RU2759598C1 - Stabilized three-input axial-radial electric generator machine - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to the field of electrical engineering, in particular to electromechanical energy converters, and can be used, for example, as a converter of kinetic wind energy converted by a wind wheel into mechanical rotational energy supplied to the mechanical input of the machine, solar light energy converted by a photovoltaic converter into direct current electricity simultaneously supplied to its light input, and thermal energy of any source simultaneously supplied to its thermal input, into total alternating current electrical energy. A stabilized three-input axial-radial electric generator machine contains a housing, a photoelectric converter mounted in the upper part of the housing, a hollow shaft fixed in the housing in bearing assemblies, a fixed axis located coaxially with a hollow shaft that can rotate around a fixed axis, an internal axial magnetic circuit with two active end surfaces rigidly connected to the hollow shaft by means of a disk, an exciter, a main generator, a voltage regulator and a thermal converter. The fixed axis is fixed in the bearing assemblies installed in the hollow shaft, and is rigidly connected to the housing with one end located on the side of the housing. The voltage regulator contains an electronic unit, the input of which is connected to the output of a multiphase two-half-period rectifier, and an electromechanical unit consisting of a radial magnetic circuit of the voltage regulator inductor, a radial magnetic circuit of the armature of the voltage regulator, and a single-phase control winding of the voltage regulator. The radial magnetic circuit of the armature of the voltage regulator is installed on the inner surface of the hollow shaft in such a way that the magnetic flux generated by the single-phase excitation winding of the voltage regulator is directed along the radius of the radial magnetic circuit of the armature of the voltage regulator with the multiphase winding of the armature of the voltage regulator. A thermal converter is installed in the lower part of the housing. Also, an additional single-phase excitation winding of the voltage regulator connected to the output of the thermal converter is additionally laid in the grooves of the radial magnetic circuit of the inductor of the voltage regulator.EFFECT: providing the possibility of direct conversion of thermal energy into electrical energy with simultaneous summation of mechanical energy, light energy and thermal energy with simultaneous conversion of the resulting total energy into DC electrical energy while maintaining high stability of the output voltage in magnitude.1 cl, 2 dwg

Description

The invention relates to electrical engineering, in particular to electromechanical energy converters, and can be used, for example, as a converter of kinetic wind energy converted by a wind wheel into mechanical rotational energy supplied to the mechanical input of a machine, solar light energy converted by a photoelectric converter into direct current electricity , simultaneously supplied to its light input, and the thermal energy of any source, simultaneously supplied to its thermal input, into the total electrical energy of the alternating current.

Known stabilized axial-radial DC generator (US Pat. RF No. 2649913, authors Kashin Ya.M., Kashin A.Ya., Knyazev A.S.), containing a housing, an internal axial magnetic circuit with two active end surfaces, a shaft fixed in bearing assemblies, the exciter, the main generator and the voltage regulator, while the exciter consists of the exciter armature rigidly fixed in the inductor body and the multiphase winding of the exciter armature, laid in the grooves of the internal axial magnetic circuit with two active end surfaces, the main generator consists of a single-phase excitation winding of the main generator, laid in the grooves of the internal axial magnetic circuit with two active end surfaces and connected through a multiphase full-wave rectifier to the multiphase winding of the exciter armature, and rigidly fixed in the case of the lateral axial magnetic circuit with one active end surface, in the slots of which the multiphase winding of the main armature is laid generator connected to the output multiphase full-wave rectifier, and the internal axial magnetic circuit with two active end surfaces is rigidly connected to the shaft by means of a disk, while the single-phase excitation winding of the main generator is laid in the grooves of the internal axial magnetic circuit with two active end surfaces on the side of the lateral axial magnetic circuit with a multiphase the armature winding of the main generator, the multiphase winding of the exciter armature is laid in the grooves of the internal axial magnetic circuit with two active end surfaces on the side of the exciter inductor, and the voltage regulator contains a voltage deviation meter, a preamplifier, a power amplification unit and a power section, while the voltage deviation meter is switched on generator output voltage. The exciter inductor contains a permanent axial multi-pole magnet, the shaft is hollow, and a fixed axis is installed in the housing, located coaxially with a hollow shaft that can rotate around a fixed axis, while the fixed axis is fixed in bearing assemblies installed in the hollow shaft and is rigidly connected to with one end located on the side of the case, on which a lateral axial magnetic circuit with a multiphase winding of the armature of the main generator is fixed, and a voltage deviation meter, a preamplifier, a power amplification unit and a power section form an electronic unit of a voltage regulator, while the voltage regulator additionally contains an electromechanical unit , consisting of a radial magnetic circuit of the voltage regulator inductor, rigidly fixed on a fixed axis, in the grooves of which a single-phase excitation winding of the voltage regulator is laid, connected to the power section of the electronic unit, the radial magnetic circuit of the armature regulator voltage regulator, in the grooves of which the multiphase winding of the armature of the voltage regulator is laid, and the control single-phase winding of the voltage regulator, connected through a polyphase full-wave rectifier to the polyphase winding of the armature of the voltage regulator and laid in the grooves of the internal axial magnetic circuit with two active end surfaces on the side of the lateral axial magnetic circuit the armature winding of the main generator.

