| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 192840300 | Including permanent magnet | 22 |
| 20090120756 | Drive Mechanism and Method - A drive train is used at least including an input shaft and an output shaft. A clutch member is rotatable by a clutch shaft about an axis of rotation. The clutch shaft is supported for lateral movement along the axis of rotation to move the clutch member to cooperate with the drive train at a first lateral position to cause the output shaft to turn and to move the clutch member to a second lateral position to disengage the output shaft from rotation of the input shaft. A permanent magnet is supported by one end of the clutch shaft and arranged for receiving an external magnetic biasing force along the axis of rotation to selectively move the clutch member between the first and second lateral positions. A traveling shaft can be used to support a selected gear for movement by the permanent magnet to implement transmission and reversing configurations. | 05-14-2009 |
| 20100116615 | POWER TRANSMITTING APPARATUS - A transmission includes a transmission case, an oil pan that is defined in a lower portion within the transmission case and stores a lubricating medium capable at least of lubricating components of the transmission, movable engagement members capable of engaging with two elements that respectively correspond thereto, and electromagnetic actuators that respectively move a corresponding one of the movable engagement members to allow a connection between the two elements and a release of the connection. | 05-13-2010 |
| 20110253498 | VARIABLE GEAR RATIO MAGNETIC GEARBOX - A magnetic gear arrangement is provided comprising a first gear member for generating a first magnetic field and a second gear member for generating a second magnetic field. A coupling element is disposed between the first and second gear members and provides arrangements of interpoles which couple the first and second magnetic fields. The coupling element comprises a plurality of magnetisable lamellae, each interpole in an arrangement of interpoles being formed from a group of neighbouring lamellae. Selected lamellae are deactivatable to provide boundaries between adjacent interpoles. This allows different numbers and arrangements of interpoles to be formed, so as to provide different gear ratios between the first and second gear members. | 10-20-2011 |
| 20120111689 | FLYWHEEL - The invention relates to an apparatus and method for constructing a magnetic gear coupling for transmitting torque from a flywheel to a driveshaft, the coupling employing permanent magnet arrays and magnetic flux coupling elements therebetween, and at least one of the arrays and coupling elements being circumferentially staggered or spread, so as to avoid complete alignment of the arrays and elements, and thereby mitigate torque coupling capability variations. | 05-10-2012 |
| 20120175214 | ROTATIONAL COUPLING DEVICE WITH WEAR COMPENSATION STRUCTURE - A rotational coupling device for use as a clutch, a brake, or a combination clutch and brake is provided having structure to compensate for wear on braking surfaces. The device includes an armature coupled to an output member and movable between positions of engagement with a rotor and a brake plate. The brake plate is coupled to a stationary field shell that houses a conductor on one side of the rotor opposite the armature and brake plate. The brake plate is axially spaced from the field shell and a removable shim or adjustable spacer is disposed between the brake plate and the field shell. Removal of the shim or adjustment of the spacer permit movement of the brake plate towards the field shell to compensate for wear in any of the clutch or brake engagement surfaces of the device. | 07-12-2012 |
| 20120186932 | DRIVE MECHANISM AND METHOD - A drive train is used at least including an input shaft and an output shaft. A clutch member is rotatable by a clutch shaft about an axis of rotation. The clutch shaft is supported for lateral movement along the axis of rotation to move the clutch member to cooperate with the drive train at a first lateral position to cause the output shaft to turn and to move the clutch member to a second lateral position to disengage the output shaft from rotation of the input shaft. A permanent magnet is supported by one end of the clutch shaft and arranged for receiving an external magnetic biasing force along the axis of rotation to selectively move the clutch member between the first and second lateral positions. A traveling shaft can be used to support a selected gear for movement by the permanent magnet to implement transmission and reversing configurations. | 07-26-2012 |
| 20130146415 | DRIVE MECHANISM AND METHOD - A drive train is used at least including an input shaft and an output shaft. A clutch member is rotatable by a clutch shaft about an axis of rotation. The clutch shaft is supported for lateral movement along the axis of rotation to move the clutch member to cooperate with the drive train at a first lateral position to cause the output shaft to turn and to move the clutch member to a second lateral position to disengage the output shaft from rotation of the input shaft. A permanent magnet is supported by one end of the clutch shaft and arranged for receiving an external magnetic biasing force along the axis of rotation to selectively move the clutch member between the first and second lateral positions. A traveling shaft can be used to support a selected gear for movement by the permanent magnet to implement transmission and reversing configurations. | 06-13-2013 |
