• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention presents an electric machine comprising on the one hand an electromagnetic motor and on the other hand a complementary connection assembly, said electromagnetic motor comprising a stator magnetic circuit having radially extending teeth and coils surrounding at least a portion of said teeth, each coil being formed by a winding of an insulated conductor around an insulating body, the connection assembly comprising a first subset formed of conductive arcuate tracks, each of said arcuate tracks terminating on one side by at least one connecting pin extending in a connection direction and the other side by a connection pad with one of said coils, said arcuate tracks being joined by an insulating plastic material. The insulating bodies of said coils have at their upper part two slots for the insertion of connectors each formed by a conductive blade having a first connection end having a connection area adapted to receive and conductively engage the winding end of the coil. the coil, and a pin on the second end, opposite said connection area and forming a force-free, seamless connection in a complementary connection pad formed in one of said arcuate tracks.
    公开号:FR3071112A1
    申请号:FR1758439
    申请日:2017-09-12
    公开日:2019-03-15
    发明作者:Benjamin THIERRY;Christophe Billotte
    申请人:MMT SA;
    IPC主号:
    专利说明:

    Connection system for electric machine
    Field of the invention
    The present invention relates to the field of electrical machines and in particular electromagnetic brushless actuators. The invention relates more specifically to the electrical connection of the coils of electrical machines by cut conductive sub-assemblies, called in English “lead frames”. These connection sub-assemblies facilitate the automation of the manufacture of electrical machines by limiting the welding and assembly operations.
    State of the art
    We know in the prior art patent application DE102012205710 which describes an example of a stator connection subassembly. This prior art document describes an electric machine comprising a multi-part stator formed by several individual stator segments comprising windings. An outer sheath wall is held against an inner wall of the housing. A perforating grid is electrically connected to the windings. The stator segments formed in an outer wall portion of the outer wall sheath are provided with openings. One winding end is guided towards the outer opening, so that a punching grid contact portion is formed between the outer wall of the sheath and the inner wall of the housing.
    French patent FR2996072 describes another example of an electrical connection assembly for a brushless electromagnetic motor comprising a stator assembly wound with P electrical phases and X coils per phase, each coil having close to a body provided with two connection notches, characterized in that it consists of a first sub-assembly formed of W tracks cut from a conductive sheet, said tracks forming W coplanar output tracks, W being an integer between P and P + l, each of said W tracks ending with at least one folded end perpendicular to the plane of said tracks, the shape of said folded end being complementary to the shape of the connection notch, said tracks being joined by an insulating plastic.
    Another solution is described in French patent FR2923951 concerning an electrical connection assembly of a brushless electromagnetic motor comprising a stator assembly wound with 3 electrical phases and X coils per phase, connected in parallel or in series, characterized in that it includes a circular thread guide with notches intended to hold the ends of the wires of the coils and a connection support containing at least 3 circular conductive tracks, 3 of these said tracks being each terminated by a terminal, and which are extended axially by wire clamp ensuring, through the notches of the wire guide, the electrical contact of the 3 phases of the motor and in that the lugs are taken out of the motor through a connector.
    Yet another solution is described in European patent application EP1526628 describing a stator for an electric motor. This is characterized by a ring-shaped stator package which has a large number of stator teeth. On the front side of the stator package is a ring-shaped wiring unit. This contains elements of change of direction. The wiring unit has a carrier component which has a hollow space and slots. In the hollow space, there are several electrically insulated garter rings from each other, which each have contact elements, which are directed towards the outside, through the slots.
    The international patent application WO2016110425 describes an interconnection piece of a stator of an electric machine as well as a method of manufacturing such a piece, by means of which an electric winding of the stator can be connected to a plug. personalized connection in power supply view.
    This interconnection piece has a closed ring in the form of a plastic body, on three support elements extending axially which are formed in one piece extending axially, in which metal connection plugs, the plugs of axial connection being each formed in one piece with conductive elements, which can be directly electrically connected to the connection son of electrical winding.
    Patent application EP2110925 relates to another solution formed by an electric current distribution ring of a rotary electric machine comprising several ring-shaped bus rings, each of which must be connected to several coils arranged in the rotary electric machine, the coils each corresponding to phases of the rotary electric machine; a plurality of fasteners which are fixed to and arranged along the circumferential direction of the bus rings; and a plurality of connection terminals which are fixed to the bus rings and arranged along said circumferential direction, and which can be connected to one of the main line sections of the coils.
    Disadvantages of the prior art
    A first drawback is the complexity of assembly induced by the previous solutions.
