AU686295B2 - Creación de Inventos y Patentes con Inteligencia Artificial

AU686295B2 – Method of manufacturing a gas and/or solid material blasting device for metallurgical vessels and blasting device manufactured in accordance with the method
– Google Patents

AU686295B2 – Method of manufacturing a gas and/or solid material blasting device for metallurgical vessels and blasting device manufactured in accordance with the method
– Google Patents
Method of manufacturing a gas and/or solid material blasting device for metallurgical vessels and blasting device manufactured in accordance with the method

Download PDF
Info

Publication number
AU686295B2

AU686295B2
AU13577/95A
AU1357795A
AU686295B2
AU 686295 B2
AU686295 B2
AU 686295B2
AU 13577/95 A
AU13577/95 A
AU 13577/95A
AU 1357795 A
AU1357795 A
AU 1357795A
AU 686295 B2
AU686295 B2
AU 686295B2
Authority
AU
Australia
Prior art keywords
blasting
ceramic
brick
prefabricated
tubes
Prior art date
1994-04-02
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)

Ceased

Application number
AU13577/95A
Other versions

AU1357795A
(en

Inventor
Alois Angeler
Harald Kaune
Theo Scheuten
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Didier Werke AG

Original Assignee
Didier Werke AG
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
1994-04-02
Filing date
1995-03-01
Publication date
1998-02-05

1995-03-01
Application filed by Didier Werke AG
filed
Critical
Didier Werke AG

1995-10-12
Publication of AU1357795A
publication
Critical
patent/AU1357795A/en

1998-02-05
Application granted
granted
Critical

1998-02-05
Publication of AU686295B2
publication
Critical
patent/AU686295B2/en

2015-03-01
Anticipated expiration
legal-status
Critical

Status
Ceased
legal-status
Critical
Current

Links

Espacenet

Global Dossier

Discuss

Classifications

B—PERFORMING OPERATIONS; TRANSPORTING

B22—CASTING; POWDER METALLURGY

B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES

B22D1/00—Treatment of fused masses in the ladle or the supply runners before casting

B22D1/002—Treatment with gases

B22D1/005—Injection assemblies therefor

C—CHEMISTRY; METALLURGY

C21—METALLURGY OF IRON

C21C—PROCESSING OF PIG-IRON, e.g. REFINING, MANUFACTURE OF WROUGHT-IRON OR STEEL; TREATMENT IN MOLTEN STATE OF FERROUS ALLOYS

C21C5/00—Manufacture of carbon-steel, e.g. plain mild steel, medium carbon steel or cast steel or stainless steel

C21C5/28—Manufacture of steel in the converter

C21C5/42—Constructional features of converters

C21C5/46—Details or accessories

C21C5/48—Bottoms or tuyéres of converters

Abstract

A blasting component for introducing gas and/or solids into metallurgical vessels is manufactured by:- a) inserting the blasting tubes as a bundle into bores machined in an apertured plate, the tubes having a press fit in the bores; b) fitting a prefabricated ceramic internal member within the tube bundle, the member surrounding each of the tubes; c) positioning the assembly in a pressing mould partially filled with the material to form a ceramic battery brick, then fully fill the mould and apply a pressing force to form the blasting brick with an internal tube bundle attached to an apertured plate. Also claimed is blasting device for introducing gas and solid material into a vessel formed as a blasting brick with an internal tube bundle, and formed using the method claimed above.

