• 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 relates to a gear motor (1) for a motor vehicle wiper system comprising: - a brushless direct current electric motor (2) comprising: - a rotor (20) comprising magnetic elements (29), a stator (21) having coils for electromagnetic excitation of the rotor, - a rotation shaft (22) integral with the rotor, - a reduction mechanism (3) connecting the rotation shaft (22) and an output shaft (8). ) of the geared motor, - a housing (4) forming a protective envelope for the electric motor (2) and said reduction mechanism (3). According to the invention, a bearing (23) guiding the rotation shaft (22) to one of the longitudinal ends of the rotation shaft, said bearing (23), disposed internally to the rotor assembly ( 20) and stator (21), housed in a recess internal to the rotor (20), and wherein the casing of the casing (4) comprises a projecting portion (40) inward, penetrating said internal recess, and supporting a seat (41) for said bearing (23).
    公开号:FR3056845A1
    申请号:FR1659036
    申请日:2016-09-26
    公开日:2018-03-30
    发明作者:Jose-Luis Herrada
    申请人:Valeo Systemes dEssuyage SAS;
    IPC主号:
    专利说明:

    © Publication no .: 3,056,845 (to be used only for reproduction orders)
    ©) National registration number: 16 59036 ® FRENCH REPUBLIC
    NATIONAL INSTITUTE OF INDUSTRIAL PROPERTY
    COURBEVOIE
    ©) Int Cl 8 : H 02 K 7/116 (2017.01), B 60 S 1/08
    A1 PATENT APPLICATION
    ©) Date of filing: 09.26.16. © Applicant (s): VALEO WIPING SYSTEMS (30) Priority: Simplified joint stock company - FR. ©) Inventor (s): HERRADA JOSE-LUIS. ©) Date of public availability of the request: 30.03.18 Bulletin 18/13. ©) List of documents cited in the report preliminary research: Refer to end of present booklet (© References to other national documents ©) Holder (s): VALEO WIPING SYSTEMS related: Joint stock company. ©) Extension request (s): @) Agent (s): VALEO WIPING SYSTEMS INDUSTRIAL PROPERTY SERVICE.
    BRUSHLESS DIRECT CURRENT ELECTRIC MOTOR FOR MOTOR VEHICLE WIPING SYSTEM.
    FR 3 056 845 - A1 [o / J The invention relates to a gear motor (1) for a motor vehicle wiping system comprising:
    - a brushless direct current electric motor (2) comprising:
    - a rotor (20) comprising magnetic elements (29),
    - a stator (21) having electromagnetic excitation coils of the rotor,
    - a rotation shaft (22) integral with the rotor,
    - a reduction mechanism (3) connecting the rotation shaft (22) and an output shaft (8) of the geared motor,
    - a casing (4) forming a protective envelope for the electric motor (2) and said reducing mechanism (3).
    According to the invention, a bearing (23) guides the rotation shaft (22) to one of the longitudinal ends of the rotation shaft, said bearing (23), disposed internal to the rotor assembly ( 20) and stator (21), housed in a recess internal to the rotor (20), and in which the casing of the casing (4) comprises a projecting part (40) inwards, penetrating said internal recess, and supporting a seat (41) for said bearing (23).
    i
    BRUSHLESS DIRECT CURRENT ELECTRIC MOTOR FOR MOTOR VEHICLE WIPING SYSTEM
    The present invention relates to a gear motor for a motor vehicle wiping system, as well as a wiping system comprising such a motor reducer.
    The gearmotors are essentially composed of an electric motor coupled to a reduction mechanism responsible for increasing the speed to obtain a high rotational transmission torque.
    Different types of electric motors can be used in a gear motor, in particular brushless direct current electric motors which have many advantages such as a long service life, reduced dimensions and consumption as well as a low noise level.
    However, the control of electric motors is more complex compared to brushed electric motors because to allow proper operation, it is necessary to know precisely the angular position of the rotor of the brushless DC electric motor ("Brushless" in English) .
