RU2752264C1 - Device for vibroacoustic noise reduction of room with ability to monitor technical condition - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to the field of electrical engineering and electronics, in particular to means of creating artificial vibroacoustic interference and can be used to implement vibroacoustic noise in the protected premises and its enclosing structures. To achieve the result, the device for vibroacoustic noise noise of the room additionally contains a vibration-noise chamber rigidly attached to the outer body of the noise source, which contains spheres made of epoxy resin, the diameter of which is 1/20 of the volume of the vibration-noise chamber, and their number is selected based on the filling 1/3 of the volume of the vibration-noise chamber, and the vibration-noise chamber is made in the form of a transparent hemisphere.

EFFECT: invention provides opportunities for the formation of a secondary acoustic noise signal and visual control of the technical condition of the device.

1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering and electronics, in particular to means of creating artificial vibroacoustic interference and can be used to implement vibroacoustic noise of the protected premises and its enclosing structures.

Known magnetodynamic and piezocrystalline vibrating emitters. Magnetodynamic vibrating emitters are similar in structure to sound speakers, but the vibrating elements are more massive (to increase the efficiency of vibration transmission to the structure to which they are attached). Piezo-crystalline vibrating emitters consist of a cylindrical metal body with a piezo-crystal fixed inside. When voltage is applied to the crystal, it is compressed. Thus, when a noise signal is applied to the crystal, it transmits vibrations to the sensor body, which, in turn, through the mount into the structure to which it is attached [1].

Known device for vibration noise leakage channel acoustic speech information. The device contains an electric generator that generates a noise signal and is connected to the vibration exciter, an inertial mass connected to the vibration exciter. The vibration exciter is connected to the noisy element of the room. In this case, the vibration exciter is pressed directly to the noisy element of the room, the counterweight is pressed directly to the vibration exciter, the counterweight with the vibration exciter is pressed against the noisy element by elastic pressure. The second end of the elastic clamp is fixed on a stationary or noisy element of the room. Also, the counterweight has limiting protrusions to hold the vibration exciter, the noise signal generator is structurally combined with the counterweight, and the device is equipped with a set of replaceable clamps, vibration exciters, counterweights and their attachments to the elements of the room [2].

Known is a vibroacoustic noise emitter containing an audio frequency noise generator configured to be powered from an alternating current source, a vibroacoustic signal generator configured to be attached to the framing of the room, and an electrical connection between the noise generator and the vibroacoustic signal generator, in which the vibroacoustic signal generator is made in the form an electromagnetic vibrator with a permanent magnet, an induction coil, a movable core and a unit of mechanical action on the framing of the room [3].

The presented devices have two common drawbacks, firstly, the vibration emitters of the proposed devices are not capable of creating secondary acoustic noise, and secondly, the devices are not able to signal the failure of one or another vibration emitter, which in turn will lead to a decrease in the intensity of active noise in the protected room and, as a consequence, to a decrease in its protection against interception of speech information by malefactors.

A known noise source for vibroacoustic noise in a room, which contains an electroacoustic transducer and an electric noise signal generator, an electrovibrational transducer, and the noise source housing and the electroacoustic transducer form a resonance chamber, and the electrovibrational transducer is rigidly fixed on the inner wall of the base of the noise source housing [4].

Unlike previous devices, the specified noise source is capable of creating secondary acoustic noises, however, due to the fact that the electro-acoustic transducer and the noise source housing form a resonance chamber, the generated noise will be tonal, which will not contribute to the overlap of all octave bands. Secondly, the prototype is capable of signaling the failure of the vibration emitter only if the operator was in the protected room at the time of failure of one of the noise sources. In the event that a breakdown of a noise source occurs during the absence of an operator, other functioning noise sources located in the room, continuing to work and creating acoustic-vibration noise, will not allow determining the fact that one of the noise sources is out of order. In addition, even if a failure occurs at the time of the operator's presence, the operator himself, having detected a decrease in the tone amplitude, will not be able to visually identify the faulty device.

The objective of the invention is to expand the functionality of the vibroacoustic noise reduction device, which consists in providing the possibility of generating a secondary acoustic noise signal and visual monitoring of the technical condition of the device.

This technical result is achieved by the fact that a device for vibroacoustic noise noise of a room with the ability to monitor the technical condition, containing an electroacoustic transducer and a noise generator containing an electrovibrational transducer, in which the noise source housing and the electroacoustic transducer form a resonance chamber, and the electrovibrational transducer is rigidly fixed on the inner wall of the housing base a noise source for efficient transmission of vibration through the base of the housing to the object on which the noise source is fixed, additionally contains a vibration-noise chamber rigidly attached to the outer housing of the noise source, which contains spheres made of epoxy resin, the diameter of which is 1/20 of the volume vibration-noise chamber, and their number is selected on the basis of filling 1/3 of the volume of the vibration-noise chamber, and the vibration-noise chamber is made in the form of a transparent hemisphere.

Due to the inclusion in the device of a vibration-noise chamber, rigidly attached to the outer casing of the noise source, containing spheres made of epoxy resin, the diameter of which is equal to 1/20 of the volume of the vibration-noise chamber, and their number is selected on the basis of filling 1/3 of the volume by vibration -noise chamber, the formation of a secondary acoustic noise signal is provided, and due to the fact that the vibration-noise chamber is made in the form of a transparent hemisphere, it is possible to visually monitor the technical condition of the device.

