The present teachings relate to recliner mechanisms and, more particularly, to a dual recliner mechanism.
Seat assemblies, such as those used in vehicles, generally include an inboard recliner mechanism and an outboard recliner mechanism that cooperate to allow selective rotation of a seatback relative to a seat bottom. The outboard mechanism is usually tied to a manual lever or a power-actuated lever such that when a force is applied to the lever, the outboard mechanism is released. The rotational force applied to the outboard mechanism rotates a cross rod that extends generally between the outboard mechanism and the inboard mechanism. Rotation of the cross rod causes the inboard mechanism to similarly release. Once the outboard and inboard recliner mechanisms are released, the seatback is permitted to rotate relative to the seat bottom.
Release of the inboard mechanism is typically not simultaneous with the release of the outboard mechanism. Generally, the outboard recliner mechanism is released first with the inboard recliner mechanism being released a predetermined time after release of the outboard mechanism. To achieve release of the inboard recliner mechanism a predetermined time after release of the outboard mechanism, the inboard mechanism must be synchronized with the outboard mechanism.
Conventional dual recliner mechanism accomplish synchronization of the inboard mechanism with the outboard mechanism by maintaining tight tolerances on the cross rod and internal components associated with the outboard and inboard recliner mechanisms. The tight tolerances help properly align the outboard recliner mechanism, inboard recliner mechanism, and cross rod such that a desired release timing of each mechanism is achieved.
Maintaining tight tolerances on the outboard and inboard recliner mechanisms is a difficult task and often results in increasing the release efforts required to manipulate the mechanisms into the released position. Furthermore, when the recliner mechanisms and cross rod are assembled to a vehicle seat, any discrepancy in construction of the seat further complicates achieving the desired synchronization of the inboard recliner mechanism with the outboard recliner mechanism.
A method of assembling a dual recliner mechanism includes positioning a first recliner mechanism, positioning a second recliner mechanism relative to the first recliner mechanism, assembling a first member of a cross rod to the first recliner mechanism, assembling a second member of the cross rod to the second recliner mechanism, adjusting a relative position between the first member and the second member, and fixing the first member to the second member to maintain the relative position.
A dual recliner mechanism includes a first recliner mechanism, a second recliner mechanism, a first member attached to the first recliner mechanism, and a second member attached to the second recliner mechanism and adjustably attached to the first member to define a position of the first recliner mechanism relative to the second recliner mechanism.
Further areas of applicability of the present teachings will become apparent from the detailed description provided hereinafter. It should be understood that the detailed description and specific examples are intended for purposes of illustration only and are not intended to limit the scope of the teachings.
The present teachings will become more fully understood from the detailed description and the accompanying drawings, wherein:
The following description is merely exemplary in nature and is in no way intended to limit the teachings, application, or uses.
With reference to the figures, a dual recliner mechanism 10 is provided and includes an outboard recliner mechanism 12, an inboard recliner mechanism 14, and a cross rod 16. The cross rod 16 extends generally between the outboard recliner mechanism 12 and the inboard recliner mechanism 14 and transmits a rotational force form the outboard recliner mechanism 12 to the inboard recliner mechanism 14 to allow communication between the recliner mechanisms 12, 14. During manufacturing, the cross rod 16 permits adjustment of the relative position of the outboard recliner mechanism 12 and the inboard recliner mechanism 14 and achieves a desired synchronization between the inboard recliner mechanism 14 and the outboard recliner mechanism 12.
The outboard recliner mechanism 12 may include a locking mechanism 18 disposed generally between a first housing plate 20 and a second housing plate 22 that selectively prevents rotation of the first housing plate 20 relative to the second housing plate 22. The inboard recliner mechanism 14 may also include a locking mechanism 24 disposed generally between a first housing plate 26 and a second housing plate 28 that similarly selectively prevents rotation of the first housing plate 26 relative to the second housing plate 28.
An actuation mechanism 30 may be associated with either the outboard recliner mechanism 12 or the inboard recliner mechanism 14 and may include an actuation handle 32. The actuation handle 32 may be supported by the outboard recliner mechanism 12 such that rotation of the actuation handle 32 causes disengagement of the locking mechanism 18. Similarly, the actuation handle 32 may be supported by the inboard recliner mechanism 14 such that rotation of the actuation handle 32 causes disengagement of the locking mechanism 24.
