SU576520A1 - Pressure measuring sensor for rigid media - Google Patents

Description

one

The invention relates to devices for measuring pressure in rigid inelastic media, for example, in a concrete mass.

Sensors are known for measuring the pressure of rigid media in which the pressure of the medium is reconstructed by a membrane, the deflection of which is measured in one way or another.

The disadvantage of such sensors is low stiffness, which leads to significant measurement errors.

The closest to the invention to the technical essence is a sensor for measuring pressure, made in the form of a housing, a hard disk and a camera between them, filled with liquid 2. The sensor used in the sensor is a strain gage.

The disadvantage of this sensor is a large temperature error, reaching 6% for every 10 ° C change in temperature.

The error arises due to the change in the volume of fluid in the chamber as the temperature changes, and this leads to a deformation of the membrane on which the measuring strain gages are attached, and to a change in their electrical resistance, despite the fact that the pressure of the medium does not change.

To reduce the temperature error of the proposed sensor, comprising a housing, a hard disk, a chamber filled with liquid, a measuring membrane with strain gauges and compensating strain gauges, an additional membrane is fitted in its housing and adjoining it to the floor filled with the same fluid as the chamber, and the cavity volume equal to the volume of the chamber, meter II, the thickness of the additional membrane is equal, respectively, to the diameter and thickness of the measuring membrane, and the corresponding capacitance strain gauges are equal to the additional Noah membrane.

The drawing shows an on-display sensor, a slit.

The hard disk 1 is connected to the cornea 2 so that a chamber 3 filled with liquid is formed between the nanometers. The housing 2 has a membrane 4, on which measuring strain gauges 5 are installed. The body of the housing 2 has a cavity b, filled with the same liquid as chamber 3, and covered with a membrane 7, which has the same diameter and the same thickness as membrane 4 . On the membrane 7 are glued compensatory strain gages 8.

When the ambient temperature changes, the volume of the liquid in chamber 3 changes, which leads to a corresponding bending of the membrane 1S 4 n and the appearance of a mono-type measuring resistance strain gages 5. Simultaneously

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and the volume of fluid in cavity 6 changes in a similar way, as a result of which the resistance of resistance strain gages 8 changes by the same magnitude as the measurement strain gages 5. Since the measurement and compensation strain gages are included in the electric field arm shoulders, their resistance simultaneously changes by the same value will not lead to imbalance of the bridge, i.e. the temperature error will be compensated.

Claims (2)

1. Author's certificate number 49440, cl. G OIL 7/08, 1936. 2. ACL Preceedings, November, 1952, vol. 24, n ° 43.