Description

Method of Manufacturing a Gas and/or Solid Material Blasting Device for Metallurgical Vessels and Blasting Device manufactured in accordance with the Method Description The invention relates to a method of manufacturing a gas and/or solid material blasting device for metallurgical vessels, particularly for convertors, comprising a ceramic blasting brick with metallic blasting tubes pressed therein, the ends of which at the base of the brick are secured to a metallic apertured plate. The :’invention also relates to a blasting device manufactured 15 in accordance with the method.
Blasting devices of t’ type serve, as is known, to supply gases and/or solid materials to the metal melt situated within the metallurgical vessel.
»:Such a blasting device is dedcribed in US-A 4539043 for a convertor base. A blasting device of the same type is also known for an electric furnace from Radex-Rundschau, Volume 1, 1990, pages 195 to 202.
In both cases the metallic blasting tubes are pressed into the ceramic material of Ehe blasting brick which, as is known, is pressed with a very high volumetric compression ratio. This has the result that, after the pressing process, the position of the metallic blasting tubes in the blasting brick frequently differs substantially from the installed position originally provided. The function of the blasting brick is, on the one hand, thereby impaired to a considerable extent. On the other hand, however, difficulties also arise in the completion of the blasting brick since it is practically impossible due to the differing installed position of the blasting tubes to use a prefabricated apertured plate with defined tube connection points. In the known gas and/or solid material blasting devices of the type referred to above, it is, therefore, in practice often necessary to adapt the apertured plate to the final installed position of the blasting tubes and to secure these subsequently to the apertured plate, whereby in practice only expensive welded connections ensure the necessary seal of the tube connecting and fastening :'»‘»points.
SIt is the object of the invention to avoid these S 15 disadvantages and to propose a method of manufacturing a gas and/or solid material blasting device of the type :referred to above which makes a simplification of the manufacture possible and at the same time, particularly in the case of mass production, results in always 20 achieving uniform blasting performance, both quantitatively and qualitatively.
.:eeoi This object is solved in accordance with the invention if the blasting tubes are firstly inserted in the form of a bundle into receiving bores in the apertured plate with the production of a press fit, the space defined within the tube bundle is subsequently filled with a prefabricated, ceramic internal member, the tube bundle secured to the apertured plate is then inserted with the prefabricated ceramic internal member situated therein into a pressing mould partially filled with the ceramic material of the blasting brick, the pressing mould is subsequently completely filled with the ceramic material of the blasting brick and the filling of ceramic material is finally pressed together with the tube bundle and the prefabricated, ceramic internal member situated therein.
The assembly comprising the apertured plate with the tube bundle secured thereto and the ceramic internal member situated therein thus constitutes a prefabricated insert, the ceramic internal member having the object in accordance with the invention of fixing the blasting tubes in the desired installation position during the pressing process. A number of advantages are produced thereby. On the one hand, it is thereby possible to secure the blasting tubes to the apertured plate at the beginning and for this purpose to use a connection, which is simpler by comparison to the usual welding, namely a press fit. The complete tube bundle can thus, in distinction to the known blasting bricks, be inserted into the pressing mould together with the ceramic internal member situated therein in a single working step.
S• On the other hand, the method in accordance with the invention offers the advantage of precisely positioning the blasting tubes in the blasting brick which, particularly in mass production, is a prerequisite for the blasting device subsequently always being able subsequently to operate functionally correctly and precisely in operation.
The type and character of the ceramic material for the blasting brick are well known from the general state of the art. The prefabricated ceramic inner member, which holds the blasting brick together during the pressing process, is advantageously manufactured from the same ceramic material as the remainder of the blasting brick.
In accordance with the invention it is, however, also possible, depending on the application, to manufacture the prefabricated, ceramic internal member and the remainder of the blasting brick from different ceramic materials.
The prefabricated, ceramic internal member and/or the remainder of the blasting brick can also be manufactured from different ceramic materials in zones in the blasting direction of the brick, for instance if one thereby takes better account of the wear performance of the blasting brick in its blasting directibn.
*o It can also be advantageous from the manufacturing point 15 of view to manufacture the prefabricated, ceramic internal member as a drill core, preferably from a blasting brick of the same type.
In order to secure the blasting tubes to the apertured 20 plate, the invention provides that the apertured plate is shrunk onto the ends of the blasting tubes inserted into the receiving bores in the apertured plate. Since the blasting tubes remain immovably held during the pressing process by the prefabricated, ceramic internal member, the shrink connection is sufficient for a perfectly gastight connection of the blasting tubes to the apertured plate.
