Patent Document

BACKGROUND OF THE INVENTION 
   The invention relates to a motor vehicle seat with a seat carrier, with a seat back and with a seat back hinge that is disposed between seat carrier and seat back and is comprised of a lower hinge arm associated with said seat carrier as well as of an upper hinge arm associated with said seat back. 
   Motor vehicle seats are known in which the seat back can be pivoted to substantially a horizontal plane through an additional pivot hinge member provided above the pivot axis of the normal seat back hinge. The pivot hinge member, which is located higher, permits to sufficiently tilt the seat when it is adjusted in the forward direction. The forward tilted seat may be used as a table, this feature being termed the “table function”. The decisive feature is that the seat back be folded down as far as possible so that the seat occupies little space and that the vehicle in which the motor vehicle seat is mounted can be advantageously loaded and can for example carry a bulky load. 
   A motor vehicle seat with a table function is known from DE 197 41 996 A. 
   In view of the motor vehicle seat of the type mentioned herein above, it is the object of the invention to indicate a motor vehicle seat with table function that is simple in construction and is built from a few component parts, is reliable in function and easy to operate. 
   SUMMARY OF THE INVENTION 
   In view of the motor vehicle seat of the type mentioned herein above, the solution to this object is achieved in that the upper hinge arm is connected to the seat back through a forward tilt axis, that a locking mechanism is provided between seat back and upper hinge arm, said locking mechanism preventing the forward tilt motion of the seat back about the forward tilt axis in the locked position and allowing said seat back to tilt forward in the released position, that the locking mechanism comprises a handle, that the locking mechanism comprises a blocking lever that is hinged to the seat back, is connected to and cooperates with the handle and is comprised of a blocking side, that the upper hinge arm has a complementary side that cooperates with the blocking side and further forms a retaining catch stop, that a retaining lever is hinged to the seat back, said retaining lever forming a retaining lug which abuts against the retaining catch stop in the forward tilted position of the seat back and retains the seat back in the forward tilted position and that the blocking lever is located in proximity to the retaining lever and is pivoted upon actuation of the handle so as to abut against the retaining lever which is pivoted as a result thereof in such a manner that the retaining lug is released from engagement with the retaining catch stop. 
   With this vehicle seat, an advantageous table function is achieved with relatively few component parts without having to notably change the function and more specifically the design of the seat. The motor vehicle seat of the invention behaves like a normal motor vehicle seat as long as the locking mechanism is not released. The amount of recline of the seat back may be adjusted by means of the seat back hinge just like that of a normal motor vehicle seat. This adjustment may for example be performed by an associated handwheel or by motor-driven adjustment. 
   As compared to a normal motor vehicle seat, the motor vehicle seat in accordance with the invention additionally has a forward tilt axis about which the seat back may be tilted forward into the table function position. Normally, such a movement about the forward tilt axis is not possible. The locking mechanism is provided for this purpose. A forward tilt motion is only possible upon actuation of a handle by means of which the locking mechanism is released so that the seat back is allowed to be tilted forward about the forward tilt axis. 
   This forward tilting motion about the forward tilt axis may be relatively quick, and in any case quicker than the usual adjustment of the seat back hinge according to the state of the art. Accordingly, the vehicle seat in accordance with the invention is also suited for quickly tilting the seat back forward, thus for example facilitating access to the region behind the motor vehicle seat. 
   The locking mechanism merely has a blocking lever and a retaining lever. Both are hinged to the seat back and are hinge-linked to a carrier of the seat back. Usually, they are provided once on either side of the seat. However, it is also possible to provide but one seat side with a retaining lever. Another possibility is to have the two levers mounted to one seat side only. 
   The blocking lever is connected to and cooperates with the handle, meaning the handle may cause the blocking lever to pivot. For this purpose, it is for example connected to the handle through a cable, the handle is preferably disposed laterally in the top region of the seat back and may be configured as a flap, a grip or the like. The blocking lever has a blocking side, which cooperates with a complementary side formed on the upper hinge arm. In the locked position, the blocking side of said blocking lever abuts against the complementary side. As a result, the seat back is not allowed to tilt forward about the forward tilt axis. The forward tilt axis is located beneath the blocking lever, it is provided between the upper hinge arm and the seat back. 
