SU1647163A1 - Vortex jet diode - Google Patents

Abstract

The invention relates to inkjet technology. The diode contains a cylindrical chamber 1, a tangential nozzle 2, an output nozzle 3 and blades 5. plates 8 installed at the exit nozzle 3 and along the side wall of the cylindrical chamber 1 with the formation of slots 9. Installing plates 8 along the side wall significantly increases the device's diode. 1 hp ff, 2 ill.

Description

The invention relates to automatic control and can be used in pneumatic devices.

The purpose of the invention is to increase the diode flow rate of the diode.

Figure 1 shows the design of the vortex jet diode: figure 2 is the same, cross section.

The vortex jet diode comprises a cylindrical chamber 1 with a tangential 2 and an outlet 3 nozzles and a tube 4. In the cylindrical chamber 1 near the outlet nozzle 3 there are guide vanes 5 made in the form of an annular row of arcuate plates. The blades 5 are connected to the bases 6 and partially overlap one another with the formation of transverse slots 7. The lateral surface of the cylindrical chamber 1 is made in the form of an annular row of arcuate plates 8. In this case, transverse slots 9 are formed. In the vortex jet diode, the plates 5 and 8 are pivotally connected to the bases 6 cylindrical chamber 1.

Vortex jet diode operates as follows.

When flowing in the forward direction, flow through the tube 4, the outlet nozzle 3 and the transverse slots 7 between the blades 5 enters the cylindrical chamber 1 and leaves the chamber 1 through the tangential nozzle 2. When flowing in the forward direction in the transverse slots 9 of the plates 8, a vacuum forms, as a result, air from the atmosphere through the slots 9 is mixed with the supply air in the cylindrical chamber 1 and increase the flow rate in the forward direction. In this case, the flow resistance is small and consists mainly of the resistance of the axial flow exit to the chamber 1 and the resistance of the entrance to the tangential nozzle 2 from the chamber 1.

In the opposite direction, the flow through the tangential nozzle 2 enters the cylindrical chamber 1, where it is twisted and exits through the transverse slots 7 between the blades 5, the outlet nozzle 3 and the tube 4. A part of the flow is discharged through the transverse slots 9 into the atmosphere. In this case, the total resistance is the sum of the resistance of the chamber 1 and the resistance of the inlet of the swirling flow into the tube through the transverse slots 7 and the output nozzle 3. The resistance in the opposite direction is significantly greater than the resistance in the forward direction. The rotation of the plates 5 and 8 in the diode allows you to adjust the degree of diode flow rate.

Claims (2)

Claim 1. A vortex jet diode containing a cylindrical chamber formed by two bases and a lateral surface with a tangential nozzle, an output nozzle and guiding arcuate rectangular vanes mounted on its periphery and a tube connected to the output nozzle, so that that, in order to increase the flow diode, the lateral surface of the cylindrical chamber is made in the form of an annular row of arcuate rectangular plates connected to the bases of the cylindrical chamber and partially overlapping one another with the formation of cracks directed towards the tangential nozzle. 2. The diode according to claim 1, characterized in that the arcuate rectangular plates are pivotally connected to the bases of the cylindrical chamber with the possibility of rotation around the longitudinal axes. Compiled by B. Shevchenko Editor A. Kozoriz Tehred M. Morgenthal Corrector A. Osaulenko  * L Order 1385 Circulation 387 Subscription VNIIIPI of the State Committee for Inventions and Discoveries under the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Plant Patent, Uzhgorod, Gagarin St. 101