| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 310120180 | Synchronous type (e.g., variable reluctance) | 41 |
| 20090189465 | LINEAR MOTOR WITH DIFFERENTLY CONFIGURED SECONDARY PART SECTIONS - The aim of the invention is to better adapt the power range of a linear motor to specific applications. For this purpose, the secondary part ( | 07-30-2009 |
| 20090206681 | PRIMARY PART AND LINEAR ELECTRICAL MACHINE WITH FORCE RIPPLE COMPENSATION - A linear electric motor including a primary part having a flux guiding element on the end faces of the primary part, a three-phase winding on the primary part that produces a first magnetic field and a permanent magnet on each end face that produces a second magnetic field that is superimposed on the first field to reduce force ripple is disclosed. The primary part has tooth modules and also end-tooth modules. The end-tooth modules have no winding, are located on the end face, and are smaller in volume than and shaped differently from the tooth modules. The primary part is separated from a secondary part by an air gap, and the end-tooth modules are separated from the secondary part by an additional air gap. | 08-20-2009 |
| 20100033032 | LINEAR SYNCHRONOUS MOTOR - A first pair of connected portions of one end magnetic pole portion, a first pair of connected portions of an end bracket, a first pair of connected portions of the other end magnetic pole portion, and a first pair of connected portions of each of five magnetic pole portions are connected by a pair of magnetic cylindrical members. A second pair of one connected portions of one end magnetic pole portion, a second pair of the other end magnetic pole portion, and a second pair of connected portions of each of five magnetic pole portions are connected by a pair of magnetic conductive parts. One pair of guide shafts are slidably fitted into the one pair of magnetic cylindrical members through linear bearings. A yoke is constituted from the one pair of magnetic cylindrical members and one pair of magnetic conductive parts. The five magnetic pole portions are each formed by laminating a plurality of magnetic steel plates in the axial direction. | 02-11-2010 |
| 20100231058 | ELECTRIC MOTOR WITH A MEASUREMENT SYSTEM FOR POSITION OR MOVEMENT - An electric motor with a magnet free main drive component, as stator or secondary part, having a measuring system for determining positions and directions with increased resolution is proposed. Said electric motor comprises a first engine part ( | 09-16-2010 |
| 20100259112 | STRUCTURE FOR LINEAR AND ROTARY ELECTRIC MACHINES - Disclosed herein is a structure for linear and rotary electric machines. The present invention provides a modular mover structure which includes coils that have an electrical phase difference of 180°, so that the path of magnetic flux is shortened, thus reducing the size of the machine and mitigating the back-EMF unbalance. Furthermore, the modular mover structure can be modified into various shapes. For example, when a skew structure is applied to a mover or stator iron core, the force ripples in an electric machine can be reduced. In addition, when a hinge structure is applied to a modular mover iron core, the mover can move in a linear and curved manner. Moreover, the structure of the present invention can be applied to a rotary electric machine. In this case, because the number of poles can be easily increased, a low speed high torque direct drive type rotary electric machine can be realized. | 10-14-2010 |
| 20100295385 | UNIT COIL, COIL ASSEMBLY AND CORELESS TYPE LINEAR MOTOR - The present invention discloses a unit coil, a coil assembly and a coreless type linear motor. The unit coil includes bent subcoils arranged adjacent to one another and disposed on a non-acting side axially. The coil assembly includes tri-phase unit coil modules arranged in an operating direction, and the tri-phase unit coil module is composed of three identical unit coils alternately stacked and sealed by a resin layer, and the unit coil is formed by bending and stacking sub-coils. The bent sub-coils are stacked to a sufficient thickness or arranged to a sufficient width to achieve the desired driving force, and then a magnetic rail is provided to form a coreless type linear motor. In the aforementioned structure, the unit coil composed by an alternately overlapping layout method effectively reduces the required space of the coil assembly, and the sub-coils can be manufactured easily and will not be damaged easily. | 11-25-2010 |
| 20100301684 | PRIMARY PART HAVING A COVER FOR A LINEAR MOTOR - The invention relates to a primary component ( | 12-02-2010 |