   The blocking lever further has a blocking back which, in the blocked position, abuts against a blocking curve of the upper hinge arm. Through this abutment, backward pivot movement of the seat back is blocked. The blocking lever is pivotable about a blocking lever axis located in immediate proximity to the blocking back. Preferably, it is centered on the blocking lever axis over at least a portion thereof. 
   For locking the seat back in its normal position, the retaining lever is not needed. The retaining lever is disposed in immediate proximity to, preferably slightly above, the blocking lever. It is hinged to the seat back so as to be pivotable about a retaining lever axis. It is preferably elongated and abuts, in the normal position, on an outer curve of the upper hinge arm. It is roughly tangential thereto. Its function is to retain the seat back in the forward tilted position. It is provided for this purpose with a retaining lug that, in the forward tilted position of the seat back, abuts against a retaining catch stop formed on the upper hinge arm. 
   As the seat back is pivoted forward, the retaining lever is caused to ride along the outer curve until it is allowed to engage the retaining catch stop. Once this has happened, the seat back is locked in the forward tilted position. It may be pivoted upward from this position if the retaining lever is pivoted about its retaining lever axis in such a manner that the retaining lug is released from the retaining catch stop. This is achieved by pivoting the blocking lever by means of the handle. As a result of the close proximity between the two levers, pivoting the blocking lever will cause the retaining lever to pivot as well. It is thus released, so that the seat back may be tilted back. As the seat back is being tilted back, the blocking back is again caused to move against the blocking curve and the blocking lever is pivoted so far that its blocking side pivots toward the complementary side against which it comes to rest. The angle between the blocking side and the complementary side is relatively small, it preferably lies within the range of self-locking. In general, a clearance free blocking is thus achieved. In the normal position, the retaining lever substantially extends along the outer curve, outside thereof. 
   As a result of the relatively few component parts used, a clearance free blocking is achieved in the normal position, meaning in the normal utilization position of the seat back, on the one hand while the seat back is fixed in the forward tilted position on the other hand. A motor vehicle seat which is simple in construction and exhibits good utilization properties is obtained in this way. The invention permits to retrofit normal motor vehicle seats with this additional function. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
     Further advantages and characteristics of the invention will become apparent after reviewing the subordinate claims and the following non restrictive description of an embodiment thereof, given by way of example only with reference to the drawings, wherein: 
       FIG. 1  is a side view of a vehicle seat in the normal utilization position with the blocking lever being in its blocked position and the handle being in the rest position, 
       FIG. 2  is a side view of the motor vehicle seat which is, like in  FIG. 1 , in the normal utilization position, with the handle now being actuated though, and with the blocking lever being pivoted so that its blocking side is free of engagement by a complementary side, 
       FIG. 3  is a side view of the motor vehicle seat similar to  FIG. 2 , with the seat back now being in a slightly forward tilted position, 
       FIG. 4  is a side view of the motor vehicle seat similar to  FIG. 3 , with the seat back now being in a completely forward tilted and locked position, 
       FIG. 5  is a side view of the motor vehicle seat similar to  FIG. 4 , with the retaining lever now being pivoted upward as a result of the action of the blocking lever so that the locked position may be released and 
       FIG. 6  is a sectional view taken along the line VI—VI in  FIG. 2 . 
   

   DETAILED DESCRIPTION OF THE INVENTION 
   The motor vehicle seat has a seat carrier  20  that is hinge-linked to a lengthwise adjustment device  26  through the respective two front parallel arms  22  and two rear parallel arms  24  of a parallelogram, said length adjustment device being adapted to be in turn secured to an underbody of a motor vehicle (not shown). 
