TH91476A - - Google Patents

Abstract

DC60, this invention It will provide a rotor with an embedded magnet. To reduce the choking torque and vibration / noise, electric motors and compressors. In the rotor with implantable magnets Where permanent magnets are implanted in the rotor iron core. With spans evenly apart, a notch is formed on the first protrusion and on both sides of the first emerging portion on the outer face between the poles. Salient in the anion axis of the rotor that corresponds to a number of permanent magnets. It will continue with The non-magnetic part is used to protect against shorting the magnetic flux which is generated at both edges of such permanent magnets. And there will be a bridge that connects Non-magnetic part And the aforementioned notch That are narrowed down as much as possible Can be done To the extent that the saturation of the magnetic flux And the part that has emerged Part two part Or a number that extends in the direction of the outer face Will be built at The part that is notched as well This invention It will provide a rotor with an embedded magnet. To reduce the choking torque and vibration / noise, electric motors and compressors. In the rotor with implantable magnets Where permanent magnets are implanted in the rotor iron core. With evenly spaced spans, a notch is formed on the first protrusion section and on both sides of the first protrusion part on the outer front between. Terminal Salien in the anion axis of the rotor that is aligned with a number of permanent magnets. It will continue with The non-magnetic part is used to protect against shorting the magnetic flux which is generated at both edges of such permanent magnets. And there will be a bridge that connects Non-magnetic part And the aforementioned notch That are narrowed down as much as possible Can be done To the extent that the saturation of the magnetic flux And the part that has emerged Part two part Or a number that extends in the direction of the outer face Will be built at The part that is notched as well

Claims (7)

