DE1648957B2 - Samplers for molten metal with means for determining the temperature - Google Patents

Description

The invention relates to a sampler for immersion in a liquid metal bath to below a slag cover or oxide layer with a sampling chamber that has a thermocouple in one Quartz tube contains, inside a tube made of highly heat-resistant material, such as cardboard, attached to your The end immersed in the melt is closed by a lid.

It is known to take samples from liquid. Iron, steel and other metal baths with With the help of a spoon.

The detection of the temperature in liquid metal baths by means of a measuring head containing thermocouples is z. B. from the German utility model t 957 075 known.

From the literature: Dr. Alan T. Gorton and Dr. Erich F. W ο η d r i s “Rapid determination of the carbon content in liquid steel by liquidus point determination "(17th ISA Tron and Steel Instrumentation Conference March 15-17, 1967) it is known to make rapid determinations of the carbon content in liquid steel with the help of the determination of the liquidus point perform.

According to FIG. 7 a an immersion thermocouple, which is contained in a quartz tube, which in turn is carried by a holding body surrounded by a cardboard tube. The dipping end of the cardboard tube is made of a wooden disc covered, which must first be burned off when immersed.

xo In the older applications of German Offenlegungsschrift 1,798,054, 1,698,177, 1,648,964 and 1,598,830 is also the field of analysis of Melting, especially metal melting, treated, and it is with the help of sampling and Irermo element measurement a temperature curve of the Melt added, which is particularly useful for the evaluation with regard to the carbon content suitable. In the constructions according to the earlier applications, the penetration opening "£" for the Melt closed, and the thermocouple is not the one in the area of the immersion end (cap base) lying penetration opening for the molten metal penetrating from below.

In the metal-producing industry, there is a general requirement for more and more accurate temperature measurement and chemical analysis. At the same time, the wish comes more and more to the fore, the times required for measurement process and analysis in previously known devices to reduce.

The object of the invention is therefore to provide a largely universally usable device create, which takes a sample from the weld pool, measures the temperature and a chemical one at the same time Analysis of carbon content is permitted.

Sampling, measurement and analysis should be carried out in one measuring head and the necessary for this Zeil can be shortened.

This object is achieved according to the invention with a sampler of the type described at the outset in that the sampling chamber is turned away at the end immersed in the melt End of a sampling tube made of a highly heat-resistant material, such as quartz, with one on hers free end to the atmosphere open capillary and limited at the immersion end by a cap is, with the removal tube and cap being embedded in the cardboard tube by means of an investment material, that the cap base from the investment material and the cardboard tube protrudes and the cap in its side wall near the cap base has an unlocked, preferably has capillary-like penetration opening for the melt, and between the Cap and the open end of the extraction tube. which faces the immersing end of the sampler is, in the sampling chamber, a thermocouple is arranged so that the hot soldering point of the Thermocouple of the penetration opening for the metal bath to be examined is adjacent.

The advantages of the invention are obvious: the sampling is carried out in such a way that the penetration of slag inclusions in the sample is prevented. In the sampler according to the invention, the cools Sample quickly, and the sample obtained is large in diameter. The temperature measurement occurs as soon as it is immersed in the molten metal, and the measured values can pass through

i 648 957

electrical display devices indicated or by elec- tric. The insertion of the ^ α & η Jffiieb

tric writing instruments are registered. The measuring of the manufacture ^ ^s ^ "SSr 1 a determin-

values can be recorded digitally. It is no longer the case that aas w »» * and how

necessary, every measurement or analysis process gives a distance to ^B * ^m ^: [Jl of _the investment material e

separate to make, but all operations 5 of Fig. 1 to ^ "f" onarz-U-Robr 1 »st a Tber-

are combined into a single one. It's also embedded. in aas w _di thermocouple

practically no longer necessary, the sample from the moelementm eingBoracm. ^ - alloy

The furnace platform can only be transferred to a laboratory, only from the vcrscbieoensien SB _Tem .

to determine the carbon content. gen, which after ^ the to ^ m. ^^, ^ _m

Further refinements of the invention are selected for the doors. απ _{Mosstn Das}

Refer to subclaims. a compensating line η Jg ^ _actingQ

One embodiment of the invention is in the extraction tube α nut the W ^ thermocouples

following description on the basis of the scheme quartz U-tube 1, welcbeι a r _eichsleitung "

drawing explained. E, shows contains, is ^^ f ^ Ä ^ etch-resistant

Fig. linen longitudinal section through the erfindungsge- i ₅ and the Kapped rat. ^"1 _dnet Depending _The aer

appropriate sampler, investment material in the .W ¹ ™ ^ ^ shown! -

F i g. 2 a partial section of the sampler: = according to the compensation line η ends at a ment aarg

