RU2200764C2 - Induction apparatus for thermal treatment of welded joints, for example, rails - Google Patents

Abstract

FIELD: thermal treatment of metal products. SUBSTANCE: induction apparatus has windings, which is arranged at welded joint site in opposed relation at both sides of rail. Straight and reversing conductors of windings are separated by magnetic cores movable relative to windings in direction perpendicular to rail side surfaces. Prior to heating, apparatus is fixed in the vicinity of welded joint by means of nuts. EFFECT: increased resistance of welded joint to wear, contact defects and fatigue cracking in transverse direction during operation. 3 cl, 2 dwg

Description

 The invention relates to the heat treatment of metal products, and can be used for volume induction heating of welded joints of railway rails in their places of operation before hardening, as well as for other lengthy products.

 It is known that welding always leads to the formation of defective structures in the welded joint, which can lead to destruction during operation of the rail. The structure of the weld, the structure of the boundaries of the weld with the base metal, and the structure of the heat-affected zone weaken the welded joint. An effective way to correct these defects in the weld area is post-weld heat treatment. Heating after welding with simultaneous forced cooling of the deformable zone to prevent the processes of collective and secondary recrystallization and obtain a fine-grained pearlite structure in the welded joint allows to obtain a ferritic perlite mixture in the welded joint with properties identical to those of the base metal. With such hardening, it is necessary that the phase recrystallization zone overlaps the zone of thermal influence of welding over the entire cross section of the welded joint. Since the rail in the cross section has a complex shape, certain requirements arise for the design of the induction heating device, which must provide a certain temperature distribution over the cross section of the welded joint to ensure the above tasks and is designed to be installed on a track machine for welding joints.

 A known method of surface hardening of rails, including heating the rail head to hardening temperatures with a high-frequency electromagnetic field of the induction conductor and its subsequent cooling (USSR author's certificate 48413, class C 21 D 9/04, 1935), however, this method of hardening rails is not effective enough due to the impossibility of providing volumetric heating in the joint zone. A known method of hardening railway rails (RF patent 2008363, publ. 02.28.1994), in which the rail head is heated to quenching temperatures by the high-frequency electromagnetic field of the induction conductor and the area of heating of the rail head is reduced by improving the locality of the specified high-frequency electromagnetic field, why it is excited by induction of high frequency currents in a linear conductor connected by plates with an induction conductor, and the linear conductor has a larger d and diameter than induction conductor. However, the disadvantage of this method is the local surface heating of the rail head, which does not provide the necessary temperature distribution between the head and the rail sole to ensure sufficient joint strength.

 A known method of heat treatment of witty and frame rails and a device for its implementation, which produce simultaneous heating of the working surfaces of the head in the high-frequency electromagnetic field of the inductor having the shape of the head and the bottom of the rail (RF patent 2135607, publ. 08.27.1999, ), however, this method is aimed at achieving optimal temperature ratios in the head and sole of the rail and does not take into account the temperature distribution over the cross section, so it may turn out that in the middle part of the head and yke not reached the necessary temperature distribution, and, therefore, is not achieved the necessary resistance to impact loads and remains the possibility of occurrence of fatigue cracks in the transverse location of the welded joint.

 The objective of the invention is the creation of an induction heating device that allows you to provide the necessary temperature distribution over the cross section of the welded joint during its volume hardening, providing increased resistance of the rail at the junction to wear, contact damage and transverse fatigue cracks during operation, as well as to reduce the time and complexity of preparation devices to work when switching from one assortment of rails to another.

 The problem is solved in that in the device for induction heating of the joints of railway rails, including an inductor connected to a high-frequency alternating current source, the inductor is made in the form of two flat rectangular spiral windings located opposite each other on two sides of the rail, the direct and return conductors of which are separated movable magnetic circuits freely moving relative to the windings perpendicular to the side surfaces of the rail, while the windings are connected to a power source so that Oba provide current flow in one direction in the portions of the windings, adjacent to the head of the rail.