It is provided in a further embodiment of the invention that the apertured plate is constructed as the end wall of a metallic sleeve which, after insertion of the tube bundle into the pressing mould and filling of the same with the ceramic material of the blasting brick, is completely surrounded on all sides by the ceramic material of the blasting brick, In this manner it is possible to use the space within the metallic sleeve as a gas distribution chamber within the blasting brick.
In the method in accordance with the invention it is also readily possible to insert a plurality of tube bundles with the associated, prefabricated, ceramic internal members into the pressing mould partially filled with the ceramic material of the blasting brick, then completely to fill the pressing mould with the ceramic material of the blasting brick and finally to press the filling of ceramic material together with the tube bundles and the ceramic internal members disposed therein. In this a. .a manner it is possible to alter the blasting performance s 15 of the blasting brick in accordance with requirements, both functionally and also volumetrically.
In a gas and/or solid material blasting device manufactured in accordance with the invention, the S 20 invention provides that the apertured plate is provided with a circular ring of receiving bores for the blasting •tubes and the prefabricated, ceramic internal member is cylindrical. The apertured plate can, however, also be provided with a polygonal ring of receiving bores for the blasting tubes within the scope of the invention, whereby the prefabricated, ceramic internal member is then prismatic. In order to hold the blasting tubes together as securely as possible, the invention also provides that the prefabricated, ceramic internal member closely engages the blasting tubes on all sides over the entire length of the tubes. If necessary, the prefabricated internal member can be provided on all sides with grooves accommodating the blasting tubes.
In order to achieve as favourable a blasting action as possible, the blasting tubes can be helically twisted in the blasting direction.
The blasting tubes advantageously have a circular flow passage but can also, for instance, have an elongate, preferably oval, flow passage.
In gas and/or solid material blasting devices whose blasting tubes are secured to a metallic sleeve, the invention provides that the metallic sleeve has an end wall constituting the apertured plate and is provided at :’both ends with flanges as anchoring elements for anchoring the metallic sleeve in the ceramic blasting S 15 brick.
It is also possible within the scope of the invention, in addition to the one tube bundle, to provide a further tube bundle or an individual tube which is arranged S 20 concentrically with it and which is also secured to the metallic apertured plate, whereby the space between the S•tube bundles or between the individual tube and the tube bundles surrounding it is filled with an additional hollow cylindrical or hollow prismatic, prefabricated, ceramic internal member.
The invention also envisages providing the blasting brick, if required, with a plurality of tube bundles arranged adjacent one another with the associated, prefabricated ceramic internal members. In this manner it is possible to alter the blasting characteristics and the blasting performance of the blasting brick from case to case in accordance with the relevant requirements within broad limits.
A number of exemplary embodiments of the invention will be described in more detail below with reference to the drawings, in which: Fig. 1 is a longitudinal sectional view of a blasting device man..fatured in accordance with the invention with a circular bundle of tubes secured to the end wall of a metallic sleeve, Fig. 2 is a side view of the blasting device of Fig.
1 in the direction of the arrow II, Fig. 3 is a longitudinal sectional view of a modification of the blasting device manufactured in accordance with the invention with a circular bundle of tubes secured to an apertured disc, Fig. 4 is a side view of the blasting device of Fig.
3 in the direction of the arrow IV, Fig. 5 is a longitudinal sectional view of a further modification of the blasting device manufactured in accordance with the invention with a polygonal bundle of tubes secured to an apertured plate, Fig. 6 is a side view of the blasting device of Fig.
in the direction of the arrow VI, Fig. 7 is a longitudinal sectional view of a further modification of the blasting device manufactured in accordance with the invention with two circular bundles of tubes concentrically secured to an apertured disc, Fig. 8 is a side view of the blasting device of Fig.
7 in the direction of the arrow VIII, Fig. 9 shows a modification of the blasting device of Figures 1 and 2 with a double arrangement of the bundles of tubes, Fig. 10 is a schematic longitudinal sectional view of the blasting device manufactured in accordance with the invention during the pressing process.
The blasting device shown in Figures 1 and 2 comprises a 15 ceramic blasting brick 1 with metallic blasting tubes 2 pressed therein, the ends 3 of which are secured at the base of the brick to a metallic apertured plate 4. The latter is manufactured as an end wall of a metallic sleeve 5 with flanges 6 which serve as anchoring elements o 20 for anchoring the sleeve 5 in the blasting brick 1. In order to secure the tubes 2 to the apertured plate 4, a circular ring of receiving bores 7 is provided therein into which the tubes 2 are pushed at the base of the brick as a press fit. The press fit can, for instance, be produced by expanding the ends 3 of the tubes in the receiving bores 7 or by shrinking the apertured plate 4 onto the ends 3 of the tubes. The tubes 2 secured in this manner to the apertured plate 4 constitute a tube bundle 8 whose tubes 2 extend from the apertured plate 4 to the opposite end surface of the blasting brick 1 so that, after installation of the blasting brick 1 in the metallurgical vessel, the passages of the tubes 2 communicate on the one hand at the base end of the brick with the space 9 within the metallic sleeve 5 serving as a gas distribution chamber and on the other hand with the interior of the metallurgical’ vessel.
