SU739448A1 - Method of measuring waviness of water surface - Google Patents

Description

the image of the steam cushion 5 in the 4-cap plane, the modulator 6, executed in the form of a lattice and installed in the plane of the image of the steam cushion ta-. KIM way that when vraschedai modulator lumens lattice peremeshayuts in the direction of movement of the vapor cushion fotopriemknk 7, before whose mouth) Sh1eny narrowband filter S, propuskayuoshy emission laser Visible Range call, and the diffuser 9, obepochy 1vayuyschy uniform illumination receiver photocathode measuring system, consisting of an amplifier 10, the input of which is connected to the output of the photo receptacle 7, and VOSD with one of the inputs of the synchronous detector 11, an oscillator voltage generator 12, one output of which is connected to the input of the divider Frequency 13 connected to the modulator 6, and the other output to the second input of the synchronous detector 11, the counting device 14, whose input is connected to the output of the synchronous detector 11, and the output to the recording device 15.,. . The device works as follows. The radiation of the laser band 1 of the visible range and the radiation of the laser band 2 of the infrared range, combined by the optical system 3, are sent to the object of study - the water surface, where a vapor feeder is formed near the water surface due to its heating by the infrared light of the range. Visible radiation is diffusely scattered on a steam jet in the corner. 2 (Ystradian back, and part of it enters the receiving optical system 4. When the wave moves, the steam light from the pillow due to continuous heating alternates with the movement of the surface of the medium, i.e. Beisa repeats the movement of the object of scanning. In the image plane, the receiving optical system 4 is observed the reduced nature of the movement of the water surface, which is continuously read by the modulator 6. The maximum deviation of the steam cushion image is set by the gain setting of the receiver optics eskoy system 4. It should satisfy the AFS Vey: gmah

739448

where V is the linear read speed

lattices;

T is the readout period. The optical signal, modulated by the readout frequency and cleared from ambient light by an interference light filter, passes through a matte diffuser 9 and enters the photodetector. The electrical signal from the photodetector is amplified by 10 and fed to the input of the synchronous detector 11, to the second input of which an electrical reference vip is fed. from generator 12. At the output of the synchronous detector, an electric signal is received and a C UgCOSf signal is received. The amplitudes U and and of the reference and useful electrical signals during operation of the device are constant and therefore proportional to the UCP and the change in angle is proportional to the change in the displacement of the image of the scatter cushion. Thus, the magnitude of the amplitude of the electrical signal at each moment of time depends on the nature of the movement of the water surface at the sounding point. In the scaler, the temporal electric signal is processed, resulting in the following: maximum wave height, wave-frequency spectrum and its dynamic range, spectral density. The results are outputted to a recording device 15. The use of the invention makes it possible to measure the characteristics of the water surface with high accuracy in wide dynamic ranges. formula of the invention. The method of measuring the waviness of the water surface, which consists in simultaneously probing the water surface with radiation of different wavelengths, and receiving the processing of reflected signals, so that, with a circuit for improving the accuracy of measurement, when probing on water surfaces create; vapor “on the pillow, and radiation is scattered and, by the converted radiation, determine the waviness of the water surface. Sources of information taken into account in the examination 1. Kravtsov N. V.,. Chirkov L. E., Pset Chenko V, L. Elemen You are Optoelectron Hbtx Information Systems. M., 1970. - 2. US patent number 4050819, yut. 356-51, 1976 (prototype). rp HZ 73 nn / g L-T-1 I1

Claims (1)

Claim. 40 A method for measuring the undulation of a water surface, which consists in simultaneously probing the water surface with radiation with different wavelengths, receiving and processing reflected signals, 45 and so on, in order to improve the accuracy of measurement when probing on the water surface. create a steam cushion, measure the scattered radiation and determine the undulation of the water surface from the converted 50 radiation.