    Another drawback is that the solutions of the prior art are limited to low-power electrical machines, since the connection only allows currents of low intensities to be transmitted (typically less than a few amps).
    Finally, another drawback is the potentially high cost of these solutions which require a large number of parts and handling.
    Solution provided by the invention
    The primary purpose of the present invention is to further simplify the assembly of an electrical machine and the electrical connection of the coils by a connection sub-assembly, as well as to reduce the costs of producing the connector assembly.
    In order to remedy these drawbacks, the present invention relates in its most general sense to a machine comprising on the one hand an electromagnetic motor and on the other hand a complementary connection assembly, said electromagnetic motor comprising a stator magnetic circuit having teeth s extending radially and coils surrounding at least part of said teeth, each coil being formed by a winding of an insulated conductor around an insulating body, the connection assembly comprising a first sub-assembly formed by arcuate conductive tracks, each of said arcuate tracks ending on one side by at least one connection pin extending in a connection direction and on the other side by a connection pad with one of said coils, said arcuate tracks being joined by a insulating plastic material characterized in that said insulating bodies of said coils have at their upper tie two slots for the insertion of connectors each formed by a conductive blade having a first connection end having a connection zone, adapted to receive and conductively engage the winding end of the coil, and a pin on the second end, opposite to said connection zone and forming a connection inserted by force and without welding into a complementary connection pad formed in one of said arcuate tracks.
    Advantageously, said connection end *
    has a longitudinal slot delimited by at least two deformable arms (tongues) extending from the first end of said blade towards the center of said blade, in a convergent manner.
    Preferably, said connection connection end of the winding end (winding) is insulation displacement.
    According to a particular embodiment, said opposite end has two parallel connection pins.
    Advantageously, said connection assembly consists of a first sub-assembly formed by N coplanar tracks cut from a conductive sheet, said N output tracks, N being an integer between P and P + l where P denotes the number of poles electrical, each of said N tracks being joined by an insulating plastic material.
    According to a first variant, said connection pins are rigid and in that the complementary connection pads have elastically deformable lips between a position where their edges define an opening of section smaller than the cross section of the pin, and a position where the edges of said lips bear against the lateral surface of said pin.
    According to a second variant, said pins are elastically deformable in the transverse plane and in that the complementary studs (holes) have a section smaller than the cross section of the pins at rest.
    The invention also relates to a method of assembling an electric machine comprising on the one hand an electromagnetic motor and on the other hand a complementary connection assembly, said electromagnetic motor comprising a stator magnetic circuit having teeth extending radially and coils surrounding at least part of said teeth, each coil being formed by a winding of an insulated conductor around an insulating body, the connection assembly comprising a first sub-assembly formed of arcuate conductive tracks, each of said arcuate tracks ending on one side with at least one connection pin extending in a connection direction and on the other side with a connection pad with one of said coils, said arcuate tracks being joined by an insulating plastic material characterized in that it comprises:
    a first step for preparing the coils consisting in inserting into each of the slots provided at the upper part of said insulating bodies of said coils a connector formed by a conductive strip having a first connection end having a connection area, for example a slot open towards a transverse edge of the blade, adapted to receive and conductively engage the end of one of the windings of the coil; and a second opposite end forming a connection pin inserted by seamless force into a complementary connection pad formed in one of said arcuate tracks,
    a second step consisting in positioning the coils thus prepared on the stator magnetic circuit,
    a third step consisting in applying by axial displacement said connection assembly for the insertion of the connection pins of the coil connectors into the complementary connection pads of said connection assembly.
    Detailed description of a nonlimiting example of the invention
    The present invention will be better understood on reading the detailed description of a nonlimiting example of the invention which follows, referring to the accompanying drawings in which:
    - Figure 1 represented a view in perspective a first example of production a engine electric according to 1'invention,- figure 2 represented a view in perspective a connection set according to a second example of
    production,
    - the figure 3 represents a view in perspective a third example of creation of an engine electric according to 1'invention, - the figure 4 represents a view in perspective a coil according to a first variant, - the figure 5 represents a view in perspective a coil according to a second variant, - the figure 6 represents a view in perspective a coil according to a third variant, - the figure 7 represents a view in perspective a together connection according to a first variant,- the figure 8 represents a view in perspective a together connection according to a second variant,- the figure 9 represents a view in perspective a together connection according to a other example of production - the figure 10 represents a view in perspective
    of another embodiment of an electric motor according to the invention.
