DE1857754U - SOLDERING TIP FOR DIRECTLY OR INDIRECTLY HEATED SOLDERING DEVICES. - Google Patents

Description

"Soldering tip for directly or indirectly heated soldering devices" The present Invention relates to a soldering tip for direct or indirect preferably electrically heated soldering devices. Such tips are generally made of one Good heat-conducting material made, although so far with indirectly heated soldering devices only copper was used, the use of copper as a soldering tip has but the disadvantage that the tip due to oxidation and the associated Burn-off phenomena must be cleaned regularly, whereby by removing them the oxidation layer a new straightening of the tip is necessary.

In the case of directly heated soldering tips, it is sometimes used as a soldering tip no copper used, but these tips also have, provided a Material is used that adopts the same properties as the solder used. The use of other materials for the soldering tip is ruled out because either the thermal conductivity of the other metals is too low or the Corresponding metals do not accept solder or they are attacked by the solder will.

With the present invention these disadvantages are eliminated, this is achieved according to the invention that to avoid oxidation and the Burn-off phenomena of the soldering tip which, in a manner known per se, are made of highly thermally conductive Material, e.g., copper tip, at least in the application area for the solder with as thin a protective metal layer as possible made of a solder-resistant, solder not repellent, erosion-resistant material, e.g. Bo drawn spring band steel, with metallic Touch at least in this area is covered, with the soldering tip after the The invention is thus in particular through the use of an erosion-resistant metal in that area. in which the burn-off is particularly disturbing, namely at the solder application point, a protective coating is applied, which prevents any change in the soldering tip.

In the case of directly heated soldering tips, the protective layer is in appropriate design drawn over the entire soldering tip, whereby then even the soldering tip over this protective layer material, for example made of spring band steel exists, can also be attached. In contrast, with indirectly heated tips it is possible to provide only the actual working tip with a coating or to wrap the entire tip in such a protective sheath.

Prerequisite for working properly with a soldering tip of the invention is that at least at the point where the heat is transferred should, a perfect connection between the inner produced in the usual way Tip and the covering material is achieved. In the case of directly heated tips, this means that the coating metal is firmly connected to the tip at practically all points In the case of indirectly heated tips, however, it is sufficient if the coating material in the front area of the tip with the inner good heat-conducting material without Air inclusions are firmly connected to each other. But it goes without saying possible, provided that the whole soldering tip is covered with such a protective layer, that this in all places flawlessly with the inner thermally conductive in the usual Way manufactured tip is connected, but becomes in the rear part one indirectly heated soldering tip has an intermediate layer, which is also designed in the form of an air cushion may be, between the thermally conductive inner material and the outer protective layer intended, in this way the heat radiation can be reduced in this area be pushed down, which increases the efficiency of an indirectly heated soldering iron increased, the connection between the coating material and the inner thermally conductive Layer can take place in the most varied of ways in a manner known per se it is possible, for example, the outer protective metal layer, which is in the form of a Cover plate is applied via a simple clamp connection with the inner To connect core accordingly.

In addition, the coating metal can also be brazed with the inner thermally conductive core are connected. It is conceivable, for example, to form the coating layer in two parts and then put it together over the top and to be soldered along the resulting seams or even welded in borderline cases. Another connection option between the inner core and the outer layer consists in that the soldering tip first with the thin, preformed coating metal is connected by shrink fitting. This process in which the outer metal is very is strongly heated so that it expands and the inner core is inserted cold care must be taken that the copper core to be inserted is free of any oxidation is inserted at least in the working tip area.

Finally, it is possible to make the entire soldering tip by that first the tip with the outer shell is preformed and that inner highly thermally conductive material injected poured out or through Die-casting is filled ", This results in a particularly simple production a soldering tip It has already been mentioned above that the coating metal is preferably can consist of a spring band steel. For the purposes of the invention is suitable generally an alloyed steel with carbon in an amount of 0, 75 to 0.55%, silicon with 1 to 2% and manganese with about 1%, so a steel with low strengthening additives in addition to the usual other additives, from the above specified consolidation methods, such. B. pouring, die casting or injecting the thermally conductive material already shows that the thermally conductive material does not must consist of copper. For a soldering tip according to the invention can also For the first time aluminum can be used as a heat-conducting core, with consideration for its high tendency to oxidize could not previously be used for soldering tips.

In addition to aluminum, metals that conduct heat in other ways can also be used, e.g. brass alloys with a high copper content etc. can be used.

In the accompanying drawing, two soldering tips according to the invention are shown, for example. FIG. 1 shows a soldering tip for a soldering iron, as can be used when the tip is indirectly heated. In the drawing, 1 denotes the inner core, which is a good heat conductor, and 2 denotes the sheet steel jacket one. Directly heated soldering tip on a special soldering iron, a piece of spring steel 6 being coated over the tip 4, in which a heating coil 5 is embedded The tip itself is on the two guide bars 7 and 8, via which the power supply is carried out at the same time, the protective layer is again attached to these webs so that the connection between the protective layer and the actual soldering tip is not mechanically stressed during soldering. In the explanation of the invention it was already pointed out that for A wide variety of heat-conducting metals can be used in the core. Finally, it should be pointed out again that a wide variety of materials can also be used for the outer protective layer, provided that they only have the specified properties, no signs of burning etc.

Claims (4)

Protection claims 1. Soldering tip for directly or indirectly electrically heated soldering devices, characterized in that in order to avoid oxidation and the erosion phenomena of the soldering tip the in a known manner made of highly thermally conductive material, for. B. copper, existing tip at least in the application area of the solder with the thinnest possible Schitzmetall from a solder-resistant, solder non-repellent, erosion-resistant material, z. B. drawn spring band steel, is coated with metallic contact at least in this area. 2. soldering tip according to claim 1, characterized in that as protective metal a steel belt with minor strength-enhancing additives such as carbon, silicon and Manganese is used. 3. soldering tip according to claim 1 and 2, characterized in that the Protective metal is clamped onto the tip, which conducts heat well. 4. soldering tip according to claim 1 and 2, characterized in that the Protective metal is applied to the soldering tip by brazing.