DE423767C - Radiation pyrometer with thermocouple - Google Patents

Description

Radiation pyrometer with thermocouple. For heat measurements using a radiation pyrometer with thermocouple is known to be obtained even if the temperature to be measured of the body emitting the rays during the duration the measurement does not change, only then without the arrangement of special aids No longer changing pointer deflection of the measuring device, the so-called end value, when all parts of the measuring device have reached thermal equilibrium, d. H. when the heat supplied to them is equal to the heat given off by them.

The reasons for this undesirable phenomenon are known to be as follows. On the one hand, the incident rays not only cause the thermocouple, but also the glass tube in which it is usually housed, as well as its housing the longer it is heated, the more it is. As a result, the glass tube and the housing radiate also heat from increasing levels, increasing the temperature of the thermocouple beyond that which it is increased under the sole effect of that to be measured Would accept rays emitted by the object. On the other hand, the thermocouple, its glass tube and the heated case mainly by dissipation, but partly also by radiation heat to the connecting the thermocouple with the measuring device Lines off. If one considers this process in itself, then means he a decrease in the temperature of the thermocouple. The lines exist what mostly the case, not made of the same metal as the ones attached to them Electrodes of the thermocouple, the connection points of two different ones also act Metals like additional thermocouples whose EMF is that of the actual thermocouple can be the same or opposite and larger with increasing heating will. However, these additional EMKe then have a change in the value flowing through the measuring device Current, which actually only depends on the difference in temperature of the thermocouple (the hot soldering point) and the connection terminals of the measuring device (the cold soldering point) should depend.

Various aids have already been proposed, so that we can do it as soon as possible after the start of irradiation of the thermal element the same pointer deflection of the To get measuring device, as he would otherwise, d, h. without these aids, only after quite a long time as the final value. According to the invention is to achieve A new path followed this goal, which consists in the fact that the circuit is a second irradiated thermocouple contains its position with respect to the radiation of the object to be measured can be changed.

In the drawing is an embodiment of the new pyrometer illustrated schematically.

The thermocouple is formed by two crossing thin wires A, B , one of which z. B. consists of constants and the other consists of iron. The upper ends of the wires are suspended from a frame-shaped stand C and their lower ends are connected to two platinum wires D, D ' which are passed through the bottom of the glass tube E. A small leaf F is placed on the soldering point of the two wires A, B in a known manner.

While the one platinum wire D is connected directly to the one line H leading to the measuring device F, a second thermocouple I is connected between the platinum wire D 'and the second connecting line H' , the position of which is changed in relation to the radiation of the object to be measured can.

For this purpose, the second thermocouple I is attached to a sleeve K that is displaceable on the glass tube A or rotatable on it. By adjusting the sleeve K one has it in the hand to let the second thermocouple hit stronger or weaker by the rays of the object to be measured and thus to change its EMF. This can therefore be regulated in such a way that it produces the desired compensation.

Claims (2)

PATENT CLAIM: i. Strahlungspy rometer with Therrnoelement, characterized in that the circuit includes a second irradiated thermocouple (T), its location on the radiation of the can be changed to be measured object involved with respect. 2. Pyrometer according to claim i with a glass tube containing the thermocouple, characterized in that the second irradiated thermocouple (.i ') is attached to a sleeve (K) which is displaceable on the glass tube (E) or rotatable on it.