DE102008027006A1 - Apparatus for the secondary and vacuum metallurgical treatment of liquid steel - Google Patents

Abstract

The invention relates to a device for secondary and vacuum metallurgical treatment of liquid steel, comprising a vacuum vessel, such as an RH, VD or VOD container, which is sealed for the vacuum process with a raised and lowered lid and / or connected to a sealed, continuing vacuum pipeline. In such a device, the seal between the lid and / or the continuing vacuum pipe and the vacuum vessel to be improved. In order to achieve this, a sealing means is arranged around the circumference at the upper end of the vacuum vessel and / or the vacuum pipeline, and the lid and / or a connection end of the continuing vacuum pipeline is formed with a collar which can be inverted over the sealing means.

Description

The The invention relates to a device for secondary and vacuum metallurgical Treatment of liquid Steel comprising a vacuum vessel, such as a RH, VD or VOD containers, that for sealed the vacuum process with a raised and lowered lid lockable is and / or connected to a sealed, continuing vacuum pipeline is.

Such Vacuum degassing with the mentioned types of containers are well known and enable even with significant melt sizes a significant reduction the gas and carbon content after short treatment times. The This required vacuum is achieved by powerful, multi-stage Steam jet vacuum pumps, mechanical pump sets or combinations of Steam jet and mechanical vacuum pumps applied. The in this For example, according to the RH process or vacuum circulation degassing and Kesselentgasungsanlagen used seals therefore comes a big meaning to. Because any air leaks or an air intake during the Impair vacuum process the economic Operation of the plant.

to Sealing of the lowerable on a vacuum vessel Lids it is known, the seams or meeting each other surfaces with flanges of suitable shape, z. B. incorporated therein Sealing grooves, form and seal a full seal, Insert hose seal, with or without sheathing, or the like. Although the flanges are provided with a water cooling, the Seal due to overheating, but also mechanical damage, curing and acid attack a short service life. The seal change is also awkward.

A Insufficient sealing is not necessarily before the start of the process to recognize, so that as a result that for the successful process flow necessary vacuum maybe can not be achieved. To such disruptions of the production process To keep low, the suction power of the vacuum pumps in the Usually considering a major leak designed, which in turn reduces the investment and operating costs elevated.

Of the Invention is therefore the object of a device of the type mentioned above to provide an improved seal, with which the mentioned disadvantages can be avoided.

These Task is inventively characterized solved, that around the circumference at the upper end of the vacuum vessel and / or the vacuum pipeline a sealing means is arranged and the lid and / or a connection end the continuing Vacuum piping with an over slip the sealant Collar is formed. Leave it to achieve that the seal is no longer directly higher thermal Load is exposed by heat radiation. The seal is also located in one of the slipped-over collar outward protected Space and is almost unlimited shelf life, because even falling or dripping bears or liquid steel can no longer get to the seal. At the sealing point are no Flanges more necessary, as well as their mechanical Machining and a water cooling eliminated.

One Another major advantage of the sealing concept is that through according to the invention on the outer vessel or Pipe wall arranged sealant a spatial and temporal separation the functions "mechanical merging of Vacuum vessel and lid "and" vacuum-tight Closure of the parts "takes place.

A preferred embodiment the invention provides that the ring around the vacuum vessel and / or the terminal end of the vacuum tubing laid radial sealant expandable and thus can be pressed against the collar. In a preferred execution this is done by means of an inflatable seal or a seal, which can be pressed by a separate inflatable ring body to the collar. This results in a further optimized sealing, because with the Inflating or spreading the seal adapts itself automatically to any production - related unevenness of the surfaces enclosing it Cover collar and the vacuum vessel and / or to the vacuum pipeline.

It According to the invention, it is proposed that the sealant is connectable to a pressure medium supply. This leaves the seal wear continues Reduce. The pressure medium supply can only be switched on or be controlled when the lid is in its final position has lowered or the partial pipe sections of the continuing Vacuum tubing their final fitting position have reached and the sealing function is needed. When opening the Vessel or Lifting the lid and / or opening the vacuum pipe or removal of their partial pipe sections from each other the seal be relieved or -spannt accordingly.

