• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
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    • 专利摘要:
    Vehicle seat, with a pivoting function with vertical axis, the seat comprising a base (1) configured to be connected to the vehicle floor (PL) directly or via longitudinal guides (15), a rotating crown (2) mounted at rotation on the base, the seat comprising a seat frame (4) connected to the rotating crown, directly or via a raising mechanism and / or longitudinal slides, an annular guide device comprising a rim (20) mounted on the rotating ring and a plurality of rollers (5) integral with the base, with an elastic return piece (56), the rim comprising first and second annular tracks (P1, P2), arranged to receive the interposed rollers between the first and second annular tracks, so as to allow a guided rotation around a vertical main axis (Z1) of the rotating ring relative to the base so as to avoid any je u source of noise. [Fig. **]
    公开号:FR3086595A1
    申请号:FR1910579
    申请日:2019-09-25
    公开日:2020-04-03
    发明作者:Gérald Garotte;Bertrand Touzet
    申请人:Faurecia Sieges dAutomobile SA;
    IPC主号:
    专利说明:

    Description
    Title of the invention: Vehicle seat with vertical swivel movement
    Technical Field [0001] The present invention relates to vehicle seats with a pivoting movement of vertical axis, that is to say comprising a functionality of pivoting around an axis of rotation substantially perpendicular to the floor of the vehicle on which is attached the seat in question.
    Context In transport vehicles, it has already been proposed to be able to pivot a passenger seat to obtain a lounge type configuration, that is to say at least one seat oriented in position other than forward . It has also already been proposed to use a vertically pivoting movement to facilitate the entry and exit of passenger (s) in a vehicle when conventional wide access by the door is not available.
    In addition, in the context of more or less advanced driving delegation situations using autonomous vehicle driving functions, not only the passengers but also the driver may be led to prefer a seat position which is not oriented directly towards the road, and varied and very different seat orientations can prevail inside the passenger compartment.
    Furthermore, the seats with vertical pivoting function are often equipped with an on-board seat belt anchorage, often a lower anchorage, and in addition sometimes an upper anchorage, which reinforces the constraints imposed on the mechanical strength .
    It has been proposed a vertical axis movement as taught by the document ER2676690; some have also provided a motorization as for example taught by the document US4846529.
    However, these known solutions are no longer optimal with regard to the comfort and security requirements which have increased, so much so that the absence of noise and / or play are determining criteria for acceptance of mechanical solutions. which must be offered now as well as the performance of the holding and integrity of the seat and its attachment to the floor in the event of an impact. The inventors have also noticed that the systems using balls sandwiched between two spans are noisy because the spans on which the balls move are not perfectly flat.
    It therefore appeared a need to provide a vehicle seat with a pivoting function with a vertical axis and at the same time satisfying the requirements of absence of noise and / or play and resistance in the event of impact.
    To this end, a seat for a vehicle is therefore proposed, with a pivoting function with a vertical axis, the seat comprising a pivoting assembly which comprises
    - a base configured to be connected to the vehicle floor directly or via longitudinal rails,
    - a rotating crown rotatably mounted on the base, the seat further comprising a seat seating frame connected to the rotating crown, directly or via a raising mechanism and / or longitudinal slides,
    - a rotating crown mounted on the base by means of an articulation mechanism, interposed between the base and the rotating crown, the seat further comprising a seat seat frame connected to the rotating crown, directly or via a mechanism for raising and / or longitudinal slides, the articulation mechanism allowing rotation around a vertical main axis (Zl) of the rotating crown relative to the base and preventing any substantial movement according to others degrees of freedom, namely the two other rotations and the three translations in an orthogonal coordinate system, characterized in that the articulation mechanism is mounted in a central zone of the base, the articulation mechanism having at least one state of rest in which it immobilizes the rotating crown in rotation relative to the base, the articulation mechanism comprising a first toothed crown (81) integral with one of the elements chosen from the base and the rotating crown and at least one second piece with toothed sector (82; 182), connected to the other of the elements chosen from the base and the rotating crown, which in the idle state is engaged with the first toothed crown, the articulation mechanism authorizing or controlling, when it is controlled , an angular displacement of the rotating ring relative to the base and in which the possible angular movement is at least equal to 90 ° and in which the articulation mechanism comprises a control shaft (38,77) substantially centered on the main axis (Zl). Under the term "substantially centered", it should be understood that the control shaft is precisely centered on the vertical main axis, or alternatively the control shaft may have a slightly offset axis with respect to the vertical main axis by a distance less than 3 mm with the axis of the drive shaft which remains parallel to the vertical main axis.