Disengagement of the locking mechanism 18 permits rotation of the first housing plate 20 relative to the second housing plate 22. Similarly, disengagement of the locking mechanism 24 permits rotation of the first housing plate 26 relative to the second housing plate 28. While the actuation mechanism 30 may be associated with either the outboard recliner mechanism 12 or the inboard recliner mechanism 14, the actuation mechanism 30 will hereinafter be described and shown in the drawings as being associated with the outboard recliner mechanism 12. Furthermore, while an actuation handle 32 is disclosed, it should be understood that the actuation mechanism 30 may alternatively, or additionally, include a powered mechanism and may therefore be remotely actuated.
With particular reference to
The second rod member 36 may be associated with the inboard recliner mechanism 14 such that rotation of the second rod member 36 by the first rod member 34 causes disengagement of the locking mechanism 24. An end of the second rod member 36 may be spaced apart from an outer surface of the inboard recliner mechanism 14 to permit transverse movement of the second rod member 36 relative to the inboard recliner mechanism 14. The first rod member 34 may include a cross-section having a hexagonal, double-D, square, spline, or thru shaft construction while the second rod member 36 may include a generally cylindrical shape having an outer surface 38 and an inner surface 40.
While the first rod member 34 is described as including a cross-section having a hexagonal, double-D, square, spline, or thru shaft construction, that the first rod member 34 may be constructed of any suitable cross section having at least one flat, key, or spline. Furthermore, while the first rod member 34 is described as including at least one flat, key, or spline, and the second rod member 36 is described as being generally cylindrical, that the first rod member 34 may alternatively be generally cylindrical and the second rod member 36 may alternatively include at least one flat, key, or spline. Further yet, each rod member 34, 36 may be generally cylindrical or may include at least one flat, key, or spline.
The inner surface 40 of the second rod member 36 slidably and rotatably receives the first rod member 34 such that the first rod member 34 is permitted to telescope within the second rod member 36 (
With reference to
Once the inboard and outboard recliner mechanisms 12, 14 are assembled to the seat frame 44, the first rod member 34 is attached to the outboard recliner mechanism 12 and the second rod member 36 is attached to the inboard recliner mechanism 14. At this point, the position of the outboard recliner mechanism 12 relative to the inboard recliner mechanism 14 is adjustable as the first rod member 34 is permitted to telescope within the second rod member 36.
The first rod member 34 is positioned along a longitudinal axis “X” (
Once the longitudinal position of the first rod member 34 relative to the second rod member 36 is achieved, the recliner mechanisms 12, 14 are biased into an engaged position preventing rotation of the first housing plates 20, 26 relative to the second housing plates 22, 28 to time release of the inboard recliner mechanism 14 with the outboard recliner mechanism 12. In the engaged position, a seatback 47 of the seat assembly 49 is prevented from rotating relative to a seat bottom 45 by the locking mechanisms 18, 24 of the respective recliner mechanisms 12, 14. While the inboard recliner mechanism 14 is timed with the release of the outboard recliner mechanism 12, release of the outboard recliner mechanism 12 could alternatively be timed with the release of the inboard recliner mechanism 14.
Timing release of the inboard mechanism 14 with the outboard mechanism 12 includes aligning internal components of the outboard recliner mechanism 12 with internal components of the inboard recliner mechanism 14 to provide the inboard recliner mechanism 14 with a desired release time following release of the outboard recliner mechanism 12. Aligning internal components of the outboard recliner mechanism 12 with internal components of the inboard recliner mechanism 14 is accomplished by adjusting a radial position of the second rod member 36 relative to the first rod member 34 such that internal components of the inboard recliner mechanism 14 are rotated relative to the outboard recliner mechanism 12.
While rotation of the second rod member 36 relative to the first rod member 34 is described, rotation of the first rod member 34 relative to the second rod member 36 may alternatively be performed to adjust the internal components of the outboard recliner mechanism 12 relative to the inboard recliner mechanism 14 if the inboard recliner mechanism 14 is released before the outboard recliner mechanism 12 (i.e., if the actuation handle 32 is associated with the inboard recliner mechanism 14 rather than the outboard recliner mechanism 12, for example).
In operation, when a force is applied to the actuation handle 32, internal components of the locking mechanism 18 of the outboard recliner mechanism 12 are manipulated to release the outboard recliner mechanism 12. The rotational force applied to the actuation handle 32 is similarly applied to the cross rod 16 and causes the cross rod 16 to rotate as the outboard recliner mechanism 12 is released. The rotating cross rod 16 releases the inboard recliner mechanism 14 a predetermined time following release of the outboard recliner mechanism 12. As noted above, the actuation handle 32 could alternatively be associated with the inboard recliner mechanism 14 such that rotation of the actuation handle 32 releases the outboard mechanism 12 and subsequently releases the inboard mechanism 14 through rotation of the cross rod 16.