Advantageous the invention can also for the ventilation of the vacuum vessel the vacuum treatment can be used. This is the seal relaxed and the vacuum vessel over the Ventilated annular gap ventilated.

To An advantageous embodiment of the invention are two sealing means parallel and spaced from each other circumferentially arranged, with the after putting on of the lid and / or joining the part pipe pieces the continuing one Vacuum tubing enclosed annulus between the two Sealants a negative pressure generating suction device is connectable. This allows it, one between the negative pressure inside the vacuum vessel and the atmospheric pressure To generate negative pressure to the environment. This is possible a particular in the low vacuum range on the vacuum vessel inside further reduce the effect of air leakage. Minimizing air leakage is especially for systems with mechanical vacuum generators for limiting the required suction power of interest. Furthermore, it is possible As a result, the tightness of these sealant reliable and check quickly, regardless of for The metallurgical process installed vacuum generator. Disruptions can occur Beginning of the actual treatment will be recognized, with more favorable Impact on the operational safety of the plant.

Further Features and details of the invention will become apparent from the claims and the following description of illustrated in the drawings embodiments the invention. Show it:

1 as a detail of a vacuum degassing in a longitudinal section a counting of the prior art, sealed by an attached lid closed vacuum vessel with previously introduced melt pan;

2 in a very schematic representation of an inventive seal between vacuum vessel and lid, shown in solid lines in the operating position and dash-dotted with lifted lid;

3 as a detail, a cross section of a possible sealant or a seal which is radially inflatable, as indicated by dash-dotted lines;

4 as a detail, two parallel spaced sealant with connected to the enclosed between the sealing means annulus vacuum generating device, shown schematically; and

5 a vacuum piping arrangement, on the one hand in coupled operating position and on the other hand in decoupled external operating position (see the right half of the figure) shown.

The 1 shows a known type of vacuum degassing, in which in a vacuum vessel 1 one with liquid metal 2 filled melting pan 3 is set. The vacuum vessel 1 is by a raisable and lowerable lid 4 with the interposition of an annular full seal 5 sealed sealed. The full seal is accommodated by sealing grooves in complementary flanges 6 respectively. 7 on the one hand the lid 4 and on the other hand, the vacuum vessel 1 are incorporated. The lid 4 is with connections 8th for supply lines 9 for introducing alloy materials and a centrally arranged oxygen lance 14 Mistake.

This in 2 The sealing concept shown differs significantly from the known or conventional, the example of 1 above-described seal between flanges 6 . 7 from lid 4 and vacuum vessel 1 from. Because in the execution 2 the lid is no longer placed with a flange on a flange pad, but starting from the in 2 dashed lines, raised inoperative position of with 104 figured lid lowered and the vacuum vessel 100 slipped. The lid 104 is this with a bent down, the vacuum vessel 100 overarching collar 10 educated.

The collar 10 of the slipped lid 104 lies down over a sealant 11 at the top 12 just below the vessel opening around the circumference of the vacuum vessel 100 is arranged. The ring around the circumference of the vacuum vessel 100 laid sealant 11 is preferably a radially expandable inflatable seal 13 executed, the or in the 3 shown configuration, but can also be designed arbitrarily tubular. By this sealing concept is advantageously a spatial and temporal separation of the functions "mechanical merging of vacuum vessel and lid" and "vacuum-tight closure of the parts".

If in the cavity of the inflatable seal 13 after putting the lid over 104 a pressure medium supply (not shown) connected and compressed air or the like is initiated, expands the inflatable seal 13 radially (see in 3 dash-dotted schematically widened position 13 ' ) and presses against the inner wall of the collar 10 at. Upon completion of the vacuum treatment, the inflatable seal becomes 13 Relieves or relaxes, leaving the lid 104 without contact to the sealant 11 or to the inflatable seal 13 in the inoperative position (see cover 104 ' in 2 ) can be raised. Furthermore, the pressure medium supply also for the ventilation of the vacuum vessel 1 be used, including the inflatable seal 13 relaxed and the vacuum vessel 1 is vented through an annular gap formed thereby.

