DE3929328C2 - - Google Patents

Description

The invention relates to a device for liquid metal Transport from a metallurgical furnace, in particular Blast furnace, in pouring vessels, consisting of at least one instal at a tap hole of the metallurgical furnace gated transport and drainage channel and a transfer station tion with a tipping or swiveling channel, where the liquid metal from the drain channel over a Distribution system in off opening runs from which it is preferably in a mobile pouring vessel expires, whereby

• a) each transport and drainage channel over its entire Length has one or more cover hood (s) that the smallest possible free, d. H. not from the river sigmetall flows through the interior,
• b) the transfer station including the Aus running openings largely gas-tight by a ge closed housing is shielded,
• c) above that from the outlet opening to the pouring vessel Inlet opening of the liquid metal jet an annular compressed gas nozzle or several a ring forming pressure gas nozzles is or are, de escaping inert gas creates a vertical ring inert gas jacket around the liquid metal jet det (form) and
• d) in the covers, in the transfer station housing and gas nozzles for inert gas are provided in the pouring vessel hen, according to patent 39 03 444.

In the above patent application, essentially to suppress the be according to the prior art Known devices evolving fumes a Weitge proposed housing the way the liquid  metal from the tap hole of a metallurgical furnace or egg blast furnace to the pouring vessel. The usual transfer point of the liquid me located in a pit talls from the transport trough into the inlet opening of the Ab pouring vessel is against one by the said housing Oxygen access largely shielded. In addition, the Transfer point interior inertized and at the same time with cooled the inert gas.

The transfer point of the liquid metal from the transport gutter according to the patent 39 03 444 has one relatively large-volume housing in which a tilting or Swivel trough is arranged.

A tipping trough is a trough arrangement in which the A pig iron coming from a gutter over one around a hori the central axis of the trough can be tilted into different pouring vessels is directed.

A swivel channel is a channel arrangement in which the Cast iron coming from a gutter to one by one kale axis swiveling or rotatable channel is directed from of it directly or through an underlying distribution system from several individual channels into the pouring vessels is leading.

According to the size of these channel arrangements are Inerting the relevant interior of the housing rela tiv large amounts of inert gas such. B. requires nitrogen.

It is therefore an object of the present invention, this In to minimize space and thus the need for inert gas.

This object is achieved by those listed in claim 1 Features solved. The essential core idea of the invention consists of the tipping or swiveling channel over their respective gutter part lengths to form the smallest possible a free, d. H. not flowed through by the liquid metal to cover the interior, with the tipping or swivel channel ending  be funnel-shaped outlet openings sits on the end face of annular pressure gas nozzles or Compressed gas nozzle rings are arranged. In principle, it will the channel area of the tipping or swivel channel is also abge covers like the transport and drainage channels. The end funnel-shaped designs of the tipping or swiveling channels serve to attach the ring-shaped compressed gas nozzles or the compressed gas nozzle rings to form the inert gas jacket around the liquid metal jet running there. Before can also be used on other holders for the ring shaped nozzle or the nozzle ring can be dispensed with.

Further developments of the invention are in claims 2 to 6 described. So according to claim 2 to create a essentially vertical inert gas jacket around which run off the liquid metal jet of the discharge funnel under the Nei angle or tilt angle of the tilting or swiveling channel arranged net, which minimizes the inert gas jacket diameter can. In any case, the arrangement is such that the annular pressure nozzle plane or through the pressure nozzles ring certain level in pouring position essentially ho lies horizontally.

Preferably, the lid or lids form together with the Tilting or swiveling trough a closed, largely gas tight housing, through which the liquid metal flows can. This interior is iner by a suitable gas tized.

According to a further embodiment of the invention, in particular special for cleaning or repair work of Dec can be loosened from the tipping or swivel trough, preferably as the lid can be swiveled, for. B. via a hinge, attached to the tipping or swivel trough.

Embodiments of the invention are in the drawings shown.

Show it:  

Fig. 1 is a tipping trough in cross section and

Fig. 2 is a plan view of a tipping trough.