    Advantageously, we start from a type of articulation mechanism which is almost available on the shelf, in fact such an articulation mechanism is commonly used for the articulation for adjusting the backrest, and the adaptation of a hinge mechanism to the targeted pivot assembly can be done at very favorable economic cost conditions.
    In other words, the articulation mechanism is formed as a disc with a diameter of less than 120 mm centered on ZI; the thickness of the disc, in other words the height of the cylinder (CC) is less than 100 mm, preferably less than 70 mm, even more preferably less than 40 mm.
    Advantageously, the articulation mechanism is circumscribed in a cylinder centered on the vertical main axis and of diameter less than 120mm.
    The articulation mechanism has a diameter less than 120mm, preferably a diameter less than 100mm, or even less than 90mm, or even less than 80mm.
    The possible angular displacement is at least equal to 90 °, preferably at least equal to 180 °, and even more preferably at least 360 °; in certain configurations it is possible to obtain a multi-tower solution.
    The term "rotating crown" should be understood here in the broad sense, that is to say this term encompasses any structure / frame / plate intended to pivot relative to a base.
    The term "swivel assembly" as mentioned may cover an assembly which can be delivered and assembled as a swivel module, or conversely as an assembly perfectly integrated into the bearing structure of the seat.
    [0016] It is necessary to understand by “guide elements” rollers or skids. The case of the rollers will be detailed below, but the use of pads of very low friction material can be considered as an alternative.
    In various embodiments of the invention, one can optionally have recourse to one and / or the other of the provisions which follow.
    According to an advantageous option, there may also be provided an annular guide device with a plurality of rolling members (5) interposed between the base and the rotating ring and located at a distance (R5) from the axis main. Whereby the rolling members, further from the axis than the articulation mechanism, provide a large lever arm to counteract tilting forces exerted on the seat, in particular the application of a horizontal force on the top of the backrest from the headquarters.
    According to one option, the rolling members can be balls. The balls being a standard supply, a cheap solution is obtained for an annular guide of large diameter, if necessary by using a ball guide cage.
    According to another option, the rolling members can be rollers. The rollers are each mounted on a fixed axis either on the base or on the rotating crown, and there can be provided a backlash system which avoids any risk of noise.
    According to a particular arrangement, the balls work in compression along the vertical axis. Thus, the ball guide system can be very simple. R + According to an additional arrangement, the balls allow an eccentric movement of the axis of the rotating crown, which makes it possible to use an articulation with eccentric movement with a very simple ball guide system.
    According to a first possibility, the articulation mechanism can be of the continuous hypocycloid type (3) with eccentric cam (33), and the pivoting assembly further comprises an electric motor (9) connected to the eccentric cam and configured to selectively rotate the eccentric cam. Such a hypocycloid articulation mechanism proves to be inexpensive, since they are produced in large quantities for the backrest joints with motorized adjustment.
    According to a particular arrangement, the gear motor can be connected to the articulation mechanism by a Bowden cable. This gives great freedom of positioning for the gear motor.
    According to a particular arrangement, the motor is positioned above the articulation mechanism, and is integral with the rotating crown. This gives a solution with good compactness facilitating its integration as a swivel module, while preserving the storage space under the seat.
    According to another particular arrangement, the motor is positioned under the articulation mechanism, and is integral with the base. As a result, we can have a moderate seat thickness, the engine being in a technical area under the articulation mechanism.
    According to a particular arrangement, the hypocycloid articulation mechanism comprises a first flange in which is formed the first toothed crown which comprises NI teeth and a second flange in which is formed a second toothed crown which comprises N2 teeth, the first and second toothed rings being permanently engaged on at least one angular sector under the effect of an eccentric control cam, the first and second toothed rings forming a hypoycloidal interface, according to which the center of the second rotating ring is moved by relative to the center of the first ring gear when the control cam rotates. The offset from the center of the second crown remains limited, however, typically <2 mm relative to the main axis. This forms a simple and reliable solution for a continuous adjustment mechanism, namely without steps.
