RU2660821C1 - Electric machine - Google Patents

Abstract

FIELD: electrical equipment.

SUBSTANCE: invention relates to electrical equipment. Electric machine contains a laminated stator core with grooves on the outside, in which coils of the winding are laid. Coaxially rotor with the possibility of rotation with respect to it is placed an intermediate rotor, in the cylindrical cavity of which the gap is fitted with a stator. Rotor is made in the form of a disk coaxial to the cylindrical shaft, along the periphery of which a cylindrical shell is made parallel to the surface of a cylindrical shaft on which the rolling bearings are attached and fixed from the longitudinal movement. They are supported by a cylindrical part of the body of the electric machine, one end of which is provided with a flat ring, the outer part of which is made with an outer and inner ring protrusions. On the outer surface of the cylindrical part of the body is mounted a laminated stator core with a winding. On the opposite end of the cylindrical part of the body, the end shield of the casing is put on and locked into the stator core by its inner ring protrusion, the outer edge of which is formed with a second annular shoulder on which the rolling bearings are put on and on the inner annular projection of the housing. They also support a cylindrical non-magnetic bushing of the intermediate rotor on the inner surface of which the magnetic system is mounted. On the inner surface of the cylindrical shell of the rotor is fixed its laminated core, in the cylindrical cavity of which is mounted a magnetic system, in the cylindrical cavity of which the poles of magnetic transmission from a material with a high magnetic permeability are placed with a gap, alternating with nonmagnetic inserts. Both of these magnetic systems are magnetized, for example, according to the Halbach scheme. Ends of the said elements are rigidly attached to the surface of the outer annular body projection facing them.

EFFECT: technical result consists in increasing the speed of rotation and the resource due to the absence of a mechanical transmission, as well as providing the possibility of using the outer surface of the rotor as a hub of an electric vehicle, a hydro generator rotor or a wind generator.

1 cl, 2 dwg

Description

The invention relates to the field of electrical engineering and, 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.).

Closest to this invention, the device is an electric machine containing a lined stator core, provided with grooves located on its outer side, in which winding coils are stacked, and a rotor including a housing and an inductor containing a bearing assembly, while the outer surface of the stator is cylindrical and 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 (see RF patent No. 2544002, IPC H02K 21/22, 2015).

A disadvantage of the known devices is the inability to significantly reduce the overall dimensions of the electric machine by increasing the rotational speed of the rotor of the electric machine.

The task to which the proposed technical solution is directed is to reduce the mass and dimensions of the electric machine by increasing the rotor speed by using increasing magnetic transmission and combining the electric machine inductor with it.

The technical result that is achieved when solving the problem is expressed in the possibility of increasing the rotor speed and increasing the life of the electric machine due to the lack of mechanical transmission. In addition, it is possible to use the outer surface of the rotor as the hub of an electric vehicle, a rotor of a hydrogenerator or a wind generator.

The problem is solved in that the electric machine containing the laminated stator core, equipped with grooves located on its outer side, in which the winding coils are laid, and a rotor, including a housing and an inductor containing a bearing assembly, are provided with a cylindrical shape on the outer surface and it placed in a cylindrical cavity of the rotor mounted coaxially with the longitudinal axis of the stator, with the possibility of rotation around it, characterized in that between the stator and the rotor, coaxially with them, with the possibility of rotation rel relative to them, an intermediate rotor is placed, in the cylindrical cavity of which a stator is mounted with a gap, the rotor is made in the form of a disk coaxial with the cylindrical shaft, on the periphery of which a cylindrical shell is made parallel to the surface of the cylindrical shaft, on the surface of which rolling bearings are mounted and fixed against longitudinal movement on which the cylindrical part of the casing of the electric machine is supported, one end of which is provided with a flat ring, the outer part of which is provided with an external and internal ring the protrusions, in addition, on the outer surface of the cylindrical part of the electric machine casing, a laden stator core with a winding is mounted, while on the opposite end of the cylindrical part of the electric machine casing the end shield of the electric machine casing, the outer edge of which is provided with a second annular flange, in addition, rolling bearings are put on the second annular flange of the end shield and the inner annular protrusion of the electric machine body, the cylinder is supported an indrical intermediate rotor sleeve made of non-magnetic material, on the inner surface of which the magnetic system is mounted, in addition, on the inner surface of the cylindrical shell of the rotor, a lined rotor core is mounted, in the cylindrical cavity of which the magnetic system is mounted, in the cylindrical cavity of which the magnetic transmission poles are placed made of a material with high magnetic permeability, alternating with non-magnetic inserts, while the ends of these elements are rigidly sk epleny reverse thereto an external surface of the annular projection electrical machine housing.

In addition, the magnetic system of the rotor and the intermediate rotor are made according to the Halbach scheme with either radial or tangential magnetization.

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 "between the stator and the rotor, coaxially with them, with the possibility of rotation relative to them, an intermediate rotor is placed, in the cylindrical cavity of which a stator is installed with a clearance", it allows to create an electric machine with an internal stator and an external rotor and use the intermediate rotor as magnetic gear magnetic gear and electric machine inductor.

A sign indicating that "the rotor is made in the form of a disk coaxial with the cylindrical shaft, the periphery of which has a cylindrical shell parallel to the surface of the cylindrical shaft", allows you to form a magnetic system of the magnetic gear of the magnetic transmission.

