• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Seat comprising a fixed profile (51), a movable section (52) slidably mounted on the fixed profile, a seat (2) supported by the movable section, a backrest (3) rotatably mounted relative to the movable section to allow a folding of the folder forward. Means (40) are provided to control movement of the movable profile backward when the backrest is folded forward.
    公开号:FR3042749A1
    申请号:FR1560272
    申请日:2015-10-27
    公开日:2017-04-28
    发明作者:David Epaud;Fabrice Lesbat;Mourad Bouzid
    申请人:Faurecia Sieges dAutomobile SA;
    IPC主号:
    专利说明:

    Motor vehicle seat and motor vehicle comprising such a seat
    TECHNICAL AREA
    The present invention relates to motor vehicle seats.
    STATE OF THE PRIOR ART
    More particularly, the invention relates to a vehicle seat comprising: - a system of slides having at least one fixed section intended to be mounted on a floor of a motor vehicle and at least one movable section slidably mounted on the fixed profile in a longitudinal direction between a retracted longitudinal position and an advanced longitudinal position, - a seat supported by the movable section, - a back supported by the movable section and rotatably mounted relative to said movable section about a tilting axis, to allow a folding of the backrest between a nominal position of the backrest in which the seat can accommodate a seat occupant and a folded position in which the folder extends horizontally facing the seat.
    Many examples of such seats are known. The document FR-2 958 229 describes an example of such a seat adapted to allow the tilting of the backrest to a folded position. This seat uses a connecting rod mounted between a rear seat rod and a backrest axis. This connecting rod interacts with the seat to make it back and forward, while causing its subsidence to the floor of the vehicle.
    SUMMARY OF THE INVENTION
    The present invention aims to improve the motor vehicle seats of this type so that the seat is folded always in good conditions, regardless of the initial setting of the slide system. For this purpose, a motor vehicle seat of the aforementioned type is means for controlling a movement of the movable section towards the rear to a predetermined longitudinal position, when the backrest is folded forward and the movable section is in a initial longitudinal position in front of the predetermined longitudinal position.
    With these provisions, it is ensured that in the folded position, the seat occupies a predetermined position relative to the floor of the vehicle. It is thus possible to obtain a backrest in continuity with a rear floor and / or to prevent the seat back from interfering with a front seat during the folding of the backrest.
    In various embodiments of the seat according to the invention, one or more of the following arrangements may also be used: - said predetermined longitudinal position is close to the retracted longitudinal position; the seat is connected to the backrest so that a folding of the backrest causes the seat to move relative to the movable section, the seat furthermore comprising a guiding mechanism which connects the movable section to the seat, said mechanism for guide comprising a contact portion adapted to bear against an abutment when the backrest is folded down and the movable section is in an initial longitudinal position located forwardly of the predetermined longitudinal position, said guide mechanism being adapted so that said displacement of the seat relative to the movable section causes said movement of the movable section towards the rear on the fixed section via the guiding mechanism when said contact portion bears against said stop, the seat further comprising a sliding locking mechanism adapted to take either an active state or an inactive state, said locking mechanism slidable preventing, in the active state, a sliding of the movable section and allowing, in the inactive state, the sliding of the movable section, and the seat comprising coupling means for putting the sliding locking mechanism in the state inactive when the folder is folded forward; the guiding mechanism comprises: a first connecting rod pivotally mounted on the fixed profile; a second connecting rod pivotally mounted relative to the first connecting rod and pivotally mounted relative to the seat; said contact portion belongs to the second connecting rod; - The contact portion and / or the abutment is elastic and adapted to dampen an impact when the contact portion abuts against the stop; the coupling means are designed to put the sliding locking mechanism in the inactive state when the backrest is folded by an unlocking angle with respect to the nominal position, and the guiding mechanism is designed so that the portion of the locking mechanism is contact comes into abutment against the stop when the backrest is folded at an intermediate angle the unlocking angle; - said stop belongs to the seat; - The seat comprises: at least one side flange, at least one front foot pivotally mounted relative to the movable section and relative to the side flange, the stop being either on the side flange or on the front foot; - The seat is pivotally mounted relative to the backrest in a tilting axis distinct from the tilt axis. The invention also relates to a motor vehicle comprising a floor and a seat as presented above, wherein the fixed profile is mounted on said floor.
    BRIEF DESCRIPTION OF THE DRAWINGS Other features and advantages of the invention will become apparent from the following description of embodiments, given by way of non-limiting examples, with reference to the accompanying drawings.