    General description of the engine
    FIG. 1 represents the stator structure without rotor and without overmolding in a first embodiment.
    The stator structure consists of a stack (1) of cut laminated steel sheets, of the same dimensions, one on top of the other. An electrical insulating varnish deposited on each sheet makes it possible to limit the flow of current from one sheet to its neighbor in order to reduce these eddy currents, therefore the heating of the magnetic circuit.
    Each of the magnetic sheets, in a single piece or in sectors for large magnetic circuits, has radially oriented extensions, towards the center of the sheet, alternating with notches, to receive bodies each supporting a coil (2 to 6 ) consisting of a copper coil insulated by a resin.
    A connection structure (10) provides the connection between the windings (coils) and a connector (20) for the connection of an external connector.
    This connection structure (10) consists of rigid arcuate flat conductors forming an arcuate track (11) for electrical grounding of the stator - reducing EMC emissions - and three arcuate tracks (12 to 14) for connecting the windings. (windings) of the three electrical poles (for a three-phase motor and illustrated here with two coils per phase connected in parallel and in triangle mounting).
    In the first example described, the ends of the tracks (11 to 14) form a connector comb (20) having four connection pins (21 to 24) parallel, bent in the example described 90 degrees upward relative to the plane transverse of the four tracks (11 to 14).
    FIG. 3 represents an alternative where the four connection pins (21 to 24) are parallel and extend in a plane parallel to the plane containing the four tracks (11 to 14). We can observe, in this embodiment, the tracks (11 to 14) still connected to each other by bridges (82, 83, 84) - all of which are not pointed here - which are only shown here to illustrate the fact that these tracks (11 to 14) can be cut from a single sheet of material. These bridges (82 to 84) must then be cut in order to eliminate the electrical connection between tracks (11 to 14).
    Description of the connection structure
    FIG. 2 represents a detailed view of the connection structure according to a second exemplary embodiment where the connection pins (21 to 24) are bent 90 degrees downwards and not upwards as in the example illustrated by the figure 1.
    Each track (11 to 14) has arcuate sections and enlarged connection pads (30) drilled. These holes are intended for the engagement of the connector end (40).
    These connectors (40) are formed by a rigid conductive blade, substantially planar, having a lower part (41) and a pin (43).
    The lower part (41) has a slot (42) closing in the direction of the upper end. This slot (42) is delimited by two converging arms, for the force introduction of the wire from the winding (winding). This end forms a self-stripping connection system of the “IDC - Insulation-displacement connector” type. The connection of the pin (43) to the connection pads (30) is carried out in the manner of a “press-fit” type connector.
    First example of reel
    FIG. 4 represents a first embodiment of a coil according to the invention.
    The coil is formed by a body (50) of an insulating material, for example of injected plastic, defining a central cavity (51) whose section corresponds to the outside section of a stator tooth, to allow its insertion around a tooth by sliding in a radial direction.
    A coil (52) formed by an electrical conductor wire (for example copper) insulated by a varnish is wound around this body (50).
    The two ends of the winding wire (winding) pass through housings (53, 54) formed in a vertical extension (55) of the reel body (50).
    This extension (55) opens to the upper front face by slots (56, 57) opening into the housings (53, 54) of trapezoidal shape, with shoulders (58, 59, 60, 61) forming a support for complementary shoulders formed on the lower part of the connectors (40).
    The upper end of the connectors (40) forms a pin (43) of rectangular cross section, with a pyramidal point (44) extended by a bulged part (45) forming a plug connector ("pressfit" in English).
    This pin (43) is intended to be fitted into the connection pad (30) of the connection structure. The bulged part (45) can be solid or crossed by a light of the "needle eye" type. The latter solution reduces the insertion pressure in the connection pad (30) of the connection structure (10) by a double spring effect provided by the two sides on either side of the light.
    The lower end opens with a longitudinal slot (42) delimited by two arms (46, 47) converging upwards.
    When the winding wire (coil) crosses transversely the cavity (53), the insertion of the connector (40) in the housing (53) via the slot (56) will cause the engagement of the wire in the slot (42), then the elimination of the insulation by friction and the pinching of the arms (46, 47) which also provide the electrical connection by the increasing pinch as a function of the insertion of the connector, until the shoulders of the latter come into abutment against the shoulders (57, 58) of the cavity (53). Then, the application of the connection pads (30) of the connection assembly on the head (44) and then the support of the connection assembly by an axial pressure relative to the stator circuit ensure the engagement of the pins ( 43) in the connection pads and the connection by the respective elasticity of the pin (43) and the receiver connection pad (30), ensuring good electrical conduction.
