CN110435492B

CN110435492B - Support assembly

Info

Publication number: CN110435492B
Application number: CN201910368709.XA
Authority: CN
Inventors: 蒂博·康达明; 诺尔丁·哈姆塔什; 安托万·穆兰
Original assignee: Lear Corp
Current assignee: Lear Corp
Priority date: 2018-05-04
Filing date: 2019-05-05
Publication date: 2022-05-13
Anticipated expiration: 2039-05-05
Also published as: DE102019206304B4; CN110435487B; CN110435495A; CN110435497B; CN110435497A; DE102019206385B4; DE102019206411A1; DE102019206313A1; CN110435492A; CN110435493B; DE102019206304A1; CN110435494A; CN110435493A; CN110435496B; CN110435488A; DE102019206385A1; CN110435495B; DE102019206313B4; CN110435488B; CN110435487A

Abstract

The present application relates to support assemblies. The support assembly includes a support member, a side member, and an elastic member. The support member may be configured to engage with the track. The elastic member may be connected to the support member, and/or the support member may be connected to the side member. The resilient member may be configured to compensate for different orientations of the side members. The elastic member may be configured to maintain a position of the side member relative to the rail. The resilient member may be configured to compensate for different lateral positions of the side member relative to the track. The elastic member may be connected to a lateral side of the support member. The resilient member may be disposed proximate the first end of the support member and/or the second resilient member may be disposed proximate the second end of the support member.

Description

Support assembly

Cross Reference to Related Applications

This application claims the benefit of the following patent applications: french patent application serial No. 1853891 filed on 4.5.2018; french patent application serial No. 1853892 filed on 4.5.2018; french patent application serial No. 1853893 filed on 4.5.2018; and french patent application serial No. 1853894 filed on 4.5.2018; the disclosures of these patent applications are hereby incorporated by reference in their entirety.

Technical Field

The present disclosure relates generally to support assemblies, including support assemblies that may be used in conjunction with seat assemblies, such as vehicle seat assemblies.

Background

The following background description is set forth for background purposes only. Thus, any aspect described in this background is not admitted to be prior art by express or implied admission that it is prior art to the present disclosure to the extent that it is not otherwise prior art.

Some support assemblies may be relatively complex and/or may not provide adequate functionality. Some support assemblies may not be configured to compensate for manufacturing variations and/or to compensate for external forces acting on the support assembly.

Accordingly, there is a need for a solution/option that minimizes or eliminates one or more challenges or drawbacks of the support assembly. The foregoing discussion is intended only to illustrate examples of the art and should not be taken as negating the scope.

SUMMARY

In embodiments, the support assembly may include a support member, a side member, and/or a resilient member. The support member may be configured to engage with the track. The elastic member may be connected to the support member, and/or the support member may be connected to the side member. The resilient member may be configured to compensate for different orientations of the side members. The elastic member may be configured to maintain a position of the side member relative to the rail. The elastic member may be configured to compensate for different lateral positions (differential lateral positions) of the side member relative to the track. The elastic member may be connected to a lateral side of the support member. The resilient member may be disposed proximate the first end of the support member and/or the second resilient member may be disposed proximate the second end of the support member. The elastic member and/or the second elastic member may be arranged on a lateral side of the support member. The support assembly may comprise a third resilient member and/or a fourth resilient member. The third elastic member and/or the fourth elastic member may be arranged on the second lateral side of the support member. The lateral side may be opposite the second lateral side.

According to an embodiment, the support assembly may comprise a second rail, a second support member and/or a second side member. The second support member may be connected to the second side member. The second support member may be fixed to the second rail such that relative lateral movement between the second support member and the second rail may be substantially prevented. The second support member may not include a resilient member and/or the resilient member may be configured to compensate for lateral movement of the second side member relative to the second support member. The resilient member may compensate for different lateral positions of the side member relative to the track. The second support member may be rigidly secured to the second side member.

The resilient member may be configured to compensate for a force applied to the second side member. The support member may include a connector, and/or the connector may be configured to engage with the side member. The connector may protrude from a lateral side of the support member. The side member may include an aperture, and/or the aperture may be configured to receive a portion of the connector. The connector may limit longitudinal and/or vertical movement of the side member relative to the support member. The resilient member may be substantially conical (cone-shaped). The elastic member may include a vent hole. The resilient member may be substantially centered on the lateral side of the support member.

