FR2728589A1 - Device for treating liq. steel under vacuum - Google Patents

Abstract

A device is claimed for treating liq. steel under vacuum. It consists of a tank (1) fitted with a pumping system and at least one tubular plunger (5, 6). The tank (1) incorporates a tank bottom (4) which includes at least one leg (11, 12) fitted with a channel (13, 14) of refractory material connecting the inner part (15) of the tank (1) to the outside of the tank (1). The plungers (5, 6) incorporate main channels (31, 32) of refractory material which are arranged with respect to the legs (11, 12) to extend their channels (13, 14). The channels (13, 14) of the legs (11, 12) and the main channels (31, 32) of the plungers (5, 6) are made up of sleeves of a refractory material not shaped by isostatic pressing. The sleeve is also claimed and is made from a tubular alumina granulate or corundum with or without spinel and an organic binder such as graphite.

Description

DEVICE FOR THE VACUUM TREATMENT OF LIQUID STEEL
The invention relates to a device for the vacuum treatment of liquid steel.

 During the development of the liquid steel, a treatment is often carried out which consists in passing the liquid steel through an enclosure in which a vacuum is created using pumping means. To make this treatment, it is possible to use, for example, a device called RH, consisting of a tank made of several elements, connected to a pumping means and provided, at its lower part with two parallel vertical channels, each ensuring communication between the internal part of the tank and the outside of the tank. Each channel consists of a leg forming part of the lower part of the tank, and a plunger disposed opposite the leg. The internal surface of the tank and the channels is coated with a refractory brick protection.

 The treatment of liquid steel is done by putting the liquid steel in a pocket, then by immersing the RH plungers in the liquid steel, by pumping the atmosphere contained inside the tank which causes the rise liquid steel through the channels in the tank, and by injecting a gas into one of the channels, which causes an intense circulation of the liquid steel in the channels; one channel is traversed by an ascending current and the other by a descending current.

 Due to the intense circulation of liquid steel, the inner wall of the channels tends to wear out quickly. In order to limit this wear, it is necessary to provide the internal protection of the channels with a very resistant refractory material. Refractory concretes are not sufficiently resistant to wear for this use, so the internal protection of the channels is made of refractory bricks joined with a grout based on tabular alumina or corundum. However, this technique has a drawback because the walls of the channels, thus formed, are not perfectly sealed, which causes air inlets which disturb the treatment.

 The object of the present invention is to remedy this drawback by proposing a means for producing the internal wall of the liquid steel circulation channels of a liquid steel vacuum treatment device, the sealing of which is very significantly improved. compared to the prior art.

 To this end, the invention relates to a device for the vacuum treatment of liquid steel consisting of a tank connected at least to a pumping means, and at least one tubular plunger, the tank comprising a bottom of removable tank comprising at least one leg provided with a channel made of refractory material connecting the internal part of the tank to the outside of the tank, the at least one plunger comprising a main channel made of refractory material, being disposed opposite the at least one leg so as to extend the channel of the at least one leg, and, at least, either the channel made of refractory material of the at least one leg, or the channel made of refractory material of the at least a plunger, consists of a ferrule of an unshaped refractory material isostatically pressed.

 Preferably the channel made of refractory material of the at least one leg and the main channel made of refractory material of the at least one plunger each consist of a ferrule made of an unshaped refractory material pressed isostatically.

 The ferrule made of an isoformally pressed non-shaped refractory material constituting the channel of refractory material of the at least one leg may include in the external part of one of its ends a conical zone.

 The ferrule made of an isoformally pressed non-shaped refractory material constituting the main channel of refractory material of the at least one plunger may comprise at least one transverse secondary channel perforating its wall.

 The material constituting the at least one ferrule in an unshaped isostatically pressed refractory material preferably consists of a tabular alumina or corundum aggregate with or without the addition of spinel and a binder either organic or carbonaceous.

 The invention also relates to a ferrule made of an isostatic pressed unshaped refractory material consisting of a tabular alumina or corundum granulate with or without the addition of spinel and a binder either organic or carbonaceous, intended for the production of a liquid steel circulation channel in a liquid steel vacuum treatment device.

The invention will now be described in a more precise but nonlimiting manner with regard to the appended figures in which,
FIG. 1 represents a schematic sectional view of an RH tank,
- Figure 2 shows in section the lower part of a tank
HR,
- Figure 3 shows a sectional view of an RH plunger.

 The RH device shown in FIG. 1 comprises a tank generally identified by 1 consisting of a top of the tank 2 in the shape of a bell, an intermediate ferrule 3 and two plungers 5, 6.

 The top of the tank has a first tap 7 on which is mounted an addition lock 8, and a second tap 9 connected by a pipe 10 to a pumping device not shown.

 The bottom of the tank 4 has two legs 11, 12 which constitute two channels 13, 14 ensuring communication between the internal part 15 of the tank 1, and the outside of the tank.

The top of the tank 2, the intermediate shell 3 and the bottom of the tank 4 each have a sheet metal casing 20, 21, 22 and an internal coating 23, 24, 25 of refractory material
The top of the tank 2 and the intermediate shell 3 are assembled by means of connecting flanges 16, 17; the intermediate shell 3 and the bottom of the tank 4 are assembled by connection flanges 18, 19.

 The plungers 5 and 6, of tubular shape so as to each constitute a main channel 31, 32, are arranged opposite the legs 11, 12 so as to extend the channels 13 and 14 by a certain length.

They are assembled at the bottom of the tank by means of flanges 26, 27, 28, 29.

 Seals, not shown, intended to ensure sealing, are interposed between the flanges which are opposite one another.

 A plunger 6 comprises a transverse secondary channel 30 intended for the introduction of an inert gas into the channel 13.

