RU2747884C1 - Electric machine with modular stator teeth and superconducting windings - Google Patents

Abstract

FIELD: electromechanics.

SUBSTANCE: invention relates to the field of electromechanics and can be used in electrical machines with windings of superconducting material. The declared electrical machine contains a stator with a winding located on it and a rotor with permanent magnets. The rotor is external. The stator winding is made of superconducting material, and the stator teeth are made in the form of separate modules with the possibility of attachment to the stator back made of electrical steel. In this case, the stator teeth are made of amorphous iron.

EFFECT: invention is aimed at increasing energy characteristics and improving the performance of an electric machine with stator teeth in form of separate modules and windings made of superconducting material by reducing the mass of the stator magnetic circuit, as well as significantly reducing heat losses in the stator teeth.

1 cl, 2 dwg

Description

The invention relates to the field of electrical engineering and can be used in electrical machines with windings of superconducting material.

Known synchronous high-temperature superconducting electric motor with permanent magnets [RF patent No. 132642 U1, IPC H02K 55/02, published 09.20.2013], containing a stator with a laminated core, placed in its slots multiphase multi-pole winding, a cylindrical rotor consisting of an array of alternating blocks of permanent magnets with tangential magnetization and sectors made of soft magnetic material mounted on the machine shaft on a bushing made of non-magnetic material, characterized in that in the middle of the sectors made of soft magnetic material between permanent magnets radially on the non-magnetic bushing of the rotor inserts are installed in the form of thin diamagnetic plates made of high temperature superconducting material.

The disadvantage of the closest analogue is the low value of the specific power, since the windings of this electric machine are not made of high-temperature superconducting material, and the value of the current density will be limited by the dimensions of the groove and the cooling system.

Known superconducting inductor electric machine with combined excitation [RF patent No. 2696090 C2, IPC H02K 55/02, H02K 1/22, published on July 31, 2019], containing a stator with a laminated core, stationary ring excitation windings, multiphase multi-pole armature winding, a ferromagnetic shaft on which a ferromagnetic steel rotor core with rotor projections (teeth) is installed. Unidirectional radially magnetized permanent magnets are located between ferromagnetic rotor lobes. Magnetic shunts (spoilers) are installed on both end sides of the rotor ferromagnetic core. Non-magnetic grooves are made on the ferromagnetic rotor protrusions.

The disadvantages of the analogue lie in the high weight and dimensions, as well as the complex design of the rotor magnetic system, due to the presence of several alternating ferromagnetic poles (rotor protrusions), along with the poles of permanent magnets, as well as magnetic shunts (spoilers).

Known superconducting electric motor and generator [RF patent No. 2692760 C2, IPC H02K 1/14, H02K 1/17, H02K 9/19, H02K 55/00, H02K 23/02, H02K 11/00, published 06/27/2019] containing a rotating armature, a permanent magnet stator and a protective sleeve. The protective sleeve of the engine is a hollow cylinder that is placed between the armature and the stator and is configured to cool a plurality of high-temperature superconductors inside it to temperatures below their critical temperatures. A plurality of superconducting plates are located between the inner wall and the outer wall of the protective sleeve and are oriented around the armature. The unconventional topology of the superconducting machine increases the magnetic induction in the air gap by reducing the leakage flux and the concentration of the flux lines in the air gap.

The disadvantages of the analogue are high weight and dimensions due to the presence of a hollow protective sleeve located between the armature and the stator.

Known superconducting electric machine with a composite laminated rotor [RF patent No. 134370 U1, IPC H02K 55/00, H02K 1/27, published 10.11.2013], containing a stator with a laminated core with a multiphase multi-pole winding, a cylindrical rotor consisting of alternating layers of ferromagnetic elements and non-magnetic gaps. The layer of ferromagnetic elements of the rotor is made in the form of a composite of permanent magnet plates based on rare earth materials and plates of soft magnetic materials. The non-magnetic gaps of the rotor are filled with diamagnetic high-temperature superconducting material.

The disadvantages of the analogue are high weight and dimensions due to the long overhang of the stator winding frontal parts.

Known high-temperature superconducting electromagnetic induction motor with a radial gap [RF patent No. 2631673 C1, IPC H02K 55/02, H02K 55/04, H02K 23/54, published 09/26/2017], containing a stator located with an air gap in the radial direction stator so as to oppose each other, a plurality of excitation elements in the form of excitation windings located on transformer bolts, where the primary copper winding (excitation winding) is wound on top from the outside on a material with high magnetic permeability (permendur); from the inner bottom side, which are twisted into the stator, are high-temperature superconducting coils. A plurality of high-temperature superconducting plates located on the rotor around the axis of rotation and fixed at the end of the rotor in the radial direction towards the stator. All superconducting secondary windings and superconducting plates are formed from a high temperature superconducting material.

The disadvantages of the analogue lie in the low resource of work, a low range of adjustments in terms of rotation frequency due to the design of the induction-type design in comparison with an electric valve-type machine.

