FR3069394A1 - ACTUATOR FOR AIR INTAKE REGULATION DEVICE FOR MOTOR VEHICLE - Google Patents

Abstract

The invention relates to an actuator (10) for an air intake control device for a motor vehicle, comprising a housing (12) in which at least one motor unit is housed, the motor unit comprising an electric motor and a card printed circuit boards. The electrical connection device comprises wire connection elements (26) directly connected to the printed circuit board and passing through the housing (12), the wire connection elements (26) being provided at a free end arranged outside said housing ( 12), a connector (34) configured to be connected to the external power supply.

Description

The present invention relates to the field of cooling of motor vehicle engines and more particularly to the field of devices for regulating the entry of air into an engine compartment, in particular on the front of the vehicle.

Front face calenders are known which are fitted with movable flaps and an associated air inlet regulation device which makes it possible to open or close the access of air to an engine compartment via the position of this assembly. movable shutters. These devices can be designated by the acronym AGS, from the English expression "Active Grille Shutter". The grille includes for this purpose at least one frame in which are embedded the pivotally mounted flaps.

When the flaps are in the closed position, they obstruct the passage opening in the grille and the air does not enter the interior of the engine compartment, which reduces the drag coefficient and thus reduces fuel consumption. and the emission of CO2. When the flaps are set to the open position, air can circulate through the air intake and help cool the motor vehicle engine.

An AGS device conventionally comprises an actuator controlling at least one flap and its position in the grille in order to control the opening and closing of the air intake.

Such an actuator generally comprises a housing in which is positioned an electric motor assembly, a reduction unit and a receiver assembly. The motor assembly of such an actuator is configured to drive at least one element of the reduction unit and the reduction unit is configured to rotate at least one element of the receiver assembly also configured to drive rotation, via a coupling device, the flaps of the air inlet regulation device.

Conventionally, the motor assembly comprises a stator and an internal rotor, the stator being wound to generate, due to an appropriate electrical supply, an electromagnetic field capable of rotating the rotor equipped with magnets.

The actuator must therefore be electrically connected to allow power supply and control of the electric motor, via electronic components soldered on a printed circuit board housed in the housing. The power supply is made possible by the presence of a male or female connector made integral with the housing, this connector being on the one hand connected to the printed circuit board by metal pins which extend from the connector, and d on the other hand configured to cooperate with a complementary connector which is mounted at the end of a cable connected to a remote power supply.

Such an arrangement is bulky in the area of the housing, since two connector boxes are arranged at a wall of the actuator housing when the male and female connectors are assembled. In addition, it is desired to place the on-board connector on the actuator housing downwards, for sealing reasons in particular, and this implies a fixed position of the actuator and a complicated mounting operation.

Furthermore, the actuator is arranged near the flaps, in particular at the edge of the frame of the AGS device. In the assembled state, such an AGS device is positioned between the radiator grille of the motor vehicle and the radiator. This configuration has the effect of positioning the actuator housing of the air intake control device near the radiator. In the context explained above, in driving, in the event of a significant impact, the grille can deform sufficiently to bring the actuator housing of the device to come into abutment against the radiator, and the male and female connectors form a penalizing hard point damping of the forces generated during the impact.

The object of the invention is to remedy at least one of the above problems, by proposing an alternative to the actuators as described, and in particular to the arrangement of the connectors associated with these actuators.

To this end, the subject of the invention is an actuator for an air intake control device for a motor vehicle, comprising a housing in which are housed at least one motor assembly, the motor assembly comprising an electric motor and a card. of printed circuits electrically connected to an electrical connection device, characterized in that the electrical connection device comprises wired connection elements directly connected to the printed circuit board and passing through the actuator housing, the wired connection elements being provided at a free end arranged outside said housing, with a connector configured to be connected to the external power supply network.

The printed circuit board is electrically connected to an electrical connection device configured to be connected to a power supply external to the actuator.

Thanks to this characteristic, it is possible to supply the electric motor via the associated electronic components present in the actuator housing without the need to graft a rigid connector onto the housing. This has the double advantage of not generating a hard point penalizing the performance of force absorption in the event of an impact to the vehicle, and of allowing a wide choice for the orientation of the housing in a zone and for that of the connectors. male and female in a separate area, in particular to facilitate the work of operators.

The actuator housing defines an internal volume in which the motor assembly is included, or housed. The external volume obviously corresponds to the volume arranged outside the internal volume defined by the walls of the actuator housing, in other words on the other side of the walls of the actuator housing. Drive means configured to rotate at the outlet of the housing at least one flap of the air intake control device are also arranged within the housing, in the internal volume.

According to different characteristics of the invention taken individually or in combination with one another, it can be provided that:

- The wired connection elements are soldered on the printed circuit board.

