DE3530838A1 - High-temperature seal for a furnace subjected to positive pressure or reduced pressure - Google Patents

Abstract

For sealing, in particular, a melting furnace for metals and metal alloys, wherein the interior is subject to a positive pressure or reduced pressure, it is possible, for restricting the pressurised region to the crucible (5) of the furnace, to provide a high-temperature seal (4) which consists of an impregnated ceramic fibre cord. For impregnating, a chemical compound is used which is water-soluble, thoroughly wets the ceramic fibre cord and is pasty or viscous at the operating temperature of the high-temperature seal (4). <IMAGE>

Description

The invention relates to a high temperature seal for an oven pressurized with overpressure or underpressure special melting furnace for metals and metal alloys.

Especially in a melting furnace for metals or metal alloys whose interior is evacuated or under About pressure, it is advantageous if you have the seal between the lid of the oven and the inside of the oven telbar on the crucible.

Opposite an arrangement where the seal is outside the thermal insulation and the heater, d. H. at a cold spot takes place, you reduce by a high temperature seal directly on the crucible under or Interior of the furnace under pressure. You get there due to higher security due to lower material demanding forces and a better dynamic Ver hold because pressure changes with a smaller gas volume can be done much more accurately and quickly nen. Accessibility also improves, for example as an inductive heating coil surrounding the crucible and is also an emergency melt release device because of the direct accessibility of the crucible from the outside easier to implement.  

A particular difficulty when applying a high However, temperature sealing is a sealing measure to find material that is reliable on the one hand at Be operating temperature of the furnace seals and on the other hand despite the high temperatures neither with the lid nor with the Crucible welded or glued, as a result of this after each Opening the lid a cumbersome cleaning of the sealing surface and a replacement of the seal required would.

The object of the present invention is a high temperature seal to specify the difficulties mentioned removed.

This object is achieved in that as Seal a ceramic fiber cord held in a groove and between the crucible and the furnace lid under pressure is and that the ceramic fiber cord before use as a high-temperature seal in a surface dissolved in water mixed compound dipped and then dried is, the chemical compound be from a substance stands, which is water-soluble, the ceramic fiber cord is good wetted and at operating temperature of high temperature seal is pasty or viscous.

Particularly advantageous chemical compounds for soaking the ceramic fiber cord for operating temperatures at the Seal in the range of 400 to 1000 ° C are in the sub claims described.

Figs. 1 to 3 show embodiments of furnaces having a high temperature seal.

The furnace shown in FIG. 1 has a furnace cover 1 with an insulation plate 2 . The lid 1 projects with its circumference into a sealing carrier 3 surrounding the crucible 5 . Between the inner circumference of the seal carrier 3 , the outer circumference of the crucible 5 and the protruding edge of the furnace cover 1 protruding therefrom is the high temperature seal according to the invention. In the space between the crucible 5 and the outer furnace body 7 , an induction coil 6 is arranged, which serves to heat the metals or metal alloys inside the crucible 5 . The crucible 5 and the induction coil 6 are held in the outer furnace body 7 by refractory bricks 8 . Further insulating layers, not shown here, can surround the crucible 5 .

Due to the arrangement of the high-temperature seal directly on the outer circumference of the crucible 5 , the entire interior space between the outer furnace body 7 and the crucible 5 can be under atmospheric pressure. The gas supply line 9 with the valve 10 , through which, for example, argon enters the space 11 above the melt 12 , must therefore supply or discharge much less gas to produce or change a desired internal pressure than if a seal between the outer furnace body 7 and the furnace cover 1 would be provided. This also allows - as shown in FIG. 2 - the easier attachment of an emergency outlet opening 13 at the lower part of the crucible 5 , which is normally closed by a plug 14 , without that Dichtungspro problems between the plug 14 and the outer furnace body 7 occur.

For the invention, the arrangement of the high temperature seal 4 is not essential. Fig. 3 shows that the high temperature seal ge hold at the edges of the lid 1 and can be set directly to the edge of the crucible 5 .

