RU2557069C1 - Electrical machine - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: electrical machine comprises the stator bearing housing, imbricated stator core with slots on its outer cylindrical surface with winding coils placed into the above grooves. Stator is arranged inside the rotor cylindrical cavity. The rotor comprises an inductor coil. The rotor body is implemented as two discs from non-magnetic material detachably attached to each other and faced to each other with their cavities. The parallelepiped-shaped permanent magnets of the inductor coil and non-magnetic trapezoidal wedges are implemented as bars aligned with a longitudinal axis of the rotor and installed with formation of a composite ring with alternation of pole polarity. The electrical machine is fitted with the radial and thrust magnetic bearing assemblies located on ledges of the bearing housing of the stator and L-shaped cylinders, coaxial with them, implemented on plates of the rotor housing. On cylindrical ledges of the bearing housing of the stator the stator parts of composite permanent magnets forming the Halbach magnetic circuit are rigidly fixed. On the surfaces of L-shaped cylinders facing towards them the rotor parts of composite permanent magnets forming the Halbach magnetic circuit are fixed. Composite permanent magnets form radial bearings.

EFFECT: reduction of mass-dimensional characteristics, improvement of reliability of operation, increase of electrical machine service life.

2 cl, 2 dwg

Description

The invention relates to the field of electrical engineering, in particular to electrical engineering.

A high-speed electric machine is known, comprising a housing configured to supply cooling gas into its cavity, equipped with end shields and means for supplying cooling gas to the nodes located in the housing cavity, a stator core equipped with a winding, in the cylindrical cavity of which a rotor containing an inductor is placed with a gap and a bearing assembly (see Balagurov V.A., Galteev F.F. Electric generators with permanent magnets. - M.: Energoatomizdat, 1988. - 280 p.).

The disadvantage of this device is the impossibility of significantly reducing the weight and size characteristics of the device by increasing the peripheral speed of the inductor, since the load characteristics of the bearing assemblies do not allow high rotor speeds with an increase in its radial size.

Closest to the proposed technical solution, the device is an electric machine containing a stator core lined with grooves, in which winding coils are placed, and a rotor including a housing and an inductor containing a bearing assembly (see RF patent No. 2385523, IPC Н02К 5/16, 2010 g.).

The disadvantage of the prototype is the inability to significantly reduce the overall dimensions of the device by increasing the peripheral speed of the inductor due to its insufficient strength, as well as the load characteristics of the bearing assemblies do not allow high rotor speeds when increasing its radial size.

The task to which the proposed technical solution is directed is to reduce the overall dimensions of the device, increase its reliability at high peripheral speeds of the inductor and increase the life of the electric machine.

The technical result that is achieved in solving the problem is expressed in the reduction of the overall dimensions of the device due to an increase in the peripheral speed of the inductor, a significant reduction in friction in the bearings, in simplification of the design, in the use of the outer surface of the rotor as the hub of an electric vehicle, wind generator or hydro-generator and the possibility of reversed valve motor and reversed generator mode.

