of their mechanical overlap, since an independent actuator is required for each flap.

In the proposed lens, it is possible to increase the size of each

out of flaps thanks to the increase

frame size with a relatively small increase in the length of the entire system and spread them along the optical axis, as they stand in a parallel beam in front of the plane of objects, followed by superimposing their images on the corresponding frame elements.

Claims (2)

1. USSR author's certificate o No. 3240U, CL. G02 9/64, 1U / i. 2. USSR author's certificate number 411417, cl. G.02 In IJ / iJiii, IV / 2. / 7