    Indeed, such electric motors include electromagnetic excitation coils arranged at the stator and supplied alternately via an inverter to allow the rotor to be driven.
    However, in order to be able to switch the switches of the inverter (in general six switching operations with each revolution of the rotor) and therefore the supply of the electromagnetic coils at optimal times to allow the desired rotor drive to be obtained, it is advisable to know the position of the rotor at all times. To this end, the position of the rotor and its angular speed are very often determined by the exploitation of the signals generated by a device which comprises a multipolar magnet, mounted rotating with the rotor, and Hall effect sensors arranged in fixed positions by compared to the magnet.
    Document WO 2016/010023 discloses such a motor-reducer for a motor vehicle wiping system using a brushless direct current motor. The brushless motor has a stator with electromagnetic excitation coils for the rotor, and the rotor is rigidly mounted at the end of a rotation shaft. This rotation shaft extends from a housing part for the rotor / stator assembly and up to a part of the housing receiving the reduction mechanism which is a worm-less worm gear.
    The gear screw is integral with the rotation shaft of the rotor and meshes with the toothed wheel integral with the output shaft of the gear motor.
    Notably and as shown in FIG. 4 (or in FIG. 8) of document WO 2016/010023, only two ball bearings are used to guide the rotation shaft of the rotor in rotation, with, on the one hand, a first ball bearing, marked 39 supporting a central part of the rotation shaft, intermediate between the rotor and the worm screw, and on the other hand, a second bearing at the longitudinal end of the shaft arranged on the 'other side of the screw without fm compared to the first bearing.
    In particular, the length part of the rotation shaft extending from the first bearing towards the rotor is guided only by the first bearing, the longitudinal end of the shaft protruding from the other side of the rotor being free from guidance.
    Such guidance by means of only two bearings differs from the usual practice which conventionally uses a third bearing to guide the distal end of the shaft in rotation near the rotor. According to the inventor's findings, such a guide of the shaft using only two bearings makes it possible to limit the size of the geared motor in the direction of the shaft. On the other hand, the omission of the third bearing is not ideal in terms of mechanical forces, this defect being able to be at the origin of the appearance of vibrations during the setting in rotation of the rotor.
    Furthermore, in the known state of the art, whether the shaft guide is with two bearings or with three bearings as previously mentioned, it is customary to always provide a bearing in an intermediate position over the length of the 'rotation shaft, near the screw without fm and another bearing on the longitudinal end of the shaft on the other side of the screw without fm. Such guidance by positioning the bearing as close as possible to the fm-free screw makes it possible to limit the deflection of the rotation shaft at the level of this meshing part, and with the aim of ensuring satisfactory operation of the reduction mechanism, without risk shifting of the gear.
    In document WO 2016/010023, the intermediate bearing marked 39 is arranged near the multipole magnet of the device ensuring the determination of the position of the rotor. Limiting the deflection of the shaft also makes it possible to maintain, within accepted tolerances, the radial gap between the multipolar magnet and each Hall effect sensor, so as to ensure the proper functioning of the sensor device.
    The present invention aims to overcome the aforementioned drawbacks by proposing a geared motor for a wiping system of a motor vehicle, the guiding of the motor shaft of which makes it possible to obtain good compactness along the longitudinal axis of the shaft. rotation, and without sacrificing the dynamic balancing of the electric motor.
    Other objects and advantages of the invention will emerge during the description which follows which is given only for information and which is not intended to limit it.
    The invention also relates to a geared motor for a motor vehicle wiping system comprising:
    - a brushless direct current electric motor comprising:
    - a rotor, comprising magnetic elements,
    - a stator having electromagnetic excitation coils of the rotor,
    - a rotation shaft integral with the rotor,
    - a reduction mechanism connecting the rotation shaft and an output shaft of the gear motor,
    a casing forming a protective envelope for the electric motor and said reduction mechanism and in which a bearing guides the rotation shaft to one of the longitudinal ends of the rotation shaft, said bearing disposed internal to the 'rotor and stator assembly, housed in a recess internal to the rotor, and wherein the casing of the casing comprises an inwardly projecting part, penetrating said internal recess, and supporting a seat for said bearing.
