RU2450411C1 - Axial two-input contactless dynamo - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: axial two-input contactless dynamo includes body, permanent multipolar magnet of induction coil subexciter, lateral axial magnetic conductor with polyphase armature winding of subexciter, single-phase winding of subexcitor and auxiliary excitation winding of exciter which is connected to DC power supply source through contacts, inner axial magnetic conductor with polyphase armature winding of exciter and single-phase excitation winding of main generator, lateral axial magnetic conductor with polyphase armature winding of main generator, shaft fixed in bearing assemblies and rigidly bound with permanent multipolar magnet of induction coil subexciter and inner axial magnetic conductor by means of respective discs. Single-phase excitation winding of exciter is connected to polyphase armature winding of subexciter through polyphase double-wave rectifier. Single-phase excitation winding of main generator is connected to polyphase armature winding of exciter through polyphase double-wave rectifier.

EFFECT: possibility of adding and conversion of mechanical power and DC electrical power into AC polyphase electrical power, simplification of magnet system manufacturing technology, quality improvement of generated voltage.

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Description

The invention relates to electrical engineering, in particular to electromechanical energy converters, and can be used, for example, as a converter of mechanical rotation energy supplied to the mechanical input of a machine, and direct current electrical energy supplied to its electrical input to the total electrical energy of an alternating current.

A two-dimensional axial electric generator machine is known, comprising an armature with a winding and a brush-collector apparatus of a direct current machine and a rotor with a short-circuited winding of the type of squirrel cage, which can rotate freely relative to each other, and the rotor and anchor are made axial, and in the grooves of the anchor an alternating current generator winding has been laid, the output of which is connected to an alternating current network with the help of three contact rings and three brushes (RF patent No. 2349014).

However, due to the presence of a brush-collector assembly in such a machine, it has a number of disadvantages inherent in contact electric machines: sparking brushes, turning into circular fire due to uneven wear, vibration of brushes, jamming, etc. More than 40% of failures of rotating contact machines accounted for by brush-collector unit.

The closest to the claimed invention in technical essence and the achieved technical result and adopted by the authors for the prototype is a non-contact synchronous generator with rotating rectifiers (see Kashin Y.M., Kirillov G.A., Raklo A.V. Aviation equipment of aircraft. 1, Ministry of Defense of the Russian Federation, Kraen Higher Military Aviation School for Pilots: - Krasnodar: KVVAUL, 2006, p. 33-35), comprising a housing in which three electric cylindrical machines are mounted on one shaft constructs: exciter, pathogen and main ge erator, wherein podvozbuditel being magnetoelectric synchronous machine rotating with the inductor and stationary armature winding is composed of a multipolar permanent magnet inductor podvozbuditelya with radially directed magnetic field and the fixed magnetic armature winding podvozbuditelya; the pathogen, which is a three-phase synchronous machine with a fixed field winding and a rotating armature winding, consists of a magnetic circuit with a field winding of the pathogen and a magnetic circuit with a coil of the armature of the pathogen; The main generator, which is a three-phase synchronous machine with a rotating field winding and a fixed armature winding, consists of a magnetic circuit with a field winding of the main generator and a magnetic circuit with armature winding of the main generator.

However, the manufacturing technology of such a synchronous generator is complicated due to the need to stamp sheets of the stator and rotor magnetic circuits, the need to perform winding work inside the cylindrical stator. In addition, the design of the magnetic circuits of such a generator does not allow the winding of the armature to be symmetrical and multiphase, which is advisable to use the output voltage of the generator to produce high-quality direct current electric energy - with a low ripple coefficient of the rectified voltage. The cost of the well-known generator of a cylindrical structure is high due to the high consumption of electrical steel associated with a high percentage of its waste during stamping. In addition, the design of such a generator does not allow summing the mechanical energy of rotation with electrical energy of direct current.

The technical result of the claimed invention is the summation and conversion of mechanical energy (for example, wind energy) and direct current electric energy (for example, solar energy converted by photovoltaic converters into direct current electric energy) into multiphase alternating current electric energy, simplifying the manufacturing technology of the magnetic system, improving quality of the generated voltage.

