SU870937A1 - Flowmeter - Google Patents

Description

(54) FLOW METER

Ich

The invention relates to OLIA instruments for measuring the flow rate and the amount of liquids or gases.

Vortex counters are known with devices for stabilizing vortex oscillations created by a rotating flow or a poorly flowing body installed in the flow under study.

. A flow meter is known in which an even number of sharp edges are applied on the surface of the body being streamlined, creating an uneven opening of the vortex. An example of such a device is the body of wrapping in the form of prisms of triangular or rectangular section 13.

When the length of the body is large, the coherence of the separation of the vortices of the entire face length is violated, which leads to errors in the measurement process.

To stabilize the processes of vortex formation when the body is wrapped around the body, the vortex formation areas on opposite sides of the body of flow are connected by transverse

the channel providing the process of dynamic relaxation of Csl. Stabi / Ezici is carried out in a narrow flow range, since a significant change in the flow velocity of bodies shifts the vortex formation region. In this case, several transverse channels have to be made, which complicates the design. Good stabilization is achieved when installed in the test stream.

10 two bodies of different confluence, one after another K1iz downstream on the normal axis Z.

This gives the positive effect of increasing the complexity of xfiguring and increasing

15 dimensions of the device.

A sharp transverse edge on the forming port of the flowmeter with a rotating flow stabilizes the process of the measured flow process 4}. Constructions

Twenty rotary flow meters are more complex than a flow body flow meter.

Closest to the one proposed is a vortex flow meter with artificially excited vortices. In the design of the MtBift flow, two Cilinator obscuate blessed after another were placed. The oscillations that arise on the second upstream shilinore enter the hydraulic booster, which is connected to the inner chambers of the first cylinder. The amplified supply pulses form on the rotational direction of the first cylinder, which is alternately formed by vortex formations, which, falling on the second cylinder, support the stable auto-oscillatory process LSJ.

The described devices stabilize the process of their transformation, but they do this tja due to the significant complexity of the design and do not always provide the task in all of the costs.

The purpose of the invention is to simplify the device for stabilizing the vortex formation and to improve the measurement accuracy.

This goal is achieved by the fact that in a flow meter containing a vortex oscillator, receivers of vortex oscillations, a measurement circuit, a hydraulic booster of vortex vibrations and a control circuit of the hydraulic booster, the hydraulic booster of vortex vibrations is made in the form of membranes built into the walls of the pipeline to which the pipe is attached the directions connected by a rigid rod, the vortex oscillation receivers are installed on the membranes, and the control circuit of the hydraulic booster is made in the form of two connected to the outputs omnikov vortex oscillations to the outputs of the amplifiers are connected usnliteli power - formyrsyuateli, wherein the output of the first power amplifier - f (tors, connected to the input of the second amplifier and the output of the second amplifier msadnosti - shaper is connected to the input of the first amplifier.

The drawing shows hepedomer flowmeter, abundance view.

The flow meter includes a housing with a generator of vortex oscillations 1, receivers of vortex oscillations 2, membranes 3, rod 4 | bushings., bushing, connectors 6 and 7 for makers of impulses 8 and 9 The flow of the measured medium in the direction of the arrow enters the generator on the vortex generator 1, where the created vortex pressure oscillations alternately act on the receivers 2 through the membranes 3. They are attached to the membrane M1 | 5, into which the rod 4 is screwed. Into the oscillation of pressure; acting on the upper receiver 2, it creates an electric pulse, which is amplified

the amplifier 6 is formed by the power amplifier 7 and then excites the piezoelectric element of the lower receiver 2, the displacement of which is applied through the rod 4 to the upper receiver 2. When the vortex pressure oscillations affect the lower receiver 2, the resulting electrical impulse is amplified and creates a mixing of the piezoelectric element of the upper receiver 2 which is transmitted through the rod 4 to the lower receiver 2. The receivers are discharged by the piezoelectric yen. The thread in the sleeves 5 are made in different directions. Rotating the rod 4 regulates the clamping degree of the receivers 2,

The described vortex flowmeter allows you to stabilize the vortex-image process (genre, increase the output signal level and thereby expand the flow range emitted by a single device, as well as improve the measurement accuracy by stabilizing the process

Claims (5)

1. US patent Mi 3948О97, cl. 73-194, 1976. 2. The patent of Japia M "50-3181, cl. 108 D 2, 1975. 3. Japanese Patent N 52-33975, cl. 110 D 2, 1977. 4. Patent FRG N 2408323, кп.6 01 F 1/32, 1977. 5. Rashodomery, Karekan Nyusu, 1978, 26, 9, p. i-3 (prototype). e -ZL - / fV