When the seal execution after 4 are two such sealants or inflated seals 13a . 13b parallel and spaced from each other around the circumference of the vacuum vessel 100 arranged. After putting the lid over 104 and expanding the inflatable seals 13a . 13b lies between the inflated seals 13a . 13b one from the collar 10 of the lid 104 and the outer wall of the vacuum vessel enclosed annulus 15 in front. An attached to this annulus suction 16 can one between the negative pressure in the interior ren of the vacuum vessel 100 and generate the atmospheric pressure to the surrounding negative pressure, which contributes to the reduction of air leakage.

The 5 shows a vacuum pipe connected to the vacuum vessel, not shown here 200. , of the two piece parts which can be coupled together 200 ' and 200 ' can be seen.

Around the circumference at the connection end 212 of a partial pipe section 200 '' the vacuum pipeline 200. is a sealant 211 arranged like a ring, as a radially expandable inflatable seal 213 is executed. At the end of the connection 212 in flight opposite terminal end 201 the other part of the pipe section 200 ' the continuing vacuum pipeline 200. is a collar 210 formed when joining the two pieces of pipe parts 200 ' and 200 '' , which abut each other here with the end faces of their pipe ends, about the sealant 211 or the inflatable seal 213 sets.

Again, it is envisaged that in the cavity of the inflatable seal 213 after slipping over or reaching over the collar 210 by means of a pressure medium supply (not shown), compressed air or the like is introduced, so that the inflatable seal 213 radially widening (cf., in the left - hand illustration of 5 shown as a detail on an enlarged scale inflatable seal 213 with dash-dotted schematic widened position 213 ' ) and to the inner wall of the collar 210 pressed. Upon completion of the vacuum treatment or a Durchleitvorganges through the vacuum pipe 200. becomes the inflatable seal 213 relieved or relaxed, leaving the collar 210 without contact to the sealant 211 or to the inflatable seal 213 can be moved to an inoperative position.

The coupling or decoupling of the partial pipe pieces 200 ' and 200 '' the vacuum pipeline 200. takes place via a cylinder 214 and a movement or setting stroke permitting and at the same time stretching or tension compensating in the partial pipe section 200 ' integrated compensator 215 ,

1

vacuum vessel

2

liquid metal

3

melting pan

4

cover

5

full seal

6

flange

7

flange

8th

Connection

9

supply

10

collar

11

sealant

12

upper vessel end

13; 13a, 13b

inflatable seal

14

oxygen lance

15

annulus

16

suction

100

vacuum vessel

104

cover

200

Vacuum manifolds

200 '

Partial pipe section (the Vacuum tubing)

200 ''

Partial pipe section (the Vacuum tubing)

201

terminal end

210

collar

211

sealant

212

terminal end

213

inflatable seal

214

cylinder

215

compensator

Claims (4)

Apparatus for the secondary and vacuum metallurgical treatment of liquid steel, comprising a vacuum vessel, such as an RH, VD or VOD vessel, which is sealed for the vacuum process with a raised and lowered lid and / or sealed to a sealed, further vacuum pipe is connected. characterized in that around the circumference at the upper end ( 12 ; 212 ) of the vacuum vessel ( 100 ) and / or the vacuum pipeline ( 200. ) a sealant ( 11 ; 13 ; 211 ; 213 ) is arranged and the lid ( 4 ; 104 ) and / or a connection end ( 201 ; 212 ) of the continuing vacuum pipeline ( 200. ) with an over the sealant ( 11 ; 13 ; 211 ; 213 ) invisible collar ( 10 ; 210 ) is trained. Apparatus according to claim 1, characterized in that the ring around the vacuum vessel ( 100 ) and / or the vacuum pipeline ( 200. ) applied sealants ( 13 ; 213 ) radially expandable to the collar ( 10 ; 210 ) can be pressed. Apparatus according to claim 2, characterized in that the sealing means ( 13 ; 213 ) is connectable to a pressure medium supply. Device according to one of claims 1 to 3, characterized by two parallel and spaced from each other circumferentially arranged sealing means ( 13a . 13b ), wherein after the slipping of the lid ( 104 ) enclosed annulus ( 15 ) between the two sealants ( 11 ; 13 ) a negative pressure generating suction device ( 16 ) is connectable.