The technical result is achieved by the fact that in the proposed axial two-input non-contact electric generator machine containing the housing; exciter, consisting of a permanent multipolar magnet of the exciter exciter and a magnetic circuit with a winding of the exciter exciter; the pathogen, consisting of a magnetic circuit with a field winding of the pathogen and a magnetic circuit with a coil of the armature of the pathogen; and the main generator, consisting of a magnetic circuit with an excitation winding of the main generator and a magnetic circuit with a winding of the armature of the main generator, mounted on one shaft, a multi-pole magnet of the exciter exciter and magnetic cores, in the slots of which are placed the windings of the exciter, exciter and the main generator, are axial, while the side axial magnetic circuits are rigidly mounted in the housing, and the permanent multipolar magnet of the exciter inductor and the internal axial magnetic circuit are rigidly mounted mounted on the shaft with the possibility of rotation relative to the lateral axial magnetic cores, while the permanent multipolar magnet of the exciter inductor is installed from the end of one side axial magnetic circuit, and the internal axial magnetic circuit is installed between the lateral axial magnetic circuits. The internal axial magnetic circuit and the lateral axial magnetic circuit, from the end of which a permanent multipolar magnet of the exciter exciter is installed, are made with two active end surfaces with grooves, and the other side axial magnetic circuit is made with one active end surface with grooves. In the grooves of the lateral axial magnetic circuit with two active end surfaces from the side of the permanent multi-pole magnet of the exciter, a multiphase winding of the exciter armature is laid, and on the opposite side, a single-phase excitation winding of the exciter is placed, which is connected to the winding of the armature of the exciter through a multiphase exciter exciter and a double exciter exciter connects to a direct current source. In the grooves of the internal axial magnetic circuit from the side of the exciter winding and the additional excitation winding of the pathogen, a multiphase winding of the exciter armature is laid, and on the opposite side, a single-phase excitation winding of the main generator is placed, which is connected to the exciter winding of the exciter through a multiphase half-wave rectifier. A multiphase winding of the armature of the main generator is laid in the grooves of the lateral axial magnetic circuit with one active end surface, which, if necessary, can be connected to a multiphase rectifier.

The present invention, performing the function of a synchronous generator, as well as a prototype, at the same time, in contrast to it, allows to simplify the manufacturing technology of the magnetic circuits of the proposed machine generator by replacing the “stamping” operation used to manufacture the magnetic circuits of a cylindrical structure with a “winding” steel tapes with grooves (see RF patent No. 2316877, Gaitova TB, Gaitov B.Kh., Tarshkhoev RZ) and significantly reduce the consumption of electrical steel. So, with a power of 5 kW, the consumption of electrical steel for the manufacture of magnetic cores is reduced to 30-40%. The implementation of the open tooth zone allows you to simplify the technology for performing winding work, which also simplifies the manufacturing technology of the generator as a whole. In addition, the present invention allows to summarize mechanical energy (for example, wind energy) and direct current electric energy (for example, solar energy converted by photovoltaic converters into direct current electric energy) and convert the total energy into multiphase alternating current electrical energy (and, if necessary, direct current). The axial design of the machine will provide a large moment of inertia of the rotor, which will smooth out the jumps in the supply of mechanical energy (for example, with gusts of wind), that is, the axial rotor is an inertial storage of mechanical energy.

The implementation of the axial magnetic circuits of the generator machine allows you to obtain a symmetric multiphase voltage, which, in turn, when using the generator machine to obtain a constant voltage, can improve its quality by reducing the ripple coefficient provided by the windings of the arm exciter, pathogen and main generator multiphase.

Figure 1 presents a General view of the proposed axial two-input contactless electric machine-generator in the context of figure 2 - electrical diagram of the proposed axial two-input contactless electric machine-generator.

The axial two-input non-contact electric generator machine contains a housing 1, a permanent multi-pole magnet 2 of the exciter exciter, a lateral axial magnetic circuit 3 with a multiphase winding 4 of the exciter armature, a single-phase exciter winding 5 and an additional exciter winding 6, which is connected to the direct current source through contacts 19 (figure 2), the internal axial magnetic circuit 7 with a multiphase winding 8 of the armature of the pathogen and a single-phase winding 9 of the main generator RA, lateral axial magnetic circuit 10 with a multiphase (in FIG. 2 — nine-phase) winding 11 of the armature of the main generator, a shaft 12 fixed to the bearing assemblies 13 and 14 and rigidly connected to the permanent multipolar magnet 2 of the excitator inductor by means of the disk 15 and with an internal axial magnetic circuit 7 via disc 16.

The single-phase excitation winding 5 of the pathogen is connected to the multiphase winding 4 of the exciter armature through a multiphase half-wave (in FIG. 2, nine-phase) rectifier 17. The single-phase excitation winding 9 of the main generator is connected to the multiphase winding 8 of the armature of the exciter through a multiphase (in FIG. 2, nine-phase two-phase) rectifier 18.

