SU148542A1 - Pneumatic remote fluid or gas flow meter with a movable diaphragm - Google Patents

Description

PNEUMATIC REMOTE FLOW METER FOR LIQUID OR GAS WITH MOVING DIAPHRAGM

It was announced on September 22, 1961 for L 745396 / 26-10 to the Committee for Inventions and Discoveries under the Council of Ministers of the USSR

Published in the Bulletin of Inventions W 13 for 1962.

Automatic remote flowmeters of a fluid or gas with a movable diaphragm are known, which consist of a nozzle, containing a movable diaphragm made in the form of a membrane unit with two chambers: an atmospheric pressure chamber and a compensation chamber into which air is forced under pressure.

The disadvantage of these flow meters is the low accuracy of measurement and the unreliability of operation in aggressive environments. This is due to the fact that the selection of pulses is made from the limited space of the pipeline and the fact that the flowmeters use two impulse tubes from the pipeline (before and after the narrowing).

The proposed flow meter is devoid of the specified disadvantage. The essence of the invention is that the compensation chamber of the diaphragm is made with an additional membrane, the active area of which exceeds the areas of each of the outermost membranes. This compensates for the differential pressure across the diaphragm. At the same time, the flow meter is equipped with a system that registers the specified pressure drop, which has the form of a salt flap formed from a nozzle located in the wall of the compensation chamber. The Xzmera is provided with an inlet next to the inner membrane and an outlet connected to the atmosphere.

The drawing shows a diagram of the proposed flow meter.

The nozzle 1 has a movable differential diaphragm, made in the form of a block of membranes 2, 5 and 4 with a rigid base 5 having an opening a for the passage of the medium.

The diaphragm has a chamber b of zero pressure and a chamber at room pressure. The cameras are separated from each other by an additional membrane 3 having a larger active area than the area.

No. 148542-2 membrane 2 -k 4. Compressed air is introduced into the chamber through the opening r and is vented to the atmosphere through the opening 6.

The nozzle is mounted in the wall of the compensation chamber. The nozzle damper serves as a rigid base 5. The compensation chamber is provided with an inlet g located near the membrane 3 and an outlet 6 connected to the atmosphere.

The equilibrium equation of a mobile diaphragm looks like:

Pfi - (R - DR) P2 - PO & FO Oh,

FI and p2 are the active areas of diaphragms 2 and 4,

 - the difference between the active areas of the compensation chamber

aperture

R is the pressure to the diaphragm, and Dr is the differential pressure across the diaphragm,

RO is the air pressure in the compensation chamber,

p from where RO DR-dr-R FI F F.

Thus, each pressure drop across the diaphragm (and, consequently, the flow rate) will correspond to a strictly defined air pressure in the compensation chamber supported by a device such as a nozzle-damper. A pressure gauge 7 indicating this pressure should be calibrated directly in units of flow (determined for a given flowmeter design).

The flow meter can be used in pneumatic control systems, and control in various fields of industry.

Central Research Institute. Academician A.N. Krylov in his conclusion indicated that the proposed flow meter has industrial utility.

Subject invention

A pneumatic remote pressure or liquid with a MOBILE diaphragm, consisting of a pipe in which a mobile diaphragm is installed, is made in the form of a membrane unit with two chambers: an atmospheric pressure chamber and a compensation chamber, into which air is pumped under pressure, about 20 meters and that that, in order to improve the measurement accuracy and reliability of the instrument operation in aggressive media, an additional membrane was used in the compensation chamber of the diaphragm, which has an active area larger than each oh of the outermost membranes, which makes it possible to compensate for the pressure drop across the diaphragm, and the system recording this pressure drop is made in the form of a nozzle gate formed from a nozzle mounted into the wall of the compensation chamber, with an inlet orifice located in the immediate vicinity of the inner the membrane and the outlet communicating with the atmosphere.

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