The space defined by the tube bundle 8 is filled with a prefabricated ceramic internal member 10 which is manufactured from the same ceramic material as the remainder of the blasting brick 1. It is, however, also possible, if necessary, to manufacture the prefabricated ceramic internal member 10 and the remainder of the blasting brick 1 from different ceramic materials. It is also possible to manufacture the prefabricated ceramic internal member 10 and/or the remainder of the blasting brick 1 of different ceramic materials in zones in the 9. blasting direction of the bi’ick, for instance in the 15 longitudinal zones hi and h2. The prefabricated ceramic internal member 10 is of cylindrical construction and manufactured as a drill core from a similar blasting brick 1 which closely engages the blasting tubes 2 on all sides.
The blasting tubes 2 have a circular flow passage. They can, however, also, if required, have an elongate, preferably oval, flow passage.
The blasting device of Figures 1 and 2 is manufactured in accordance with the invention’as follows: The blasting tubes 2 are firstly inserted in the form of a bundle into the receiving bores 7 in the apertured plate 4 with the production of a press fit. The internal space defined by the tube bundle 8 is subsequently filled with the prefabricated ceramic internal member The assembly comprising the metallic sleeve 5 with the apertured plate 4 and the tube bundle 8 secured thereto and the ceramic internal member 10 situated therein constitutes a prefabricated insert which, as may be seen in Figure 10, is subsequently inserted into a pressing mould 21 partially filled with the ceramic material 20 of the blasting brick 1. The pressing mould 21 is subsequently completely filled with the ceramic material 2 of the blasting brick 1. The filling of the ceramic material 20, 22 is finally pressed together with the metallic sleeve 5, the tube bundle 8 secured thereto and the internal member situated therein until the desired final external shape of the blasting brick 1 has been produced.
15 The tubes 2 of the tube bundle 8 are held together in accordance with the invention by the prefabricated ceramic internal member 10 so that they retain their precise insta led position during the pressing process.
20 The ceramic material of the filling 20, 22 comprises, as is known, different granular and/or pulverulent ceramic materials with a suitable grain size into which a suitable bonding agent is mixed.
In the present exemplary embodiment the metallic sleeve is wholly surrounded on all sides by the ceramic material 20, 22 of the blasting brick. In order to increase the usable length of the blasting brick 1, it is, however, also possible by appropriately reconfiguring the pressing mould 21 to arrange the metallic sleeve outside the blasting brick 1 so that the end surface of the inner flange 6 is flush with the base end surface of the blasting brick 1.
The blasting device shown in Figures 3 and 4 differs from the blasting device shown in Figures 1 and 2 substantially only in that instead of the metallic sleeve an apertured plate 11 is present with the receiving bores 7 for the tubes 2. .The apertured disc 11 is arranged on the exterior of the nozzle brick 1. It can, however, also be pressed into the blasting brick I in a manner similar to the metallic sleeve 5. A metallic gas distribution chamber may be connected to the apertured disc 11.
The blasting device shown in Figures 5 and 6 differs from the blasting device shown in Figures 3 and 4 merely in that it is provided with a rectangular apertured plate 12 with a polygonal ring of receiving bores 5 for the tubes 2 instead of the apertured disc 11. The interior of the tube bundle 8 is accordingly filled with a prefabricated ceramic internal member 14 of prismatic construction.
S’ 20 The blasting device shown in Figures 7 and 8 differs .rom the blasting device shown in Figures 3 and 4 merely in that secured to the apertured disc 15 are two coaxially disposed tube bundles 16,. 17 whose internal -nd intermediate spaces are filled with a cylindr il, prefabricated, ceramic internal member 18 and a hollow cylindrical, prefabricated, ceramic internal member 19, respectively. If required, intermediate spaces between the two prefabricated, ceramic internal members 18 and 19 and the tubes 2 can be filled with a suitable ceramic material, for instance a pourable composition. It is, however, also possible to provide the prefabricated, ceramic internal members 18, 19 with longitudinal grooves accommodating the tubes 2.
i It is of course also pos e to provide the corresponding arrangement of tube bundles in the blasting device shown in Figures 5 and 6, whereby in this case the two prefabricated, ceramic internal members are of prismatic or hollow prismatic shape.
It is further possible to secure the tube bundle arrangement of the blasting devices shown in Figures 3, 4, 5, 6 and 7, 8 to a metallic sleeve corresponding to the sleeve 5 in Figures 1 and 2.
The blasting device shown in Figure 9 differs from the blasting device shown in Figures 1 and 2 merely in that two sleeves 5a, 5b extending parallel to one another with tube bundles 8a, 8b are pressed into the blasting brick 1. Similar multiple arrangements are of course possible in all the other described modifications of the blasting device in accordance with the invention.
9 9 9