F i g. 1 with cap offset by 90 °, th contact piece. ",, _" _ _{ίςί we} i _s t the Cape

Fi g. 3 shows a partial section through a modified version of FIG. 2 a> lenttdun .n *, * «« d ^ ^

Embodiment. »«, Pe d a ^ '"" P ^ SSend _{medium> z} . _B. a

The in Fi g. 1 shows a sampler to be measured or to an ^al > sie cu _e indrin «t

Withdrawal tube a mil a capillary b , whose liquid metal, into the tn. ^ contain-

The end is narrowed. The sampling tube α consists of the inside diameter of the in ^ -er ^ WF

a highly heat-resistant material such as quartz. nen cavity results in s, ch ^^^ _ή ^Ρ ; _He

The end c of the capillary b is open. Also corresponds ^ ₅ th wall thickness / of the Aubendu _dgm

Approved end of the extraction tube α is open. is like the figure. 1 to be found isi, ^ ^ _ ^^

The open end of the extraction tube is of a nominal diameter ^ of the bntilanm · _{blind hole} ,

Cap d closed. Cap d consists of a cavity of the cap d is according to απ ei

Material during melting of the sample, ER carried out »» d bcsittt ^ "" ^ e "^ J ^

Results of the temperature measurement or the analysis 30 frustum-shaped surface, » ^e » cne ei _o

View falsified. As a material for the cap grain outer edge of the ^^^ KapVrf a die

men, depending on the intended use, i.e. from which further information can be found, has α e: jvapF.

For the liquid metal bath, the sample is taken Wall thickness / penetration de

fid Kf i Bht hmung which in ^R ^^ "

f.liquid metal bath the sample is taken jg ^

target. Steel, copper, brass or copper can be considered. taking, which in ^R ^^ "f ^fl « HP _{11 Zi} : _t il i hhhibädi Kpe d ver on «J *« ™ ^^ ί S a

The cap d is designed with the help of a highly heat-resistant 35 cap d ^ f ^^ S ^ so td ^

Investment in a cardboard tube / embedded. This is the slot-shaped ^{opening s} ° ^h

Capillary b of the extraction tube is α. like Fig. 1 in it the quartz UB- ° ^hr J ¹ ^ - _{also that}

can be seen from a copper clad dough like the .Fg 3 .nme _{thermocouples} _

surround. This copper jacket has the advantage of Q ^ rz U-pipe emfaIlen so _hr above _a

good thermal conductivity. 40 ment / »without special ^ _{groove beUmasse e has proven particularly effective}

This execution is embedded in the investigation of Me- so ^^^ 'Vohres /. Furthermore

media that are extremely high in temperature. In the -within the Fappronre; em _fc

Sampling tube α is a quartz U-tube made from an an- are the same references ve «a F. _B.

Their highly heat-resistant insulation material is used, as s.ch is all about _1C hc parts ..anaeit.

1 sheet of drawings

Claims (3)

Patent claims: 1. Sampler for immersion in a liquid metal bath to below a slag cover or oxide layer with a sampling chamber that contains a thermocouple in a quartz tube, inside a tube made of highly heat-resistant material, such as cardboard, with a lid at its end that is immersed in the melt is closed, characterized in that the sampling chamber at the end facing away from the melt immersed in the end of a sampling tube (α) made of highly heat-resistant material such as quartz, with a capillary open at its free end (c) to the atmosphere (b) and on the immersion end is limited by a cap (ίί), with the extraction tube («) and cap (d) being embedded in the cardboard tube (/) by means of an investment material (e). that the cap base protrudes from the investment material (e) and the cardboard tube (/) and the cap (d) has an unsealed, preferably capillary-like penetration opening (k) for the melt in its side wall near the cap base, and between the cap (d ) and the more open. At the end of the extraction tube (a) facing the immersion end of the sampler, a thermocouple (tn) ^ o is arranged in the sampling chamber so that the hot soldering point of the thermocouple of the penetration opening (A) for dss to uriersuc! ; nde metal bath is adjacent ... 2. Sampler according to Ansprucu 1, characterized in that the sampling tube (a) is provided with a cap (d) which is slotted to receive the legs of the thermocouple (m). 3. Sampler according to claim 1 or 2, characterized in that the quartz U-tube (1) is inserted into slots in the cap (d) for the extraction tube («).