The closest to the proposed one is an electric machine with permanent magnets and windings of superconducting material [RF patent No. 2648677 C1, IPC H02K 1/14, H02K 1/27, H02K 55/02, published 03/28/2018], containing a stator located there is a winding on it, a rotor with permanent magnets, characterized in that the stator winding is made of superconducting material in the form of racetrack coils and is located on the teeth installed on an external protective screen, diamagnetic inserts are installed between the stator winding coils, a thin-walled shell is located on the outer surface of the rotor.

The disadvantages of the analogue lie in high weight and dimensions due to the complex design of the stator with racetrack coils, between which diamagnetic inserts are installed.

The objective of the invention is to reduce the mass of the stator magnetic circuit due to the fact that the stator teeth are made of amorphous iron.

The technical result is to increase the energy characteristics and improve the performance of an electric machine with stator teeth in the form of separate modules and windings made of superconducting material by reducing the mass of the stator magnetic circuit, as well as significantly reducing heat losses in the stator teeth.

The problem is solved and the technical result is achieved by the fact that in an electric machine containing a stator with a winding located on it, and a rotor with permanent magnets, according to the invention, the rotor is external, the stator winding is made of superconducting material, the stator teeth are made in the form of separate modules with the possibility of attachment to the stator back, made of electrical steel, while the stator teeth are made of amorphous iron.

The essence of the invention is illustrated by drawings.

FIG. 1 shows a cross-section of an electric machine with stator teeth in the form of separate modules and windings of superconducting material;

in fig. 2 - stator sheet with teeth in the form of separate modules.

An electric machine with stator teeth in the form of separate modules and windings of superconducting material (Fig. 1, Fig. 2) contains a stator 1 with a superconducting winding 2, including a backrest 3 made of electrical steel and teeth in the form of separate modules 4, made of amorphous steel, permanent magnets 5, located on the outer rotor 6.

Compared to traditional electrical steel, for example, grade 2421, in amorphous alloys, for example, grade AMET-9KSP, there is no periodicity in the arrangement of atoms, they have a liquid microstructure, which allows metals to have much higher strength, wear resistance, elastic properties, corrosion resistance, lighter weight, unique magnetic and acoustic properties, significantly lower specific magnetic losses. A feature of soft magnetic amorphous alloys is a large (about 20%) content of non-magnetic elements, such as boron, silicon, carbon, phosphorus, necessary to preserve the amorphous structure. The presence of these elements reduces the maximum saturation induction in amorphous alloys and increases the temperature coefficient of magnetic properties. The same elements increase the electrical resistance, increase the hardness and strength of amorphous alloys, as well as their corrosion resistance. Therefore, due to the execution of the stator teeth of amorphous steel with the minimum permissible thickness, provided the mechanical strength of the groove is observed, the passage of magnetic flux is ensured and losses are minimized in the event of oversaturation of the teeth in comparison with electrical steel.

The proposed electric machine with stator teeth in the form of separate modules and windings of superconducting material (Fig. 1, Fig. 2) works as follows: when voltage is applied to the stator 1 winding 2, a current begins to flow through it, which creates a rotating magnetic flux. Permanent magnets 5, mounted on the outer rotor 6, generate a constant magnetic field. The magnetic field of the rotor, when interacting with the alternating current of the windings 2 of the stator 1, creates a torque that drives the rotor 6 into rotation.

The teeth 4 of the stator 1 (Fig. 1, Fig. 2) are made of small width with a minimum allowable thickness, as a result of which, in the saturation state, the magnetic induction in the teeth reaches high values and, thanks to the use of teeth from amorphous steel, ohmic losses are reduced in comparison with electrical steel.

The teeth 4 of the stator 1 (Fig. 1, Fig. 2), made of amorphous steel with the minimum permissible thickness, providing the mechanical strength of the groove, are separately attached to the back 3 of the stator 1, made of electrical steel.

So, the inventive design of an electric machine with stator teeth in the form of separate modules and windings made of superconducting material makes it possible to increase energy characteristics and improve performance by reducing the mass of the stator magnetic circuit, as well as significantly reducing heat losses in the stator teeth.

In addition, the inventive design of an electric machine with stator teeth in the form of separate modules and windings of superconducting material improves performance due to the internal structure of the stator, which provides enough space for the cooling system without increasing the overall dimensions. In addition, the external rotor electric machine has high continuous performance and smooth operation, resulting in very low noise. Since almost the entire electrical machine is located inside the impeller and, as a rule, is intensively blown by the air flow, this allows the electrical machine to be overloaded sometimes up to 30% at the rated frequency and voltage.

Claims (1)

An electrical machine containing a stator with a winding located on it and a rotor with permanent magnets, characterized in that the rotor is external, the stator winding is made of superconducting material, the stator teeth are made in the form of separate modules with the possibility of attachment to the stator back made of electrical steel, the stator teeth are made of amorphous iron.

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