IMPROVED FRONT FLANGE OF ROTATING ELECTRICAL MACHINE AND ROTATING ELECTRIC MACHINE COMPRISING SUCH F

专利摘要:
The front flange made of molding material of rotary electric machine with pulley (1) for receiving a belt comprises at least two spacers (70) projecting axially oriented outwardly molded from its outer periphery and intended for fixing a support at least one member, such as a belt tensioning roller, said spacers (70) each having laterally at least one recess (71).
公开号:FR3049784A1
申请号:FR1652723
申请日:2016-03-30
公开日:2017-10-06
发明作者:Gordaine Paccou
申请人:Valeo Equipements Electriques Moteur SAS；
IPC主号:

专利说明:

Advanced front flange of rotary electric machine and rotary electric machine comprising such a flange
Field of the invention
The present invention relates to a front flange of moldable material of rotary electric machine pulley for receiving a belt.
The present invention also relates to a rotary electric machine pulley for receiving a belt comprising such a flange.
STATE OF THE ART In FIG. 1, which is an axial sectional view identical to FIG. 1 of document WO 2007/031679, there is shown schematically a conventional rotating electric machine in the form of a reversible alternator called an alternator. starter described for example in WO 01/69762 or FR A 2,745,444.
This machine comprises a casing 6, 8 of moldable material, such as an aluminum or plastic casing, an external stator 5 having a body 50, typically a sheet-shaped body, carrying a stator winding , an inner rotor 4 secured to a rotor shaft 2 rotatably mounted in the hollow-shaped housing.
The casing 6, 8 comprises at least two parts, namely a front flange 8 (on the side of the drive pulley 1) and a rear flange 6 also called fore and aft bearing respectively. This housing serves as a housing for the inner rotor 4, such as a rotor with permanent magnets, claws or salient poles. The housing carries at its outer periphery the body 50 of the outer stator 5 mounted in particular by shrinking in the housing. This casing comprises means, such as lugs, ears or a plate with holes, for fixing the electric machine to a fixed part.
Each flange 6, 8 centrally comprises a housing for carrying a ball bearing (schematized by a rectangle with crosses) rotatably mounting the shaft 2.
An air gap exists between the inner periphery of the body 50 of the stator 5 and the outer periphery of the inner rotor 4.
The winding of the stator may be of the multiphase type, especially at least of the three-phase type. passing axially through the body 50 of the stator and extending in axial projection on either side of the body 50 to form bun respectively before 51 and rear 52.
This winding comprises at least one winding per phase. The ends of the windings may be connected in a star, as can be seen for example in FIG. 1 of EP 0831 580, or in a triangle. These ends may be connected to a DC rectifier bridge in direct current, as described for example in WO 02/093717, or to an inverter as described for example in EP 0831 580 and FR 2 745 444. Each winding may comprise several concentric coils interconnected as described for example in WO 2007/031679. Alternatively, as described for example in EP 0 881 742, the windings are constituted by continuous son or conductive segments connected together by welding.
The body 50 includes a web of material called a yoke and a plurality of aligned notches, such as open or semi-closed slots, aligned to form a plurality of axial grooves for mounting the windings of the stator winding. The rotor shaft 2 can be secured to the front of a pulley 1 belonging to a motion transmission comprising at least one belt (not shown) intervening between the rotating electrical machine and for example a heat engine, such as the engine of a motor vehicle.
In this FIG. 1, the pulley 1 and the belt are of the Poly-V (registered trademark) type. This hollow-shaped pulley 1 has a bottom through which the rotation shaft 2 passes, of which it is integral in rotation, for example by screwing and / or welding. The axis of axial symmetry XX of the shaft 2 constitutes the axis of rotation of the machine, the axis of the rotor 4 and of the stator 5. This shaft 2 carries, for example by press fit, the rotor 4 here with claws, provided with an excitation winding implanted between two pole wheels two pole wheels 27,29 each provided with teeth 45 axially oriented nested as described and visible in the document WO 02/093717.
The flanges 6, 8 are of hollow form and interconnected by tie rods (not referenced) for forming a housing internally carrying the stator 5. The rear flange 6 carries a brush holder (not referenced) whose brushes are adapted to rub on slip rings (not referenced) connected by wire bonds to the inductor winding or excitation winding (not visible) that includes the rotor 4 with claws. Magnetic poles are formed, on the one hand polar gear tooth 27, 29, when the winding of the rotor is electrically powered. A protective cover (not referenced) surrounds the brush holder and the sensor holder (not referenced). This cover is secured to the rear flange 6.