    In the drawings: - Figure 1 is a schematic side view of a motor vehicle seat; Figure 2 is a perspective view of a seat frame of a first embodiment of the invention;
    - Figure 3 is a sectional view along the axis C-C of Figure 2, the seat being in retracted position on these rails, and the backrest is in nominal position to receive a seat occupant;
    - Figure 4 is a sectional view along the axis C-C of Figure 2, the seat being in the advanced position on its slides, and the backrest in nominal position; - Figure 5 is a sectional view along the axis C-C of Figure 2, the backrest is tilted to the intermediate position; - Figure 6 is a sectional view along the axis C-C of Figure 2, the backrest being tilted in a position after the intermediate position; - Figure 7 is a sectional view along the axis C-C of Figure 2, the folder being in the folded position; - Figures 8 to 12 are schematic sectional views of a second embodiment of the invention; - Figure 8 corresponds to the position of Figure 3, that is to say the seat being in retracted position on these rails, and the backrest being in the nominal position to receive a seat occupant; - Figure 9 corresponds to the position of Figure 4, that is to say the seat being in the advanced position on its slides, and the backrest in nominal position; - Figure 10 corresponds to the position of Figure 5, that is to say the backrest being tilted to the intermediate position; - Figure 11 corresponds to the position of Figure 6, that is to say the backrest being tilted in a position after the intermediate position; - Figure 12 corresponds to the position of Figure 7, that is to say the backrest being in the folded position.
    DETAILED DESCRIPTION OF EMBODIMENTS
    In the different figures, the same reference numerals designate identical or similar structural and / or functional elements.
    In the following description, when reference is made to absolute position qualifiers (such as the terms "forward", "backward", "up", "down", "left", "right", etc.). .), relative position (such as the terms "above", "below", "upper", "lower", etc.) or orientation (such as "vertical", "horizontal", etc.) ...), reference is made to a seat in a normal position of use thereof in the ordinary progression direction of the vehicle which corresponds to the longitudinal direction X in the figures, which is perpendicular to a transverse direction Y and a vertical direction Z directed upwards. The X and Y directions form an XY horizontal plane.
    Unless otherwise specified, the expressions "approximately", "substantially", "about", "of the order of", etc., mean that a slight variation from a nominal value considered is possible, in particular from a low percentage, especially at 10%.
    Figure 1 is a schematic view of a seat 1, including a motor vehicle seat, comprising a seat 2 and a backrest 3, the seat being fixed to a floor 4 of the vehicle, said floor being considered fixed and substantially in the plane horizontal XY. The seat 2 is connected to the floor 4 by a system of slides 5 which comprises for example a first slide 5a on a right side and a second slide 5b on a left side of the seat, said rails being parallel to each other and extending in a longitudinal direction X. Optionally, the slider system 5 may comprise more than two sliders, and for example as shown in the embodiment of Figure 2 corresponding to a bench seat, the slider system 5 comprises also a third slide 5c located between the first and second slides.
    Each of the first and second slides 5a, 5b comprises a first fixed profile 5i and a second movable section 52 which extend in the longitudinal direction X and which are adapted to slide relative to each other in a first direction XI (forward) or in a second direction X2 (backwards), the second direction X2 being opposite the first direction XI. The first section 5i (fixed profile) is for example secured to the fixed floor 4, and the second section 52 (movable section) is secured to a seat base structure.
    The slide system 5 thus makes it possible to adjust the longitudinal position of the seat relative to the floor 4. It also comprises at least one sliding locking mechanism 7 which can take either an active state in which it prevents sliding of the slide system 5 (normal state in the absence of solicitation), an inactive state in which it authorizes this sliding. This sliding locking mechanism 7 is for example operable by the user by a slide control member 8, lifter or other type.
    Coupling means 7a (for example a sheathed cable, or the like) are further provided so that when a user folds the backrest 3 forward, the locking mechanism 7 goes into the idle state.
    The seat 1 also comprises a base 10 fixed on the second sections 52 and for example made up of two parts 10a, 10b one on each second section, said base 10 connecting together the front and the rear of the seat at the level of the slide system to facilitate assembly. The base 10 being secured to the second section, the parts mounted on the base 10 are in fact mounted on the second section.
    The backrest 3 is mounted on rear portions of the base 10, pivotally about a tilting axis Y1 parallel to the transverse direction Y. In the plane XZ, the backrest 3 in the nominal position extends upwards. in a ZI folder direction inclined at an angle of inclination with respect to the vertical direction Z. On one side of the backrest 3, a hinge mechanism 9 is interposed between the base 10 and the backrest 3. Such mechanisms 9 are well known, and can be actuated by the seat user through a tilt adjustment control member to adjust the inclination of the backrest 3 relative to the base 10 (or the seat 2 ) and thus adjust the nominal comfort position of its seat.
