DE3419335A1 - Blow lance - Google Patents

Abstract

A blow lance consists of a pipe having a refractory sheathing, which is held on the pipe by means of anchors engaging on the pipe and embedded in the sheathing, the holder (8) being designed in such a way that the pipe (2) and the sheathing (3) are axially movable relative to one another when subjected to heat in the melt, in order to compensate thermal expansions. <IMAGE>

Description

DR. SOLF & ZAPF

Authorized representative at the European Patent Office / Wuppertal - Munich 341 9335

European Patent Attorneys IP

January 24, 1984 + II / na / 3064

Willi Wader GmbH, 5608 Radevormwald 1, Tiefestr. 10 Blow lance

The invention relates to a blowing lance consisting of a tube which has a refractory casing which by means of gripping on the pipe, embedded in the jacket Anchor is supported on this.

Blowing lances of the type mentioned are known. They are used, for example, to melt pig iron or steel melts to treat metallurgically in the pan. For this purpose, the lance with its receiving thread arranged on one side is used screwed into a device and immersed in the liquid melt. Depending on the intended use then blown gases or solids through the pipe · As such lances, for example, in up to molten steel with a temperature of 1700 ° C are used, the pipe is monolithically refractory coated to protect it. This sheathing is fastened by means of anchors to the tube, which is designed in particular as a steel tube.

According to the current state of the art, the anchors have different dimensions and shapes can, distributed over the length of the pipe and welded to its outer surface. The number of doing it

Schlossbleiche 20 · Postfach 130113 · D-5600 Wuppertal 1 Patent attorney Dr.-Ing. Dipl.-Ing. A. SoIf (Munich)

Telephone (02 02) 44 509G / 451226 Fax (0202) 451226 Patent attorney Dipl.-Ing. Chr. Zapf (Wuppertal)

Telex: 8591273 soza. Patent attorney Dr.-Ing. Dipl.-Ing. W. Hasse (Munich) / (1982)

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anchor used depends on the intended use the corresponding lance and its dimensions. By embedding the steel anchors in the refractory Sheath this is connected to the pipe. Concrete is used as a cladding, for example, and as a Steel anchors are used in particular.

Since the steel pipe and the refractory cladding are different Have coefficients of thermal expansion, the pipe expands about twice as much as the Refractory concrete. When the known blowing lances are used, this leads to cracks in the refractory jacket, as the refractory jacket the greater thermal expansion of the pipe in its longitudinal direction can not follow, which this tears. This crack formation considerably reduces the service life of the known blowing lances. Average Such a lance can only be used for about 150 to blowing minutes.

The invention is therefore based on the object of creating a blowing lance of the type mentioned at the outset, which has a considerably longer service life, as the cracking occurs due to the different expansion properties is prevented by the steel pipe and concrete jacket.

This object is achieved according to the invention in that the holder is designed in such a way that the tube and the casing when exposed to heat in the melt 30th

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to compensate for thermal expansions axially relative to each other are movable. According to the invention can thus the pipe and the casing perform a relative movement in the direction of the pipe longitudinal axis to one another, which is caused by the different thermal expansion of the pipe and the jacket is caused by the application of heat. By the relative mobility between the tube and the jacket occur in the latter due to the different thermal expansions no tension, so that cracking is prevented. This increases the service life of the invention The blow lance is considerably longer.

According to a further development of the invention, it is provided that the holder has a bearing ring connected to the anchors, which is preferably in an annular groove of the tube with radial play, is mounted, the width of the annular groove being greater than that of the bearing ring. The bearing ring can thus make a relative movement with respect to the pipe due to the thermal expansion. At the same time, the Bearing ring training achieved a holding of the jacket acting in the radial direction on the pipe.

According to another development of the invention it is provided that the bearing ring on the contrary to the preferred Direction of the thermal expansion facing side wall of the annular groove rests, and that the space between the Bearing ring and the other side wall of the annular groove with a shrinking or shrinking when exposed to heat dissolving material is filled. By dipping the lance into the melt, the resulting Heat will shrink or dissolve the material. This is between the bearing ring and the

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corresponding side wall created a cavity that allows an axial relative movement of the bearing ring with respect to the annular groove enables. The filling of the space with the shrinking or dissolving when exposed to heat Material takes place in the manufacture of the blowing lance according to the invention. Here, the bearing ring is first positioned so that that it is on the side wall of the annular groove facing against the preferred direction of the thermal expansion is present. The remaining free area of the annular groove is then filled with the heat-sensitive material. Then the pipe with the bearing ring and the anchors is inserted into a two-part formwork, which is then filled with refractory material for the casing of the pipe. To improve the bond For example, the sheathing made of concrete can also be mixed with steel needles. By the Introducing the heat-sensitive material prevents concrete from penetrating into the space. When the blower lance is used later, the material introduced into the space burns, so that here

forms a cavity that allows relative movement between the bearing ring and the pipe allows. According to another embodiment of the invention it can also be provided that in the Ring groove an easily compressible when force is applied . 25 material is introduced.