The foregoing and other aspects, features, details, utilities, and/or advantages of embodiments of the present disclosure will be apparent from reading the following description and reviewing the accompanying drawings.

Drawings

Fig. 1A is a perspective view generally illustrating an embodiment of a support assembly according to the teachings of the present disclosure.

Fig. 1B is a perspective view generally illustrating an embodiment of a support assembly with a track according to the teachings of the present disclosure.

Fig. 2A and 2B are perspective views generally illustrating portions of an embodiment of an elastic member according to the teachings of the present disclosure.

Figure 2C is a side view generally illustrating portions of an embodiment of an elastic member according to the teachings of the present disclosure.

Figure 3A is a cross-sectional view generally illustrating portions of an embodiment of a support assembly and a resilient member in a design position according to the teachings of the present disclosure.

Fig. 3B and 3C are cross-sectional views generally illustrating portions of an embodiment of a support assembly and a resilient member in a second position according to the teachings of the present disclosure.

Fig. 3D and 3E are top views generally illustrating portions of embodiments of support assemblies according to the teachings of the present disclosure.

Fig. 3F and 3G are top views generally illustrating portions of embodiments of support assemblies according to the teachings of the present disclosure.

Fig. 4A is a side view generally illustrating portions of an embodiment of a support assembly.

Fig. 4B is a top view generally illustrating portions of an embodiment of a support assembly.

Fig. 5 is a perspective view generally illustrating portions of an embodiment of a support assembly including a support member, a side member, a rail, a second support member, a second side member, and a second rail.

Detailed Description

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 disclosure will be described in conjunction with the embodiments and/or examples, it will be understood that they are not intended to limit the disclosure to these embodiments and/or examples. On the contrary, the present disclosure is intended to cover alternatives, modifications, and equivalents.

In embodiments such as generally illustrated in fig. 1A and 1B, the support assembly 20 may include a track 30, a support member 40, a side member 60, and/or one or more resilient members 70. Support assembly 20 may be configured to support an external component 50 (e.g., a vehicle seat and/or a seating element) on track 30. The support member 40 may move along the rail 30. The track 30 may be connected to a mounting surface 52 (e.g., such as a floor of a vehicle).

According to an embodiment, the support member 40 may be connected to the side member 60 and/or the rail 30. The support member 40 may be configured to be connected (e.g., joined) to the track 30. The support member 40 and/or the track 30 may extend substantially longitudinally. For example, but not limiting of, the support member 40 may move (e.g., slide and/or roll) in a longitudinal direction along the track 30. The support member 40 may selectively engage and/or disengage the track 30.

In embodiments, the support member 40 may include a box configuration, and/or may include a cam 46, an anchor component 47, and/or a locking component 48, some or all of which may be configured to selectively connect the support member 40 with the track 30. The cam 46, the anchor component 47, and/or the locking component 48 may be disposed substantially within the support member 40. The cam 46 may be configured to rotate about a vertical axis. The cam 46 may limit vertical movement and/or play between the support member 40 and the track 30. The anchor component 47 may limit vertical disengagement of the support member 40 from the track 30, for example, if the support assembly is subjected to a large load (e.g., a vehicle crash-type load). The locking component 48 may include one or more rail locking portions 48A (see, e.g., fig. 1A), which rail locking portions 48A may move into and out of engagement with the rail 30 to limit longitudinal movement of the support member 40. For example, but not limiting of, the support member 40 may be substantially rectangular in shape. Support member 40 may include an inner side 42 and/or an outer side 44. The medial side 42 and/or the lateral side 44 may be a lateral side. Medial side 42 and/or lateral side 44 may be configured to connect with side member 60.

In embodiments, the side member 60 may be substantially planar and/or may be connected to the outer component 50. The outer member 50 may include a seating surface, a seat body portion, and/or a support pad, among other features. The side members 60 may extend substantially in a longitudinal direction (e.g., parallel to the support members 40 and/or the rails 30) and/or in a vertical direction. The side member 60 may be connected to the support member 40 via one or more connectors 100 (see, e.g., fig. 1A). In embodiments, the side member 60 can withstand various loads. Additionally or alternatively, the support assembly 20 may include differences in materials and/or manufacture.