The input of the electronic unit of the voltage regulator is the input of the voltage deviation meter, connected to the output of the main generator - to the multiphase winding of the armature of the main generator, from which the output voltage of the generator is removed, and its output is the output of its power section.

The radial magnetic circuit of the armature of the voltage regulator is installed on the inner surface of the hollow shaft in such a way that the magnetic flux created by the single-phase excitation winding of the voltage regulator is directed along the radius of the radial magnetic circuit of the armature of the voltage regulator with the multiphase winding of the armature of the voltage regulator.

However, known from US Pat. RF No. 2649913, an electrical machine cannot add up different types of energy (mechanical and light) coming from two different sources with the simultaneous conversion of the total energy received into electrical energy, since it has only one input: a mechanical input - the rotor shaft. This limits the scope of its application: it does not allow obtaining additional electricity in areas where the intensity of light radiation is high.

The closest to the claimed invention in terms of technical essence and adopted by the authors for the prototype is a stabilized two-input wind-solar axial-radial electric machine-generator (US Pat. .), containing a housing, a hollow shaft fixed in the housing in bearing assemblies, a stationary axis located coaxially with a hollow shaft that can rotate around a fixed axis, an internal axial magnetic circuit with two active end surfaces, rigidly connected to the hollow shaft by means of a disk, an exciter , the main generator and voltage regulator, while the exciter consists of a rigidly fixed in the inductor housing and a multiphase winding of the exciter armature, laid in the grooves of the internal axial magnetic circuit with two active end surfaces on the side of the exciter inductor, the main generator consists of a lateral axial magnetic circuit rigidly fixed in the housing main gene anchors erator with one active end surface, in the grooves of which the multiphase armature winding of the main generator is laid, connected to the output multiphase full-wave rectifier, and the single-phase excitation winding of the main generator, laid in the grooves of the internal axial magnetic circuit with two active end surfaces on the side of the lateral axial magnetic circuit with a multiphase winding armature of the main generator, and connected through the first multiphase full-wave rectifier to the multiphase winding of the exciter armature, while the fixed axis is fixed in bearing assemblies installed in the hollow shaft, and is rigidly connected to the housing by one end located on the side of the housing, on which the lateral axial magnetic circuit is fixed with a polyphase winding of the armature of the main generator, and the voltage regulator contains an electronic unit, the input of which is connected to the output of the output multiphase full-wave rectifier, and an electromechanical unit consisting of p adial magnetic circuit of the voltage regulator inductor, rigidly fixed on a fixed axis, in the grooves of which the single-phase excitation winding of the voltage regulator is laid, connected to the output of the electronic unit, the radial magnetic circuit of the voltage regulator armature, in the slots of which the multiphase winding of the armature of the voltage regulator is laid, and the control single-phase winding of the voltage regulator connected through the second multiphase full-wave rectifier to the multiphase winding of the armature of the voltage regulator and laid in the grooves of the internal axial magnetic circuit with two active end surfaces from the side of the lateral axial magnetic circuit with the multiphase winding of the armature of the main generator, while the radial magnetic circuit of the armature of the voltage regulator is installed on the inner surface of the hollow shaft in such a way that the magnetic flux created by the single-phase excitation winding of the voltage regulator is directed along the radius of the radial magnetic circuit of the regulator armature voltage with a polyphase winding of the armature of the voltage regulator. In the upper part of the body known from US Pat. RF No. 2685424, a photoelectric converter is installed, and the exciter inductor contains a lateral axial magnetic circuit of the exciter inductor, in the grooves of which, from the side of the internal axial magnetic circuit, the main single-phase excitation winding of the exciter is laid, connected to the output of the output multiphase full-wave rectifier, and an additional single-phase excitation winding of the exciter output, connected to photoelectric converter.