According to the invention, it is advantageous if the space at least as large as the maximum difference in thermal expansion occurring in the area of the respective bracket between the tube and the envelope. This ensures that there is sufficient space for the bearing ring its relative movement with respect to the pipe is available stands.

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Furthermore, it is provided according to the invention that the pipe at one end has an outlet opening, and that in the region of the outlet opening 'firmly connected to the pipe, in the sheathing embedded fixed anchors are arranged.

It is particularly advantageous here if the fixed anchors are designed as corrugated anchors welded to the pipe are. Thus, in the area of the outlet opening, there is a fixed connection between the pipe and the refractory Sheath created by means of the wave anchor.

This leads to the fact that, starting from this fastening area, when the blower lance is used, a through the relative displacement occurring with different thermal expansions takes place between the pipe and the jacket, this relative displacement with increasing distance of the fastening area becomes larger and larger. The pipe and casing are only in one place, namely in the area the outlet opening fixed together.

According to a further development of the invention it is provided that the bearing ring faces the outlet opening Side wall of the annular groove rests or adjoins. Due to this position of the bearing ring, which it is when it is "cold" Blowing lance occupies, stands for by the application of heat conditional axial relative movement of the bearing ring in relation to the Rchr entire between it and facing away from the outlet opening Side wall of the ring groove available. It has proven to be beneficial if the distance between the bearing ring and the side wall of the annular groove facing away from the outlet opening is at least 10 mm, wherein this applies to blowing lances whose outside diameter is approximately between 180 and 210 mm and whose total length is approximately between 3000 and 6000 mm.

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Has been found to be advantageous when as heat sensitive Material paper or tape is used.

According to the invention it is also provided that the inner diameter of the bearing ring is greater than the outer diameter of the pipe in the area of the annular groove and smaller than the outer diameter of the pipe in the area outside the annular groove. In this way one caused by the different thermal expansions relative movement AEEP bearing ring opposite the groove is possible. At the same time, it is prevented that the bearing ring can leave the ring groove.

According to another development of the invention it is provided that each armature is curved in the shape of a part of a circle Has bearing ring section, wherein a plurality of interconnected bearing ring sections of a corresponding number the armature form the bearing ring. This design according to the invention has the advantage that there is no separate bearing ring is necessary, but that this is formed by several bearing ring sections of a corresponding number of anchors will. It is particularly advantageous if each anchor is integrally formed with its corresponding bearing ring section.

According to a preferred embodiment of the invention it is provided that the bearing ring consists of three each 120 ° - Part-circular, welded together bearing ring sections. Alternatively, however, the arrangement with advantage also be designed so that the bearing ring from two semicircular, welded together There is bearing ring sections. Furthermore, according to the invention, a larger number of bearing ring sections can also be provided be.

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According to the invention it is provided that of the bearing ring section an anchor claw is bent at one end of each anchor. According to a further development of the invention, it is provided that the anchor claw consists of a web and an anchor fork, the web outside of the bearing ring in radial direction to this and arranged on the end of the web facing away from the bearing ring, the anchor fork which is formed from two mutually offset anchor arms. This training allows the anchor a particularly solid embedding of the anchor claw in the refractory casing.

Finally, it is advantageous if several brackets spaced from one another and distributed over the length of the pipe are provided on the lance according to the invention. As a result, the sheathing is at appropriate intervals supported on the tube. Preferably 20 to 30 anchors are distributed over the length of the pipe.

The drawings illustrate the invention using an exemplary embodiment. It shows:

Fig. 1 is a longitudinal section through an inventive

Blow lance;
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FIG. 2 shows a cross section through the blowing lance according to FIG. 1 in the area of a holder according to the invention; FIG. and

3 shows a broken longitudinal section through the inventive Blowing lance, which details the area of the outlet opening as well as a shows holder according to the invention.