In embodiments such as generally illustrated in fig. 1A and 1B, the support assembly 20 may include one or more resilient members 70, which one or more resilient members 70 may be configured to compensate for differences in load and/or material. The resilient member 70 may be configured to maintain alignment of the support member 40 relative to the track 30 when subjected to a load, for example due to forces from the side members 60. The elastic member 70 may be connected to (e.g., may contact and/or may be attached to) the inner side 42 and/or the outer side 44 of the support member. Additionally or alternatively, the elastic member 70 may be connected at or near the first and/or

second portions

62, 64 of the side member 60. The elastic member 70 may be forcibly connected to one of the support member 40 and the side member 60, and may be non-forcibly connected with the other of the support member 40 and the side member 60.

According to embodiments such as generally illustrated in fig. 2A, 2B, and 2C, the elastic member 70 may include one or more of a variety of shapes, sizes, materials, and/or configurations. For example, but not limiting of, the resilient member 70 may be substantially conical, v-shaped, pyramidal, dome-shaped, and/or cylindrical, among other shapes. The resilient member 70 may comprise a substantially flexible and/or elastic material (e.g., rubber, flexible polymer, etc.). The elastic member 70 may include a first side 72 and/or a second side 74. The radius of the first side 72 may be greater than the radius of the second side 74. The first side 72 and/or the second side 74 of the elastic member 70 may be connected to the medial side 42 and/or the lateral side 44 of the support member 40.

The first side 72 and/or the second side 74 may be connected to the side member 60. For example, support assembly 20 may include a first resilient member 70A having a first side 72 that may be connected to side member 60 and a second side 74 that may be connected to support member 40 (see, e.g., fig. 4B). Support assembly 20 may include a second resilient member 70B having a first side 72 that may be connected to support member 40 and a second side 74 that may be connected to side member 60. The first and second

elastic members

70A and 70B may be arranged in opposite orientations (e.g., may face in opposite directions).

Referring again to fig. 2A-2C, in an embodiment, the resilient member 70 may include a flange 76. A flange 76 may protrude from the second side 74 of the resilient member 70. The flange 76 may include one or more of a variety of shapes, sizes, and/or configurations. For example, but not limiting of, the flange 76 may be oval and/or circular. Flange 76 may engage apertures 77 of medial side 42 and/or lateral side 44 of support member 40. Additionally or alternatively, the flange 76 may engage the aperture 77 of the side member 60. The aperture 77 and the flange 76 may be substantially the same general shape. The flange 76 may be configured to engage a hole 77 smaller than the flange.

The size (e.g., radius) of the aperture may be smaller than the size (e.g., radius) of the flange such that a portion of the support member 40 or side member 60 may be disposed between the second side 74 of the resilient member 70 and the flange 76 after the flange 76 is inserted into the aperture 77. In embodiments, the flange 76 may flex and/or deform during insertion into the aperture 77 (e.g., the aperture 77 in the side member 60 and/or the support member 40). The flange 76 may include a tapered edge 78, and the tapered edge 78 may facilitate insertion of the flange 76 into the aperture 77. The second side 74 of the resilient member 70 may be deformed such that the flange 76 may attach the resilient member 70 to the support member 40 (or side member 60) via the aperture 77. The first side 72 of the elastic member 70 may deform to absorb the force from the side member 60. The flange 76 may be configured to forcibly connect the elastic member 70 to the support member 40 and/or the side member 60.

In embodiments such as generally illustrated in fig. 3A, 3B, and 3C, the elastic member 70 (e.g., the first side 72) may be configured to compensate for the lateral force F from the side member 60 by deforming (e.g., stretching/flexing longitudinally and/or laterally). For example, but not limiting of, the radius of the first side 72 of the resilient member 70 may increase during deformation (see, e.g., fig. 3B). The limit of deformation of the elastic member 70 may correspond to a maximum deviation between the support member 40 and the side member 60, and the elastic member 70 may compensate for the maximum deviation while maintaining the alignment of the support member 40 with the rail 30.

In the embodiment shown in fig. 3B and 3C (relative to fig. 3A), the length L of the elastic member 70₂May be reduced (e.g., length in the transverse direction) during deformation. Radius R of first side 72₁May or may not remain substantially the same during deformation. Length L of elastic member 70₂May vary depending on the force applied to the support member 40. For example, but not limiting of, if the applied force is uniform, the length L of the elastic member 70₂May be equal.

