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Coils

Subclass of:

310 - Electrical generator or motor structure

310010000 - DYNAMOELECTRIC

310040000 - Rotary

310179000 - Windings and core structure

310195000 - Armature or primary

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DocumentTitleDate
20090230809STATOR WINDING FOR A SLOTLESS MOTOR - A stator winding for a slotless motor is parallel with the longitudinal axis of the motor except at the end turns of the coil windings. The coils have concentrated windings with a pair of coils wired in series to form one phase of the stator windings. Each of the pair of coils are wound such that the magnetic flux produced by a dc current through the coils produces magnetic flux of opposite directions with respect to the rotor of the motor.09-17-2009
20090108695Symmetrical Coil Electric Motor - An electric motor includes symmetrical elliptical coils on the inner surface of the motor stator. The coils are formed of a conductive material having a rectangular cross section and the long axis of the coils is parallel to the longitudinal axis of the stator. Within the stator and coils is arranged a rotor coaxial with the stator and having permanent magnets connected with the rotor exterior surface. The symmetrical coils produce increased magnetic flux when energized as compared to random windings on a stator energized with the same current level to increase the torque produced by and the efficiency of the motor.04-30-2009
20090195107ACTUATOR AND COIL FRAME - An actuator includes: a coil for excitation; a rotor rotatably supported; a stator effecting a magnetic force on the rotor for rotation, the stator having first and second leg portions arranged side by side; and first and second coil frames each having a body portion and a pair of flange portions provided at an end of the body portion. The first coil frame is assembled onto the first leg portion. The second coil frame is assembled onto the second leg portion. The first and second coil frames are connected via a connecting portion bendable. The body portions are arranged not to be sandwiched between the first and second leg portions. Each of the body portions covers a halfway or less of each of peripheral surfaces of the first and second leg portions of the stator.08-06-2009
20130076191HYBRID DIELECTRIC FILM FOR HIGH TEMPERATURE APPLICATION - A high-temperature insulation assembly for use in high-temperature electrical machines and a method for forming a high-temperature insulation assembly for insulating conducting material in a high-temperature electrical machine. The assembly includes a polymeric film and at least one ceramic coating disposed on the polymeric film. The polymeric film is disposed over conductive wiring or used as a conductor winding insulator for phase separation and slot liner.03-28-2013
20130076192DISK MOTOR AND ELECTRIC WORKING MACHINE INCLUDING THE SAME - A disk motor including: a rotor including, a commutator disk including a commutator pattern, and at least one coil disk including a coil pattern; a stator including a magnetic flux generating part opposed to the coil pattern of the coil disk; an electric current supply part configured to supply electric current to the coil pattern via the commutator disk and, an output shaft configured to be rotated by a rotational force of the rotor, wherein a radiating pattern is provided to an outer periphery side of the commutator pattern of the commutator disk.03-28-2013
20100117481WINDING ARRANGEMENT FOR AN ELECTRICAL MACHINE - A design for and method of winding an electric motor, generator or other electrical machine using multiple strands of wire preformed into a wave shape with a plurality of legs connected by shaped end turns. This results in efficient packing and improved machine performance in terms of both efficiency and power density without the need for flux concentrators. The conductors or windings may be preformed so as to be a self supporting structure, aiding assembly and eliminating the need for an iron core.05-13-2010
20130082563DISK MOTOR, ELECTRIC WORKING MACHINE INCLUDING THE SAME AND METHOD FOR ADJUSTING BALANCE OF DISK MOTOR - A disk motor including: a coil disk to which a coil pattern is formed; an electric current supply part configured to supply electric current to the coil pattern; a magnetic flux generating part opposed to the coil pattern; and an output shaft configured to be rotated by a rotational force of the coil disk, wherein the coil disk includes a balancing area at an outer periphery side of the coil pattern.04-04-2013
20130069475ELECTROMAGNETIC COIL STRUCTURE HAVING A FLAT CONDUCTIVE TRACK, MAGNETIC CORE AND MAGNETO ELECTRONIC ANGLE SENSOR - The present invention relates to an electromagnetic coil structure for being mounted on a magnetic core. Such a magnetic core is for instance a part of a rotating electric machine or of a magneto electronic angle sensor. The present invention further relates to a belonging magnetic core and to a magneto electronic angle sensor, in particular a reluctance resolver. Furthermore, the present invention relates to a method for fabricating such an angle sensor. The coil structure (03-21-2013
20130069474COMPOSITE CONDUCTOR INSULATION - An electric machine having insulated conductor wires and a method of insulating the conductor wires. The conductor wires include an electrically conductive core and an electrical insulation portion. The electrical insulation portion includes an electrical insulation coating layer and at least one electrical insulation wrap layer.03-21-2013
20130057106MANUFACTURING METHOD OF ROTATING ELECTRIC MACHINE AND ROTATING ELECTRIC MACHINE - A manufacturing method of a rotating electric machine according to an embodiment includes forming a stator by selectively attaching any one of a first stator winding and a second stator winding to a stator core, forming a rotor to be arranged on an inner periphery of the stator to face the stator, and arranging the stator and the rotor in a housing.03-07-2013
20110037337ROTARY ELECTROMAGNETIC MACHINES - A rotary electromagnetic machine is described which comprises first and second substantially cylindrical parts arranged to move relative to each other about a common axis. The first cylindrical part produces a spatially periodic radial magnetic field across an air gap, the magnetic field having a regular alternating polarity around the circumference of the first cylindrical part. The second cylindrical part comprises at least one laminar electrical conductor wrapped into cylindrical form and placed in the air gap to intercept the magnetic field, the laminar electrical conductor comprising a regular pattern of electrically conductive paths within the air gap. In more general terms, rotary motors in which the wire coils are replaced by laminations of material in which patterned conducting paths are created are described. The conducting laminations are placed in the air gap between an mature and backing iron that is constructed so as to reduce eddy current losses.02-17-2011
20130062986ELECTROMAGNETIC COIL, CORELESS ELECTROMECHANICAL DEVICE, MOBILE BODY, ROBOT, AND MANUFACTURING METHOD FOR ELECTROMAGNETIC COIL - An α-wound coil is formed by winding ends on both sides of a predetermined intermediate position of a wire rod from air-core end edges of both the ends toward an outer circumferential side to form two coil portions and superimposing the formed two coil portions to be opposed to each other. When the electromagnetic coil is subjected to bending molding to be adapted to a shape along the cylindrical surface on which the electromagnetic coil is arranged, the circumferential length of a bent-molded shape along the circumferential direction of the cylindrical surface of a first coil portion arranged on the inner circumferential side is set to be smaller than the circumferential length of a bent-molded shape along the circumferential direction of the cylindrical surface of a second coil portion arranged on the outer circumferential side.03-14-2013
