DE202009014246U1 - gas sink - Google Patents

Abstract

Gas purging plug of ceramic, chemically and / or hydraulically bound refractory material for blowing gases into molten metal, wherein the gas purging plug (1) can be inserted into the refractory lining of a metallurgical vessel and at least one gas channel extending from the cold side (3) to the melt side (2 ), is traversed, characterized in that the gas purging plug (1) with at least one heat conducting element (4) is provided, wherein the heat conducting element (4) substantially from the melt side (2) to the cold side (3) through the gas purging plug (1 ).

Description

The The invention relates to a gas purging plug for blowing in Gases in molten metal, wherein the gas purging plug in the Refractory lining of a metallurgical vessel can be used and at least one gas channel, extending from the Cold side extends to the melt side, is traversed.

Under a melt side should that end face of the gas purging plug be understood, which faces the melt. A cold side on the other hand is an end face of the gas purging plug, which is remote from the melt.

purge plugs are exchangeable wear parts for metallurgical Vessels, the initiation of reaction and / or Allow stirring gases in molten metal.

In usually gas purging bricks in the Feuerfestmauerung a metallurgical vessel in the ground area used and by means of a gas supply pipe with compressed gas charged, which flows into the molten metal.

The DE 102005060432 A1 discloses a scavenging cone for metallurgical containers having a core and a filling surrounding the core, the core extending in an axis from a side facing away from the melt to a side facing the melt. The core is formed as a separate molded part produced by the filling, which has an outer contour enabling a positive connection in the direction of the axis.

From the EP 0424502 B2 For example, a gas injector is known for introducing gases into molten metals. This gas injector comprises an extruded rod of a gas impermeable refractory material having a plurality of axially extending gas passages in the form of capillary bores or slots. These channels communicate with the gas inlet chamber and are embedded in a refractory body of the injector except for the exit end.

The EP 1372888 B1 discloses a refractory body or stone for injecting gas into molten metals which is comprised of a porous refractory body substantially encased in a substantially non-porous body except at the molten metal contacting surface.

One generic gas purging stone points during of the operation on the melting side a temperature of up to approx. 1650 ° C, while on the cold side only a temperature of about 250-900 ° C prevails. This operational extreme temperature gradient leads to large Thermal stresses within the gas sink, causing cracks and partial flaking of the gas purging plug lead can. As a result, the durability of the gas purging plug is reduced significantly, resulting in increased operating costs. Of Further, by the resulting cracks molten metal in the gas channels infiltrate, so that the flush readiness affects negatively becomes.

task The invention is the thermoelectric voltages within the gas purging plug to reduce the durability and at the same time to ensure a high flushing readiness.

These Task is with a gas purging plug with the characteristics of Claim 1 solved. Advantageous embodiments are in the dependent claims specified.

Of the Gas purging plug according to the invention points to this in his body at least one heat conducting element on, wherein Wärmeleitelement essentially from the Extend the melt side to the cold side through the gas purging plug.

Under a heat conduction should all substances / compounds understood, on the one hand, the heat better than conduct the surrounding purge material and on the other hand be brought into geometrically exactly definable spatial forms.

Of the Core idea of the invention is the operational in the Gasspülstein from the hot melt side to the cooler Cold side occurring temperature gradient decrease, so that thermal stresses be reduced in the gas purging plug. This is inventively characterized that reaches into the body of the gas purging plug be used in its production Wärmeleitelemente. In this way, heat can be better from the melt side be derived to the cold side, so that the entire gas purging plug a more homogeneous temperature distribution and less is claimed by thermal stresses.

The Spatial configuration of the invention Wärmeleitelements is only by the need of a sufficient heat conduction for the respective application limited.

Thus, the heat-conducting element according to the invention can be formed band and / or rod-shaped. In the case of a band-shaped design bands between 0.1 and 5 mm thick, between 5 and 100 mm wide and between 100 and 600 mm in length are usable. One, two or more bands can be inserted into the gas purging plug in any spatial arrangement relative to one another. The bands may be planar along their longitudinal axis and / or transverse axis, in the form of a zigzag pattern and / or.