    The axis (Z2) of the crown remains substantially parallel to the main axis (Zl), but evolves according to a hypocycloid kinematics with a distance to the main axis less than 2 mm.
    According to a preferred configuration, the first flange (31) is secured to the base 1 while the second flange (32) is secured to the rotating ring.
    According to a particular provision, there is a transmission in principle of seal of
    Oldham (8) to compensate for the eccentric effect generated by the hypoycloid articulation mechanism with eccentric cam, the Oldham joint principle transmission being interposed between the articulation mechanism and the rotating crown. As a result, the seat can rotate in a perfectly circular motion without any eccentric or hypoycloid parasitic effect.
    According to an advantageous arrangement of the first possibility, the articulation mechanism is non-reversible, namely a large torque exerted between the first and second flanges cannot generate a relative movement of the first flange relative to the second flange, in the absence of rotation of the eccentric cam caused by the rotation of the motor. Thus, when the engine is not controlled, even if a torque is exerted on the seat, there is no pivoting of the seat.
    According to a second possibility, the articulation mechanism can be of the discontinuous type with toothed locking grains (72), the articulation mechanism then being non-motorized, the seat then comprising a lever (98) for unlocking control. maneuverable by a seat user. This forms an inexpensive basic solution for providing a seat with a vertical swivel function.
    According to an advantageous arrangement of the second possibility, the articulation mechanism comprises a first flange (131) in which the first toothed crown is formed and a second flange (132) in which guides are arranged capable of receiving and guiding locking grains, the locking grains each having a toothing (182) which is engaged with the first toothed ring in the state of rest of the articulation mechanism and which is located away from the first toothed ring in the 'activated state unlocked of the articulation mechanism. Such a hinge mechanism turns out to be inexpensive, since they are produced in large quantities for the manually adjustable backrest hinges.
    According to a preferred configuration, the first flange is secured to the base (1) while the second flange is secured to the rotating ring (2).
    According to a complementary option, there may also be provided an additional retention device (7) in the event of an accident, with a first part secured to the base and a second piece secured to the rotating crown, the first and second parts coming into contact with each other to prevent lifting of the rotating crown in the event of an accident suffered by the vehicle, the first and second parts being arranged at a distance from the axis (R7) of at least 200 mm. Such an auxiliary retention device makes it possible to maintain the cohesion of the seat even in the event of a significant impact. It is noted that these first and second so-called "anti-crash" parts are not in contact with each other in the field of normal forces.
    A seat for a vehicle is also proposed, with a pivoting function with a vertical axis, the seat comprising a pivoting assembly which comprises:
    - a base configured to be connected to the vehicle floor directly or via longitudinal rails,
    - a rotating crown rotatably mounted on the base, the seat further comprising a seat seating frame connected to the rotating crown, directly or via a raising mechanism and / or longitudinal slides,
    - a rotating crown mounted on the base by means of an articulation mechanism, interposed between the base and the rotating crown, the seat further comprising a seat seat frame connected to the rotating crown, directly or via a mechanism for raising and / or longitudinal slides, the articulation mechanism allowing rotation around a vertical main axis (Zl) of the rotating crown relative to the base and preventing any substantial movement according to others degrees of freedom, namely the two other rotations and the three translations in an orthogonal coordinate system, characterized in that the articulation mechanism is mounted in a central zone of the base, the articulation mechanism having at least one state of rest in which it immobilizes the rotating crown in rotation relative to the base, the articulation mechanism comprising a first toothed crown (81) integral with one of the elements chosen from the base and the rotating crown and at least one second piece with toothed sector (82; 182), connected to the other of the elements chosen from the base and the rotating crown, which in the idle state is engaged with the first toothed crown, the articulation mechanism authorizing or controlling, when it is controlled , an angular displacement of the rotating ring relative to the base and in which the possible angular movement is at least equal to 90 ° and in which the articulation mechanism is centered on the main axis (Zl).