   The seat carrier is provided with a padding  28 . A lower hinge arm  30  of a seat back hinge  32  is secured to the seat carrier. This applies to both seat sides. The seat back hinge  32  has an upper hinge arm  34  that is configured to be substantially hook-shaped, similar to the shape of a number  2 . The seat back hinge  32  can be pivoted about a hinge axis  36 . A corresponding adjustment device is not shown herein, it may be a prior art adjustment device such as a wobble plate. 
   As can be surveyed from the Figs., the upper hinge arm  34  is composed of two portions. An additional upper component part extends upward as a continuation of the normal prior art seat back hinge  32 , said upper component part substantially forming the hook-shaped curve. The upper component part is connected on two fixation points to the normal upper hinge arm of a standard seat back hinge. As a result, the seat back hinge  32  can be made using mass produced component parts. 
   The upper hinge arm  34  carries a seat back  38 . Referring to  FIG. 6 , the seat back has a carrier  39  and a padding body  40 . The upper hinge arm  34  is connected to the seat back  38  through a forward tilt axis  42 . Said forward tilt axis  42  is located in the region of the free end of the hook, in proximity to the inner curve of the hook. It is located substantially above the hinge axis  36  but is slightly offset toward the front relative thereto. As can be surveyed from the  FIGS. 1–5 , the forward tilt axis  42  is disposed at such a distance above the hinge axis  36  that the seat back  38  may be tilted forward into the horizontal plane without being hindered by the padding, as shown in the  FIGS. 4 and 5 . 
   The upper hinge arm  34  has an outer curve  44 . In the region of the free end of the hook formed by the upper hinge arm  34 , said outer curve is spaced a shorter distance from the forward tilt axis than in a region in which it is located in proximity to a back  46  of the seat back  38 . A bight  48  is formed in said outer curve  44 . A blocking lever  50 , which is hinged about a blocking lever axis  52  to the seat back  38 , is nested therein in the normal utilization position. In immediate proximity to its blocking lever axis  52  and substantially centered thereon, the blocking lever  50  has a blocking back  54  that abuts against a blocking curve  56  of the upper hinge arm  34  in the blocked position shown. The blocking lever  50  further has a front blocking side  58  which, in the normal position shown herein, clampingly rests against a complementary side  60  provided on the upper hinge arm  34 . The front blocking side is oriented substantially parallel to the blocking back, at any rate parallel to a portion of the blocking back. 
   In proximity to the blocking side  58 , a traction element  62 , a cable for example, acts on the blocking lever  50 . It is connected to a handle  64  which is disposed on the seat back  38 , namely in the top region of said seat back  38 , so as to be pivotable about a handle axis  66 . The blocking lever is elastically biased in such a manner that it pivots in a counter-clockwise direction. This applies to the left seat side shown. The same applies in reverse to the right seat side. 
     FIG. 1  shows the handle  64  in its rest position. If it is pivoted in a counter-clockwise direction, as shown in the transition from  FIG. 1  to  FIG. 2 , the blocking lever  50  is pivoted upward, the result being shown in  FIG. 2 . Now, the forward motion of the seat back  38  is no longer blocked. 
   In immediate proximity to, and slightly above, the blocking lever, a retaining lever  68  is disposed on the seat back  38  so as to be pivotable about a retaining lever axis  70 . It is configured to be relatively elongated. The retaining lever axis  70  is located in an end region of said retaining lever  68  while a retaining lug  72  is located on its other relatively remote end portion. The retaining lever  68  is elastically biased in such a manner that it pivots in a direction counter to the direction of the blocking lever, in the exemplary embodiment in the clockwise direction. As a result, it abuts against the outer curve  44  as can be seen from  FIG. 1 . 