    This hinge mechanism 9 also includes a tilt lock member that can be actuated by a tilt control member, such as a handle, between an active state in which it prevents rotation of the backrest 3 relative to the base 10 is an inactive state in which it allows the rotation of the backrest 3 between a nominal position (comfort) shown in Figures 2 3 and 8, and a folded position (tablet) shown in Figures 7 and 12. In the nominal position, the seat back 3 has a slope adapted for the user to take place in the seat, his back pressed against the backrest. In the folded position, the backrest 3 of the seat has a substantially horizontal inclination, for example to let through or support a loading of the vehicle.
    Figures 2 to 7 show a first embodiment of the invention, the structural elements and operation will be explained in detail below. The seat 2 of the seat 1 comprises a seat structure 20 consisting for example of rods, flanges and other crosspieces, said seat structure being seen more precisely on the perspective of Figure 2, and in which the padding is not represented in order to visualize this seating structure of the seat. These elements of the seat structure are rigid parts and articulated to each other to define a specific shape and adapted to the position of the backrest, nominal position in the folded position.
    The seat structure 20 is substantially symmetrical with respect to a vertical plane of X-Z directions, and it comprises: front feet 21a, 21b, a front cross member 22 connecting said front legs 21a, 21b, lateral flanges 23a, 23b.
    Each front leg 21a, 21b has a rod shape of constant length, pivotally mounted at both ends. The front foot 21a thus comprises a 21al end pivotally mounted on the base 10 and an upper end 21a2 secured to a portion to the right of the front cross member 22. Conversely, the front foot 21b thus comprises an end 21b pivotally mounted on the base 10 and an upper end 21b2 integral with a portion to the left of the front cross member 22.
    Each side flange 23a, 23b has a rod shape of constant length, which extends rearwardly from a front foot. Advantageously, these side flanges 23a, 23b have an upwardly curved shape going backwards, to a rear end 23al, 23bl, respectively, where they are each articulated in rotation relative to a pivot 2a2, 2b2 mounted on the backrest 3, said pivots 2a2, 2b2 being aligned along a tilting axis Y2 located above the inclination axis Y1.
    The backrest 3 of the seat 1 comprises a backrest structure 30, for example consisting of: - a back 31, for example formed of a substantially flat plate, - side flanges 32a, 32b, each secured to the back 31 and s' extending from bottom to top, from the base 10 to an upper portion of the backrest, and - an upper cross member 33 secured to the back 31 and connecting the side flanges 32a, 32b in the transverse direction Y.
    The backrest structure 30 thus forms a rigid frame adapted to support a padding of the backrest for the comfort of the back of the user of the seat 1.
    The backrest 3 is then articulated in rotation with respect to the base 10 around the inclination axis Y1 at lower ends 2al, 2bl.
    Thus, the spacing between the successive points 21al, 21a2, 2a2, 2al is constant in any use of the seat, and the quadrilateral formed by said points is a deformable quadrilateral. An identical deformable quadrilateral is formed by successive points on the right side 21bl, 21b2, 2b2 and 2bl. Thus, these quadrilaterals define the general shape of the seat structure 20 and the possible displacements of this seat structure 20 with respect to the base 10. This general shape is determined by the angle of inclination of the backrest 3, which then extends in a direction Z2 different from the direction Z1, in particular during a tilting movement of the backrest 3 around the inclination axis Y1 (when the tilt locking member is actuated in the inactive state) for example between the nominal position and the folded position.
    The seat structure 20 may further comprise a rear crossmember 24 which connects at the rear the two side flanges 23a, 23b, to form a stronger rigid frame and to better support the seat cushion (not shown) .
    The seat 1 according to the invention further comprises a guide mechanism 40. Unlike the seat structure 20 which defines the movements of the seat 2 relative to the base 10 (or slide system 5), the mechanism of guidance 40 allows to define under certain conditions the movements of the seat 2 relative to the floor 4 of the vehicle.
    This guiding mechanism 40 is more easily visible in FIGS. 3 to 7 which are XZ sectional views of the seat 1 in the various possible positions, and showing precisely the movements of the elements of the seat 2, the backrest 3 and this guiding mechanism 40.
    According to one embodiment, the guiding mechanism 40 comprises a first connecting rod 41 and a second connecting rod 42 connected in series and pivotable relative to each other about a connecting pin 44 intermediate said connecting rods.
    The first connecting rod 41 is pivotally mounted at a first end 41a on a pivot axis 43 connected to the floor 4, for example by means of a support, and is pivotally mounted at a second end 41b on the connecting pin 44 .
    The second connecting rod 42 is pivotally mounted at a first end 42a on the connecting pin 44 and at a second end 42b on a guide pin 45 connected to the seat structure 20.