However, known from US Pat. RF No. 2685424, an electric machine cannot add up energy (mechanical, light and heat) coming from three different sources with the simultaneous conversion of the total energy received into electrical energy, since it has only one source of direct energy conversion - a photoelectric converter, and only two inputs: the mechanical input is the rotor shaft, and the light input is a photoelectric converter, the output of which is connected to an additional single-phase excitation winding of the exciter. This limits the scope of its application: it does not allow obtaining additional electricity in areas where the intensity of thermal radiation is high, and also does not allow utilizing the heat losses of machines and units, during the operation of which heat is inevitably released.

The objective of the invention is to improve the axial-radial electric machine-generator in order to expand the scope of its application.

The technical result of the claimed invention is to provide the possibility of direct conversion of thermal energy into electrical energy with the simultaneous summation of mechanical energy (for example, kinetic wind energy converted by a wind wheel into mechanical energy of rotation), light energy (for example, solar energy converted by photovoltaic converters into electrical energy of direct current) and thermal energy (for example, thermal energy from the Sun or other source, converted by a thermal converter into electrical energy of direct current) while simultaneously converting the resulting total energy into electrical energy of direct current while maintaining high stability of the output voltage in magnitude.

The technical result is achieved by the fact that in a stabilized three-input axial-radial electric machine-generator containing a housing, a photoelectric converter installed in the upper part of the housing, a hollow shaft fixed in the housing in bearing assemblies, a stationary axis located coaxially with a hollow shaft having the ability rotation around a fixed axis, an internal axial magnetic circuit with two active end surfaces, rigidly connected to the hollow shaft by means of a disk, an exciter, a main generator and a voltage regulator, while the exciter consists of a lateral axial magnetic circuit of the exciter inductor rigidly fixed in the housing, into the grooves of which from the side of the internal axial magnetic circuit, the main single-phase exciter excitation winding connected to the output of the output multi-phase full-wave rectifier and an additional single-phase exciter excitation winding connected to the output of the photovoltaic p converter, and a multiphase winding of the exciter armature, laid in the grooves of the internal axial magnetic circuit with two active end surfaces on the side of the lateral axial magnetic circuit of the exciter inductor, the main generator consists of a side axial magnetic circuit of the main generator rigidly fixed in the case with one active end surface, in the slots of which a multiphase armature winding of the main generator is laid, connected to the output multiphase full-wave rectifier, and a single-phase excitation winding of the main generator, laid in the grooves of the internal axial magnetic circuit with two active end surfaces on the side of the lateral axial magnetic circuit with a multiphase armature winding of the main generator, and connected through the first multi-cycle rectifier to the multiphase winding of the exciter armature, while the stationary axis is fixed in bearing assemblies installed in the hollow shaft and is rigidly connected to the a housing with one end located on the side of the housing, on which a lateral axial magnetic circuit with a multiphase winding of the armature of the main generator is fixed, and the voltage regulator contains an electronic unit, the input of which is connected to the output of the output multiphase full-wave rectifier, and an electromechanical unit consisting of a radial magnetic circuit of the voltage regulator inductor , rigidly fixed on a stationary axis, in the grooves of which a single-phase excitation winding of the voltage regulator is laid, connected to the output of the electronic unit, the radial magnetic circuit of the armature of the voltage regulator, in the grooves of which the multiphase winding of the armature of the voltage regulator is laid, and the control single-phase winding of the voltage regulator connected through the second polyphase full-wave rectifier to the multiphase winding of the armature of the voltage regulator and the internal axial magnetic circuit laid in the grooves with two active end surfaces on the side of the lateral axial magnet and a line with a multiphase winding of the armature of the main generator, while the radial magnetic circuit of the armature of the voltage regulator is installed on the inner surface of the hollow shaft in such a way that the magnetic flux created by the single-phase excitation winding of the voltage regulator is directed along the radius of the radial magnetic circuit of the armature of the voltage regulator with a multiphase winding of the armature of the voltage regulator, while a heat converter is installed in the lower part of the housing, and an additional single-phase excitation winding of the voltage regulator is additionally placed in the grooves of the radial magnetic circuit of the inductor of the voltage regulator, connecting it to the output of the thermal converter.