    According to optional features of the invention, which can be taken alone or in combination:
    - the projecting part comprises a tubular wall, extending coaxially to the rotation shaft, the seat for the bearing being formed at the distal end of the projecting part by a housing for the bearing defined by the internal cylindrical surface of the tubular wall, and a shoulder extending radially inward from the cylindrical surface of the tubular wall;
    - The shoulder wall extends to completely seal the hollow of the projecting part;
    - The wall of the shoulder extending to completely close the hollow of the projecting part forms an over-depth cavity of the housing for the bearing, this cavity receiving part of the end of the rotation shaft emerging from the bearing;
    the casing comprising, on the one hand, an envelope part, receiving at least the rotor and the stator of the electric motor, having a lateral opening to the electric motor, and on the other hand, a closing flange ensuring the closing of detachably from said lateral opening, and in which said projecting part of the casing is carried by the closing flange;
    - The closing flange comprises a disk-shaped wall extending laterally to the stator and rotor assembly, having a peripheral rim cooperating in leaktight manner with an edge complementary to said lateral opening, and in which said protruding part extends from this disk-shaped wall towards the interior of the internal recess;
    - the disc-shaped wall and the projecting part of the closing flange are formed by a single piece;
    - Said element in one piece is a molded metal part;
    the electric motor comprises a hollow support carrying the magnetic elements of the rotor, coaxial and integral in rotation with the rotation shaft, said hollow support coming to cover said projecting part of the casing as well as the bearing ensuring the guiding of the longitudinal end of the rotation shaft on the electric motor side extending axially beyond the longitudinal end of the rotation shaft, on the electric motor side;
    - the hollow support comprises a sleeve ensuring the fixing of the hollow support on the rotation shaft in a position on the intermediate shaft between the reduction mechanism and the bearing ensuring the guidance of the longitudinal end of the rotation shaft on the side electric motor;
    - The rotation shaft is guided in rotation only by two bearings arranged at the two longitudinal ends of the rotation shaft, including said bearing carried by the projecting part on the side of the electric motor, and another bearing at l 'other longitudinal end of the rotation shaft, reduction mechanism side;
    - the reduction mechanism comprises a screwless fm / toothed wheel system, the screwless fm being secured to the rotation shaft of the rotor, the toothed wheel being secured to the output shaft of the gear motor.
    The invention also relates to a motor vehicle wiping system comprising one or more wiper blades, a crankshaft mechanism for driving the wiper (s) in a reciprocating movement, as well as 'A geared motor according to the invention, the output shaft of which drives the crankshaft mechanism.
    The invention will be better understood on reading the following description accompanied by the attached drawings, among which:
    FIG. 1 is a perspective view of a geared motor according to the invention according to one embodiment,
    FIG. 2 is a sectional view along a plane passing through the axis of the rotation shaft of the rotor of the electric motor of the geared motor of FIG. 1,
    - Figure 3 is a partial view of the gear motor of Figure 1 illustrating in detail the closing flange, including the projecting part of the casing, the rotation shaft and the reduction mechanism,
    - Figure 4 is a partial view of the view of Figure 2.
    The invention also relates to a geared motor 1 for a motor vehicle wiping system comprising:
    - a brushless direct current electric motor 2 comprising:
    - a rotor 20, having magnetic elements 29, such as permanent magnets, distributed around the axis of the rotor, typically of alternating polarities
    a stator 21 having electromagnetic excitation coils of the rotor,
    a rotation shaft 22 secured to the rotor,
    - a reduction mechanism 3 connecting the rotation shaft 22 and an output shaft 8 of the geared motor,
    a casing 4 forming a protective envelope for the electric motor 2 and said reducing mechanism 3.
