RU1835582C - Unipolar aggregate - Google Patents

Abstract

Usage: unipolar units. SUMMARY OF THE INVENTION: a unipolar unit comprises a stator with two cylindrical coaxial windings 13 on the magnetic circuit 5 in the form of top75 2 6 10 electrodes. VNs g 14 of a pour element of one polarity. In the gap between these electrodes is a hollow rotor made in the form of a cylindrical electrode 1 of a fuel cell of a different polarity and separated from the stator electrodes by an electrolyte gap. Blades 2 are located on the rotor shaft, which ensure the movement of the electrolyte. The shaft is provided with an internal cavity connecting the gas chambers of the fuel cell with the supply nozzle of the oxygen chamber 4. Hydrogen is supplied through the nozzle 14, water is discharged through the nozzle 15.3 sludge. (L 00 00 ate 00 1ChE

Description

The invention relates to electrical engineering, in particular to converters of chemical and mechanical forms of energy through electrical energy, and is a chemical-electromechanical unit.

An object of the invention is to increase the reliability of a unipolar unit.

In FIG. 1 shows an axial section of the unit; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 - spiral electrodes.

Field No. rotor consists of two gas diffusion cylinders connected to each other by busbars 1. These unipolar cylinders are closed at the ends and the upper end is attached to the blades 2 extending from the shaft 3. The interelectrode cavity of the rotor is connected through the channel of one of the blades 2 and the hollow the shaft 3 through an oil seal with a gas chamber 4. The shaft 3 is located in bearings connected to a stationary cylindrical magnetic circuit 5 by means of a dielectric disk 6, with an oil seal in the center and a groove along the end, as well as by a cup 7 with side holes to which the camera 4 is attached. On the shaft 3, a ventilation rotor 8 and a ring 9 are fixed, to which the collector brushes adjoin. The blades 2 are located in a cylindrical chamber formed by a hollow cover 10, hermetically mounted on the end face of the magnetic core 5. The power obturator shaft leaves the center of the cover 10 through the gland, which also closes the cavity of this cover with internal holes in the chamber with blades 2 and holes on the periphery combined with the channels 11 in the radiator of the magnetic circuit 5. The fins of this radiator are crimped by a casing 12, directing the air flows created by the rotor 8 along these fins. The pole surfaces of the magnetic circuit 5 are ribbed, coated with a thin dielectric, and spiral electrodes 13 of other polarity reinforced with a low resistance conductor, closed at the bottom and connected to the collector brushes of the ring 9 are fastened with interturn insulation. The edges of the pole surfaces of the magnetic circuit 5 have grooves, to the upper of which a feeding nozzle 14 is connected, and the lower ones are connected by a tube through the electrodes 13 and a reaction product is discharged from the bottom through the nozzle 15. The electrolyte filling the cavity of the cover 10. chambers with blades 2, the interpolar gap, the radial channels in the magnetic circuit and the radiator channels 11, is poured through the neck 16. One of the reagents by means of the fitting 14, the upper grooves in the magnetic circuit 5, connecting the intercostal spaces of the pole surfaces of this the magnetic circuit is fed to the cylindrical surfaces of the spiral electrodes 13 and, being ionized, enters into an electrochemical reaction by means of an electrolyte with another reagent filling the spaces between the tires 1 p an electrode. The electric current field of this electrode - the collector - of the rotor interacts with the orthogonal field of the spiral electrodes 13, which are the excitation winding, the lower terminal of which is closed through the sliding contacts of the ring 9, the conductive shaft 3 and the blade 2 to the upper end of the rotor.

Under the action of the centrifugal force created by the rotor blades 2 rotated by electromagnetic force, the electrolyte rushes into the inter-pole-interelectrode gap, the electrochemical acceleration

reaction (with heating). Further, the electrolyte enters the channels 11 of the fin radiator, which is blown by the air flows created by the ventilation rotor 8. The steam formed during the reaction

it condenses on the cooled surfaces of the magnetic circuit and turns into a liquid, which flows into the lower grooves in the magnetic circuit 5 and is discharged outside the unit through the nozzle 15.

Claims (1)

Claims Unipolar unit containing a stator with two cylindrical coaxial spiral windings on the magnetic circuit in the form of fuel electrodes element separated by an electrolyte gap and equipped with reagent supply fittings, a hollow rotor, on the shaft of which there are blades, stator windings connected through sliding contacts to the rotor, characterized in that, in order to increase reliability, the stator electrodes are made in the form of a cylindrical electrode of one polarity, and the hollow rotor is made in the form of a cylindrical electrode of another polarity, located in the gap between the stator electrodes and equipped with gas chambers connected through an internal cavity of the shaft with a supply fitting. 1835582 A a 1 12 /4 thirteen & ff