DE2013052B - Device for lining nozzles, drying elbows and pieces for shafts, in particular blast furnaces - Google Patents

Description

Ejform off. as these differ fundamentally from the curved shape 55 of the nozzle blocks and nozzle holder parts

The invention relates to a device that differs. In addition, it must be taken into account in the lining of nozzle holders, in particular that the casting of steel in a mold and there * · rummage and knee gaps on manholes, in particular blowing hot air into blast furnaces. The like. Not : re blast furnaces with refractory ramming mass, best- are comparable with each other. While dei : nd from one in the nozzle holders or nozzle holder- 60 hot blast in a nozzle holder with high speed insertable core, which after the introduction speed and corresponding friction on the fire it is moved along the nozzle assembly or most of the feed that surrounds it, the melt rises in the dei Osenstock part a form for the rammed earth bil- ing mold with negligible compared to the hot breeze : t. bar low speed, so that completely ver

The tunnels of shaft furnaces are usually subject to different loads on the lining, the hot blast of which is supplied to the hot wind ring line from a surrounding the furnace frame, even during the lining. Everyone is a must.
Wind shape over refractory-lined cast steel- The object underlying the invention be

is now about creating a device with animal it succeeds in nozzle manifold elbows and elbows Stamp out according to the contours without the risk of damaging the lining and / or the core when taking it out.

According to the invention this is achieved in that the core is made of an elastic material with an insert consists of low-stretch fibers, is composed of several sections and how known per se, inflatable with a pressure medium and with a discharge valve for the pressure medium and a lock is provided. Such a core can easily be inserted into a nozzle assembly or nozzle assembly part bring z. B. with air up to the finished size of the associated nozzle block inner diameter, so up to a desired contour, inflate and after stamping and deflating the air from the nozzle stock or remove the nozzle holder part again without damaging the chuck. The low stretch Fibers consist, for example, of glass or polyester and limit the contour of the core very precisely when inflating, so that a true-to-size lining is guaranteed. The core is preferably made of several, in plan view wedge-shaped sections, which are connected by overlapping seams are connected. The seams give the core increased stability when inflated and dimensional stability, thus guaranteeing the desired thickness of the refractory lining; she can be produced without difficulty by vulcanizing, welding or gluing.

In particular in the case of an elbow that widens conically on one side, the length of the core should be greater than the length of the nozzle-stick or nozzle-stick part to be glued, so that the core at Stamping protrudes beyond the nozzle assembly or nozzle assembly part and the refractory material, for example can be easily introduced into the free annulus using a funnel. The protruding end of the core is preferably cylindrical and equipped with a connecting piece.

De.- core according to the invention needs after Inflation only to be wedged in the nozzle assembly or nozzle assembly part to be lined.

The respective nozzle assembly or nozzle assembly part is held in a device that consists of one of its Contour and the ring disc adapted to the core and a stand carrying the ring disc consists. Advantageously, the washer is larger Nozzle holders taking into account their curvature at an inclination between 20 and 40 one high stability, which can be increased by using suitable stops.

The invention is described below using an exemplary embodiment shown in the drawing explained in more detail. In the drawing shows

F i g. 1 shows an axial longitudinal section through a manifold located on a stand with an inflated one Core,

F i g. FIG. 2 shows a plan view of the core according to FIG. 1 and

F i g. 3 a section along the line ΙΠ-ΙΠ in Fig. 1.

The elbow J consists of several pipe sections 2 to 5 welded together, the Pipe sections 2, 3 and 4 are wedge-shaped in plan view. Section 2 is with a Flange 6 to rest on the nozzle tip and the conical formed section 5 is provided with a flange 7 for resting on the intermediate piece. The flanges 6, 7 have holes 8 in the screw bolts

engage on the opposite flanges of the nozzle tip and the spacer to secure it. The manifold 1 also has a welded inspection port 9 through which the Inside of the shaft furnace frame can be observed

ίο can. In eyes 10 and Jl on the concave side of the manifold 1 grab hold center! one that partially absorbs the weight of the manifold. Besides that 1 clamping forks 12 are welded laterally to the front end of the manifold, over which the manifold pulled towards the frame and consequently the nozzle tip is pressed into the blow mold.

The manifold 1 rests in a stand 13 which essentially consists of an inclined retaining ring 14 and a support J .. '. The retaining ring 14 runs with an inclination of about 30 ^, based on the standing surface, and has a central opening 16 which is partially covered by an annular disk 14 a welded to it. The diameter of the opening 16 in the retaining ring 14 corresponds approximately to the diameter of the flange 6, while the diameter of the opening in the annular disk 14 α corresponds to the outer diameter of an inflated core 18. On the top of the retaining ring 14 stops 17 for supporting the lateral forks 12 of the bend 1 are attached. The manifold is centered by the stops and secured against unintentional rotation in relation to the stand 13. The manifold 1 rests with its flange 6 in the opening 16 of the retaining ring 14, while the lower end of the core 18 is firmly clamped in the opening of the retaining disk 14 α.

The core 18 preferably consists of several sections 19 to 24, of which the sections 19 to 22 are wedge-shaped in the region of the curvature of the manifold 1 in the plan view of FIG. The part 23 of the core 18, which is also located in the elbow, corresponds to the associated elbow part conical, while the part 24 protruding beyond the manifold is approximately cylindrical is. The lower end of the core is closed with a one-piece cylindrical cap 25 while the conical section 24 merges into a cap 26 made up of several segments 27, 28. the individual core sections 19 to 24 are

_& o of and connected to the caps 25, 26 by overlapping transverse seams 30 to 36. In addition, the core has an overlapping longitudinal seam 37 and overlapping seams between the segments 27, 28 of the cap 26.