| 20110109173 | ELECTRICAL MACHINE APPARATUS - A mover includes a permanent magnet array including permanent magnets magnetized in a perpendicular direction perpendicular to a motion direction of the mover such that magnetic poles having different polarities alternately appear on magnetic pole surfaces of the permanent magnets along the motion direction. A stator includes first and second magnetic pole portion assemblies disposed on both sides of the permanent magnet array in the perpendicular direction and each including magnetic pole portions facing the magnetic pole surfaces, and a single phase winding that excites the magnetic pole portions forming the first and second magnetic pole portion assemblies. The winding has a hollow structure formed by winding a winding conductor into a coil such that the magnetic pole portions included in the first magnetic pole portion assembly and the magnetic pole portions included in the second magnetic pole portion assembly are located in an internal space of the winding. | 05-12-2011 |
| 20110156499 | LINEAR SYNCHRONOUS MOTOR - A stator core unit of a linear synchronous motor is divided into a plurality of divided cores. The divided cores each include a pair of connected portions. The pairs of connected portions are disposed along a first direct drive shaft and a second direct drive shaft to form a pair of connected portion arrays. A yoke is constituted from a pair of yoke elements which are formed of a magnetic conductive material and magnetically connect the connected portions of the pair of connected portion arrays. A first array of permanent magnets and a second array of permanent magnets are disposed to be shifted from each other by an electrical angle of 180°. A first array of windings and a second array of windings are excited with the first and second arrays of windings being shifted by an electrical angle of 180°. | 06-30-2011 |
| 20110187208 | LINEAR SYNCHRONOUS MOTOR - A linear synchronous motor is provided, of which a core unit may readily be manufactured. Accordingly, the manufacturing cost of the linear synchronous motor may be reduced, and the weight of the linear synchronous motor may be lightened. The linear synchronous motor includes a frame member that is formed of a magnetic conductive material and surrounds the periphery of a core unit centering on a shaft. The frame member functions as a yoke that magnetically connects a plurality of magnetic pole portions. The frame member is constituted from a first divided frame member and a second divided frame member fixed to the core unit with screws. | 08-04-2011 |
| 20120194006 | LINEAR MOTOR SYSTEM - A linear motor system is provided includes a coil assembly, a magnet assembly, and a bearing assembly disposed between the coil and magnet assemblies to allow movement of one or both of them. The bearing assembly includes a single bearing rail that can be mounted on either side of the magnet assembly. The rail has elongated recesses that receive bearing elements. A stage structure may be attached to the assembly, such at to the magnet assembly, to move a machine component along the rail. | 08-02-2012 |
| 20120200177 | MULTI-PHASE STATOR DEVICE - Disclosed is a stator device adapted to be arranged in an electrical machine, where the electrical machine further comprises a moving device,
| 08-09-2012 |
| 20120205992 | TRANSVERSE FLUX ELECTRICAL MOTOR - A transverse flux electrical motor to produce motion from an input electric current, the electrical motor comprising: a static element having a plurality of magnets arranged in at least two rows and defining a path of movement; a magnetizable movable element having at least two openings, each opening being sized and shaped to receive a magnet from one of the rows of magnets, the movable element being movable along the path of movement such that the magnets of each row pass through one of the openings; and a plurality of windings positioned adjacent to the movable element, to receive the electric current and produce a magnetic flux circuit in the movable element and a force on the movable element in the direction of the path of movement; wherein the magnetic flux circuit in the movable element is transverse to the direction of force on the movable element. | 08-16-2012 |
| 20120228965 | DIRECT-DRIVE ELECTRIC MACHINE - The present invention provides a direct-drive electric machine such as a generator and a motor comprising a rotor or a mover and a stator. The direct-drive electric machine is configured with a plural-module combination structure in which the rotor or the mover and the stator are mutually combined such that a plurality of modules form one phase, respectively. | 09-13-2012 |