20090236928ELECTRICAL MACHINE - The invention describes an electrical machine having an armature with armature slots for accommodating armature coils, and a commutator with commutator laminates. At least one armature coil is formed from two coil elements, which are arranged symmetrically with respect to one another in relation to the axis of rotation of the armature. The electrical machine is designed such that the number of commutator laminates is an integral multiple of the number of armature slots.09-24-2009
20110278980STATOR COIL PRODUCTION METHOD AND ELECTRIC MOTOR EQUIPPED WITH STATOR COIL PRODUCED BY THE SAME - A stator coil production method using a plurality of shaping press pairs. A stator coil is made up of in-slot portions to be disposed in slots of a stator core and coil-end portions each of which extends every adjacent two of the in-slot portions. Each of the shaping press pairs has a die and a punch disposed on both sides of a conductor wire travel path. The method includes a first step of moving the die and the punch close to each other to shape a portion of a conductor wire into one of the coil-end portions, and a second step of bringing adjacent two of the shaping press pairs close to each other and simultaneously moving one of the adjacent two of the shaping press pairs in a direction perpendicular to the conductor wire to shape a portion of the conductor wire into one of the in-slot portion.11-17-2011
20110140564COIL SHEET, METHOD FOR MANUFACTURING COIL SHEET, COIL SHEET HOLDER, METHOD FOR ATTACHING COIL SHEET, ROTATOR OF MOTOR, AND MOTOR - A coil sheet has an insulative substrate which bends and has the first surface and the second surface on the opposite side of the first surface, a first conductor forming a first spiral conductive pattern and formed on the first surface of the insulative substrate, and a second conductor forming a second spiral conductive pattern and formed on the second surface of the insulative substrate. The width of the tip portion of the second conductor of the second spiral conductive pattern is set narrower than the width of the base end portion of the first conductor of the first spiral conductive pattern.06-16-2011
20090243420ELECTRIC ROTATIONAL MOTOR - A rotational motor includes a stator formed by a core member including: a magnetic core portion extending in a radial direction of the rotational motor and formed into a fixed shape in every cross section thereof extending orthogonally relative to the radial direction, a coil wound around the magnetic core portion to form a plurality of layers and an engagement member engaging with the coil. A gap is generated between windings of the coil at a predetermined position when an uppermost layer winding portion of the coil is wound in series with a second layer winding portion from an outer side to an inner side of the uppermost layer winding portion in the radial direction. The coil is wound to fill the gap when a winding position of the coil is returned from an innermost side to the outer side of the uppermost layer winding portion in the radial direction.10-01-2009
20090195106Coil assembly for electrical rotating machine, stator for electrical rotating machine, and electrical rotating machine - The torque characteristic is improved using a magnetic flux efficiently, and an eddy-current loss generated in a coil is reduced. Moreover, a loss is suppressed even if a metal member having a high thermal conductivity is closely disposed or closely contacted to a coil surface exposed by a variable magnetic field to improve the heat transfer property, thereby improving the cooling capability. A coil assembly for a rotational electric apparatus has first and second coil plates having wiring patterns formed in such a way that conductive coil segments adjoin with each other via slits, magnetic-flux-transfer-member slots formed in the slits and having a wider width than such slits, a coil constituted by the stacked coil plates so that the magnetic-flux-transfer-member slots overlap with each other, and a magnetic flux transfer member inserted into the magnetic-flux-transfer-member slots of the coil.08-06-2009
20120187795Armature Windings - The present invention relates to armature windings for DC electrical machines, and in particular to those that use electronic commutation and have relatively few slots per pole-pair. The armature windings are particularly well suited for use with rotating DC electrical machines that have a large diameter and a large number of poles such as those that might be directly coupled to the turbine blade assembly of a wind turbine. The armature winding is arranged in relation to the magnetic field generated by a field winding or by permanent magnets such that a number of commutation events during the time taken for the relative movement between the armature and the field system of one pole-pair is much larger than the number of coils per pole-pair.07-26-2012
20110266911Winding Arrangement - A winding arrangement for an armature of an electric machine is provided. The winding arrangement includes a plurality of coils and a plurality of distinct winding types, wherein the coils are arranged on the armature such that each coil comprises the same number of windings and the same number of each of the distinct winding types. An armature for a generator including a plurality of coils, wherein the coils are arranged on the armature according to such a winding arrangement is also provided. A wind turbine with a generator including a rotor and a stator is also provided.11-03-2011
20090146524Coil module for a stator of an electric motor, stator, electric motor, circulation pump and method of manufacturing a stator - A coil module for a stator of an electric motor comprising a coil holder, a coil that is disposed on the coil holder, a first web and a second web is provided, wherein situated between the first web and the second web are a first coil portion and a second coil portion for contacting with a motor circuit.06-11-2009
20100090558COIL WINDING METHODS AND STRUCTURES FOR A SLOTLESS STATOR IN A MOTOR - A method to form a field winding for a slotless stator including: forming the first coil group by spirally winding an insulated wire for each coil winding around a mandrel such that each turn of the wire is adjacent a next turn of the wire; after forming the first coil group, axially shifting along the mandrel the insulated wire from a trailing edge of each coil winding to position the wires at a leading edge of each of coil winding in the second coil group; forming the second coil group by spirally winding the insulated wire for each coil winding around a mandrel; removing the mandrel from the wound first and second coil groups; collapsing the wound coil groups to a layer web such that coil winding segments are interleaved; and wrapping the web into a cylinder to form the field winding.04-15-2010
20130099621Electrical Conductor With Surrounding Electrical Insulation - An electrical conductor provided with an electrical insulation system surrounding the conductor, the insulation includes a first insulation layer surrounding the conductor and a second insulation layer surrounding the first insulation layer. The second insulation layer includes a second polymer and a second filler in the form of chromium oxide (Cr04-25-2013
20120293035CORELESS ELECTRIC MACHINE APPARATUS, MOVING BODY AND ROBOT - A coreless electric machine apparatus includes: a permanent magnet arranged on the first member; two-phase coreless electromagnetic coils arranged on the second member; a coil back yoke arranged on the second member, wherein the electromagnetic coils include effective coil areas for generating a force to move the first member relatively to the second member, and coil end areas, the effective coil areas of the two-phase electromagnetic coils have same shape and are arranged in a cylindrical area between the permanent magnet and the coil back yoke, the coil end area of a first phase electromagnetic coil of the two-phase electromagnetic coils is bent in an inside direction or an outside direction of the cylindrical surface, the two-phase electromagnetic coils have same electric resistance value, and the coil back yoke covers outer peripheral areas of the effective coil areas and does not cover outer peripheral areas of the coil end areas.11-22-2012
20110198963Dual Layer Winding Pattern - A dual-winding layer arrangement for a three-phase, four pole motor is provided.08-18-2011