The core is introduced into the manifold in a relaxed state in such a way that its front or lower end 19, 30, 25 protrudes through the openings in the retaining ring 14 and the annular disk 14 α . In this way, after the core has been filled with compressed air, for example, the front end has a firm and ientric seat in the opening of the holding disk 14a . In order to also center the upper part of the core 18, wedges 40 are introduced into the annular space between the core 18 and the elbow section 5 in the area of the curved flange 7.

When the core is inflated, its low-stretch limits are limited Fiber insert the expansion, so that when a certain pressure is reached, for example

of 0.4 atii, a further increase in pressure was not worth mentioning Enlargement or deformation results and the core in the inflated state exactly that Assumes the shape of the desired flow channel in the manifold. The overlapping seams 30 to 37, which are particularly close to one another in the region of the greatest curvature of the bend 1, confer the core a high dimensional stability, so that after filling the annular space 41 between the wall of the manifold 1 and the core 18 results in a very uniform lining.

A similar core, indicated only by the dashed lines 43, is inserted into the inspection port introduced and then the free annular space between the core and the wall of the inspection port filled in with rammed earth. The core 43 can, however, also form an approach to the core 18 and are introduced together with this into the manifold 1 or the inspection hole connection 9.

After the rammed earth has set, the valve 29 is opened so that the pressurized unit is under pressure Air can escape from the core 18 and this collapses. The flaccid core can can then be easily pulled out of the peephole socket and the bend without the danger there is damage to the lining or the core. Similarly, you can also Lining differently designed elbows and elbows without difficulty. The great durability wedge of the core and the relatively low risk of damage ensure a high Economics.

1 sheet of drawings

Claims (7)

or welding fittings with the hot draft ring. For this purpose the hot wind ring has a corresponding number of radially outgoing conical 1 device for lining nozzle connection pieces to which also conically shaped or nozzle block parts, in particular 5 dete nozzle block elbows, are flanged. The elbows and elbows on the shaft and ins- elbow are connected via a ball joint to a special knee furnace with a refractory ramming piece, which can be inserted by means of a clamp screw attached to the furnace armor, consisting of a clamping screw linked into the nozzle blocks or hinged into the nozzle block parts Core, the nozzle tip protruding into the shape, is printed. The bend and the elbow that surrounds it are held together by a nozzle assembly or nozzle assembly part, a form for a wedge connection and form which the ramming compound forms, known as the nozzle assembly. Another known Duz eich η et that the core (18) consists of an elastic rod made of a material seen on the connection seat with an insert of non-stretchable hot wind ring fibers, made of several sections 15 flanged conical pipe pieces, to which a Krum- (19 to 28) is put together and, as is better connected to it. The legs of the manifold can be inflated with a pressure medium and close at an angle of about 130 °, a drain valve (29) for the pressure medium and and are rigidly provided with the pipe piece on the one hand and that of an arrangement (13, 14 a) is. Blow nozzle connected on the other hand. The nozzle assembly ^ 2. Apparatus according to claim 1, characterized in that, like the hot wind ring and its anchoring, that the sections (19 to 28) are lined fire-proof liner to the high connected by overlapping seams withstand wind temperatures of up to 1400 C who are. to be able to. 3. Apparatus according to claim 1 or 2, da- the refractory lining is according to conventional characterized in that the length of the core 35 method using a stable core in (18) introduced greater than the length of the nozzle assemblies or the nozzle assembly parts, the annular space The nozzle assembly parts (1) and the core (18) with between the core and the bend surrounding it from the nozzle holders or nozzle holder pieces or elbow with a refractory material Jen (1) protruding end in one at the same time as stamped out v,: approx. The particular difficulties Workpiece holder for the nozzle sticks or 30 when stamping out an elbow or elbow Nozzle holder parts (Ij trained device consist in that their cross-section in the direction is held. on the blow mold decreases and the radius of curvature 4. Apparatus according to claim 3, characterized accordingly, is different. Also owns indicates that the other end of the core at least the elbow also has a straight part. (18) by means of wedges (40) in the nozzle holders 35 The core has the inner contour of the relevant or nozzle assembly parts (1) is held. Nozzle block part and usually consists of sheet metal; 5. Apparatus according to claim 3 or 4, that he must Ίργ refractory mass after setting characterized in that the device can be removed from what given the curvature of the one of the contour of the nozzle assemblies or nozzle-nozzle assembly parts is naturally difficult and frequent Stock parts (1) and the core (18) adapted 40 only with destruction of the core and damage Ring disk (14 0) and a ring disk of the chuck is possible. Fin firmly adhering sheet metal core (14 he) supporting stand (13) consists. must namely be removed by means of a welding torch 6. Vorncntnng according to claim 4, characterized in that it is fired, which not only leads to a loss of the fact that the annular disc (14 a) is inclined core, but also to damage the fire. 45 solid feed leads. Such damage is 7. Device according to one or more of the not only related to the shelf life of the feed, but rather Claims 3 to 6, characterized in that also on the flow conditions in the nozzle assembly the core (18) on the filling side is disadvantageous in that via the DIi. senstöckc or nozzle block parts (1) protruding part is true when lining block molds is cylindrical. 50 of the German Auslegeschrift 1 226 747 an infl known core, but this core separates for a use 711m lining of diisensticks or nozzle holder parts simply by his