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According to FIG. 1, there is a blowing lance 1 according to the invention from a pipe 2 and a refractory casing 3. The pipe and the casing are preferably made of steel made of refractory concrete. At one end the tube 2 has a receiving thread 4 and at the other end one with an outlet opening 5 provided outlet nozzle 6. The tube 2 is starting from the outlet opening 5 into the immediate vicinity of the receiving thread 4 surrounded on all sides by the casing 3. The receiving thread 4 is used for screwing the blowing lance 1 into a device, not shown, with the help of which gases, in particular noble gases, or solids can be introduced into the pipe 2. Over the length of the tube 2 are in the area of Sheath 3 is provided at regular intervals brackets 8 that provide a hold between the tube 2 and the Create sheath 3. In Fig. 1, these brackets 8 are shown schematically as dashed lines.

2 and 3 show in detail the design of a holder 8 according to the invention In this figure, the tube 2 is encompassed by a bearing ring 9 which is mounted in an annular groove 10 of the tube 2 is. The inner diameter of the bearing ring 9 is dimensioned such that it is larger than the outer diameter of the tube 2 in the area of the annular groove 10 and smaller than the outer diameter of the tube 2 outside the area the ring groove 10.

Each armature 7 consists of a bearing ring section 11, on one end of which an armature claw bent by this is attached 12 connects in one piece. The anchor claw 12 consists of a straight web 13 and an anchor fork 14, which are in one piece on the one facing away from the bearing ring section 11

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The end of the web 13 is arranged and two to the longitudinal direction of the web 13 has angled armature arms 15. The anchor 7 is made of a steel band that is in the shape shown in Fig. 2 is bent. The bearing ring section 11 is designed in such a way that that it has a 120 ° part-circular shape. From the bearing ring section 11 is by means of a fold 16 bent the anchor claw 12, the anchor fork 14 by cutting the corresponding steel strip end and bending of the anchor arms 15 formed thereby is formed in mutually opposite directions. This cutting is preferably carried out in the middle of the back width of the steel band, so that two anchor arms 15 of the same size are created.

According to FIG. 2, three anchors 7 are aligned with one another in such a way that they are 120 ° -particularly in the form of bearing ring sections 11 form a full circle, namely the bearing ring 9. Here, the free end 18a of each bearing ring section strikes 11 against the fold 16 of the respectively adjacent anchor 7. The parts adjoining one another the individual armatures 7 are attached to one another by means of welds. The webs 13 of the individual anchors 7 run relative to the bearing ring 9 in the radial direction. The two anchor arms 15 are of opposite size Angles with respect to the longitudinal direction of the web 13 bent from this. The anchor claws 12 of the corresponding Anchors 7 are firmly embedded in the refractory casing 3.

According to FIG. 3, the width of the annular groove 10 is larger than the width of the bearing ring 9. The bearing ring

adjoins the side wall facing the outlet opening 5 18 of the annular groove 10, so that the side wall 19 of the annular groove 10 facing away from the outlet opening 5 the bearing ring 9 faces at a distance, whereby a gap 20 is formed. That the space in between The inside of the annular groove 10 forming the interior is filled with heat-sensitive material 21. As a heat-sensitive material 21, which shrinks or dissolves when exposed to heat, Paper or adhesive tape is preferred. The thickness of the heat sensitive material 21 is also as large as the depth of the annular groove 10, so that it is completely filled.

The lower part of Figure 3 shows the area of the outlet nozzle 6 of the blowing lance 1. In this area, waved anchors 22 are attached to the surface of the pipe 2 by means of welds 23 attached. These wave anchors 22 are formed from a wave-shaped bent steel strip and are firmly in place the casing 3 embedded.

3 shows the state of the blowing lance according to the invention 1 when not in use; the lance is therefore not exposed to heat. This condition is noticeable characterized in that the bearing ring 9 is attached to the side wall 18 of the annular groove 10 facing the outlet opening 5 adjoins. When using the blowing lance according to the invention 1, which is immersed in molten steel at 1700 ° Celsius, for example, the tube 2 and the casing 3 expand. According to the invention is in particular the length expansion, i.e. the expansion occurring in the direction of the pipe's longitudinal axis 2 8, is important, so that this will be discussed in more detail. According to FIG. 3, pipe 2 and jacket 3 are by means of

