CS211797B1 - Induction heater inductor contact - Google Patents

Abstract

The invention addresses the contact of a spreading inductor for induction heating. It is a reed-type contact with a pressure insert provided with membranes. The pressure insert has an internal space partially filled with liquid or electrolyte and hermetically sealed. When the internal overpressure increases, the membranes elastically deform, thereby achieving perfect contact in the contact area.

Description

The invention relates to a contact inductor contact for induction heating, e.g. for bending pipes.

The opening inductors used have different contacts, for example planar or reed contacts. They may be exerted by the contact force exerted by the screw, pneumatic or hydraulic cylinder.

A disadvantage of the known solutions of the inductor inductor's planar and reed contacts is their lengthy handling and low electrical efficiency.

It is proposed to provide an improved contact inductor contact solution for induction heating.

This contact consists of an outer body in which an inner body of the wedge-shaped tongue is inserted and between which there is a contact surface. The essence of the invention is that it is wedge-shaped. the inner part of the upper part of the pressure insert is interconnected with the inner space of its lower part, it is hermetically closed and filled with liquid. electrolyte such that at least the inner space of the lower portion of the pressure liner is filled. An electrode may be immersed in the electrolyte in the inner space of the upper portion of the pressure liner, and above the electrode the inner space is not filled with electrolyte.

The advantage is relatively simple production of contact, its easy and quick preparation for use, the possibility of automation of the working process during induction heating. It is also advantageous that the contact force between the mandrel and the outer contact body increases automatically as the losses in the contact surface increase, which is favorable.

An example of an embodiment of the invention is shown in the drawings, in which Fig. 1 is a front view of the contact according to the invention and Fig. 2 is a side sectional view.

The contact inductor for induction heating consists of an outer body 1, in which an inner body 2 of the wedge-shaped tongue is inserted, which are non-releasably connected to one and the other part of the opening inductor 2. the contact insert consists of a pressure 2 * · · Bottom part of the pressure pads 2 ^e 3 is inserted into the wedge cavity formed inner body 2 ,. The upper part of the pressure sleeve 2 is cylindrical. The inner space of the lower and upper press pad connected ^te 2 and is filled with for instance two thirds of the cylindrical portion of the liquid, eg. electrolyte 6, the level of which is indicated in FIG. 2 and is variable during preheating. The inner interconnected space of the pressure liner 2 is hermetically closed. On the inside top of the pressure insert 2 is immersed into the electrolyte electrode 2 · bottom of the pressure pads j ^e 2 is provided with two diaphragm 8. After insertion, the pressure of the insert 2 into the wedge cavity are the membrane 8 in contact with the inner body 2 a wedge-shaped tongue.

The contact of the opening inductor works as follows: After insertion of the wedge-shaped inner body 2 into the outer body 2, the pressure chamber 2 is pressurized. · This is achieved, for example, by increasing the electrolyte temperature in the hermetically sealed interior of the pressure pad 2 partially filled with electrolyte 6. As the internal pressure increases, the membranes 8 become elastically deformed and the inner body 2 and the outer contact body 2 are pressed together. This ensures intimate contact of the contact surface 4 ⁰ transition of the minimum electrical resistance. During operation of the opening inductor, the pressure contact pad 2 maintains such a temperature and pressure that it operates until the induction heating is interrupted automatically.

The opening inductor with the contact according to the invention can be used in cases where insertion of the heated component is impossible or difficult. This is the case, for example, when bending long tubes, hardening complex parts such as crankshafts, etc., or annealing.

Claims (2)

SUBJECT OF THE INVENTION An induction heating contact inductor contact comprising an outer body in which an inner wedge-shaped body is inserted and between which a contact surface is provided, characterized in that a lower part of the pressure insert is inserted into the wedge-shaped cavity formed by the inner body (2). (5) provided with membranes (8), the inner space of the upper part of the pressure insert (5) being connected to the inner space of its lower part, being hermetically sealed and filled with liquid, e.g. by electrolyte (6) such that at least the inner space of the lower part of the pressure insert (5) is filled. Contact according to claim 1, characterized in that an electrode (7) is immersed in the electrolyte (6) in the inner space of the upper part of the pressure sleeve (5), wherein the inner space is not filled with electrolyte above the electrode (7).