    Figure 5 shows an alternative embodiment where the pin (43) is rigid and non-deformable. It has a section (48) extended by a pyramidal head (49), intended for engagement in a connection stud (30) having lips (90) elastically deformable, as visible in FIG. 9.
    The connection is made by inserting the pins (43) erect with respect to the upper surface of the coil bodies, in the connection pads (30) provided in the tracks (11 to 14) of the connection structure. These connection pads (30) have, for this variant, an opening in which extend deformable lips (90) defining an insertion zone, preferably in the form of a cross, than the head (49) then the section (48). ) of square section comes to cross. This particular shape makes it possible to scratch the connection tabs and to ensure electrical contact. Striations present on the section (48) allow, moreover, the firm maintenance of the connection. Figure 10 shows the connection assembly of Figure 9 mounted on a stator assembly.
    In this embodiment of Figure 5, the connection of the winding wire (winding) is proposed according to a weld of the end (91) of said wire to the connectors (40). It is indeed an alternative to the connection by displacement of insulation previously presented. Any other embodiment of connection of the winding wire to the connectors, such as by pinching for example is also possible, this connection not being limiting for the present invention.
    FIG. 6 represents a variant where the connector (40) has two sections (80, 81) making it possible to double the intensity of the current which can be transmitted by the connection structure (10) and more particularly by the tracks (11 to 14 ) to the windings (windings). This solution is of course achievable with any type of section, under a
    form rigid i and full or under a form < deformable transversely • Likewise, the number of sections possible is not limited at of them. The figures 7 and 8 represent views
    respectively from below and from above of the connection structure (10) after overmolding with a plastic material ensuring the maintenance of the tracks (11 to 14). The overmolding has openings (70) corresponding to the connection pads (30) and allowing the engagement of the connectors (40).
    权利要求:
    Claims (8)
    [1" id="c-fr-0001]
    claims
    1 - Electric machine comprising on the one hand an electromagnetic motor and on the other hand a complementary connection assembly, said electromagnetic motor comprising a stator magnetic circuit having teeth extending radially and coils (2 to 6) surrounding a part at less of said teeth, each coil (2 to 6) being formed by a winding (52) of an insulated conductor around an insulating body (50), the connection assembly (10) comprising a first sub-assembly formed of arcuate conductive tracks (11 to 14), each of said arcuate tracks (11 to 14) ending on one side with at least one connection pin (21 to 24) extending in a connection direction and on the other side by a connection pad (30) with one of said coils (2 to 6), said arcuate tracks (11 to 14) being joined by an insulating plastic material characterized in that said insulating bodies (50) of said coils (2 to 6) present to their upper part two slots (56, 57) for the insertion of connectors (40) each formed by a conductive strip having a first connection end having a connection zone adapted to receive and conductively engage the winding end (52) of the coil (2 to 6), and a pin (43) on the second end, opposite to said connection zone and forming a connection inserted by force and without welding in a complementary connection stud (30) formed in one of said arched tracks (11 to 14).
    [2" id="c-fr-0002]
    2 - Electric machine according to claim 1 characterized in that said slot (42) is open towards a transverse edge of the blade and is longitudinal and delimited by at least two deformable arms (46, 47) extending from said first end of said blade towards the center of said blade, convergently.
    [3" id="c-fr-0003]
    3 - Electric machine according to claim 2 characterized in that said first connection connection end of the winding end is insulation displacement.
    [4" id="c-fr-0004]
    4 - Electric machine according to claim 1 characterized in that said opposite end has two parallel connection pins.
    [5" id="c-fr-0005]
    5 - Electric machine according to claim 1 characterized in that said connection assembly is constituted by a first sub-assembly formed by N tracks (11 to 14) coplanar cut from a conductive sheet, N being an integer between P and P + l where P denotes the number of electrical poles, each of said N tracks being joined by an insulating plastic material.
    [6" id="c-fr-0006]
    6 - Electric machine according to claim 1 characterized in that said connection pin (43) is rigid and in that said complementary connection pad (30) have lips (90) elastically deformable between a position where their edges define an opening of section smaller than the cross section of the spindle, and a position where the edges of said lips bear against the lateral surface of said spindle.
    [7" id="c-fr-0007]
    7 - Electric machine according to claim 1 characterized in that said pins (43) are elastically deformable in the transverse plane and in that the complementary pads (30) have a section smaller than the cross section of the pins (43) at rest.
