| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 310156220 | With an axial end clamp | 13 |
| 20090195101 | MOTOR ROTOR - A motor rotor is provided. The motor rotor includes a plurality of magnetic members circumferentially disposed on a peripheral wall surface of a turning axle of the motor rotor, and both end surfaces of the turning axle are coupled with fastening members respectively; each of the magnetic members has a first fastening portion formed at each of its two ends; and the fastening member is provided with a plurality of second fastening portions corresponding in position to the first fastening portions, such that each of the magnetic members are firmly fixed in position to the turning axle. | 08-06-2009 |
| 20090284093 | SLEEVE IN END RINGS FOR PERMANENT MAGNET ROTOR - A permanent magnet rotor for an electric motor may include a rotor assembly that will hold the magnets in place. A pair of rings is added to the sleeve to tightly engage and press against the end plates and the magnets. This configuration provides additional securement against axial and radially shifting of the magnets. | 11-19-2009 |
| 20090284094 | Rotor Structure for Motor - A rotor structure for motor includes a shaft, a magnet, and two fixing seats. The shaft passes through the magnet and the two fixing seats, with the two fixing seats being adjacent to and abuts against two end faces of the magnet respectively. The magnet slightly closely fits or loosely fits the shaft, and the two fixing seats closely fit the shaft, such that the magnet is positioned at a predetermined position relative to the shaft without rupture. Furthermore, the two end faces and two abutting faces by each of which the fixing seat abuts against one of the end faces are formed with rough surfaces or corresponding grooves and protrusions, so as to achieve stable-engaging effect between the magnet and fixing seats. | 11-19-2009 |
| 20090309448 | END COVER AND MOTOR ROTOR HAVING THE END COVER - An end cover adapted to engage with an end surface of a spindle of a motor rotor is proposed for securely coupling to the spindle with a plurality of permanent magnets disposed around the peripheral wall of the spindle. The end cover has a first surface facing an end surface of the spindle and an second surface opposing to the first surface, which is formed with a plurality of inserting slots indentedly disposed around the rim thereof and corresponding to the permanent magnets for coupling the ends of the permanent magnets, thereby securely fastening each of the permanent magnets to the spindle of the motor rotor. Further, the present invention further provides a motor rotor having the end covers described above. | 12-17-2009 |
| 20100001605 | Rotational Machine - A rotational machine which improves the reliability of the permanent magnets provided between claw poles by preventing shift in an axial direction during operation of the rotational machine. A stator and a rotor supported rotatably on an inner periphery of the stator are provided. The rotor has a pair of claw poles disposed in an alternately opposed orientation and having cylindrical field exciting coils on a central section. A permanent magnet is disposed between the claw poles. A holder retains the permanent magnets to a fixed position. The holder retains the permanent magnets between the claw poles by pressing on a side face of the claw poles as a result of an elastic force acting with respect to the rotational direction of the rotational machine. | 01-07-2010 |
| 20110062812 | Rotor Structure Including Fixing Seats Securely Coupling A Shaft and A Magnet Together - A rotor structure for a motor includes a shaft, a single magnet, and two fixing seats. The shaft passes through the single magnet and the two fixing seats, with the two fixing seats being adjacent to and abutting against two end faces of the single magnet, respectively. The single magnet fits with a small clearance or loosely fits the shaft, and the two fixing seats tightly fit the shaft, such that the single magnet is positioned at a predetermined position relative to the shaft without rupture. Furthermore, each of the two end faces and two abutting faces are formed with rough surfaces and/or with corresponding grooves and protrusions, so as to achieve a stable-engaging effect between the single magnet and fixing seats. | 03-17-2011 |
| 20110254399 | Interior Rotor for a Rotary Electrical Machine and Method of Assembling It - A buried-magnet internal rotor ( | 10-20-2011 |
| 20140021819 | SPOKE TYPE PERMANENT MAGNET MOTOR - A spoke type permanent magnet motor according to the present invention includes a stator having a stator slot radially disposed according to the center thereof and a stator core radially formed between the stator slots; a spoke type rotor, provided inside or outside the stator, having a rotor core radially disposed in the same direction as the stator slot and stator core and a permanent magnet radially disposed between the rotor core; a first fastening member, made of non-magnetic material, provided at the top and bottom of the rotor, respectively, in the height direction of the rotor; and a second fastening member, made of non-magnetic material, provided to penetrate the rotor core and first fastening member, thereby to maintain high output density and to easily implement miniaturization. | 01-23-2014 |
| 20140042858 | ROTOR FOR ROTARY ELECTRIC MACHINE - A rotor for a rotary electric machine includes a pair of Lundell-type cores, a plurality of magnets, and a magnet retainer. The pair of Lundell-type cores includes a plurality of claw poles with flange portions projecting to a circumferential direction of the rotor from an end portion on an outer diameter side of each of the claw poles. The plurality of magnets are arranged between the pair of Lundell-type cores, and are magnetized in a direction of reducing flux leakage. The magnet retainer retains each of the magnets, and has side surfaces in the circumferential direction. At least one of the side surfaces is provided with at least one projection for restraining movement of the magnet retainer in an axial direction along a rotary shaft. | 02-13-2014 |
| 20140184008 | BRUSHLESS DIRECT CURRENT (BLDC) MOTOR - A brushless direct current (BLDC) motor includes a magnet which includes N poles and S poles extending in the up-down direction. The N poles and S poles are arranged to alternate with each other, surround an exterior of a shaft, and have a cylindrical shape when assembled. The magnet has upper and lower tapered portions in upper and lower portions thereof, with the diameter decreasing in the direction toward opposite ends, and a fixing center groove formed in the middle thereof. Fixing caps respectively have inclined portions at positions corresponding to the upper and lower tapered portions of the magnet so that the tapered portions fit into the inclined portions, thereby fixing an axial position of the magnet. A center ring is fitted into the center groove of the magnet in order to prevent the magnet from being dislodged while a rotor is rotating. | 07-03-2014 |
| 20140191608 | ROTOR FOR MOTOR - Disclosed therein is a rotor for a motor. The rotor includes: a rotor core including an annular ring having a shaft hole formed at a central portion thereof, a plurality of yokes formed around the annular ring, and magnet insertion holes formed between the neighboring yokes; magnets respectively inserted into the magnet insertion holes; and a pair of rotor covers each having a ring plate, which has a shaft insertion hole formed at a central portion thereof, and a plurality of stoppers protrudingly formed around the ring plate. A pair of the rotor covers are joined to an upper portion and a lower portion of the rotor core in such a fashion that the stoppers are respectively located at side portions of the magnet insertion holes. | 07-10-2014 |
| 20140375162 | ROTOR OF ELECTRIC MOTOR AND MOTOR USING THE SAME - Exemplary embodiments disclose a rotor of an electric motor and an electric motor using the same. The rotor includes a core which includes a plurality of protrusion portions which are arranged along an outer circumference of the core and protrude radially to an outer portion of the core, and a plurality of concave portions interposed between the protrusion portions; a plurality of permanent magnets which are respectively disposed at the plurality of concave portions; and a plurality of pole pieces which are disposed at the plurality of concave portions and at outer sides of the plurality of permanent magnets. A length of each of the plurality of pole pieces in an axial direction is shorter than a length of each of the plurality of protrusion portions in the axial direction. | 12-25-2014 |
| 20160049837 | ELECTRIC MOTOR COMPRISING AN INTERNAL ROTOR AND AN EXTERNAL STATOR - An electric motor ( | 02-18-2016 |