The proposed invention, performing the function of summing mechanical energy (for example, wind energy) and light energy (for example, solar energy converted by a photoelectric converter into DC electrical energy), like the prototype, at the same time, unlike it, allows you to expand the scope of its application for due to additional conversion of thermal energy (for example, thermal energy of the Sun or another source of thermal energy) and its summation with mechanical and light energy, with the simultaneous conversion of the resulting total energy into DC electrical energy while maintaining high stability of the output voltage in magnitude.

Direct conversion of thermal energy into electrical energy is achieved due to the fact that a thermal converter is installed in the lower part of the housing, which directly converts thermal energy into direct current electrical energy.

Summation of mechanical energy (for example, kinetic wind energy converted by a wind wheel into mechanical energy of rotation), light energy (for example, solar energy converted by photovoltaic converters into DC electrical energy) and thermal energy (for example, thermal energy from the Sun or another source converted by thermal energy). converter into electrical energy of direct current) is achieved by additional laying in the grooves of the radial magnetic circuit of the inductor of the voltage regulator of an additional single-phase excitation winding of the voltage regulator and connecting it to the output of the heat converter.

According to the principle of superposition of magnetic fields, the residual magnetic flux of the lateral axial magnetic circuit of the exciter inductor, the magnetic flux created by the electric current flowing in the main single-phase excitation winding of the exciter, obtained by converting mechanical rotational energy into electrical energy, is added to the magnetic flux created by the electric current flowing on an additional single-phase excitation winding of the exciter, obtained by converting light energy into direct current electrical energy.

Simultaneous conversion of the received total energy into electrical energy of direct current is achieved by the fact that the total magnetic flux obtained by summing the residual magnetic flux of the exciter inductor and magnetic fluxes created by the electric current obtained by converting mechanical energy of rotation into electrical energy and flowing through the single-phase excitation winding the main generator, and an electric current obtained by converting light energy into electrical energy of direct current and flowing through an additional single-phase excitation winding of the exciter, crosses the multiphase winding of the exciter armature, induces a multiphase EMF in it. This EMF is rectified by the second multi-phase full-wave rectifier and fed to the single-phase excitation winding of the main generator, through which, under the action of the EMF, an electric current flows, creating a magnetic excitation flux of the main generator.

At the same time, the DC voltage obtained by converting thermal energy from the output of the heat converter is fed to an additional single-phase excitation winding of the voltage regulator, connected to the output of the heat converter and laid in the grooves of the radial magnetic circuit of the inductor of the voltage regulator. Under the action of this voltage, an electric current flows in the additional single-phase excitation winding of the voltage regulator, which creates a magnetic flux directed along the radius of the radial magnetic circuit of the armature of the voltage regulator. This magnetic flux interacts with the multiphase armature winding of the voltage regulator and induces a multiphase EMF in it, which is rectified by the second polyphase full-wave rectifier and fed to the control winding of the voltage regulator. In this case, an electric current flows through it, under the action of which a magnetic flux is created, directed in accordance with the magnetic flux created by the single-phase excitation winding of the main generator.

According to the principle of superposition of magnetic fields, the magnetic fluxes created by the electric currents of the single-phase excitation winding of the main generator and the control single-phase winding of the voltage regulator are summed up.

This total magnetic flux crosses the multiphase armature winding of the main generator, induces a multiphase EMF in it, which is rectified by the output multiphase full-wave rectifier and supplied to consumers.

Simultaneous preservation of high stability of the output voltage in magnitude is achieved due to additional laying in the grooves of the radial magnetic circuit of the inductor of the voltage regulator of an additional single-phase winding of the excitation of the voltage regulator and connecting it to the output of the heat converter. If the output voltage of the generator machine deviates from the set value (including due to a change in the amount of thermal energy entering the input of the heat converter and a corresponding increase in current flowing in the additional single-phase excitation winding of the voltage regulator), the electronic unit of the voltage regulator ensures the flow in the single-phase winding excitation of the voltage regulator of the electric current, corresponding in magnitude and direction to the deviation of the output voltage of the machine-generator from the set value. Under the action of this electric current, an additional magnetic flux is created, which is directed according to (with a decrease in the output voltage compared to the given one) or opposite (with an increase in the output voltage in comparison with a given) magnetic flux created by the current of the additional single-phase excitation winding of the voltage regulator, respectively increasing or reducing the total magnetic flux crossing the turns of the multiphase winding of the armature of the voltage regulator and inducing a multiphase EMF in it, and accordingly increasing or decreasing the value of the electric current flowing in the control single-phase winding of the voltage regulator.

