DE3728399A1 - Dipped lance - Google Patents

Abstract

The invention relates to a dipped lance which consists of a refractory ceramic shell tube surrounding the axial gas channel. The characteristic of the invention is that at least three parallel spaced tubes (2) open, at their ends, in each case into a common gas-distributing chamber (3) and a gas-collecting chamber (4), which are adjoined by a gas supply connection (5) and a gas discharge connection (6), respectively. <IMAGE>

Description

The invention relates to a refractory ceramic Immersion lance in the form of a tube, in which in an axial Direction at least one continuous channel is provided, flow through the reaction, inert or carrier gases.

Diving lances are used to remove gases, if necessary with solid powdery treatment materials, such as lime, for cleaning or reaction under the surface of molten metal to blow. When immersing the lances through the liquid slag layer floating in the bath surface the molten metal must be the one that prevails in it withstand high temperatures above 1400 ° C. Therefore one usually uses refractory ceramics that but also has a limited lifespan because of it of liquid metal and liquid slag corrosive and is attacked erosively.

The invention is based on the object Lifespan of such immersion lances made of refractory ceramic with the simplest possible measure.  

To solve this problem, the invention suggested that at least three parallel spaced Pipes through which the gas flows through the diving lance each end in a common gas distribution chamber and one Gas collection chamber open to which one Connect the gas supply nozzle or a gas outlet nozzle.

The pipes, which are preferably made of steel, can also be used insulation, e.g. B. paper insulating material be wrapped and are made of the refractory ceramic of the Casing tube of the diving lance encased on all sides.

If according to a preferred embodiment of the immersion lance according to the invention the tubes close to the Outer circumferential surface of the casing tube, there is a very intensive cooling of the diving lance through the flowing gases, especially in the hot Expose slag and melt directly Surface area.

It is further preferred that four to six pipes evenly distributed like a cage in the refractory ceramic Mass of the casing tube are embedded. Through this Measures can result from the life of the diving lance intensive cooling of the refractory ceramic material be increased considerably.  

According to a further preferred embodiment of the immersion lance according to the invention is the scope of the Gas collection chamber may be smaller than that of the gas distribution chamber. The gas collection chamber is immersed in the lower one Area of the diving lance while the gas distribution chamber in the upper part of the diving lance, which is above the Melting bath lies. Reducing the dimension of the Gas collection chamber leaves a stronger erosive removal on bottom of the immersed lance until the Gas collection chamber hit and thus the Diving lance becomes unusable.

In the drawing, an embodiment of the immersion lance according to the invention in longitudinal and cross section represents.

Fig. 1 shows a longitudinal section.

FIG. 2 shows a cross section along the line AA from FIG. 1,

Fig. 3 shows another cross section of the line BB in FIG. 1.

The same parts are in the different figures provided the same reference numerals.

The immersion lance consists of a refractory ceramic jacket tube 1 , in which six steel tubes 2 are evenly distributed in the exemplary embodiment shown and embedded in parallel in the axial direction of the lance. The steel tubes 2 are wrapped with insulation 7 .

At the end, the steel pipes 2 open into a gas distribution chamber 3 , to which the gas supply connection 5 is connected, through which gas is conducted into the gas collection chamber 3 and from there into the pipes 2 . At the other end, the tubes 2 open into a gas collection chamber 4 , to which the gas outlet connection 6 connects, through which the gas flowing out of the tubes 2 and collecting in the chamber 4 is passed into the melt. The outer circumference of the chamber 4 is smaller than that of the chamber 3 for the reason mentioned above.

Pressure compensation spring 8 is provided at the head of the lance, and threaded rods 9 are provided at the lower end, which facilitate assembly of the lance.

Reference symbol list

1 jacket tube
2 pipe
3 gas distribution chamber
4 gas collection chamber
5 gas supply connections
6 gas outlet connections
7 paper wrapping
8 gas balance spring
9 threaded rod

Claims (6)

1. Immersion lance, consisting of a refractory ceramic jacket tube surrounding the axial gas channel, characterized in that at least three parallel spaced tubes ( 2 ) end at the ends in a common gas distribution chamber ( 3 ) and a gas collection chamber ( 4 ), to which a gas supply nozzle ( 5 ) or connect a gas outlet connection ( 6 ). 2. Immersion lance according to claim 1, characterized in that the tubes ( 2 ) are made of steel. 3. Immersion pipe according to claim 2, characterized in that the steel pipes ( 2 ) with an insulation ( 7 ) are wrapped. 4. Immersion lance according to one of claims 1 to 3, characterized in that the tubes ( 2 ) run close to the outer peripheral surface of the casing tube ( 1 ). 5. Immersion lance according to one of claims 1 to 4, characterized in that four to six tubes ( 2 ), evenly distributed cage-like in the casing tube ( 1 ) are embedded. 6. Immersion lance according to one of claims 1 to 5, characterized in that the circumference of the gas collection chamber ( 4 ) is smaller than that of the gas distribution chamber ( 3 ).