SU1155789A1 - Fluid oscillator - Google Patents

Abstract

JET GENERATOR containing differential pneumoelectric transducer and. jet discrete element with a concave deflector, located on the separator, the power channel and two output channels, each of which is connected to the feedback channel from one of them. control channels of the jet discrete element, by means of drain channels, both output channels are connected to a drain cavity common to them, characterized in that, in order to improve accuracy, a central channel is made in the center of the concave deflector, the output of which is connected to the first input of a differential pneumo-electric transducer and the second input which is connected with (L drain cavity.

Description

ate sd

00

about 1 The invention relates to pneumogic automatic automation, more specifically, to jet generators used to build pressure and temperature flow transducers. . A jet generator is known that contains a jet discrete element feedback channels and a pressure pulsation converter for an electrical signal l3. The disadvantage of this device is the narrow range of variation of the power flow parameters, since the divider in the jet element is made wedge-shaped and, therefore, its work is based on the effect of jet attraction to the wall, which occurs when the Reynolds numbers are sufficiently close to the proposed jet generator. containing a differential pneumoelectric transducer and a jet discrete element with a concave deflector located on the separator, the power channel and two output channels, each The first of which is connected to one of the control channels of the jet discrete element via feedback channels. Both output channels are connected to the total length of the drain cavity by AND channels. However, the known device has insufficient accuracy due to the fact that the converter is installed in feedback channels in which the pressure cyujecTBeHHo is less than the deceleration pressure J since feedback is consumed through these channels, and this leads to a decrease in the amplitude of the pressure pulsation measured by and therefore, reduce the accuracy of the conversion. In addition, the installation of the converter in the feedback channel leads to the introduction of parasitic hydraulic (pneumatic) capacitors into the circuit and, consequently, to Heni-based changes in the purity of the oscillations. The purpose of the invention is to improve the accuracy of the jet generator. The goal is achieved by those in an inkjet generator containing a differential pkvmozlekopredvizatel and jet discrete zlemeyt with a concave deflector located on the separator, the power channel and two output. channels, each of which feedback channel is connected to one of the control channels of the jet discrete element, and through drain channels both output channels are connected to a drain cavity common to them, in the center of the concave deflector a central channel is made, the output of which is connected to the first input of the differential pjv , the second entrance of which is connected to the drain cavity. The drawing shows a jet generator. The generator comprises a housing 1, a Kruju 2, an inlet 3 and a code 4 nozzles, a differential pneumoelectric transducer 5. In the case there is a jet discrete element containing a power nozzle 6 extending into the working chamber 7, inclined walls of the working chamber 8 and 9, separator 10 in which a concave diverter 11 and a central channel 12, control channels 13 and 14, output channels 15 and 16, drain channels t7 and 18, and feedback channels 19 and 20 are connected, output channels 15 and 16 are respectively connected to channels 13 and 14 controls A pneumatic-electric converter 5, which is, for example, a piezoelectric pressure difference sensor, is connected to the outlet 21 of the central channel 12 and to the drain cavity 22. The jet generator operates as follows. The liquid (or gas) is supplied under pressure to the inlet 3 and through nozzles 6 it flows out into the working chamber 7 ". Under the influence of the pressure differential resulting from the Coanda effect and the internal feedback effect, the jet adjoins one of the walls, for example to the wall 8, flows along it and falls into the output 15 and drain 17 channels. The pressure in the output channel 15 increases as compared with the pressure and channel 16. The increase in pressure in the output channel 15 generates a pressure wave in channel 19, which, propagating with the speed of sound through channel 19, reaches control channel 13 and causes a transfer

Claims (1)

JET GENERATOR containing differential pneumatic electroconverter and. inkjet-discrete element with a concave deflector located on the separator, a power channel and two output channels, each of which is connected to one of the feedback channel. control channels of the inkjet Discrete element, by means of drain channels, both output channels are connected to a common drain cavity, characterized in that, in order to increase accuracy, a central channel is made in the center of the concave deflector, the output of which is connected to the first input of the differential pneumatic electroconverter, Q second input which is connected to the drainage cavity. ι 1155789 2