| 20120242173 | LINEAR ACTUATING DEVICE FOR VEHICLE USE - A linear actuating device includes a track unit having an insulating sleeve made of non-metallic material and surrounding an axis, a plurality of coils mounted spacedly and sleevingly on the insulating sleeve along the axis, and a shell containing the insulating sleeve and the coils. The linear actuating device also includes a forcer unit having an elongate member extending through the insulating sleeve, having a segment configured for connecting to a vehicle shaft, and being movable along the axis relative to the insulating sleeve. The forcer unit also includes a plurality of magnets mounted spacedly relative to the axis and sleevingly on the elongate member. | 09-27-2012 |
| 20120262010 | ROTOR FOR PERMANENT-MAGNET LINEAR ACTUATOR - A rotor for a permanent-magnet linear actuator, comprising a series of permanent magnets which are supported by a shaft associated with means for its rotation, the permanent magnets being arranged laterally adjacent in the direction of the longitudinal axis of the shaft, with polarities that are shifted out of phase, in succession, by a preset angle. | 10-18-2012 |
| 20130015724 | Secondary for Linear Drive Motor Comprising Sheet of Highly Permeable Magnetic Material Having Synchronized Motor Teeth, Encoder Teeth, and Commutation Tracks Integrally Formed ThereinAANM Trammell; Glenn S.AACI Fort SmithAAST ARAACO USAAGP Trammell; Glenn S. Fort Smith AR USAANM Qiao; RuiAACI Fort SmithAAST ARAACO USAAGP Qiao; Rui Fort Smith AR US - A secondary for a motor, for instance a linear drive motor, has a sheet of highly magnetic permeable material with a plurality of slots extending through the sheet spaced along a length of the sheet. The slots define a plurality of teeth in the sheet and enable the sheet to be conformable to a mounting surface when forming the secondary of the motor. The top surface of the sheet has a plurality of pockets formed adjacent the plurality of slots. The pockets extend parallel to the width and are spaced along the length of the sheet. The pockets form a sensor operatively connected to a control of the motor. The sensor may be an encoder, and/or the sensor may be operatively connected to a control for controlling commutation of the motor, and/or setting positional limits and/or “home(s)” for the motor, providing absolute positional information and/or providing information about the sheet, for instance, the identity of one platen among many. | 01-17-2013 |
| 20130026859 | LINEAR MOTOR - Disclosed herein is a linear motor including: a first stator part including a plurality of stator cores having coils wound therearound multiple times and arranged to be spaced apart from each other by predetermined intervals in a longitudinal direction; a second stator part arranged to be spaced apart from the first stator part by a predetermined interval in a transversal direction so as to face the first stator part and including a plurality of stator cores having coils wound therearound multiple times and arranged to be spaced apart from each other by predetermined intervals in the longitudinal direction so that the second stator part is in parallel with the first stator part; and a mover arranged in an interval formed by the first and second stator parts and moving linearly. | 01-31-2013 |
| 20130049489 | MOVER FOR A LINEAR MOTOR AND LINEAR MOTOR - A mover for a linear motor includes an armature having a plurality of teeth arranged along a line and wound with coils. The mover further includes a main-pole magnet array arranged at a side of the armature at which the teeth exist. The main-pole magnet array includes a plurality of main-pole magnets with different polarities alternately arranged along an arranging direction of the teeth. The mover further includes at least one auxiliary-pole magnet arranged adjacent to one end or both ends of the main-pole magnet array. | 02-28-2013 |
| 20130057085 | ELECTRIC MACHINE WITH LINEAR MOVER - An electric machine that allows enhancement of thrust of a mover is provided. An electric machine includes a magnetic pole piece array including a plurality of magnetic pole pieces spaced along a permanent magnet array. The magnetic pole pieces are disposed between the permanent magnet array and winding portions in immovable relation with the winding portions. The pitch of permanent magnets and the pitch of magnetic pole pieces are determined such that magnetic flux flows through two of the permanent magnets magnetized in the same direction and located in the permanent magnet array with one permanent magnet interposed between the two permanent magnets, and also flows through one of the magnetic pole pieces facing the one permanent magnet interposed between the two permanent magnets and magnetized in a direction of magnetization different from the direction of magnetization of the two permanent magnets. | 03-07-2013 |
