NL8005302A - PROTECTION FOR A BLOWING LANCE. - Google Patents

Description

- ^ P & c.

W 5238-3 Ned.dB / LvD

Protective ring for a blow lance.

The invention relates to a ring intended for protecting a blowing lance, or injection lance. This lance serves to blow at least one chemical element into a metal sheet. These are, for example, a lance for blowing oxygen into a molten metal bath or a desulfurization lance for such a bath.

Essentially, such a protective ring consists of refractory material. This ring is manufactured in a vibrating shape, with coaxial, cylindrical walls.

In the known protective rings, the ring contains the refractory material without any internal reinforcement. This ring is therefore resistant to mechanical loads and impacts only to the extent that the refractory is in the compressed and heat-treated condition. As a result, the ring has relatively poor mechanical strength properties, especially against impact.

The rings are often exposed to impact during transport and mounting of the lances, causing them to break and become unusable. Likewise, the rings often tear and break when using the lances, forcing them to replace before they reach their wear limit.

The invention therefore aims at providing a new protective ring which does not have the above drawbacks of the known rings.

To this end, according to the invention, the refractory ring has at least one reinforcement with holes, recessed in the refractory material, which extends around the inner surface of the ring.

The reinforcement is preferably coaxial with the two cylinder surfaces of the ring. In addition, the reinforcement continues up to the transverse surfaces of the ring. In practice, in the new ring, the reinforcement consists of a metal wire mesh, this wire mesh preferably consists of steel wires, which run according to more or less flattened helices and are interwoven with each other.

In a special embodiment of the new protective ring, the refractory ring contains spacers, which are recessed into the refractory material between its inner surface and the reinforcement. These spacers 35 allow the reinforcement to be kept at a substantially constant distance from the cylindrical inner surface of the mold during insertion and vibration of the refractory material into the mold. Preferably, each spacer consists of a ring formed of a steel wire wound along a more or less flattened helix.

\ 40 The invention will be explained in more detail below with reference to \ p η n r 3 n? - 2 - of the drawing, in which an embodiment of the protective ring according to the invention is schematically shown.

Fig. 1 is an axial section through the protective ring.

Fig. 2 is an axial section through the lower part of a lance with the new protective rings.

Fig. 3 is a partial perspective view of the reinforcement of the ring.

The protective ring shown serves to protect the metal tube 1 of a blowing lance or injection lance in a steel factory.

This concerns, for example, a lance for introducing at least a purifying or fresh agent, a decarburizing agent or a desulphurizing agent into a sheet of molten metal.

The ring is bounded by two coaxial cylinder surfaces, an outer surface 3 and an inner surface 4 and by two transverse surfaces, an upper surface 15 and a lower surface 6.

To facilitate axial alignment with the adjacent top and bottom rings, each ring has a circular backing 7 centered on its top face 5 and a circular groove 8 in the center of the bottom face 6. The backing 7 and groove 8 have 20 complementary, semicircular cross sections.

The ring 2 consists of a mass 9 of refractory material known per se. According to the invention, the ring 2, i.e. the refractory mass 9, is internally reinforced with at least one reinforcement 10 with holes. The reinforcement is sunk into the refractory mass 7.

In the example shown, the reinforcement 10 is coaxial with the outer surface 3 and the inner surface 4 of the ring 2 and extends in the height direction from the top surface 5 to the bottom surface 6 of the ring.

Preferably, the reinforcement 10 consists of a metal wire mesh, formed by steel wires 11, each wound along a more or less flattened helix. The wires 11 are subsequently intertwined as shown in Figure 3.

Preferably, the ring 2 is provided with spacer members 12, each preferably consisting of a steel wire, which also runs along a more or less flattened helix. The spacers 12 35 are arranged between the cylindrical inner surface of the manufacturing mold for the rings 2 and the reinforcement 10, which is placed in the mold, before the refractory material is brought into the mold. As a result, the spacers 12 keep the reinforcement 10 at a approximately constant distance from the inner cylindrical surface of the mold, both during insertion and vibration of the refractory. As a result, after manufacture, the 80 0 5 30 2 - 3-> * reinforcement 10 is sunk into the refractory mass 9 of the ring 2 and proceeds substantially coaxially with the cylinder surfaces 3 and 4.

When mounting the lance, the lower protective ring around the metal pipe 1 rests on a refractory nose 13, under 5, between a lower seal 14 of asbestos. In a known manner, the internally threaded nose 13 is screwed onto an externally threaded refractory ring 15 surrounding the tube 1. The refractory ring 15 thereby rests on a steel collar 16, which is attached to the lower end of the tube 1 in a cavity of the nose 13. Furthermore, the intermediate protection rings rest one after the other, each time interposing an intermediate seal 17, also of asbestos the rings being guided relative to the tube through their ridges 7 and their grooves 8.

15 --- ++ -— y * * 1 8005302

Claims (7)

1. Protective ring for a lance for blowing in or injecting at least one chemical agent into a metal bath, which ring consists of refractory material, characterized in that the ring (2) is provided with at least one reinforcement (10) with holes, countersunk arranged in the refractory material (9) around the inner surface (4) of the ring. 2. Ring according to claim 1, characterized in that the reinforcement (10) is coaxial with the inner surface (4) and the outer surface (3) of the ring (2). Ring according to claim 1 or 2, characterized in that the reinforcement (10) extends from one transverse surface (5 and 6, respectively). of the ring (2). Ring according to any one of the preceding claims, characterized in that the reinforcement (10) consists of a metal wire mesh. Ring according to claim 4, characterized in that the metal wire mesh consists of steel wires (11) which run along more or less flattened helices and are subsequently intertwined. Ring according to any one of the preceding claims, characterized in that the ring is provided with spacers (12), recessed in the refractory material (9) between the inner surface (4) of the ring and the reinforcement (10), which spacers during the manufacture of the ring serve to keep the reinforcement away from the inner cylindrical surface of the mold. Ring according to claim 6, characterized in that each spacer (12) consists of a ring formed of a steel wire running along a more or less flattened helix. \ 80 0 5 30 2