    Such a gear motor comprises a device for determining the angular position of the rotor 20 relative to the stator 21. A control unit (not shown) is configured to generate control signals to supply the electromagnetic excitation coils of the stator 21 as a function of the angular position of the rotor determined by the device for determining the angular position of the rotor.
    According to one embodiment, the device for determining the angular position of the rotor may comprise a multipolar magnet 5 integral in rotation with the rotor, and one or more Hall effect sensors (not shown) in fixed positions, capable of detecting changes magnetic domains of the multipolar magnet during the rotation of the rotor.
    According to one embodiment, the reduction mechanism 3 can comprise a worm screw 30 / toothed wheel 31 system, the worm screw being secured to the rotation shaft 22 of the rotor 20, the toothed wheel 31 being secured to the shaft outlet 8 of the gear motor. This output shaft 8 is substantially perpendicular to the rotation shaft 22 of the electric motor 2. The thread of the worm 20 can be obtained from the material coming from the rotation shaft 22, typically made of metal.
    A bearing 23 guides the rotation shaft 22 to one of the longitudinal ends of the rotation shaft, on the electric motor side. Notably, this bearing 23 is disposed internal to the rotor 20 and stator 21 assembly, housed in a recess internal to the rotor 20. This end of the rotation shaft can thus be advantageously guided by the bearing 23, without requiring a shaft length such that its end protrudes beyond the rotor. On the other hand, the mounting of this bearing 23 internal to the rotor, does not require having a bearing surface on the useful length section of the rotation shaft external to the rotor, and which is already used to support the screw without thin and / or to support the multipolar magnet 5: this length section of the shaft external to the rotor can be reduced to a minimum, and with the aim of increasing the compactness of the gear motor.
    To this end, the casing of the casing 4 comprises a projecting part 40 towards the inside, penetrating said internal recess in the rotor 3, and supporting a seat 41 for said bearing 23. The projecting part 40 may comprise a tubular wall 47, s extending coaxially to the rotation shaft 22, the seat 41 for the bearing being formed at the distal end of the protruding part 40 by a housing for the bearing 23. This housing can be defined by the internal cylindrical surface of the wall tubular 47, and a shoulder 48 extending radially inward from the cylindrical surface 17. The bearing 23 comprising an outer ring, an inner ring, and rolling elements, such as balls, the seat 41 of the housing 4 can be of diameter adjusted to the outer ring of the bearing 23. It is also noted that the shoulder wall 48 can be extended to completely close the hollow of the protruding part, if necessary by forming a cavity 49 in over-depth of the housing for the bearing 23: this over-depth cavity 49 is intended to receive part of the end of the rotation shaft, slightly protruding from the bearing 23. An elastic ring 6, received in a groove of the rotation shaft 22 can block the position of the bearing 23 in the corresponding seat 41 of the casing 4.
    According to one embodiment, the casing 4 may comprise, on the one hand, an envelope part 44, in particular cylindrical, receiving at least the rotor 20 and the stator 21 of the electric motor 2, having a lateral opening to the electric motor 2 , and on the other hand, a closing flange 43 ensuring the closing in a removable manner of said lateral opening. According to one embodiment, said projecting part 40 of the casing 4 can be carried by the closing flange 43. The casing part 44 can be a base, in particular made of metal, having fins intended to facilitate the evacuation of heat .
    When the closing flange 43 is removed, the lateral opening authorizes the removal of the components of the electric motor, such as the rotor 20, the stator 21, the rotation shaft 22 in particular. This closing flange 43 may comprise a disk-shaped wall 50 extending laterally to the stator and rotor assembly, and having a peripheral rim which cooperates in leaktight manner with an edge complementary to said lateral opening. Said protruding part 40 extends from this disc-shaped wall towards the inside of the internal recess. This disk-shaped wall and the projecting part 40 of the closure flange 43 may be formed by a single piece, in particular metallic.