    [8" id="c-fr-0008]
    8 - A method of assembling an electric machine comprising d 1 on the one hand an electromagnetic motor, and secondly a set of complementary connecting said electromagnetic motor including a stator magnetic circuit having teeth radially extending and coils (2 to 6) surrounding at least part of said teeth, each coil (2 to 6) being formed by a winding (52) of an insulated conductor around an insulating body (50), the connection assembly (10) comprising a first sub-assembly formed by arcuate tracks (11 to 14) conductive, each of said arcuate tracks (11 to 14) ending on one side by at least one connection pin (21 to 24) extending in a direction of connection and on the other side by a connection pad (30) with one of said coils (2 to 6), said arcuate tracks (11 to 14) being joined by an insulating plastic material characterized in that it comprises :
    - A first step of preparing the coils consisting of inserting into each of the slots (56, 57) provided at the upper part of said bodies (50) insulating said coils (2 to 6) a connector (40) formed by a conductive blade having a first connection end having a slot (42) open towards a transverse edge of the blade, adapted to receive and conductively engage the end of one of the windings (52) of the coil; and a second opposite end forming a connection pin (43) inserted by force without welding into a complementary connection pad (30) formed in one of said arcuate tracks (11 to 14),
    a second step consisting in positioning the coils (2 to 6) thus prepared on the stator magnetic circuit,
    - A third step consisting in applying by axial displacement said connection assembly for inserting pins (43) for connecting the coil connectors into the connection pads (30) complementary to said connection assembly.
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    同族专利:
    公开号 | 公开日
    EP3682531A1|2020-07-22|
    FR3071112B1|2021-10-22|
    WO2019053002A1|2019-03-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP2798727A2|2011-12-26|2014-11-05|Arçelik Anonim Sirketi|A permanent magnet synchronous electric motor|
    EP3007330A2|2014-10-06|2016-04-13|Bühler Motor GmbH|Electronically commutated dc motor, in particular for an oil pump|
    WO2017062824A1|2015-10-09|2017-04-13|DAWSON, Scott|Segmemted brushless stator interconnect system|WO2020225248A1|2019-05-08|2020-11-12|Brose Fahrzeugteile SE & Co. Kommanditgesellschaft, Würzburg|Stator of an electric motor|
    EP3883098A1|2020-03-17|2021-09-22|ABB Schweiz AG|Wiring apparatus for motor and corresponding motor|DE50313509D1|2003-10-22|2011-04-14|Brose Fahrzeugteile|Interconnection unit for a stator of an electric motor|
    FR2923951B1|2007-11-19|2009-11-27|Sonceboz Automotive Sa|ELECTRICAL CONNECTION ASSEMBLY FOR MOTOR WITHOUT BRUSH.|
    US8154163B2|2008-04-15|2012-04-10|Honda Motor Co., Ltd.|Electric power collection/distribution ring of rotary electric machine|
    DE102012205710A1|2012-04-05|2013-10-10|Robert Bosch Gmbh|Electric machine e.g. guidance motor for motor car, has winding whose winding end is guided to outside through aperture, so that punching grid contact portion is formed between cladding exterior wall and housing inner wall|
    FR2996072B1|2012-09-26|2016-07-29|Sonceboz Automotive Sa|ELECTRICAL CONNECTION ASSEMBLY FOR BRUSHLESS MOTOR|
    DE102015200093A1|2015-01-07|2016-07-07|Robert Bosch Gmbh|Circuit board of a stator for an electric machine and method for producing such|JP6982110B2|2020-02-13|2021-12-17|シナノケンシ株式会社|How to make an electric pump|
    法律状态:
    2019-03-15| PLSC| Publication of the preliminary search report|Effective date: 20190315 |
    2019-08-20| PLFP| Fee payment|Year of fee payment: 3 |
    2020-08-19| PLFP| Fee payment|Year of fee payment: 4 |
    2021-08-19| PLFP| Fee payment|Year of fee payment: 5 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1758439|2017-09-12|
    FR1758439A|FR3071112B1|2017-09-12|2017-09-12|CONNECTION SYSTEM FOR ELECTRIC MACHINE.|FR1758439A| FR3071112B1|2017-09-12|2017-09-12|CONNECTION SYSTEM FOR ELECTRIC MACHINE.|
    EP18765131.0A| EP3682531A1|2017-09-12|2018-09-11|Connection system for an electrical machine|
    PCT/EP2018/074446| WO2019053002A1|2017-09-12|2018-09-11|Connection system for an electrical machine|
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