    Brief Description of the Drawings Other aspects, objects and advantages of the invention will appear on reading the following description of an embodiment of the invention, given by way of non-limiting example. The invention will also be better understood with reference to the attached drawings in which:
    - Figure 1 is a general top view of two vehicle seats each equipped according to the invention, - Figure 2 is a partial perspective view of a module or pivot assembly of a seat of Figure 1, [0039] - Figure 3 is an exploded perspective view of a module or pivot assembly of a seat of Figure 1, [0040] - Figure 4 is an axial sectional view of the mechanism of the articulation according to the first embodiment, [0041] - Figure 5 is a cross-sectional view of the articulation mechanism of according to a first embodiment, of the continuous hypocycloid type (3) with eccentric cam, [0042 ] - Figure 6 is a detail view in vertical section of the rolling members, [0043] - Figure 7 illustrates the eccentric movement of the axis of the rotating ring relative to the main axis, [0044] - the Figure 8 is a cross-sectional view of the articulation mechanism of the according to a second mode of embodiment, of the discontinuous type with toothed locking grains, [0045] - FIG. 9 is similar to FIG. 3 and shows an exploded perspective view of a pivot module or assembly according to a third embodiment, [0046] - FIG. 10 is a schematic profile view of a seat (all embodiments), [0047] - FIG. 11 more particularly illustrates a transmission with a seal principle.
    Oldham, used in the third embodiment, [0048] - Figure 12 is similar to Figure 6 and shows a detail view in vertical section of the rolling members, according to the third embodiment.
    Description of the embodiments In the various figures, the same references designate identical or similar elements. For reasons of clarity of the presentation, certain elements are not necessarily represented to scale.
    In the following text, the term "front / e" means the position of the seat in which the seat is oriented towards the front of the vehicle, that is to say that a person seated in the seat is oriented / directed towards the front of the vehicle (arrow FW in Fig 1).
    Such a seat with pivoting movement of vertical axis is desirable in the case where it is desired that the passengers of the vehicle, seated on seats which are normally all oriented in a frontal direction, can turn towards each other to chat, play, or engage in another activity in a more convivial way.
    A pivoting movement of vertical axis can also be used for the passenger reception function; in this case the seat is turned towards the outside of the vehicle unlike the previous case.
    In addition, in the context of more or less advanced delegation of driving situations using autonomous vehicle driving functions, the driver may have to prefer a seat position which is not oriented directly towards the road. .
    Thus, varied and very different seat orientations can prevail inside the passenger compartment.
    In Figure 1. there is shown two seats in top view, the left one is in a conventional position oriented strictly forward FW while the right one is illustrated with several different angular positions shown.
    In Figure 10. is shown schematically a seat connected to the floor PL of the vehicle through a pivot module 10 of axis Zl. The seat includes a seat cushion 44, a backrest 45. In the context of the present invention, we are interested in forces which can be applied to the top of the backrest marked 46, in varied and arbitrary directions , without forgetting to take into account the cases where the vehicle undergoes an accident (held in 'crash').
    We define a main pivot axis denoted Zl. In the following, it will also be possible to use the conventional geometrical reference system commonly used in vehicles, that is to say the longitudinal direction of axis X, the transverse direction of axis Y and the vertical direction of axis Z.
    According to the direction of pivoting of the vertical axis, each angular position of the seat can be characterized by its orientation with respect to the forward position by means of the angle 0. Thus 0 = 0 represents a forward-facing seat, 0 = 90 ° represents a seat that has turned a quarter turn to the right, 0 = 180 ° represents a rear-facing seat, 0 = 270 ° represents a seat that has turned three quarters of a turn to the right, (or equivalent to a quarter of a turn to the left). Of course, the seat occupant can adjust the angular position according to a plurality of intermediate positions. According to certain variant embodiments, a complete turn is possible or even several turns, i.e. multi-turn configuration.
    In the example illustrated in the figures, starting from the vehicle floor PL, the seat comprises a pair of longitudinal rails 15, a base 1 forming the base part of a pivoting assembly 10, a rotating crown 2 forming the movable part of the pivoting assembly, a seat frame 4 mounted on the rotating crown and forming the bearing structure of the seat seat 44 on which is also mounted the seat back 45.
    In Figure 9. there is shown the two lateral flanges 41,42 of the seat frame; in Figure 3. there is shown only the left side flange 41 of the seat frame.
    It should be mentioned here the possibility of a different mounting in a variant embodiment, namely the pivoting assembly comprises a base directly fixed to the floor and the longitudinal slides are located above the rotating ring of the assembly. pivoting, in other words the longitudinal adjustment slides are then loaded into the rotating part and their orientation therefore varies according to the orientation of the vertical pivoting movement.