    Maintaining the closing flange 43 against the part 44 can be obtained by means of fasteners 45 passing through the ears of the closing flange 43, typically screwed into tapped bores of the casing part 44.
    The electric motor 2 may comprise a hollow support 25 carrying the magnetic elements 29 of the rotor 20 (permanent magnets and / or coils), coaxial and integral in rotation with the rotation shaft 22, said hollow support 25 coming to cover said protruding part 40 of the casing 4, as well as the bearing 23 ensuring the guiding of the longitudinal end of the rotation shaft 20 on the side of the electric motor 2. This hollow support 25 can also extend axially beyond the longitudinal end of the rotation shaft 22, on the electric motor side.
    The hollow support 25 is a body of revolution which comprises a hollow, tubular part, of internal diameter allowing it to house therein the bearing 23 and the protruding part 40 of the casing 4, and on the outer circumference of which the magnetic elements are secured rotor. This hollow support 25 can also comprise a sleeve 26 allowing the fixing of the hollow support 25 on the rotation shaft 22. This sleeve 26 is fixed in a position on the rotation shaft 22 intermediate between the reduction mechanism 3 and the bearing 23. The internal diameter of the sleeve 26 can be adjusted to the rotation shaft in this intermediate position. It can be a tight fit allowing assembly by shrinking between the hollow support 25 and said rotation shaft 22.
    Note that the multipole magnet 5 can take the form of one or more rings mounted around the rotation shaft. The magnetic domains (north / south) extend alternately along the circumference of the ring. This multipolar magnet 5 can be integral with said hollow support 25, arranged around said sleeve 26 for fixing said hollow support 25.
    According to one embodiment, the guiding in rotation of the rotation shaft 22 is ensured only by two bearings 23, 24 arranged at the two longitudinal ends of the rotation shaft 22, namely, on the one hand, said bearing 23 , on the side of the electric motor, carried by the seat 41 of the projecting part 40 and on the other hand, another bearing 24 at the other longitudinal end of the rotation shaft 22, on the reduction mechanism side 3.
    Each bearing 23 or 24 comprises an outer ring, an inner ring, and rolling elements, such as balls. For each longitudinal end of the rotation shaft, the inner ring of the corresponding bearing 23 (or 24) can be of internal diameter adjusted to the external diameter of the shaft at the corresponding longitudinal end.
    A second seat 42, of diameter adjusted to the outer ring receives the bearing 24 ensuring the guiding of the other longitudinal end of the rotation shaft 22, on the reduction mechanism side. Locking of the axial position of one and / or the other of the two bearings 23, 24 on the rotation shaft 22 can be ensured by means of an elastic ring 6, 7 received in a groove in the rotation shaft 22.
    The elastic ring 6, called the first elastic ring, is received in a first groove in the rotation shaft 22 can block the position of the bearing 23 in the corresponding seat 41 of the housing 4. A second elastic ring 7 received in a groove of the rotation shaft 22 blocks the axial position of the other bearing 24 in the other seat 42 of the casing 4.
    The two elastic rings 6 and 7 can respectively engage in abutment with the two bearings 23 and 24, on the inner side, in order to prohibit their coming together on the rotation shaft 22.
    It is noted that the diameter of the rotation shaft 22 at the longitudinal ends supported by the two bearings 23, 24 may be greater than the diameter of the shaft at the endless screw 30. It is thus possible to increase the resistance to bending of the rotation shaft 22, by an average increase in the diameter of the rotation shaft. We always obtain satisfactory operation of the reduction mechanism, in particular without risk of slipping between the screw 30 and the wheel 31 of the gear of the reduction mechanism, and while the guide of the rotation shaft is devoid of guide bearing on a central portion of the tree.
    The invention also relates to a motor vehicle wiping system comprising one or more wiper blades, a crankshaft mechanism for driving the wiper (s) in a reciprocating movement, as well as 'A gear motor according to the invention, the output shaft 8 of which drives the crankshaft mechanism.