| 192840310 | And electromagnet | 15 |
| 20080210512 | Adjustable Hysteresis Driver - The invention concerns an adjustable hysteresis driver, with a rotor component ( | 09-04-2008 |
| 20090242350 | ELECTROMAGNETICALLY ACTUABLE CLUTCH AND WATER PUMP HAVING AN ELECTROMAGNETICALLY ACTUABLE CLUTCH - An electromagnetically actuatable clutch for a water pump in a cooling water circuit of an internal combustion engine, having a drive wheel rotatably mounted relative to the water pump, and an armature disk, which interacts with a coil. The armature disk and a functional component of an eddy current clutch are connected to the drive wheel so that the drive wheel, armature disk and first functional component run synchronously when they rotate. The armature disk can be moved axially with the first functional component by energizing the coil. A second functional component of the eddy current clutch is provided arranged in a fixed fashion on a shaft coupled to the water pump. A friction mechanism is provided between the first and second functional components to provide a frictional locking engagement between the two functional components that is released by energizing the coil. | 10-01-2009 |
| 20090314600 | ELECTROMAGNETIC CLUTCH - An electromagnetic clutch includes a rotor, armature hub, armature, magnetic body and first permanent magnet, field core, excitation coil, and second permanent magnet. The rotor is rotatably disposed in the housing of a driven device. The armature hub is fixed to the rotating shaft of the driven device. The armature is disposed on the armature hub to be movable in an axial direction. The magnetic body is incorporated in the rotor. The first permanent magnet connects the armature to the rotor. The field core is attached to the housing and inserted in the rotor to be in noncontact with it. The excitation coil is disposed in the field core and excited, when cutting off power transmission, to cancel a magnetic force of the first permanent magnet, thus releasing the armature from the first permanent magnet. The second permanent magnet separates the armature from the rotor, when cutting off power transmission, to move the armature toward the armature hub. The first permanent magnet has a Curie temperature lower than the temperature of heat generated by the rotor upon slip rotation. | 12-24-2009 |
| 20090321213 | FRICTION CLUTCH FOR TRANSMITTING TORQUE - A friction clutch for transmitting torque from a rotor, which can be driven about an axis S, to an element which is to be driven, including a friction disk clutch having an electromagnet arrangement which has a coil former and magnetically conductive means which comprise a web section lying radially on the outside with respect to the axis S and a web section lying radially on the inside and oriented axially, and permanently magnetic means via which an axially movable friction section of the friction disk clutch can be magnetically connected to the rotor, wherein, in the electrically switched on state of the electromagnetic arrangement, the bearing of the friction section against the rotor can be eliminated by attenuating the magnetic attraction effect of the permanently magnetic means. | 12-31-2009 |
| 20100018827 | Drive force transmission apparatus - An armature is magnetically attracted to and is coupled with a rotor against an urging force of a resilient member by a magnetic attractive force of the rotor when a permanent magnet is placed into a first position. When the armature is coupled with the rotor, a rotational drive force of an internal combustion engine transmitted to the rotor is transmitted to a refrigerant compressor connected to the armature to rotate the refrigerant compressor. The armature is urged away from and is decoupled from the rotor by the urging force of the resilient member when the permanent magnet is placed into a second position. | 01-28-2010 |
| 20110083935 | CLUTCH MECHANISM AND CLUTCH SYSTEM HAVING THE SAME - When a pulley and an armature are coupled with each other, first and second permanent magnets place the movable member at a location where a magnetic resistance of an attracting magnetic circuit, which generates an attracting magnetic force to couple between the pulley and the armature, is reduced. In contrast, when the pulley and the armature are decoupled from each other, the movable member is placed at a location where the magnetic resistance of the attracting magnetic circuit is increased, and a magnetic resistance of a non-attracting magnetic circuit is reduced. Thereby, a coupled state or a decoupled state of the pulley and the armature can be maintained without an erroneous operation. | 04-14-2011 |
| 20110192700 | DRIVE MECHANISM AND METHOD - A drive train is used at least including an input shaft and an output shaft. A clutch member is rotatable by a clutch shaft about an axis of rotation. The clutch shaft is supported for lateral movement along the axis of rotation to move the clutch member to cooperate with the drive train at a first lateral position to cause the output shaft to turn and to move the clutch member to a second lateral position to disengage the output shaft from rotation of the input shaft. A permanent magnet is supported by one end of the clutch shaft and arranged for receiving an external magnetic biasing force along the axis of rotation to selectively move the clutch member between the first and second lateral positions. A traveling shaft can be used to support a selected gear for movement by the permanent magnet to implement transmission and reversing configurations. | 08-11-2011 |
