RU43086U1 - RADIATION DIRECTION FILTER - Google Patents

Abstract

The utility model relates to the field of designing optical devices containing protective hoods and can be used in optics, astronomy, to protect TV screens, monitors, in optical sights. The radiation direction filter includes a housing installed along the rays of the receiving and/or transmitting device in the form of an outer blend with a degenerate inner surface of the second order, the generatrix of which is parallel to the filter axis. The filter is equipped with at least one additional blend installed inside the outer hood with degenerate outer and inner surfaces of the second order, the generators of which are parallel to the filter axis. The shortest distance between the surfaces of the blends facing each other is chosen to be greater than the maximum value of the longest wavelength of the emission spectrum. The additional blend can be located coaxially with the main one, the degenerate surfaces of the second order of the blends can be made cylindrical.

Description

The utility model relates to the field of designing transceiver, for example, optical devices containing protective hoods, and can be used in optics, astronomy, for protecting television screens, monitors, and optical sights.

A light-shielding hood in the form of a truncated cone or a truncated pyramid is known that protects the lens of a photographic or movie camera from side light rays during shooting (see Polytechnical Dictionary, M., Sovetskaya Encyclopedia Publishing House, 1976, p. 56).

A known light-protective hood for optical devices, consisting of a housing and diaphragms, each of which is made in the form of a lateral surface of a truncated cone, the generatrix of which is with an extreme illumination beam for each diaphragm an angle in the range of 80 ... 110, its working edge is on the field boundary view of the optical device, the working edge of each previous diaphragm, counting from the inlet of the hood, lies on the segment formed by the working edge of the subsequent diaphragm and the point of intersection of the boundary of the optical field of view instrument with the line which connects the point of attachment of the diaphragm to the body followed by a hood entry point illumination rays (see. the disclosure of patent RF №2073903, IPC B 03 6 G 11/04).

A disadvantage of the known devices is the excess of the angle of illumination of the angle of the field of view of the receiving device or an increase in the scattering angle of the transmitting device, which determines the signal-to-noise ratio.

The objective and the technical result is to improve the quality of the signal-to-noise ratio by reducing the side illumination angle for the receiving device or the scattering angle for the transmitting device.

The specified technical result is achieved by the fact that the radiation direction filter, including a housing installed in the direction of the radiation of the receiving and / or transmitting device in the form of an outer hood with a degenerate inner surface of the second order, which are formed parallel to the axis of the filter, is equipped with an installed inside the outer hood, at least , one additional blend with degenerate external and internal surfaces of the second order, the generators of which are parallel to the axis of the filter, while the shortest distance ezhdu each hit to one another surfaces blend chosen large greatest maximum emission spectrum wavelength.

In addition, the optional lens hood is aligned with the core.

In addition, the degenerate second-order surfaces of the blends are cylindrical.

In the studied and related fields of technology, no devices have been identified, both with the claimed combination of essential features and features distinguishing the claimed device from the known ones, therefore, it satisfies the patentability conditions of “novelty” and “inventive step”.

The inventive device is illustrated by drawings, where Fig. 1 shows a section along the axis of the radiation direction filter, Fig. 2 is a front view of the radiation direction filter.

The radiation direction filter consists of a housing 1 mounted on a receiving and / or transmitting device 2, for example, on a lens (not included in the design of the filter), an external hood 3, additional hoods 4, 5, 6 connected by jumpers 7.

Generating 8 of the inner surface of the outer hood 3 and forming 9 of the outer and inner surfaces of the additional blends are parallel to the axis of the filter 10 ..

The shortest distance “a” between the blended surfaces facing each other is chosen to be greater than the maximum value of the maximum wavelength of the radiation spectrum.

One or more additional blends may be aligned with the outer blend, and the degenerate second-order surfaces of the blends may be cylindrical.

The ratio of the length of each additional hood to their number is determined by the purpose of the device for which the filter is intended.

The radiation direction filter operates as follows. The filter is mounted on the receiving or transmitting device, for example, on the lens of an optical device (theodolite, optical sight, laser range finder, etc.).

Received or transmitted radiation passes through the gaps between the outer and additional lens hoods. The size of the slots is determined by the above ratio. Additional hoods, like the outer one, are made of opaque material.

Additional hoods limit the flow of received or transmitting radiation whose angles exceed the solid angle of the receiving device or limit the scattering angle for the transmitting radiation of the device.

The claimed device can be implemented using known materials and technological methods and, therefore, satisfies the patentability condition "industrial applicability".

Claims (3)

1. The radiation direction filter, comprising a housing installed in the direction of the radiation of the receiving and / or transmitting device in the form of an outer hood with a degenerate inner surface of the second order, which are formed parallel to the axis of the lens device, characterized in that it is equipped with an installed inside the hood , one additional blend with degenerate external and internal surfaces of the second order, the generators of which are parallel to the axis, while the shortest distance between each facing each other to each other, the blend surfaces are chosen to be larger than the largest value of the largest wavelength of the radiation spectrum. 2. The radiation direction filter according to claim 1, characterized in that the additional lens hood is aligned with the outer lens hood. 3. The radiation direction filter according to claim 1 or 2, characterized in that the degenerate second-order surfaces of the blends are cylindrical.