It is important to cool the electrical machine, including the rotor excitation winding and the stator winding thereof. To do this we can cool it with an internal ventilation, the housing thereof having air inlet and outlet openings and at least one fan for air circulation between them. Inlets and outlets.
In Figure 1 the alternator comprises two fans, a fan 9 at the front of the rotor and a fan 7 rear, both secured to the rotor for example by welding. Alternatively the alternator could comprise a single fan, generally the rear fan 7 more powerful than the front fan 9 located on the side of the drive pulley 1. Such a fan has a flange from which at least one series of blades protruding 8a, 7a. The balancing of the fan 7, 9 is generally achieved by removing material from the rotor by means of drill guns which make holes in a drilling zone 26 provided in the base 127 of at least one claw 45 of the rotor. 4.
One can think of equipping such a rotating electrical machine with a belt tension adjusting device to prevent slippage thereof and optimize the transmission of motion. Such a device using a tensioner roller is described for example in the patent AT 130902 and EP 0 459 894 to which reference will be made for more details.
In Patent EP 0 459 894, the device for adjusting the tension of the belt comprises a tensioning roller, an adjusting arm movable in rotation with respect to the front flange of the housing of the alternator and means for holding and / or adjusting the tension of the belt, such as a spiral spring or a rack and pinion device. The tensioner roller is rotatably mounted on the arm advantageously with the aid of a ball bearing interposed radially between the inner periphery of the roller and a pivot, such as a bolt, secured to the front flange as described and visible for example in the FIG. 2 of this patent EP 0 459 894.
In the patent EP 0 459 894 the housing has a complicated shape, especially in view of the mounting (not visible) of the pulley to be performed. In addition, it is configured to constitute the support flange of the tensioning device of the belt, said flange also serving for fixing the alternator to a fixed part of the motor vehicle.
Without changing the size of the rotor and the stator, it is conceivable to make the support of the tensioning device of the belt distinct from the front puddle and to fix this support on the casing of the electric machine for example by means of at least two spacers resulting from molding of the outer periphery of the front flange.
These spacers are subjected to significant efforts due to the presence of the tensioner roller and may break due to the presence of pores during their manufacture by molding.
Object of the invention
The present invention aims to make the spacers more robust.
According to the invention, a front flange made of moldable material of rotary electric machine with pulley for receiving a belt is characterized in that it comprises at least two axially oriented spacers obtained by molding from its outer periphery and intended for fastening. a support of at least one member, such as a belt tensioning roller, said spacers each having laterally at least one recess.
Thanks to the invention the spacers are less porous and more robust It does not increase unduly the size and the spacers implantation at the outer periphery of the front flange frees room for the pulley. The support may have a shape of an arc allowing the passage of the pulley and good air circulation inside the machine.
In addition, it does not change the fixing means of the rotating electrical machine to a fixed part; the spacers being distinct from its means.
In addition we do not increase the consumption of material. More precisely one could think of connecting the two spacers by a material bridge to make the spacers more robust, but in this case we increase the material consumption and the weight of the machine.
The number of spacers depends on the applications and the forces transmitted by the support.
According to other characteristics taken separately or in combination: the hollows are in the form of a shallow cavity; the recesses are in the form of a cavity extending over at least 80% of the height of the spacer, for example extending over the entire height of the spacer; the hollows are of great length in relation to their depth; - The recesses have a rounded bottom, in particular to allow the flow of material during molding of the flange; the recesses have a bottom in the shape of an arc of a circle; the recesses comprise a draft angle; the spacers are in the form of a chimney; - A free end of each has a hole, in particular threaded, for screwing the support; the hole of the free end of each spacer has a diameter of the M6 or M8 type; in a plane perpendicular to the axis along which the spacer extends, each recess forms a circular segment whose height is at least equal to half the radius of the hole of the free end of the spacer, for example at least equal to 2/3 of the radius of the hole, in particular at least equal to the radius of the hole; a free end of each spacer is in the form of a rivet for fixing by riveting the support of said at least one member; at least one of the