SU720295A1 - Ball flow meter - Google Patents

Description

: t The invention relates to the measurement of the flow of liquid media. A flow meter is known in which the rotational speed of the working member is recorded using a signal pickup unit mounted on the primary converter housing and connected through an amplitude discriminator with a frequency meter and recording devices 1. A disadvantage of this flow meter is the presence of an amplitude discriminator complicating the secondary instrument of the flow meter. A ball-type flowmeter is known, comprising a housing with a screw guide device installed inside it, a restricting ring and a ferromagnetic ball freely disposed between them. The revolutions of the ball are recorded using a magnetic induction pickup unit, made in the form of one or two coils wound on a core, which is a permanent magnet, and connected to a frequency meter. The disadvantage of this flow meter is low accuracy and reliability due to the fact that The permanent magnet of the signal pickup unit exerts a significant force on the ball. This leads to wear on the meter body. The purpose of the invention is to increase the accuracy and reliability of measurement by reducing the force effect of the signal pickup unit on the ball. The goal is achieved by additionally introducing a frequency-analog converter and a DC source into the device, and the core of the signal pickup unit is made of a magnetically soft material, with one of the windings of the signal pickup unit connected to the frequency meter and to the input of the frequency-analog converter, output which is connected to the control e-M i input DC source, and the second winding is connected to the output of the DC source. The drawing shows a diagram of the device. On the case of the primary converter 1 of the flow, the node 2 of the signal pickup consisting of the core and the bottom is fixed; windings. One of the windings is connected to the frequency meter 3 and the converter 4 frequency-analog. The output of this converter is connected to the control input of the source 5 of direct current, the output of which is connected to the second winding of the signal pickup unit 2

The device works as follows.

One of the windings of the signal removal unit 2 is energized from the DC source 5, as a result of which the core is magnetised. When the ball passes under the node 2, the signal is removed in the second winding, a pulse is induced, which is fed to the frequency meter 3 and recorded. The amplitude of the pulse and the impact on the ball is proportional to the speed of the Ball passing through a magnetic field. If you increase the cost and, consequently, the rate of advancement of the ball, it is necessary to reduce the intensity of the magnetic field,. For this purpose, a frequency signal from the signal pickup node 2 is input to the frequency-analog converter, and a control signal is removed from its output, which reduces the current strength of the DC source 5, which results in a decrease in the magnetic field intensity with increasing speed s1seny ball.

Claims (1)

1.Fresh to L.L. and Challenge L.N. Tachometric flowmeters. L., 3968 s. 182-183. 2, P.P. Kremlin Flow meters and quantity counters. L., 1975, with. 360-361 (prototype).