SU1298433A1 - Turbulence amplifier - Google Patents

Abstract

The device can be used in pneumatic automation and contains a vortex chamber 4 with power supply channels 2, control 3 and an output channel 6. The execution of the side wall of a hyperbolic or conical shape allows eliminating stagnant zones in the vortex chamber and increasing the gain. 4 3. p. F-ly, 5 ill. (L 1C 00 4 00 with

Description

This invention relates to automatic control and can be applied to jet pneumatic automation systems.

The aim of the invention is to increase the power gain.

FIG. 1-4 shows the walls of the vortex amplifier, cuts; in fig. 5 is a section A-A in FIG. 1-4.

The vortex amplifier consists of body 1, radial power channel 2, tangential control channel 3, vortex chamber 4, front cover 5, central output b, rear cover 7, side wall 8 of the vortex chamber made in body 1.

The side wall 8 of the vortex chamber can be made in the form of a hyperbolic surface (FIG.), In the form of two adjoining parts of the hyperbolic surfaces (Fig. 2), in the form of a conical surface (Fig. 3) or in the form of two conjugate parts of conical surfaces (Fig. 4).

Vortex amplifier works as follows.

In the absence of a control signal, the jet from feed channel 2 is fed radially to output channel 6.

The pressure drop of the feed stream from channel 2 to output channel 6 in this case is not significant.

When a control signal is applied that is directed perpendicular to the feed jet, the power supply and control jets interact. The resulting jet, which is deflected by a certain angle due to the rarefaction at the lateral surface, is attracted to it. With the continuous supply of a control signal, a vortex motion is generated. As a result, a pressure gradient appears that increases the resistance in the flow direction from feed channel 2 to output channel 6.

Making the vortex section cross section variable with the side wall that forms it, for which hyperbolas or straight lines intersecting the axis of the central vortex channel are selected, eliminates stagnant zones in the corners of the vortex chamber inherent in the vortex amplifier

wall, and contributes to the reduction of losses and pulsations of the output stream.

Claims (5)

1. A vortex amplifier containing a radial power channel and a tangential control channel connected to the vortex chamber formed by the front wall of the central output channel, the rear flap and the side wall forming the distance from the axis of the central output channel at a distance increasing by the helix principle as the control channel forms from one wall to another opposite its wall, characterized in that, in order to increase the gain, the section of the vortex chamber is perpendicular to The y axis of the central output channel is made variable throughout the entire area from the rear of the cover to the front wall. 2. The amplifier according to claim 1, is distinguished by the fact that the forming side wall is a segment of a hyperbola whose vertex is located on the axis of the central output channel outside the vortex chamber on the side of its front wall, and the angle between the asymptotes of the hyperbola is 15-30 ° 3. The amplifier according to claim 1, characterized in that the forming side wall consists of two segments of two hyperbolas adjoining each other, the vertices of which are located on the axis of the central output channel on opposite sides of the vortex chamber beyond its limits, and the angle between the asymptotes of each hyperbola equals 15-30 °. 4. Amplifier according to claim I, characterized in that the forming side wall is a straight line intersecting the axis of the central exit channel outside the vortex chamber from its front wall at an angle of 7 ° 30-15 °. 5. Amplifier according to claim 1, characterized in that the forming side wall consists of two adjacent straight lines intersecting the axis of the central output channel on opposite sides of the vortex chamber outside at an angle of 7 ° 30-15 °. 2 Fig.Z Fy 9U2.6