Referring again to fig. 2A-2C, according to an embodiment, the resilient member 70 may include a vent 80. The vents 80 may comprise one or more of a variety of shapes, sizes, and/or configurations. For example, but not limiting of, the vent 80 may be generally circular (circular), round (round), and/or cylindrical. The vent 80 may be configured to release air pressure from within the first side 72 if the resilient member 70 deforms between the side member 60 and the support member 40 (e.g., pressure that may result from a reduction in the internal volume of the first side 72). The vent 80 may limit a suction effect (suction effect) between the first side 72 of the resilient member 70 and the side member 60 and/or the support member 40.

According to an embodiment, the design position of the support assembly 20 may include all of the resilient members 70 having the same degree of deformation and/or deflection. The design position may include a first portion 62 of side member 60 being disposed the same distance from medial side 42 of support member 40 as a second portion 64 of side member 60 may be disposed from lateral side 44 of support member 40 (e.g., support member 40 may be centered between first portion 62 and second portion 64). In the second positionAs generally illustrated in fig. 3D and 3E, for example, first side member portion 62 and second side member portion 64 are disposed at different distances from support member 40. First side member portion 62 may be closer to medial side 42 of support member 40 than second side member portion 64 may be to lateral side 44 of support member 40 (see, e.g., fig. 3D). The elastic member 70 connected to the first portion 62 may be deformed to a greater extent (e.g., may include a smaller length L) than the elastic member 70 connected to the second portion 64₂). Alternatively, second side member portion 64 may be closer to lateral side 44 of support member 40 than first side member portion 62 may be to medial side 42 of support member 40 (see, e.g., fig. 3E). The elastic member 70 connected to the second portion 64 may be deformed to a greater extent (e.g., may include a smaller length L) than the elastic member 70 connected to the first portion 62₂)。

In embodiments such as generally illustrated in fig. 3F and 3G, the support assembly 20 may include a side member 60, which side member 60 may be angled relative to the support member 40, for example under load and/or due to material differences. In embodiments, the side member 60 may or may not be substantially parallel to the support member 40. For example, the side members 60 may be arranged at an oblique angle relative to the support members 40 when subjected to loads and/or when there are material differences.

In embodiments, the side member 60 may not be longitudinally aligned with the support member 40 (e.g., the side member 60 may be disposed at an oblique angle relative to the support member 40 and/or the longitudinal direction). In the first configuration, first portion 62 and/or second portion 64 may each be at an angle α relative to support member 40₁And alpha₂Arranged, and/or in the second configuration, first portion 62 and second portion 64 may each be at an angle α relative to support member 40₃And alpha₄And (4) arranging. Angle alpha₁、α₂、α₃And alpha₄May or may not be equal. For example, but not limited to, angle α₁May not be equal to angle alpha₂. In an embodiment, the angle α₁And angle alpha₂May be equal such that

side member portions

62, 64 are each otherThis is parallel. According to an embodiment, for different relative longitudinal positions and/or different angles α₁、α₂、α₃、α₄(e.g., longitudinally misaligned), the resilient member 70 may maintain the support member 40 in alignment with the track 30.

In embodiments such as that generally shown in fig. 4A, support assembly 20 may include a single resilient member 70 disposed on medial side 42 and/or lateral side 44 of support member 40. The single resilient member 70 may be centered (e.g., in the longitudinal direction) on the medial side 42 and/or the lateral side 44 of the support member 40. According to an embodiment, a single elastic member 70 may be disposed on each of the medial side 42 and the lateral side 44 of the support member 40 (e.g., the single elastic members 70 may be longitudinally and/or vertically aligned with each other).

According to embodiments such as that generally illustrated in fig. 4B, the support assembly 20 may include a first elastic member 70A, a second elastic member 70B, a third elastic member 70C, and/or a fourth elastic member 70D. The

elastic members

70A, 70B, 70C, 70D may be disposed on the medial side 42 and/or the lateral side 44 of the support member 40. For example, but not limiting of, a first resilient member 70A may be disposed on lateral side 44 of support member 40 at or near first end 40A of support member 40, and/or a second resilient member 70B may be disposed on lateral side 44 of support member 40 at or near second end 40B of support member 40. A third elastic member 70C may be disposed on the medial side 42 of the support member 40 at or near the first end 40A, and/or a fourth elastic member 70D may be disposed on the medial side 42 of the support member 40 at or near the second end 40B. For example, the first elastic member 70A may be disposed opposite (e.g., longitudinally and vertically aligned) the third elastic member 70C, and/or the second elastic member 70B may be disposed opposite the fourth elastic member 70D.