    The second connecting rod 42 comprises a contact portion 42c adapted to abut or abut against a stop 25 secured to an element of the seat structure 20, such as a longitudinal cross member (X-direction) as shown in FIGS. figures, or a transverse crossbar (Y direction).
    This abutment assembly (contact portion and abutment) thus makes it possible to limit the angular displacement of the second connecting rod 42 relative to the seat 2.
    When the contact portion 42c of the second link 42 is not in abutment against the stop 25, the first and second links are both free to pivot on their respective two axes, and in particular, the second end 42b of the second connecting rod 42 can take any position around the pivot axis 43, at a distance from this axis of pivoting 43 less than the sum of the lengths of the first and second connecting rods 41, 42. The guide mechanism 40 is then in a free state, in which it does not interfere with the seat 2. In this free state, the guiding mechanism 40 has two degrees of freedom: the two rotations of the connecting rods.
    When the contact portion 42c of the second connecting rod 42 bears against the abutment 25, only the first connecting rod 41 can pivot about the pivot axis 43. The second end 41b of the first connecting rod 41 (connecting pin 44) can move in a circular arc trajectory centered on the pivot axis 43. The guiding mechanism 40 is then in a constrained state, in which it interferes with the seat 2, forcing the seat 2 to move towards the rear by sliding in translation of the base 10 backwards relative to the floor of the vehicle. Thus, during the forward tilting of the backrest 3, the guiding mechanism 40 forces the whole of the seat (seat and backrest) to move backwards at the same time as the seat 2 goes downwards near the seat. floor 4 by the rotation of the first rod 41, until the backrest 3 is facing the seat 2, that is to say to the folded position.
    The rods of the guiding mechanism 40 are dimensioned (lengths) and positioned between the floor 4 and the seat 2 so that, in the advanced position of the slide system 5, as shown in FIG. 4, the second connecting rod 42 is not not in abutment, that is to say for the guiding mechanism 40 is still in free state. In this position, the second rod 42 is oriented in a connecting rod direction B42. When this second connecting rod 42 bears against stop 25 (as represented in FIG. 5), it is oriented in a stop direction B. These two directions, connecting rod direction B42 and stop direction B, therefore form in the advanced position of slide system 5 and the nominal position of the backrest 3, a connecting rod angle β, for example between 5 degrees and 30 degrees, and preferably between 5 degrees and 15 degrees.
    In addition, the first and second connecting rods 41, 42 of the guiding mechanism 40 form a scissor angle yc in the advanced nominal position of the slide system 5 of FIG. 4, which is very open, for example between 50 degrees and 80 degrees. In this longitudinal position of the seat, sufficiently advanced on its slides 5, the guiding mechanism 40 moves from the free state to the constrained state during the tilting of the backrest 3 towards the seat 2, which makes it possible to cause its movement towards the rear.
    The first and second connecting rods 41, 42 of the guiding mechanism 40 form a scissor angle yc in the retracted nominal position of the slider system 5 of FIG. 3, which is even more open, for example between 90 degrees and 150 degrees. In this longitudinal position of the seat, sufficiently retracted on its slides 5, the guiding mechanism 40 remains in free state during the entire tilting of the backrest 3 to the seat 2 and naturally forms a flat floor in continuity with a rear floor.
    The base 10 may furthermore comprise, towards the rear of the seat, an enhancement mechanism 15 which comprises: an upstanding base 16 comprising the inclination axis Y1 and on which is mounted rotatably the backrest 3, a connecting rod before 17 and a rear link 18, both articulated in rotation on a fixed portion of the base (integral with the movable section of the slide system) and on the raising base.
    The two connecting rods 16, 17 form a deformable parallelogram which makes it possible to move the raising base 16 upwards with respect to the fixed portion of the base, and therefore the entire backrest 3 of the seat, when an enhancement locking member 19 passes in an inactive state in which the fixed portion of the base and the raising base are uncoupled. When the raising locking member 19 is in the active state, the fixed portion of the base and the raising base are coupled, and form an integral assembly. An enhancement control member is actuated by a user to move the lift lock member 19 into an active state, and to tilt the seat back 3 upwardly and thereby, for example, facilitate a passage of the user to a row of rear seat.
    The operation of the seat described above will now be presented more precisely.
    Referring to Figures 3 and 4, the seat is presented with its backrest 3 in nominal position in which an occupant can take place in the seat. The occupant can adjust the longitudinal position of the seat by operating a rudder or slide control member 8, which places the slide locking mechanism 7 in an inactive state. The second profile 52 (mobile) is then detached from the first profile 5i (fixed). The occupant can then slide the seat relative to the floor 4 of the vehicle in the longitudinal direction X, in any position between the retracted position of Figure 3 and the advanced position of Figure 4. In all this range of longitudinal positions, the Guiding mechanism 40 does not interfere with the seat 2, and does not affect the translational displacement of the seat 2 along the longitudinal direction X. Notably, this guide mechanism 40 does not induce force. reminder on the seat as it may exist with elastic means of positioning usually used.
