SU1727162A1 - Acoustic coagulator - Google Patents

Abstract

The invention is intended for coagulation (strengthening) of fine dust particles and can be used in the chemical, metallurgical and other industries. The aim of the invention is to increase the power. Acoustic siren works as follows. Compressed air from the network through the nozzle 5 is fed into the chamber 4 of compressed air, from where through the cylindrical holes 9 in the disk 8 enters the working chamber 10, where acoustic oscillations occur. Passing the working chamber 10, the acoustic oscillations through the outlet 16 are directed to the gas duct, where the coagulation of the pellet occurs.

Description

whether. The effectiveness of the coagulation effect of acoustic oscillations on dust particles, i.e. the efficiency of combining fine dust particles into large

particles (aggregates), depends on the shape of the forming cone 3 and the inner surface of the diffuser 2. 1 Cp f-crystals,

1 il.

The invention is intended for coagulation (enlargement) of fine dust particles and can be used in many technological processes in the chemical, metallurgical, mining, cement and other industries.

Acoustic sirens are known - low-frequency electric sirens C-34 and C-43, which are a hollow rotor attached to an axis of an electric motor. On the case of an electric motor, a stator is mounted, which, like the rotor, has 8 windows. Sirens operate without compressed air.

A disadvantage of the known electric sirens is their small acoustic power, due to which they have a low coagulation effect of acoustic oscillations on dust particles,

Closest to the proposed design is an acoustic siren comprising a housing, a diffuser and a cone located inside the diffuser.

A disadvantage of the known acoustic siren is the insufficiently high coagulation effect of acoustic oscillations on dust particles caused by the imperfection of the shape of the generatrix of the cone and the inner surface of the diffuser.

The purpose of the invention is to increase power.

This goal is achieved by the fact that the cone is made with a generator, the coordinates of the points of which correspond to the relation

Y 0.84 X + 5.24 1 (Г2 X3 + 9.89 X5, moreover, in the system of rectangular coordinates, the center of which is aligned with the top of the cone, the Y axis is aligned with the central axis of the cone.

Another difference is that the inner surface is made with a generator, the coordinates of the branches of which correspond to the relation

Y 4.2 + 0.286 X + 1.89-1 (G4 + 4, (G9 X5,

moreover, in the rectangular coordinate system, Y is the ordinate value, measured from the base of the diffuser along its central axis, and X is the value of the coordinate of the generatrix along the abscissa axis.

The essence of the invention is to optimize the shape of the cone and the diffuser in order to create the most effective propagation of sound vibrations through the annular channel enclosed between the cone and the diffuser, which leads to an increase in the coagulation effect of acoustic oscillations on dust particles.

The drawing shows an acoustic siren, a slit.

The acoustic siren consists of case 1, cone 2 and cone 3. Inside the case

1, a compressed air chamber 4 is located connected to a compressed air line (not shown) by means of a nipple 5. A diffuser 2 is fixed to the body 1 by means of a flange 6 and bolts 7. Between the body 1

on the one hand, and the diffuser 2 and the cone 3, on the other hand, the disk 8 is mounted. The disk 8 contains cylindrical holes 9 located between the compressed air chamber 4 and the working chamber 10 formed by the space between the diffuser 2 and the cone 3. The cone 3 is attached to the housing 1 by nuts 11, screwed all the way onto the threaded pin 12 of the cone 3. The gasket 13 and 14 are used for sealing

chambers 4 compressed air. The flange 15 on the housing 1 serves to mount the acoustic siren.

Acoustic siren works as follows.

Compressed air from the network (0.3 + 0.4 MPa) through the nozzle 5 is supplied to the compressed air chamber 4, from where it passes through the cylindrical holes 9 in the disk 8 to the working chamber 10, where acoustic oscillations occur. Passing the working chamber 10, the acoustic oscillations through the outlet 16 are directed into a gas duct (not shown), where the dust coagulates.

The effectiveness of the coagulation effect of acoustic oscillations on dust particles, i.e. the efficiency of combining fine dust particles into large particles (aggregates) depends on the forms of the cone 3 and the inner surface of the diffuser 2.

Six designs of a cone 3 and six designs of a diffuser 2 were tested, as a result of which it was established that the greatest coagulation effect of acoustic oscillations on dust particles is achieved provided that the cone 3 is made with a generator, the coordinates of which correspond to

Y 0.94 X + 524 1СГ2 X3 + 9, 89 X5, and the inner surface of the diffuser 2 is made with a generator, the coordinates of the branches of which correspond to the relation

Y 4.2 + 0.286 X + 1.89 X3 + 4.259 xY-9X5

Comparative tests of the acoustic siren and the prototype showed that the effectiveness of the coagulation effect of acoustic oscillations on dust particles in the proposed siren is 1.5-2 times higher than that of the prototype. Thus, aggregates of dust particles resulting from the coagulation effect of acoustic oscillations of a siren consist of 45 + 60 fine particles, while in the prototype there are 30-35 fine particles,

Claims (2)

1. Acoustic siren, containing a disk with 0 rigidly connected to the body five 0 version, cone, base of the cone and fitting for air supply, characterized in that, in order to increase the power, the cone is made with a generator, the coordinates of the points of which correspond to the ratio Y 0.94 X + 5.24 10 2 X3 + 9.89 X5, and in the system of rectangular coordinates, whose center is aligned with the top of the cone, the Y axis is aligned with the central axis of the cone. 2. A siren according to claim 1, characterized in that the inner surface of the diffuser is formed with a generator, the coordinates of the branches of which correspond to the relation Y 4.2 + 0.286 X + 1.89 X3 + 4.259 , moreover, in the rectangular coordinate system, Y is the ordinate value, measured from the base of the diffuser along its central axis, and X is the value of the coordinate of the generatrix along the abscissa axis. 25