SU776276A1 - Acoustic signal generator - Google Patents

Abstract

1. A generator of hydraulic signals, containing a source of compressed air, a mechanism for launching your nozzle into the nozzle channel and a nasayka with an elastic cuff, which is designed so that, with an autonomous mode of operation, with an adjustable spacing interval Between the signals sent, the geyrator is additionally equipped with a storage chamber, in the inlet channel of which a valve is installed, and the output channel communicates with the internal cavity of the air release mechanism, while the LEG is made 6 of the housing with the placed Not the discharge valve and the limiting pressure associated with it, HYRIHONT, were given by the piston, year; deflection. 2. The generator according to PL, about tl and tea wards And with the fact that the exhaust valve and clayan limiting are associated with a compensator ocesoro piston movement, containing a glass, rigidly connected to the exhaust valve and d p: gun compression inside, and navbrnut5 on stykan superimpose) a nut connected 1 with a rod. I

Description

The invention relates to underwater acoustics, and immense to underwater acoustical sources with signal signals, and predi1 §McheoeGddispolbz6wany as an imitator of the sounds of marine mammals, such as delfinod.

 Similar simulators neobh nd t

iyiH influences fish aggregates so as to stimulate the poisoned reaction in fish, for example, that arises when dolphins attack.

A generator of hydroacoustic signals is known, in which, in order to create hydroacoustic radiation, a compressed vapor is released into the water; pp-gas mixture with the required Modulation Release each batch of gas ij. This emitter contains a source of compressed vapor-gas mixture and a mechanism for its release into the water through the channels of the horns. The disadvantage of the device is that when it is used it is difficult to provide controlled variation of the high-frequency components of the radiation spectrum, x aa: ter dy delphi 1bb, - - The closest to the invention is a sonar signal generator gas mixture and mechanism

its release into the water, made in the form of a stationary group of horns, is locatedHias: t & Scotch: E {S) associated with the rotational drive, each horn is provided with a nozzle, made in the form of a sleeve with a blind ode, bend out with narrow radial channels forming an L-shaped channel, with the nozzle covered with elastic cuff,

placed in a cylindrical compression spring 2.

The lack of a given generator is that it is a radiator with continuous control of signal and silence and not; It is possible to ensure autonomic operation of a controlled int (time-of-the-time between the sending of signals.

The aim of the invention is to provide autonomous mode of operation of the generator of hydroacoustic signals.

The target is completed in a device containing a compressed source. Air, Fur: The EYuDU release of the nozzle and the nozzle with an elastic cuff is additionally introduced into an accumulation chamber, the inlet channel of which has a throttle valve and an outlet mechanism in the nozzle channel, which is a housing with an exhaust valve and kinematically associated pressure limiting valve, made in the form of a cylinder with a spring loaded on one side of a cylindrical compression spring, and on the opposite side - a flat-convex Membrane spring, a stable position only in the extreme, opposite directions of the deflection. , . The invention is illustrated in the drawing.

The hydroacoustic signaling generator contains a housing 1 with a radiating nozzle 2. A discharge valve 3 is placed in the housing, blocking the duct 4 of the nozzle 2. A pressure limiting valve consisting of a piston 5 placed in the cylinder 6 and spring-loaded is kinematically connected to the exhaust valve 3 one side of the compression spring 7, which is in contact with the adjusting screw 8, and the opposite, a flat convex membrane spring 9. The piston 5 is connected to the exhaust valve 3 by means of the stem 10 with the shoulder 11 and the compensation mechanism The first pre-stroke of the diaphragm spring 9, consisting of a cup 12 with a spring of compression 13, rigidly attached to the exhaust valve 3, and a cap nut 14 with a lock vyntrm 15, will be screwed on the cup 12.

An accumulation chamber 16 is connected to the housing 1, communicating with the internal cavity of the housing through an outlet channel 17. The chamber 16 has a fitting 18 for supplying compressed air and

. choke valve 19 in the form of a screw installed in the inlet channel 20 The generator operates as follows. Incoming air accumulates in. Kaf / iepe 16 and flows simultaneously into the internal cavity of the housing 1. At the same time, the pressure inside the chamber 16 and the housing 1 gradually increases, and the air presses against the diaphragm spring 9. The latter begins to bend slightly towards the piston 5, which also moves the cylinder b; spring 7. Mtok 10 moving together with the piston 5, selects the gap between the shoulder 11 and the bottom of the cap nut 14.

Thus, the exhaust valve 3 remains unattended and there is no premature air release into the channel 4 of the nozzle 2.

At drstigengui and maximum pressure, the Mombrane spring 9 is sharply arched in the opposite direction, from

Claims (2)

1. A generator of hydroacoustic signals containing a source of compressed air, a mechanism for discharging air into the nozzle channel and the nozzle with the aim of providing an autonomous mode of operation with an adjustable time interval between the sending signals, a generator cuff, . so / that it is additionally equipped with a storage chamber, in the inlet channel of which a throttle valve is installed, and the outlet channel is in communication with the internal cavity of the air release mechanism ₍ the latter is made in the form of a housing with an exhaust valve placed in it and a pressure limit valve connected to it) , which is a cylinder with a piston, spring loaded on one side with an adjustable cylindrical compression spring, and on the opposite side with a plano-convex membrane spring, which has a stable position only in the extreme, opposite directions of the arrow of the deflection. _ " 2. The generator according to claim 1, with regard to the fact that the exhaust AND valve and the limiting valve are L Nya connected to each other by compensating And Romos movement of the piston containing a cup rigidly connected ξ to the exhaust valve and with a compression spring inside, and screwed on. , glass overhead nut connected to the piston rod. ''