    When the user of the seat wishes to place it in the folded position of FIG. 7, in which the backrest 3 extends substantially horizontally with its front face which extends facing the upper face of the seat, so that the rear face of the backrest forms for example a horizontal surface preferably in continuity with a trunk floor of the vehicle, it actuates the tilt control member to allow the rotation of the backrest 3 relative to the base 10 around the inclination axis Y1. The backrest 3 of the seat will then first switch in a first range of rotation of the nominal position, for example that of Figure 4, to an intermediate position shown in Figure 5.
    In this first range of rotation of the backrest, between the nominal position and the intermediate position, the coupling means 7a actuate the sliding locking mechanism 7 in its inactive state automatically during the rotation of the backrest 3, for example as soon as the backrest has tilted from an unlocking angle to. Thus, when the backrest 3 reaches the intermediate position of FIG. 5, the seat 1 is able to slide in the longitudinal direction X. Before this action for unlocking the sliding locking mechanism, the seat 2 can only advance by tilting. the upper ends 21a2, 21b2 of the front feet 21a, 21b. After this unlocking, the seat 2 can always advance by tilting forward the upper ends of the front feet, but the lower ends 21al, 21bl of the front feet 21a, 21b can also move back as the second section 52 of the slide system, on which is mounted the base 10, can slide backwards in the longitudinal direction X.
    In the intermediate position of FIG. 5, the rotation of the backrest 3 towards the front around the inclination axis Y1 according to the arrow F3 causes the seat 2 to advance in the direction of the arrow F2a by the displacement lateral flanges 23a, 23b, said advance being in slight rise followed by a slight descent, but generally substantially horizontal in the longitudinal direction X. This movement is related to the forward rotation along the arrow F21 of the front feet 21a, 21b about the axes at their lower ends 21al, 21bl, itself caused by the advancement of the seat structure 20 of the seat.
    The movement of the seat structure 20 described above has the effect of moving the guide mechanism 40 which sees its second link 42 pivot about the guide axis 45 and lift towards the seat structure 20, until 5 to the intermediate position of FIG. 5, in which the contact portion 42c of the second connecting rod 42 comes into contact with the abutment 25 of the seat structure 20, which puts the guiding mechanism 40 in a constrained state.
    In this intermediate position, the backrest 3 has rocked by an intermediate angle Ct2 (greater than the unlocking angle α1). This intermediate angle a2 is a function of the connecting rod angle β of the second connecting rod 42 in the nominal position of FIG. 4. This relationship can be determined by the geometric relations existing between the elements of the seat 2, the backrest 3 and of the guiding mechanism 40.
    This intermediate angle a2 of course depends on the initial longitudinal position of the seat on its slides 5. More, the longitudinal position is close to the advanced position of Figure 4, plus this intermediate angle will be small. On the other hand, if the seat is initially in the retracted longitudinal position of FIG. 3, the guiding mechanism 40 remains permanently in a free state and this intermediate angle does not exist.
    If the user continues the rotation of the backrest 3 forward around the tilt axis Y1 according to the arrow F3, as shown in Figure 6, the guide mechanism 40 being in a constrained state (second connecting rod 42 abuts against the seat 2), and now accepts only one degree of freedom, the seat 2 can not continue its movement forward, and only the first link 41 pivots about the pivot axis 43 ( arrow F41) connected to the fixed floor 4 of the motor vehicle. The movement of the seat 1 continues under the action of this rotation of the first link 41. The guide axis 45 of the guide mechanism 40 thus moves in the direction of the pivot axis 43, as represented by the arrow F2b in FIG. 6. The seat 2 follows such a movement of almost circular translation since its upper face remains substantially horizontal but pivots backwards and downwards about the pivot axis 43.
    In fact, a subset of the seat 1 (base, seat and backrest) moves backwards through the sliding locking mechanism 7 which has switched to previously inactive state, since the angle of inclination is greater than the angle of unlocking al.
    Simultaneously, the seat 2 sinks downwardly approaching the floor 4 of the vehicle.
    The movement of the seat 2 and the backrest 3 continues all the more easily as following the tilting of the backrest 3 forward along the arrow F3, the center of gravity of the backrest 3 is more and more deported to the back. before with respect to the axis of inclination Y1.
    The rotational movement of the backrest 3 can continue to the folded position of Figure 7, wherein the seat 2 is completely collapsed on the base 10. The first link 41 is then almost in a horizontal position. The first and second connecting rods 41, 42 of the guiding mechanism 40 then form a scissor angle yc in the very acute folded position, and for example between 10 degrees and 30 degrees.