| 20130076159 | WINDING CONFIGURATION OF DOUBLY SALIENT PERMANENT MAGNET ELECTRIC MACHINE - The present invention relates to a doubly salient permanent magnet electric machine that has a winding structure in which series-connected windings are included in the phase windings of a mover, and that has a stator implemented as an iron core having a plurality of permanent magnets and a plurality of stator salient poles neighboring the permanent magnets, thus reducing the number of permanent magnets by half. An electric machine is configured such that a mover moves while facing a stator and includes an N (a number of power phases) multiple number of teeth and phase windings wound around the teeth, and one or more pairs of phase windings of the mover mutually having a phase difference of 180° are connected in series, and the stator includes permanent magnets in depressions between individual stator salient poles of an iron core in which the stator salient poles are formed. | 03-28-2013 |
| 20130127267 | CYLINDRICAL LINEAR MOTOR WITH LAMINATED STATOR - A cylindrical linear motor includes a cylindrical rotor, and a cylindrical stator arranged in coaxial relationship to the rotor. The stator has a plurality of annular coils which are arranged in coaxial relationship, and a ferromagnetic stator core which includes a plurality of individual laminations which are aligned radially or arranged in a star shape. This reduces a field displacement caused by eddy currents, as a result of which ultimately a time delay in the force buildup is also reduced. | 05-23-2013 |
| 20130154397 | HIGH EFFICIENCY MAGNETIC CORE ELECTRICAL MACHINES - A high efficiency magnetic core electrical machine includes magnet and coil assemblies that may be axially stacked to form modules. The magnet sub-assemblies include magnet locators on which multiple permanent magnets are arranged, and the coil sub-assembly includes a pair of bobbin holders supporting multiple bobbins and magnetic cores that extend through the bobbins and through openings in the bobbin holders to form magnetic poles that face the permanent magnets. The permanent magnets and magnetic poles may be arranged in various zero-cogging configurations, including one in which the permanent magnets on opposite sides of the coil assembly are skewed relative to each other to cause cogging force cancellation. In addition, a power matching circuit may be used to optimize the output power of the electrical machine to rotor speed when the electrical machine is used as a generator. | 06-20-2013 |
| 20130175886 | LINEAR ACTUATOR - A linear actuator for generating a thrust force for relatively displacing an outer tube and an inner tube in an axial direction includes a rod standing in an axial center part of the inner tube, a plurality of permanent magnets held side by side in an axial direction by the rod, a plurality of coils facing the permanent magnets, and a holder that is fixed to the outer tube and holds the plurality of coils. The holder includes a tubular coil holding portion that is provided in an annular space formed between the rod and the inner tube and holds the coils. A clearance is formed between the outer periphery of the coil holding portion and the inner periphery of the inner tube. | 07-11-2013 |
| 20130181547 | ELECTRIC MOTOR COMPRISING IRON CORE HAVING PRIMARY TEETH AND SECONDARY TEETH - An electric motor includes a rotor including an iron core and a plurality of windings, and a stator including a plurality of permanent magnets forming a plurality of poles. The iron core has a plurality of primary teeth around each of which a winding is wound and a plurality of secondary teeth around each of which no winding is wound. The primary teeth and the secondary teeth are formed alternately with each other. The electric motor is configured such that a ratio between the number of poles formed by the permanent magnets of the stator and the number of phases formed by the windings of the rotor is 4m:3n (m and n are any natural numbers, excluding the case where m:n=2:3 is satisfied). | 07-18-2013 |
| 20130249324 | FLUX-SWITCHING LINEAR PERMANENT MAGNET MACHINE WITH YOKELESS TRANSLATOR - Advantageous motors, such as flux-switching linear synchronous motors (FSLSMs) are provided. In an FSLSM, all magnets can be magnetized in the same direction. In addition, an FSLSM can be yokeless and can have two stators displaced from one another by half a pole pitch. FSLSMs of the subject invention are cost-effective and provide high thrust, and can operate well even under fault conditions. | 09-26-2013 |