    In such a system, the continuous rotational movement of the output shaft 8 is transformed by the crankshaft mechanism into a reciprocating movement of the wiper (s).
    ίο
    NOMENCLATURE
    1. Gear motor,
    2. Electric motor,
    20. Rotor,
    21. Stator,
    22. Rotation shaft,
    23, 24. Bearings,
    25. Hollow support,
    26. Fixing sleeve (hollow support),
    29. Magnetic elements
    3. Reduction mechanism,
    30. worm,
    31. Gear wheel,
    4. Carter,
    40. Protruding part,
    41. 42 Seats (bearings),
    43. Closing flange,
    44. Envelope part (Base),
    45. Fixing member (screws),
    47. Tubular wall (projecting part 40),
    48. Shoulder,
    49. Deep cavity,
    50. Disc-shaped wall
    5. Multipolar magnet,
    6, 7. Elastic rings,
    8. Output shaft (Geared motor).
    权利要求:
    Claims (13)
    [1" id="c-fr-0001]
    1. Gear motor (1) for a motor vehicle wiping system comprising:
    5 - a brushless direct current electric motor (2) comprising:
    - a rotor (20) comprising magnetic elements (29),
    - a stator (21) having electromagnetic excitation coils of the rotor,
    - a rotation shaft (22) integral with the rotor,
    - a reduction mechanism (3) connecting the rotation shaft (22) and an output shaft (8) of the reduction motorbike10,
    - a casing (4) forming a protective envelope for the electric motor (2) and said reducing mechanism (3) and in which a bearing (23) guides the rotation shaft (22) to one of the longitudinal ends of the rotation shaft, said bearing (23), disposed internally
    15 the rotor (20) and stator (21) assembly, housed in a recess internal to the rotor (20), and in which the casing of the casing (4) comprises a projection (40) inwards, penetrating said obviously internal, and supporting a seat (41) for said bearing (23).
    [2" id="c-fr-0002]
    2. Gear motor according to claim 1, in which the projecting part (40) comprises a tubular wall (47), extending coaxially with the rotation shaft (22), the seat (41) for the
    20 bearing being formed at the distal end of the protrusion (40) by a housing for the bearing (23) defined by the inner cylindrical surface of the tubular wall (47), and a shoulder (48) extending radially towards the interior from the cylindrical surface of the tubular wall (47).
    [3" id="c-fr-0003]
    3. Gear motor according to claim 2, in which the shoulder wall (48) is
    25 extends to completely close the hollow of the protruding part (40).
    [4" id="c-fr-0004]
    4. Gear motor according to claim 3, wherein the wall of the shoulder (48) extending to completely close the hollow of the protruding part (40) forms a cavity (49) in depth of the housing for the bearing ( 23), this cavity receiving part of the end of the rotation shaft emerging from the bearing (23).
    [5" id="c-fr-0005]
    5. Geared motor according to one of claims 1 to 4 in which the casing (4) comprising, on the one hand, a part (44) of envelope, receiving at least the rotor (20) and the stator (21 ) of the electric motor (2), having a lateral opening to the electric motor, and on the other hand, a closing flange (43) ensuring the removable closing of said lateral opening, and in which said projecting part (40) of the casing (4) is carried by the closing flange (43).
    [6" id="c-fr-0006]
    6. Gear motor according to claim 5, in which the closing flange (43) comprises a disk-shaped wall extending laterally to the stator and rotor assembly, having a peripheral rim cooperating in leaktight manner with an edge. complementary to said lateral opening, and in which said projecting part (40) extends from this disk-shaped wall towards the interior of the internal recess.
    [7" id="c-fr-0007]
    7. A reduction motor according to claim 6, in which the disk-shaped wall and the projecting part (40) of the closing flange (4) consist of a single piece.