- The connector is arranged at the free end of the wired connection elements, so that the wired connection elements extend between the connector and the printed circuit board, most of which extends outside the housing of the actuator.

- The wired connection elements include an internal part arranged inside the actuator housing and an external part arranged outside said housing, the connector being fixed to one end of the external part, said external part having a length between 10 and 60 cm.

- The connector comprises a solid body inside which are provided means for fixing the wired connection elements, the solid body comprising an end edge, opposite to the wired connection elements, configured to cooperate with a complementary connector of the network. external power supply.

- The connector comprises a solid body inside which are formed a base for receiving the wired connection elements and a connection plug, opposite to the base for receiving the wired connection elements, configured to cooperate with an electrical connection element a vehicle supply network.

- The housing comprises a barrel surrounding an orifice formed in a wall of the housing facing the printed circuit board, the wired connection elements being arranged so that their internal part passes through said barrel.

- The wired connection elements are coated with a resin, so as to fix the wired connection elements in said barrel.

- The printed circuit board includes a first and second side with the first side facing the electric motor, the wired connection elements being mounted through the printed circuit board to be connected on said first side.

The invention also relates to an air inlet regulation device for a motor vehicle, characterized in that it comprises the actuator according to the invention and at least one movable flap controlled in rotation by the intermediary of the actuator .

According to the invention, the connector can be arranged to cooperate with an electrical connection element to a vehicle supply network with a connection direction not parallel to the main direction of elongation of the wired connection elements at the outlet of the housing. the actuator.

Other characteristics, details and advantages of the invention will emerge more clearly on reading the description given below by way of indication in relation to the drawings in which:

FIG. 1 is a schematic view of the front part of a motor vehicle comprising, in the assembled state, a radiator grille, an air inlet regulation device for a motor vehicle and a radiator,

FIG. 2 is a perspective view of an air inlet regulation device equipped with an actuator according to the invention, here not visible, and two sets of movable flaps,

FIG. 3 is a schematic view of the actuator according to an embodiment of the invention and of a remote power supply device for piloting this actuator,

FIG. 4 is a detailed view of the actuator of FIG. 3, with a part of the housing removed to make visible the connection area of the electrical supply on the actuator, and

- Figure 5 is a detail view of the connection area of the power supply to the actuator.

An air inlet regulation device 1 formed in a front face of a motor vehicle is illustrated in FIG. 1, with this device preferably installed on a grille of a motor vehicle 4. Such a device allows the arrival of the air flow passing through the front face of the vehicle to come in particular in a zone of a radiator 5 arranged upstream of an engine compartment of the vehicle, here not illustrated.

The air inlet regulation device 1, more particularly illustrated in FIG. 2, is arranged in a frame 6 having two areas of openings delimited by vertical and longitudinal walls, each opening area being provided with a assembly comprising a plurality of flaps 8. Here, the frame 6 comprises a central wall formed between two zones of openings, each provided with an assembly of a plurality of flaps 8, which can be arranged in parallel one below the other. Each flap is movable in rotation about a pivot axis, substantially transverse, to pass from an open position in which the flap lets the outside air pass to the engine compartment and the radiator 5 to a closed position in which no air cannot enter.

The regulating device comprises an actuator 10 configured to control the movement of this or these sets of flaps 8. The actuator 10 is arranged in a central zone 11 of the frame 6 and it is configured to control the opening or closing of the or sets of flaps 8 for controlling the entry of the air flow into the front face of the vehicle. It will be understood that, without departing from the context of the invention, a single opening zone could be formed in frame 6 and the actuator could be placed on one side of the frame to control the opening and closing of a single assembly. flaps 8.

The actuator 10 is fixed by its housing 12, as visible in FIG. 3, in a housing formed in the grille 4 and it is connected to the flaps 8 so that the actuator 10 can control the movement of the flaps one position to another.

We will now describe in more detail the actuator 10 and in particular the shape of the housing 12 of this actuator and the configuration of the power supply means specific to the invention connected to this housing.

The housing 12 includes a support part 12a and a closure part 12b held together by any fixing means. On each of the support 12a and closure 12b parts is formed, in correspondence, a through opening 14 forming a bearing for the rotation of a drive shaft configured to rotate the flaps 8.

The housing 12 of the actuator 10 is configured to accommodate at least one motor assembly 18 and, where appropriate, a reduction unit 20, visible in FIG. 4 and configured (s) to drive the drive shaft in rotation.

As can be seen in FIG. 4, the motor assembly 18 comprises an electric motor 22 and a printed circuit board 24. The electric motor comprises a stator and a rotor, said stator being equipped with a winding supplied electrically by the intermediate of the printed circuit board 24 embedded in the actuator housing and also visible in FIG. 4. The printed circuit board 24 has a first face, or internal face, 24i facing the electric motor 22, on which one or more electronic components 25 are welded, and a second face, or external face, 24e facing away from the housing 12.

