SU1035555A1 - Device for registering radiant energy - Google Patents

Abstract

DEVICE ZWfl of the REGIONAL, STRATIUM OF RADIATIVE SCHERGIA, the sotsialny light guide and the receiver, which is not located in the integrating chamber, is so that, with the chain, the radiation transmission equipotency in the traps of the device is reduced and it decreases the dimensions are rigidly connected to the parabolic reflector of the conical bpena, the light guide is extorted into the vice truncated cone connected to the base with the integrating chamber, and a large one with the parabolic reflector and the blender, and the normal to the reflector is and the axis of the cone is with the angle afterwards, and the focus is aligned with the top of the cone. W / # ate ate ate

Description

 The invention relates to devices for recording energy of a helium energy, in particular to such I for which parasitic swelling in oblique beams far exceeds the useful signal, the size of the receiver is smaller than the active pop and the space of objects onTHKHf and in which the receiver for suppressing internal noise is measured by up to temperature zhitskogo gepi. The device can be used in photometers and telescopes, especially in the crippled infrared region of the spectrum.

A device is known that registers radiant energy, a social radiation receiver and a conical light guide 1 3

Closest to the invention is a device for detecting radiant energy containing a light guide and a radiation receiver located in an integrating chamber | e. The use of an integrating camera increases the dopi radiation as received by C 2 3.

The disadvantages of the device are the large dimensions, which increase with a fixed receiver size, proportional to the square of the input angle pop device, and the shape of the input pattern of the device, which differs markedly from the rectangular one, which reduces the sensitivity of the system and increases the overall size of the optics.

The purpose of the invention is to increase the uniformity of radiation transmission within the device's field of view and reduce its dimensions.

This goal is achieved by the fact that a rigidly connected parabolic reflector and a tapered hood are inserted into a device for recording radiant energy, containing a light and a radiation receiver located in the integrating chamber, the light guide being made in the form of a truncated cone connected to a smaller base with the integrating chamber, and a large one with a parabolic reflector and a hood, and the normal to the angle holder on the axis of the cone is an angle of 45 from the last. and the focus is aligned with the top of the cdnus.

An increase in the efficiency of using input optics, leading to an increase in sensitivity and a decrease in its size and weight, is achieved due to the fact that the applied parabolic reflector provides an input diagram

of the directivity of the device, more than 5 to the rectangular in comparison with the corresponding xy and parabolic optical waveforms. The dimensions of the Moryf device will be reduced while increasing the efficiency of the use of input optics and the manufacture of the device. . The mBisset can be simplified because the 4Tfr specified parabolic reflector can be used in combination with a truncated cone, which is shorter and simpler to manufacture than a parabolic optical fiber.

FIG. Figure 1 shows the optical layout of the device; in fig. 2 - form C (diagram of the directivity of devices.

The device for detecting radiant energy has a receiver 1, for example a bolometer, placed on the axis of the cylindrical integrating chamber 2 against the opening 3 of diameter D-j in its side wall. A truncated cone 4 with an angle at the top is docked to hole 3. not In the outlet section of which coincides with the hole 3, and the inlet section 5 has a diameter of B-D. In the cone inlet there is a parabotchee reflector 6 correcting the input angular radiation pattern of the device, which is part of paraboloid 7 with a focus at the apex of cone 8. The axis of paraboloid 9 and the perpendicular axis of the cone define a plane, at point 10 of which is at the edge of the cone 5 input section The cone and the reflector are connected to each other. With such a design, the reflector normals to it on the optical axis with the last angle of 45 °, and the optical axis itself at this point is shifted by 90 ° towards the input side. The reflector is equipped with a lens hood 11 with a diaphragm 12. The aperture with the maximum diameter perpendicular to the part of the optical axis directed towards the input optics. The lens hood on the input optics side is a truncated cone with an angle of 2 and equal to the output angular field of the input optics, attached with its smaller base of diameter D2 to the diaphragm 12. The height of the hood is determined by the angle. SD equal to «rcsi п (В / D2) t Remaining with. the cavity is bounded by parts of two 1I1pinsphic surfaces of diameter 1) 2 with mutually perpendicular axes, each of which is parallel

Claims (1)

DEVICE FOR REGIME, STRATEGY OF RADIAN ENERGY, containing a light guide and a radiation receiver located in an integrating chamber, further with the fact that, with a chain to increase the uniformity of transmission of Radiation within the field of view of the device and reduce ogo dimensions introduced into it rigidly associated parabolic reflector ^': and the conical hood, is formed in the light guide vice usechennogo.konusa associated with integriruyuschey'kameroy smaller base, and large - with a parabolic reflector and the hood, wherein the normal to the reflector on an axle ōnusa of the last angle of 45 °, and the focus is aligned with the apex of the cone.