RU216178U1 - SHIELDED ACOUSTIC DEVICE - Google Patents

Abstract

The utility model relates to acoustic engineering, namely to a shielded acoustic device designed to simultaneously reproduce both an acoustic signal (sound pressure) and a vibration signal (vibration acceleration), and can be used when testing objects, as well as to determine the frequency characteristics ( calibration) of vibration transducers from the software and hardware systems for monitoring the security of speech information in the field of operation. The technical problem of reproducing vibration acceleration by an acoustic device is solved by including an additional vibration part in it, which is structurally connected with the electromagnetic part of the device. The device contains an electrodynamic loudspeaker installed in the housing and structurally divided into three parts - a shielded electromagnetic, acoustic and additional vibration part for reproducing a unit of vibration acceleration. In this case, the coil of the electromagnetic part is connected through an additional pusher to an elastic vibration plate of the vibroacoustic part, fixed on the system case, and having a device in the center of the plate for attaching test objects to it. The technical result is achieved by expanding the functionality of the device in terms of reproducing the unit of vibration acceleration for the purposes of testing objects, as well as calibrating the tested vibration transducers. 1 ill.

Description

The utility model relates to acoustic engineering, namely to a shielded acoustic device designed to simultaneously reproduce both an acoustic signal (sound pressure) and a vibration signal (vibration acceleration) and can be used when conducting acoustic and vibration tests of objects, as well as for quickly determining frequency characteristics (graduation) of vibration transducers from the composition of software and hardware systems for monitoring the security of speech information in the places of operation in the conditions of protection of test objects from the effects of electromagnetic radiation of the device.

A container with shielding from electromagnetic radiation of the equipment placed in it is known (patent RU 144841 U1, published on September 10, 2014), which consists of a body of conductive material having a bottom, side, front and rear walls and a lid connected by hinges and cylindrical shock absorbers with the possibility rotation for opening and closing; means of shielding in the closed state, placed along the perimeter of the connector of the cover and the housing; ventilation panels in the walls of the case; a locking device that provides a power contact connection of the shielding means when the lid is closed; universal interface board of the input/output controller installed in the case; at least one ventilation unit is installed on one of the walls, consisting of a ventilation panel shielding electromagnetic radiation and a fan, and on the opposite wall there is a ventilation panel, while the following are installed on the walls inside the case: a power supply unit, a power splitter, a shielded surge protector , network hub, media converter and shielded input-output connectors for fiber-optic communication lines of the media converter ("twisted pair - FOCL"); the cover has a viewing window with an optically transparent filter that shields EMP; the body and lid have a locking device that allows sealing the container in the closed state; one of the walls of the housing provides for the installation of shielded input-output connectors for fiber-optic communication lines and a media converter.

The disadvantages of this container are its complexity and large weight and size characteristics, as well as the fact that in order to ensure the free exit of air that creates sound pressure from the shielding container, it is necessary to make holes (windows) in it, which significantly reduce the shielding efficiency.

From a source found on the Internet: http://infobez.org/activities/catalog1/szi_tk2/zawita_informacii_v_special_no_formimemyh_kanalah2/kolonka_akusticheskaya_ekranirovannaya_uek/ an acoustic device is known that is designed to create acoustic pressure in the frequency range from 125 Hz to 10 kHz when conducting special studies of electronic equipment in order to reveal the effect of electroacoustic transformations. The disadvantages of this device are the large weight and size characteristics of the screen for the acoustic device, as well as the fact that in order to ensure the free exit of air that creates sound pressure from the shielding container, it is necessary to make holes (windows) in it, which significantly reduce the shielding efficiency.

A shielded acoustic device is known (see RF patent No. RU 208879 U1, IPC: G12D 17/00 "Shielded acoustic device", Kubov E.N., Baltatsu O.E., publ. 19.01.2022, Bull. No. 2), designed to reproduce acoustic pressure during testing of objects, containing an electrodynamic loudspeaker installed in the housing, while the loudspeaker is divided into two parts, electromagnetic and acoustic, and the electromagnetic part containing the coil placed in the annular gap of the permanent magnet, the core, the centering washers of the coil and frame, signal amplifier, power supply and other electronic modules, is placed in a shielding container, which is fixed in the housing, and the acoustic part containing the diffuser, placed on a suspension in the diffuser basket, a centering washer between the basket and the diffuser, as well as a dust cap, is fixed in housing of the device outside the shielding container, and the electromagnetic part of the loudspeaker is connected with the acoustic part of the loudspeaker with a pusher, with the help of which the mechanical vibrations of the coil are transmitted from the electromagnetic part to the acoustic part, while the pusher can connect the coil and the diffuser through hinges, each of which is connected to the coil and the diffuser to transmit vibrations at different angles.

The above device is the closest in technical solution to the claimed device and therefore selected as a prototype.

The disadvantage of the prototype is the impossibility, along with the reproduction of the acoustic pressure, the reproduction of the unit of vibration acceleration for testing purposes.

The technical objective of the proposed utility model is to expand the functionality of a shielded acoustic device in terms of the ability to reproduce a unit of vibration acceleration for testing purposes. At the same time, when conducting tests, problems can also be solved for the implementation of procedures for the operational calibration of vibration channels of software and hardware systems for protecting speech information at the places of their application.

The technical result is achieved due to the fact that the prototype device additionally includes a vibration part for reproducing a unit of vibration acceleration, consisting of an additional pusher, fixedly connected, on the one hand, to the reverse side of the centering washer of the coil of the electromagnetic part, and on the other hand, through a hole in core, in a steel magnetically soft sheet of a permanent magnet, in the body of the shielding container and the body of the system, with an elastic vibration plate fixed on the body of the system, and having a device in the center of the plate for mounting the tested objects (vibration transducers) on it.