The problem is solved in that the electric machine containing the laminated stator core, provided with grooves in which the winding coils are located, and a rotor including a housing and an inductor containing a bearing assembly, is characterized in that the outer surface of the stator is cylindrical in shape, while it is placed in a cylindrical cavity of the rotor mounted coaxially with the longitudinal axis of the stator, with the possibility of rotation around it, while the grooves of the stator, in which the winding coils are laid, are placed on the outside of the stator and open to the surface of the cylindrical cavity of the rotor facing them, and the winding coils are fixed in the stator slots by wedges, in addition, the stator core is made with a hole coaxial with its longitudinal axis, with which it is worn on a support housing made, preferably, of non-magnetic material, with an external the surface of which the stator core is rigidly fastened, while the supporting body is made in the form of a cylindrical cup, the middle part of the side walls of which is provided with a cylindrical protrusion, the rotor body being made in two preferably symmetric plates facing each other with their cavities made of non-magnetic material bonded to a cylindrical shell, and the total depth of the cavities in the section closer to the longitudinal axis of the stator is greater than in the peripheral section of the rotor housing, in addition , the inductor is located on the peripheral section of the rotor housing and contains parallelepiped-shaped trims oriented along the longitudinal axis of the rotor, made of radially magnetized permanent magnets, alternating with trapezoidal strips made of non-magnetic material, in addition, the outer surface of the magnetic and non-magnetic strips is abutted against the inner surface of the cylindrical shell made of material with high magnetic permeability, while the edges of the plates of the rotor casing facing the stator support casing are equipped with L-shaped cylinders, the initial surface sections of which are parallel to the cylindrical walls of the supporting body, and the final parallel to the ends of the supporting body, in addition , the bearing assembly of the electric machine contains magnetic radial and thrust bearings, while on the cylindrical surface of the protrusion of the stator support housing, composite permanent magnets of the same height are rigidly fixed, each of which contains at least three ring permanent magnets magnetized with the possibility of forming a Halbach magnetic circuit, except In addition, composite permanent magnets of the same height are fixed to the surfaces of the L-shaped cylinders facing them, each of which contains at least three of permanent magnet magnets magnetized with the possibility of forming a Halbach magnetic circuit, the number, size, location and direction of magnetization of which are similar to the number, size, location and direction of magnetization of permanent magnets mounted on the stator support housing, in addition, on the opposite ends of the protrusion of the support housing are fixed permanent magnets, each of which contains at least three annular coaxial permanent magnets magnetized with the possibility of the formation of a magnet of the Halbach circuit, while on the surfaces of the L-shaped cylinders facing them are fixed permanent magnets, each of which contains at least three annular coaxial permanent magnets magnetized with the possibility of forming a Halbach magnetic circuit, the number, size, location and direction of magnetization which are similar to the number, size, location and direction of magnetization of the permanent magnets mounted on the ends of the protrusion of the stator support housing.

In addition, at least one of the plates forming the rotor housing is detachably fastened to a cylindrical shell.

A comparative analysis of the essential features of the proposed technical solution and the essential features of the prototype and analogues indicates its compliance with the criterion of "novelty."

In this case, the essential features of the characterizing part of the claims solve the following functional tasks.

A sign indicating that "... the outer surface of the stator is cylindrical in shape, while it is placed in the cylindrical cavity of the rotor mounted coaxially with the longitudinal axis of the stator, with the possibility of rotation around it ...", allows you to create a machine with an internal stator and an external rotor.

The signs "... the stator grooves in which the winding coils are laid are placed on the outside of the stator and open to the surface of the cylindrical cavity of the rotor facing them, and the winding coils are fixed with wedges in the stator grooves ..." to simplify the manufacturing technology of the stator winding.

A sign indicating that the stator core "is made with a hole coaxial with its longitudinal axis, with which it is worn on the support housing, with the outer surface of which the stator core is rigidly fastened", allows the stator to be oriented in the machine and to ensure the transfer of tangential and axial forces from the stator core external device.

A sign indicating that the bearing housing is made “preferably of non-magnetic material” allows magnetic bearings to be placed on the bearing housing without shunting the magnetic field of the bearings and thereby reducing their bearing capacity.

A sign indicating that the supporting housing "is made in the form of a cylindrical cup, the middle part of the side walls of which is equipped with a cylindrical protrusion", allows you to organize sites for installing the stator parts of the magnets of the radial and thrust magnetic bearings.

Signs indicating that the rotor casing "is made in the form of two, preferably, symmetrical plates facing each other with their cavities, made of non-magnetic material ... and the total depth of the cavities in the area closer to the longitudinal axis of the stator is greater than peripheral section of the rotor housing ”, provide the possibility of arranging the stator and inductor inside the rotor housing and simplify the assembly of the latter.

A sign indicating that the “rotor housing is attached to the cylindrical shell” allows the use of a material with high magnetic permeability for the shell.

A sign indicating that “the inductor is located on the peripheral portion of the rotor housing” allows the outer surface of the rotor to be used as the hub of an electric generator, hydro generator or wind generator.

A sign indicating that the inductor "contains planks in the form of a parallelepiped, oriented along the longitudinal axis of the rotor, made of radially magnetized permanent magnets, alternating with trapezoidal planks made of non-magnetic material", allows you to make the inductor in the form of a composite ring.