If internal components of the inboard recliner mechanism 14 are assembled without free play (i.e., to high tolerances) the inboard recliner mechanism 14 would release almost simultaneously with the outboard recliner mechanism 12 as even minuscule rotation of the cross rod 16 would cause release of the inboard recliner mechanism 14. However, internal components of each recliner mechanism 12, 14 typically include at least some free play due to tolerance stack up amongst the various components of each recliner mechanism 12, 14 and to help reduce the efforts required to release the recliner mechanisms 12, 14. Therefore, the amount of free play of the inboard recliner mechanism 14 generally dictates the release time of the inboard recliner mechanism 14. If the actuation handle 32 is associated with the inboard recliner mechanism 14, release of the outboard mechanism 12 will be dictated by the amount of free play in the outboard mechanism 12.
Adjustments to the cross rod 16 may be performed to either decrease or increase the time in which the inboard recliner mechanism 14 releases following release of the outboard recliner mechanism 12. Once the recliner mechanisms 12, 14 are in the locked position, and the relative distance between the two recliner mechanisms 12, 14 is set, the second rod member 36 may be rotated about the first rod member 34 to either increase or decrease free play in the inboard recliner mechanism 14.
Decreasing free play in the inboard recliner mechanism 14 decreases the time in which the inboard recliner mechanism 14 releases following release of the outboard recliner mechanism 12 as only slight rotation of the cross rod 16 is required to release the inboard recliner mechanism 14. Conversely, increasing the free play in the inboard recliner mechanism 14 increases the time in which the inboard recliner mechanism 14 releases following release of the outboard recliner mechanism 12 as the cross rod 16 must be rotated a greater distance to release the inboard recliner mechanism 14. Therefore, rotating the second rod member 36 about the first rod member 34 adjusts the time in which the inboard recliner mechanism 14 releases following release of the outboard recliner mechanism 12.
Once the second rod member 36 is in a desired rotational position relative to the first rod member 34, a crimp tool 48 (
The force applied by the crimp tool 48 deforms the first and second rod members 34,36 and causes the inner surface 40 of the second rod member 36 to contact the first rod member 34 (
If the first rod member 34 includes a D-shape or includes a flat 50, the crimp tool 48 may position an engagement element 60 of one or both of the tool halves 58 on an outer surface 38 of the second rod member 36 such that the inner surface 40 of the second rod member 36 engages the flat 50 of the first rod member 34 once deformed. Contact between the deformed inner surface 40 of the second rod member 36 and the flat 50 of the first rod member 34 fixes the rotational position of the second rod member 36 relative to the first rod member 34.
Fixing the rotational position of the second rod member 36 similarly fixes the position of the internal components of the outboard recliner mechanism 12 relative to the internal components of the inboard recliner mechanism 14. Therefore, once the second rod member 36 is fixed to the first rod member 34, the inboard recliner mechanism 14 is synchronized with the outboard recliner mechanism 12.
In addition to the foregoing, the inboard and outboard recliner mechanisms 14, 12 may first be attached to a fixture (not shown) prior to being assembled to the seat frame 44 to set the relative distance between the recliner mechanisms 12, 14 and also synchronize the outboard recliner mechanism 12 with the inboard recliner mechanism 14.
For example, the inboard and outboard recliner mechanisms 14, 12 may be positioned on the fixture such that the relative distance between the two recliner mechanisms 12,14 is set. Once the recliner mechanisms 12,14 are assembled to the fixture, the cross rod 16 may be assembled to the recliner mechanisms 12, 14. The cross rod 16 is first adjusted such that the first rod member 34 telescopes within the second rod member 36 until a desired length of the cross rod 16 is achieved. Once the desired length of the cross rod 16 is achieved, the inboard recliner mechanism 14 may be synchronized with the outboard recliner mechanism 12 using the process outlined above.
The assembled dual recliner mechanism 10 may be attached to the seat frame 44 once the desired length of the cross rod 16, and the desired rotational position of the second rod member 36 relative to the first rod member 34, is achieved. If the dimensions of the seat frame 44 are slightly off, each of the first and second rod members 34, 36 may be moved closer to, or farther from, the inboard and outboard recliner mechanisms 14, 12 to accommodate the seat frame 44.
The description of the teachings is merely exemplary in nature and, thus, variations that do not depart from the gist of the teachings are intended to be within the scope of the teachings. Such variations are not to be regarded as a departure from the spirit and scope of the teachings.
This application claims the benefit of U.S. Provisional Application No. 60/708,984, filed on Aug. 17, 2005. The disclosure of the above application is incorporated herein by reference.
Number | Date | Country | |
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60708984 | Aug 2005 | US |