 The bottom of the tank 4 shown on an enlarged scale in FIG. 2, comprises a sheet metal casing 22, consisting of a vertical wall 44, of generally cylindrical shape, and a bottom 45 provided with two tappings 46 and 47 forming the primer legs 11 and 12. A connection flange 19 is fixed by welding to the upper end 48 of the vertical wall 44 of the casing 22. Each tap 46, 47 has a connection flange 26, 28. The vertical wall 44 is coated inside with a lining 25 made of refractory bricks, the same is true of the bottom 45. These coatings are in accordance with the prior art. Each of the legs 11, 12 comprises a ferrule 40, 41 of an unshaped refractory material isostatically pressed extending over the entire height of the leg and constituting a channel opening on the one hand inside and on the other hand outside of the tank bottom. The two ferrules are generally cylindrical and have at one of their ends a conical part 42, 43 intended to cooperate with the flange 26 or 28 of the legs 11, 12 in order to ensure centering. The constituent material of the ferrules is preferably composed of a tabular alumina or corundum aggregate with or without the addition of spinel and a binder either organic or carbonaceous.

The connection between the ferrules 40, 41 is provided by a seal consisting of a grout based on tabular alumina or corundum. This joint is intended to absorb the differences in expansion between the ferrules 40, 41 and the lining of refractory bricks.

 The plunger 5 shown on a larger scale in Figure 3, consists of a cylindrical sheet metal frame 50, which carries on its outer wall 51 a plurality of mechanical inking means 52 and at its upper end 53, a flange link 54 of steel, fixed to the cylindrical frame 50 of sheet metal by welding. The cylindrical sheet metal frame 50 is embedded in refractory concrete which forms a block 55 whose cylindrical outer wall 56 extends over the entire height of the frame 50 and a little beyond the end 57 opposite the end 53 which carries the flange 54. The block 55 is hollow, and has an internal cylindrical wall 58 separated from the frame 50 by a layer 59 of refractory concrete of low thickness. On the side of the end 57 of the frame 50 which does not carry the flange, the concrete block 55 forms a flange 60 oriented towards the inside of the plunger. Inside the concrete block 55, a ferrule 61 in an isostatically pressed, unshaped refractory material extends over the entire height of the plunger 5 from the internal surface 62 of the flange to the plane defined by the upper surface of the flange 54. The ferrule 61 is held in the longitudinal position relative to the frame 50 by a plurality of mechanical fixing means 64 consisting for example of bolts passing through the frame 50 and fixed to the latter by nuts. These mechanical fixing means 64 are arranged near the end 57 of the frame 50 which does not carry the flange 54. The ferrule 61 thus constitutes a cylindrical channel 32 extended over a short length by the flange 60. The constituent material ferrule 61 is preferably composed of a tabular alumina or corundum aggregate with or without the addition of spinel and a binder either organic or carbonaceous.

 In a device of the RH type comprising two legs 11, 12 and two plungers 5, 6, a plunger 6 comprises a transverse secondary channel 30 passing through the wall of the ferrule 33. This secondary channel 30 is intended to inject a gas into the channel 31 of the plunger 6 in order to cause the circulation of the liquid steel treated under vacuum using the vacuum treatment device.

 When a plunger 5 is mounted on a bottom of the tank 4 while being disposed facing a jamb 12, the shell 61 made of an unshaped refractory material isostatically pressed by the plunger 5 is placed in the extension of the shell 41 made of a material unshaped refractory isostatically pressed from the leg 12 and the two ferrules thus constitute a channel for the circulation of the liquid steel which is both very wear-resistant and very tight.

 The use of ferrules in an unshaped isostatically pressed refractory material is not limited to RH provided with two plungers and two legs, but can be adapted to any device for the vacuum treatment of steel, comprising at least one channel intended to circulate the steel.

Claims (6)

 1 - Device for the vacuum treatment of liquid steel consisting of a tank (1) connected at least to a pumping means, and at least one tubular plunger (5,6), the tank (1) comprising a removable bottom of the tank (4) comprising at least one leg (11,12) provided with a channel (13,14) made of refractory material connecting the internal part (15) of the tank (1) outside the tank (1), the at least one plunger (5,6) comprising a main channel (31,32) made of refractory material being arranged opposite the at least one leg (11,12) so as to extend the channel (13,14) of the at least one leg (11,12), characterized in that at least either the channel (13,14) made of refractory material of the at least one leg (11,12), either the channel (31,32) in refractory material of the at least one plunger (5,6), consists of a ferrule (40,41,61) in an unshaped refractory material pressed isostatically.  2- Device according to claim 1 characterized in that the channel (13,14) in refractory material of the at least one leg (11,12) and the main channel (31,32) in refractory material of the at least a plunger (5,6) each consist of a ferrule (40,41,61) of an unshaped refractory material isostatically pressed.  3- Device according to claim 1 or claim 2 characterized in that the shell (40,41,61) in an unshaped refractory material isostatically pressed constituting the channel (13,14) in refractory material of the at least one leg (11,12) has in the outer part of one of its ends a conical zone (42,43).  4- Device according to claim 1 or claim 2 characterized in that the shell (33) in an unshaped refractory material isostatically pressed constituting the main channel (31) in refractory material of the at least one plunger (6) comprises at at least one secondary transverse channel (30) perforating its wall.  5 - Device according to any one of claims 1 to 4 characterized in that the material constituting the at least one ferrule (40,41,61) in an unshaped refractory material isostatically pressed consists of an alumina aggregate tabular or corundum with or without addition of spinel and a binder either organic or carbonaceous.  6 - Ferrule in an unshaped refractory material isostatically pressed consisting of a tabular alumina or corundum aggregate with or without the addition of spinel and a binder either organic or carbonaceous, intended for the realization of a circulation channel d steel in a liquid steel vacuum treatment device.