    It should also be noted that it is possible to have a raising movement between the pivoting assembly and the seat frame, this raising movement and the associated kinematics are known per se and will not be particularly described here.
    Advantageously according to the present invention, the pivot assembly comprises a hinge mechanism identified 3, which is functionally interposed between the base 1 of the pivot assembly and the rotating ring 2 of the pivot assembly. By articulation mechanism is understood here a mechanism derived from the articulation mechanisms used on a large scale for the articulation of the pivoting of the files relative to the seat of the file. The inventors have identified the possibility of adapting, at a lower cost, the articulation mechanisms commonly used for adjusting the backrest for the vertical pivoting function.
    Such an articulation mechanism is formed as a disc with a diameter less than 120 mm centered on ZI; the thickness of the disc, in other words the height of the cylinder CC which contains the mechanism is less than 100 mm, preferably less than 70 mm, even more preferably less than 40 mm. The articulation mechanism has a diameter of less than 120mm, preferably a diameter of less than 100mm, or even less than 90mm, or even less than 80mm.
    The articulation mechanism is therefore in a particularly compact form. The articulation mechanism is arranged centrally with respect to the seat base, that is to say the articulation mechanism is mounted in a central area of the base, one of the reference axes of the articulation 3 corresponds to the main axis ZI mentioned above.
    Two types of articulation mechanism are envisaged, namely a hypocycloid articulation mechanism called "continuous" and a hinged grain articulation mechanism called "discontinuous"; we will return to these two cases in more detail later.
    The articulation mechanism allows rotation of the rotating ring around an axis Z2 coincident or close to the main vertical axis ZI relative to the base.
    In particular, the rotation of the rotating ring 2 is controlled by a control shaft of the articulation mechanism. Said control shaft can be operated manually or can be motorized. Advantageously, the control shaft is centered on the vertical main axis Zl.
    At the same time, the articulation mechanism 3 prevents any substantial movement according to the other degrees of freedom, namely the two other rotations (around X and around Y) and the three translations in the orthogonal coordinate system (namely translation along X translation along Y translation along Z).
    In the example illustrated, longitudinal rails 15 each comprise a fixed profile connected integrally to the floor PL and a movable profile which can move along a direction parallel to X.
    The base of the pivoting assembly is formed as a frame mounted solidly astride the two movable sections of the longitudinal slides. For the base, it is a folded sheet metal frame, if necessary a mechanically welded structure.
    The four corners of the frame can be used for the installation, optional within the meaning of the invention, of an additional retention device in the event of an accident, which will be detailed below.
    According to an exemplary embodiment, the base can be formed by two cross members 11,12 which extends transversely between the two movable sections of the longitudinal rails 15 and a central flange 101 fixed integrally to the two cross members. The central flange 101 comprises a peripheral rim 16 centered on the axis ZI, said rim forming a raceway for rolling bodies which will be discussed below. Furthermore, the central flange comprises a hub / bearing 13 intended to receive the articulation mechanism 3. In the example illustrated, the flange comprises spokes 17 which connect the central bearing hub 13 to the peripheral rim 16, but of course the flange could be full, have reinforcing ribs, etc. in the example illustrated, the base is made of metallic material, preferably steel, although the use of light alloy is not excluded. The use of composite materials, particularly fiber-reinforced resins, is also possible for the base.
    According to the first embodiment presented, the articulation mechanism installed in the central bearing of the base is a hypocycloid mechanism 3 with eccentric cam 33 for control. Figures 4 and 5 illustrate respectively in axial section and in cross section such a mechanism.
    The hypocycloid articulation mechanism comprises a first flange 31 in which is formed a first toothed crown 81 which comprises NI teeth and a second flange 32 in which is formed a second toothed crown 82 which comprises N2 teeth. The diameter of the second toothed ring and its number of teeth are less than the equivalent characteristics of the first toothed ring; in practice we choose N2 = NI - 1.
    When the eccentric cam makes a full turn, the second ring gear has rotated by an angle corresponding to the pitch of a tooth relative to the first ring gear.