Claims (17)

1. Method of manufacturing a gas and/or solid material blasting device for metallurgical vessels, particularly for convertors, comprising a ceramic blasting brick with metallic blasting tubes pressed therein, the ends of which at the base of the brick are secured to a metallic apertured plate, characterised in that the blasting tubes are firstly inserted in the form of a bundle into receiving bores in the apertured plate 11, 12, 15) with the production of a press fit, the space defined within the.tube bundle 13, 16, 17) 15 is subsequently filled with a prefabricated, ceramic internal member (10, 14, 18, 19), the tube bundle secured to the apertured plate is then inserted with the prefabricated ceramic internal member situated therein into a pressing mould (21) partially filled 20 with the ceramic material (20) of the blasting brick, the pressing mould is subsequently completely filled with the ceramic material (22) of the blasting brick and the filling (20, 22) of ceramic material is finally pressed together with the tube bundle 13, 16, 17) and the prefabricated, ceramic internal member- (10, 14, 18, 19) situated therein.

2. Method as claimed in Claim 1, characterised in that the prefabricated, ceramic internal member (10, 14, 18, 19) is manufactured from the same ceramic material (20, 22) as the remainder of the blasting brick

3. Method as claimed in Claim 1, characterised in that the prefabricated, ceramic internal member (10, 14, 18, 19) and the remainder of the blasting brick (1) are manufactured from different ceramic materials.

4. Method as claimed in one or more of the preceding claims, characterised in that the prefabricated, ceramic internal member (10, 14, 18, 19) and/or the remainder of the blasting brick is manufactured from different ceramic materials in zones in the ~blasting direction of the brick.

5. Method as claimed in one or more of the preceding claims, characterised in that the prefabricated, ceramic internal member is manufactured as a drill core (10, 18, 19), preferably from a blasting brick of the same type.

6. Method as claimed in one or more of the preceding 20 claims, characterised in that the blasting tubes (2) are secured to the apertured plate 11, 12, by shrinking the apertured plate onto the ends (3) of the blasting tubes inserted into its receiving bores.

7. Method as claimed in one or more of the preceding claims, characterised in that the apertured plate is constructed as the end wall of the metallic sleeve which, after insertion of the tube bundle into the pressing mould (21) and filling of the same with the ceramic material of the blasting brick, is completely surrounded on all sides by the ceramic material (20, 22) of the blasting brick.

8. Method as claimed in one of the preceding claims, characterised in that the plurality of tube bundles (8a, 8b) are inserted with the associated, prefabricated, ceramic internal members into the pressing mould which is partially filled with the ceramic material (20) of the blasting brick the pressing mould (21) is subsequently completely filled with the ceramic material (22) of the blasting brick and the filling (20, 22) of ceramic material is finally pressed together with the tube bundles (8a, 8b) and the prefabricated, ceramic internal members situated therein.

9. Gas and/or solid material blasting device as claimed in one or more of Claims 1 to 8, characterised in that the apertured plate 11) is provided with a circular ring of receiving bores for the blasting tubes and the prefabricated, ceramic internal member (10, 18,’19) is cylindrical.

Gas and/or solid material blasting device as claimed o*e ain Claim 9, characterised in that the blasting tubes are helically twisted in the blasting direction.