spacers comprises two recesses; - The front flange in which it is provided between three and four spacers each equipped with at least two recesses; - The spacers are distributed circumferentially in pairs at an angle between 30 ° and 100 °, for example between 45 ° and 90 °, - at least one of the spacers comprises at its outer periphery an opening, in particular to allow the evacuation of material during tapping; - The said opening is located in the vicinity of the rooting zone of the spacer to the body of the front flange; - The flange comprises a bottom extended at its outer periphery by a flange, said recesses extending axially from the free end of the spacers to a rooting zone at the bottom of the flange; - The recesses extend axially from the free end of the spacers to a rooting zone to the outer peripheral rim that includes the flange; the spacers extend over at least 25% of the length of the pulley; the casing is made of aluminum; - The casing is made of plastic material advantageously reinforced by fibers, such as glass fibers. The invention further relates to a rotating electrical machine comprising a pulley for receiving a belt characterized in that it comprises a front flange as described above. Other advantages will appear on reading the following description in a nonlimiting manner and with reference to the accompanying drawings.
Brief description of the drawings - Figure 1 is a schematic axial section of a rotating electrical machine of the prior art; - Figure 2 is a side of a rotary electric machine equipped with a front flange according to the invention; - Figure 3 is a partial perspective view of the pulley and the front flange of Figure 2; - Figure 4 is a view similar to Figure 3 without the pulley; FIG. 5 is a partial front view of the front flange of FIGS. 2 to 4.
Descriptions of exemplary embodiments of the invention
First embodiment
In the figures elements identical or similar to those of Figure 1 will be assigned the same reference signs and for simplicity it is shown in Figures 2 to 5 that the elements necessary for the understanding of the invention.
For other internal components of the machine - rotor shaft, ball bearing, stator. rotor, fans, brush holder, sensor holder, inverter, rectifier bridge depending on the case - reference is made to the state of the art and to FIG. 1 knowing that the rotor of the machine may be a claw rotor, a rotor with salient poles or a rotor with permanent magnets and that the winding of the stator may be concentric coils such as for example in WO 2007/031679 or corrugated winding as for example in the document EP 0 881 742. In FIGS. 2 to 5, the rotary electrical machine 100 is an internally ventilated alternator-starter of the type of FIG. 1 and that described for example in the document WO 01/69762 or in the document FR A 2 745 444 with an electronic box. deported. This altemo-starter thus comprises a pulley 1 integral with the rotor shaft X-X axis. The axial, radial, circumferential and transverse orientations will be made later with reference to the X-X axis constituting the axis of rotation of the machine 100, the rotor and the stator.
The housing 6, 8 of the machine 100 comprises at least two parts 6, 8 namely a front flange 6 and a rear flange 6 connected by tie rods. These flanges 6.8 are hollow in shape and comprise centrally a housing for mounting a ball bearing rotation of the rotor shaft (see Figure 1). Of course, in a known manner, the casing of the machine may comprise an intermediate portion between the flanges 6, 8 carrying the body of the stator. In FIG. 2, a front-to-rear orientation corresponds to a left-to-right orientation and it can be seen that the machine has, at the rear as in FIG. 1, a non-referenced protective cover integral with the flange 6.
The flanges 6, 8, also described in WO 02/09371, are made of moldable material, aluminum in this example, alternatively preferably reinforced plastic, such as glass fibers.
These 6.8 openwork flanges comprise air outlet openings 32 and air inlet for internal air circulation with the aid of or fans integral with the rotor.
The air outlet openings 32 are formed mainly at the outer periphery of the flange 6, 8, more precisely in an outer peripheral rim, generally of cylindrical shape and axial orientation of the flanges 6, 8. air inlet are formed in a bottom, here generally transverse orientation, that have the flanges 6.8. The bottoms connect externally to the outer peripheral edges. Thus, with regard to the front flange 8 adjacent to the pulley 1, in FIGS. 3 to 5, the bottom 33, the air inlet openings 33, the air outlet openings 32 and the 30 the rim. The outlet apertures 32 are obtained by demolding and thus partially affect the bottom 31. In FIG. 2, a fastening means in the form of a fastening tab 35, which is provided with a radial projection, projects from the rim 30. front flange 8. Also in this figure 2 a bracket not referenced flange 6. Alternatively the fastening means are ear-shaped or are formed in favor of a platinum.
In this example the flange 8 also has a non-visible fixing lug.
