CS271197B1 - Source of several temperature levels' simultaneous radiation - Google Patents

Abstract

During the checking of thermal devices that are dependent on the intensity of thermal radiation thermal sources with known temperatures, are used. The checking works are very time demanding because for each new set the temperature level it is necessary to wait for temperature stabilisation of the used checking source. Thanks to this solution this idle time is reduced in the following way: The thermal radiator (1) is composed of a great range of small radiating sections, i.e. windows, each of which is different from the value (that can be adjusted) of the neighbouring window, which is achieved via a diagonally arranged heating block (20) above which there is a long horizontal strip radiator (1), equipped with a grid (9) with an adjustable width of the crevices (20). The device can be utilized in checks or the calibration of radiation pyrometers, in the evaluation of the square surface temperatures of the working objects by means of photo thermometry and in laboratory research works of the thermal measuring technique branch.<IMAGE>

Description

The invention relates to a multiple source with a gradually increasing level of thermal radiation.

For physical measurements requiring knowledge of the dependence of heat radiation on the function of a device, the construction of heat radiation sources is used, in order to detect this, usually non-linear dependence, it is necessary to evaluate many to the newly selected temperature.

These drawbacks are overcome by the invention, which is based on a multi-temperature source of simultaneous radiation, formed from a heating block, made from a variety of ceramic capillaries with an internal heating coil, with which a flat-ribbon heat radiator is in direct contact at one end. made of fire-resistant material, while its other end, clamped into the clamp, is lifted above the plane of the heating block, its working surface carrying a grid with a row of slits, and the whole, provided with a thick layer of thermal insulation material, is built into a protective carrying box equipped thermocouples, located at the lower and raised ends of the tape emitter.

An advantage of the invention is the creation of a heat radiation source, each section limited by the slit of the grid road has a different, gradually decreasing level of radiation energy, which after calibration can serve for smooth and much faster verification of test radiation without time and delay.

The drawing in FIG. 1 shows a plan view of the proposed structure in longitudinal section, FIG. 2 shows a side view and FIG.

The strip emitter 1 of a refractory material of known emissivity is supported at one end by a heating block system g formed of a series of ceramic capillaries 19 with an internal coil of heating wire. The other end of the strip emitter 7 is received in a clamp whose clamps 11 are raised above the plane of the heating block 2 by means of an adjusting screw 10. The heating block 2 is held in its elevated position by supports 25 secured in the housing 4 by screws 23. Similarly, the lower part of the heating block 2 is mounted on the tubes 12 with the screw 13 and on the shims 16 and 26, one of which is additionally threaded to receive the hundredth screw 10. A shielding grid 9 with slits 20 is mounted above the front surface of the strip emitter g. The front surface of the strip emitter 1 is further provided at both ends with thermocouples 21 and 22 whose output signal is routed to sockets on the side wall support boxes 4. The assembly is housed in a protective support box 4 lined with a thick layer of heat insulating material 27. The housing 4 is further provided with a side connector 14 for supplying voltage to the heating block 2.

After switching on the heating, the part of the strip emitter g which is in direct contact with the heating block 2 and takes over its temperature is heated first, at the same time the part of the strip emitter J above the inclined heating block 2 starts to heat to a gradually decreasing temperature. the distance of the pads from the heating block 2 _t so that after stabilization of temperature conditions Communication, br Ia, each segment strip radiators e., degree of heat radiation, which passes through slots 2 £ in shielding grid 9, thereby forming a large number of separate emitters, each with slightly different value radiated energy relative to the emitter in the adjacent section.

The device is designed especially for monitoring changes in surface temperatures on operating objects using photographic evaluation technology. It can be used for continuous verification of various temperature sensors over a wide temperature range. It is practically applicable in laboratory practice in research in the field of thermal technology.

Claims (1)

A source of simultaneous radiation of many temperature levels, characterized in that it is made up of a heating block (2) composed of a series of closely adjacent ceramic capillaries (19) with an internal heating coil (3), with which it is in one end straight the heat emitter (1) in the form of a flat strip of fire-resistant material while its other end is clamped into the clamp (11) and lifted above the plane of the heating block (2), its working radiating surface carrying the grid (9) with a row of slots (20) ) and the assembly, provided with a thick layer of heat insulating material (27), is incorporated into a protective support box (4) equipped with sockets for the output of thermocouples (21, 22) located at the lower and raised ends of the strip emitter (1).