Signs indicating that “the outer surface of the magnetic and non-magnetic strips are abutted against the inner surface of the cylindrical shell made of a material with high magnetic permeability”, prevent the deformation of the inductor under the action of centrifugal forces and use the shell as the yoke of the inductor.

A sign indicating that “the edges of the plates of the rotor casing facing the stator support casing are provided with L-shaped cylinders, the initial surface sections of which are parallel to the cylindrical walls of the supporting casing, and the final ones are parallel to the ends of the supporting casing”, allows organizing platforms for installing the rotor parts of the radial magnets and persistent magnetic bearings.

A sign indicating that “the bearing assembly of the electric machine contains magnetic radial and thrust bearings” allows the possibility of free rotation of the rotor relative to the stator with a significant reduction in friction in the bearings.

Signs indicating that “on the cylindrical surface of the protrusion of the stator support housing, compound permanent magnets of the same height are rigidly fixed, each of which contains at least three ring permanent magnets magnetized with the possibility of forming a Halbach magnetic circuit, in addition, on the surfaces facing them L-shaped cylinders are fixed with composite permanent magnets of the same height, each of which contains at least three annular permanent magnets magnetized with the possibility of I Halbach magnetic circuits, the number, size, location and direction of the magnetization of which are similar to the number, size, position and direction of the magnetization of the permanent magnets mounted on the supporting body of the stator ", allow for the creation of effective radial magnetic bearings, electric machines.

Signs indicating that “at the opposite ends of the protrusion of the supporting body are mounted composite permanent magnets, each of which contains at least three annular coaxial permanent magnets magnetized with the possibility of forming a Halbach magnetic circuit, while on the surfaces of the L-shaped cylinders facing them composite permanent magnets are fixed, each of which contains at least three annular coaxial permanent magnets magnetized with the possibility of forming a Halbach magnetic circuit, to, size, location and direction of magnetization which are similar to the number, size, location and direction of magnetization of permanent magnets attached to the ends of the support protrusion stator housing ", allow for the establishment of effective thrust magnetic bearing electrical machine.

A sign indicating that “at least one of the plates forming the rotor body is detachably fastened to a cylindrical shell”, allows for the possibility of multiple assembly and disassembly of the machine.

In FIG. 1 shows a longitudinal section of the machine along the axis of rotation, and in FIG. 2 is a transverse section.

The drawings show the stator support housing 1, stator core 2, grooves 3, coils 4 of the stator winding, grooves 5, protrusion 6, permanent magnets 7, non-magnetic wedges 8, plates 9, 10, shell 11, L-shaped cylinders 12, 13 Compound permanent magnets 14, 15, 16, 17, 18, 19, 20, 21, cylinder 22, pressure sheets 23, 24, split ring 25, plug 26.

The electric machine includes a stator support housing 1, a lined stator core 2 of electrical steel, on the outer cylindrical surface of which grooves 3 are made, in which coils 4 of the stator winding are laid and fixed with slot wedges 5. The stator core 2 is located on its support cylindrical surface on the support housing 1 and tightly connected with him. The stator support housing 1 is made in the form of a cylindrical cup, the middle part of the side walls of which is provided with a cylindrical protrusion 6. The stator is placed inside the cylindrical cavity of the rotor mounted coaxially with the longitudinal axis of the stator, with the possibility of rotation around it. The rotor comprises an inductor made of permanent magnets 7 and non-magnetic wedges 8. The rotor casing is made in the form of two plates 9, 10 of non-magnetic material detachably fastened to each other by their edges through a cylindrical shell 11 and facing each other with their cavities, and the total depth there are more cavities in the section closer to the longitudinal axis of the stator than in the peripheral section of the rotor housing. The inductor is placed on the peripheral section of the rotor casing and its parallelepiped-shaped permanent magnets 7 and trapezoidal non-magnetic wedges 8 are made in the form of strips oriented along the longitudinal axis of the rotor and are mounted with the formation of a composite ring with alternating polarity of the poles of the permanent magnets 7 made of neodymium material - iron-boron and magnetized radially. The outer surface of the composite magnetic ring is abutted against the inner surface of the cylindrical shell 11 made of a material with high magnetic permeability, for example, 48KNF alloy. The electric machine is equipped with radial and thrust magnetic bearing assemblies located on the protrusions 6 of the stator support housing 1 and the L-shaped cylinders 12, 13 aligned with them, made on the plates 9, 10 of the rotor housing, the initial sections whose surfaces are parallel to the cylindrical walls of the support housing 1, and the final parallel to the ends of the supporting housing 1 of the stator. In this case, on the cylindrical protrusions 6 of the stator support housing 1, the stator parts of the composite permanent magnets 14, 15 of the same diameter and height are rigidly fixed, each of which contains at least three ring permanent magnets magnetized with the possibility of the formation of a Halbach magnetic circuit. On the surfaces of the L-shaped cylinders 12, 13 facing them, the rotor parts of the composite permanent magnets 16, 17 of the same diameter and height are fixed, each of which contains at least three ring permanent magnets magnetized with the possibility of forming a Halbach magnetic circuit, number, size , the location and direction of the magnetization of which are similar to the number, size, location and direction of magnetization of the permanent magnets 14, 15, mounted on the surfaces of the protrusion 6 of the supporting housing 1 of the stator. Compound permanent magnets 14, 15, 16, 17 form radial bearings.