20130119814FOIL COIL STRUCTURES AND METHODS FOR WINDING THE SAME FOR AXIAL-BASED ELECTRODYNAMIC MACHINES - Disclosed are foil coil structures and methods for winding the same for stators in electrodynamic machines, as well as electrodynamic machines that implement such coil structures. In one embodiment, a foil coil structure is configured for implementation with a field pole member having pole faces that confront, for example, conical magnets.05-16-2013
20130119815SEGMENTED ARMATURE MOTOR - Provided is a segmented armature motor, which includes a plurality of armature coils which enclose a rotor having a rotary shaft, an armature which houses the armature coil and which is coupled in a segmented form, a motor frame which is coupled to the armature so as to enclose the armature, and motor covers coupled to the front and rear faces of the motor frame. The segmented armature motor is formed so that the armature coils completely enclose a pole portion of the rotor and are formed into a horseshoe shape or U shape, thereby minimizing magnetic losses of the armature and of the rotor.05-16-2013
20090127965ROTATIONAL ELECTRIC MACHINE HAVING FIELD WINDING FORMED BY COUPLING FORMED COIL TO BOBBIN - The rotational electric machine includes a cylindrical yoke and a field winding connected to an inner surface of the cylindrical yoke. The field winding is composed of plural formed coils, each coupled to a bobbin. The bobbin includes a first flange for insulating the formed coil from the inner surface of the cylindrical yoke, a second flange for insulating the formed coil from a supporting brim of a pole core and a pipe portion for insulating the formed coil from a boss portion of the pole core. The first flange is made all around the pipe portion while the second flange is formed to extend only in the lateral direction of the pipe portion. The bobbin is easily coupled to the formed coil by flexibly bending the bobbin. Alternatively, the bobbin or bobbins may be made by folding a bobbin sheet after placing the formed coils on the bobbin sheet.05-21-2009
20110266912ROTATING ELECTRIC MACHINE WITH A STATOR WINDING COMPRISING A PLURALITY OF COILS AND METHOD FOR MANUFACTURING SAME - A rotating electric machine is provided and includes a rotor rotating around an axis, and a stator concentrically surrounding the rotor, the stator being equipped with a stator winding, which includes a plurality of coils. Each of the coils is wound in a series of adjacent single coils around a respective series of adjacent teeth distributed along the inner circumference of a laminated stator core and extending in axial direction. All of the single coils of each coil are wound in an uninterrupted fashion with one continuous cable.11-03-2011
20120139383METHOD FOR PRODUCING A STATOR WINDING OF AN ELECTRIC MACHINE, IN PARTICULAR FOR PRODUCING AN ALTERNATOR - The invention relates to a method for producing a stator winding (06-07-2012
20090072653Stator Structure of Rotary Electric Machine and Method of Manufacturing the Same - A stator of rotary electric machine includes a plurality of winding bodies of a concentrated winding type in which two conductive wires are wound in rows. Assuming that the number of conductive wires supplied to each winding body is P, the number of slots (winding bodies) of the entire stator is T, and the number of neutral points (the number of stars) is S, winding wires extending between the winding bodies are twisted at spacing intervals of N winding bodies (N is a natural number) determined to satisfy the following relation: T=3×S×P×N.03-19-2009
20110227445STATOR AND COIL - A stator comprises: a stator core having a plurality of slots; and a cage coil formed of a rectangular combined conductor that is wound by a plurality of turns. The combined conductor includes: a first conductor formed in a continuous zig-zag pattern; a second conductor formed in a continuous zig-zag pattern, the first and second conductors being combined to overlap one on the other with a displacement of one pitch; conductor in-slot portions overlapped and mounted in each of the slots of the stator core; conductor connecting portions placed circumferentially on the outside of the slots; and conductor stepped portions connecting the conductor in-slot portions and the conductor connecting portions.09-22-2011
20110227444ROTATING ELECTRICAL MACHINE VOLTAGE EQUALIZATION TOPOLOGY - A winding for an electric machine having a plurality of coils wound about a lamination stack or other suitable ferro-magnetic carrier, comprising each of several phases. Each of several filars comprising said coils distributed circumferentially around the laminations in a woven manner. Each of said filars consisting of one or more continuous conductors deposed into lamination slots in such manner that each filar is equidistant from the axis of the stator.09-22-2011
20090200889Nested Serpentine Winding for an Axial Gap Electric Dynamo Machine - The stator of an axial gap dynamoelectric machine comprises two or more serpentine coil arrays that are formed form a continuous loop of insulated wire. The serpentine coils are deflected in at least some of the tangential components so the place radial segments disposed to generate a Lorenz force with respect to the rotor magnets in a common plane, reducing the gap there between.08-13-2009
20080315708Foil coil structures and methods for winding the same for axial-based electrodynamic machines - Disclosed are foil coil structures and methods for winding the same for stators in electrodynamic machines, as well as electrodynamic machines that implement such coil structures. In one embodiment, a foil coil structure is configured for implementation with a field pole member having pole faces that confront, for example, conical magnets.12-25-2008
20090121576METHOD FOR INSERTING A COIL IN A POLYPHASE ROTATING ELECTRICAL MACHINE STATOR, AND ASSOCIATED STATOR - A method for inserting a corrugated coil in an alternator stator, the coil comprising a number of wires, each designed to form around the inner surface of an assembly of plates a spiral including a number of turns corresponding each to one turn of the inner surface. The method includes forming each wire, the latter being configured into a succession of recesses comprising two lateral branches designed to be inserted each into a slot; and inserting the turns of each wire into a series of slots of the stator, the turns of the various wires being radially superimposed in a predetermined sequence.05-14-2009
20100259124METHOD FOR PRODUCING A ROTARY ELECTRIC MACHINE STATOR AND ARRANGEMENT OF CONDUCTORS ON A SUPPORT - A method of producing a stator for a rotary electrical machine comprising a body in which axial recesses are produced and comprising a plurality of conductors arranged in the recesses, which comprises a step of depositing conductors on a linear support that comprises transverse recesses, comprising a first phase of depositing conductors in the recesses in the support in order to form a first layer of conductors, and a second phase of depositing conductors in the recesses, in order to form a second layer of conductors that is arranged vertically above the first layer; the first deposition phase and the second deposition phase consists of depositing one and the same conductor on the linear support. The invention also proposes an arrangement of a set of conductors on a linear support obtained at the end of the deposition step.10-14-2010
20100001610COIL ASSEMBLY FOR ROTATING ELECTRIC MACHINE - A coil assembly for a rotating electric machine is a stator coil (01-07-2010
20100277029ARMATURE WINDING OF ROTATING ELECTRICAL MACHINE - There is provided a 3-phase 2-layer armature winding of a rotating electrical machine. The lead-out connection conductor connected to the output terminal is connected to a coil piece positioned at least farther than a first coil piece inside the phase belt counted from the end of the each phase belt, and a coil piece positioned at the end of the phase belt is connected to a coil piece positioned at least farther than the n-th (n is an integer larger than 1) inside the phase belt counted from the other end of the phase belt in the same parallel circuit, by a jumper wire.11-04-2010