    The first and second gear rings 81.82 are held one against the other, in a plane on plane configuration perpendicular to the axis Zl, thanks to the presence of a third closing flange 39 welded to the first flange 30 (cf. FIG. 4). For example, "continuous" hypocycloid type adjustment mechanisms used in the present invention are described in detail in the publication.
    FR2883812.
    The first and second toothed rings 81, 82 are permanently engaged on at least one angular sector under the effect of an eccentric control cam 33. The eccentric control cam is driven by an electric motor 9.
    In particular, the eccentric control cam 33 is controlled in rotation by the control shaft 38 coupled to the motor 9. The control shaft 38 is centered on Zl.
    In other words, the first and second toothed rings form a hypoycloidal interface, according to which the center Z2 of the second rotating ring is moved relative to the center Zl of the first ring when the control cam 33 rotates. The eccentric movement is illustrated in Figure 7.
    The axis Z2 of the crown remains substantially parallel to the main axis Zl, but changes according to the hypocycloid kinematics of the second crown 82. The offset E2 of the center Z2 of the second crown remains limited, typically <2 mm relative to the main axis.
    The rotating ring 2 is formed in the example illustrated here by an upper flange 102 connected integrally to a left side yoke 21 and a right side yoke 22.
    According to a preferred configuration shown, the first flange 31 is secured to the rotating crown 2. More specifically, the first flange 31 is welded to the upper flange 102 integral or integral with the rotating crown 2 thanks to the welds S2.
    The second flange 32 is integral with the base 1. More specifically, the second flange 32 is welded to the lower flange 102 forming part of the base thanks to the welds SI.
    However, reverse mounting is also possible, namely the first flange could be secured to the base while the second flange could be secured to the rotating crown.
    The term "rotating crown" should be understood here in the broad sense, that is to say this term encompasses any structure / frame / plate intended to pivot relative to a base.
    There are provided a plurality of rolling members 5 interposed between the base and the rotating ring and located at a distance R5 from the main axis Zl.
    In the example illustrated, balls are used, but it would also be possible to use rollers, rollers, parts of conical shape.
    The rolling members 5, here in the form of balls, are kept at a distance from each other by a guide cage 50 of annular shape comprising housings for receiving the balls and being able to rotate around the axis Zl. The rotational movement of the cage 50 is half that of the relative movement of the rotating ring relative to the base.
    As illustrated in Figure 6. the mounting of the balls 5 allows an eccentric movement of the second flange 102 relative to the first flange 101; in a section in the axial direction, there is illustrated in solid line a middle position of the second flange 102 and in dotted lines two extreme positions of the second flange 102 (deviation of less than 2 mm from the middle position).
    The balls are in contact with the first and second flanges 101,102 at the place of their upper end 58 and their lower end 57.
    An additional retention device 7 is provided, designed to prepare for the eventual event of an accident.
    The additional retention device 7 comprises a first part 71 secured to the base and a second piece 72 secured to the rotating crown 2.
    The first part has a hook-shaped section with the end facing downwards, whereas, conversely, the second part has a hook-shaped section with the end facing upwards, and it engages in the complementary shape of the first hook, as can be seen in Figure 6.
    The first and second parts 71.72 extend along an arc portion centered on the main axis ZI, the arc portion extending angularly over a range between 25 ° and 35 °.
    It is therefore understood that around the normal forward position 0 = 0 °, as well as around the other cardinal positions 0 = 90 °, 0 = 180 °, 0 = 270 °, the first part and the second retention piece is found one opposite the other and crash protection is effective.
    Furthermore, it is noted that it is possible to assemble the pivoting module by positioning the rotating crown at 0 = 45 °, position at which the second retention pieces 72 are found in the intervals which separate the first pieces retention 71, and then you can turn the upper part to finalize the assembly.
    The first and second parts 71.72 ‘anti-crash’ are not in contact with each other in the field of normal forces. It is only in the case where a very significant force is applied to the seat that plastic deformations will appear and that the additional retention device will come into play to prevent any dislocation of the seat.
    In other words, in the event of extreme stresses, the first and second parts come into contact with one another to prevent the rotary crown from being raised in the event of an accident suffered by the vehicle.
    The first and second parts being arranged at a distance from the axis R7 of at least 200 mm, which forms a very wide base, that is to say a distance between the diametrically opposite parts of at least 400 mm .