In any case, care not shown in the figures Clamping elements for the fact that the high temperature seal between between cover and seal carrier or between cover and crucible is pressed.

Nevertheless, with the arrangement shown in FIGS . 1 to 3 Darge alone the above-mentioned task cannot be solved. If one uses a sufficiently temperature-resistant ceramic fiber cord at the high operating temperatures on the seal, it can be seen that an inadmissibly large gas flow escapes or penetrates with such a large sealing surface even without a detectable leak. It has been shown that this gas flow must be evenly distributed over the entire sealing surface because it is almost not felt, but can only be detected with devices for measuring the pressure in the room 11 or the gas supply in the gas supply line 9 .

According to the invention it was recognized that in such a Seal the gas through the fine voids between the parallel fibers of the ceramic fiber cord ent must give way.

If you want this leakage current by using high temperature Avoid natural glue or putty, so it results in that crucible and furnace lid through the hardened you tion mass are firmly connected.  

The furnace cover can then only be used by force Loosen the crucible, the remains of the adhesive or putty must be removed beaten and the seal rebuilt.

A perfect seal at high operating temperatures temperatures of approx. 400 to 1000 ° C can be reached, if you have a water-soluble, at operating temperatures of Seal chooses pasty or viscous chemical compound, and the ceramic fiber cord before use as a high temperature door seal in a highly concentrated solution this chemical compound soaked in water and on finally dries.

For example, a ceramic fiber cord was placed in a boiling saturated solution of boron oxide B₂O₃ in water until it was soaked, removed again from the boiling solution and hung up to dry for a few days without special precautions. Two ceramic fiber cords impregnated in this way were spirally wound together and placed in the sealing joint between the seal carrier 3 and the crucible 5 and the furnace lid was pressed in as shown in FIG. 1. Despite the maximum supply of protective gas, an overpressure of approx. 500 mbar could not be exceeded when the furnace was cold. After the contents of the furnace had melted, the intended pressure of 1 bar was reached without further retightening of the furnace cover 1 . Temperatures of approx. 450 ° C were measured on the furnace cover (approx. 20 mm above the high temperature seal 4 ).

When opening the furnace after the casting, the detached Cover cleanly from the high temperature seal.  

After the next day the dust lying loosely on the high-temperature seal 4 was extracted, a pressure of 1 bar could again be easily achieved after reaching the operating temperature.

A similarly positive result was achieved with a saline solution. 18 g of NaCl was dissolved in 50 ml of water and a ceramic fiber cord was soaked in this solution and dried. Here too there was a good sealing effect. The parts in connection with the high-temperature seal 4 were slightly scaled after opening the furnace cover 1 , the ceramic fiber cord was hard, but not brittle and only slightly adhered to the crucible 5 and seal carrier 3 . This ceramic fiber cord became soft by moistening it with water and could be reused later.

Other useful chemical compounds are fluorspar, although here not so good wettability of the Ke Ceramic fiber cord was found, as well as MgCl.

Claims (5)

1. High-temperature seal for a pressurized or underpressure furnace, in particular melting furnace for metals and metal alloys, characterized in that a ceramic fiber cord is held in a groove as a seal and kept under pressure between the crucible ( 5 ) and the furnace cover ( 1 ) is and that the ceramic fiber cord is immersed in a chemical compound dissolved in water and then dried before use as a high temperature seal ( 4 ), the chemical compound consisting of a substance which is water-soluble, the ceramic fiber cord well wetted and at the operating temperature of the high temperature seal is pasty or viscous. 2. High-temperature seal according to claim 1, characterized in that boron oxide B ₂ O _{3 is} provided as the water-soluble chemical compound. 3. High temperature seal according to claim 1, characterized, that as a water-soluble chemical compound, a salt is provided.   4. High temperature seal according to claim 1, characterized, that as a water-soluble chemical compound table salt NaCl is provided. 5. High temperature seal according to claim 1, characterized, that MgCl as the water-soluble chemical compound is seen.