20100253173AXIAL GAP TYPE CORELESS ROTATING MACHINE - A high-output and highly efficient axial gap type rotating machine capable of reducing an eddy current generated in a winding wire and supplying a larger current is provided. The axial gap type rotating machine may include a housing, a rotating shaft rotatably supported in the housing; two rotors capable of rotating integrally with the rotating shaft, and a stator fixed to the housing, the stator disposed in an air gap formed by the rotating plates disposed to face each other, the stator including a fixing plate and coils disposed in a circle on the fixing plate so as to face the circles of the permanent magnets, wherein each of the coils includes a winding wire formed by a bundle of at least two coil conductors having rectangular cross sections by aligning at least one of long sides and short sides thereof, and the winding wire has an outer circumference covered with an insulating coating and is wound such that the long sides in cross section of the coil conductors are positioned perpendicular to the magnetic pole surfaces of the permanent magnets.10-07-2010
20110210641ARMATURE OF ELECTRIC MOTOR AND ELECTRIC MOTOR - An armature of an electric motor includes a core and a winding. The core has a plurality of slots and a plurality of teeth formed between the slots. The winding is composed of a plurality of wires. The winding has a plurality of coil parts and connecting portions. The coil parts are inserted into the slots and wound around and across the teeth. The connecting portions connect the coil parts together. The winding has a twisted shape in the connecting portions.09-01-2011
20110057537WINDING METHOD, WINDING APPARATUS, AND STATOR - A winding method of forming a coil by edgewise bending a flat rectangular conductor comprises a step of edgewise bending the rectangular conductor to form edgewise bending portions so that two predetermined two adjacent bent portions are formed so that an outward bulging portion to be generated by edgewise-bending of the flat rectangular conductor is generated in a concentrated manner in a side between the two edgewise bent portions, and the side having the bulging portion constitutes each of a pair of opposite sides of the coil.03-10-2011
20110057536Coil Unit for Motor Stator - A coil unit for a motor stator includes a plurality of layout layers. At least one coil and a conductive portion electrically connected to the at least one coil are formed on a surface of each layout layer. The conductive portions of two adjacent layout layers are electrically connected to each other. An insulting layer is provided between two adjacent layout layers. The coil unit can be coupled to a face of a substrate to form a motor stator with reduced axial height and reduced volume.03-10-2011
20100201219Electromotive Part Of An Elevator Drive - The present invention relates to an electromotive part of an elevator drive, comprising a rotor (08-12-2010
20110210640STATOR OF AN ELECTRIC MACHINE - The invention relates to a stator of an electrical machine, with at least one stator tooth and a coil wound outside of the stator, which coil has been pushed onto the stator tooth substantially radially. It is provided that the coil (09-01-2011
20100164320METHOD FOR THE MECHANICAL WINDING OF A COIL - In a method for the mechanical winding of a coil (07-01-2010
20100164319METHOD FOR MANUFACTURING A WINDING COIL FOR AN ELECTRICAL MACHINE AND A WINDING FOR AN ELECTRICAL MACHINE - The object of the invention is a method for manufacturing a winding coil for an electrical machine, as well as the corresponding winding. The electrical machine comprises a stator sheet pack in which slots are arranged at the edge of the inner circumference of the sheet pack for fitting the winding coils. In the method, a winding coil is made of flat wire so that one coil turn (07-01-2010
20100164318PHASE WINDING FOR A ROTATING ELECTRICAL MACHINE STATOR AND STATOR EQUIPPED WITH SAME - A rotating electrical machine stator comprising an annular cylindrical body including axial grooves, and at least one phase winding including corrugated turns of wire, the phase winding comprising a first outer half-phase and a second inner half-phase which are radially superimposed, the first outer half-phase including outer leading-out wires projecting from the radial walls of the body and the second inner half-phase including outer leading-out wires projecting from the radial walls of the body. The invention is characterized in that for each phase winding, the wire length of each turn of the inner half-phase is greater than the wire length of each turn of the outer half-phase. The invention also concerns a phase winding designed to be mounted in such a rotor.07-01-2010
20110241472Rotating Electrical Machine and Method for Manufacturing a Stator Thereof - A group of coils used in a stator of a rotating electrical machine, wound continuously upon a divided core with a crossover wire, in which 2N coils (where N is a natural number) are arranged at approximately regular intervals, wherein a winding direction of N coils, which are first through Nth continuously wound coils, of a front half of the 2N coils, and a winding direction of rear half coils which are (N+1)-st through (2N)-th continuously wound coils, are opposite.10-06-2011
20100225193Coils - The present invention provides an improved single-layer coil 09-09-2010
20120242185DISK MOTOR AND ELECTRIC WORKING MACHINE INCLUDING THE SAME - A disk motor including: a rotor; a stator; at least one coil disk provided to one of the rotor and the stator; at least one magnet provided to the other of the rotor and the stator and facing a coil pattern of the coil disk; a current supply part for supplying current to the coil pattern; and an output shaft rotated by a rotating force of the rotor, wherein an insulating resin layer is provided between the coil pattern and the magnet.09-27-2012
20100066198INSERTION OF PRE-FABRICATED CONCENTRATED WINDINGS INTO STATOR SLOTS - A method is disclosed for manufacturing a motor stator including: a stator core 03-18-2010
20120133235STATOR FOR ELECTRIC ROTATING MACHINE - A stator includes a stator coil that is formed of electric conductor segments welded to one another. Each of the electric conductor segments includes at least one joining portion that is welded to another one of the electric conductor segments. The joining portion includes a first part and a second part that are arranged in a longitudinal direction of the electric wire segment. The second part includes a distal end of the electric wire segment, and the first part is on the opposite side to the distal end. The first part extends with its cross-sectional area perpendicular to the longitudinal direction continuously decreasing at a first predetermined rate toward the second part. The second part extends with its cross-sectional area perpendicular to the longitudinal direction continuously decreasing at a second predetermined rate toward the distal end. The second predetermined rate is less than the first predetermined rate.05-31-2012
20110156523ELECTROMAGNETICALLY EXCITABLE COIL - An electromagnetically excitable coil having a wire, the wire being wound around a wire holder in one winding direction, the wire having a winding start, which generally is disposed at a first end of the coil, and a winding end, which generally is disposed at the same end of the coil, using an uneven number of winding layers, the coil having an elongated cross-section and the cross-section having a longer side and a shorter side, the wire being routed from the second end of the coil to the first end of the coil while forming at least one wire crossing at the shorter side of the cross-section.06-30-2011
20110148243STATOR CORE FOR AN ELECTRIC MACHINE - A stator includes a body portion having an outer portion and an inner portion that defines an interior region, a plurality of stator teeth members extending from the inner portion into the interior region, and at least one continuous conductor wound around select ones of the plurality of stator teeth members to form at least one pole. Each of the plurality of stator teeth members including a number of wraps of the at least one continuous conductor. The at least one continuous conductor including a number of twists that is fewer than the number of wraps.06-23-2011