FIG. 1 shows a general view of the proposed stabilized three-input axial-radial electric machine-generator in section, FIG. 2 - its electrical diagram.

A stabilized three-input axial-radial electric machine-generator, contains: housing 1, photoelectric converter 16, installed in the upper part of housing 1, hollow shaft 22, fixed in housing 1 in bearing assemblies 12 and 19, stationary axis 21, located coaxially with the hollow shaft 22, rotatable about a fixed axis 21, an internal axial magnetic circuit 3 with two active end surfaces, rigidly connected to the hollow shaft 22 by means of a disk 23, an exciter, a main generator and a voltage regulator.

The exciter consists of a lateral axial magnetic circuit 2 rigidly fixed in the housing 1 of the exciter inductor, in the grooves of which from the side of the internal axial magnetic circuit 3 are laid the main single-phase winding 14 of the exciter excitation, connected to the output of the output multi-phase two-half-wave rectifier 25, and an additional single-phase winding 15 of the exciter excitation connected to the output of the photoelectric converter 16, and the multiphase winding 4 of the exciter armature, laid in the grooves of the internal axial magnetic circuit 3 with two active end surfaces on the side of the lateral axial magnetic circuit 2 of the exciter inductor.

The main generator consists of a side axial magnetic circuit 18 rigidly fixed in the housing 1 of the main generator armature with one active end surface, in the grooves of which the multiphase winding 17 of the main generator armature is laid, connected to the output multiphase full-wave rectifier 25, and a single-phase excitation winding 5 of the main generator, laid into the grooves of the internal axial magnetic circuit 3 with two active end surfaces on the side of the lateral axial magnetic circuit 18 with the multiphase winding 17 of the armature of the main generator, and connected through the first multiphase full-wave rectifier 13 to the multiphase winding 4 of the exciter armature.

The fixed axle 21 is fixed in the bearing assemblies 11 and 20, installed in the hollow shaft 22, and is rigidly connected to the housing 1 by one end located on the side of the housing 1, on which the lateral axial magnetic circuit 18 with the multiphase winding 17 of the main generator armature is fixed.

The voltage regulator contains an electronic unit 26 of a voltage regulator, the input of which is connected to the output of an output multiphase full-wave rectifier 25, and an electromechanical unit consisting of a radial magnetic circuit 10 of a voltage regulator inductor rigidly fixed on a fixed axis 21, in the grooves of which a single-phase winding 9 of the voltage regulator excitation is laid connected to the output of the electronic unit 26, the radial magnetic circuit 7 of the armature of the voltage regulator, in the grooves of which the polyphase winding 8 of the armature of the voltage regulator is laid, and the control single-phase winding 6 of the voltage regulator connected through the second polyphase full-wave rectifier 24 to the polyphase winding 8 of the armature of the voltage regulator and laid into the grooves of the internal axial magnetic circuit 3 with two active end surfaces on the side of the lateral axial magnetic circuit 18 with a multiphase winding 17 of the armature of the main generator. The radial magnetic circuit 7 of the armature of the voltage regulator is installed on the inner surface of the hollow shaft 22 in such a way that the magnetic flux created by the single-phase winding 9 of the excitation of the voltage regulator is directed along the radius of the radial magnetic circuit 7 of the armature of the voltage regulator with the multiphase winding 8 of the armature of the voltage regulator.

In the lower part of the housing, a heat converter 27 is installed, and an additional single-phase winding 28 of the voltage regulator excitation is placed in the grooves of the radial magnetic circuit 10 of the voltage regulator inductor, connected to the output of the heat converter 27.

The stabilized three-input axial-radial electric machine-generator works as follows.

Mechanical rotational energy enters the generator machine from an external source (for example, a wind wheel) through a hollow shaft 22, fixed in the housing 1 of the generator machine in bearing assemblies 12 and 19.

At the same time, the DC voltage obtained by converting the solar light energy from the output of the photoelectric converter (PEC) 16 is supplied to an additional single-phase excitation winding 15 of the exciter connected to the PEC 16 and laid in the grooves of the lateral axial magnetic circuit 2 of the exciter inductor with one active end surface. Under the action of this voltage, an electric current flows in the additional single-phase winding 15 of the exciter exciter, which creates a magnetic flux.

