RU1781845C - Three-phase induction heater of fluid medium - Google Patents

Abstract

SUMMARY OF THE INVENTION: the device comprises steel pipes, windings placed thereon, designed for half phase voltage, upper and lower p-magnetic circuits, heat-resistant electrical insulating frames. 2 ill.

Description

The present invention relates to induction heating devices operating at currents of industrial or other frequencies and is intended to produce hot water or steam, as well as current media .;

A submersible induction heater for heating a metal melt is known, comprising a truncated cone-shaped casing enclosed by a closed magnetic circuit with alternating current winding. The magnetic core is not three-pronged. the winding is placed on its rod. ,,

 In this heater, the heated medium is located outside the magnetic core, and the magnetic cores and windings require protection from the heated medium .;

A three-phase electric boiler is known, containing primary windings located on the magnetic cores, which are connected to a three-phase network of measured current, in which the magnetic cores are made in the form of hollow rods of ferromagnetic steel in which the medium is heated.

Closest to the claimed device is a fast-flowing three-phase instantaneous water heater.

The disadvantage of this device is its relatively low power factor. ....; ..:., - .. ...

An object of the invention is to increase the power factor by enclosing losses from zero sequence flows.

This goal is achieved in that in a three-phase induction heater containing three single-phase inductors covering heating pipes with a wall thickness exceeding the current penetration depth, connected by pipe frames with fluid inlet and outlet nozzles, each of the single-phase inductors is made in the form of two coils; and heating pipes in the form of a pair of a series of arranged pipes covered by said coils.

Comparative analysis with the prototype shows that the claimed three-phase induction electric boiler is characterized in that each of the same inductors is made in the form of two coils, heating pipes in the form of a pair

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wife pipes covered by the indicated coils.

Thus, the inventive device meets the criteria of the invention of novelty.

Comparison of the claimed solution with other technical solutions of this field of technology did not allow them to identify features distinguishing the claimed solution from the prototype, which allows us to conclude that the criterion is significant

distinguish.

The proposed system allows to increase the power factor. Increasing the power factor will reduce the cost of the induction boiler by reducing the cross-section of the inductor wire .- K.

In FIG. 1 shows the design of a three-phase induction electric boiler; in FIG. 2 is a schematic diagram of an electrical circuit of an induction heater.

The heater has a steel tube 1, magnetizing winding 2, designed for half phase voltage, upper 3 and lower 4 RMA magnetic circuits, and heat-resistant electrical insulating frames 5.

Magnetic cores and frames are made of magnetically conductive material, for example, steel.

Each phase has its own magnetic system, which is not connected with other phases, which allows one to have a high power factor.

The device operates as follows.

The heated fluid is placed inside the steel pipes 1. When AC flows through the windings 2 in the metal of the pipe 1, eddy currents are induced to cause it to heat. In addition, the heating of the pipes occurs due to the magnetization reversal of the material.

Thermal energy from the surface of the pipe 1 is transferred directly to the heated medium. The closed magnetic system of each phase makes it possible to have a high power factor, and the generation of thermal energy in the pipe body, washed by a heated medium, has a high efficiency.

Claims (1)

SUMMARY OF THE INVENTION A three-phase induction fluid heater comprising three single-phase inductors covering ferromagnetic heating pipes with a wall thickness exceeding the current penetration depth, connected by pipe frames to the fluid inlet and outlet nozzles, characterized in that, in order to increase the power factor by eliminating losses from zero sequence flows, each of the single-phase inductors is made in a bidet of two coils, and the heating pipes are in the form of a pair of adjacent pipes, covered by a decree coils. pnrv Vj tag rp Cq ve (W cv tl Ј