20100133945SEGMENTED STATOR CORE WINDING APPARATUS AND METHOD OF WINDING A SEGMENTED STATOR CORE - A winding apparatus for a segmented core having a plurality of stator teeth includes a mounting fixture configured to support select ones of the plurality of stator teeth. The mounting fixture is configured to rotate about an axis defined by each of the plurality of stator teeth. The winding apparatus also includes a plurality of stator tooth holding elements operatively connected to the mounting fixture. Each of the plurality of stator tooth holding elements are configured to retain a select one of the plurality of a stator teeth relative to the mounting fixture. The mounting fixture is selectively rotated about the axis of at least one of the plurality of teeth to apply wraps of wire to the one of the plurality of stator teeth while at the same time rotating others of the plurality of stator teeth that have already been wrapped with wire.06-03-2010
20110260573Electric Motor - An electric motor has a rotor, a stator and brushes. The rotor has a shaft, a rotor core fixed to the shaft and having a plurality of teeth, a commutator fixed to the shaft adjacent the rotor core and having a plurality of segments, and rotor winding units wound about the teeth and connected to the commutator segments. Each of the rotor winding units is connected to a pair of adjacent commutator segments. At least one of the rotor winding units has at least two coils connected in series. Each coil has at least two subcoils directly connected in series and separated from each other by at least one tooth. An initial subcoil and a final subcoil of each coil are respectively connected to a pair of segments.10-27-2011
20100213784SPLIT STATOR FOR ELECTRIC MOTOR AND MANUFACTURING METHOD OF THE SAME - A split stator for an electric motor includes a core having a tooth portion, a coil formed around the tooth portion, insulation spacers arranged between a surface of the tooth portion and an inner periphery of the coil, and holding the inner periphery of the coil with a space kept from the surface of the tooth portion, and a resin filler material having high thermal conductivity and filling the space. The resin filler material is configured to allow heat release from the inner periphery of coil to the core.08-26-2010
20100096944Multi-turn, stranded coils for generators - A technique for winding multi-turn, stranded wire coils using rectangular cables avoids the risk of damage associated with edge-wise bends.04-22-2010
20120306310CORELESS ELECTRIC MACHINE APPARATUS, MOVING BODY, ROBOT AND MANUFACTURING METHOD OF THE CORELESS ELECTRIC MACHINE APPARATUS - A coreless electric machine includes: a permanent magnet on a first member; N-phase (N≧2) air-core electromagnetic coils on a second member; and a coil back yoke on the second member, each electromagnetic coil including a conductor bundle in which a conductor is wound M times (M≧2), coil sub-aggregates are provided, each including the N electromagnetic coils of the respective N phases and in each of which a conductor bundle forming an effective coil area of a first-phase electromagnetic coil contacts a second conductor bundle forming an effective coil area of another phase electromagnetic coil, and the second conductor bundle is in an air-core portion of the first phase electromagnetic coil, and the coil sub-aggregates are arranged along the cylindrical area, in which the coil sub-aggregates do not overlap in a radiation direction of the cylindrical area, and adjacent coil sub-aggregates contact each other.12-06-2012
20090200890Winding For An Axial Gap Electric Dynamo Machine - The stator of an axial gap dynamoelectric machine has at least one substantially planar coil arrays formed by joining two or more sub-coils. Each sub-coil has a serpentine path about the stator perimeter that includes radial segments disposed to generate a Lorenz force with respect to the rotor magnets. The radial segments of the serpentine path joined by alternating inner and outer tangential segments. Each sub-coil starts with a proximal end at an outer tangential segments and a distal end about or within an inner perimeter of the inner tangential segments. Each sub-coil is joined at the distal end with another sub-coil to form the winding coil such that the proximal ends of the sub-coils constitute the two terminals of the planar coil array. This arrangement conveniently places both terminals of the planar coil array at the outer perimeter of the stator while also raising the winding inductance to a level more compatible with conventional motor power supplies.08-13-2009
20120038238AC Generator for Vehicle - A vehicular AC generator includes: a rotor (02-16-2012
20110316379MOTOR AND MOTOR DRIVEN POWER STEERING SYSTEM USING THE SAME - The present disclosure relates to a motor and a motor driven power steering system using the same. More particularly, the present disclosure relates to a motor adapted to maintain a balance of currents, and a motor driven power steering system adapted to reduce vibrations and noise and enhance steering quality using the same.12-29-2011
20120001513STATOR FOR ELECTRIC MACHINE - Disclosed is a stator for an electric machine. The stator is provided with a stator core, and first and second series of coils each formed into a predetermined shape. Each of the coils in the first series is provided with a pair of first coil ends which respectively protrude from both end faces of the stator core. Each of the first coil ends is provided with a pair of bent portions which extend outward in the radial direction of the stator, and a bridge portion which connects the bent portions. Each second coil end is provided with a pair of upright portions and a bridge portion which connects the upright portions. The bridge portions of the coils in the first series are disposed outside the bridge portions of the coils in the second series in the radial direction of the stator. The bridge portion of each of the coils in the second series extends across the bent portions of two adjacent coils in the first series. The coils in the first series and the coils in the second series are configured so that each series includes a mixture of coils of at least two phases among a U-phase, a V-phase, and a W-phase. Each of the coils in the first series is connected to a coil of the same phase in the second series.01-05-2012
20100219713STATOR WINDING FOR AN ELECTRIC MOTOR - The invention relates to a stator for an electric motor comprising several poles (P) that are directed inwards towards the motor axis (09-02-2010
20090184601POLYPHASE STATOR OF A ROTATING ELECTRICAL MACHINE WITH CLAW-POLE ROTOR AND ALTERNATOR OR ALTERNATOR STARTER COMPRISING SAME - The invention concerns a polyphase stator (07-23-2009
20120119608MOTOR STATOR - A motor stator includes a stator unit and at least one auxiliary unit. The stator unit includes a circuit substrate, and a plurality of spaced-apart induction coils embedded within the circuit substrate. The auxiliary unit includes an auxiliary coil attached to and disposed outwardly of the circuit substrate.05-17-2012
20120119609TRANSVERSE AND/OR COMMUTATED FLUX SYSTEM COIL CONCEPTS - Electrical machines, for example transverse flux machines and/or commutated flux machines, may be configured to achieve increased efficiency, increased output torque, and/or reduced operating losses via use of a dual wound coil. The coil ends of a dual wound coil can be on a common side, simplifying wiring. The dual wound coil may be configured with a low resistance, reducing resistive losses.05-17-2012
20120119607MOTOR STATOR - A motor stator includes an insulating frame having a plurality of projecting rods, an induction unit, and a plurality of conductive members. The induction unit includes an induction circuit board, a plurality of induction coils embedded within the induction circuit board, and a plurality of coil windings wound respectively on the projecting rods. The conductive members extend through the insulating frame and the induction circuit board for establishing an electrical connection between each of the induction coils and a corresponding one of the coil windings. The turn numbers of the coil windings are not limited by the area and thickness of the induction circuit board, and can be increased. Alternatively, the coil windings may be positioned to increase the magnetic pole slot number when energized. As such, a driving force of the motor stator can be increased.05-17-2012