    Thanks to the guide mechanism 40, the seat is always found in the retracted longitudinal position when folded, regardless of its initial longitudinal position. This avoids interference between the backrest 3 and a front seat and / or allows a precise integration of the folded seat in the floor of the vehicle to a predetermined position.
    Alternatively, the seat 1 could comprise other means than the guide mechanism 40, to control a displacement of the second profile 52 rearwardly to a predetermined longitudinal position, when the backrest 3 is folded forward and that the movable section 52 is in an initial longitudinal position located in front of the predetermined longitudinal position.
    Figures 8 to 12 show a second embodiment of the invention, shown very schematically and in cross-sectional views similar to Figures 3 to 7 of the first embodiment, that is to say in positions equivalent.
    This second embodiment includes substantially the same elements and operates substantially identically to the first embodiment of the invention, so that all the common elements will not be detailed but will be understood using the description of the first mode. of realization. This second embodiment differs from the first by the following elements.
    First, the connection between the seat 2 and the backrest 3 differs, since now the tilting axis Y2 is located below the inclination axis Y1 in the nominal position. Thus, the tilting of the backrest 3 causes, from the beginning of this tilting, a backward movement or displacement towards the rear of the seat 2 relative to the base 10, whereas in the first embodiment the seat 2 was starting to move forward on his front feet.
    Then, after the intermediate position from which the guiding mechanism 40 enters the constrained state, this rearward displacement of the seat 2 is amplified by the sliding (recoil) relative to the floor 4 of the seat assembly constituted by the base 10, the seat 2, the backrest 3 and the base 10, thanks to the unlocking of the slideway system 5.
    Secondly, the abutment 25 is solitary of one of the front legs 21a, 21b of the seat 2, whereas in the first embodiment this abutment 25 is integral with a cross member of the seat 2.
    Thirdly, the pivoting guide axis 45 of the second connecting rod 42 with respect to the seat 2 is situated on a front foot 21a, 21b, whereas in the first embodiment this guide axis 45 was on a crossbar of the seating structure.
    These arrangements can be independently combined with those of the first embodiment.
    Figure nomenclature excerpt: 1 Seat 2 Seat 3 Backrest 4 Floor 5 Slide system 9 articulation mechanism 10 base 15 raising mechanism 20 seat structure 21a, 21b front feet 22 front crossmember 23a, 23b side plates 24 rear crossmember 30 backrest structure 40 guide mechanism 41, 42 first and second connecting rod 43 pivoting axis 44 connecting pin 45 guide pin
    权利要求:
    Claims (11)
    [1" id="c-fr-0001]
    1 · Motor vehicle seat comprising: - a system of slides (5) having at least one fixed profile (5i) intended to be mounted on a motor vehicle floor and at least one movable section (52) slidably mounted on the profile fixed (5i) in a longitudinal direction (X) between a retracted longitudinal position and an advanced longitudinal position, - a seat (2) supported by the movable section (52), - a backrest (3) supported by the movable section (52). ) and rotatably mounted relative to said movable section (52) about a tilting axis (Y1), to allow folding of the backrest forwards between a nominal position of the backrest in which the seat can receive a seat occupant and a folded position in which the backrest extends horizontally facing the seat, characterized in that it comprises means (40) for controlling a displacement of the movable section (52) rearwardly to a longitudinal position predetermined, when the backrest (3) is folded forward and the movable section (52) is in an initial longitudinal position located in front of the predetermined longitudinal position.
    [2" id="c-fr-0002]
    2. Seat according to claim 1, wherein said predetermined longitudinal position is close to the retracted longitudinal position.
    [3" id="c-fr-0003]
    3. Seat according to claim 1 or claim 2, wherein the seat (2) is connected to the backrest (3) so that a folding of the back causes a displacement of the seat relative to the movable section (52), the seat further comprising a guide mechanism (40) which connects the movable profile (52) to the seat (2), said guide mechanism (40) having a contact portion (42c) adapted to bear against a stop (25) when the backrest is folded down and the movable section (52) is in an initial longitudinal position located forward of the predetermined longitudinal position, said guide mechanism (40) being adapted so that said displacement of the seat (2) relative to the movable section (52) causes said movable section (52) to move backwards on the stationary profile (51) via the guiding mechanism (40) when said contact portion (42c ) is supported against said stop (25), the composite seat furthermore having a sliding locking mechanism (7) adapted to take either an active state or an inactive state, said sliding locking mechanism preventing, in the active state, a sliding of the movable section (52) and allowing, in the the inactive state, the sliding of the movable section (52), and the seat comprising coupling means (7a) for putting the sliding locking mechanism (7) in the inactive state when the backrest (3) is folded towards 1'avant.