According to the principle of superposition of magnetic fields, the magnetic flux created by the current flowing in the additional single-phase excitation winding 15 of the exciter is added to the residual magnetic flux of the lateral axial magnetic circuit 2 of the exciter inductor.

When the hollow shaft 22 rotates, fixed in the housing 1 in the bearing assemblies 12 and 19, with a radial magnetic circuit 7 of the voltage regulator armature installed on its inner surface, in the grooves of which the multiphase winding 8 of the voltage regulator armature is laid, and rigidly connected to the hollow shaft 22 by means of a disk 23 with an internal axial magnetic circuit 3 with two active end surfaces, in the grooves of which are laid the multiphase winding 4 of the exciter armature, the control single-phase winding 6 of the voltage regulator, the single-phase winding 5 of the excitation of the main generator, this total magnetic flux crosses the turns of the multiphase winding 4 of the exciter armature and induces in it multiphase EMF. This EMF is rectified by the first multiphase full-wave rectifier 13 and fed to the single-phase excitation winding 5 of the main generator, laid in the grooves of the internal axial magnetic circuit 3 with two active end surfaces on the side of the lateral axial magnetic circuit 18 with one active end surface, in the grooves of which the multiphase armature winding 17 is laid main generator. In this case, an electric current flows in the single-phase winding 5 of the excitation of the main generator, which creates a magnetic flux.

At the same time, the DC voltage obtained by converting thermal energy from the output of the thermal converter (TP) 27 is supplied to an additional single-phase winding 28 of the excitation of the voltage regulator, connected to the output of the TP 27 and laid in the grooves of the radial magnetic circuit 10 of the inductor of the voltage regulator. Under the action of this voltage in the additional single-phase winding 28 of the excitation of the voltage regulator, an electric current flows, which creates a magnetic flux directed along the radius of the radial magnetic circuit 7 of the armature of the voltage regulator. This magnetic flux interacts with the multiphase winding 8 of the armature of the voltage regulator and induces a multiphase EMF in it, which is rectified by the second polyphase full-wave rectifier 24 and fed to the control winding 6 of the voltage regulator. In this case, an electric current flows in it, under the action of which a magnetic flux is created, directed in accordance with the magnetic flux created by the single-phase excitation winding 5 of the main generator. According to the principle of superposition of magnetic fields, the magnetic fluxes generated by electric currents of the single-phase excitation winding 5 of the main generator and the control single-phase winding 6 of the voltage regulator are summed up.

This total magnetic flux crosses the turns of the polyphase winding 17 of the armature of the main generator. As a result, in the multiphase winding 17 of the armature of the main generator, a multiphase EMF is induced, which is rectified by the output multiphase full-wave rectifier 25 and fed to the network and to the main single-phase winding 14 of the exciter excitation.

At the initial moment of time, the EMF of the armature of the main generator, and accordingly the voltage at the output of the main generator, which is the output voltage of the proposed machine-generator, creates a current in the main single-phase winding 14 of the excitation of the exciter, which enhances the residual magnetic flux of the inductor of the exciter. An increase in this magnetic flux leads to an increase in the total magnetic flux of the exciter inductor and, accordingly, to a further increase in the EMF induced in the multiphase winding 4 of the exciter armature, and, accordingly, to an increase in the current in the single-phase excitation winding 5 of the main generator, which leads to an increase in the EMF in the polyphase winding 17 of the armature of the main generator, i.e. voltage at the output of the generator machine. Thus, the generator machine is self-excited and starts to work steadily.

The growth of EMF with increasing excitation currents in the main 14 and additional single-phase excitation windings 15 of the exciter and 28 of the voltage regulator, respectively, slows down when the magnetic circuits of the exciter, voltage regulator and main generator are saturated.

As a result of the described processes, the mechanical energy of rotation (for example, the kinetic energy of the wind converted by the wind wheel into mechanical energy of rotation), the light energy of the Sun, converted by the photoelectric converter 16 into electrical energy of direct current, and the thermal energy converted by the thermal converter 27 into electrical energy of direct current current, and converting the total energy into DC electrical energy.