11. Gas and/or solid material blasting device as claimed in one or more of Claims 1 to 8, characterised in that the apertured plate (12) is provided with a polygonal ring of receiving bores for the blasting tubes and the prefabricated, ceramic internal member (14) is prismatic.

12. Gas and/or solid material blasting device as claimed in one or more of Claims 1 to 11, characterised in that the prefabricated, ceramic internal member 1 16 14, 18, 19) closely engages the blasting tubes (2) on all sides.

13. Gas and/or solid material blasting device as claimed in one or more of Claims 1 to 12, characterised in that the blasting tubes have a circular flow passage.

14. Gas and/or solid material blasting device as claimed in one or more of Claims 1 to 12, characterised in that the blasting tubes have an elongate, preferably oval flow passage.

15. Gas and/or solid material blasting device as claimed 15 in one or more of Claims 7 to 14, characterised in that the metallic sleeve has an end wall (4) constituting the apertured plate and is provided at ‘both ends with flanges constituting anchoring elements. *9 o

16. Gas and/or solid material blasting device as claimed in one or more of the preceding claims, characterised in that in addition to the tube bundle (16) a further tube bundle arranged concentric with it, or an individual tube is provided which is also secured to the metallic apertured plate whereby the space between the tube bundles or between the individual tube and the tube bundles surrounding it is filled with an additional hollow cylindrical or hollow prismatic, prefabricated, ceramic internal member

17. Gas and/or solid material blasting device as claimed in one or more claims, characterised in that the blasting brick is piovided with a plurality of tube bundles (8a, 8b) arranged adjacent to one another with associated, prefabricated, ceramic internal members. DATED THIS 1ST DAY OF MARCH 1995 DIDIER WERKE AG WATERMARK PATENT TRADEMARK ATTORNEYS 290 BURWOOD ROAD HAWTHORN VICTORIA 3122 s* 0 ,0000 *o 0 00 0 Method of Manufacturing a Gas and/or Solid Material Blasting Device for Metallurgical Vessels and Blasting Device manufactured in accordance with the Method Abstract The invention relates to a method of manufacturing a gas and/or solid material blasting device for metallurgical vessels, particularly for convertors, comprising a :’ofceramic blasting brick with metallic blasting tubes pressed therein, the ends of which at the base of the ta brick are secured to a metallic apertured plate, the S 15 blasting tubes being firstlyinserted in the form of a i bundle into receiving bores in the apertured plate with the production of a press fit, the space defined by the tube bundle being subsequently filled with a prefabricated, ceramic internal member the tube bundle secured to the apertured plate being then inserted with the prefabricated, ceramic internal member situated therein into a pressing mould (21) partially filled with the ceramic material (20) of the blasting brick, the pressing mould being subsequently completely filled with the ceramic material (22) of the blasting brick and the filling (20, 22) of ceramic material finally being pressed together with the tube bundle and the ceramic internal member (10) situated therein.

AU13577/95A
1994-04-02
1995-03-01
Method of manufacturing a gas and/or solid material blasting device for metallurgical vessels and blasting device manufactured in accordance with the method

Ceased

AU686295B2
(en)

Applications Claiming Priority (2)

Application Number
Priority Date
Filing Date
Title

DE4411538A

DE4411538C1
(en)

1994-04-02
1994-04-02

Method for producing a gas and / or solid-state blowing device for metallurgical vessels, and blowing device produced according to the method

DE4411538

1994-04-02

Publications (2)

Publication Number
Publication Date

AU1357795A

AU1357795A
(en)

1995-10-12

AU686295B2
true

AU686295B2
(en)

1998-02-05

Family
ID=6514542
Family Applications (1)

Application Number
Title
Priority Date
Filing Date

AU13577/95A
Ceased

AU686295B2
(en)

1994-04-02
1995-03-01
Method of manufacturing a gas and/or solid material blasting device for metallurgical vessels and blasting device manufactured in accordance with the method

Country Status (11)

Country
Link

US
(2)

US5533713A
(en)

EP
(1)

EP0679723B1
(en)

JP
(1)

JPH07286207A
(en)

CN
(1)

CN1110989A
(en)

AT
(1)

ATE181370T1
(en)

AU
(1)

AU686295B2
(en)

BR
(1)

BR9501077A
(en)

DE
(2)

DE4411538C1
(en)

