SU1136846A1 - Rotary siren - Google Patents

Abstract

ROTARY SIREN, containing a stator in the form of a hollow cylindrical body with end clamps and slit-like through holes on its cylindrical surface, mounted inside it and coaxially with the rotor with blades for periodically blocking the stator holes, and the blades are located on one of the end sides the rotor and their number is equal to the number of holes on the cylindrical surface of the stator, and the end cover of the stator, facing the blade, has an opening for supplying the working agent inside the housing, differing from In order to expand the high-frequency radiation spectrum, the blades are made wedge-shaped and mounted relative to the end surface of the rotor, extending part towards the cylindrical surface of the stator, and on the end cover of the stator facing the blades, additional holes are made to bring the working agent inside all the holes for the supply of the working agent are located on at least one circle, the diameter of each of which is less than the width of the blade on the weapon, and their number exceeds the number of blades.

Description

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Fig. H. The invention relates to rotary radiators of ultrasonic vibrations and can be applied in chemical, engineering and other fields of technology. A well-known rotary siren containing a stator in the form of a hollow cylindrical body with end caps and slit-like through holes on its cylindrical surface, mounted inside it and coaxially with it a rotor with blades for periodically blocking the stator openings, the rotor and their number is equal to the number of holes on the cylinder, the stator's surface, and the end cover of the stator, facing the blade m, has an opening for supplying the working agent to the inside of the case i. ; Ned; the remainder of this device is that the spectrum of oscillations (contains only odd harmonics of the fundamental frequency) is determined by the right angular shape of the rotor and stator apertures, the number of holes and rotor speed in a unit of time. The set of harmonics is determined by the formula of holes and the ratio the number of holes of the rotor and stator. However, if a change in these parameters allows to obtain an oscillation spectrum close to white noise, then the intensity of oscillations at the same time is dramatically lower. The purpose of the invention is to expand the high-frequency emission spectrum. The goal is achieved by having a rotary siren containing a rotary cylindrical body. and with covers and slit-shaped skosny holes on its cylindrical surface, mounted inside it and coaxially with it a rotor with blades for periodically closing off the stator oTsepcTHt, with the blades placed on one of the end sides of the rotor and their number is equal to the number of holes on the cylindrical surface of the stator, the rotating cover of the stator facing the blade m has an opening for supplying the working agent inside the case, the blades are wedge-shaped and installed radially; with respect to the end surface of the rotor, the expanding part towards the cylindrical surface of the stator, with the end cover of the stator facing the blades m having additional openings for supplying the working agent to the inside of the housing, while all openings for supplying the working agent are at least one a circle, the diameter of each of which is less than the width of the blade on a given circle, and their number; exceeds the number of blades, Fig. 1 shows the proposed siren, diametral section; figure 2 - end surface of the siren, view; figure 3 - section aa in figure 1. The siren consists of a rotor 1 with a blade 2, connected by means of a shaft 3 with a rotating drive. A stator 4 mounted on the covers of the stator 5 and 6 is mounted coaxially with the rotor. The cover of the stator 6 facing the blade m 2 has openings 7 for supplying the working agent inside the siren body. In the case of several agents entering the body, not air or liquid, tubes 8 are inserted into a part of the holes, connecting the internal cavity of the siren with the atmosphere. In the stator, on the cylindrical surface, there are made through rectangular windows, the number of which is equal to the number of blades 2 of the rotor 1. The blades 2. are made wedge-shaped, expanding in the direction of the stator, i.e. in section by a plane to which the axis of rotation of the rotor is perpendicular and represents sectors with truncated vertices. The holes can be arranged in several rows with different numbers on each circle. However, the number of holes does not exceed the number of rotor blades. Such a design allows a siren to generate, in addition to an overtone and odd harmonics, high frequency oscillations, and depending on the multiplicity of the number of blades and the number of circles of their angular displacement relative to each other, the saturation of the spectrum with high frequencies can be varied. Practically due to modulation, each hole in the stator can generate an individual set of frequencies. In this case, the device design presents no difficulties, since it does not require making holes with different shapes in the rotor and the stator. The device works as follows. , - .. The drive rotates the shaft 3 of the rotor 1. Due to the centrifugal forces through the holes, the liquid is sucked into the internal cavity of the siren and when the holes of the rotor coincide with the holes of the stator is thrown out. In this case, the pressure impulse of the fluid propagates in the volume where the siren is installed. The pulse shape is already determined not only by the shape of the holes in the rotor and stator, but also by the total cross section of the after-overly overlapping holes 7 in the stator cover 6 within the sector between adjacent blades mi with the coincidence of the hole area of the rotor and stator. Since the total holes and the law of their change within the specified limits when the number of holes is not smaller.

than the number of blades for each of the channels formed by the sector between the blades becomes individual, the intensity and frequency set becomes unique to that channel while maintaining the overtone determined by the number of rotor holes and

the stator, as well as the rotor speed per unit time.

The result of such a measurement is white noise in the high frequency range, i.e. frequencies above the overtone, which allows to intensify technological processes.

Claims (1)

A ROTOR SIREN, containing a stator in the form of a hollow cylindrical body with end caps and slit-like through holes on its cylindrical surface, a rotor with blades installed coaxially with it and blades for periodically blocking the stator holes, the blades being placed on one of the end faces of the rotor and their number equal to the number of holes on the cylindrical surface of the stator, and the end [stator lid facing the iopast has a hole for supplying the working agent into the housing, different .. that, with In order to expand the high-frequency emission spectrum, the blades are made wedge-shaped and are mounted relative to the end surface of the rotor, expanding partly towards the cylindrical surface of the stator, and additional openings are made on the end cover of the stator facing the blades to supply the working agent inside the housing, all openings for the supply of the working agent are located on at least one circle, the diameter of each of which is less than the width of the blades on this weapon, and their number exceeds The number of blades. -SU - .. ”1136846 chemical and other contents15 t