DE1125123B - Process and device for the production of very fine glass, rock or slag fibers - Google Patents

Description

Method and device for the production of very fine glass; Rock or slag fibers The glass, rock and slag fibers have long been from molten raw materials, stones or earth and slag in the way produced that against the melt stream jets flowing freely down from the melting furnace or melt stream jet one or more pressure medium jets are directed, whereby the liquid silicate melt is divided into fine threads.

In these known methods, the pressure medium jets have become general generated in a steam or compressed air system. The temperature of the pressure medium jets generated was no more than 125 to 400 ° C.

Previous processes did not achieve higher temperatures possible or so costly that they had to be dispensed with.

The thermal efficiency of these systems is at most 50 to 701 / o. Furthermore, the pressure medium jets received very high amounts of oxygen, so that the fiberization nozzles, which are mostly made of heat-resistant metals, for example made of chromium-nickel steels, a very high level of wear documents.

The invention creates a surprisingly simple method, which avoids the disadvantages of the known methods and also other advantages brings with it.

The inventive method consists in that for the production of Threads or fibers made of glass or similar silicate melts used pressure medium jets by burning in a gas or oil-fired flame in a compressed air atmosphere are generated and mixed with exhaust gases and fed to the fiber-optic nozzles.

The hot exhaust gases from a gas or oil combustion are used the compressed air mixed, so that a mixture temperature of about 1000 ° C and more is achieved.

This is a baking process known in thermal engineering.

By burning the gas or oil combustion flame into the Compressed air does not cause any exhaust gas losses and the entire amount of heat can be used to the full. The pressure medium jets generated in this way are then fed to the fiberizing nozzles.

The thermal efficiency of these systems is 971 / o, and the The pressure medium jets generated contain little oxygen.

It is therefore possible to use the sintering route with this new process manufactured metal alloys, for example molybdenum, in the fiberizing nozzles to be used, which compared to chromium-nickel steels has a very high heat resistance and have very favorable creep behavior, but with a high oxygen content the pressure medium jets would otherwise not be applicable.

Through some experiments it was found that the increase in the compressed air temperature from 125 to 1000 ° C during the defibration of the silicate melt almost tenfold Reduction of the required amount of compressed air has achieved, thereby reducing the manufacturing costs could be significantly reduced.

The application of the new process also affects the quality of fibers because they are longer and finer.

This is advantageous in the technical insulation z. B. from Pipes, etc., because you don't need that much fiber in terms of weight.

In order to better understand the invention and to facilitate it Implementation is explained in detail using the drawing.

The drawing is an example representation of a device for the method proposed according to the invention.

The cold compressed air is introduced from a compressor or a storage container at a temperature of 125 ° C., for example, through a supply line 1 into a high-pressure container 2 lined with refractory materials.

At one end of this high pressure container 2 is a high pressure atomization burner 3 arranged, which the oil from an oil reservoir 4 via a fine filter 5 by means of an oil pump 6 is supplied. The ignition of the oil takes place with Electrodes 7 instead, which are supplied by a high-voltage transformer 8.

After the ignition has taken place, the oil flame will continue in the supplied compressed air is burned in, and then together with exhaust gases via an outlet line 9 to be forwarded to the fiberizing nozzles.

With the arranged control instruments such as photocell 10 in connection with an amplifier 11 and a temperature measuring device 12 it is possible to monitor the operating process to be monitored continuously.

Claims (4)

PATENT CLAIMS: 1. Application of the known burn-in of a Gas or oil fired flame in a compressed air atmosphere when making fibers from glass or similar silicate melts by blowing. 2. Method of manufacture of fibers made of glass or similar silicate melts by blowing according to claim 1, characterized in that the compressed air with the exhaust gases of the gas or oil combustion flame is so intimately mixed in a high pressure container that pressure medium jets with a temperature of 1000 ° C and higher can be reached. 3. The method according to claim 2, characterized in that the combustion of the oxygen both in the atomizing burner as largely as possible in the pressure vessel, by placing the two feeds on top of each other be matched. 4. Apparatus for performing the method according to claim 2 and 3, characterized in that the fiberizing nozzle consists of a highly heat-resistant Metal alloy, in particular molybdenum alloy, is advantageously made has been produced in the sintering process.