SU607146A1 - Gas flow rate measuring device - Google Patents

Description

one

The invention relates to the field of measurement technology and can be used to measure gas flow rates.

Thermo-anemometric sensors are known for measuring gas flow velocities, containing a heat transfer element in a thin wire, placed at a given point of flow, impulse lines, a power source and an N-holder

The disadvantage of these devices is the low sensitivity and accuracy of measurements, the nonlinear dependence of the output signal on the flow velocity.

The closest to the invention to the technical essence is a device for measuring the gas flow rate, comprising a composite body having a tail part, a nose part, “made in the form of a body with a streamlined edge of attack from an erosion-resistant material and containing a cold junction of a temperature sensor, the working part, in the cavity of which the heater and the hot junction of the temperature sensor L2J are placed.

However, this device has an insufficient accuracy of measuring the velocity of the unsteady gas flow due to the high thermal inertia of the middle working part in the form of a metal block and the cold temperature sensor spa located in the nose of the housing.

In order to improve the measurement accuracy with an unsteady gas flow in the proposed device, the middle working part is made in the form of a heat insulating unit with a metal membrane limiting the working cavity and in contact with a strain gauge installed in the cavity of the unit, while the cold junction of the temperature sensor can be placed in the metal an insert made of a material with a large value of the thermal conductivity, for example, copper. In the device case channels are made that inform the cavity in those plaster block with the external environment.

Claims (2)

1. Gorlin S.M., Sleeinger I.I. Aeromechanical measurements. M., Science, 1964, with. . 2. Author's certificate number ZO8363, 1SH. q 01 P 5/10. 1971.