DE865644C - Centrifugal furnace - Google Patents

Description

Centrifugal furnaces The invention relates to furnaces used for melting of refractory materials such as silicon dioxide, silicic acid or quartz. Its purpose is to create an electric centrifugal furnace that does the melting such substances in a vacuum.

There are already known electric furnaces in which the melting by radiation of a heat source on the one by centrifugal force in equilibrium held substance is reached. Such a furnace in which the heat source comes from a Graphite resistance is described in German patent 68.1 809. These Furnaces consist of a rotatable drum that contains the insert and which goes through solid end body is completed, via which the power supply line -to the resistor takes place, which is also fixedly arranged in the axis of the rotatable drum.

So far it was because of. the impossibility of making airtight joints between the fixed and rotating parts of the brought to high temperature To install furnace, inconceivable, to create a vacuum inside such furnace.

As far as vacuum furnaces for melting Si.liciurndioxyd already become known are, it is a fixed furnace, in which the insert in a graphite crucible is included. In such a furnace, in order to avoid a reduction of the silicon dioxide, which would be accompanied by a lively increase in pressure, the temperature so far as possible to be limited. The melting. is half of it necessarily lengthy and arduous. In addition, it is difficult to operate.

The invention creates an electric centrifugal furnace, which allows the melting of refractory materials, such as silicon dioxide, in a vacuum, without a seal between the fixed and moving parts of the aforementioned Furnace, d. H. between the rotatable. Drum that contains the material to be melted and the: solid closure bodies, which are arranged on each side of this drum, required is.

The furnace according to the invention consists of a drum, which the, melt and rotates about a horizontal axis in which the resistor is arranged which is intended to generate the necessary heat to melt the treated fabrics - to be transferred, and which is surrounded by a solid coat, the one airtight seal: the vacuum created inside it. which on the rotatable drum, which contains the melting material, expands against the outside atmosphere forms. The rotatable drum is in the fixed drum by in a suitable manner attached rollers carried.

A drive motor drives the rotating drum via belts or gears on the body of the drum or on an extension of the same transversely to the fixed one Drum on. In the latter case, a tight connection between the. firm and the moving parts are provided. In the first case, the drive motor is in a u Chamber housed in communication with the fixed drum, and consequently in the enclosed evacuated room. In the second case, the engine is on the outside placed on the fixed drum, d. H. in the open atmosphere, and the tight joint is preferably provided at one of the ends of the fixed drum in an area in which the temperature is lower than in the rotatable drum and therefore the attachment of this connection point does not cause great difficulties.

The figures show these two embodiments as examples of a furnace according to the invention.

Fig. I schematically illustrates the embodiment in axial longitudinal section of the new centrifugal furnace, in which the motor is arranged in a chamber which is in communication with the fixed drum; @Fig. 2. is -a corresponding Section through the embodiment in which the motor is outside the fixed drum is located.

From Fig. I i-s @ t it can be seen that - the rotatable drum i, which the Contains melt material and can rotate around the horizontal axis X-X ', inside a second horizontal fixed drum 2 is arranged, in which stuck through Rolls 3-is supported.

Near one of its ends, the fixed drum 2 has an opening, which is connected to a chamber 4 and an access to the vacuum space 5. The chamber 4 contains the motor 6, which is driven by a drive belt passing through this opening 7 drives the rotatable drum i.

The fixed drum 2 is closed at each of its ends by caps 8 ", 9, which accommodate the power supply cables io, i i.

The sealing and electrical insulation are carried out at the same time Sealing body made of rubber or the like 12 @, i2 guaranteed.

The power supply lines 14, 14 to the resistor r5 are in .den caps 8, 9 housed and electrically via flexible connections 16, 17 mechanically firmly connected to these parts. But to adjust in any way allow, they are with respect to the caps 8, 9 to secure the centric Position of the resistor attached resiliently.

In the embodiment shown in Fig. 21, the rotatable Drum i extended at one of its ends by a cylindrical sleeve 18 which the fixed drum 2 to the right of the junction ig, 2o crossed and onto which the Drive motor zi acts via a drive belt 22.

In this embodiment, the power supply cable 2, 3 is axial inserted into the rotatable sleeve 18. The solid floor is on this side of the stove 2 # q., The flexible connection 16 and the power supply 14 through any suitable device firmly supported on the frame of the furnace.

The fixed drum 2 and the caps 8, 9 form the jacket, its Sealing by the sealing body r2; 12 is secured.

The furnace according to the invention is particularly useful for making tubes large diameter made of translucent quartz glass. He points for this Fabrication has a considerable advantage stemming from the fact that that the insert does not come into contact with a graphite body during melting stands. There is therefore no risk of the silicon dioxide being reduced the carbon of the resistor, and the procedure can be done quickly without the vacuum being destroyed by the gas bubbles released from the melt will.

Claims (5)

PATENT CLAIMS: i. Electrically heated centrifugal furnace for melting refractory materials with a drum which can be rotated around its axis and which is closed at its front sides by fixed parts, which serve as a support and guide for a transverse drum extending through the drum and passing through it Radiation -heating resistance's body is used, characterized in that the drum and the two fixed. End body inside a solid. Sheath are arranged, which is hermetically sealed from the outside atmosphere by a seal provided on the jacket. 2. Centrifugaloferi nafih -, #. ns, pruch i, characterized in that .the fixed. End body as Power supply serve and be supported by the outermost walls of the airtight jacket, over which the power supply takes place. 3. centrifugal furnace according to claim i and 2, characterized characterized in that the connection between the solid end bodies and the solid outermost walls of the jacket: via resilient links, in order to achieve the centering of resistance and its expansion. 4. Centrifugal furnace according to claim i to 3, characterized in that the airtight jacket is not only the drum and the end body, but also the drive motor for rotating the drum encloses. 5. centrifugal furnace according to claim i to, 3, characterized in that the melting drum at one of its ends by a cylindrical coaxial part extended by a larger inner diameter than the outer diameter of the end body and that this cylindrical extension is the outermost wall of the airtight jacket penetrates and outside of the jacket forms a cylindrical body through an electric motor arranged outside this shell can be driven, whereby at the penetration point an airtight connection between the solid Sheath and the cylindrical part is provided. Printed publications: German Patent Nos. 5i8,682, 62: 2,472, 644,495, 681,8o9.