In order to power the winding electrically and in particular as a function of control instructions generated by an appropriate control module, wired connection elements 26 formed by electrical supply and control instruction communication wires are connected to the printed circuit board 24.

More particularly, three wire connection elements 26 each consist of a wire, the end of which is stripped to be soldered to the printed circuit board 24. As can be seen in particular in FIG. 5, the stripped wire is mounted so as to cross the printed circuit board 24 and to be soldered on the internal face 24i, in the vicinity of the electronic components 25.

Each of the wires forming a wired connection element 26 has a first proximal end 28, corresponding to the stripped end described above, which is disposed inside the housing 12 of the actuator, and a second distal end 30, which extends outside the housing so as to be connected to a connector 34 extending away from the housing.

As a result, the wired connection elements 26 are arranged so as to pass through a wall of the housing 12 of the actuator, through a barrel 32 formed at one end of this housing 12.

In Figure 4, the actuator 10 is shown having removed the closure portion 12b of the housing 12, in order to make visible the various components presented above, in their configuration according to the invention, and in particular the circuit board printed 24 and the wired connection elements 26 attached thereto.

The printed circuit board 24 extends in a plane perpendicular to an axis of rotation of the output shaft of the rotor of the electric motor 22, between said electric motor and a first wall of the housing 12 in which the output barrel is formed. 32 of the wired connection elements 26 of the actuator 10. It should be noted that the printed circuit board 24 extends away from this first wall of the housing, abutment elements being able to be provided projecting from the walls of the housing to define a position of the printed circuit board at a determined distance from this first wall. The clearance left between the first wall of the housing and the printed circuit board makes it possible to have, if necessary on the external face 24e of the printed circuit board 24, additional electronic components making it possible to ensure control of the electric motor 22.

The barrel 32 is formed around an orifice 31 formed in the first wall of the housing, that is to say the wall facing the printed circuit board.

The wired connection elements 26 pass through the barrel 32 in a sealed manner. More particularly, as illustrated in FIG. 4, the wired connection elements are embedded in a resin 33 injected into the barrel 32. The resin 33 forms, after its injection into the barrel 32, a solid mass holding the wired connection elements 26 fixed in this barrel 32. In this way, by also providing a seal preventing the introduction of dirt inside the housing 12 of the actuator, electrical contacts between the wired connection elements 26 which can be created in time.

At their second distal end 30, the connector 34 is disposed at the end of the wired connection elements 26, at a distance from the actuator. By remote from the actuator, it is understood that the connector 34 is connected to the end of the wired connection elements 26 without contact with the housing 12 of the actuator.

The connector 34 comprises a solid body 35 inside which are provided means for fixing the second distal ends of the wired connection elements 26, more particularly at a reception base 36 of these wired connection elements, the body solid 35 further comprising a connection plug 38, opposite the base for receiving the wired connection elements, configured to cooperate with an electrical connection element 40 to a vehicle supply network.

It is understood that the connector 34 can be mounted at the appropriate distance from the housing 12 of the actuator by pulling or cutting the desired length of the wires of the wired connection elements 26.

It follows from the above that, according to the invention, the connector 34 arranged the second distal end of the wired connection elements is offset. It is therefore appropriate for the manufacturer to play on the length of the wire forming each wired connection element to bring the connector 34 into the position desired by this manufacturer, and in particular at a distance from the actuator and the movable flaps, and for example in the engine compartment, that is to say at a sufficient distance not to form a hard point penalizing for the absorption of forces in the event of an accident and deformation of the radiator grille 4.

By way of example illustrated diagrammatically in FIG. 3, it is notable that the connector 34 mounted at the second distal end allows connection to an electrical connection element 40 to a supply network of the vehicle in a connection direction different from the direction of connection that would be permitted by the position of the printed circuit board and the shape of the actuator housing. In the example of FIG. 3, the electrical connection element 40 can thus be fixed to the vehicle at a distance from the actuator and from the movable flaps, and by presenting a connection plug accessible in a more practical direction of insertion. for the operator only if he had to access such a plug under the actuator.

It is understood that the wired connection elements 26 extend between the remote connector 34 and the printed circuit board 24 with a major part of these wired connection elements which extends outside the housing 12 of the actuator.

More particularly, the wired connection elements 26 can be defined as having a first part, or internal part, 26a which extends inside the housing 12 of the actuator and a second part, or external part 26b, which s 'extends outside of this housing. The internal part 26a is soldered at its free end to the printed circuit board, and the external part 26b carries the connector 34 at its free end.