If instead of the swivel grooves 28 to 30 named in the patent 39 03 444, which are encased by a closed housing 35 and 36 , a tilting groove 60 in the embodiment shown in FIGS . 1 to 2, the housing mentioned can be dispensed with will. The tipping channel 60 has discharge funnels 61 and 62 at the end, on the end face of which an annular compressed gas nozzle or a compressed gas nozzle ring 63 , 64 is arranged. Provided that the tipping channel 60 must be tilted into the outlet position by lowering it by the angle α, the outlet channel 65 , 65 'with the longitudinal axis 655 of the channel is arranged at the same angle α with respect to the vertical tipping channel. This means that the compressed gas nozzle ring 63 or 64 is horizontal in the outlet position (see FIG. 1, left side). The tipping channel 60 is covered by one or more covers 67 to form the smallest possible interior 68 . The covers 67 are detachably, preferably pivotally attached to the tipping channel 60 . One or more inert gas nozzles 69 are provided for inerting the interior 68 above the liquid metal mirror (not shown) in the tilting channel. The inert gas nozzles 69 , like the compressed gas supply 66 , can be supplied by a central control.

Claims (9)

1. Device for the liquid metal transport of a me tallurgical furnace, in particular blast furnace, in pouring vessels, consisting of at least one installed at a tap opening from the metallurgical furnace transport and drainage channel and a transfer station with a swivel or tilting channel, where the liquid metal from the gutter runs through a distribution system in outlet openings, from which it runs into a preferably mobile pouring vessel, wherein

• a) each transport and drainage channel has one or more covering hood (s) over its entire length, which forms the smallest possible free space (ie, not flowed through by liquid metal) (bil den),
• b) the transfer station, including the outlet openings, is largely gas-tightly shielded by a closed housing,
• c) above or from the outlet opening to the pouring vessel inlet opening, the liquid metal tall jet forms an annular pressure gas nozzle or a plurality of pressure gas nozzles forming a ring, the outflowing inert gas of which forms a vertical ring-shaped inert gas jacket around the liquid metal jet and
• d) in the cover hoods, in the transfer station housing and in the pouring vessel, gas nozzles for inert gas are provided, according to patent 39 03 444,

characterized in that the closed housing of the transfer station is designed so that the tilting or swiveling channel ( 60 ) is covered over its entire channel length to form the smallest possible free, ie not flowed through by the tall interior, by one or more caps ( 67 ) is, and the tilting or swivel channel ( 60 ) one or more outlet opening (s) ( 61 , 62 ) has (have), and on the outflow funnels ( 61 , 62 ) an annularly arranged compressed gas nozzle or a compressed gas nozzle ring ( 63 , 64 ) has (have). 2. Apparatus according to claim 1, characterized in that the discharge funnel ( 61 , 62 ) and the annular nozzle or the compressed gas nozzle ring ( 63 , 64 ) are arranged such that the longitudinal channel axis ( 655 ) of the discharge funnel ( 61 , 62 ) and the by the ringför shaped pressure gas nozzle or the pressure gas nozzle ring ( 63 , 64 ) generated inert gas jacket surface in the pouring position are substantially vertical. 3. Device according to claim 1 or 2, characterized in that the free interior determined by the swivel or tilting channel ( 60 ) and the one or more covers ( 67 ) is largely gas-tight. 4. The device according to claim 3, characterized in that on the cover ( 67 ) or the tilting or pivoting groove ( 60 ) one or more nozzles ( 69 ) are arranged for an inert gas inlet. 5. Device according to one of claims 1 to 4, characterized in that the one or more covers ( 67 ) are releasably attached to the swivel or tilting channel ( 60 ). 6. The device according to claim 5, characterized in that the or the lid are pivotally attached to the pivoting or tipping channel ( 60 ). 7. Device according to one of claims 1 to 6, characterized in that the outlet funnels ( 61 , 62 ) on the tipping channel ( 60 ) are releasably or replaceably attached. 8. Device according to one of claims 1 to 7, characterized in that the transitions ( 70 ) from the drainage channels ( 71 ) to the movable tilting or swiveling channels ( 60 ) with their ren covers ( 67 ) with suitable seals ( 72 ), are preferably provided before gap seals or abrasive seals.