SU279996A1 - ATMOSPHERIC TRANSPARENCY RECORDER - Google Patents

Description

The invention relates to meteorological instrumentation and can be used at airports and airfields to measure the horizontal, inclined and layer-by-layer transparency of the atmosphere — the meteorological visibility range.

The known device for measuring atmospheric transparency, which contains a radiation source, a radiation receiver that wraps the optical system and a recording unit, does not allow recording the spatial distribution of the total and layer-by-layer transparency of the atmosphere and has a large measurement error associated with the extrapolation parameter.

The proposed recorder differs from the known one that the reversing system is equipped with additional reflectors placed at different distances from the receiver with a transverse shift relative to its optical axis by an amount exceeding the radius of the radiation beam section and an optical deflector with a direction control unit is installed in front of the 1 source. radiation connected to the counting device.

Such a device design makes it possible to record the spatial distribution of the total and layer-by-layer transparency of the atmosphere (meteorological visibility range) with greater accuracy.

The drawing shows a block diagram of the proposed device.

The flux of the radiation source 1 (optical quait generator) with internal amplitude modulation enters the deflector 2, which directs the radiation according to a given scanning program embedded in the memory of the counting device 3. The radiation reflected by the reflector 4 and attenuated by the atmosphere falls to the receiving mirror 5 and the secondary mirror 6 is focused at point 7, from which the diverging light current by the lens 8 is directed through the interference light filter 9 to the photon receiver 10. The modulated reference signal the luminous flux J J with a phase shift of 180 ° relative to the measuring sensor through the lens 8 and the interference light filter 9 hits the photodetector 10, mine atmosphere. Converted into electrical signals, the light fluxes (reference and measurement) are fed to the amplifier 12 with a detector. From the output of amplifier 12, the low-frequency component of the unbalance signal between the measuring and reference light fluxes is removed, which is fed to the input of the counter-resolver 5, which implements the algorithm for solving the following problems: calculation of transparency

atmosphere and meteorological visibility; - control of photometry of light sources; - synchronization of the intensity of radiation fluxes with a predetermined length of the measuring base; i.e. synchronization of the operation of the radiation control unit 13 with the radiation intensity control unit 14; - calculating the equiparametric lines of the horizontal and inclined field, and the layer and total transparency or field zones with transparency below a predetermined limit on accumulated atmospheric and meteorological visibility results accumulated in the memory of the calculating device 3 and outputting the output information to the display unit 15 and the unit registration 16.

The servo system 17 controls the selection of the track.

In the case of a movable reflector, information from an external rangefinder system enters with into block 13 through input 18.

4 Subject of the invention

An atmospheric transparency recorder containing a radiation source and receiver wrapping the optical system and a recording unit, characterized in that, in order to increase the accuracy of measurements and enable determination of the spatial distribution of the atmospheric total and layer-by-layer transparency, the wrapping system is equipped with additional reflectors placed at different distances x from the receiver with a transverse shift relative to its optical axis by a magnitude, the ancient radius of the radiation beam section, and Source radiation of an optical deflector coupled to the radiation direction of the control unit connected to the computing devices.

/ - Sch B; EC: EL