RU137100U1 - THERMOANEMOMETRIC FLOW AND GAS FLOW SENSOR - Google Patents

Abstract

Thermoanemometric flow sensor of liquids and gases containing a heating resistor and a sensing element (platinum resistor) and a temperature correction resistor located on the membrane, characterized in that the heating resistor and sensing element (platinum resistor) are completely isolated from each other, located on both sides of them additional platinum resistors that allow you to determine the flow direction and measure the instantaneous temperature value, and the temperature correction resistor is located outside mbrany.

Description

The utility model relates to measuring technique - the field of microelectronic and micromechanical devices, and can be used to measure the flow of liquids and gases.

The closest in technical essence is a hot-wire anemometer for mass flow of liquids and gases, containing a heating resistor and a sensing element (platinum resistor) and a temperature correction resistor located on the membrane. (PATENT FOR INVENTION RU No. 2276775, IPC G01F 1/692, September 15, 2004)

However, the known solution cannot be used with a sufficient degree of accuracy for measuring the flow rate of liquids and gases.

The objective and technical result of the utility model is to create a hot-wire anemometric sensor for the flow of liquids and gases, which has increased measurement accuracy achieved by achieving minimal heat loss.

The technical result is achieved by the fact that in the hot-wire anemometer, the heating resistor and the sensing element (platinum resistor) are completely isolated from each other, additional platinum resistors are located on both sides of them, allowing to determine the flow direction and measure the instantaneous temperature value, and the temperature correction resistor is located outside membranes.

The utility model is new in comparison with the prototype, differing from it by the presence of such essential features as the fact that the heating resistor and the sensitive element (platinum resistor) are completely isolated from each other, additional platinum resistors are located on both sides of them, which allow to determine the flow direction and measure the instantaneous temperature value, and the temperature correction resistor is located outside the membrane.

The inventive utility model can be used in measuring technology to measure the flow of gases or liquid medium, and therefore meets the criterion of "industrial applicability".

The utility model can be illustrated by the figure, where 1 is a membrane, a heating resistor is placed on the membrane - 2, a sensing element (platinum resistor) - 3, a temperature correction resistor - 4, an additional resistor that determines the flow direction, - 5 and an additional resistor that allows to measure instantaneous temperature value - 6.

The presence of additional platinum resistors in the hot-wire anemometer sensor and the indicated relative position of the sensor elements ensure the achievement of a technical result - an increase in the measurement accuracy achieved by achieving minimal heat loss.

Tests of the hot-wire anemometer of the flow rate of liquids and gases according to the utility model showed that the measurement accuracy with stable operation of the sensor is higher than the measurement accuracy of the known solution.

Claims (1)

Thermoanemometric flow sensor of liquids and gases containing a heating resistor and a sensing element (platinum resistor) and a temperature correction resistor located on the membrane, characterized in that the heating resistor and sensing element (platinum resistor) are completely isolated from each other, located on both sides of them additional platinum resistors that allow you to determine the flow direction and measure the instantaneous temperature value, and the temperature correction resistor is located outside mbrany.

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