DE1758517B1 - Process for the heat treatment of elongated workpieces with a cross-sectional shape that changes in the longitudinal direction - Google Patents

Description

The invention relates to a method for the heat treatment of elongated workpieces with in Longitudinal variable cross-sectional shape, especially for the head parts of railway switches, such as switch tongues, switch frogs, wing rails, through medium-frequency induction heating (2000 up to 2500 Hz) to harden them.

The aforementioned railroad switch parts have very variable cross-sectional shapes in the longitudinal direction and a heat treatment, which leads to uniform results with regard to the depth of tempering leads is fraught with difficulties. For these reasons, the constituents made of high-alloy steels by railway switches.

This requires laborious manufacturing processes and extremely precise dosing of expensive alloying elements such as vanadium, chromium, manganese, molybdenum etc.

Another process usually uses rail steel for the manufacture of the turnout components, which is subjected to a heat treatment with flame heating, the corresponding Workpieces are passed through an array of burners. This procedure has the Disadvantage that both the heating energy and the coolant in a steady manner, according to the Constantly changing cross-section of the various switch components (the switch tongue, the frog, the wing rail) must be dosed. On the other hand, this method generally gives a straight, horizontal coating that does not round off the profiles or is very uneven taken into account, and which has different depths in the length of the workpiece.

A variant of this method either provides for a change in the speed with which the workpieces to be treated are passed through the torch field, or a programmed, dem Cross-section of the treated part, proportional allocation of the amount of fuel.

The present invention eliminates the disadvantage of an accurate composition of those to be used high-alloy steels, as the corresponding workpieces are made from ordinary steel for railroad tracks can be produced; furthermore, there are no complications in using the invention Facilities with burner assemblies and with emulsion cooling devices are needed, and are also no complicated procedures for changing the rate at which the items to be hardened are to be cured Parts are moved, or required for the program allocation of the fuel.

For this purpose, it is proposed according to the invention that a non-magnetic material existing compensation part, which has a shape through which the workpiece to be heat treated and the compensation part together form a body of substantially constant cross-section result, is applied to the workpiece, and that the head part of these workpieces is known per se Way moved at a constant speed by an induction device and thereby inductively is heated and then quenched. The invention therefore provides the following:

a) Use of an electrical medium-frequency induction heating for the heat treatment of the relevant components, which in many respects represents a more favorable solution, both in terms of the specific energy consumption in kWh / running meter for the respective workpiece and in terms of the accuracy that can be achieved the heat treatment and the ease of use of the process,
b) Use of a matching part made of a non-magnetic material, such as copper, of a suitable design.

It should also be emphasized as an advantage of the method that workpieces can be achieved with it, which do not show any permanent deformations caused by the heat treatment.

In a further development of the method according to the invention, the foot part of the workpiece according to the Quenching can be inductively tempered if remanent deformations occur or others Heat treatments are required.

An exemplary embodiment which does not exhaust the possibilities of the invention is now given described in the drawing.

F i g. 1 shows the basic arrangement of the implemented device;

F i g. 2 shows in cross section the distribution of the induction field in the arrangement according to the invention of the component to be treated and the compensation part to each other.

The electrothermal energy is supplied in a constant flow rate by rotating converters 1, the reactive current component being compensated for by the capacitor bank 2.

Via the converter 3, which is provided with voltage taps, and the inductor with loops 4, which are shown in the height are arranged in steps, the electrical energy on the switch blades 5 or on the Transfer upper parts of the other switch components, with a compensation part to these parts Appropriate form 6, is connected from non-magnetic material. The ones to be treated Workpieces are moved at a constant speed, in the sense shown by the arrow, passed through the inductor.

The cooling takes place by a water jet atomized by compressed air, from the limited field of action 7 and optionally by the spray device 8, which in an appropriate manner can interrupt the self-starting process in progress in the heat-treated workpiece.

In order to compensate for any permanent bending deformations caused by the heating, the in F i g. 1 device shown is still provided with a separate inductor 9, through which a additional heating of the workpiece soles is carried out.

Claims (2)

Patent claims: 1. Process for the heat treatment of elongated workpieces with in the longitudinal direction variable cross-sectional shape, especially for the head parts of railway switches, such as Switch tongues, switch frogs, wing rails, through medium-frequency induction heating, characterized in that a compensating part made of non-magnetic material (6), which has a shape through which the workpiece (5) to be heat treated and the compensation part (6) together form a body of result in a substantially constant cross-section, is applied to the workpiece (5), and that the head part of these workpieces (5) in a known manner at a constant speed moved by an induction device (4) and thereby inductively heated and then is deterred. 2. The method according to claim 1, that the foot part of the workpiece (5) after the quenching is inductively tempered. 1 sheet of drawings COPY