SU894217A1 - Vortex-type intensifier - Google Patents

Description

(54) SWIRL AMPLIFIER

one

This invention relates to automatic control and can be used in jet pneumatic automation devices.

A vortex amplifier is known, consisting of a vortex cylindrical chamber in which a tangential control channel, a radial feed channel and an output channel located in the center of one of the ends of chamber 1 are included.

A disadvantage of the prior art amplifier is the low gain and power gains.

Closest to the present invention, there is a vortex amplifier, comprising a housing with a cylindrical vortex chamber, radially — a power supply channel, a tangential control channel, and a central outlet orifice, relative to which a receiving channel is installed with an annular gap. A distinctive feature of this vortex amplifier: 1 amplifier is that the OUTPUT: the tissue is in communication with the atmosphere, and for receiving and transmitting the output stream to the opening, the adjacent receiving channel is not connected to it. The output stream is accepted by accepting hapal only when

the absence of a control flow,., when there is no flow turbulence in the cylindrical chamber. With air turbulence in the chamber, the flow no longer flows through the entire area of the outlet orifice, but mainly through its annular peripheral part, i.e. the output stream has the form of a hollow cone. In the receiving channel output

10 only partial flow 2.

This circuit for turning on the output channel provides an increase in the slope of the characteristic, however, the disadvantage of the known vortex amplifier 15 is Mass gain and power and gain factors.

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

The goal is achieved

20 in that a vortex amplifier comprising a housing with a cylindrical Vortex chamber, a radial power channel, a tangential control channel and a central output outlet, relative to which a receiving channel is installed with an annular gap, is made in the housing with an acute angle to the channel between 30 ventilation duct and surface

a cylindrical vortex chamber is made concave deflector.

Such a design allows the flow of the feed to the atmosphere, which contributes to an increase in the pressure gain factor, and. power. -;

The concave deflector increases the effect of discharge of a part of the feed stream to the atmosphere.

On. figure 1 shows the proposed amplifier assembly in figure 2 - section aa on.

The vortex amplifier consists of a housing 1 with a cylindrical vortex chamber 2, a radial feed channel 3, a tangential control channel 4, a back cover 5, a front cover 6 with an outlet 7 in the center.

To the hole 7 summed up the reception Kanosh 8, which is installed with an annular gap relative to it.

 At the point of entry of the feed channel 3 into the vortex chamber 2, at an acute angle to the channel 3, there is a vent channel 9 in the housing. A concave deflector 10 is located between the channel 9 and the wall of the chamber 2.

The proposed amplifier works as follows.

In the absence of a control flow, the feed flow from channel 3 moves. through chamber 2 radially to exhaust opening 7 and trapped by receiving channel 8.

The pressure drop of the feed stream from channel 3 to the receiving channel 8 in this case is insignificant.

In the presence of a control flow that is supplied through channel 4, a swirling motion occurs in chamber 2. As a result, a large part of the output stream enters the atmosphere through the annular gap formed by the outlet opening 7 and the receiving channel 8. This is due to the fact that the vortex flow does not exit.

over the entire area of the outlet, but only through the annular peripheral part of it.

In addition, the output stream is reduced. This is also due to the reset of the part by. current supply to the atmosphere through channel 9.

The concave deflector 10 serves to increase the flow through channel 9.

 Thus, the discharge of the clean power flux into the atmosphere through channel 9 allows to increase the power gain factor, especially if the power flow is completely blocked, as well as to increase the slope and reduce the influence of the load on the amplifier characteristic.

The use of the proposed vortex amplifier in automatic control devices makes it possible to increase the reliability of the systems and expand their use in manufacturing associated with vibrations, radiation, and high temperature.

Claims (2)

1. US patent, cl. 137-81.5, 3538934, published. 1970, five 2. USSR author's certificate 428116, cl. F 15 C 1/14, 1973. 6