The present disclosure relates to seat track assemblies, including a seat track assembly having load absorption features that are configured to provide added support to the seat track assembly.
Passenger vehicles, such as automobiles for example, may include seat assemblies that can be configured to support occupants within the vehicle. A seat assembly may include a seat bottom and a seat back, which can be supported on the seat bottom. In turn, the seat bottom may be secured to or otherwise supported on a floor located within a passenger compartment of the vehicle. For example, the seat assembly may be supported on a pair of seat track assemblies for movement in the fore and aft directions (i.e., forward and backward) along the floor of the vehicle.
A seat track assembly may generally include a lower seat track and an upper seat track. The lower seat track can be mounted to or otherwise provided on the floor of the vehicle. The upper seat track can be supported for sliding movement on the lower seat track. In turn, the seat assembly can be mounted to or otherwise supported on the upper seat track. Moreover, the seat track assembly may also include a seat track locking mechanism provided between the lower and upper seat tracks to selectively lock or otherwise prevent sliding movement of the upper seat track relative to the lower seat track.
In an effort to reduce the overall weight of vehicles, seat assemblies have been developed and are currently being developed which are relatively lighter than previous seat designs. However, as a result of such weight reductions, various components that are generally used in seat assemblies, such as seat track assemblies for example, may need to accommodate relatively higher deformation rates when subjected to large loads.
Thus, although current seat track assemblies function in an acceptable manner, it may be desirable to provide an improved seat track assembly having load absorption features that are configured to provided added support to the seat rack assembly and eliminate or reduce deformation of the seat tracks.
A seat track assembly in accordance with an embodiment of the present disclosure may include a lower seat track having a pair of opposing outer rails and an upper seat track having a pair of opposing inner rails. The inner rails of the upper seat track may cooperate with the outer rails of the lower seat track to support the upper seat track for movement on the lower seat track. A support member may be provided between the lower seat track and the upper seat track. The support member may include a portion that extends in a vertical direction between the lower seat track and the upper seat track to restrict vertical movement of the upper seat track relative to the lower seat track. The support member may also include a portion that extends in a lateral direction between the inner rails of the upper seat track to restrict the inner rails from deforming inwardly toward one another.
A seat assembly is also provided in accordance with an embodiment of the present disclosure and may include a seat track assembly as generally described and illustrated in the present disclosure.
Various aspects of this present disclosure will become apparent to those skilled in the art from the following detailed description of the preferred embodiment, when read in light of the accompanying drawings.
Reference will now be made in detail to embodiments of the present disclosure, examples of which are described herein and illustrated in the accompanying drawings. While the present disclosure will be described in conjunction with embodiments, it should be understood that they are not intended to limit the present disclosure to these embodiments. On the contrary, the present disclosure is intended to cover alternatives, modifications and equivalents, which may be included within the spirit and scope of the invention as defined by the appended claims. Relative terms such as “lower,” “upper,” “upwardly,” “downwardly,” “vertical,” “horizontal,” and “lateral” are used throughout this disclosure to provide convenient reference and are not intended to limit the scope or orientation of the components which they describe.
Referring now to
In an embodiment, the seat assembly 10 may be supported on at least one seat track assembly 20. For example and without limitation, the seat assembly 10 may be supported on a pair of seat track assemblies 20 that are laterally spaced apart from one another. As will be generally disclosed below, the seat track assemblies 20 may be configured to support the seat assembly 10 on the floor 16 of the vehicle for longitudinal movement in the fore and aft directions (i.e., forward and backward), as indicated by the direction arrow 18 in
Referring now to
The upper seat track 40 can be supported for sliding movement on the lower seat track 30. For example and without limitation, a plurality of bearing elements 50 (e.g., ball bearings) may be disposed between portions of the lower seat track 30 and upper seat track 40, as will be generally disclosed below. In turn, the seat assembly 10 (shown in
In an embodiment, the lower seat track 30 may be an elongated track member and can define a generally U-shaped track when viewed from an end thereof, such as generally shown in
The upper seat track 40 may also be an elongated track member and can define a generally U-shaped track that is inverted (i.e., oriented upside down relative to the lower seat track 30) when viewed from an end thereof, such as generally shown in
As generally shown in
With respect to the present disclosure, the seat track assembly 20 may include load absorption features configured to reduce deformation of the lower seat track 30 and/or the upper seat track 40, such as when a relatively high load is applied to the seat assembly 10. As generally disclosed below, the load absorption features can be configured to provide added support to the lower seat track 30 and/or the upper seat track 40. For example and without limitation, the load absorption features may be designed to absorb loads and/or transfer loads from the seat assembly 10 to the floor 16, or more specifically, to a frame of the vehicle.
In a non-limiting embodiment, a first support member, such as a stiffening member 60, may be provided on the upper seat track 40. As generally shown in
Referring now to
As generally shown, the stiffening member 60 may include a top wall 62. In an embodiment, the top wall 62 may be secured to the upper base portion 42 of the upper seat track 40. For example, the stiffening member 60 may be secured to the upper base plate 42 by a welded connection, fasteners, or other suitable connections. As such, the top wall 62 may be oriented generally parallel with the upper base portion 42 of the upper seat track 40 and can extend along a longitudinal length of the upper base portion 42. In one aspect, the top wall 62 may provide axial support to the upper seat track 40.