In embodiments, the resilient member 70 may compensate (e.g., by bending, deforming, etc.) forces on the side member 60, such as lateral forces that may move the side member 60 out of alignment with the support member 40. Additionally or alternatively, the resilient member 70 may be configured to compensate for different orientations (e.g., angles) of the side member 60 relative to the support member 40. For example, the elastic member 70 may be configured to maintain the position of the support member 40 relative to the rail 30 with different positions of the side member 60. The resilient member 70 may prevent and/or limit the deflection of the support member 40 relative to the track 30 when subjected to forces from the side member 60. In embodiments, the resilient member 70 may keep the support member 40 centered and/or aligned with the track 30 as the support member 40 moves along the track 30, which may facilitate proper locking of the cam 46, the anchor component 47, and/or the locking component 48 even if the side member 60 is not parallel to the track 30. The resilient member 70 may limit misalignment between the support member 40 and the track 30 and/or avoid separation between the support member 40 and the track 30. The resilient member 70 may maintain the support member 40 substantially parallel to the track 30 for different angles of the side member 60. The resilient member 70 may be configured to maintain a substantially parallel alignment between the support member 40 and the track 30 when the side member 60 is not substantially parallel to the support member 40 and/or the track 30.

In embodiments such as generally illustrated in fig. 4A and 4B, the support assembly 20 may include one or more connectors 100, the one or more connectors 100 configured to connect (e.g., forcibly) the support member 40 to the side member 60. The connector 100 (e.g., a bolt and/or fastener) may include an end portion 102 (e.g., a head), and the end portion 102 may limit and/or prevent the side member 60 from separating from the connector 100. The connector 100 may limit and/or prevent movement of the side member 60 relative to the support member 40 in one or more directions. For example, but not limiting of, the connector may substantially prevent relative vertical and/or longitudinal movement between the support member and the side member 60. The connector 100 may be configured to allow the side member 60 to move in the lateral direction (e.g., slide along the connector 100) at least to some extent. The distance that the side member 60 can move is less than the length L of the connector 100₁Minus the width W of the side member 60₁. The elastic member 70 may be connected to the connector 100, or may not be connected to the connector 100. In an embodiment, the side member 60 may include a hole 66 to receive the connector 100. The connector 100 may be connected to the inner side 4 of the support member 402 and/or the outer side 44. For example, without limitation, the connector 100 may protrude or extend (e.g., in a lateral direction) from the medial side 42 and/or the lateral side 44 of the support member 40. The connector 100 may be rigidly secured to the support member 40.

In embodiments such as generally shown in fig. 3A and 3B, the connector 100 may include a length L₁. Length L of connector 100₁Minus the width W of the side member 60₁May correspond to a designed positional interval (e.g., in the lateral direction) between the side member 60 and the support member 40. The distance between the inner surface of the side member 60 and the outer surface of the support member 40 may be a first distance D₁。

In embodiments, support member 40 may move along connector 100 (and/or connector 100 may move within the cassette). The elastic member 70 may include a length L₂And may be deformed and/or bent with the movement of the support member 40 such that the elastic member length L₂Equal to the first distance D between the side member 60 and the support member 40₁(e.g., the resilient member 70 may deform to maintain contact with the support member 40 and/or the side member 60). The support assembly 20 may include a first position, which may be a design position. In the design position (see, e.g., FIG. 3A), the length L of the connector 100₁May be substantially equal to the width W of the side member 60₁Plus a first distance D₁. The support assembly 20 may include a second position (see, e.g., fig. 3B) in which the length L of the connector 100₁May not be equal to the width W of the side member 60₁Plus a second distance D₂. First distance D₁May be greater than the second distance D₂. The degree of deformation of the elastic member 70 may correspond to the first distance D₁And a second distance D₂The difference between them.

