SU191853A1 - PNEUMATIC COMPENSATION DIFFERENTIAL MANOMETER - Google Patents

Description

Known differential pressure gauges with pneumatic output signal, based on the principle of compensation of the measured force, contain a sensing element dividing the instrument case into two isolated cavities and a hinged lever that controls the operation of a nozzle-flap indicator connected through a pneumatic amplifier with bellows force feedback element.

In the described manometer, a magnetic coupling is applied between the sensitive element and the lever system, made in the form of a permanent magnet mounted on the sensitive element acting on one of the arms of the lever through the non-magnetic dividing wall of the housing. This makes it possible to obtain a linear pneumatic output signal proportional to the flow rate and increase instrument reliability.

In the wall of the housing between the permanent magnet and the lever a magnetowire of magnetically soft material can be embedded.

The drawing shows the scheme described manometer.

The pressure gauge contains a sensitive element /, a permanent magnet 2, a spring 3, a housing of the differential unit 4 made of a nonmagnetic material, a magnetic core 5, a lever 6, or entirely made of

a magnet of a soft material, or having a ferromagnetic element interacting with a magnet, an elastic support 7, a force feedback element 8, a spring 9, a damper 10,

nozzle // and pneumatic amplifier 12.

To ensure normal operation of the device, the gaps h and v2 should be brought to minimum values. C, l remove zalipaki pole magnet to the magnetic core serves as a spring 3. With the help of an adjustable spring 9, the gap LZ is set to the minimum. The stiffness of all elastic elements of the transducer, reduced to the point of interaction with the magnet, should not be less

magnitude to ensure the stability of the lever system. In this position of the lever, the gap between the V / nozzle and the flap 10 is adjusted to the zero value of the output signal.

When the differential pressure meter is switched on, the measured pressure drop will increase the gap and disrupt the power balance of the lever 6, which will lead to an increase in pressure in the nozzle 11, i.e., an increase in the pressure at the output of the pneumatic amplifier 12. The feedback force restores the power balance of the lever. The accuracy of the lever depends on the sensitivity of the mismatch indicator of the “nozzle-damper” type and the gain factor. The magnitude of the force with which the magnet 2 acts on the lever 6 varies inversely with the square of the gap Xi + lz. The specified amount of gaps is provided with sufficient accuracy in flow measurement using the variable pressure differential method with a linear output signal proportional to the flow rate.

Adjusting the differential pressure gauge to the measured range can be done, for example, by changing the gear ratio of the lever C1: system or changing the plate, if the ferromagnetic body of the lever interacts with the magnetic core 5 embedded in the housing.

The subject matter of the invention is 1. Pneumatic compensating differential (L-conventional 1-meter, containing a sensing element dividing the instrument case into two isolated cavities, and a sharirio-mounted lever that controls the operation of a nozzle-damper indicator connected to a syringe with a bellows element by force feedback characterized in that, in order to obtain an output signal proportional to the measured flow rate and increase reliability, a permanent magnet is mounted on the sensitive element one arm of the lever, made of ferromagnetic material, through a nonmagnetic wall of the housing.

2. A manometer according to claim 1, characterized in that a magnetic core made of a magnet material is inserted between the permanent magnet and the lever in the case wall.

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