The stiffening member 60 may also include a pair of side walls 64A and 64B that can be laterally spaced apart from one another and that can extend along a longitudinal length of the upper seat track 40. The side walls 64A and 64B may also extend in a generally vertical direction toward the lower seat track 30 from opposite edges of the top wall 62, respectively, such as generally shown in
The stiffening member 60 may also include a first end wall 66. The first end wall 66 may extend in a generally vertical direction toward the lower seat track 30 from an edge of the top wall 62. As such, the first end wall 66 may be oriented generally perpendicular to the top wall 62, although such is not required. A second end wall 67 may extend in a generally horizontal direction from a lower edge of the first end wall 66. As such, the second end wall 67 may be oriented generally parallel with the top wall 62. A third end wall 68 may extend in a generally vertical direction toward the upper seat track 40 from a distal or free edge of the second end wall 67. As such, the third end wall 68 may be oriented generally parallel with and longitudinally spaced from the first end wall 66, which is oriented generally perpendicular to the top wall 62. Thus, the first end wall 66, the second end wall 67, and the third end wall 68 may define a generally U-shaped support member, as generally shown in
As generally shown in
Referring again to
Referring now to
As generally shown, the skid member 70 may generally include a bottom wall 72. The bottom wall 72 may be secured to the lower base portion 32 of the lower seat track 30. For example and without limitation, the skid member 70 can be secured to the lower base portion 32 by a welded connection, fasteners, or other suitable connections. As such, the bottom wall 72 may be oriented generally parallel with the lower base portion 32 of the lower seat track 30 and can extend along a longitudinal length of the lower base portion 32. In one aspect, the bottom wall 72 may provide support along a longitudinal length of the lower seat track 30.
The skid member 70 may also include a pair of side walls 74A and 74B that can be laterally spaced apart from one another and that can extend along a longitudinal length of the lower seat track 30. The side walls 74A and 74B of the skid member 70 may also extend in a generally vertical direction toward the upper seat track 40 from opposite edges of the bottom wall 72, respectively, such as generally shown in
Referring again to
Although the stiffening member 60 and the skid member 70 in the illustrated embodiment generally operate in conjunction with one another to provide vertical support to the upper seat track 40, it should be appreciated that the stiffening member 60 or the skid member 70 may be individually designed to provide vertical support to the upper seat track 40 without the need for both support members. In one example, a portion of the stiffening member 60 may have a height that is equal to or slightly smaller than the vertical distance between the lower base portion 32 of the lower seat track 30 and the upper base portion 42 of the upper seat track 40. As such, the stiffening member 60 may be configured to prevent or reduce movement of the upper seat track 40 in a downward direction relative to the lower seat track 30 without a need for the skid member 70. Conversely, a portion of the skid member 70 may have a height that is equal to or slightly smaller than the vertical distance between the lower base portion 32 of the lower seat track 30 and the upper base portion 42 of the upper seat track 40 to provide vertical support.
The stiffening member 60 may also be configured to provide lateral support for the upper seat track 40. For example, as generally disclosed, a portion of the stiffening member 60, such as the first end wall 66 and/or the third end wall 68 for example, may have a lateral width that is equal to or slightly smaller than the lateral distance between the inner rails 44A and 44B of the upper seat track 40. As such, when a relatively large vertical load is applied to the upper seat track 40, such as during a collision for example, the stiffening member 60 can be configured to prevent or reduce (i.e., restrict) deformation of the inner rails 44A and 44B in an inward direction toward one another.
The principal and mode of operation of this invention have been explained and illustrated in various embodiments. However, it must be understood that the concepts may be practiced other than as specifically explained and illustrated without departing from their spirit or scope.
Number | Date | Country | Kind |
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10 2014 211 993 | Jun 2014 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
4533107 | Okazaki et al. | Aug 1985 | A |
4776551 | Nishino | Oct 1988 | A |
4941637 | Pipon | Jul 1990 | A |
5048787 | Saitoh | Sep 1991 | A |
5785292 | Muraishi | Jul 1998 | A |
6578810 | Eguchi et al. | Jun 2003 | B2 |
7293752 | McCulloch et al. | Nov 2007 | B2 |
7309107 | Smith | Dec 2007 | B2 |
7597303 | Kimura et al. | Oct 2009 | B2 |
7798462 | Yoshida | Sep 2010 | B2 |
7992834 | Kojima | Aug 2011 | B2 |
8052111 | Bernhardt et al. | Nov 2011 | B2 |
8708300 | Fujishiro | Apr 2014 | B2 |
9027899 | Haller | May 2015 | B2 |
20020033625 | Goy | Mar 2002 | A1 |
20080048086 | Kojima et al. | Feb 2008 | A1 |
20100090083 | Kojima | Apr 2010 | A1 |
20110233365 | Kato | Sep 2011 | A1 |
Number | Date | Country |
---|---|---|
1792666 | Jun 2006 | CN |
101130356 | Feb 2008 | CN |
29705623 | May 1997 | DE |
102010026214 | Feb 2011 | DE |
2008149842 | Jul 2008 | JP |
2010264961 | Nov 2010 | JP |
1020080106639 | Dec 2008 | KR |
Entry |
---|
Office Action issued in corresponding German Patent Application No. 102014211993.6 (dated Mar. 2, 2015). |
English language translation (machine) of application of DE 29705623. |
English language translation (machine) of abstract of KR 1020080106639. |
Number | Date | Country | |
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20150367754 A1 | Dec 2015 | US |