The essence of the invention is illustrated by a drawing, where FIG. 1 shows a structural and functional diagram of a room vibroacoustic noise device with the ability to monitor the technical condition, consisting of:

1 - the body of the noise source;

2 - vibration and noise chamber;

3 - spheres made of epoxy resin;

4 - surface of the enclosing structure of the protected premises;

5 - contact area of the vibration-noise chamber with the body of the noise source;

6 - elastic cuff;

7 - power supply unit;

8 - power cable;

9 - faulty device for vibroacoustic noise in the room;

10 - a working device for vibroacoustic noise noise in the room.

The device works as follows. In the initial state, to ensure the protection of negotiations in the protected room, both devices for vibroacoustic noise noise of the room 9 and 10 are connected through the power cable 8 to the power supply 7 and carry out vibration noise of the enclosing structure 4 and acoustic noise of the room, while the energy of the vibroacoustic noise generated by the room is vibrated transmitted to spheres made of epoxy resin 3, which begin to move randomly inside vibration-noise chambers 2, which are attached to the body of the noise source 1, through the contact area of the vibration-noise chamber with the body of the noise source 5. Attaching the vibration-noise chamber to the body of the noise source can be carried out using glue, or a threaded connection, or an elastic cuff 6.

In this case, the collision of the spheres with each other and with the walls of the vibration-noise chambers will lead to the formation of secondary acoustic noise. Due to the fact that the walls of the vibration-noise chambers are made of an impact-resistant transparent material with the lowest impact strength, for example, polystyrene or polymethyl methacrylate, firstly, the energy losses of chaotically moving spheres will be minimal, and the noise effect reproduced by them will be maximal, and secondly, through the transparent walls of the vibration-noise chambers, the operator of the protection system will see the chaotic movement of the spheres inside the chambers, thereby controlling the state of all vibroacoustic noise noise devices in the room.

In the event of a malfunction of the vibroacoustic noise noise device of the room 9, for example, due to the loss of contact of the power circuit due to prolonged vibration loads, all spheres rest on the bottom of the vibration and noise chamber, which can serve as a proof for the operator of the protection system that this device does not performs more of its functions.

The diameter of the spheres made of epoxy resin, equal to 1/20 of the volume of the vibration-noise chamber, and their number selected on the basis of filling 1/3 of the volume of the vibration-noise chamber, provides quasi-optimal trajectories of the spheres and their gaining speed and energy for collisions.

The spherical shape of the vibration-noise chamber will provide the angles of reflection of the spheres after impact close to the angles at which the spheres collide with the walls of the vibration-noise chamber, which in turn will reduce the number of low-energy sliding collisions.

The existing vibroacoustic information security systems can be improved by applying the proposed technical solution, for which, before putting the system into operation, vibration and noise chambers containing spheres are fixed to all vibro-emitters of the vibroacoustic protection system using either glue, or a bolted connection, or an elastic cuff. made of epoxy resin. Before switching on, when power is not supplied to the vibration emitters, all spheres inside the vibration-noise chambers will be at rest on the bottom of the chambers under the action of gravity. If it is necessary to implement the protection of negotiations carried out in the room, power is supplied to the vibration emitters and the energy of chaotic oscillations of the housing of the vibration emitter is transmitted through the contact area of the vibration-noise chamber with the housing of the noise source to the spheres placed inside it, which begin to randomly move inside the chamber, colliding with each other and the walls of the chamber thereby creating a secondary noise source. At the same time, the transparent walls of the chamber allow the operator to control the serviceability of the vibration emitters by visual inspection of the behavior of the spheres inside the chambers. To assess the readiness of the protection system for use as intended, the operator of the system only needs to inspect the behavior of the spheres inside the vibration and noise chambers.

The proposed device is quite easy to manufacture, it is simple to operate and can be used to protect speech information with a source of vibroacoustic noise of any shape and size by means of an elastic cuff, glue, or bolted connection. Spheres for increasing contrast can be made with the addition of bright pigments, and the inner opaque wall of the vibration-noise chamber can be coated with white.

The result of the implementation of this technical solution can be a real expansion of the functionality of the device associated with the formation of a secondary acoustic noise signal and the possibility of visual control of the technical condition of the device.

Comparative analysis of the essential features of the prototype and the proposed invention shows that the claimed invention, due to the use of a vibration-noise chamber as part of the device, rigidly attached to the outer casing of the noise source, containing spheres made of epoxy resin, the diameter of which is equal to 1/20 of the vibration volume -noise chamber, and their number is selected on the basis of filling 1/3 of the volume of the vibration-noise chamber, which, in turn, is made in the form of a transparent hemisphere, allows you to obtain a technical result consisting in expanding the functionality of the vibroacoustic noise noise signal and visual control of the technical condition of the device, which was impossible in the prototype.

SOURCES OF INFORMATION:

1. Methods of active protection of acoustic (speech) information. SecurityLab.ru is an information portal. Access to the site - https://www.securitylab.ru/blog/personal/aguryanov/29984.php.

2. RF patent №2556272.

3. RF patent №21490.

4. RF patent №2408143 - prototype.

Claims (1)

A device for vibroacoustic noise noise of a room with the ability to monitor the technical condition, containing an electroacoustic transducer and a noise generator containing an electrovibrational transducer, in which the noise source housing and the electroacoustic transducer form a resonance chamber, and the electrovibrational transducer is rigidly fixed on the inner wall of the base of the noise source housing for efficient transmission of vibration through the base of the body on the object on which the noise source is fixed, characterized in that a vibration-noise chamber is rigidly attached to the outer body of the noise source, containing spheres made of epoxy resin, the diameter of which is 1/20 of the volume of the vibration-noise chamber, and their number is selected on the basis of filling 1/3 of the volume of the vibration-noise chamber, and the vibration-noise chamber is made in the form of a transparent hemisphere.

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