The specified set of essential features of the vibrational part of the device allows you to expand the functionality of the shielded acoustic device in terms of the possibility of reproducing a unit of vibration acceleration for testing purposes.

The figure shows a diagram of a shielded acoustic device with an additional vibration part for creating vibration acceleration.

The screened vibroacoustic system contains an electrodynamic loudspeaker installed in a housing (1), while the loudspeaker is structurally divided into three parts - electromagnetic (2), acoustic (3) and additional vibration part (4), and the electromagnetic part is placed in a shielding container (5) , which is fixed inside the system case, and the acoustic part (3) is located outside the shielding container and is also fixed in the system case (1), while the electromagnetic part (2) of the loudspeaker is connected to the acoustic part (3) of the loudspeaker by a pusher (6) with the help of which mechanical vibrations from the electromagnetic part (2) are transmitted to the acoustic part (3), which reproduces the sound pressure field. Inside the shielding container (5), in addition to the electromagnetic part (2) of the loudspeaker, a signal amplifier, a power supply unit and other electronic modules (7) are placed.

The acoustic part includes a diffuser placed on a suspension in the diffuser basket, a metal centering washer between the basket and the diffuser, and a dust cap (not shown in the figure).

The electromagnetic part includes a coil (8) made of copper wire, placed in the annular gap of a permanent magnet (9), the rear part of which is closed with a steel magnetically soft sheet (12), into which a core in the form of a core (10) is pressed, as well as elastic centering washers with frame (11).

According to the technical solution of the utility model, a vibration part (4) is added to the acoustic device, consisting of an additional pusher (13), which is fixedly connected on one side to the reverse side of the flexible centering washer (11) of the coil of the electromagnetic part, and on the other hand, through a hole in a core (10) of the electromagnetic part of the system, in the body of the shielding container and the body of the system, with an elastic vibration plate (14) fixed on the body of the system; in the center of the plate there is a device (15) for fastening the tested vibration transducers on it. In this case, the additional pusher is designed to transfer the mechanical vibrations of the coil of the electromagnetic part to the elastic vibration plate of the device.

Shielding acoustic device works as follows. When the device is turned on, an alternating electric current voltage with a central frequency of 1/3-octave series in the required frequency range is applied to the coil located in the field of a permanent magnet, and it begins to oscillate mechanically, thereby reproducing a unit of vibration acceleration. At the same time, the tested object (vibration transducer) is installed on the vibration plate attachment device and its testing or frequency characteristics determination (graduation) is carried out. In this case, the calibration, as a rule, is carried out over the entire frequency range at the central frequencies of 1/3 of the octave range.

The transmission of mechanical (vibration) vibrations from the electromagnetic part to the vibration part of the device is carried out with the help of an additional pusher, which can have a different design and materials (wood, aluminum, etc.). To increase the sensitivity and the range of reproduction of the vibration acceleration value, the elastic sensitive plate of the vibration part of the device can be made in the form of a corrugated membrane, the material of which can be used all kinds of rubber, leatherette, impregnated foam rubber.

A laboratory sample (dummy) of a shielded acoustic device with a vibration part was made and its research and testing was carried out in the vibroacoustic laboratory of the State Scientific Center of the Ministry of Defense of the Russian Federation, Mytishchi, using the vibration part of the reference complex (vibroacoustic measuring system of the VS-321 type) in the frequency range from 100 to 8000 Hz. At the same time, the laboratory sample of the device was calibrated by vibration acceleration using the specified reference complex before testing. The test objects were vibration transducers of the type АР2098-100-01, which are part of the software and hardware systems for protecting speech information. The results of the research confirmed the feasibility of reproducing the unit of vibration acceleration in the frequency range from 100 to 8000 Hz by a laboratory model of the device for the purposes of testing, calibrating or determining the frequency characteristics of vibration transducers.

This confirms the possibility of using the proposed technical solution of the utility model when carrying out vibration tests of objects, as well as for operational calibration of vibration transducers from the composition of software and hardware systems for monitoring the security of speech information in the field of operation in conditions of protection of test objects from the effects of electromagnetic radiation of the device.

Claims (1)

Screened acoustic device containing an electrodynamic loudspeaker installed in the housing, the loudspeaker being divided into two parts, electromagnetic and acoustic, and the electromagnetic part containing the coil placed in the annular gap of the permanent magnet and the core, the centering washers of the coil and the frame, the signal amplifier, the block power supply is placed in a shielding container, which is fixed in the housing, and the acoustic part, containing a diffuser placed on a suspension in the diffuser basket, a centering washer between the basket and the diffuser, as well as a dust cap, is fixed in the device housing outside the shielding container, and the electromagnetic part of the loudspeaker connected to the acoustic part of the loudspeaker by a pusher, with the help of which mechanical vibrations from the coil in the electromagnetic part are transmitted to the diffuser in the acoustic part, while the pusher can connect the coil and the diffuser through hinges, each of which is connected to the a carcass and a diffuser for transmitting vibrations at different angles, characterized in that the device additionally includes a vibration part, consisting of an additional pusher, fixedly connected on one side to the reverse side of the coil centering washer, and on the other hand, through a hole in the core, in the body shielding container and the system case, with an elastic vibration plate fixed on the system case, and having a device in the center of the plate for fastening the tested objects on it.

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