20100026133COIL PRODUCTION METHOD, COIL OF MOTOR, AND STATOR OF MOTOR - A coil production method capable of improving the space factor of a rectangular conductor with respect to the slot of a stator core, a coil of a motor, and a stator of a motor. The coil production method in which one surface of a rectangular conductor is brought into contact with a shaft with guide, and edgewise bending is performed along the curved surface of the shaft, wherein a deforming mechanism for reducing the plate thickness of a plate thickness changed portion corresponding to each of four corners of a coil over the entire width of the rectangular conductor is provided, the deformation mechanism is used to deform the plate thickness changing portion, and the plate thickness changing portion of the rectangular conductor is edgewise-bent to form a coil.02-04-2010
20120248925ELECTRIC MOTOR AND MOTOR-DRIVEN COMPRESSOR USING THE SAME - An electric motor includes a rotary shaft, a rotor fixed on the rotary shaft, and a stator having plural slots in which coils of different phases are wound. Each of the coils has at least one pair of end wires. At least in the coil located closest to the rotor, one of the end wires located farther from the rotor than the other of the end wires is used as a lead wire that is to be electrically connected to a driver circuit for energizing the coils.10-04-2012
20120313477STATOR UNIT AND MOTOR - A stator unit including a coil in which a distance between an m−1-th turn and an m-th turn is wider than each distance in a first turn to the m−1-th turn. The m+1-th turn is disposed between the m−1-th turn and the m-th turn. Further, in a cross-section perpendicular to a central axis and passing a tooth, an angle between a line segment connecting respective centers of the m+1-th turn and the m−1-th turn and a line segment connecting respective centers of the m+1-th turn and the m-th turn is about 120° or more. With this structure, bulging in a circumferential direction of the coil adjacent to an inner peripheral portion of the tooth can be suppressed and a clearance can be secured between adjacent coils such that the number of turns of the coil can be increased.12-13-2012
20110181146STATOR FOR ELECTRIC ROTATING MACHINE WITH ENHANCED COOLING ABILITY - A stator for an electric rotating machine is provided which is equipped with a stator coil. The stator coil has a plurality of in-slot portions arrayed within each of slots formed in a stator core in a radial direction of the stator core. Adjacent two of the in-slot portions disposed in each of the slots have radially-facing surfaces which extend in non-parallel to one another at least one of ends of the in-slot portions. The non-parallel orientation of the radially-facing surfaces avoids close contact between entire areas thereof when the in-slot portions move undesirably within the slot in the radial direction of the stator core. In other words, a gap is kept between the radially-facing surfaces and serves as a radiator to dissipate heat, as generated in the in-slot portions.07-28-2011
20090058215BRUSHLESS MOTOR AND ELECTRIC POWER STEERING APPARATUS - A motor includes a cylindrical stator. The stator includes a stator core having teeth, which project inwardly in the radial direction, and coils, which are formed by winding a conductive wire onto each tooth with first and second insulators. The first insulator includes a support extending axially from an outer restriction wall. Each of first to third bus bars is supported by the support of the first insulator in a state in which a main portion is exposed. The main portions of the first to third bus bars are thus in contact with ambient air.03-05-2009
20090058216Stator and electric motor - Plate-shaped projections are provided on a front insulator in such a manner as to project towards a front housing. In addition, projecting pieces are provided on a surface of each projection which confronts an inner circumferential surface of a stator housing. The projecting pieces are provided on each projection in such a manner as to form three rows which are parallel to an inner circumferential direction of the stator housing. Spaces between the respective rows constitute guide paths by which the transition wirings which connect between the coils are disposed on the projection in such a manner as to be spaced apart from each other.03-05-2009
20120175991METHOD FOR MANUFACTURING A CYLINDRICAL WINDING FOR SLOTLESS ELECTRICAL MACHINE - The invention relates to a method for manufacturing a cylindrical winding for slotless electrical machine according to the following steps: 07-12-2012
20100194230Process of Manufacture and Manufacturing Device of Stator - An object of the present invention is to provide a small, high-power rotating electrical machine by suitably forming a distributed winding coil such that two stator magnetic poles each formed of in-phase coil turns are arranged within an electric angle of 360 degrees formed by magnetic poles of the rotor. The present invention provides a method for manufacturing a stator, the method including a first step of placing a distributed winding coil 08-05-2010
20090021100Stator Structure of External-rotor Motor - An improvement on the stator structure of external-rotor consists of the start-up coils and operating coils wound into the silicon steel race, wherein the said silicon steel race comprises a plurality of insulation columns and rabbets, and each insulation column has a wall formed at its external edge thereof, and more over, the said start-up coil is being wound-up, according to the clockwise sequence, at two rabbets positioned at each side of the datum point in an equal-length distance respectively thereto, in order to construct four sets of start-up coils by means of two corresponding sets of cross coils; in addition, there are another four sets of operating coils constructed at the top and bottom of datum point respectively, which are wound-up by means of two corresponding sets of cross coils in an equal-length distance respectively thereto, and thereat the said four sets of operating coils are covering onto the external edge of said start-up coils, so that both the start-up coils and operating coils will be uniformly distributed within the wall of said silicon steel race and in this way it will be able to protect and save its coil quantity and, thus acquire a practical effect on reducing the production costs and saving the electricity consumption.01-22-2009
20120228984ARMATURE FOR ROTATING ELECTRIC MACHINE - In an armature, a coil includes a plurality of conductor segments, each provided with a conducting side section and a pair of protruding sections. The two protruding sections in each pair extend in opposite directions from each other with respect to a circumferential direction. Each protruding section is joined to a protruding section of another conductor segment to which that conductor segment is joined. At least one of each two protruding sections joined to each other is provided with an offset bend section that offsets a tip towards the other protruding section in a radial direction. The join surfaces formed on the tips of the two protruding sections are joined facing each other in the circumferential direction.09-13-2012
20120228983STATOR MODULE, IN PARTICULAR FOR MULTI-PHASE ELECTRIC MACHINES, AND METHOD FOR PRODUCING SUCH A STATOR MODULE - The invention relates to a stator module for multi-phase machines, including a plurality of soft magnet stator segments that are individually wound with coils and that can be connected to a yoke, where the coils of a phase are connected in series. The stator module includes the stator segments of a phase form a stator segment chain, having at least two stator segments, the coils of which are formed by a winding wire free of interruptions.09-13-2012