Disclaimer (all) which will not appear on the announcement page: Revised 23 May 2017 1. Buried magnet rotor That includes: - Permanent magnet embedded in the iron core of the rotor. With the same distance from each other all over - many protruding poles match the magnetic poles It emerges in the ionic axis and extends to the outer surface of the rotor; - a large number of furrows; - Non-magnetic part for protection against short-circuiting of the magnetic flux occurring at the ends of the array. In accordance with such permanent magnets; And - the bridge sections are respectively matched with the non-magnetic sections. And has a position to rest along The radius between the matched non-magnetic segments And part of the notch of the notch a lot By the said bridge Each segment is radial in length. To saturate the magnet; Where the many protruding surface of each electrode Will emerge between the pair Of the notched part of the large number of notched parts Surround around the rotor circle. Where each notched portion, respectively, of the many notch segments, is positioned between the terminals where the chest comes together. Where each protruding pole's outer surface is the distance to the outer surface of the first rotor. Measured from the radial center of the rotor, greater than the distance of the outer surface of the second rotor measured from the radial center of the rotor to the adjacent notches, in that order, where the Any notch. Each of the many notches extends along a circular arc from the end of the first notch. On the outside surface of the pole that emerged at one To the end of the second notch on the outer surface of the second emerging pole Where a rotor with an embedded magnet Will continue to include The following parts Resting according to the part There are many notches, each part: - one protruding part. Extending at a height from the base of any such notch; And - the second protrusion Protruding at the second height From the base of the notch, any such section, where the second height is less than the aforementioned height, 10/18/2016 1. Rotor with embedded magnet That includes: - Permanent magnet embedded in the iron core of the rotor. With the same distance from each other throughout; - Many poles that emerge are matched with magnetic poles. It emerges in the ionic axis and extends to the outer surface of the rotor; - a large number of notched sections; - Non-magnetic part for protection against short-circuiting of the magnetic flux occurring at the ends of the array. In accordance with such permanent magnets; And - the bridge sections are respectively matched with the non-magnetic sections. And has a position to rest along The radius between the matched non-magnetic segments And the notch part of the notch many parts By the said bridge Each segment is radial in length. To saturate the magnet; Where the outer surface of each of the polar extremes of which many emerge Will emerge between A pair of notch segments of such a large number of notches. And enclosed in a circular loop of the rotor, where each notched portion, respectively, of many notched segments is positioned between the adjacent poles. Where each protruding pole's outer surface is the distance to the outer surface of the first rotor. Measured from the radial center of the rotor, greater than the distance of the outer surface of the second rotor arranged from the radial center of the rotor to the adjacent notches, in that order, where the Any notch. Each of the many notches extends along a circular arc from the end of the first notch. On the outside surface of the pole that emerged at one To the end of the second notch at the outer surface of the second emerging pole Where a rotor with an embedded magnet Will continue to include The following parts Resting according to the part There are many notches, each part: - one protruding part. Extending at a height from the base of any such notch; And - the second protrusion Protruding at the second height From the base of any notch section, say, where the second height is less than the first height. As stated in Clause 1, where the second protrusion Along the line of any such notch will be part of many second protrusions. Any such notch protruding at a height less than the aforementioned height. 3. A rotor with an embedded magnet. As stated in Clause 1, where each side of the section Protruding at one And with each side of the second protrusion Will have a distance from one end To the other end of the notch portion, any such part that forms the outer surface Of the rotor showing the distance to the outer surface of the said second rotor. 4. A rotor with an embedded magnet. As stated in Clause 1, where the second protrusion Any such portion of the bridge will be stradded along the radius, extending the radial width to the minimum. Of any bridge segment being straddled therein Effectively -------------------------------------------------- 1.Rotor with embedded magnet Where there is a characteristic that Permanent magnets will be implanted. In the iron axis of the rodeers at constant distances from each other. And there will be part of the notch and the part that appears Out, the first part rests on the outer front between the aforementioned salient axis of the ionic A roder that matches a number of such permanent magnets. And there will be non-magnetic parts used Protection against short-circuiting of the magnetic flux generated at both edges of such permanent magnets. There will be a bridge that connects the non-magnetic parts. And the part that is inferior to it Narrowed down To such a degree that the saturation of the magnetic flux can Where it will be created The second protruding portion also extends in the outer direction at the notched part. 2.Rotor with embedded magnet As stated in Clause 1, where it has the characteristics that The notched part is formed in such a way that it changes gradually. From the outside face of the terminal Salient to the emerging part one 3.Rotor with embedded magnet As specified in either of the Claims 1 or 2 Where there is a characteristic that The central angle between the deflection starting from the notched part that is Alignment on the outer front of the salient pole Will be fixed at 40-48 4.Rotor with embedded magnet As specified in any of Clause 1, 2 or 3 Where there is a characteristic that The second protruding part in the notched part. Will be created A number of parts of different heights are used for changing the distance between the stator and the cavity. 5.Rotor with embedded magnet As set out in Clause 1, 2 or 3, any of which has the characteristics that Permanent magnets are created in a V shape that expands in direction. The way to the outside 6.Electric motor using a rotor with embedded magnets Where a stator, rotor and permanent magnet are embedded in the ion core of the rotor. At a constant distance from each other Where it looks like Such stator It will be a stator with a tight bundle of windings. In order to tie the coils to With each stator tightly and very tightly tied at the stator A number of cocktails extend from the stator yoke to the center at equal distances. And it is unique that such a rotor has a notched section on the first protruding part. And on both sides of The one protruding part on the outer face, between the salient poles that correspond to the permanent magnet. A number of such And there is a characteristic that the non-magnetic part used to prevent short circuit of Magnetic flux is generated on both sides of the said permanent magnet. And has the unique characteristics that There will be a bridge that connects the non-magnetic parts. And has the unique characteristics that the part is Such notch It is narrower to the extent that it causes magnetic saturation, and is characterized by the second protrusion that protrudes in the direction of the outer face. Will be built at The notch is as follows. 7. The compressor is characterized by the fact that it consists of a recessed compartment. Inside the container with the sealed And use electric motor As stated in clause 6, it is a thrust carrier, where the refrigerant gas that is emitted from the inlet in the compression chamber is compressed and subsequently ejected from the compression chamber. Used to drive away