On the opposite ends of the protrusion 6 of the stator support housing 1, the stator parts of the composite permanent magnets 18, 19 are fixed, each of which contains at least three annular coaxial permanent magnets magnetized with the possibility of forming a Halbach magnetic circuit, and on the surfaces facing them are L-shaped cylinders 12, 13 are fixed to the rotor parts of the composite permanent magnets 20, 21, each of which contains at least three annular coaxial permanent magnets magnetized with the possibility of magnetically forming Halbach scheme, the number, size, location and direction of magnetization which are similar to the number, size, location and direction of the magnetization of the permanent magnets 18, 19 attached to the ends of the protrusion 6 of the support body 1 of the stator.

Compound permanent magnets 18, 19, 20, 21 form thrust magnetic bearings.

A cylinder 22 is installed and fixed in the inner axial cylindrical hole of the stator support housing 1, by means of which the stator of the electric machine is connected to an external mechanism.

On both sides of the core of the stator 2 is abutted in the pressure sheets 23, 24 and fixed by a split ring 25 on the supporting housing 1 of the stator. The plate 9 of the rotor housing is equipped with a plug 26.

The stator core 2 is assembled from stamped sheets of electrical steel, pressed and welded along the internal grooves. The left pressure plate 23, the stator assembly, the right pressure sheet 24 are put on the support housing 1 and fixed with a split ring 25. Coils 4 of the stator winding are laid in the grooves 3 of the core, groove wedges are inserted 5. Next, the stator winding is subjected to impregnation and drying.

In the internal axial cylindrical hole of the stator support housing 1, a communication cylinder 22 is installed and fixed.

By stamping, the left 9 and right 10 plates of the rotor casing are made and the prefabricated L-shaped cylinders 12, 13 are concentrically welded to them. On their inner cylindrical surfaces they are mounted on glue in a row of rings of permanent magnet 16, 17 of the same diameter of the rotor parts of the radial bearings, and on the end surfaces of the L-shaped cylinders are mounted concentrically on glue clips of coaxial annular permanent magnets 20, 21 of the rotor parts of the thrust bearings. Similarly, on the outer cylindrical surfaces of the protrusions 6 of the stator support housing 1, ring permanent magnets 14, 15 of the same diameter of the stator parts of the radial bearings are mounted on the adhesive in a row, and the ring permanent magnets 18, 19 of the stator parts concentrically on the adhesive on the end surfaces of the protrusions 6 of the support housing 1 thrust bearings. The stator and rotor parts of the bearings of the same name must be located against each other. Bearing magnets are made of neodymium-iron-boron material and magnetized according to the Halbach scheme.

Permanent magnets 7 of the inductor are made of neodymium-iron-boron material in the form of a parallelepiped and magnetized in the radial direction, as well as non-magnetic trapezoidal wedges 8.

Plate 9 is connected to a cylindrical shell 11, for example, by welding. In the annular cavity formed by the cylindrical shell 11 and the peripheral portion of the plate 9 of the rotor body, permanent inductor magnets 7 and non-magnetic wedges 8 with alternating magnetization of the magnet poles according to FIG. 2. The result is an inductor in the form of a composite magnetic ring with radial magnetization.