A sign indicating that on the surface of the cylindrical shaft "mounted and fixed against longitudinal movement of the rolling bearings, which are supported by the cylindrical part of the casing of the electric machine, one end of which is equipped with a flat ring, the outer part of which is equipped with an outer and inner ring protrusions", allows you to fix the rotor in the housing stator and prevent axial movement of the rotor.

Signs indicating that “a stator core with a winding is mounted on the outer surface of the cylindrical part of the electric machine casing, while the end shield of the electric machine casing, the outer edge of which is provided with a second annular a bead, in addition, rolling bearings are worn on the second annular bead of the end shield and the inner annular protrusion of the electric machine body ” afiksirovat stator core with windings in the stator housing and the rotor to place the intermediate bearings.

A sign indicating that on the second annular flange of the end shield and the inner annular protrusion of the electric machine casing "the cylindrical sleeve of the intermediate rotor is made of non-magnetic material, on the inner surface of which the magnetic system is mounted", forms the magnetic system of the inductor and the magnetic gear system of the magnetic transmission.

A sign indicating that "on the inner surface of the cylindrical shell of the rotor is mounted a lined core of the rotor, in the cylindrical cavity of which a magnetic system is mounted", provides the formation of a magnetic system of the magnetic gear of the magnetic transmission and at the same time ensures the strength of the rotor at significant peripheral rotor speeds.

Signs indicating that the magnetic transmission poles are made in the cylindrical cavity of the rotor “with a gap, made of material with high magnetic permeability, alternating with non-magnetic inserts, while the ends of these elements are rigidly bonded to the surface of the outer annular protrusion of the electric machine body”, allow complete the formation of magnetic transmission.

Signs indicating that "the magnetic system of the rotor and the intermediate rotor are made according to the Halbach scheme with either radial or tangential magnetization", allow you to create the most effective magnetic system of magnetic transmission and inductor of the electric machine.

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

The drawings show: a laminated core of stator 1 with grooves 2, winding coils 3, and rotor 4, support housing 5, cylindrical shaft 6, disk 7, cylindrical shell 8, rolling bearings 9, 10, flat ring 11, outer 12 and inner 13 annular protrusions, end shield 14, first 15 and second 16 ring flanges, rolling bearings 17, 18, intermediate rotor 19 cylindrical sleeve 20 made of non-magnetic material, permanent magnets 21, burden core 22 of the rotor, permanent magnets 23 of the rotor 4, pole 24 of the magnetic transmission made from material with high th magnetic permeability, nonmagnetic insert 25, slot wedges 26, locking ring 27, the bearing cap 28, the spacer 29.

The electric machine contains a laminated stator core 1 made of electrical steel, on the outer cylindrical surface of which grooves 2 are made, in which coils 3 of the stator winding 1 are laid and fixed by groove wedges 26. The stator core 1 is located on its supporting body 5 and is rigidly connected to it .

The rotor 4 is made in the form of a disk 7, coaxial with the cylindrical shaft 6, along the periphery of which a cylindrical shell 8 is made parallel to the surface of the cylindrical shaft 6. On the surface of the cylindrical shaft 6, rolling bearings 9, 10 are mounted and fixed against longitudinal movement. The bearing housing 5 is on one side equipped with a flat ring 11, the outer part of which is provided with an outer 12 and an inner 13 ring protrusions. On the outer surface of the cylindrical part of the supporting housing 5 mounted lined core of the stator 1 with coils 3 of the winding.

Claims (2)

1 An electric machine containing a lined stator core, provided with grooves located on its outer side, in which winding coils are stacked, and a rotor including a housing and an inductor containing a bearing assembly, while the outer surface of the stator is cylindrical and placed in a cylindrical cavity of the rotor installed coaxially with the longitudinal axis of the stator, with the possibility of rotation around it, characterized in that between the stator and the rotor, coaxially with them, with the possibility of rotation relative to them, is placed intermediate a rotor in the cylindrical cavity of which a stator is mounted with a clearance, the rotor being made in the form of a disk coaxial with the cylindrical shaft and a cylindrical shell parallel to the surface of the cylindrical shaft, on the surface of which the rolling bearings are supported and fixed against longitudinal movement the cylindrical part of the casing of the electric machine, one end of which is equipped with a flat ring, the outer part of which is equipped with an external and internal annular protrusions, in addition to a stitched core of the stator core with a winding is mounted on the opposite surface of the cylindrical part of the electric machine casing, while the end shield of the electric machine casing, the outer edge of which is provided with a second annular collar, is put on and abutted on the opposite end of the cylindrical part of the electric casing, in addition, on the second the annular flange of the end shield and the inner annular protrusion of the casing of the electric machine are equipped with rolling bearings, on which the cylindrical sleeve of the industrial a daily rotor of non-magnetic material, on the inner surface of which the magnetic system is mounted, in addition, on the inner surface of the cylindrical shell of the rotor, a lined rotor core is mounted, in the cylindrical cavity of which is mounted a magnetic system, in the cylindrical cavity of which magnetic transmission poles made of material are placed with a gap with high magnetic permeability, alternating with non-magnetic inserts, while the ends of these elements are rigidly bonded to facing neither m surface of the outer annular protrusion of the body of the electric machine. 2. An electric machine according to claim 1, characterized in that the magnetic system of the rotor and the intermediate rotor is made according to the Halbach scheme with either radial or tangential magnetization.

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