SU836822A1 - Aterials - Google Patents

Description

(54) INSTALLATION FOR LOCAL HIGH-FREQUENCY HEATING OF PARTS FROM CONDUCTING MATERIALS

Claims (2)

The invention relates to electrical heating, in particular to installations for a glass spa with metal. High-frequency inductors are known — transformers for local heating. However, most of them do not allow local heating with high efficiency. Also known is an installation for local high-frequency heating of parts made of conductive materials, comprising a high-frequency transformer enclosed in a housing of a highly electrically conductive material, made in the form of a multi-thin primary winding and a secondary coil surrounding it, connected to the current leads with a single-turn inductor, and a capacitor battery electrically connected to the high-frequency transformer 2. In these installations, a high-frequency transformer and an oscillating cone unit The tour is made in the form of separate units and interconnected by conductive buses or coaxial inputs, which leads to significant electrical losses and large dimensions of installations. The aim of the invention is to increase the efficiency and size reduction of the device. This goal is achieved by the fact that in the proposed device the outer surface of the secondary coil is made in the form of a polyhedron, the capacitor battery is placed in the indicated case and its capacitors are directly mounted on the faces of the coil. The drawing shows the proposed installation. The installation consists of a secondary coil 1, made in the form of a monolithic part, having an outer polyhedral surface, a cylindrical hole and a side slot. Inductor 2 is a cut ring inserted into the base of a copper tube, covering the inductor and the outer surface of coil 1. The high primary primary winding of the 3 transformer, made in the form of a coil of a copper tube, is installed in the cylindrical opening of coil 1. The capacitors 4 with their contacts 5 are attached to the planes of the polyhedron of the outer surface of coil 1. Tire 6, paired with the tube of high-frequency winding 3, interconnects capacitors 4. Coil 3, coil 1 and inductor 2 are cooled by running water passing through fitting 7, internal cavity of winding tube 3, water connector 8, internal tube cavity of inductor 2 and fitting 9. On one of the planes of the polyhedron in} lt 1, there is an angle bracket 10, to which a plate 11 with a cylindrical pin 12 is attached, through to load the device wa is connected to a vertical movement mechanism unit. On top of the device is closed by a casing 13 made of a material of high electrical conductivity. The power supply to the high frequency transformer and capacitors is supplied through a flexible cable. The work is carried out as follows. From the high-frequency generator, through a coaxial cable 14, a high-frequency voltage is applied to the oscillating circuit of the unit, in which the currents resonate. The circuit is formed by a group of parallel-connected capacitors 4 and the inductance of the primary winding 3 of the transformer. Transformer 3 lowers the circuit voltage and provides a concentration of the magnetic field in a narrow area of the product. The alternating magnetic field of the primary winding 3 of the transformer induces in turn 1 a variable EMF, which is converted by a inductor 2 into a magnetic field. The metal product placed in the inductor 2 is heated in the zone equal to the width of the coil due to the alternating current induced by the magnetic field in the surface of the metal. In order to ensure maximum device efficiency and optimal generator operation, the capacitance value of the loop capacitors 4 and the inductance of the primary winding 3 of the transformer are set as a function of the operating frequency of the circuit. An apparatus for local high-frequency heating of parts made of conductive materials comprising a high-frequency transformer enclosed in a housing of a high-conducting material made in the form of a multi-turn primary winding and a secondary coil surrounding it connected to the single-turn heating coil by the current leads and a capacitor battery electrically connected to the high-frequency transformer, characterized in that, in order to increase efficiency and reduce the size of the device, outer surface of the secondary coil is formed in formemnogogrannika a capacitor arranged in said housing and its capacitors are directly mounted on the faces of the coil. Sources of information taken into account during the examination 1. Lozinsky MG Industrial application of induction heating, 1958, p. 198. 2. USSR author's certificate number 404799, .kl. C 03 C 27/02, 1972. 5 n