In the cavity formed by the plate 9 of the rotor housing and the inductor, the stator support housing 1 is assembled with the stator wound, the coupling cylinder 22 and the permanent magnets 14, 15 of the radial bearings and the magnets 18, 19 of the thrust bearings. In conclusion, set the plate 10 of the rotor housing with the magnets 17 of the radial bearings and the magnets 21 of the thrust bearings. The plate 10 of the rotor housing is fastened with screws with a cylindrical shell 11.

The electric machine can operate as a synchronous valve in the generator and engine modes. The machine is excited by a permanent magnet inductor.

In generator mode, the rotor is driven by an external engine, for example, a wind turbine or a turbine. EMF (and electricity) is induced in the stator winding, which can be used directly or after conversion using a semiconductor frequency converter.

In synchronous motor mode, the stator winding must be connected to an external network through a semiconductor frequency converter. When the magnetic field of the stator current interacts with the inductor field, an electromagnetic moment is created, and the motor can operate at synchronous speed. When using the rotor position sensor, the engine operates as a valve.

Claims (2)

1. An electric machine containing a lined stator core, provided with grooves in which the winding coils are located, and a rotor comprising a housing and an inductor comprising a bearing assembly, characterized in that the outer surface of the stator is cylindrical in shape, while it is placed in the cylindrical cavity of the rotor, mounted coaxially with the longitudinal axis of the stator, with the possibility of rotation around it, while the grooves of the stator, in which the winding coils are laid, are placed on the outside of the stator and open to the surface of the qi of the rotor cavity, and the winding coils are fixed in the grooves of the stator by wedges, in addition, the stator core is made with a hole coaxial with its longitudinal axis, with which it is worn on a support housing made, preferably, of non-magnetic material, with the outer surface of which the stator core is rigidly fastened, while the supporting body is made in the form of a cylindrical glass, the middle part of the side walls of which is provided with a cylindrical protrusion, and the rotor housing is made in the form of two, preferably symmetrical plates, facing each other with their cavities, made of non-magnetic material, bonded to a cylindrical shell, and the total depth of the cavities in the section closer to the longitudinal axis of the stator is greater than in the peripheral section of the rotor housing, in addition, the inductor is located on the peripheral section of the rotor casing and contains planks in the form of a parallelepiped, oriented along the longitudinal axis of the rotor, made of radially magnetized permanent magnets, alternating with planks of trapezoidal we are made of non-magnetic material, in addition, the outer surface of the magnetic and non-magnetic strips is abutted against the inner surface of the cylindrical shell made of a material with high magnetic permeability, while the edges of the plates of the rotor casing facing the stator support casing are equipped with shaped cylinders, the initial surface sections of which are parallel to the cylindrical walls of the supporting housing, and the final parallel to the ends of the supporting housing, in addition, the bearing assembly of electric machines contains magnetic radial and thrust bearings, while on the cylindrical surface of the protrusion of the stator support housing, composite permanent magnets of the same height are rigidly fixed, each of which contains at least three ring permanent magnets magnetized with the possibility of forming a Halbach magnetic circuit, in addition, on the inverted to them the surfaces of the L-shaped cylinders are fixed composite permanent magnets of the same height, each of which contains at least three annular permanent magnets, magnet with the possibility of the formation of a Halbach magnetic circuit, the number, size, location and direction of magnetization of which are similar to the number, size, location and direction of magnetization of the permanent magnets mounted on the stator support housing, in addition, composite permanent magnets are fixed on opposite ends of the protrusion of the support housing, each of which contains at least three annular coaxial permanent magnets magnetized with the possibility of the formation of a Halbach magnetic circuit, The surfaces of the L-shaped cylinders attached to them are fixed with composite permanent magnets, each of which contains at least three annular coaxial permanent magnets magnetized with the possibility of forming a Halbach magnetic circuit, the number, size, location and direction of magnetization of which are similar to the number, size, location and the direction of magnetization of the permanent magnets mounted on the ends of the protrusion of the stator support housing. 2. An electric machine according to claim 1, characterized in that at least one of the plates forming the rotor housing is detachably fastened to a cylindrical shell.

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