This electric machine 100 to pulley 1 for receiving a belt is equipped at the front of a support 122 with a device 20 for adjusting the tension of the belt. As in Figure 1 the pulley 1 and the belt are of the type Poly-V (registered trademark), the pulley 1 having grooves for receiving complementary belt.
In a variant, the belt 1 is of trapezoidal shape and the pulley 1 comprises a trapezoidal groove for receiving the belt.
The device 20 comprises at least one member in the form of a tensioning roller of the belt carried by the support 122. The member may be in the form of a dynamic tensioning roller.
According to a characteristic, the front flange 8 of moldable material comprises at least two axially oriented protruding spacers 70 derived by molding from its outer periphery and intended for fixing a support 122 of at least one member, such as a roller belt tensioner, said spacers each having laterally at least one recess 71.
Advantageously at least one of the spacers 70 comprises two recesses 71. The spacers 70 are partly derived from the outer periphery of the bottom 31 and partly from the outer periphery of the flange 30 as described below. The spacers 70 extend axially projecting in the opposite direction to the bottom 31 constituting the front face of the flange 8 adjacent to the pulley 1.
As a result, the support 122 is separate from the fixing means 35 of the casing 6, 8 to a fixed part and the porosity of the spacers 70 is minimized which makes them more robust. In addition, the space at the front face of the front flange is reduced because the support is distinct from the fastening means 35.
The number of spacers 70 depends on the applications and efforts to cash.
In this embodiment, three spacers 70 are provided for fixing the support 122 urged by the device 20 to fixation. As can be seen in FIG. 5, two spacers 70 are circumferentially implanted between two passages (not referenced) of the tie rods for the flanges. 6, 8. In this example there are three recesses 71 by spacers 70 of axial orientation. The number of recesses 71 may vary from 2 to 4 depending on the size of the spacer 70.
As can be seen in FIGS. 3 to 5, the recesses 71 are in the form of shallow cavities. These recesses 71 are of great length relative to their depth.
The recesses 71 have a rounded bottom of radius different from the radius of the flanks of the recess 71 connecting the bottom of the recess to the outer periphery of the spacer 70 The spacers 70 are generally of frustoconical shape for reasons of axial demolding, the angle of the cone being weak. Thus the spacers have a chimney shape.
The recesses 71 extend axially from the free end 72 of the spacers 70 to the bottom 31 of the flange 8. In FIG. 4, the rooting zone of a spacer is shown at 74 at the outer periphery of the bottom 31. This zone 74 is affected by the recesses 71. The reference 73 designates the zone of rooting of a spacer at the outer peripheral rim 30 of the flange 8. At least one of the spacers 70 comprises at its outer periphery an outlet opening of 132. This opening 132 is located in the vicinity of the rooting zone 73 of the spacer 70 to the body of the flange 8. In this example, this opening 132 is located in the vicinity of the rim 30.
Advantageously, each spacer 70 has an opening 132. The opening or openings 132 are located at the air outlets 32 and thus allow good evacuation of air.
The three spacers 70 are distributed circumferentially at an angle greater than 90 ° and less than 180 °. Thus the support 122 may have an arcuate shape extending radially outside the pulley 1. This support 122 allows the passage of air through the air inlet openings 33. It will be appreciated that the spacers are distributed at the outer periphery of the front face of the front flange 8 adjacent to the pulley 1 which allows to release a good passage between the support 122 and the pulley 1 without interference.
The spacers 70 project over at least 25% of the length of the pulley 1. The free end 72 of the chimney-shaped spacer is tapped and threaded for screwing the support 122 of at least one tensioner roller . In this example, the support 122 is the support of the device 20 for adjusting the tension of the belt comprising two tensioning rollers.
The adjusting device 20 comprises at least one tensioning roller 21 for adjusting the tension of the belt implanted here generally radially above the pulley 1. This device 20 is adjacent to the pulley 1 and extends in axial projection with respect to the front end of the front flange 8. As is known, thanks to the belt tensioning device, an optimum tension of the belt is obtained, the belt is prevented from slipping and the vibrations which may affect the proper functioning of the rotating electrical machine, knowing that these vibrations can break the fastening means, such as ears or tabs or plates, that the front flange case has for fixing it on a fixed part, such as the engine block of a motor vehicle. The device 20 comprises in this example another tensioner roller carried by the support 122. The rollers are elastically connected by a spring 22 circumferential action being arranged laterally on either side of the pulley 1. One