SU831810A1 - Device for inductional contour heating of parts - Google Patents

Description

- .one. The invention relates to the heat treatment of metals with the use of induction heating and can be used in die-stamp manufacturing, for example, during the contour hardening of the cutting edges of dividing die matrices. A device for induction contour heating of parts with self-regulation of the working gap between the inductor and the part is known, containing dielectric, bath, tape inductor, work table for positioning the part, and busbars with elastic element made in the form of plane-parallel springs connected to the belt inductor Dl. However, for this device it is typical: the impossibility of uniformly heating the plots of complex geometric shape. It is also known a device for induction contour heating of parts, predominantly cutting matrices of separation dies, for quenching, containing a dielectric bath with cooling fluid, a ribbon iductor, current-carrying tires with an elastic element connected to the inductor, and a working table. The device provides automatic pe-i heating of the sections by self-adjusting the inductor relative to the pressured part contour under the influence of the mechanical force of the magnetic inductor f2}. A disadvantage of the known device is that by dissolving a tape inductor on an elastic support and connecting it with current-carrying shingosh by means of a connection, the latter reduces the sensitivity to self-regulation by counteracting the mechanical force of the magnetic field. At 3TCi4, the resistance to a flexible connection is different for any part of the conductor loop, which leads to a decrease in the sensitivity and accuracy of the regulation of heating over different parts of the part loop. Performing a flexible connection with minimal rigidity requires constructive complexity, which leads to the introduction of additional elements in the current-carrying system and increases energy loss. The purpose of the invention is to improve the accuracy of temperature control in areas by increasing the sensitivity to self-adjusting of the inductor's conductor relative to the heated circuit, and to simplify the design.

The goal is achieved by the fact that the elastic element is made in the form of two semi-bellows, the element | Troisolated from each other.

The drawing shows the kinematic scheme of the proposed device,

The device comprises a dielectric bath 1 with a coolant, an inductor with a ribbon conductor 2, an insulating gasket 3 and terminals 4 connected to current-carrying buses 5 by means of two electrically conductive bellows b electrically insulated from each other, a work table 7 for placing the part above the inductor.

The device works as follows.

The ribbon conductor 2 is connected to the terminals 4. A workpiece 8 is placed on the working table 7, for example, a die matrix, and the heating circuit is combined with the ribbon of the current conductor 2. The heating is turned on and after the required heating temperature is reached, the part is heated by immersion g bone. Then turn off the heat source.

Under the influence of the magnetic field of the tape conductor 2 in the circuit of the part 8 currents are induced and a mechanical force is applied in the part-inductor system. In this case, the mechanical force of the magnetic field has different values in the sections of the heated circuit depending on their size and geometric shape. Under the influence of mechanical forces, the half-bellows 6 are elastically deformed. There is a complex spatial movement of the inductor and its self-installation relative to the heated circuit.

Performing an elastic coupling of the inductor with busbars through two electrically conductive coupling eliminates the additional coupling of the inductor with the conductor and increases the sensitivity of the system to self-tuning of the inductor. Besides, . the design of the device is simplified by performing the semi-bellows functions of the conductor and the elastic element to ensure the self-alignment of the inductor.

Claims (2)

1. Authors certificate of the USSR 623877, cl. C 21 D 1/12, 1976. 2. USSR Author's Certificate for Application No. 2791186 / 22-02, cl. C 21 D 1/12, 07.07.79.