SU1081421A1 - Jet-type flowmeter - Google Patents

Abstract

A JET FLOW METER consisting of a jet oscillation generator containing an input nozzle, a working chamber, a separator installed opposite the nozzle, two output channels located on opposite sides of the working chamber, as well as two symmetrical feedback circuits, each of which includes an input part, located in the zone of the separator, and the output part in the form of a control nozzle located at the entrance nozzle perpendicular to its axis. And a converter and ampoule into an electrical signal connected to the jet generator to In order to improve measurement accuracy, one pressure drop point is located in the control nozzle of the first feedback circuit, and the other is at the input of the second feedback circuit ( L connection

Description

w 6 The invention of firewigs to pneumatic avalanche and can be used to create flow and flow transducers in ACS systems, etc., and can also be used in power engineering, chemical, petrochemical and other industries. The flowmeter has an inlet nozzle. The output channel, located on the opposite side of the working chamber, two receiving channels located on different sides of the working chamber, two control nozzles and two feedback channels, connect n guides pairwise receiving channels with the control nozzles, the two side walls of the chamber disposed near the nozzle, and a pressure transducer oscillations in an electric signal Si sky. The closest to the invention to the technical essence is a jet flow meter, the jet oscillation generator in which comprises an inlet nozzle, two receiving channels located on the opposite side of the working chamber, a separator located between these channels, two output channels located on opposite sides of the receiving channel are two control nozzles, two feedback channels connecting in pairs the receiving channels with control nozzles, and a pressure oscillator into an electrical signal, moreover, the converter inputs are connected to feedback channels t2. A disadvantage of the known device is low measurement accuracy due to the fact that the inputs. the converter is connected to the feedback channels, and the oscillation frequency of the liquid jet in the jet oscillation generator is determined not only by the flow rate from the input nozzle proportional to the flow rate, but also by the speed of signal propagation through the feedback channels independent of the flow rate. The aim of the invention is to increase the measurement accuracy. This goal is achieved by the fact that in a jet flow meter consisting of a jet oscillation generator containing an inlet nozzle, a working chamber, a separator installed opposite the nozzle, two output channels located on different sides of the working chamber, as well as a double backward connection circuit, each of which includes an input part located in the zone of the separator, and an output part in the form of a control nozzle located at the input perpendicular to its axis, and a pressure transducer into an electric signal connected by a co-jet eratorom oscillations in pressure selection points, one point selection is pressure control in the nozzle of the first feedback circuit, and the other - to the second input of the feedback circuit. The drawing shows the proposed device. The jet flow meter consists of a jet generator, which contains an inlet nozzle 1 leaving the working chamber 2, two symmetric feedback circuits 3 and 4, each of which includes input parts 5 and 6 and output nozzles 7 and 8 of control, two output channels 9 and 10, the separator 11, as well as the converter 12 pressure oscillations into an electrical signal. Jet flow meter operates as follows. When a measured medium enters the inlet nozzle 1, a jet is formed at the nozzle outlet, which flows into the working chamber 2. As a result of pressure fluctuations or other disturbances, the strut deviates from the linear direction and attracts along one of the walls of the working chamber. enters the input channel 5 of the feedback circuit. The main part of the jet through the output channel 9 enters the output of the flow meter. At the same time, the signal from the receiving channel 5 through channel 3 feedback, through time, enters the output control bus 7. After a time tj, the jet, flowing from the inlet nozzle, passes to the opposite end of the working chamber, and the process is repeated. Thus, auto-oscillations arise in the jet distance meter. Consequently, the period of oscillation of the jet flow meter is from twice the sum of the signal passage through the brotherly coupling circuit tpj, and the signal passing time from the input nozzle to the separator i (t,. where POC is the length of the inverse channel, c is the speed of sound. Consequently K, b, 1, 214 It is clear from this formula that the impulse response of the flow meter is determined by the amount of time the signal travels through the feedback circuit t – 2s / a. it, for which one selection point of the pressure transducer is located in the jnpaft nozzle of the first feedback loop, and the other at the input of the second circuit of the atomic coupling. sticks and, as a result, accuracy is lost.

Claims (1)

JET FLOW METER, consisting of a jet oscillation generator containing an input nozzle, a working chamber, a separator opposite the nozzle, two output channels located on opposite sides of the working chamber, and two symmetric feedback circuits, each of which includes an input part located in the separator zone, and the output part in the form of a control nozzle located at the input nozzle perpendicular to its axis, and a pressure transducer into an electrical signal associated with the jet oscillation generator in pressure sampling points, which is due to the fact that with a circuit for increasing the accuracy of measurement, one pressure sampling point is located in the nozzle of the control of the first feedback circuit, and the other at the input of the second feedback circuit. SU „„ 1081421