SU1576726A1 - Pneumatic machine - Google Patents

Abstract

This invention relates to pneumatic machines with a rotor rotating in a housing. In order to increase the efficiency of sound attenuation and reduce the level of vibration in the machine, comprising a housing 1 with supply and removal channels for the working medium, the rotor 7 is installed on the longitudinal guide ribs 4 in the cavity 6 of the rotor 7 with eccentric cavities 8 and installed in The plates 9 and the noise silencer 10 are formed by the outer surface 11 of the stator 5 and the inner surface 12 of the housing 1. On the guide ribs 4, through slots are inclined to the longitudinal axis 13 of the housing 1. On the inner surface 12 of the housing 1 in the chamber of the silencer 10, at least one annular partition is made, dividing the silencer 10 into two cavities, in each of which the angle of inclination and the width of the prophets in the guide ribs 4 are different. 1 hp f-ly, 2 ill.

Description

The invention relates to the field of engineering, in particular to pneumatic machines with a rotor rotating in the housing.

The purpose of the invention is to increase the efficiency of sound attenuation and reduce the level of vibration.

In FIG. 1 shows a pneumatic machine, a longitudinal section; in FIG. 2 is a section AA in FIG. 1.

The pneumatic machine comprises a housing 1 with channels for supplying 2 and exhaust 3 of the working medium, a cylindrical stator 5 installed in the housing 1 on the longitudinal guide ribs 4, in the cavity 6 of the stator 5, a rotor 7 with grooves 8 and plates 9 installed in them and a noise muffler 10 made in the form of an annular chamber enclosing the stator 5, formed by the outer surface 11 of the stator 5 and the inner surface 12 of the housing 1. On the guide ribs 4 there are made through slots 14 inclined to the longitudinal axis 13 of the housing 1. On the inner surface STI 12 of the housing 1 in the chamber 10 of the muffler body 1 is formed at least one annular baffle 15 which separates the muffler 10 into two cavities 16 and 17, in each of which the inclination angle and the width of the slots 14 in the guiding ribs 4 are different. The machine also has a trigger device 18 with the trigger 19, as well as exhaust windows 20.

Pneumatic machine operates as follows.

When you pull the trigger 19 of the starting device 18, compressed air enters the cavity 6 through the supply channel 2 and, acting on the plates 9, causes the rotor 7 to rotate, the exhaust air through the exhaust windows 20 in the stator 5 enters the annular chamber of the noise muffler 10. Passing through the slots 14 in the guiding ribs 4, the flow in the boundary layer loses stability, and near the concave surface of the housing 1 quasisteady longitudinal vortex cells are formed with a size on the order of the thickness of the boundary layer in the cross section. This Taylor-Gertler instability changes the flow structure near the channel wall, where a vortex sheet from small longitudinal vortices is formed. Large-scale vortices moving in the direction of the arrows in the flow core interact with the Taylor-Gertler vortices and collapse before reaching the surface of the housing 1. This reduces the vortex noise and the vibration level of the machine, since the inclination angle and the width of the slots 14 in the guide ribs 4 in the cavities 16 and 17 are different, the frequency and energy intensity of the pulsations near the surface in each of the cavities 16 and 17 are also different. This eliminates the occurrence of resonant excitation of the housing 1 under the action of a vortex flow. The exhaust air through the exhaust channel 3 is released into the atmosphere.

Claims (2)

Claim 1. A pneumatic machine comprising a housing with channels for supplying and discharging a working medium, a cylindrical stator installed in the housing on longitudinal guide ribs, in the cavity of which a rotor with grooves and plates installed in them and a noise muffler, made in the form of an annular chamber enclosing the stator, formed by the outer surface of the stator and the inner surface of the housing, characterized in that; that, in order to increase the efficiency of sound attenuation and reduce the level of vibration, through the slots through the slots are inclined to the longitudinal axis of the body in the guide ribs. 2. Machine by π. 1, characterized in that at least one annular partition is made on the inner surface of the housing in the silencer chamber, dividing the silencer into two cavities, in each of which the angle of inclination and the width of the slots in the guide ribs are different.