   In the position shown in  FIG. 2 , the retaining lever  68  still is in its normal position, like in  FIG. 1 . Upon tilting the seat back  38  forward, as can be inferred from the transition from  FIG. 2  to  FIG. 3 , the retaining lever  68  rides along the outer curve  44  and also travels through its bight  48 , said intermediate state being shown in  FIG. 3 . This intermediate state already allows the seat back  38  to be slightly supported by the retaining lug  72  which has now engaged in the bight  48 . The seat back may be tilted further forward from this position any time as can be inferred from the transition from  FIG. 3  to  FIG. 4 . Now the retaining lever  68  has travelled along the entire outer curve  44 . At the end of the outer curve  44 , the upper hinge arm  34  has a retaining catch stop  74  that is substantially shaped like a step. As the retaining lever  68  is spring-biased, it automatically engages said retaining catch stop  64 , thus locking the seat back  38  the back  46  of which now is in a substantially horizontal plane, see  FIG. 4 . The seat back  38  is restricted from moving further downward by the padding of the seat carrier and of the seat back  38 . A catch stop may also be provided between seat back  38  and upper hinge arm, though. 
   In order for the seat back  38 , which is now in the table position, to be tilted back to its normal upright position, the retaining lever  68  must be pivoted to the released position. Again, the handle  64  is actuated for this purpose. It only acts onto the blocking lever  50 . As said blocking lever is located in immediate proximity to the retaining lever  68 , and as the retaining lever  68  comprises a driving side  76  which is in contact with an adjusting side  78  of the blocking lever  50 , the retaining lever  68  is pivoted together with the blocking lever  50 . 
   The cooperation between the driving side  76  of the retaining lever  68  and the adjusting side  78  of the blocking lever  50  is of paramount importance for the invention and will be described herein after: 
   In the position according to  FIG. 1 , a pivoting movement of the blocking lever  50  will have no effect on the retaining lever  68 . The retaining lever  68  is resting against the outer curve  44  and is given an orientation as a result thereof. Only after the retaining lever  68  has been pivoted, from the orientation it had  FIG. 1 , a sufficient angle in the clockwise direction, will its driving side cooperate with the adjusting side  78 , meaning will its driving side  76  come into the range of movement of the adjusting side  78 . The retaining lever  68  will be pivoted sufficiently when the seat has reached the position shown  FIG. 4 , meaning when it is tilted forward. As a result, the outer curve acts as a control curve for the retaining lever  68 . When the retaining lever  68  is resting against the outer curve  44 , its driving side  76  is outside the range of movement of the adjusting side  78  of the blocking lever  50 . This applies in any event to a seat back position in the normal utilization position. If the seat back is tilted forward, and if the retaining lever  68  rides along the outer curve  44 , it is slightly pivoted in the clockwise direction because—as described herein above—the distance between the outer curve  44  and the forward tilt axis  42  becomes increasingly shorter. When the retaining lever  68  performs its retaining function, meaning when it is in the position shown  FIG. 4 , the retaining lever is pivoted so far relative to the seat back that it may now in any event be taken along by the blocking lever. 
   An intermediate position may be provided for in which the retaining lug  72  engages deep enough into the bight  48 . This may also cause the retaining lever  68  to be pivoted sufficiently so that the retaining lever  68  is now within the range of movement of the blocking lever  50 , so that it can be released by a pivoting movement. 
   A small pivoting movement will suffice to pivot the retaining lever  68  to the released position, meaning to press the retaining lug  72  so as to release it from engagement with the retaining catch stop  74 . The corresponding position is shown in  FIG. 5 . The handle is actuated, it is in the same position as in  FIG. 2 . From this position, the folded seat can be tilted back to its upright position, the seat back  38  can be pivoted to its normal position. The retaining lug  72  thereby rides again along the outer curve  44 , it also travels through the bight  48 . A certain resistance is thus created which it is possible to overcome since there is no self-locking. The seat back  38  is returned to the position according to  FIG. 1 . The upward tilting motion of the seat back  38  can be assisted by a spring. 
     FIG. 6  shows the upper hinge arm  34 , which is composed of two component parts. In the top region, the upper hinge arm  34  is housed in a passage  80 . 
   Said passage is formed by the carrier  39  and by metal sheets  82 .  FIG. 6  also shows the padding  28  of the seat back  38 .

Technology Category: 7