Immersion device for slag sample collection

We claim: 1 . Immersion device ( 10 , 20 ) for collecting a slag sample and measuring a molten metal parameter, the immersion device ( 10 , 20 ) comprising: an inflow conduit ( 5 , 25 ) for directing molten slag ( 18 ) to a slag sample chamber ( 7 , 27 ); and a measuring element ( 1 , 21 ) for measuring the parameter of the molten metal ( 19 ), wherein the inflow conduit ( 5 , 25 ) comprises an external portion and an internal portion, wherein the inflow conduit ( 5 , 25 ) and the measuring element ( 1 , 21 ) are both arranged in the top area of an immersion end of the measuring head ( 2 , 22 ) and/or are both facing towards an immersion direction ( 17 ), wherein the immersion device ( 10 , 20 ) is composed such that during immersion in the immersion direction ( 17 ) into the molten slag ( 18 ) and then the molten metal ( 19 ), the molten slag ( 18 ) enters the external portion of the inflow conduit ( 5 , 25 ) and is directed through the inner portion of the inflow conduit ( 5 , 25 ) to the slag sample chamber ( 7 , 27 ), and wherein the inflow conduit ( 5 , 25 ) is composed such that the inflow conduit ( 5 , 25 ) can resist molten slag ( 18 ) but melts upon exposure to the molten metal ( 19 ). 2 . Immersion device ( 10 , 20 ) of claim 1 , wherein the external portion of the inflow conduit ( 5 , 25 ) is free standing. 3 . Immersion device ( 10 , 20 ) of claim 1 , further comprising a measuring head cap ( 4 , 24 ) for covering the top area of the immersion device ( 10 , 20 ), wherein the measuring head cap ( 4 , 24 ) is composed such that the measuring head cap ( 4 , 24 ) can resist molten slag ( 18 ) but melts upon exposure to the molten metal ( 19 ). 4 . Immersion device ( 10 , 20 ) of claim 3 , wherein a cap opening ( 9 , 29 ) of the measuring head cap ( 4 , 24 ) is designed such that molten slag ( 18 ) can flow through the cap opening ( 9 , 29 ) into the inflow conduit ( 5 , 25 ). 5 . Immersion device ( 10 , 20 ) of claim 3 , wherein the measuring head cap ( 4 , 24 ) is flush with the inflow conduit ( 5 , 25 ) in the immersion direction ( 17 ) or covers the inflow conduit ( 5 , 25 ) in the immersion direction ( 17 ). 6 . Immersion device ( 10 , 20 ) of claim 1 , wherein the inflow conduit ( 5 , 25 ) has an inflow opening oriented in the immersion direction ( 17 ). 7 . Immersion device ( 10 , 20 ) of claim 1 , further comprising a housing ( 16 , 36 ) for embedding the internal portion of the inflow conduit ( 2 , 25 ) and/or the slag sample chamber ( 7 , 27 ). 8 . Immersion device ( 10 , 20 ) of claim 7 , wherein the outer portion of the inflow conduit ( 5 , 25 ) is surrounded by gas in the immersion direction ( 17 ) from the housing ( 16 , 36 ) before immersion. 9 . Immersion device ( 10 , 20 ) of claim 1 , wherein the inflow conduit ( 5 , 25 ) and the measuring element ( 1 , 21 ) are arranged next to each other in the immersion direction ( 17 ). 10 . Immersion device ( 10 , 20 ) of claim 1 , wherein the inflow conduit ( 5 , 25 ) has a diameter of at least 15% of a maximal cross section area of the immersion device ( 10 , 20 ). 11 . Immersion device ( 10 , 20 ) of claim 1 , wherein the inflow conduit ( 5 , 25 ) has an internal volume of at least 10% and/or at most 100% of an internal volume of the slag sample chamber ( 7 , 27 ). 12 . Immersion device ( 10 , 20 ) of claim 1 , further comprising a vent channel ( 13 , 33 ) in gas communication with the slag sample chamber ( 7 , 27 ). 13 . Immersion device ( 10 , 20 ) of claim 1 , further comprising a carrier tube ( 3 , 23 ) or a cardboard tube as carrier tube ( 3 , 23 ) to hold a measuring head ( 2 , 22 ), the measuring head ( 2 , 22 ) comprising the slag sample chamber ( 7 , 27 ), the inflow conduit ( 5 , 25 ) and the measuring element ( 1 , 21 ). 14 . Method for collecting a slag sample and measuring a molten metal parameter, the method comprising: immersing an immersion device ( 10 , 20 ) in an immersion direction ( 17 ) though a layer of molten slag ( 18 ) into molten metal ( 19 ), wherein during immersion through the layer of molten slag ( 18 ), molten slag ( 18 ) is flowing into an inflow conduit ( 5 , 25 ) facing in the immersion direction ( 17 ) and directing the molten slag ( 18 ) to a slag sample chamber ( 7 , 27 ), wherein in the moment of reaching the molten metal ( 19 ), a measuring head cap ( 4 , 24 ) and the inflow conduit ( 5 , 25 ) and then a cap ( 4 , 24 , 12 , 32 ) covering a measuring element ( 1 , 21 ), which is also facing in the immersion direction ( 17 ), melt such that the measuring element ( 1 , 21 ) is exposed to the molten metal ( 19 ) to conduct the measurement of the molten metal parameter.