SU44367A1 - Device for measuring the magnitude of the speed of air or other flow - Google Patents

Description

As it is known, the main disadvantage of a thermal anemometer (For example, about a thermal anemometer. E. Ower The Measurement of Air Flow, 1933 r. Page 193 Chapt. X) is a rapid sputtering of up to 500-700 platinum or other wire, resistance fluctuations which, when cooled in an air stream, serves to measure the velocity of the latter. The proposed device for measuring the magnitude of the speed of air or other flow is intended to eliminate this drawback by using a thermoelectric battery, the hot junctions of which are located on the heated wire, but at a much lower temperature, about 100 ° C, and cold -on massive body, also located in the air stream. An elementary calculation shows that the sensitivity of this method is very high, especially at low speeds, on the order of several centimeters per second.

The drawing shows an exemplary diagram of the implementation of the receiving part of the anemometer according to the proposed device.

The receiving part of the device consists of a brass tube / into which plugs 2, 3 of insulating material, for example, ebonite, are inserted at both its ends, for example (79)

Reinforcing brass tubing -f with massive walls. The stopper 2 is equipped with two more rods 5 and b and manganin (whose temperature coefficient of resistance is close to zero), carrying a very thin wire 7 whose temperature coefficient of resistance, in contrast to the wire of a conventional thermal anemometer, is desirable to have close to zero. We can recommend nichrome wire or bronze heated by the current coming from battery S through insulated or tubing terminals JO, 11 through wires 72. Ammeter 9 is located in the battery circuit to measure the current that heats the wire 7.

Thermopile 13 is located in such a way that its combustible junctions with a special varnish or enamel, which do not soften at a temperature of 100–200 °, are attached to the platinum wire 7, and are resistant to said tube 4, which due to its massiveness is not subject to temperature fluctuations.

The current from the thermopile 13 on one side passes through a rod located in an insulating plug 75. reinforced in tube 4, and then through conduit 75 to insulated terminal 16, and on the other, through the body of the brass tube and to terminal 77, which is not isolated from the tube. The circuit described is closed

5 and an appropriate voltmeter or talvanvanometer 18 of appropriate sensitivity.

PREVENTS INVENT.

A device for measuring the magnitude of the air or other flow rate using an electric wire heated by a thin wire, characterized in that on the wire heated by the electric current 7 hot thermopile junction 13 is placed; for example, cold junction boxes are located on a massive body, for example, , tube 4, in order to measure the magnitude of the flow velocity by regi-tizing changes in thermoelectric current due to cooling in a stream of hot junctions.