    The pivot assembly 10 further comprises an electric motor 9 coupled to the control shaft 38 which rotates the eccentric cam 33.
    The motor 9 is provided for rotating the eccentric cam on command of a control unit. There may be a manual command requested by the seat occupant, or even automatic pre-crash commands for reasons of passive safety protection.
    According to a second embodiment, with reference to FIG. 8, the articulation mechanism is of the discontinuous type with toothed locking grains. In this case, there is provided an operating member 98 accessible by the occupant of the seat in order to be able to unlock the angular pivoting position when this proves necessary. The actuator 98 can be arranged on the side of the seat, for example; other positions are also possible. For example, type discontinuous ’type adjustment mechanisms used in the present invention are described in detail in publication FR2956623.
    To give only the main elements, the first flange 131 comprises a radially inner annular toothing 182. It is provided opposite the locking grains 72 having at their outer end an arcuate toothed sector forming a frame complementary 81. The locking grains are moved table in a radial direction between an external engagement position and an inwardly retracted position the first flange can rotate relative to the second flange 132. The movement of the locking grains is controlled by a control cam 75 associated with a mask 74. The cam 75 is arranged to be driven in rotation by a control shaft denoted 77 and centered on the axis Zl.
    The cam 75 is configured to push the grains outwards while the mask is configured to pull the grains inwards. The springs 76 bring the cam and the mask back to the position corresponding to the locking of the joint.
    According to a second embodiment, with reference to FIGS. 9 and 11, the articulation mechanism hypocycloid articulation mechanism comprises a transmission with Oldham joint principle 8. The principle of this transmission is known and therefore only a brief description is given below.
    This transmission comprises a trainer 81 and a connecting cross 82. The trainer 81 is fixed to the first flange 31 of the articulation 3. It has pins 87, 88 received in oblong slots 84 of the cross 82 ( on the diametrically opposite arms 82a). These oblong slots 84 therefore allow movement along the first direction perpendicular to the working axis Z2. According to another transverse direction, the two other diametrically opposite arms 82b of the cross, include other oblong slots 85, in which pins 28, 29 secured to the rotating crown 2 are received.
    The Oldham seal principle transmission is interposed between the articulation mechanism and the rotating crown. This transmission makes it possible to make up for the eccentric effect Z2 / Z1 generated by the continuous hypoycloid articulation mechanism with eccentric cam.
    Note that the pivoting assembly as described above can cover an assembly which can be delivered and assembled as a pivoting module, or conversely as an assembly perfectly integrated into the bearing structure of the seat ..
    权利要求:
    Claims (1)
    [1" id="c-fr-0001]
    Claims [Claim 1] Vehicle seat, with a pivoting function with a vertical axis, the seat comprising a pivoting assembly (10) which comprises:- a base (1) configured to be connected to the floor (PL) of the vehicle directly or via longitudinal slides (15),- a rotating crown (2) mounted on the base via an articulation mechanism (3), interposed between the base and the rotating crown,the seat further comprising a seat frame (4) connected to the rotating crown, directly or via a mechanism for raising and / or longitudinal slides,the articulation mechanism allowing rotation around a vertical main axis (Zl) of the rotating ring relative to the base and preventing any substantial movement according to other degrees of freedom, namely the two other rotations and the three translations in an orthogonal coordinate system, characterized in that the articulation mechanism is mounted in a central area of the base, the articulation mechanism having at least one state of rest in which it immobilizes the rotating crown in rotation relative to the base, the articulation mechanism comprising a first toothed ring (81) integral with one of the elements chosen from the base and the rotating ring and at least one second piece with toothed sector (82; 182), connected to the other of the elements chosen from the base and the rotating crown, which in the idle state is engaged with the first toothed crown, the articulation mechanism authorizing or controlling, when ordered, an angular displacement of the rotating crown relative to the base and in which the possible angular movement is at least equal to 90 °, and in which the articulation mechanism comprises a control shaft (38,77) substantially centered on the main axis (Zl). [Claim 2] Seat according to claim 1, in which there is further provided an annular guide device with a plurality of rolling members (5) interposed between the base and the rotating ring and located at a distance (R5) from the main axis . [Claim 3] Seat according to claim 2, in the rolling members are balls. [Claim 4] Seat according to one of claims 1 to 3, in which the mechanism