    [4" id="c-fr-0004]
    4. Seat according to claim 3, wherein the guiding mechanism (40) comprises: - a first connecting rod (41) pivotally mounted on the fixed profile (5i), - a second connecting rod (42) pivotally mounted relative to the first connecting rod and pivotally mounted relative to the seat (2).
    [5" id="c-fr-0005]
    Seat according to claim 4, wherein said contact portion (42c) belongs to the second connecting rod (42).
    [6" id="c-fr-0006]
    6. Seat according to any one of claims 3 to 5, wherein the contact portion (42c) and / or the stop (25) is resilient and adapted to dampen an impact when the contact portion abuts against the stop .
    [7" id="c-fr-0007]
    Seat according to any one of claims 3 to 6, wherein the coupling means (7a) are adapted to put the sliding locking mechanism (7) in the inactive state when the backrest (3) is folded down. an unlocking angle (CCI) with respect to the nominal position, and the guiding mechanism (40) is designed so that the contact portion (42c) bears against the stop (25) when the backrest (3) is folded at an intermediate angle (CC2) greater than the unlocking angle (al).
    [8" id="c-fr-0008]
    8. Seat according to any one of the preceding claims 3 to 7, wherein said stop (25) belongs to the seat (2).
    [9" id="c-fr-0009]
    9. Seat according to claim 8, wherein the seat (2) comprises: - at least one side flange (23a, 23b), - at least one front foot (21a, 21b) pivotally mounted relative to the movable section (52a). ) and with respect to the lateral flange, the abutment (25) being either on the lateral flange (23a, 23b) or on the front foot (21a, 21b).
    [10" id="c-fr-0010]
    10. Seat according to any one of the preceding claims, wherein the seat (2) is pivotally mounted relative to the backrest (3) in a tilting axis (Y2) separate from the axis of inclination (Yl).
    [11" id="c-fr-0011]
    11. Motor vehicle comprising a floor and a seat according to one of claims 1 to 10, wherein the fixed profile (5i) is mounted on said floor.
    类似技术:
    公开号 | 公开日 | 专利标题
    FR3042749A1|2017-04-28|MOTOR VEHICLE SEAT AND MOTOR VEHICLE COMPRISING SUCH A SEAT
    FR2851211A1|2004-08-20|Vehicle seat, has backrest rotatably mounted in accordance with rail and seat having interlocking device to selectively authorize rotation of backrest, and front with upper and lower end is rotatably mounted based on vehicle floor
    FR2874198A3|2006-02-17|CHILD SEAT FOR MOTOR VEHICLE
    WO2010010274A1|2010-01-28|Vehicle seat
    FR3083174A1|2020-01-03|MOTOR VEHICLE SEAT
    FR2844489A1|2004-03-19|Vehicle seat with neck protection has lower support frame and lower frame movable on support frame and upper frame pivoted on lower frame, upper frame carries head support and inclination of upper frame is adjusted by device between frames
    FR2958229A1|2011-10-07|Seat of motor vehicle, has backrest and base that are connected such that backrest is displaceable in rotation between nominal position and folded position in single movement, where backrest is rotatively mounted around rotation axis
    FR2948326A1|2011-01-28|Passenger seat for aircraft, has rods articulated on support and flange to form quadrilateral, so that support and shelf are maintained in raised state and quadrilateral is deformed to accompany backrest pivotment, in storage position
    FR2957863A1|2011-09-30|Retractable footrest for seat of motor vehicle, has first connecting rod whose end is articulated with end of second connecting rod, where other end of first rod and end of third connecting rod cooperate with each other by driving device
    FR2882705A1|2006-09-08|Seat assembly for e.g. minivan, has seat including base supported by back legs and front legs with set of branches, and lockup clutch locking connecting rod in one of two positions when seat is deployed
    EP2540559A1|2013-01-02|Adjustable vehicle seat
    FR2882704A1|2006-09-08|Seating assembly for e.g. minivan, has seat with base supported by front and rear legs, where each front leg has vertical and horizontal branches directly fixed on floor of vehicle, and vertical branches are connected by cross-piece
    EP0373081B1|1992-05-13|Collapsible seat especially for the equipment of automotive vehicles
    FR2846921A1|2004-05-14|Vehicle seat, has moving object with mechanism of superior activations actuated by occupant back when vehicle undergoes tending preset shock to project occupant towards back compared to seat