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Waved anchor 22 in the area of the outlet opening 5 with one another fixed. If the heating according to the invention now takes place Blowing lance 1, the pipe 2 is in the direction of arrow 24 and so is the casing 3 expand in the direction of arrow 25. Due to the different coefficients of thermal expansion of the Tube 2 and the jacket 3 is about twice as large expansion of the tube 2 compared to the Sheathing 3. This has the consequence that the bearing ring moves in the direction of arrow 26 within the annular groove (10) moves relative to this. This relative movement is possible because the material 21 introduced into the intermediate space 20 is sensitive to heat and shrinks or burns due to the heat generated during use, so that through burning the heat sensitive material 21 Cavity arises. A displacement of the bearing ring 9 in the annular groove 10 due to the different thermal expansions of the pipe 2 and the jacket 3 is therefore not opposed to any resistance. So step between the tube 2 and the casing 3 no mechanical stresses that could lead to cracking of the Lead cladding 3. The life of the invention Blowing lance 1 is hereby considerably lengthened compared to the blowing lance known from the prior art.

Claims (16)

Expectations: 1. Blowing lance, consisting of a tube which has a refractory coating that by means of anchors that attack the pipe and are embedded in the casing is held, characterized in that the holder (8) is designed such that the tube (2) and the jacket (3) when heat is applied in the melt to compensate for thermal expansions are axially movable relative to each other. 2. Blowing lance according to claim 1, characterized in that the holder (8) has a bearing ring (9) which is connected to the armature (7) and which is in an annular groove (10) in the tube (2), preferably is mounted with radial play, wherein the width of the annular groove (10) is greater than - that of the bearing ring (9). 3. Blowing lance according to claim 1 or 2, characterized by d a d u r c h, that the bearing ring (9) on the opposite to the preferred direction of thermal expansion facing side wall T18) of the annular groove (10) is applied, and that the space (20) between .dem bearing ring (9) 'and the other side wall (19) of the annular groove (10) with a when heat is applied shrinking or dissolving material (21) is filled. 4. Blowing lance according to one or more of claims 1 to 3, characterized in that that the gap (20) is at least as large as the maximum occurring in the region of the respective holder (8) Difference in thermal expansion between the pipe (2) and the casing (3) is. 5. Blowing lance according to one or more of claims 1 to 4, characterized in that that the tube (2) has an outlet opening (5) at one end, and that in the area of the outlet opening (5) firmly connected to the pipe (2), into the casing (3) embedded fixed anchors (27) are arranged. 6 · Blowing lance according to claim 5, characterized in that the fixed anchor (27) are designed as wave anchors (22) welded to the tube (2). EPQ COPY 7. Blowing lance according to one or more of claims 1 to 6, characterized in that that the bearing ring (9) on the side wall facing the outlet opening (5) (18) rests against the annular groove (10). 8. Blowing lance according to claim Ί, characterized in that the distance between the bearing ring (9) and the side wall (19) of the annular groove (10) facing away from the outlet opening (5) is at least 10 mm. 9. Blow lance according to one or more of the claims 1 to 8, characterized in that that the material (21) is paper or adhesive tape. 10. Blowing lance according to one or more of claims 1 to 9, characterized in that that the inner diameter of the bearing ring (9) is greater than the outer diameter of the tube (2) in the area of the annular groove (10) and smaller than the outer diameter of the pipe (2) in the area outside the annular groove (10) is. 11. Blowing lance according to one or more of claims 1 to 10, characterized in that that each armature (7) has a partially circular curved bearing ring section (11) "having several with each other connected bearing ring sections (11) a corresponding number of the armature (7) the Form the bearing ring (9). 12. Blowing lance according to claim 11, characterized g e k e η η z'e i c h η e t that the bearing ring preferably of three bearing ring sections, each 120 ° -shaped, welded to one another (11) exists. 13. Blowing lance according to claim 11 or 12, characterized in that that of the bearing ring section (11) of each armature (7) at one end an armature claw (12) has turned. 14. Blowing lance according to claim 13, characterized in that the anchor claw (12) consists of a web (13) and an anchor fork (14), the web (13) outside the bearing ring (9) in a radial direction Direction to this and at the end of the web facing away from the bearing ring (9) (13) the anchor fork (14) is arranged, which consists of two mutually angularly offset Anchor arms (15) is formed. 15. Blowing lance according to one or more of the claims 1 to 14, marked by several copy j§ spaced, distributed over the length of the pipe
Brackets (8). 16. Blowing lance according to one or more of claims 1 to 15, characterized by preferably 20 to
30 anchors (7) distributed over the length of the pipe. gP0COPY