In the design position, the first side 72 of the elastic member 70 may have a radius R₁. In the second position, the first side 72 may have a radius R₂. Radius R of the elastic member 70 at the design position₁May be less than the radius R of the elastic member 70 at the second position₂(for example, the resilient member 70 may include a greater ratio in the second position than in the design positionTo a greater degree). For example, but not limiting of, the resilient member 70 may compensate for various positions and/or orientations of the side member 60 relative to the support member 40 while maintaining the connection of the support member 40 with the track 30.

In embodiments such as that generally illustrated in fig. 5, the support assembly 20 may include a second side member 260, a second support member 240, and/or a second track 230. The second side member 260 may be connected to the side member 60 through the outer component 50.

According to an embodiment, the second support member 240 and/or the second side member 260 may be substantially parallel to the second rail 230. The side member 60 may or may not be substantially parallel to the second side member 260. The second support member 240 may be connected with the second side member 260 and the second rail 230 such that the second support member 240 is substantially prevented from moving in the lateral direction. Additionally or alternatively, angular misalignment between the second side member 260, the second support member 240, and the second track 230 may be substantially prevented. For example, the second support member 240 may be connected to the second side member 260 at least in the lateral direction with substantially no play. The support member 40 may or may not include a resilient member 70, the resilient member 70 compensating for lateral movement of the second side member 260 relative to the second support member 240. The second support member 240 and the second side member 260 may be connected (e.g., fixed and/or rigidly connected) so as not to move laterally relative to each other.

In embodiments such as that generally illustrated in fig. 5, the second side member 260 may include a first aperture 270 and/or a second aperture 280. The first connector 272 may be at least partially disposed within the first aperture 270 and/or the second connector 282 may be at least partially disposed within the second aperture 280. The first connector 272 and/or the second connector 282 may include a configuration that may be similar to the connector 100 and shorter than the connector 100. The second side member 260 may be connected to the second support member 240 via the

holes

270, 280 and the

connectors

272, 282 such that relative movement of the second support member 240 and the second side member 260 in the Y direction may be substantially prevented.

According to embodiments, the first aperture 270 may include one or more of a variety of shapes, sizes, and/or configurations. For example, the first aperture 270 may be generally circular and/or rounded. The first aperture 270 may include a diameter that is larger than a diameter of the first connector 272, which may allow for relative movement between the support member 240 and the second side member 260 in the Z and/or X directions, at least to some extent.

In embodiments, the second aperture 280 may comprise one or more of a variety of shapes, sizes, and/or configurations. For example, the second aperture 280 may be generally oval and/or elongated such that the width of the second aperture 280 is greater than the diameter of the second connector 282, which may allow the second support member 240 and the second side member 260 to move relative to each other in the X direction, at least to some extent.

In embodiments, movement (e.g., lateral movement and/or angular movement) of the second side member 260 may be compensated for by the resilient member 70 connected to the side member 60 and/or the support member 40. The resilient member 70 may compensate for different lateral positions of the side member 60 relative to the support member 40, and/or the second support member 240 may be configured to substantially prevent lateral movement of the second side member 260 relative to the second support member 240.

Various embodiments are described herein for various devices, systems, and/or methods. Numerous specific details are set forth in order to provide a thorough understanding of the general structure, function, manufacture, and use of the embodiments as described in the specification and illustrated in the accompanying drawings. However, it will be understood by those skilled in the art that embodiments may be practiced without these specific details. In other instances, well-known operations, components and elements have not been described in detail so as not to obscure the embodiments described in the specification. It will be appreciated by those of ordinary skill in the art that the embodiments described and illustrated herein are non-limiting examples, and thus it can be appreciated that the specific structural and functional details disclosed herein may be representative and do not necessarily limit the scope of the embodiments.

Reference throughout this specification to "various embodiments," "according to embodiments," "in embodiments," or "embodiments" or the like means that a particular feature, structure, or characteristic described in connection with the embodiments is included in at least one embodiment. Thus, the appearances of the phrases "in various embodiments," "according to embodiments," "in an embodiment," or "an embodiment" or the like appearing in various places throughout the specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. Thus, a particular feature, structure, or characteristic shown or described in connection with one embodiment/example may be combined, in whole or in part, with the features, structures, functions, or characteristics of one or more other embodiments/examples without limitation, as long as such combination is not illogical or functional. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the disclosure without departing from the scope thereof.