Of Furthermore, the heat-conducting element can also be spring-shaped, z. B. in the form of a compression spring, be formed, wherein the Pressure spring from the melt side through the gas purging plug through to the cold side. This variant has the advantage that from a variety of commercial compression springs the each suitable compression spring can be selected.

is the heat conducting element rod-shaped, so may be cross-section round, oval, triangular, polygonal or irregular be.

Especially advantageous in a band and / or rod-shaped training the heat conduction is the way the To make heat-conducting elements such that they form spaces otherwise commonly used in the art be used for gas channels.

Advantageous is the embodiment of the heat-conducting element in the form of a Hollow cylinder closed along its longitudinal side or is open, and has a reinforcing effect.

In the closed variant of the hollow cylinder can be any floor surfaces in combination with parallel or not paralle len any cover surfaces have, such. Circles, ellipses, triangles, squares, and mehrecke, stars, lobed figures, heart-shaped, D-shaped and the same.

In the open variant of the hollow cylinder can also be any soil pattern in combination with parallel or non-parallel any cover patterns have, such. B. U-shaped, G-shaped, C-shaped, V-shaped, spiral, etc. As a special training the heat-conducting element can also be spiral-shaped be.

Around a very homogeneous temperature distribution in the gas purging plug to achieve the heat conducting element according to the invention have a three-dimensionally networked shape.

It You can also use several heat-conducting elements with each other combined, such. B. several bands and / or rods and / or hollow cylinders and / or three-dimensionally crosslinked forms.

All previously described spatial forms can be combined with materials, the condition, one for each application sufficient Heat conduction to provide or only during the operation in a thermally conductive form available.

The Heat-conducting element according to the invention can consist of a metal or a metal alloy. Advantageous are the very good thermal conductivity and a reinforcing effect.

Especially advantageous here is sheet steel in the form of ribbons proved. These can namely easily in slot gas purging be built of refractory concrete by being used during Casting with refractory concrete are poured around the casting process.

High-melting, highly thermally conductive inorganic compounds (such as, for example, carbides, nitrides, ceramics, silicides or oxides such as zirconium dioxide ZrO ₂ ) and / or high-melting, highly thermally conductive elements are also suitable as material for the heat-conducting element. In this way, a good thermal conductivity can be combined with heat resistance.

The Heat conducting element can also be based on carbon, such as As graphite and / or carbon nanotubes, too Called CNT (carbon nanotubes).

One Another particular advantage of the invention is that the Use according to the invention of heat-conducting elements in almost every known from the prior art gas purging plug is possible. Restrictions on Choice of material for the basic body of the gas flushing plug it does not exist, therefore it can be both refractory materials used with ceramic, chemical and / or hydraulic bonding become.

As well There are no restrictions on the geometry the gas channels, because the spatial form of the invention Heat conducting or Wärmeleitkomponenten always can be adapted to the geometry of the gas channels, so that the function of the gas channels is not affected.

in the The invention will be described by way of example with reference to the drawing explained in more detail.

It show here:

1 a spatial-perspective view of a conical shape of a gas purging plug 1 .

2 a view of the melting side 2 of the gas purging stone 1 .

3a a Wärmeleitelement combination consisting of two bands 6 and two bars 7 .

3b a Wärmeleitelement combination of six rods 7 that the corners of a regular form hexagons,

3c a Wärmeleitelement combination of four bands 6 and four bars 7 , where the rods 7 the corners and the bands 6 form the sides of a closed square,

3d A heat conduction element combination of six bands 6 and five bars 7 , where the rods 7 and the ribbons 6 are alternating with respective intervening distances in a hexagonal array,

3e a closed 10-cornered symmetrical cylindrical shape of the heat-conducting element,

3f an open irregular cylindrical shape of the heat conducting element,

3g a heat conduction element combination of 2 C-shaped open cylindrical shapes,

3h a closed cylindrical shape of the Wärmeleitelements with an accordion or zigzag,

3i a three-dimensional networked spatial form of the Wärmeleitelements and

3y a spiral-shaped spatial form of the Wärmeleitelements.

