CS255599B1 - Device for checking of radiation low-temperature pyrometers - Google Patents

Abstract

The solution relates to an authentication device low temperature pyrometers for temperatures between + 300 ° C and - 190 ° 0. The device consists of an insulated tank filled liquid medium with integrated thermometer, heater and whirl pump and the nature the solution is that it is isolated the tank is further provided with a submerged hollow sphere of a thermally conductive material formed a window that is attached from the outside sides of an isolated tank.

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for verifying low temperature pyrometers for temperatures ranging from + 300 ° C to -190 ° G.

Pyrometers are currently manufactured to measure temperatures in the range of about 500 to 3000 ° C. A number of typically electric furnaces of various designs have been developed to verify these pyrometers. Recently, pyrometers have been introduced on the market, which can be measured from 0 ° C and below and are unsuitable for existing furnaces, because the radiation that the furnaces emit at these low temperatures is very unevenly distributed. Thermometer verification devices are also known which consist of an insulated liquid-filled tank in which a calibrated bath temperature thermometer, a heater and a swirl pump are incorporated. »These devices for the verification of low-temperature radiation pyrometers are also not applicable.

This disadvantage of the prior art is overcome by the low-temperature pyrometer verification device of the present invention. The apparatus consists of an insulated tank filled with liquid medium with a built-in thermometer, heater and swirl pump, and the subject matter of the invention is that the insulated tank is further provided with a submerged hollow ball of thermally conductive material with a visor formed thereto.

The advantage of the solution according to the invention is to achieve a completely homogeneous temperature field inside the hollow sphere, into the sight of which the tested pyrometer is aimed. The arrangement also provides great stability of the set temperature level, which can be maintained for any length of time.

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An example of a particular embodiment of the device according to the invention is shown in the drawing where it is shown in cross-section.

The device consists of an insulated double-walled tank 1, the space between them being filled with thermal insulation 2. Into the interior of the insulated tank 1 filled with oil which fulfills the function of a liquid medium 6 is a submerged copper hollow ball 4. provided with an opening with a support ring 2 welded to the inner wall of the insulated tank 1, a sight glass 6 being attached to the outer wall of the insulated tank 1 in the axis of the carrier ring. The insulated tank 1 is provided with a lid 12 on which the regulating unit 9 A precision calibrated thermometer 2, a contact thermometer 8, a heater 10, and a swirl pump 11 extend into the liquid medium bath. On the front panel of the control unit 9, a control knob 13 is placed on-off switch 14 and a signal light 16. 1, a drain valve 15 is incorporated.

After filling the insulated tank 1 with a suitable liquid medium 2, preferably silicone oil, the control unit 9 is switched ^{on by} the switch 14, which actuates the heating element 10 by means of a contact thermometer 8 with the set temperature. the temperature of the bath of liquid medium 3 at the selected value. At the same time, the swirl pump 11 maintains the bath volume of the liquid medium 3 in a swirling motion, ensuring a uniform bath temperature. Hollow sphere 4 acting as a physically black body with a radiation coefficient £. »1, is immersed in this bath and constantly flows around the hot whirling bath, thereby accurately assuming its temperature, which is further supported by the hollow sphere material 4, i.e. in this case copper, which is an excellent thermal conductor, so radiate thermal radiation evenly throughout its volume. Thus, the readings of the test pyrometer directed into the window 6 of the hollow sphere 4 can easily be compared with the readings of the precision calibrated thermometer 7.

For the case of control radiation pyrometer for temperatures below freezing turns off heater 10, and as the liquid medium £ into the insulated tank 1 is introduced from the refrigerant temperature corresponding foreign external source, e.g. _a cryostat

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The device is designed for calibrating non-contact temperature sensors, but it can also be used, for example, for very accurate heating of small samples in a given temperature range and for some research work in the field of thermal engineering.

Claims (2)

An apparatus for the verification of low temperature radiation pyremeters comprising an insulated tank filled with liquid medium with a built-in thermometer, heater and swirl pump, characterized in that the insulated tank (1) is provided with a submerged hollow ball (4) of thermally conductive material a window (6), which is attached from the outer fetran of the insulated tank (1). 2. Apparatus according to claim 1, characterized in that for the region of temperatures below freezing point, the insulated tank (1) is filled with liquid medium (3) which is composed of a coolant from a foreign source.