The stabilization of the output voltage U of the generator machine is carried out as follows. When the output voltage U of the generator machine deviates from the specified value (for example, when the rotational speed of the hollow shaft 22 changes or the load changes), the electronic unit 26 of the voltage regulator, the input of which is connected to the output voltage U of the generator machine, that is, to the output of the output multiphase full-wave rectifier 25, ensures the flow in the single-phase winding 9 of the excitation of the voltage regulator, laid in the grooves of the radial magnetic circuit 10 of the inductor of the voltage regulator, rigidly fixed on the fixed axis 21, rigidly fixed in the bearing assemblies 11 and 20, of an electric current corresponding in magnitude and direction to the deviation of the output voltage U machine generator from the set value. Under the action of the current flowing in the single-phase winding 9 of the excitation of the voltage regulator, an additional magnetic flux is created, directed along the radius of the radial magnetic circuit 7 of the armature of the voltage regulator.

This additional magnetic flux is directed according to (with a decrease in the output voltage compared to a given) or opposite (with an increase in the output voltage compared to a given) magnetic flux created by the current of the additional single-phase winding 28 of the excitation of the voltage regulator, respectively increasing or decreasing the total magnetic flux, crossing the turns of the multiphase winding 8 of the armature of the voltage regulator and inducing a multiphase EMF in it, and accordingly increasing or decreasing the value of the electric current flowing in the control single-phase winding 6 of the voltage regulator.

According to the principle of superposition of magnetic fields, the magnetic fluxes created by the single-phase winding 5 of the excitation of the main generator and the control single-phase winding 6 of the voltage regulator are summed up. Consequently, the EMF induced by this total magnetic flux in the multiphase winding 17 of the armature of the main generator increases or decreases (depending on the deviation of the output voltage from the specified value), and accordingly decreases (or increases) the output voltage U, tending to the specified value.

Claims (1)

A stabilized three-input axial-radial electric machine-generator containing a housing, a photoelectric converter installed in the upper part of the housing, a hollow shaft fixed in the housing in bearing assemblies, a stationary axis located coaxially with a hollow shaft that can rotate around a fixed axis, an internal axial a magnetic circuit with two active end surfaces, rigidly connected to the hollow shaft by means of a disk, an exciter, a main generator and a voltage regulator, while the exciter consists of a lateral axial magnetic circuit of the exciter inductor rigidly fixed in the case, in the grooves of which the main single-phase winding is laid on the side of the internal axial magnetic circuit exciter excitation, connected to the output of the output polyphase full-wave rectifier, and an additional single-phase exciter excitation winding connected to the output of the photoelectric converter, and a polyphase armature winding in of the exciter, laid in the grooves of the internal axial magnetic circuit with two active end surfaces on the side of the lateral axial magnetic circuit of the exciter inductor, the main generator consists of the armature of the main generator rigidly fixed in the body of the lateral axial magnetic circuit with one active end surface, in the slots of which the multiphase winding of the armature of the main generator is laid connected to the output multi-phase full-wave rectifier, and a single-phase excitation winding of the main generator, laid in the grooves of the internal axial magnetic circuit with two active end surfaces on the side of the lateral axial magnetic circuit with a multiphase winding of the armature of the main generator, and connected through the first polyphase winding of the full-wave exciter to the armature , while the stationary axis is fixed in bearing assemblies installed in the hollow shaft, and is rigidly connected to the housing with one end located on the side case, on which a lateral axial magnetic circuit with a multiphase winding of the armature of the main generator is fixed, and the voltage regulator contains an electronic unit, the input of which is connected to the output of the output multiphase full-wave rectifier, and an electromechanical unit consisting of a radial magnetic circuit of the voltage regulator inductor rigidly fixed on a fixed axis, in the grooves of which the single-phase excitation winding of the voltage regulator is laid, connected to the output of the electronic unit, the radial magnetic circuit of the armature of the voltage regulator, in the grooves of which the multiphase winding of the armature of the voltage regulator is laid, and the control single-phase winding of the voltage regulator connected through the second multiphase two-half-wave rectifier to the multiphase winding of the armature voltage and laid in the grooves of the internal axial magnetic circuit with two active end surfaces on the side of the lateral axial magnetic circuit with a multiphase armature winding main th generator, while the radial magnetic circuit of the armature of the voltage regulator is installed on the inner surface of the hollow shaft in such a way that the magnetic flux created by the single-phase excitation winding of the voltage regulator is directed along the radius of the radial magnetic circuit of the armature of the voltage regulator with a multiphase winding of the armature of the voltage regulator, characterized in that in the lower part a thermal converter is installed in the housing, and an additional single-phase excitation winding of the voltage regulator is additionally placed in the grooves of the radial magnetic circuit of the voltage regulator inductor, connected to the output of the thermal converter.

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