| 20130257180 | TUBULAR LINEAR MOTOR - The tubular linear motor includes an armature having a coil and a magnetic exciter having a permanent magnet provided to face the coil. The armature has a yoke that blocks a magnetic flux, teeth that partition a slot for storing the coil, and the coil that is arranged to extend over the teeth from an inner side of the slot toward the magnetic exciter while a mechanical gap is reserved between the magnetic exciter and the coil. The magnetic exciter has a plurality of permanent magnets by interposing a soft magnetic body. | 10-03-2013 |
| 20130334900 | SLOTLESS ELECTRICAL MACHINES WITH MIXED FERROMAGNETIC/NON-FERROMAGNETIC CORE - The invention provides slotless electrical machines with mixed ferromagnetic/non-ferromagnetic core (mixed core). The invented slotless electrical machines with mixed core have less attraction and cogging force than conventional electrical machines with ferromagnetic core. | 12-19-2013 |
| 20140183981 | TRAVERSE FLUX INDUCTION MOTOR WITH PASSIVE BRAKING SYSTEM - A transverse flux induction motor (“TFIM”) is described in accordance with the present invention. The TFIM may be a linear induction motor or a rotary induction motor. The TFIM includes a primary motor element and secondary motor element. The primary motor element includes a plurality of coils and at least one magnetic element. The plurality of coils are arranged to generate a control flux along a first direction when power is applied to at least one coil of the plurality of coils and the at least one magnetic element is arranged to generate a bias flux in a second direction that is substantially transverse to the first direction. The secondary motor element is moveable in the first direction, relative to the primary motor element, in response to the control flux. | 07-03-2014 |
| 20140252888 | Permanent magnet synchronous planar motor with structure of concentric winding - A permanent magnet synchronous planar motor with a structure of concentric winding comprises a primary structure, a secondary structure, and an air gap. Armature windings in the primary structure of the permanent magnet synchronous planar motor are fixed on an air gap side of the primary base plate in a shape of board, wherein the air gap side is defined as a side adjacent to the air gap. The armature winding of each phase comprises a plurality of concentric rectangular coils. The rectangular coils are connected in series in turn from inside to outside, and winding directions of the two adjacent rectangular coils are opposite. A distance L | 09-11-2014 |
| 20140285034 | Linear motor with contactless energy transfer - An integrated electromagnetic energy conversions device is provided that includes a synchronous or brushless linear (SoBL) motor, and a transformer, where the transformer is integrated electromagnetically and topologically with the SoBL motor, where an electromagnetic field orientation of the transformer is perpendicular to an electromagnetic field orientation of the SoBL motor, where a magnetic-field decoupling between the SoBL motor and the transformer is provided and a position independent magnetic coupling of the transformer is provided, where the integrated SoBL motor and the transformer operate simultaneously in a motor and transformer mode. | 09-25-2014 |
| 20140312716 | PERMANENT MAGNET LINEAR ACTUATORS - An electromagnetic actuator including: a core comprising a material having a high magnetic permeability relative to air; an array of coils sequentially arranged on the core, each coil of the array of coils being wound around the longitudinal axis of the core; and a magnet assembly movably mounted along the array of coils, the magnet assembly having a coil side facing the array of coils and an opposite side facing away from the array of coils and including an array of permanent magnets sequentially arranged along the array of coils in a direction parallel to the longitudinal axis, wherein the magnetic moments of the plurality of magnets are selected and arranged to augment the magnetic field produced on the coil side of the magnet assembly and to reduce the magnetic field produced on the opposite side of the magnet assembly. | 10-23-2014 |
| 20150028697 | LINEAR MOTOR - A linear motor includes a stator and an armature that faces the stator with a gap therebetween. The stator has an elongated shape extending so as to cross a direction in which the stator faces the armature, and includes a plurality of salient poles that are arranged along a longitudinal direction of the stator and protrude toward the armature. The armature includes an armature core including a tooth that protrudes toward the stator, an armature winding wound around the tooth, a plurality of permanent magnets disposed on an end side of the tooth so as to be arranged along the longitudinal direction of the stator, and a magnetic-field sensor that detects a magnetic field which is generated by the plurality of permanent magnets and which passes through the plurality of salient poles. | 01-29-2015 |