| 20120205216 | Drive System for Hermetic Applications and Device Having Such Drive System - A drive system including a partition wall; a drive device positioned on a first side of the partition wall, wherein the drive device includes at least one first member positioned on said first side of said partition wall. An actuator for actuating the drive device, where the actuator is positioned on a second side of the partition wall so that the partition wall is between the drive device and the actuator, and where the actuator includes at least one second member positioned on the second side of said partition wall. The second member of the actuator is magnetically coupled to the first member of the drive device, where movement of the second member causes movement of the first member, and to a device including a drive system. | 08-16-2012 |
| 20130306428 | FRICTION CLUTCH - A friction disk clutch with an electromagnet arrangement which has a coil former and a ferromagnetically conductive coil support, which supports the coil former and at least partially surrounds the latter, and, adjacent to the coil support, there are permanent magnet means, by means of which an axially movable friction section of the friction disk clutch can be connected magnetically to the rotor, and the permanent magnet means are arranged on the rotor in such a way that the permanent magnet means are covered by essentially no magnetically conductive section of the rotor on a side which is transverse to the direction of magnetization thereof. Anchoring means for mounting the permanent magnet means on the rotor include a mounting section formed for this purpose on the rotor, by means of which the permanent magnet means are mounted in the correct position on the rotor. | 11-21-2013 |
| 20150060226 | OPPOSED IRON CORE, MANUFACTURING METHOD THEREOF, AND ELECTROMAGNETIC FAN CLUTCH USING OPPOSITE IRON CORE - Provided are an opposed iron core transmitting rotation motion, a manufacturing method thereof, and an electromagnetic fan clutch formed by the opposed iron core. The opposed iron core includes iron core grooves ( | 03-05-2015 |
| 20150292574 | CLUTCH MECHANISM - When a control unit starts to supply power to an electromagnetic coil in a first direction, a magnetic force generated by a non-attracting magnetic circuit becomes larger than a magnetic attraction force generated by an attracting magnetic circuit. As a result, a movable member is guided by a guide portion of a yoke and moves to a second position from a first position. When the control unit starts to supply power to an electromagnetic coil in a second direction, the magnetic attraction force generated by the attracting magnetic circuit becomes larger than the magnetic force generated by the non-attracting magnetic circuit. As a result, the movable member is guided by the guide portion and moves to the first position from the second position. Accordingly, the movable member can reliably perform a moving operation when turning ON/OFF. | 10-15-2015 |
| 20150300424 | CLUTCH MECHANISM - In a clutch mechanism, non-magnetic portions of an armature and non-magnetic portions of a pulley are offset from one another in a radial direction of a rotating shaft. For this reason, in an attracting magnetic circuit, magnetic flux passes between an outer cylindrical portion and an inner cylindrical portion so as to avoid the non-magnetic portions of the armature and the non-magnetic portions of the pulley. Accordingly, magnetic flux passes through a boundary between the armature and the pulley six times. The number of poles of the attracting magnetic circuit is increased. The physical size of a permanent magnet can be reduced. For this reason, the physical size of the clutch mechanism is reduced. As a result, the power consumption of an electromagnetic coil can be reduced by increasing the cross-sectional areas of coil portions. The physical size of the clutch mechanism is reduced and the power consumed is reduced. | 10-22-2015 |
| 20160025159 | ELECTROMAGNETIC CLUTCH AND MANUFACTURING METHOD THEREOF - A ring insertion groove is formed between adjacent two of circular plates, which are made of a magnetic material and are arranged concentric with each other, and a ring, which is made of a non-magnetic material and has a larger deformation resistance in comparison to the magnetic material of the plates, is press fitted into the ring insertion groove. Thereafter, a peripheral part around an opening of the ring insertion groove is plastically flowed, so that a compression stress is left in the ring. | 01-28-2016 |
| 20160053828 | CLUTCH MECHANISM - When a clutch relay connects between a control device and a vehicle electric power source in response to outputting of a clutch OFF signal from an electronic control device to the clutch relay, a timer circuit starts a control operation for energizing coil portions. When a predetermined time period elapses, the timer circuit terminates energization of the coil portions. When the clutch relay connects between the control device and the vehicle electric power source in response to outputting of a clutch ON signal from the electronic control device to the relay, the timer circuit starts a control operation for energizing the coil portions. When a predetermined time period elapses, the timer circuit terminates energization of the coil portions. | 02-25-2016 |
| 20160153506 | Electromagnetic Connect/Disconnect System for a Vehicle | 06-02-2016 |
