DE3200991C2 - - Google Patents

Description

The invention relates to a probe for measuring the Solidification temperature of a melt using a Jacket, a lid and a contact arrangement for the Connection with an evaluation arrangement.

The Er solidification temperature of a melt different shells shaped crucible used, in which the melt after whose removal is poured. The solidification temperature then z. B. measured by a thermocouple. A The disadvantage of this method is the manipulation with the Removal of the melt, possibly also its calming, furthermore a low accuracy of the measured values, e.g. B. for low carbon steel.  

Furthermore, submersible probes with more than one measuring space knows, which is sometimes separated by partitions. The inlet openings are on the side of these probes seen. The disadvantages of these known immersion probes are especially their complicated production and also the fact that gases formed through the melt's inlet openings be removed, making it a non-uniform one flow of the melt, to an imperfect deoxidation and consequent errors in measuring the solidification temperature is coming.

The disadvantages mentioned are caused by the invention Fixed the probe.

It is the object of the invention to provide a probe to create a with the high measuring speed high accuracy of solidification temperature determination is reachable.

The essence of the invention is that the probe is one Has molded lid with filling openings, on which one itself active closure of the melt feed, which into a measuring room for an accurate measurement of the temperature goes.

One of the main advantages of this probe is its high accuracy the temperature determination of the solidification of the melt, the Speed of this determination and a wide exploitation possibility regardless of the type of melt, e.g. B. in black or non-ferrous metallurgy, in glass production and the like.

The essence of the invention is based on one in the Drawing schematically illustrated embodiment  explained in more detail. The drawing shows an axial longitudinal section through the probe according to the invention.

A molded cover 1 with a filling opening 3 is provided on the end face of a protective jacket 6 . At this filling opening 3 , an automatic closure 2 of the melt feed is connected, which merges into a measuring chamber 4 , which is equipped with a sensor 5 for an accurate measurement of the temperature of the melt.

When measuring, the probe is immersed in the melt by means of a carrier (not shown), the heat of which melts the protective cover. As a result, the melt flows smoothly through the fill opening 3 provided in the mold cover 1 into the measuring chamber 4 . The measuring chamber 4 is filled with a deoxidizing agent, through which the melt also passes uniformly and there is a complete mixing of the melt with the deoxidizing agent, which leads to their even deoxygenation. The uniform filling of the measuring space 4 is ensured by removing the gases in front of the melt, via openings, not shown, in the vicinity of the sensor 5 . After filling the measuring space 4 , a massi automatic closure 2 closes the further supply of the melt and likewise prevents it from flowing out of the measuring space 4 . The temperature in the vicinity of the sensor 5 is just above the liquidity at this moment, the heat capacity of the measuring space 4 remaining in equilibrium, so that the response time of the liquidity is long and express and its exact decrease is thus made possible.

The present probe can be advantageous for measuring the Temperature of all melts can be applied, in black and colored metallurgy as well as in glass industry and the like.

Claims (1)

Probe for measuring the solidification temperature of a melt using a jacket, a cover and a contact arrangement for connection to an evaluation arrangement, characterized in that the probe has a molded cover ( 1 ) with a filling opening ( 3 ) to which an automatic Ver circuit ( 2 ) for the incoming melt is lined up, which passes into a measuring room ( 4 ) with a sensor ( 5 ) for an accurate measurement of the temperature.