    [8" id="c-fr-0008]
    8. Gear motor according to claim 7, wherein said integrally formed element is a molded metal part.
    [9" id="c-fr-0009]
    9. Gear motor according to one of claims 1 to 7, wherein the electric motor (2) comprises a hollow support (25) carrying the magnetic elements of the rotor (20), coaxial and integral in rotation with the shaft of rotation (22), said hollow support (25) covering said projecting part (40) of the casing as well as the bearing (23) ensuring the guiding of the longitudinal end of the rotation shaft (20) on the side of the electric motor (2) extending axially beyond the longitudinal end of the rotation shaft (22), on the electric motor side.
    [10" id="c-fr-0010]
    10. Gear motor according to claim 9, wherein the hollow support (25) comprises a sleeve (26) ensuring the fixing of the hollow support on the rotation shaft (22) in a position on the intermediate shaft between the mechanism reducer (3) and the bearing (23) guiding the longitudinal end of the rotation shaft (20) on the side of the electric motor (2).
    [11" id="c-fr-0011]
    11. Gear motor according to one of claims 1 to 10, in which the guiding in rotation of the rotation shaft (22) is ensured only by two bearings (23, 24) arranged at the two longitudinal ends of the shaft of rotation (22), including said bearing (23) carried by the projection (40) on the side of the electric motor, and another bearing (24) to the other
    5 longitudinal end of the rotation shaft, reduction gear side (3).
    [12" id="c-fr-0012]
    12. Gear motor according to one of claims 1 to 11, in which the reduction mechanism comprises a worm (30) / toothed wheel (31) system, the worm being integral with the rotation shaft of the rotor , the toothed wheel being integral with the output shaft shaft (8) of the gear motor (1).
    10
    [0013]
    13. Motor vehicle wiping system comprising one or more wiper blades, a crankshaft mechanism for driving the wiper (s) in a reciprocating movement, as well as a moto- reducer according to any one of claims 1 to 12, the output shaft (8) of which drives the linkage mechanism.
    1/4
    类似技术:
    公开号 | 公开日 | 专利标题
    EP3516756B1|2021-11-03|Brushless dc motor for a wiping system of a motor vehicle
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    FR2986676A1|2013-08-09|ELECTRIC MACHINE, IN PARTICULAR FOR THE DRIVE DEVICE OF A MOTOR VEHICLE
    FR2515271A1|1983-04-29|STARTER EQUIPPED WITH A PLANETARY GEAR REDUCER
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    FR2859050A1|2005-02-25|Movable parts driving unit for motor vehicle, has two output axles installed co-axially with respect to each other and supporting pinions independently driving two different movable parts of vehicle
    FR3056848A1|2018-03-30|BRUSHLESS DIRECT CURRENT ELECTRIC MOTOR FOR A MOTOR VEHICLE WIPING SYSTEM
    FR3056846A1|2018-03-30|BRUSHLESS DIRECT CURRENT ELECTRIC MOTOR FOR A MOTOR VEHICLE WIPING SYSTEM
    FR2844591A1|2004-03-19|Equipment for determining the lateral displacement of a shaft, comprises axially mobile motor shaft, a multiple pole magnet and a sensor which detects patterns of north and south poles
    EP3495694A1|2019-06-12|Gear motor for motor vehicle wiping system
    FR3056844A1|2018-03-30|BRUSHLESS DIRECT CURRENT ELECTRIC MOTOR FOR A MOTOR VEHICLE WIPING SYSTEM
    FR3056847A1|2018-03-30|BRUSHLESS DIRECT CURRENT ELECTRIC MOTOR FOR A MOTOR VEHICLE WIPING SYSTEM