The multiphase winding 11 of the armature of the main generator can be connected to a multiphase half-wave rectifier.

Axial two-input non-contact electric generator machine operates as follows. When rotating the permanent multipolar magnet 2 of the exciter exciter and the internal axial magnetic circuit 7 with the multiphase winding 8 of the exciter armature and the single-phase winding 9 of the excitation of the main generator, the magnetic flux of the multi-pole permanent magnet 2 of the exciter exciter interacts with the multiphase winding 4 of the exciter armature laid in the side axial magnet 3 of the axial path 3 rigidly mounted in the generator housing, and induces a multiphase EMF system in it, which is rectified by multiphase two a half-period rectifier 17 and is fed to a single-phase excitation winding 5 of the pathogen laid in the grooves of the lateral axial magnetic circuit 3. In this case, a magnetic flux is generated in the single-phase excitation winding 5 of the pathogen.

When a direct current is supplied (for example, from photoelectric converters), current flows through the contacts 19 through the additional exciter winding 6, and a magnetic flux is created, which is directed in accordance with the magnetic flux generated by the single-phase exciter winding 5. According to the principle of superposition of magnetic fields, the magnetic flux generated by the winding 5 and the additional excitation winding 6 of the pathogen are summed. The total magnetic flux interacts with the multiphase winding 8 of the exciter armature, laid in the grooves of the internal axial magnetic circuit 7, and induces a multiphase EMF system in it, which is rectified by the multiphase half-wave rectifier 18 and fed to the single-phase excitation winding 9 of the main generator, laid in the grooves of the internal axial magnetic circuit 7 The magnetic flux of a single-phase field winding 9 of the main generator interacts with the multi-phase coil 11 of the armature of the main generator, laid in grooves axial magnetic circuit 10, and induces a multiphase EMF system in it, which is supplied to the network.

As a result of the described processes, the mechanical energy of rotation and the electrical energy of direct current at the input are summed up, and the total electrical energy of alternating current is converted and output at the output.

A significant advantage of the proposed axial non-contact electric generator machine is also a significant reduction in its cost compared to the prototype due to the simplification of the manufacturing technology of magnetic cores, simplification of the technology for performing winding work and reducing the consumption of electrical steel for the manufacture of magnetic cores.

Claims (1)

An axial two-input non-contact electric generator machine containing a housing, exciter, exciter, and main generator mounted on one shaft, wherein the exciter consists of a permanent multi-pole magnet of the exciter exciter and a magnetic circuit with an exciter armature winding, the exciter consists of a magnetic circuit with an excitation winding a magnetic circuit with a winding of the exciter armature, the main generator consists of a magnetic circuit with an excitation winding of the main generator and a magneto the wires with the armature winding of the main generator, characterized in that the permanent multipolar magnet of the exciter exciter and the magnetic circuits, in the grooves of which are placed the windings of the exciter, exciter and main generator, are made axial, while the lateral axial magnetic circuits are rigidly installed in the housing, and the permanent multipolar magnet of the exciter exciter and the internal axial magnetic circuit are rigidly mounted on the shaft with the possibility of rotation relative to the lateral axial magnetic circuits, while standing A multi-pole magnet of the exciter inductor is mounted at the end of one side axial magnetic circuit, and an internal axial magnetic circuit is installed between the lateral axial magnetic circuits, an internal axial magnetic circuit and a lateral axial magnetic circuit, with a permanent multi-pole magnet of the exciter exciter installed at its end, are made with two active end surfaces with grooves and the other lateral axial magnetic circuit is made with one active end surface with grooves, with In the grooves of the lateral axial magnetic circuit with two active end surfaces, a multiphase winding of the exciter armature is laid on the side of the permanent multi-pole magnet of the exciter, and on the opposite side, a single-phase excitation winding of the exciter is connected, which is connected to the winding of the exciter armature through a multiphase excitation winding and a multiphase excitation connected to a direct current source, into the grooves of the internal axial magnetic circuit from the side of the exciter coils and the additional exciter coils are laid with a multiphase winding of the exciter arm, and on the opposite side, the single-phase excitation winding of the main oscillator is connected, which is connected to the exciter arm winding through a multiphase half-wave rectifier, while in the grooves of the lateral axial magnetic circuit with one active end face winding the anchor of the main generator.

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