It will be understood that reference to a single element is not necessarily so limited, and may include one or more of such elements. Any directional references (e.g., positive (plus), negative (minus), upper, lower, upward, downward, left, right, leftward, rightward, top, bottom, above, below, vertical, horizontal, clockwise, and counterclockwise) are only used for identification purposes to aid the reader's understanding of the present disclosure, and do not create limitations, particularly as to the position, orientation, or use of the embodiments.

References to connected (e.g., attached, coupled, connected, and the like) are to be interpreted broadly and may include intermediate members between a connection of elements and relative movement between elements. Thus, reference to connected does not necessarily mean that the two elements are directly connected/coupled and in fixed relation to each other. The use of "for example" in this specification is to be construed broadly and used to provide non-limiting examples of embodiments of the disclosure, and the disclosure is not limited to such examples. The use of "and" or "should be interpreted broadly (e.g., as" and/or "). For example, and without limitation, the use of "and" does not necessarily require all of the elements or features listed, and the use of "or" is intended to be inclusive unless such a configuration is illogical.

Although processes, systems, and methods may be described herein in connection with one or more steps in a particular sequence, it should be understood that the methods may be practiced with steps in a different order, with certain steps being performed at the same time, with additional steps being omitted, and/or with certain described steps being omitted.

It is intended that all matter contained in the above description and shown in the accompanying drawings shall be interpreted as illustrative only and not limiting. Changes in detail or structure may be made without departing from the disclosure.

Claims

1. A support assembly, comprising:

a support member configured to engage with a rail;

a side member, and

an elastic member;

wherein the elastic member is connected to the support member; and the support member is connected to the side member; and, the support member includes a locking component configured to selectively restrict longitudinal movement of the support member relative to the track.

2. The support assembly of claim 1, wherein the resilient member is configured to compensate for different orientations of the side members; the elastic member includes a first side and a second side; a flange protruding from the second side; and, the flange is configured to deform during insertion into a hole in the side member or the support member.

3. The support assembly of claim 1, wherein the resilient member is configured to maintain the position of the side member relative to the track; the support assembly includes a first position and a second position; and the radius of the elastic member at the first position is smaller than the radius at the second position.

4. The support assembly of claim 1, wherein the resilient member is configured to: maintaining substantially parallel alignment between the support member and the track when the side member is not parallel to the support member and/or the track.

5. The support assembly of claim 1, comprising an additional resilient member; wherein the elastic member is connected to a first lateral side of the support member; and the further resilient member is arranged to a second lateral side of the support member opposite to the first lateral side.

6. The support assembly of claim 1, wherein the resilient member is disposed proximate a first end of the support member; and a second resilient member is disposed proximate the second end of the support member.

7. The support assembly according to claim 1, wherein the resilient member and second resilient member are arranged on lateral sides of the support member.

8. The support assembly of claim 7, comprising a third resilient member and a fourth resilient member; wherein the third and fourth elastic members are disposed on a second lateral side of the support member; and the lateral side is opposite the second lateral side.

9. The support assembly of claim 1, comprising the rail, a second support member, and a second side member; wherein the second support member is connected to the second side member; and, the side member is connected to the second side member.

10. The support assembly of claim 9, wherein the second support member is secured to the second rail such that relative lateral movement between the second support member and the second rail is substantially prevented.

11. The support assembly of claim 10, wherein the second support member does not include a resilient member configured to compensate for lateral movement of the second side member relative to the second support member.

12. A support assembly according to claim 10, wherein the resilient member compensates for different lateral positions of the side member relative to the track, and the second support member is rigidly fixed to the second side member.

13. The support assembly of claim 12, wherein the resilient member is configured to compensate for forces applied to the second side member.

14. The support assembly of claim 1, wherein the support member includes a connector configured to engage the side member.

15. The support assembly of claim 14, wherein the connector protrudes from a lateral side of the support member.

16. The support assembly of claim 14, wherein the side member includes an aperture to receive a portion of the connector.

17. The support assembly of claim 14, wherein the connector limits longitudinal and vertical movement of the side member relative to the support member.

18. The support assembly of claim 1, wherein the resilient member is substantially conical.

19. The support assembly of claim 1, wherein the resilient member comprises a vent configured to limit the effect of suction between the resilient member and the side member and/or the support member.

20. The support assembly of claim 1, wherein the resilient member is substantially centered on a lateral side of the support member.