SU838639A1 - Sighting device - Google Patents

Description

(54) VISION DEVICE

The invention relates to instrumentation and can be used as an indicator device for the information in a field of view of the operator at infinity. Sighting devices are known that contain a cathode-ray tube (CRT) with a beam control device, an optical system, a translucent mirror, which display various information 1} in the field of view of the operator. However, they are characterized by low fidelity due to the high sensitivity of the CRT to external factors, which makes it impossible to use them in some areas of instrumentation. The closest in technical essence to the invention is a sight device containing a CRT with a beam controlling device, a translucent mirror and an optical system connecting the CRT with a translucent reflector. Information from a CRT through a translucent mirror, a lens and a reflector is displayed in the field of view of the operator at infinity G2. However, the CRT beam control device is influenced by factors that may cause a change in the scale of the displayed information. In addition, the accuracy of the reproduction of information is the inconvenience of the deviation coefficient of the electron beam when it is displaced relative to the axis of symmetry of the mouthpiece; CRTs, as well as many factors, are compensated by complex correction schemes. The purpose of the invention is to improve the accuracy of information display. The goal is achieved by introducing a comparison device and a coordinate photoreceiver connected with an additional optical system with a translucent mirror into the target device, the input of the comparison device being connected to the output of the coordinate photodetector and the output to the CRT input. The drawing shows the functional diagram of the device. Target alignment of CRT I, half-mirrored mirror 2, optical system 3, infrared reflector 4, comparing devices 5, kosrdi ™ natural photodetector 6, and additional optical system 7. The device works as follows. The image from the screen of the electron tube 1 by means of a translucent mirror 2, the optical system 3 and the translucent reflector 4 is displayed in the field of view of the operator. At the same time, the image is projected onto the coordinate receiving device 8 through the gauge mirror 2 and the additional optical system 7, depending on the position of the beam on the CRT screen I changing the coordinate of the light spot on the photosensitive plane of the Coordinate photodetector. At the output of the joint receiver, a voltage is formed that is proportional to the coordinates of the position of the light spot of a CRT. This voltage, which characterizes the real position of the beam, is compared with the input voltage of the indication device in the comparison device 5. When these voltages are different, the comparison voltage using the CRT beam control device changes the position of the beam to complete compensation of the error. As a coordinate photodetector, for example, matrix multielement photoreceivers can be used.

charge-sensitive photosensitive devices (PES) or fouling.

In addition, to compensate for errors introduced by optics, the coordinate

1. USSR author's certificate N 1S83O2, cl. H 04 N 3/70, 1962.

2. Aircraft number 8, 1976, p. 26 (prototype) in

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Claims (1)

U .3 39 a photodetector can be mounted at the exit of the optical system 3 above the translucent reflector 4. As a result, the accuracy of the information display is increased and it can be used under the influence of various external factors due to the correction of the position of the CRT beam using a matching device and a coordinate photodetector. Any changes in external factors: temperature, moisture, etc. This does not affect the information displayed. Thus, the position of the beam on a CRT is corrected by the location of this beam on the photosensitive sensitivity of the coordinate photoreceiver, in which each photocell is fixed and has strictly defined coordinates not depending on external influences. The formula of the invention. a radial tube optically conjugated by a semitransparent mirror and an optical system with a semitransparent reflector characterized in that, in order to improve the accuracy These information displays, a comparison device and a coordinate receiving device connected with an additional optical system with a semitransparent mirror are entered into it, the input of the comparison device being connected to the output of the coordinate photoreceiver, and the output to the input of the cathode ray tube. attention during examination