    FR2999491A1|2014-06-20|Retractable seat for motor vehicle, has seat back and base articulated in rotation with respect to another around pivot connection, and front rod articulated in rotation around another pivot connection on rear portion of base
    FR2847211A1|2004-05-21|Motor vehicle seat, has two connecting rods linked to seat and backrest, which include supporting face that is turned towards backside and front side of seat in position of storage and shelf
    WO2019180654A1|2019-09-26|Device for helping the transition from a seated position to a standing position, and vice versa, mobility platform for seat comprising such a device, and wheelchair
    EP0161157A1|1985-11-13|Chair convertible into a bed
    FR2969051A1|2012-06-22|Seat i.e. rear seat for motor vehicle, has footrest including plate, where footrest is connected by rods to seat such that angular position of footrest is simultaneously changed upon modification of inclination of seat
    FR2882706A1|2006-09-08|VEHICLE SEAT HAVING A FOLDING BACKREST
    FR2867725A1|2005-09-23|Front seat for motor vehicle, has actuator moving armature in its front position to move headrest forward with backrest upper part, and adjusting device with nut supported and sliding from stopper in opposite directions, respectively
    FR2904585A1|2008-02-08|Motor vehicle seat, has backrest top placed between backrest and headrest and mobile by pivoting with respect to backrest, where top is connected to headrest such that top is driven in pivoting by pivoting headrest
    FR2863219A1|2005-06-10|Foldable seat for motor vehicle, has base with foam cushion on suspension textile sheet, where base is vertically tilted and backrest is horizontally folded such that backrest surface opposite to base surface is in floor pan extension
    FR3026066A1|2016-03-25|VEHICLE SEAT COMPRISING A SLIDER UNLOCKING MECHANISM
    EP1908627A1|2008-04-09|Seat comprising a backrest which can be moved between a deployed position and a folded position, in particular for an automobile.
    同族专利:
    公开号 | 公开日
    FR3042749B1|2018-09-14|
    US10106057B2|2018-10-23|
    US20170113575A1|2017-04-27|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR2799702A1|1999-10-14|2001-04-20|Faure Bertrand Components Ltd|Folding seat for motor vehicle has folding seat back with spring to bias it to load support position|
    FR2914241A1|2007-03-29|2008-10-03|Cera|Seat e.g. rear seat, for motor vehicle, has return unit integrated to fixed rail and front of base side sill for returning mobile rail relative to fixed rail by folding backrest side sill, when mobile rail is advanced above preset position|
    FR2929564A1|2008-04-08|2009-10-09|Cera|Seat for motor vehicle, has cam surface formed at rear of fixed rail and cooperated with latch to actuate latch in unlocking position when movable rail is arranged in rear position under constraint of elastic return unit|
    FR2984247A1|2011-12-16|2013-06-21|Cera|Seat for car, has base plate that is movable upwards and is arranged interdependent of backrest, and movable rail that is arranged to move back to extreme position so as to allow locking of locking unit after complete retreat of seat|
    KR101486596B1|2009-08-31|2015-01-26|현대자동차주식회사|Fold and dive seat|
    FR2958229B1|2010-03-30|2012-04-20|Faurecia Sieges Automobile|SEAT OF A MOTOR VEHICLE AND VEHICLE PROVIDED WITH SUCH A SEAT|JP6245293B2|2016-03-15|2017-12-13|マツダ株式会社|Seat back panel|
    KR102299335B1|2017-03-23|2021-09-09|현대자동차주식회사|Seat position adjustment apparatus for vehicle|
    KR20190066673A|2017-12-06|2019-06-14|현대자동차주식회사|Relax seat belt for vehicle|
    CN113212260A|2021-06-24|2021-08-06|诺博汽车系统有限公司|Vehicle seat assembly and vehicle|
    法律状态:
    2016-09-21| PLFP| Fee payment|Year of fee payment: 2 |
    2017-04-28| PLSC| Search report ready|Effective date: 20170428 |
    2017-09-21| PLFP| Fee payment|Year of fee payment: 3 |
    2018-09-19| PLFP| Fee payment|Year of fee payment: 4 |
    2019-09-19| PLFP| Fee payment|Year of fee payment: 5 |
    2020-09-17| PLFP| Fee payment|Year of fee payment: 6 |
    2021-09-22| PLFP| Fee payment|Year of fee payment: 7 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1560272|2015-10-27|
    FR1560272A|FR3042749B1|2015-10-27|2015-10-27|MOTOR VEHICLE SEAT AND MOTOR VEHICLE COMPRISING SUCH A SEAT|FR1560272A| FR3042749B1|2015-10-27|2015-10-27|MOTOR VEHICLE SEAT AND MOTOR VEHICLE COMPRISING SUCH A SEAT|
    US15/333,615| US10106057B2|2015-10-27|2016-10-25|Seat for motor vehicle and motor vehicle comprising such a seat|
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