The internal part 26a extends over a distance of approximately 0.5 to 3 cm, from the printed circuit board to the first wall of the housing, in particular passing through the barrel 32 formed in this first wall, and the external part 26b extends outside the housing at the outlet of the barrel 32, over a distance of between 10 and 90 cm. It is understood that such a range of values is given as an indication, in particular to make it clear that the connector 34 is offset relative to the housing of the actuator. The length of the external part 26b may vary depending on the implementation in the actuator vehicle and of the external power supply network on which to connect the actuator motor assembly. Furthermore, the connector can easily be replaced to adapt to a connection standard of the supply network specific to an automobile manufacturer, by cutting off one end of the wired connection elements 26 and welding a new connector on these wired connection elements, without it being necessary to do this to modify the size of the actuator housing and in particular that of the barrel, and therefore to modify the means of fixing this housing on the grille.

Furthermore, it should be noted that the connector 34 can be arranged in any orientation, without taking account of the fixed orientation of the housing 12 of the actuator, the position of which is determined by the shape of the housing of the frame in which it fits. More particularly, the connector can be arranged to cooperate with an electrical connection element 40 to a power supply network of the vehicle with a connection direction, here for example a horizontal direction according to the arbitrary and non-limiting orientation of FIG. 3, which is not parallel to the main direction of elongation of the wired connection elements 26 at the outlet from the housing 12, here for example a vertical direction.

It follows from the above that the wired connection elements 26 are configured according to the invention so that they extend from the printed circuit board housed inside the housing to the connector 34 remote from the housing of the actuator, crossing to do this was 32 formed 5 in the housing.

The foregoing description clearly explains how the invention makes it possible to achieve the objectives which it has set itself, and in particular to propose an actuator whose free end of wired connection elements connected to the printed circuit board associated with the motor. electric actuator is connected to a remote connector, that is to say remote from the housing of this actuator.

Of course, the invention is not limited to the embodiments described and shown in the accompanying drawings. Modifications remain possible, in particular from the point of view of the constitution of the various elements or by substitution of technical equivalents, without thereby departing from the scope of protection of the invention.

Claims (10)

1. Actuator (10) for an air inlet regulation device for a motor vehicle, comprising a housing (12) in which are housed at least one motor assembly (18), the motor assembly (18) comprising an electric motor (22) and a printed circuit board (24) electrically connected to an electrical connection device, characterized in that the electrical connection device comprises wire connection elements (26) directly connected to the printed circuit board (24) and passing through the housing (12) of the actuator, the wired connection elements (26) being provided at a free end arranged outside said housing (12), with a connector (34) configured to be connected to the network of external power supply. 2. Actuator (10) according to claim 1, characterized in that the wired connection elements (26) are soldered on the printed circuit board (24). 3. Actuator (10) according to any one of claims 1 or 2, characterized in that the connector (34) is arranged at the free end of the wired connection elements (26), so that the wired connection elements (26) extend between the connector (34) and the printed circuit board (24), the major part of which extends outside the housing (12) of the actuator. 4. Actuator (10) according to claim 3, characterized in that the wired connection elements (26) comprise an internal part (26a) arranged inside the housing (12) of the actuator and an external part (26b ) arranged outside said housing (12), the connector (34) being fixed to one end of the external part (26b), said external part (26b) having a length of between 10 and 60 cm. 5. Actuator (10) according to any one of the preceding claims, characterized in that the connector (34) comprises a solid body (35) inside which are provided a receiving base (36) of the wired connection elements (26) and a connection plug (38), opposite the reception base (36) of the wired connection elements (26), configured to cooperate with an electrical connection element (40) of a power supply network of the vehicle. 6. Actuator (10) according to any one of the preceding claims, characterized in that the housing (12) comprises a barrel (32) surrounding an orifice (31) formed in a wall of the housing facing the printed circuit board (24), the wire connection elements (26) being arranged so that their internal part passes through said barrel (32). 7. Actuator (10) according to the preceding claim, characterized in that the wire connection elements (26) are coated with a resin (33), so as to fix the wire connection elements (26) in said barrel (32 ). 8. Actuator (10) according to any one of the preceding claims, characterized in that the printed circuit board (24) comprises a first and second face (24i, 24e) with the first face (24i) facing the electric motor (22), the wired connection elements (26) being mounted through the printed circuit board to be connected on said first face (24i). 9. A device for regulating the air intake for a motor vehicle comprising an actuator (10) according to any one of the preceding claims and movable flaps (8) controlled in rotation by means of the actuator. 10. Air inlet regulation device according to claim 9, characterized in that the connector (34) is arranged to cooperate with an electrical connection element (40) to a vehicle supply network with a direction of connection not parallel to the main direction 5 of elongation of the wired connection elements (26) at the outlet of the housing (12) of the actuator (10). 1/2