SU117041A1 - Temperature measuring device - Google Patents

Description

Devices based on the use of a gas heated to the temperature of the test medium and indicating a device made in the form of a differential pressure gauge are used to measure the temperature.

The proposed device is more perfect than the known devices, since it allows to obtain a pressure drop proportional to the measured temperature.

This is achieved by the fact that it uses a pneumatic system containing two series-connected nozzles, one of which has a constant flow section, and the section of the second varies depending on the temperature of the gas with a temperature-sensitive element.

FIG. 1 shows a schematic diagram of the proposed device; in fig. 2, 3 and 4 - three of its projections.

The gas heated to the temperature of the test medium passes through the pneumatic system, in which the pressure drop is created by two series-connected nozzles 1 and 2 (Fig. 1). One nozzle / has a constant flow area, the constant flow rate at which npii different pressures of the working medium is maintained by the flow regulator 3.

The other nozzle 2 is heat-sensitive in the form of an overlapping aperture of constant cross-section that is streamlined along the length of the heated gas.

Both nozzles are connected to a liquid differential pressure gauge 4, the scale of which is graduated in units of temperature.

To measure the temperature of liquid solids or solids, the channel supplying gas to the nozzles is protected by a special pressurized heat-conducting cover.

When measuring the temperature of gases under pressure, gas is supplied to the nozzle directly from the working fluid.

№ 117041

When measuring the gas temperature under rarefaction, the gas from the working medium is sucked through the nozzles using a vacuum pump.

Structurally, the device is made in the form of two blocks (Fig. 2, 3, p. 4) of a thermoconverter 5, placed in a measured or regulated medium, and a constant pressure regulator 3, interconnected by an air duct 6.

The air after the filter and the gearbox enters the thermocouple 5 and at the same time in the plus cavity of the differential pressure gauge 4.

The heat sensing element is made in the form of a rod 7 placed in the tube 8. In the rod 7 there is a built-in "hot nozzle 2, which is protected from clogging. The passage between the rod 7 and the tube 5, the air is heated to the temperature of the medium to be measured, while the rod 7 is deformed along the length, changing the flow area of the "hot nozzle."

The regulator of the constant differential serves to maintain a constant differential on the "cold nozzle". SZN consists of a body divided into two cavities with a sniffon 9, and a base 10. In the base 10 there is an integrated “cold nozzle 1 combined with a temperature compensator L.

In the constant pressure controller, the air before the cold nozzle enters the space above the bellows, and after the cold nozzle under the bellows, is further throttled through the nozzle 12 and escapes into the atmosphere.

The temperature compensator // changes the nozzle cross-section when the temperature of the gas in front of the “cold nozzle” changes, works according to the principle of a dlinometric thermometer, and thereby produces temperature compensation.

Subject invention

Claims (3)

1. A temperature measuring device based on the use of a gas heated to the temperature of the test medium as a transfer medium, and showing a wavelet in the form of a differential pressure gauge, is distinguished in order to obtain a pressure differential proportional to the measured temperature , it contains a pneumatic system containing two series-connected nozzles, one of which has a constant flow section, and the second section varies depending on the gas temperature using those sensitive element. 2. The device according to claim 1, characterized in that the temperature-sensitive element in it is made in the form of a rod blocking a hole of constant cross-section, flowed along the length of the heated gas passing through this hole, as a result of which the rod deforms along the length, changing Sechenne thermo-sensitive nozzle. 3. The device for pi. 1 and 2, characterized in that, in order to obtain a constant flow rate of gas through the nozzles at different pressures, a constant flow controller is employed in it. eleven H.-- TrW f : uh -AjJLjj- li