Patent application number | Description | Published |
20110234024 | BRUSHLESS MOTOR AND ELECTRIC APPARATUS PROVIDED WITH SAME - A brushless motor includes a stator molded integrally with a resin having a fixing member including a stator iron core and a winding wound thereon, a rotor of a disk-like iron core holding a ferrite resin magnet in a circumferential direction, the rotor arranged to face the stator about a shaft, a bearing rotatably supporting the shaft, and conductive brackets fixing the bearing. The brackets are electrically connected to each other with a conducting pin in the stator. | 09-29-2011 |
20110234025 | MOTOR AND ELECTRIC DEVICE USING SAME - A motor includes: a stator molded integrally with an insulating resin having a fixing member including a stator iron core and a winding wound thereon; a rotor arranged to face the stator about a shaft; a bearing rotatably supporting the shaft; a bracket fixing the bearing; and a drive circuit substrate having a drive circuit mounted thereon for driving the winding. The stator iron core is electrically connected to a ground serving as a reference point of a zero potential on the drive circuit substrate through a conductive member. | 09-29-2011 |
20110234026 | MOTOR AND ELECTRIC DEVICE USING SAME - A motor includes: a stator including a stator iron core on which a winding is wound; a rotor including a rotating body that holds a magnet in a circumferential direction to face the stator and a shaft that fastens the rotating body to penetrate a center of the rotating body; a bearing that supports the shaft; and two conductive brackets that fix the bearing. The two brackets are electrically connected to each other, and a capacitor serving as an impedance adjusting member that adjusts impedances between the stator iron core and the electrically connected two brackets is arranged. | 09-29-2011 |
20120032536 | ELECTRIC MOTOR AND ELECTRIC EQUIPMENT WITH SAME - A motor includes a stator integrally molded together with a stator member, which includes a stator iron-core wound with a winding, by insulating resin, a rotor mounted on a shaft as a center and confronting the stator, two bearings supporting the shaft rotatably, brackets fixing the bearings, and a drive circuit board including a drive circuit which supplies an electric current to the winding and drives the rotor. Either one of the two bearings includes an outer ring and an inner ring both of which are electrically insulated from each other. | 02-09-2012 |
20120038229 | MOTOR AND ELECTRICAL EQUIPMENT EQUIPPED WITH SAME - A motor includes a stator having a stator iron-core on which a winding is wound, a rotor having a rotary body holding a permanent magnet opposed to the stator along a circumferential direction and a shaft joined to the rotary body such that it extends through the rotary body at the center, bearings supporting the shaft, two conductive brackets for fixing the bearings, and a printed circuit board on which a drive circuit for driving the winding is mounted. A dielectric layer is provided between an outer wall of the rotary body and the shaft, the two brackets are electrically connected together, and a capacitor is connected between the stator iron-core and the brackets for adjusting impedance. | 02-16-2012 |
20120112588 | ELECTRIC MOTOR AND ELECTRIC DEVICE PROVIDED THEREWITH - Provided is an electric motor driven by an inverter of PWM method, and devised to retard electrolytic corrosion in a bearing. A rotating body of a rotor comprises an outer iron core configuring an outer peripheral portion of the rotating body, an inner iron core configuring an inner peripheral portion connected to a shaft, a dielectric layer disposed between the outer iron core and the inner iron core, a plurality of insertion holes penetrating the outer iron core in the axial direction, and permanent magnets inserted individually in the plurality of insertion holes. It thus becomes possible to increase impedance of the rotor side (inner ring side of bearing) to approximate it to impedance of the stator side (outer ring side of the bearing) to thereby bring high frequency potentials balanced between the inner ring side and the outer ring side of the bearing, so as to provide the electric motor that retards electrolytic corrosion liable to occur in the bearing, and an electric device equipped with the same. | 05-10-2012 |
20130043748 | ELECTRIC MOTOR AND ELECTRIC DEVICE INCLUDING THE SAME - A stator, a rotor, bearings, and conductive brackets are provided. The stator has a stator iron core having a winding wound thereon. The rotor has a rotating body that holds a permanent magnet in the circumferential direction so that the permanent magnet faces the stator, and a shaft that has the rotating body fastened thereto so as to penetrate through the center of the rotating body. Both of the bearing on the output shaft side and the bearing opposite the output shaft side journal the shaft. One of the brackets fixes the bearing on the output shaft side, and the other of the brackets fixes the bracket opposite the output shaft side. The brackets are electrically connected to each other, and a dielectric layer is formed between the shaft and the outer periphery of the rotating body. | 02-21-2013 |
20150187462 | METHOD FOR FORMING ELECTRICAL CONNECTION STRUCTURE PART, METHOD FOR PRODUCING ALUMINUM WIRE WITH TERMINAL, ELECTRICAL CONNECTION STRUCTURE PART, MOTOR PROVIDED WITH ELECTRICAL CONNECTION STRUCTURE PART, AND ELECTRICAL DEVICE PROVIDED WITH MOTOR PROVIDED WITH ELECTRICAL CONNECTION STRUCTURE PART, ALUMINUM WIRE WITH TERMINAL, MOTOR PROVIDED WITH ALUMINUM WIRE WITH TERMINAL, AND ELECTRICAL DEVICE PROVIDED WITH MOTOR PROVIDED WITH ALUMINUM WIRE WITH TERMINAL - A method for forming an electrical connection structure part according to the present invention includes a step of covering, with an alloy body, a connection part between a first conductor part and a second conductor part, so as to form the electrical connection structure part. The first conductor part contains aluminum. The second conductor part has a surface covered with an ingredient containing nickel. The alloy body contains tin, silver, and nickel. The method further includes steps of: connecting the first conductor part and the second conductor part to each other to form the connection part; melting the alloy body; and dipping at least the connection part into the molten alloy body. | 07-02-2015 |