 The specified implementation of the windings with a certain direction of the current flow in combination with the ability to move the magnetic circuits relative to the windings makes it possible to eliminate the influence of direct and reverse turns of the inductor, and also, by changing the magnetic coupling in the inductor-heated part system, to ensure the most efficient distribution of the induced currents in the heated zone and get the required picture of the temperature field in it.

 In addition, to facilitate the installation of the inductor on the heated part of the rail, the windings together with the corresponding magnetic cores are placed on the frame parts of the heat and electrical insulating material, interconnected by a device that ensures their relative movement relative to each other, in a direction perpendicular to the longitudinal axis of the rail.

 To further improve the magnetic coupling of the component-inductor system and increase the efficiency of the winding, they are curved in the shape of the head and the upper part of the sole on the respective sides of the rail.

Further, the invention is illustrated by drawings, which show:
figure 1 - diagram of a device placed on a heated part;
figure 2 - configuration of the winding for the implementation of the device.

 The induction device for heat treatment of welded joints consists of two windings 1 and 2 located at the welded joint against each other on two sides of a rail 3 having a head 4, a neck 5 and a sole 6. The forward and reverse conductors of the windings are separated by moving magnetic circuits 7 and 8, moving relative to the windings in directions perpendicular to the side surfaces of the rail 3. The connection of the inductor with a high-frequency power source should ensure that the currents flow in one direction in the turns of the windings adjacent to the heads ke 4 rails. The windings 1 and 2 have a flat rectangular spiral configuration, shown in figure 2. The flat windings 1 and 2 are bent so that each of them bends around a part of the rail head 4 on its side, the corresponding side of the neck 5 and the upper part of the sole 6. The windings are placed on two posts 9 and 10 of the frame made of heat and electrical insulation material, the upper parts of which are combined by a moving device, for example, consisting of pipe sections 11 and 12, fixedly fastened to the struts of the frame 9 and 10 in their upper parts having an internal thread. Between the pipe sections 11 and 12, a compression spring 13 is strengthened, which acts on the pin 14 when turning the nuts 16 and 17, while changing the distance between the posts 9 and 10.

 The device operates as follows.

 Induction hardening is carried out directly at the location of the rail. Before induction hardening, the device is installed on the rail 3 at the welded joint by turning the nuts 16 and 17. By appropriate rotation of the same nuts, the necessary clearance between the inductor and the heated part is provided. Turns on the supply of high-frequency power with a frequency of 10000 Hz. High-frequency current induces high-frequency currents in windings 1 and 2, which excite an electromagnetic field that acts on the heating region, causing eddy currents in it, heating it to quenching temperatures. During heating by moving the magnetic circuits 7 and 8, it is possible to change the distribution of eddy currents to obtain the necessary distribution of temperature fields on the rails of this assortment and, accordingly, to achieve the implementation of recrystallization processes to obtain the necessary metal structure over the entire cross section of the welded joint. The device is easily and quickly configured to work when switching to rails of a different range.

 Currently developed device is designed to heat welded joints before hardening for heat treatment of P50 rails; P65; P75 The ability to provide the necessary conditions for heating the place of the weld joint increases the safety of trains by obtaining the necessary strength and ductility of the welded joints.

Claims (3)

 1. A device for heating the joints of railway rails, comprising an inductor connected to a high-frequency alternating current source, characterized in that the inductor is made in the form of two flat rectangular spiral windings located opposite each other on both sides of the rail, the direct and return conductors of which are separated by movable magnetic circuits freely moving relative to the windings perpendicular to the side surfaces of the rail, while the windings are connected to a power source so as to ensure leakage currents in one direction in parts of the windings adjacent to the rail head.  2. The device according to claim 1, characterized in that the windings, together with the corresponding magnetic circuits, are placed on two parts of the frame of heat and electrical insulating material, interconnected by a device that ensures their mutual movement relative to each other, in a direction perpendicular to the longitudinal axis of the rail.  3. The device according to claim 1 or 2, characterized in that the windings are curved in the shape of the head and the upper part of the sole on the respective sides of the rail.

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