DE19615020C1 - Starting reaction of finely divided thermal alumino mixture - Google Patents

Abstract

Two rod shaped electrodes (12,13) are inserted in the mixture (7). The electrodes are spaced apart at a distance of 3 to 10 mm when a high power source is used generating a current of more than 20 amp. Alternately the electrodes can be spaced closer together so that a 12 Volt battery can be used. The electrodes can be brought closer together, while in the mixture, till the spark is generated.

Description

The invention relates to a method according to the preamble of claim 1.

The invention further relates to devices for performing this Method according to the preamble of claim 5.

The technical utilization of the long-known aluminothermic Hans had a reaction towards the end of the last century Goldschmidt, using the observation that one on one Aluminothermic reaction started quickly and quickly in a controllable way through the entire aluminothermic Ge mixed propagates. This controlled inflammation is special Significance, since parts of the Re action mixture are thrown out of the reaction crucible, the endanger the people working with the mixture and in particular when a mixture of several metal oxides is used or the Further metal powders are added to the mixture as alloying agents,  Metal melts of different composition and properties be preserved. If the reaction is too sluggish, it can interfere with the separation of molten metal and aluminum oxide slag.

For the selective ignition of the aluminothermic mixture, one has Ge mix finely divided aluminum and alkali or alkaline earth peroxi used, in particular mixtures containing barium peroxide were used. The mixtures were made with alcoholic shellac solution spiked and briquetted.

The "cherries" or "squibs" thus obtained were mixed with a Provide a piece of a thin magnesium tape, which by a Matchstick could be ignited. The burning of the Ma Magnesium released heat ignited the cherry, which in turn as desired, the aluminothermic reaction in progress sat.

For a long time only so-called ignition has been used chopsticks, which contain a wire that is connected with a pyrotechnic mass containing peroxides on one part its length is encased. With this inflammation stick is one controlled ignition of the aluminothermic mixture, e.g. B. at the widely used aluminothermic rail connection welding possible.

However, pyrotechnic articles are subject to certain safety requirements during storage as well as during transport and are particularly to be protected from moisture. So it would be nice worth igniting an ignition possibility for aluminothermic mixtures find that can be used anywhere, the high security standards are sufficient and no special safety regulations subject to.

It is the object of the present invention, a generic Procedure for safe ignition of the technically used alumi to design an emergency thermal mixture in such a way that the first one hend described, occurring in the known ignition means after parts are avoided. This task is solved in such a case Method by the features of the characterizing part of the claim 1.

Surprisingly, it has been shown that for the generation of an arc and the reaction of the alumi nothermal mixture there is no need for the Electrodes in an initial touch contact or short final situation and then removed from each other have to. Rather, it is sufficient if it is connected to an electrical power Electricity source connected electrodes a previously set Have a distance from each other and on the basis of this fixed Distance into the aluminothermic mixture. The Ab stood the electrodes to each other, for example, 10 mm be wear, however, one for generating a current of z. B. 280 A requires a suitable electrical energy source. in the In the case of smaller distances, lower currents are sufficient. However, if the distances are larger, they must be higher energy sources are used.

The ignition of the arc is surprising because the aluminother Mix mixture of granules with a grain size between 1 mm and 10 mm, which consists mainly of iron oxide, thus a ke ramische body is composed. In contrast, in the aluminothermic mixture also contains metallic components only a volume fraction of approx. 40%. However, it is from it assume that the metallic components among each other none  continuous, over a distance like the one mentioned at the beginning Electrode contact.

This means that the main component of the aluminothermic Gemi This, namely the iron oxide in some way to ignite the Arc contributes, although iron oxide is ceramic in nature. True apparently forms over the total aluminothermic granulate a short circuit and a between the electrodes in rapid alternation Isolation state off. The aluminothermic mixture works maybe like a medium that has some of the properties of a Insulator and partial properties of an electrical conductor Has. The process would be different with such large electrode spacings - moreover constant - not to be clarified.

From an economic, but also from a practical point of view, are great However, electrode spacing is less interesting, not least with With regard to the required performance of the electrical Energy source. Fixed electrodes have the big advantage a low cost of equipment, such electrode distances as are cheap to look at, which none to ignite the arc require currents higher than 150 A. Electrical Energy sources of this size, whether as alternating or DC voltage sources are relatively light, small Transformers or rectifier sets available.

For example, a motor vehicle can be used as the electrical energy source Tungsten battery with a voltage of 12 V and a charge of 44 Ah are used, but in this case the electrodes ei NEN must be significantly closer to the ignition of the arc. In this case it can be fixed set electrode distances and instead a device can be used which an adjustment of the elec  treading allows. The advantage of the small in terms of weight and volume Motor vehicle battery, however, is due to the adjustability of the Electrode inventory necessarily a little more complicated device development towards the rest.

It should be mentioned that the ignition of the arc and thus the initiation the reaction of the aluminothermic mixture in the case of one another electrodes moved to a point in time before the electrodes Get in touch. It cannot be assumed that the aluminothermic mixture acts and similar to the known ignition aids melts between the electrodes before ignition. That is the distance too large between the electrodes.

Differences between the ignition of an alumi according to the invention emergency thermal mixture on the one hand and the conventional ignition by means of of an inflammation stick are that the by the Arc initially ignited slightly smaller than when using the Ignition stick fails. Once initiated, however, the reaction continues quickly and in a flawless manner through the entire reaction mixture, so that a technically qualified and reproducible ignition is guaranteed.  

The method according to the invention thus enables low mate a safe and reproducible ignition of the alumi emergency thermal mixture. There are no special safety precautions required. Because the main use of aluminothermic welding the rail welding in the laid track is different Equipment such as shearers and grinders may be required be assumed that a suitable corresponding electrical Energy source is usually available on the construction site.