4a an illustration of a pressure spring-shaped spatial form of the heat conducting element.

4b a view of the melting side 2 from 4a In 1 is a perspective view of an inventive conical gas purging plug 1 of the melt side facing the melt 2 and a cold side facing away from the melt 3 having. melting page 2 and cold side 3 form flat circular surfaces which are parallel to each other and the melt side 2 has a smaller area than the cold side 3 , In the illustrated embodiment, there is the heat-conducting element 4 of four individual, radially and at right angles to each other arranged strip-shaped parts. (Gas channels are not shown for clarity). The heat-conducting element 4 is perpendicular to the melting side 2 and cold side 3 and extends between them. The entire heat-conducting element 4 is centered in the cone body along the longitudinal axis A, which extends through the circle centers M1 and M2 5 arranged.

2 shows a plan view along A on the melt side 2 of the gas purging stone 1 out 1 , Due to the conical shape of the gas purging plug 1 appear on the melt side 2 and cold side 3 as concentric circles. The heat-conducting element 4 is in the top view x-shaped.

The 3a to 3y show further embodiments of the invention of the heat-conducting elements 4 each in a plan view along A on the melt side 2 of the gas purging stone 1 out 1 , For the sake of clarity are in the 3a to 3y in each case only the melt side 2 of the gas purging plug 1 displayed. The respective patterns represent patterns of the melt side 2 with the heat-conducting element 4 is, wherein the heat conducting elements 4 in the 3a to 3y always perpendicular to the melt side 2 are arranged.

The 4a shows a representation of a pressure spring-shaped spatial form of the heat conducting element 4 , The heat-conducting element 4 is here designed as a compression spring extending from the melt side 2 through the gas purging plug 1 through to the cold side 3 extends.

The Representation is not to scale, more advantageous Way has the pressure spring-shaped heat conducting element a significantly smaller diameter than represents, where the number the turns can be higher.

About that In addition, all heat-conducting elements for cold and / or melt side, so that the elements to the cold and / or melt side of the refractory material of the purging plug are covered outside.

A

longitudinal axis

M1

Focus melting page

M2

Focus cold side

1

gas sink

2

melting page

3

cold side

4

thermally conductive element

5

cone body

6

tape

7

Rod

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 102005060432 A1 [0005]
• EP 0424502 B2 [0006]
• - EP 1372888 B1 [0007]

Claims (8)

Gas purging plug of ceramic, chemically and / or hydraulically bonded refractory material for blowing gases into molten metal, wherein the gas purging plug ( 1 ) can be used in the refractory lining of a metallurgical vessel and at least one gas channel extending from the cold side ( 3 ) to the melt side ( 2 ), is traversed, characterized in that the gas purging plug ( 1 ) with at least one heat conducting element ( 4 ), wherein the heat conducting element ( 4 ) substantially from the melt side ( 2 ) to the cold side ( 3 ) through the gas purging plug ( 1 ). Gas purging plug according to claim 1, characterized in that the heat-conducting element ( 4 ) is formed band and / or rod-shaped. Gas purging plug according to claim 1 and / or 2, characterized in that the heat-conducting element ( 4 ) in the form of a hollow cylinder, which is closed or open along its longitudinal side is formed. Gas purging plug according to one or more of claims 1 to 3, characterized in that the heat-conducting element ( 4 ) has a three-dimensionally crosslinked shape. Gas purging plug according to one or more of claims 1 to 4, characterized in that the heat-conducting element ( 4 ) is composed of a plurality of bands and / or rods and / or hollow cylinders and / or three-dimensionally crosslinked forms. Gas purging plug according to one or more of the preceding claims, characterized in that the heat-conducting element ( 4 ) consists of a metal or a metal alloy. Gas purging plug according to one or more of the preceding claims, characterized in that the heat-conducting element ( 4 ) consists of at least one high-melting, good heat-conducting inorganic compound and / or a refractory, good heat-conducting element. Gas purging plug according to one or more of the preceding claims, characterized in that the heat-conducting element ( 4 ) is based on carbon, such as. B. graphite.