| 20150035388 | Linear Motor - An object is to provide a linear motor in which even when the moving range of a movable element is long, the quantity of magnets to be employed is not increased. | 02-05-2015 |
| 20150054357 | ARMATURE OF CORELESS LINEAR MOTOR AND CORELESS LINEAR MOTOR USING THE SAME - The invention relates to a coreless linear motor and a method for manufacturing the same. The armature according to the invention comprises: an armature winding having at least one unit coil row which is formed by overlapping a plurality of coil rows; and a molded portion which surrounds the armature winding; wherein each coil row has a first coil portion and a second coil portion which have opposite winding directions; and wherein the plurality of coil rows which forms one unit coil row are overlapped such that the first coil portions are arranged in order and the second coil portions are arranged in order. Accordingly, the coil rows overlapped inside allow higher output with the same size. | 02-26-2015 |
| 20150061416 | LINEAR MOTOR DEVICE - A linear motor device includes a track member with multiple magnets with alternating N poles and S poles arranged along the moving direction, and a moving body with a configuration which includes an armature which is movably mounted on the track member; and the device generates a driving force in the moving direction between the magnetic flux created armature and the magnets of track member. The armature also includes a heat conduction member arranged in cooling passages formed in cores of the armature. By this, coils on the moving body side are cooled efficiently, and a large driving force can be achieved by passing a large current as well as maintaining a large space for winding the coils in order to increase the winding count. | 03-05-2015 |
| 20150295485 | Actuator and Method of Manufacturing Actuator - Provided are an actuator capable of easily aligning the center axis of an entire apparatus including a mover and a stator, and a method of manufacturing the actuator. The actuator includes a mover unit which includes a mover having a magnetic field part attached to a peripheral surface of center part of a shaft, bearing parts provided on both end parts of the shaft, a cylindrical body which houses the center part of the shaft and the magnetic field part therein, and has both end parts connected to the bearing parts. A stator in which coils are wound on a core and case bodies are fixed to each other by screws, and then the mover unit is inserted into a fixed body of the stator and the case bodies from an opening side of the case body. | 10-15-2015 |
| 20150303784 | MAGNETIC POSITION COUPLING AND VALVE MECHANISM - An apparatus including an array of coils wherein each coil of the array of coils is wound around a core region for containing a fluid; an external magnet assembly mounted outside of the array of coils and movable over the array of coils; and an internal magnet assembly mounted inside the core region around which the coils of the array of coils are wound, wherein the internal magnet assembly is aligned with and magnetically coupled to the external magnet assembly so that the external and internal magnet assemblies move together along the array of coils in response drive signals applied to the coils within the array of coils. | 10-22-2015 |
| 20160036309 | LAMINATED LINEAR MOTOR STATOR CORE - A linear motor ( | 02-04-2016 |
| 20160105091 | OIL-SUBMERSIBLE LINEAR MOTOR - A submersible linear motor ( | 04-14-2016 |
| 20160380523 | PERMANENT MAGNET LINEAR ACTUATORS - An electromagnetic actuator including: a core comprising a material having a high magnetic permeability relative to air; an array of coils sequentially arranged on the core, each coil of the array of coils being wound around the longitudinal axis of the core; and a magnet assembly movably mounted along the array of coils, the magnet assembly having a coil side facing the array of coils and an opposite side facing away from the array of coils and including an array of permanent magnets sequentially arranged along the array of coils in a direction parallel to the longitudinal axis, wherein the magnetic moments of the plurality of magnets are selected and arranged to augment the magnetic field produced on the coil side of the magnet assembly and to reduce the magnetic field produced on the opposite side of the magnet assembly. | 12-29-2016 |