The object of the invention is also to implement the Process suitable device to design the one hand high Safety standards are sufficient, but nevertheless a safe and technically perfect ignition of the aluminothermic mixture guaranteed. This task is solved with a generic Device by the features of the characterizing part of claim 5.

The electrodes of the device are connected by a sufficient cable Cross section with the poles of an electrical energy source in connection, the arc being ignited by moving the movable Electrode in the direction of the immovable electrode, wherein in a certain distance between the electrode tips of the arcs finally ignites.

The two preferably protrude from the housing Electrodes at an angle of 40 ° to 90 ° to each other.  

The electrode ends preferably have a spherical, conical shape or in another way tapering in the end area on.

The electrodes consist of exchangeable and adjustable holders guided electrode inserts.

The device can be equipped with a number of safety devices be equipped.

It can happen if the electrode is moved independently and unintentionally always short circuits. For this purpose, the ver sliding electrode against the direction of actuation by means of a Spring biased against a stop.

The ease of use is increased by the fact that the Ver only needs to be used in one direction, so that the defines increasing resistance when moving the electrode slow approaching them is easier.

The electrodes are exposed in the ignition area, i. H. electrically not isolated from. The circuit could therefore be improperly be closed on electrically conductive objects where by the ignition device itself, but also the electrical energy giequelle and possibly the short-circuit triggering counter stand could be damaged. A switch is therefore featured propose which at least one of the electrodes from the electrical Energy source disconnects as soon as the operating lever of the Vorrich device or a displacement element for the electrode in the rest position finds.  

The minimum achievable electrode spacing can be adjusted screw, namely a stop screw for the operating lever be determined.

This can cause a short circuit due to improper moving the electrode can be avoided, while at the same time to reach the ignition point of the electrode assembly required electrical the distance can be easily reached.

The device according to the invention will be explained in more detail below with reference to the drawing:
As can be seen in the drawing figure, the ignition device 1 according to the invention consists of a device 3 which can be handled by an operator 2 and which is connected to an energy source 6 via electrical connecting lines 4 , 5 . In the device 3 shown, the electrodes are at a fixed distance from one another.

The device 3 is immersed by the operator 2 with its electrodes, for example in a finely divided aluminothermic mixture 7 , whereupon a light arc is ignited between the electrode ends with the cooperation of the energy source 6 .

This arc sets the aluminothermic reaction in motion, which is propagated in a controlled manner through the entire volume of the reaction mixture, which, as only indicated schematically here, is present in a suitable crucible 8 .

Since the electrode ends at which the arc is generated, ei subject to a certain amount of wear, partly due to the erosion is traceable, which arises or arises from the arc itself the influence of the aluminothermic reaction is traceable - the  Electrodes are in the reaction mixture at the start of the reaction submerged - are the electrodes as replaceable electrode inserts executed.

The device according to the invention can be started as follows Reaction of an aluminothermic mixture can be used:

After the aluminothermic mixture 7 has been introduced into a corresponding tie gel 8 , the device 3 is immersed by the operator 2 with the electrode inserts 12 , 13, for example 10 mm to 50 mm deep in the aluminothermic mixture, whereupon the arc is ignited.

The device according to the invention described above has in addition to its Compactness - all parts of this device can be from one Person to be carried to the place of use - also a high reliability on reproducible ignition, whereby by the proposed safety devices are operated incorrectly what material or people can be harmed can be closed.

As an alternative to providing a fixed distance between the electrodes 12 , 13 , this can also be designed so that the arc can be ignited within the aluminothermic mixture by reducing the distance mentioned by moving one or both electrodes.

On the use of pyrotechnic material, which is special is subject to safety regulations, can therefore ver to be waived.

Claims (6)

1. A method for starting the reaction of a finely divided alumi emergency thermal mixture, characterized in that

• - That in the mixture ( 7 ) two spaced rod-shaped electrodes ( 12 , 13 ) are inserted and between the tips of the electrodes ( 12 , 13 ) by means of an electrical energy source ( 6 ) an arc triggering the reaction is generated.

2. The method according to claim 1, characterized in that

• - That the electrodes ( 12 , 13 ) are inserted into the mixture ( 7 ) in accordance with a fixed distance of 3 mm to 20 mm and
• - That a suitable for providing a current of more than 20 A energy source ( 6 ) is used to generate the arc.

3. The method according to claim 1, characterized in

• - That the electrodes ( 12 , 13 ) are inserted into the mixture ( 7 ) in accordance with a fixed distance of less than 3 mm and
• - That a portable accumulator with a voltage of at least 12 V and a charge of at least 44 Ah is used as the energy source ( 6 ).

4. The method according to claim 1, characterized in

• - That the electrodes ( 12 , 13 ) within the mixture ( 7 ) or during the introduction into the mixture ( 7 ) starting from a larger distance from each other in the direction of a smaller distance towards each other,
• - The smaller distance depending on the parameters of the electrical energy source ( 6 ) is selected with the proviso that it is sufficient to ignite the arc.

5. Device for use in the context of a method according to claim 4, characterized by

• a housing ( 9 ) which has a handle ( 11 ) and an actuating member and which contains the electrodes ( 12 , 13 ) which are used to form the arc and are electrically insulated from one another,
• - Wherein at least one electrode ( 13 ) in the housing ( 9 ) relative to the other electrode ( 12 ) is displaceable in such a way that according to the parameters of the electrodes ( 12 , 13 ) in United connection electrical energy source ( 6 ) between the An arc can be generated facing ends of the electrodes projecting from the housing ( 9 ).

6. The device according to claim 5, characterized in

• - That the energy source ( 6 ) is a portable battery ( 6 ) with a voltage of at least 12 V and a charge of at least 44 Ah.