    WO2018219620A1|2018-12-06|Gear motor for motor vehicle wiping system
    EP1117174A1|2001-07-18|Geared motor for operating functional vehicle accessories, comprising a magnetic ring for measuring the speed of rotation of its rotor shaft
    WO2020001903A1|2020-01-02|Gear motor, associated wiper system and associated control method
    FR3066970A1|2018-12-07|MOTOR-REDUCER FOR AUTOMOTIVE VEHICLE WIPING SYSTEM
    FR2979126A1|2013-02-22|ROTATION DRIVE DEVICE, ESPECIALLY A HEAT ENGINE STARTER AND METHOD FOR CARRYING OUT SAID METHOD
    EP3495693A1|2019-06-12|Gear motor for motor vehicle wiping system
    FR3066972B1|2019-07-12|MOTOR-REDUCER FOR AUTOMOTIVE VEHICLE WIPING SYSTEM
    FR3066969A1|2018-12-07|MOTOR-REDUCER FOR AUTOMOTIVE VEHICLE WIPING SYSTEM
    EP3396817B1|2020-08-05|Gear motor with magnetic brake
    FR3006399A1|2014-12-05|WIPER DEVICE DRIVE INSTALLATION
    WO2021123547A1|2021-06-24|Motor for a ventilation device of a heating, ventilation and/or air conditioning system of a motor vehicle with a rotor and stator decoupled from a mounting base
    FR2992795A1|2014-01-03|SWITCHING INSTALLATION FOR CONNECTING AN ELECTRICAL MACHINE AND ELECTRICAL MACHINE THUS EQUIPPED
    同族专利:
    公开号 | 公开日
    WO2018054573A1|2018-03-29|
    EP3516756A1|2019-07-31|
    EP3516756B1|2021-11-03|
    US20190312484A1|2019-10-10|
    FR3056845B1|2021-07-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
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    DE19831739A1|1998-07-15|2000-01-20|Mannesmann Vdo Ag|Worm gear with an electric motor|
    DE102008054507A1|2008-12-11|2010-06-17|Robert Bosch Gmbh|Electric motor, particularly fractional horsepower motor for motor vehicle application, for example blower motor, wiper motor or anti-lock braking system-pump motor, has rotor arranged in crankcase in rotary manner|
    DE102011079527A1|2011-07-21|2013-01-24|Robert Bosch Gmbh|Gear drive means|
    DE102015201158A1|2015-01-23|2016-07-28|Deutsches Zentrum für Luft- und Raumfahrt e.V.|actuator|
    US20170207684A1|2014-07-15|2017-07-20|Mitsuba Corporation|Brushless wiper motor|FR3074887B1|2017-12-08|2020-02-14|Valeo Systemes D'essuyage|MOTOR REDUCER FOR MOTOR VEHICLE WIPING SYSTEM|
    DE102018111855A1|2018-05-17|2019-11-21|Valeo Systèmes d'Essuyage|Electric drive device and windscreen wiper motor|
    FR3083191B1|2018-06-29|2020-06-19|Valeo Systemes D'essuyage|MOTOR REDUCER, WIPING SYSTEM AND CONTROL METHOD THEREOF|
    法律状态:
    2017-09-29| PLFP| Fee payment|Year of fee payment: 2 |
    2018-03-30| PLSC| Publication of the preliminary search report|Effective date: 20180330 |
    2018-09-28| PLFP| Fee payment|Year of fee payment: 3 |
    2019-09-30| PLFP| Fee payment|Year of fee payment: 4 |
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    优先权:
    申请号 | 申请日 | 专利标题
    FR1659036|2016-09-26|
    FR1659036A|FR3056845B1|2016-09-26|2016-09-26|BRUSHLESS DC ELECTRIC MOTOR FOR AUTOMOTIVE VEHICLE WIPER SYSTEM|FR1659036A| FR3056845B1|2016-09-26|2016-09-26|BRUSHLESS DC ELECTRIC MOTOR FOR AUTOMOTIVE VEHICLE WIPER SYSTEM|
    EP17739293.3A| EP3516756B1|2016-09-26|2017-07-19|Brushless dc motor for a wiping system of a motor vehicle|
    PCT/EP2017/068196| WO2018054573A1|2016-09-26|2017-07-19|Brushless direct-current electric motor for a wiper system of a motor vehicle|
    US16/335,921| US20190312484A1|2016-09-26|2017-07-19|Brushless direct-current electric motor for a wiper system of a motor vehicle|
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