DE1596481A1 - Feeding device on glass melting tanks - Google Patents

Description

The invention relates to a feed device to Glasschmel ^ / annen for the metered feed of fully automatic glass-processing machines, in particular, on the driving piston (plunger) and Durchflußbüchsen ₀

Both the driving piston and the Durchflußbüchse to the feeder devices of Glasschmelzw _a can are subject. . gen large mechanical, thermal and chemical attacks by the liquid glass mass. B. from chamotte, fluctuates between fractions. From minutes to a few days, on average about 2 days. In addition to the produced all-ceramic drive piston of Durchflußbüchsen ^s are also driving piston and Durchflußbüchsen from refractory metals known for that. B. made of an alloy consisting of chromium, Kicke 1 and iron, which has become known in America under the trade name ¹¹ X-Utθ ". Shodium alloy are coated, but have no intermetallic bond with the core. These high-quality metals and metal alloys are difficult to machine and extremely expensive , in a thick layer of refractory material, ie of ceramic material, is encased «Apart from the fact that a cooling effect through the

BATH

109810/048 8

Cold air hardly enters, because it is not a circulation cooling, it hardly penetrates through the thick kerBmikbelag "up to its surface through, which are in constant contact with the liquid glass is. .

On the other hand, heat barriers are now set by spraying on a thin, heat-conducting layer on metal parts by means of a 3-lamb spray gun. This layer "consists of metal oxide, metal carbides, metal nitrides, metal borides or metal silicides. The However, parts that have previously been provided with such a coating are only subject to a thermal one Attack. They are tur.binenscha.ufein, combustion chambers of reaction motors as well as rocket combustion chambers operated by hot gases are flushed or flushed. The laminates mentioned are in the form of a flame spray gun Rods, wires or powders fed, whereby the Powder spraying processes were shown to be the most economical Has. The thermal insulation of the applied layer is extraordinarily high.

The invention now consists in the fact that you drive pistons and flow sleeves of glass feeders, but also other parts that come into contact with the molten glass, such as. B. protective sleeve "Thermocouple - measuring probes, made of steel and the like metal oxides by means of a Elammspritzpistole refers to a layer of or. The service life of the power piston coated in this way has increased to an average of 8 weeks .

This particularly surprising increase in service life is due to the very firm adhesion of the layer to the steel core, to its great hardness and great abrasion resistance. It also has chemical neutrality. This heat ear hole withstands not only hot gases, as has been the case up to now, but also the effects of a high-temperature, viscous Glassmalz®,

! 09810/0488 bathroom original

which exerts chemical and mechanical stress influences, when the drive piston rotates up and down. The thermal insulation is strong enough to make a batter of the steel core and thus avoid permanent changes in shape. As a particular advantage, they are proportionate low material and processing costs of steel compared to those mentioned in the prior art refractory molybdenum, tungsten and platinum metals or their alloys.

The invention is not tied to a specific structural design of the feed device or jjbrer parts. Rather, it can be implemented on any conventional and existing construction, the only thing that matters is that the 'driving piston and flow sleeve are now made of steel instead of ceramic materials or high-quality metals and are coated with a heat-insulating layer. For this purpose, the Btahloberflache is slightly roughened before coating, which z. B. can be done by sandblasting. The coating is carried out by spraying on using a flame spray gun, with spraying of a powder blown by a flame being preferable because of the greater economy. The layer thickness can be between 0.02 and 1.5 ■, z. B. an aluminum oxide layer of C, 4 mm thick has proven itself very well. Because of the mechanical stress, it is advantageous if the contamination with Titanostyd which is actually present in the powder to be sprayed is relatively high. It can be around 2 % . It is also advisable to apply a metallic intermediate layer, for example a 0.1-0.2 mm thick layer made of an Ohrom-ITickel alloy, to the steel core prior to spraying the ceramic layer. This intermediate layer significantly improves the adhesion of the ceramic layer to the steel core,

109810/0 ^ 88 BADORIG.NAL

Claims (1)

Claims Use cotyden of Stehlkernen of fl one or more applied by means Flammßpritspistole on the steel core and firmly adhering to it, poor heat conductive layers of metal, metal lkarbi to, metal nitrides, Hetallboriden or metal silicides coming for liquid glass in permanent contact parts, in particular for Propellant pistons and flow tubes of glass feeders and for protective covers of Theimoelement measuring probes 109810/0488