SU625640A3 - Projection objective lens - Google Patents

Description

I

The invention relates to a projection lens system comprising a converging lens or lens group, preferably a triplet.

When designing diffusely emitting images that have a low light intensity and a large extent, for example, when designing images onto the surface of a television tube or image or a ceiling-type transparency, a lens system with a large focal distance, usually more than 4OO mm, is used. In order to achieve sufficient light intensity in the projected image, it is necessary to have a large relative aperture of the lens, preferably more than 1: 3.5. Typically, a lens group consisting of two convex and one concave lenses, which is called a triplet, is used for these purposes. A projection lens system consisting of a triplet and having a focal length paccTosnoie of 60 mm and a relative aperture of the lens 1: 3 has a diameter of 200 mm, with the thickness in the center of each

The double convex lens of the triplet is in the order of 5 mm. Such a lens thickness implies a heavy crown, having a refractive index of about 1.6 for the lens material, since the image quality would otherwise be unacceptable in places far from the center of fll.

If instead of this type of glass for lenses with a refractive index of less than 1.53, another cheaper glass, such as crown glass, with a refractive index of 1.525, is used, then lenses for such light intensity will have a much greater thickness in the center and, moreover, will begin to strongly interfere error zone (spherical deviation) and other image distortions outside the optical axis L2J.

The aim of the invention is to improve the image quality and reduce the cost of the lens.

Claims (2)

This is achieved by the fact that the projection lens is equipped with a positive single lens installed at a distance of about half the distance of the triplet from the projected object, the triplet is made with a focal length greater than 1.2-2.5 times the focal length of the entire projection lens with relative aperture exceeding 1: 3.5, the refractive index of the positive lens of the triplet does not exceed 1.53, and the refractive index of its negative lens does not exceed 1.63. FIG. 1 dan proposed projection lens; in fig. 2 - the same, option; in fig. 3 - a bishop with a lens according to the invention. Both projection systems (see FIGS. 1 and 2) have a relative ratio of 1: 3 and a PSB focal length for designing a scattered radiating image with a diameter of 3500 mm and an increase of five times in which a single lens is used. In the projection system (see Figs. 1 and 2), the field single lens 2 {2a) is installed approximately in the center between the scattered radiation image 1 and the triplet 3 consisting of lenses 4-6 (two convex 4 and 6 and concave 5 between do them). Field lens 2 doubles the image and a simple geometrical observation shows that triplet 3 should have a focal distance of 90 mm if lens 2 and a triplet of 3 have a focal distance of 6OO mm. Thus, in the projection lens of the present invention, the lenses 4-6 of the triplet 3 can be much flatter and more visible, due to the large focal length of the triplet 3. Furthermore, the lenses 4-6 can be made of a conventional crown glass having a refractive index of 1.525, good The reduced curvature of these lenses, which became possible, following the focal length of the triplet 3, the Lens (see Fig. 3) is intended to be used visually for use in a projection ceiling type and / or a type of episcope, in which the trajectory the beam is refracted by a mirror. The picture shown in a projection apparatus of a high type or a type of episcope, has the size of A4. In this case, the diameter of the field lens should be in the order of 30 mm. Using lenses in this way, it was found that the focal length should be 300 mm, and preferably more than 40 mm, in order to provide an overview for the operator and the ability to manipulate during the design process. However, usually the lens has a focal distance of less than 1OOO mm. When used in a projection device, the lens is easily adjustable; to set the focus of the image in different planes by shifting the field lens. Usually the lens is adjusted such that. an image placed on a fixed table is clearly projected. However, if the surface of the object, which is located on the table, has a certain thickness, for example, 15 mm, and you need to get a clear image, then the field lens can be crisp to a height corresponding to the thickness, and the triplet remains unchanged, due to its large focal length The distance and distance of the design, for example, 4-6 m. Such adjustment of the focus plane also means that the operator can place the drawing on the instrument's table in advance, and only after adjusting the focus, obtain the desired image. Claims of the invention: A projection lens with a total focal length exceeding 400 mm, comprising a triplet lens, characterized in that, in order to improve the image quality and reduce the cost of the lens, it is equipped with a positive single lens mounted at a distance of about half the triplet distance from the projected object, the triplet is made with a focal length exceeding 1.2-2.5 times the focal distance of the entire projection lens with a relative aperture exceeding 1: 3.5, with refractive indices triplet positive lenses do not exceed 1.53, and the refractive index of its negative lenses does not exceed 1.63. Sources of information taken into account during the examination: 1. M. Kruger, et al., Reference Designer Optical-Mechanical Instruments, M .-L., Mashgiz, 1963, s / 375, fig. 274. 2. US Patent No. 3,415,592, cl. 350-184, 1968. -g 1 X