SU1080018A1 - Jet-type consumption converter - Google Patents

Description

The invention relates to measuring equipment and, in particular, can be used to measure water flow in pressure pipelines of irrigation systems.

A known flow meter comprising a housing with inlet and outlet nozzles, a bellows mounted on a partition having an opening against which the nozzle and is located with a gap, and an input signal converter to output C 1J.

Known jet flow meter containing inlet and outlet nozzles, forming a nozzle, coaxial to which is located the receiving nozzle, the Converter [2].

A disadvantage of the known device is that when measuring the flow rate, only part of the kinetic energy of the jet is used, which limits the measurement range. In addition, the known device is characterized by technological complexity of manufacture.

The purpose of the invention is to simplify the design and expand the dynamic range of measurement.

This goal is achieved by the fact that in the jet flow transducer containing the inlet and outlet nozzles, forming a nozzle coaxially to which the receiving nozzle is located, the transducer forming and receiving nozzles are made with an axisymmetric divider and annular in cross section, while inside it is made in the form of a receiving chamber an axisymmetric body with a through channel connecting the chamber cavity with the cavity between the forming and receiving nozzles is mounted on the nozzle.

The drawing shows a diagram of the device.

The jet flow converter comprises a housing 1 with input 2 and output 3 nozzles. The inlet nozzle is made in the form of a nozzle 4 with an annular flow kgmal formed by an axially symmetric divider 5. A receiving nozzle 6, also having an annular section formed by an axisymmetric body 7, in which is made channel 8, communicated with the cavity of the chamber 9 of the receiving nozzle. A piezoelectric element 10 is installed in the end wall of the cavity of the chamber 9, connected via an amplifier 11 to a transducer 12.

The device operates as follows.

The controlled medium enters through the inlet pipe 2 to the nozzle 4 Yu and is formed last into the jet having an annular shape. The jet of the measured medium enters the receiving nozzle 6, developing a pressure in the chamber 9, under the influence of which 15 the medium enters through the channel 8 into the internal cavity of the ring jet. In this case, the pressure inside the annular cavity of the jet increases and at the same time the jet formed by the channel 8, striking the end of the divider 5, deflects the annular jet, which takes the form of a diverging cone. As a result of the fact that the base of the diverging cone becomes larger than the annular section of the receiving nozzle b, the pressure in the chamber .9 sharply decreases ¹ , which causes a decrease in pressure in the cavity of the annular jet. In view of this, the jet flowing from nozzle 4 acquires an annular shape and the pressure in the receiving nozzle b rises, i.e. the cycle repeats. The pressure fluctuations in the cavity of the chamber 9 are converted by the piezoelectric element 10 into a frequency, which, after amplification by the amplifier 11, is transmitted to the output of the transducer 12. The frequency of the pressure fluctuation in the chamber 9 is a measure of the flow rate of the controlled medium.

Thus, the execution of the jet-forming nozzle and the receiving nozzle of an annular shape and the channel, the entrance of which is connected 45 to the cavity of the receiving nozzle chamber, and the output is placed in the cavity formed by the gap between the forming and receiving nozzles, allows to increase the measurement range due to the fact that the dynamic pressure developed by the annular jet is completely perceived by the receiving nozzle and enters the internal cavity of the annular jet.

Claims (1)

A FLOW CONVERTER OF FLOW, containing an inlet and an outlet nozzle, forming a nozzle coaxially to which a receiving nozzle is located, a transducer, characterized in that, in order to simplify the design and expand the dynamic range of measurement, the forming and receiving nozzles are made with an axisymmetric divider and ring-shaped in the transverse a cross-section, while inside the intake nozzle made in the form of a chamber, an axisymmetric body with a through channel connecting the chamber cavity with the cavity between the receiving and receiving nozzles d £ \ 7 6 \\ 12 "----- If