MX
(1)

MX9501621A
(en)

RU
(1)

RU95104942A
(en)

SK
(1)

SK42195A3
(en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party

Publication number
Priority date
Publication date
Assignee
Title

US5820816A
(en)

1994-05-10
1998-10-13
Jw Hicks, Inc.
Purging device and method of making same

DE29602813U1
(en)

1996-02-16
1996-04-04
Beck & Kaltheuner Fa

Ceramic flushing block for metallurgical vessels

DE19948848C1
(en)

1999-10-08
2000-07-13
Dolomitwerke Gmbh
Nozzle brick for injecting flushing gas into molten metal in a metallurgical vessel has a gas entry opening located at least partially outside the pitch circle of a biasing spring of a non-return valve within a gas supply pipe

US20100143207A1
(en)

2006-12-04
2010-06-10
Univation Technologies, Llc
Semi-conductive coatings for a polyolefin reaction system

US9206487B2
(en)

2014-03-06
2015-12-08
J.W. Hicks, Inc.
Molten metal treatment lance

JP6245455B2
(en)

2014-06-30
2017-12-13
Ｊｆｅスチール株式会社

Converter bottom blowing tuyere block

Family Cites Families (6)

* Cited by examiner, † Cited by third party

Publication number
Priority date
Publication date
Assignee
Title

US4539043A
(en)

1982-03-29
1985-09-03
Nippon Kokan Kabushiki Kaisha
Bottom-blown gas blowing nozzle

LU85131A1
(en)

1983-12-12
1985-09-12
Arbed

GAS-PERMEABLE CONSTRUCTION BODY MADE OF FIRE-RESISTANT MATERIAL

JPS60251214A
(en)

1984-05-29
1985-12-11
Kawasaki Steel Corp
Gas blowing nozzle for melting and refining furnace or reactive vessel

DE3538498A1
(en)

1985-10-30
1987-05-07
Didier Werke Ag

INJECTING DEVICE FOR METALLURGICAL VESSELS

DE8622452U1
(en)

1986-08-21
1988-04-07
Thyssen Edelstahlwerke Ag, 4000 Duesseldorf, De

DE8700662U1
(en)

1986-12-13
1987-04-23
Burbach & Bender Ohg Esb Schweissbetrieb, 5900 Siegen, De

1994

1994-04-02
DE
DE4411538A
patent/DE4411538C1/en
not_active
Expired – Fee Related

1995

1995-01-23
CN
CN95101359A
patent/CN1110989A/en
active
Pending

1995-02-14
US
US08/388,577
patent/US5533713A/en
not_active
Expired – Fee Related

1995-03-01
AU
AU13577/95A
patent/AU686295B2/en
not_active
Ceased

1995-03-15
BR
BR9501077A
patent/BR9501077A/en
unknown

1995-03-16
DE
DE59506198T
patent/DE59506198D1/en
not_active
Expired – Fee Related

1995-03-16
EP
EP95103813A
patent/EP0679723B1/en
not_active
Expired – Lifetime

1995-03-16
AT
AT95103813T
patent/ATE181370T1/en
active

1995-03-29
JP
JP7107731A
patent/JPH07286207A/en
active
Pending

1995-03-31
SK
SK421-95A
patent/SK42195A3/en
unknown

1995-03-31
MX
MX9501621A
patent/MX9501621A/en
unknown

1995-03-31
RU
RU95104942/02A
patent/RU95104942A/en
unknown

1995-09-14
US
US08/528,163
patent/US5547170A/en
not_active
Expired – Fee Related

Also Published As

Publication number
Publication date

US5547170A
(en)

1996-08-20

CN1110989A
(en)

1995-11-01

AU1357795A
(en)

1995-10-12

JPH07286207A
(en)

1995-10-31

DE4411538C1
(en)

1995-12-14

SK42195A3
(en)

1995-12-06

US5533713A
(en)

1996-07-09

RU95104942A
(en)

1996-12-27

MX9501621A
(en)

1997-02-28

DE59506198D1
(en)

1999-07-22

ATE181370T1
(en)

1999-07-15

BR9501077A
(en)

1995-10-31

EP0679723B1
(en)

1999-06-16

EP0679723A1
(en)

1995-11-02

Información de contacto