SU1432287A1 - Fluid-jet self-excited oscillator - Google Patents

Abstract

This invention relates to automatic control. The purpose of the invention is to increase the linearity of the characteristics and reduce the size of the jet oscillator. The jet autogenerator contains a jet discrete element 2 containing a power nozzle 5, flat side walls 7, 8, two receiving channels 13, 14, a separator 9 with a concave deflector iO, drain channels 16, 17 located under the receiving channels 13,14, and feedback channels 22, 23. The execution of drain channels with a cross section in the form of a rectangle and their connection with receiving channels perpendicular to the bottom of the latter reduces the dimensions of the jet autogenerator and increases the linearity of its operation. 1 il. with S (L S

Description

The invention relates to automatic control and can be used to build converters for the flow of liquid and gases. g

The aim of the invention is to improve the linearity of the characteristics and reduce the size of the jet self-oscillator.

The drawing shows a jet 10 generator.

The oscillator includes a housing I, in which there is a jet element 2, input 3 and output 4 nozzles. Inkjet element 2 is a recess of constant depth and contains a power nozzle 5 included in the working chamber 6, inclined walls 7 and 8 of the working chamber, a separator 9, on which there is a concave deflector 20, nozzles 11 and 12 of the control, receiving channels 13 and 14, a discharge channel 15, drain channels 16 and 17, connected to the discharge channel of the recesses 18 and 19 on the walls of the working chamber 25 and the recesses 20 and 21 on the walls of the separator. The nozzles II and 12 of the control of the inkjet element are connected by feedback channels 22 and 23 to the receiving channels 13 and 14. The inkjet element 2 and the feedback channels are closed by a lid. The receiving channels 13 and 14 have a width, the drain channels 16 and 17 are made in the form of a rectangular groove with rounded ends with small ^ d h ₂ and large h_5 sides.

The oscillator operates as follows.

The working medium (gas or liquid) through the inlet pipe 3 enters the dd power nozzle 5 and flows into the working chamber in the form of a jet. · The jet under the influence of the pressure difference on both sides of the jet adjoins one of the walls of the working chamber, for example, to wall 45, 7, flows along it and enters the receiving channel 13, in which the pressure increases compared to the pressure in the receiving channel 14. Part the jet flow rate, not consumed in channel 13, flows through the drain port 17 into the discharge channel 15 and then to the outlet pipe 4.

Part of the jet is cut off by a concave deflector 10 and directed into the region between the jet and wall 8. Colliding with wall 8, the cut-off stream is divided into two parts: the current along wall 8 towards channel 12 and falling into the recess 19. The first of these creates in the area between the jet and wall 8 increased pressure, pressing the jet against the wall 7.

After a time equal to the response time of the element, the main stream reaches the channel 14, in which the increased pressure is established. As a result, stable oscillations of the jet are established with a frequency proportional to the flow rate of the medium.

Claims (1)

Claim An autogenous generator containing a symmetrical discrete inkjet element consisting of a working chamber bounded by two flat side walls, two control nozzles, two receiving channels, a separator with a concave deflector, two drain channels and two feedback channels, each of which connects the. a removable channel and a control nozzle located on one side of the axis of symmetry of the jet discrete element, characterized in that, in order to reduce the dimensions and improve the linearity of the characteristics of the oscillator, each drain channel is made in the form of a rectangular groove with rounded ends and is located in relation to to its receiving channel perpendicular to its bottom so that the large side of the drain channel cross section is perpendicular to the axis of the reception channel, wherein _{<h ^, 'h J ^} l, 5-2h i, where li ^ - reception channel width of the area IU dy working chamber and a discharge channel, - a small-sectional side downcomer, a - large side sectional downcomer. VNIIPI Order 5409/30 ________ Circulation 652 ______ Subscriber Custom polygr. ave, city of Uzhhorod, st. Project, 4