SU1727091A1 - Device for emitting and receiving sound - Google Patents

Abstract

The invention relates to meteorology and can be used in the remote determination of meteorological conditions. The purpose of the invention is to increase the amplitude of the useful signal by reducing the influence of the wind. When the audio voltage is applied to the loudspeakers 6, a sound is emitted which, through the connecting elbows 7, the inner 5 and outer 4 segments of the sound guide, is fed to the irradiator 3, reflecting the entire flow of acoustic energy towards the parabolic reflector 1, which directs it to the atmosphere. The supply of the control signal to the displacement unit 9, through the rod 8, displaces the outer section of the sound guide 4, and hence the irradiator 3 relative to the parabolic reflector 1, thereby changing the width of the acoustic antenna pattern. Due to the possibility of remotely controlling the width of the radiation pattern, the device can be used in strong wind conditions when a wider radiation pattern is needed to reduce wind drift of the radiated acoustic signal. 2 Il. sl C

Description

The invention relates to meteorology and can be used in remote determination of meteorological conditions at airports, in predicting the propagation of radio waves on highways, in scientific research when studying physical processes in the atmosphere.

The purpose of the invention is to increase the amplitude of the useful signal by reducing the influence of the wind.

FIG. 1 and 2 illustrate a device for emitting and receiving sound.

It consists of a parabolic reflector 1 placed in a sound insulating screen 2, a sound guide with an irradiator 3 consisting of external 4 and internal 5 segments, installed with the possibility of displacing the external segment relative to the internal one. To the lower base of the inner segment 5 zvuyrd. A sound source consisting of one or several loudspeakers 6 connected to the base of the inner segment 5 by means of connecting elbows 7 is connected to the lower side of the parabolic reflector 1. The outer segment 4 is connected to the displacement unit 9 by means of the rod 8 (see FIG. 2), which can be made in the form of a reversible electric motor and a screw transmission. The irradiator 3 is in the shape of a reflector with a smoothly varying cross-sectional area.

The device works as follows.

When an audio voltage is applied to the loudspeaker 6, a sound is emitted which through the connecting elbows 7, the inner 5 and outer 4 segments of the sound guide is fed to the irradiator 3, which reflects the entire energy flow towards the parabolic reflector 1. The sound waves are emitted into the atmosphere after reflection from the parabolic reflector 1. When the control signal is applied to the node 9 of movement through the rod 8, the external segment 4 of the sound driver is moved, and with it the movement of the irradiator 3 relative to the focus is parabolic Skog reflector 1, wherein the beamwidth is minimal if irradiator 3 is in focus and when it expands relative movements of the focus. The diameter of the sound guide and matching knees should be less than 0.61 A, where I is the wavelength of the sound emitted by the loudspeaker. The change in the cross-sectional area of the irradiator, made in the form of a reflector, can be carried out according to an arbitrary law, but should be smooth at the wavelength.

Performing the sonic guide along the axis of the parabolic reflector 1 allows, in the simplest way, to realize the movement of the irradiator 3 relative to the focus. In addition, the distortion effect of the sound guide on the radiation pattern, which exists in all other non-axial placement of the sound guide, is eliminated.

The invention, due to the possibility of remote control of the radiation pattern, allows meteorological conditions to be monitored under high wind conditions when it is necessary to use a wider radiation pattern to reduce the effect of wind drift of the radiated acoustic signal.

Claims (1)

Invention Formula A device for emitting and receiving sound, containing a parabolic reflector placed in a sound-insulating screen, and an irradiator with a sound guide connected to a reversible sound source, characterized in that, in order to increase the amplitude of the useful signal by reducing the influence of wind, the sound conductor of two cylindrical segments installed one in another along the axis of a parabolic reflector, with the external segment of the sound guide connected to the inserted node of its movement, the internal segment of the sound guide is rigidly fixed relatively parabolic reflector, its lower base is placed on the outer side of the parabolic reflector, and the irradiator is made in the form of a reflector.