of the rollers may be fixed while being secured to the fixed support 122, while the other roller 21 can move circumferentially under the action of the spring 22 being carried by the support 122. Each roller is rotatably mounted in favor of a pivot carried by an ear 23 with preferably a ball bearing engagement between the inner periphery of the roller and the outer periphery of the pivot. The spring 22 has an overall omega shape whose ends are coupled to the ears of the rollers. The pivots, the lugs and the rollers each belong to a coaxial part, one of which is constituted by the support 122. The part carrying the roller 21 is wedged in translation by the support 122 and is movable circumferentially against the spring 22. These parts are carried by the support 122 and can move circumferentially against the circumferential force exerted by the spring 22. The support 122 comprises for this purpose at the front axially protruding hub for the rotational mounting of the coaxial part comprising the pivot, the lug and the roller 21 belonging to the part movable in rotation with respect to the support 122.
In a variant, the two assemblies, each comprising a roller rotatably mounted on a pivot carried by an ear, each belong to a coaxial portion rotatably mounted on the hub of the support 122 and wedged in translation by said support 122. These parts may be moving circumferentially relative to the support 122 against the circumferential force exerted by the spring 22.
The presence of two rollers is justified by the fact that the rotor shaft is driven when the alternator-starter operates in alternator mode to include charging the vehicle battery and electrically power the consumers of it, while it is driving when operating in electric motor mode to include start the engine of the vehicle.
In one embodiment the free end 72 of the spacers 70 may have an outer diameter of generally 20 mm, while the funds of the recesses 72 may be implanted on a generally 16 mm diameter allowing a good support of the support 122. Of course its dimensions depend on the applications and are given as an indication
This support 122 may comprise ears perforated vis-à-vis the free ends 72 of the spacers 70 for passing fastening screws screwed into the threaded holes of the free ends 72. The ears may be hollow and cover the free ends 72. A good support of the support 122 is thus achieved.
The motion transmission belt can only drive the rotating electrical machine via the pulley thereof.
Alternatively the motion transmission belt may also cause another accessory such as the compressor of an air conditioning system. In this case the engine of the motor vehicle and the accessory each have a pulley for the passage of the belt For more details on the path of the motion transmission belt reference is made to Figure 1 of the document DE 102011082764 (EP 2 627 929 B), the two rollers being arranged laterally on either side of the pulley. Alternatively the pulley accessory may be a water pump.
Second embodiment
As a variant, the free end 72 of the spacer 70 is in the form of a rivet for rivet fixing of the support 122 of at least one tensioning roller. This solution is easier to achieve when, as mentioned above, the front flange is plastic, the rivet heads deform hot to achieve riveting. In any case, the support 122 is locally perforated for passage of the fastening screws at the free ends 72 of the spacers 70 or for passage of the rivets of the free ends of the spacers 70 rooted in the flange 8.
The spacers 70 and the recesses 71 are advantageously obtained by molding the flange 8 of moldable material.
Other forms of achievement
Alternatively the bottom 31 of the front flange 8 is inclined. In this case the flange comprises a nose for housing the ball bearing rotatably mounting the rotor shaft.
Alternatively, in the context of an alternator, the support 122 carries a tensioner roller with intervention of a spiral spring or a rack and pinion device as described in EPO 459 894 supra. The body carried by the support is not necessarily a roller.
In a variant, the front flange is not perforated, the casing of the machine comprising a cooling chamber of the machine for circulating a coolant, such as the coolant of the engine of a motor vehicle.
applications
In these Figures 2 to 5 the alternator-starter, in addition to its function as a starter and its on-off function of the engine of the vehicle, can achieve depending on its power other functions, especially to prevent the engine stalls. The alternator-starter is alternatively an altemo-starter with integrated electronic components and mezzanine as described for example in the documents WO 2006/129030 and WO 2004/040738.
Alternatively: the rotating electrical machine is an electric motor; the electric motor drives at least one other accessory; - The rotating electrical machine is an electric motor without brushes and controlled by an inverter as described for example in EP 0831 580; - the electric machine is a belt starter. - The rotating electrical machine is a DC rectifier bridge rectifier alternator, for example of the type described in WO 02/093717 supra.