    joint is of the hypocycloid continuous type (3) with eccentric cam (33), and the pivoting assembly further comprises an electric motor (9) connected to the eccentric cam and configured to selectively rotate the eccentric cam. [Claim 5] Seat according to claim 4, in which the motor is positioned above the articulation mechanism, and is integral with the rotating crown. [Claim 6] Seat according to one of claims 4 to 5, in which the articulation mechanism comprises a first flange (31) in which is formed the first toothed crown (81) which comprises NI teeth and a second flange (32) in which is formed a second toothed crown (82) which comprises N2 teeth, the first and second toothed crowns being permanently engaged on at least one angular sector under the effect of an eccentric control cam (33), the first and second crowns gears forming a hypoycloidal interface, according to which the center of the second rotating ring is moved relative to the center of the first ring when the control cam turns. [Claim 7] Seat according to one of Claims 6 to 7, in which the articulation mechanism is non-reversible, namely a large torque exerted between the first and second flanges cannot generate a relative movement of the first flange relative to the second flange, in the absence of rotation of the eccentric cam caused by the rotation of the motor. [Claim 8] Seat according to one of Claims 1 to 3, in which the articulation mechanism is of the discontinuous type with toothed locking grains (72), the seat then comprising a handle (98) for unlocking control which can be operated by a user of the seat. [Claim 9] Seat according to one of claims 1 to 8, in which there is provided an additional retention device in the event of an accident, with a first part secured to the base and a second piece secured to the rotating crown, the first and second parts coming into contact with each other to prevent the rotary crown from being raised in the event of an accident suffered by the vehicle, the first and second parts being arranged at a distance from the axis (R7) of at least 200 mm. [Claim 10] Seat according to one of claims 1 to 9, in which the articulation mechanism is circumscribed in a cylinder (CC) centered on the vertical main axis (Zl) and of diameter less than 120mm.
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    类似技术:
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    同族专利:
    公开号 | 公开日
    US20200101871A1|2020-04-02|
    DE102019126079A1|2020-04-02|
    CN212148531U|2020-12-15|
    FR3086596B1|2020-11-13|
    FR3086596A1|2020-04-03|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4846529A|1988-04-07|1989-07-11|Tulley Jack M|Swivel seat|
    FR2676690A1|1991-05-23|1992-11-27|Faure Bertrand Automobile|TRAY FORMING TURNING BASE FOR VEHICLE SEAT.|
    JPH0526304A|1991-07-16|1993-02-02|Nitta Ind Corp|Hypocycloid speed reducer|
    US5568960A|1995-09-15|1996-10-29|Aircraft Modular Products, Inc.|Aircraft passenger seat swivel assembly|
    FR2883812A1|2005-04-01|2006-10-06|Faurecia Sieges Automobile|Articulating mechanism for seat of motor vehicle, has flange formed of single part with gear`s tooth arranged on side of flange, and seat frame with annular part projecting towards flange and welded with flange by weld arranged near tooth|
    US20110169314A1|2010-01-12|2011-07-14|Faurecia Sieges D'automobile|Articulation System and Vehicle Seat Having Such an Articulation System|
    FR2956623A1|2010-02-22|2011-08-26|Faurecia Sieges Automobile|Motor vehicle seat joint for use in angular adjusting device, has control plate comprising elastic legs exerting radial force on drive shaft for reducing radial clearance between drive shaft and control component|
    KR101826513B1|2016-07-29|2018-02-07|주식회사 서연이화|Electric seat swivel for vehicle|
    FR3100171B1|2019-09-04|2021-09-10|Faurecia Sieges Dautomobile|Swivel system, swivel assembly, seat and swivel module including the swivel system|
    FR3111305A1|2020-06-16|2021-12-17|Faurecia Sièges d'Automobile|Set of seats for a vehicle, vehicle fitted with the set of seats and method of fitting out the set of seats|
    法律状态:
    2020-08-07| PLSC| Publication of the preliminary search report|Effective date: 20200807 |
    2020-08-19| PLFP| Fee payment|Year of fee payment: 2 |
    2021-08-19| PLFP| Fee payment|Year of fee payment: 3 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1858894A|FR3086596B1|2018-09-27|2018-09-27|VERTICAL SWIVEL MOVEMENT VEHICLE SEAT|
    FR1858894|2018-09-27|
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