DE1515152B1 - High temperature furnace equipped with at least one molybdenum silicide heating element - Google Patents

Description

Molybdenum silicide heating elements, which means heating elements made of molybdenum and silicon (usually exactly or approximately with the composition MoSi ₂ and mostly with additives, e.g. oxidic additives), have been described in the U, W and Q so far (Omega) shape made. It has proven to be useful to use the U- and Ω-shape vertically hanging or standing in the ovens, especially in tube, chamber, hood and tunnel ovens, and to generate oven temperatures of up to about 1650 ° C. In addition, the U and W shapes are also used horizontally to heat flat ovens. It has been shown that practically only the freely radiating, suspended U-shape of molybdenum silicide heating elements is suitable for generating the highest temperatures up to a maximum of 1650 ° C and ensures both continuous and discontinuous operation over many thousands of hours and several hundred shutdowns. The reason for this excellent result is that the U-shaped molybdenum silicide heating elements do not react with the furnace ceramic due to the free radiating installation and therefore have a very long service life without damage. Attempts to operate furnaces with U or W heating elements resting on ceramics intermittently or at different temperatures have failed. The reason for this is that the molybdenum silicide heating elements, which are known to be _{coated with an SiO 1} -containing glass layer in an oxygen-containing atmosphere, stick to the oxidic or silicate base during operation and crack in the glow part when exposed to temperature fluctuations. This behavior is quite natural, because the molybdenum silicide heating conductor shows a different expansion behavior than the furnace ceramic.

These very lengthy investigations have prompted furnace manufacturers and consumers to practically · exclusively U-shaped molybdenum silicide heating conductors in hanging installation (regardless of the Furnace type).

The use of these so excellent high temperature and scaling-resistant as well as aging-resistant Molybdenum silicide heating conductors, which are briefly referred to below as MoSi heating conductors Due to the relatively expensive U-shape, it was limited to a small group of consumers. Included the cost-determining factor is the heavy connecting ends of the heating elements.

The difficulties are solved according to the invention in that a MoSi multi-arc heating element Specified in hanging installation and its multi-arc glow part on at least one ceramic support is supported and that at the respective support point of the multi-arc glow part as an intermediate member between it and the support there is an interlink of the same species, i.e. also made of MoSi or a majority of such links are provided.

In Fig. 1 it is a multi-lobed one according to the invention Heating element shown as an example. The two connection elements serve here with a glow part several bends and not - as is the case with the U-shape, for example - just a single glow element arc.

In order to use this MoSi heating element, which saves the entirety of the connection, in an operationally reliable manner, it is according to the invention on the heating conductor arch to easily interchangeable, preferably adjustable, Suspended ceramic supports.

In order to avoid unpleasant reactions with the ceramic despite the small area of the individual support points, it has proven to be advantageous according to a further feature of the invention to use a specific, i.e. also made, type of element at the respective support point of the multi-arched glow part as an intermediate element between it and the support 2 MoSi existing intermediate member or a majority of such intermediate members 3 to be provided, preferably a number of two or three intermediate members. The intermediate links are designed in particular as rollers with a diameter equal to that of the glow part of the heating element. This ensures that the respective glow part arc has only two to three punctiform or line-shaped supports on native material and does not react with the ceramic support. Furthermore, it has been shown to be advantageous to dimension the thickness of the ceramic support to half the center distance (radius) of the U-shaped arc, if necessary up to 3 ± 20 ^{0 Zo.} By this measure, a one-sided radiation \ or overheating and deformation of the hanging built more curved elements is avoided.

The advantages of the invention result from the comparison of the known installation of the U-elements (see Fig. 2) and the new multi-sheet elements (see Fig. 1) in an oven.

These representations primarily illustrate three advantages of the subject matter of the invention over the Acquaintances, namely:

1. Depending on the number of arcs of the individual MoSi heating element, half up to Vs of otherwise necessary connection ends saved;

2. the reduced number of power leads allows better insulation of the furnace roof;

3. The even spacing of the heating conductors (see Fig. 1) results in a greater temperature constancy reached in the oven.

The invention is particularly suitable for large-scale systems, such as tunnel ovens and glass tanks. But it can also be used for smaller ovens, in particular also for portable ovens. The use of multi-arch elements is also recommended for smaller units in branches of industry or laboratories where high temperature accuracy is important.

Further features of the subject matter of the invention emerge from the following claims.

Claims (8)

Patent claims: 1. High-temperature furnace, equipped with at least one MoSi heating element, characterized in that that for this purpose a MoSi multi-arc heating element is given in hanging installation and its multi-arc glow part is attached at least one ceramic support is supported and that at the respective support point of the multi-arc glow part as an intermediate link between it and the support a species-specific, so An intermediate link also consisting of MoSi or a majority of such intermediate links is provided is. 2. Arrangement according to claim 1, characterized in that the intermediate member consists of a MoSi-RoIIe consists of a Recess, e.g. B. groove or pan, is intercepted, preferably with one of the expansions of the Movement play adapted to the heating element. 3. Arrangement according to claim 1 or 2, characterized in that the role in its Axial direction has a length of several times the diameter of the glow part and that in connection hereby the cantilevered support projecting into the furnace is set up so that it can be pushed in that in the event of a break, the remaining part of the support and the roller carried by the furnace wall in the Active position can be pushed to the glow part of the heating element. _ 4. Arrangement according to one of claims 1 to 3, characterized in that a plurality Intermediate members, in particular of roles, are provided for the individual support point, preferably a number of two or three pontics. 5. Arrangement according to claim 1, characterized in that indicates that - based on the hanging position of the multi-arc heating element - each of the upper arch is supported. 6. Arrangement according to one of the preceding claims, characterized in that the individual ceramic support one cantilevered horizontally from a furnace wall into the furnace chamber Ceramic rod is. 7. Arrangement according to claim 6, characterized in that the individual serving as a support Ceramic rod in the transverse direction an extension of half the distance of the neighboring Has vertical parts of the glow part, with a deviation of about ± 20% of that half the distance. 8. Arrangement according to one of the preceding claims, characterized in that the MoSi intermediate rollers have a diameter that is the same as the diameter of the glow part of the heating element is about the same. 1 sheet of DOPY drawings