20120299431INTERSPERSED MULTI-LAYER CONCENTRIC WOUND STATOR - A stator includes a stator support having multiple axially extending circumferentially arranged slots. Multiple phases each include multiple coils. Each of the coils has first and second opposing sides of conductor provided in the slots. A conductor in a second side of a first phase first coil is interspersed with a conductor in a second phase first coil. The conductors in a first side of the first phase first coil are arranged adjacent to one another and non-interspersed.11-29-2012
20120319524METHOD FOR MANUFACTURING WINDING COIL FOR AN ELECTRICAL MACHINE - A method is disclosed for manufacturing the winding coil of an electrical machine from flat wire. The coil can include coil sides fitted to a groove of an electrical machine and end sections which are left outside the groove and form a coil end. Flat wire can be used for winding a spool in which the coil rounds are in the same winding plane and in which there are two parallel straight coil sides on opposite sides. After this, the parallel straight coil sides can be bent towards each other essentially to the right angle in comparison to the winding plane.12-20-2012
20120080975Axial Coil for a Slotless Electric Motor - An axial self-supported coil for a slotless rotating electric motor. The axial self-supported coil includes one coil body formed by winded electrical conductors, with a head at each end, the electrical conductors in the coil body being substantially coplanar with the motor rotation axis, each coil head having an axial thickness, the axial self-supported coil having a conductor filling factor, characterized in that at least one of the electrical conductors is a multi-stranded conductor, in that a deformation arrangement of the multi-stranded conductor increases the conductor filling factor and in that a bending arrangement of the multi-stranded conductor reduces the axial thickness of each coil head.04-05-2012
20120080974DISC MOTOR AND ELECTRIC WORKING MACHINE EQUIPPED WITH DISC MOTOR - A disc motor includes an output shaft, a coil disc, an electric current supplying section, and a magnet. The coil disc is disc-shaped. The coil disc includes an at least two-layer structure having a first layer and a second layer. The coil disc includes a coil having a plurality of partial coil sections each extending outward in a radial direction of the output shaft and connecting sections each connecting together two partial coil sections. The electric current supplying section supplies an electric current to the coil. The magnet is disposed in opposition to the plurality of partial coil sections. The plurality of partial coil sections includes first partial coil sections formed on the first layer and second partial coil sections formed on the second layer. The first partial coil sections provide a total number different from that of the second partial coil sections.04-05-2012
20120280590AC GENERATOR - AC generators are disclosed. Example generators may include a tubular air core, with high magnetic permeability and with a first and second end, the air core having a plurality of eddy current reducing slits passing from a radially outer surface of the air core to a radially inner surface of the air core; and a continuous coil made of conducting wire having a plurality of loops wrapped around the air core, the coil positioned between the first end and the second end of the air core.11-08-2012
20120091849CONDUCTIVE WIRE UNIT AND GENERATOR WITH CLOSED MAGNETIC PATH - A stator for a generator with closed magnetic path comprises a coil support frame and a conductive wire unit arranged on the coil support frame. The conductive wire unit comprises a plurality of stacked basic conductive wire units. The basic conductive wire unit comprises a conductive wire layer and a magnetic-conducting sheet conformably stacked on and insulated from the conductive wire layer. The conductive wire layer comprises a plurality of conductive wires arranged in parallel and insulated from each other, or a conductive sheet with a plurality of elongated through gaps extending from a central region of the conductive sheet to a circumferential region of the conductive sheet, elongated portions between the elongated gaps function as conductive wires connected in parallel between the central region and the circumferential region. The conductive wire unit further comprises a shaped magnetic-conducting basic plate.04-19-2012
20130009511Flexible Winding for an Electric Motor and Method of Producing - A flexible winding, for a brushless, rotating motor, comprising a flexible substrate. A first winding circuit is disposed on a first side of the substrate. The flexible substrate is rolled into a substantially cylindrical shape such that the first winding circuit forms a winding suitable for an electric machine, such as a rotary motor.01-10-2013
20130015742SYNCHRONOUS MOTORAANM Inoue; YoshimitsuAACI Niwa-gunAACO JPAAGP Inoue; Yoshimitsu Niwa-gun JPAANM Satake; AkiyoshiAACI Niwa-GunAACO JPAAGP Satake; Akiyoshi Niwa-Gun JP - A synchronous motor 01-17-2013
20120242184Non-360 Degree Driving Brushless DC Motor - A brushless DC motor comprises: a rotor on which magnetic poles evenly arranged along the circumferential direction thereof; and a stator on which a plurality of coils are disposed. The coils are unevenly distributed along the circumference of the stator.09-27-2012
20100066197WINDING METHOD FOR STATOR AND PERMANENT MAGNET MOTOR - In a stator winding method for winding conductive wires 03-18-2010
20130093281BAR CONDUCTOR SHAPES FOR ELECTRIC MACHINES - A conductor is provided for an electric machine having an axis, a radial direction extending outward from the axis, and a tangential direction perpendicular to the radial direction. The conductor includes a solid core, having radial faces substantially perpendicular to the radial direction of the electric machine and tangential faces substantially perpendicular to the tangential direction of the electric machine. At least one tangential depression is formed on at least one of the tangential faces. The tangential depression creates a tangential void within a rectangular envelope defined by the solid core. Therefore, the surface area of the solid core is greater than the surface area of the rectangular envelope.04-18-2013
20130127290STATOR OF ROTATING ELECTRICAL MACHINE AND ROTATING ELECTRICAL MACHINE - A stator of a rotating electrical machine includes a stator core which is annular in shape, a plurality of stator coil groups constituting a plurality of phases, each-phase stator coil group being wound on the stator core and including a plurality of unit coils connected to each other, and a plurality of pieces of interphase insulation paper for insulation of coils belonging to different phases, disposed between coil ends of the unit coils belonging to different phases at both axial ends of the stator core, the interphase insulation paper pieces having ends which are inserted between the coil ends of the unit coils belonging to an identical phase, respectively.05-23-2013
20130127289CONDUCTOR AND ROTATING ELECTRICAL MACHINE - A conductor for a coil of a rotating electrical machine that includes a conductor wire bundle formed by gathering a plurality of conductor wires and a flexible insulating covering material that covers a periphery of the conductor wire bundle. The conductor has an intra-covering gap formed inward of the insulating covering material in a radial direction so that the conductor wires can move relative to each other in the intra-covering gap, and a cross-sectional shape of the insulating covering material along a perpendicular plane that is perpendicular to an extending direction in which the conductor wire bundle extends can be deformed.05-23-2013
20110273052DYNAMOELECTRIC DEVICE - A device, including a rotor, a stator, a coil wound around the stator, wherein the stator has a coil support structure having at least one side edge arranged along a line which is not parallel to a line extending from an axis of the rotor through a center of the coil.11-10-2011