权利要求:
Claims (11)
[1" id="c-fr-0001]
claims
1. Front flange (8) made of moldable material of rotary electric machine (100) pulley (1) for receiving a belt, characterized in that it comprises at least two spacers (70) axially projecting projecting from molding of its outer periphery and for fixing a support (122) of at least one member, such as a roller (21) belt tensioner, said spacers (70) each having laterally at least one recess (71). ).
[2" id="c-fr-0002]
2. Front flange (8) according to claim 1, wherein the recesses (71) are in the form of a cavity extending over at least 80% of the height of the spacer, for example extending over the entire height of the spacer.
[3" id="c-fr-0003]
3. Front flange (8) according to claims 1 or 2, wherein the recesses (71) have a rounded bottom.
[4" id="c-fr-0004]
4. Front flange (8) according to any one of claims 1 to 3, wherein the spacers (70) are shaped chimney.
[5" id="c-fr-0005]
5. Front flange (8) according to any one of the preceding claims, wherein a free end (72) of each spacer (70) has a hole, in particular threaded, for screwing the support (122).
[6" id="c-fr-0006]
6. Front flange (8) according to any one of the preceding claims, wherein at least one of the spacers (70) comprises two recesses (71).
[7" id="c-fr-0007]
7. Front flange (8) according to any one of the preceding claims, wherein it is provided between three and four spacers (70) each equipped with at least two recesses (71).
[8" id="c-fr-0008]
8. Front flange (8) according to any one of the preceding claims, wherein the spacers are distributed circumferentially in pairs at an angle between 30 ° and 100 °, for example between 45 ° and 90 °.
[9" id="c-fr-0009]
9. Front flange (8) according to any one of the preceding claims, wherein at least one of the spacers (70) has at its outer periphery an opening (132) located in the vicinity of the rooting zone (73). from the spacer (70) to the body of the front flange.
[10" id="c-fr-0010]
10. Front flange (8) according to any preceding claim having a bottom (31) extended at its outer periphery by a flange (30), wherein the recesses (71) extend axially from the free end ( 72) spacers (70) to a rooting zone (74) at the bottom (31) of the flange (8).
[11" id="c-fr-0011]
11. Rotating electrical machine (100) comprising a pulley (1) for receiving a belt characterized in that it comprises a front flange (8) according to one of the preceding claims.

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同族专利:

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公开号 | 公开日

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CN107276285A|2017-10-20|

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FR3049784B1|2019-05-03|

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US20170288496A1|2017-10-05|

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EP3226388A3|2017-11-01|

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EP3226388A2|2017-10-04|

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JP2017184606A|2017-10-05|

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FR2824966B1|2001-05-15|2003-08-08|Valeo Equip Electr Moteur|ROTATING ELECTRIC MACHINE, ESPECIALLY AN ALTERNATOR FOR A MOTOR VEHICLE|

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FR2847085B1|2002-10-28|2005-03-04|Valeo Equip Electr Moteur|COOLING DEVICE FOR INTEGRATED POWER ELECTRONICS AT THE REAR OF AN ALTERNATOR OR ALTERNOMETER|

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FR2886477B1|2005-05-31|2007-07-06|Valeo Equip Electr Moteur|SIGNAL INTERCONNECTION PIECE FOR ROTATING ELECTRICAL MACHINE|

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FR2890798A1|2005-09-13|2007-03-16|Valeo Equip Electr Moteur|STATOR FOR AN ALTERNATOR OR ALTERNO-STARTER TYPE POLYPHASE ELECTRICAL ROTATING MACHINE|

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FR2927737B1|2008-02-18|2019-03-22|Valeo Equipements Electriques Moteur|ROTATING ELECTRIC MACHINE BEARING AND ROTATING ELECTRIC MACHINE COMPRISING SUCH A BEARING|

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DE102008025552B4|2008-05-28|2020-06-10|Muhr Und Bender Kg|Belt tensioner for starter-generator application|

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DE102011082764A1|2010-10-13|2012-04-19|Schaeffler Technologies Gmbh & Co. Kg|Clamping device for a traction mechanism drive of an internal combustion engine|

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DE102010054135B4|2010-12-10|2013-03-28|Thyssenkrupp Presta Ag|Manual-torque control|

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US8753237B2|2011-03-17|2014-06-17|Honda Motor Co., Ltd.|Alternator with decoupling device|US10744586B2|2017-11-28|2020-08-18|Lincoln Global, Inc.|Engine driven welder|

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US10786859B2|2017-11-28|2020-09-29|Lincoln Global, Inc.|Engine driven welder|

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FR3080233B1|2018-04-17|2021-04-16|Valeo Equip Electr Moteur|SET INCLUDING A ROTATING ELECTRIC MACHINE AND A BELT TENSIONER|

法律状态:
2017-03-31| PLFP| Fee payment|Year of fee payment: 2 |

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2017-10-06| PLSC| Publication of the preliminary search report|Effective date: 20171006 |

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2018-03-29| PLFP| Fee payment|Year of fee payment: 3 |

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2019-03-29| PLFP| Fee payment|Year of fee payment: 4 |

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2020-03-31| PLFP| Fee payment|Year of fee payment: 5 |

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2021-12-10| ST| Notification of lapse|Effective date: 20211105 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1652723|2016-03-30|

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FR1652723A|FR3049784B1|2016-03-30|2016-03-30|IMPROVED FRONT FLANGE OF ROTATING ELECTRICAL MACHINE AND ROTATING ELECTRIC MACHINE COMPRISING SUCH FLANGE|FR1652723A| FR3049784B1|2016-03-30|2016-03-30|IMPROVED FRONT FLANGE OF ROTATING ELECTRICAL MACHINE AND ROTATING ELECTRIC MACHINE COMPRISING SUCH FLANGE|

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EP17157645.7A| EP3226388A3|2016-03-30|2017-02-23|Improved front flange of rotating electrical machine and rotating electrical machine comprising such a flange|

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US15/472,592| US20170288496A1|2016-03-30|2017-03-29|Front flange of a rotary electrical machine, and rotary electrical machine comprising a flange of this type|

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JP2017065517A| JP2017184606A|2016-03-30|2017-03-29|Improved front flange of rotary electrical machine, and rotary electrical machine comprising flange of this type|

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CN201710200299.9A| CN107276285A|2016-03-30|2017-03-30|The electric rotating machine of the front flange of improved electric rotating machine and flange including the type|