20110210642ARMATURE OF ELECTRIC MOTOR AND METHOD FOR MANUFACTURING ARMATURE OF ELECTRIC MOTOR( amended - A stator is provided with a core and a winding. The core includes a plurality of slots and a plurality of teeth formed between the slots. The winding is composed of a plurality of wires W bundled in an irregular arrangement. The winding includes a plurality of coil portions wound on each of the teeth, and a connecting portion connecting the coil portions together. The winding has a twisted shape in the connecting portion.09-01-2011
20130147305MOTOR AND COIL STRUCTURE THEREOF - A motor comprises a coil structure and a plurality of magnetic materials. The coil structure includes three winding groups, each of which has a plurality of winding portions. The winding portions have an interval therebetween, and are electrically connected by a wire. The magnetic materials are disposed adjacent to the coil structure and corresponding to the winding groups. Accordingly, the motor has more magnetic materials within the same bending angle of the enameled wire, so that the motor can output larger torsion and power to enhance the motor efficiency.06-13-2013
20100283350FLYWHEEL GENERATOR SYSTEM HAVING OPEN SHAPED LOOP COILS - A series of elongated oval wire windings bent into open C-shaped or other loop shape coils are positioned around a flywheel. Magnets, mating the loop opening shape, extend from the outer edge of the flywheel on a thin disc to pass through the coils to generate electricity with the spin of the flywheel. With no magnetic material is the coils there is no magnetic resistance created thereby providing more efficient electricity generation.11-11-2010
20100308684Motor with Detacthable Winding Assemblies - A motor with detachable winding assemblies includes a motor base, a shaft tube, a driving circuit board, a shaft, a plurality of winding assemblies and a rotor. Each winding assembly includes a base, a winding, a packaging body and two electrical connection members. The base includes a supporting face. The winding includes two ends and a plane, wherein the plane is in intimate contact with the support face of the base. The packaging body encloses the base and the winding. The two electrical connection members are respectively connected with the driving circuit board and the two ends of the winding, wherein each of the electrical connection members is partially exposed outside the packaging body. The rotor is rotatably coupled to the shaft.12-09-2010
20100308683Brushless DC Motor and Stator Thereof - A stator for a brushless DC motor includes a cylindrical member and a positioning member. The cylindrical member is formed by a plurality of metal wires. Each metal wire includes two ends each forming a terminal. The cylindrical member includes first and second ends separated along a longitudinal axis. The positioning member includes an annular body received in the first end of the cylindrical member and separated from the second end of the cylindrical member along the longitudinal axis. The positioning member maintains a shape of the cylindrical member. The stator can be mounted in a space defined by a housing and a base engaged with the housing, forming a brushless DC motor. A bearing and a circuit board are mounted in the space. The bearing rotatably supports a shaft. A permanent magnet is mounted to the shaft and aligned with the stator.12-09-2010
20120274172STATOR FOR ROTATING ELECTRICAL MACHINE - A stator for a rotating electrical machine includes a stator core with a plurality of slots; and coils attached to the stator core. The coils are each structured by winding a covered conductor wire bundle around the stator core. The covered conductor wire bundle is structured by covering an outer circumference of a conductor wire bundle with a flexible insulating cover, the conductor wire bundle consisting of an assembly of a plurality of conductor wires. A plurality of the covered conductor wire bundles is disposed in each slot such that adjacent pairs of the covered conductor wire bundles are in contact with each other.11-01-2012
20130154429ACTIVE PART OF AN ELECTRICAL MACHINE HAVING INCLINED COILS IN THE WINDING HEAD AREA - An active part of an electrical machine has a carrier, a plurality of coils which are arranged on the carrier and which each include a plurality of sub-conductors and a winding head area, in which the coils project out of the carrier in a curved shape, respectively and are connected to one another. At least one of the plurality of coils has a coil arc in the winding head area, and the center line of the coil runs in one plane in the coil arc. The sub-conductors of one coil run parallel to the plane in the coil arc of the coil and themselves in each case form sub-conductor arcs. The vertices of the sub-conductor arcs of the coil form a line of inclination which runs at an angle to the plane.06-20-2013
20090267441Rotating Electrical Machine - A rotating electrical machine includes a stator including at least two element coils of the same phase each having a plurality of turns and connected to each other through a coil-to-coil connection wire, the element coils being arranged in adjacent slots, respectively; and a rotor rotatably provided to the stator through a gap. The element coils of the same phase are fitted in the adjacent slots so that wound around portions of the element coils partially overlap each other. The coil-to-coil connection wire connects at a coil end portion conductor wires extending from linear conductor wire portions of innermost wires of the element coils contained in the slots.10-29-2009
20110298329STATOR AND ELECTRIC MOTOR - A stator includes an iron core 12-08-2011
20120019090SUPERCONDUCTING COIL AND SUPERCONDUCTING ROTATING MACHINE USING THE SAME - A superconducting coil whose shape can be modified after it is shaped and a superconducting rotating machine with the superconducting coil are provided. The superconducting coil has an feature that the superconducting coil 01-26-2012
20130193799STATOR OF AN ELECTRICAL MACHINE - Stator of an electrical machine are already known, having a stator lamination stack, having coil forms fastened thereto which each include an electrical coil. The coil forms are each pressed onto a tooth of the stator lamination stack, convex protuberances, which generate the dynamic compression, being provided on the teeth of the stator lamination stack. The inherent drawback here, however, is that the convex protuberances are expensive to manufacture. In the case of the stator according to the present invention, the fastening of the coil forms to the teeth of the stator lamination stack is simplified. It is provided in accordance with the present invention that at least one fastening element (08-01-2013
20130193798ROTARY ELECTRIC MACHINE - A rotary electric machine including a core having a plurality of slots disposed in a distributed manner in a circumferential direction of a cylindrical core reference surface, the slots each having a slot opening portion that opens in an opening direction toward one side in a radial direction of the core reference surface, and a coil conductor wire wound around the core. The coil conductor wire has a deformable cross-sectional shape, a diameter of the coil conductor wire with a circular cross-sectional shape is larger than a slot opening width which is a width of the slot opening portion in the circumferential direction, and the coil conductor wire is flexible enough to be flattened so as to be equal to or less than the slot opening width.08-01-2013
20120086298MULTILAYERED WOUND COIL, STATOR, AND MANUFACUTING METHOD THEREFOR - Disclosed are a multilayered wound coil, a stator, and a manufacturing method therefor. The stator is provided with: a stator core comprising laminated steel sheets; and a coil which is wound around a teeth section formed on the stator core and has a plurality of layers formed in the circumferential direction of the stator core. The winding of the coil proceeds in either the radial direction or the circumferential direction of the stator core, whichever direction has fewer adjacent conductors, and doubles back at the end in said direction. This reduces the difference in potential between adjacent conductors, making it possible to ensure insulation between adjacent conductors even with a thinner insulating film.04-12-2012

Patent applications in class Coils