Patent Application
20240198862
The field of the invention relates to passenger seats, and, more particularly, to leg assemblies for passenger seats.
Passenger vehicles, such as aircraft, buses, trains, ships, and automobiles, often include one or more passenger seats in which passengers may be seated and otherwise use during travel. A passenger seat may include a leg assembly that connects the passenger seat to a base of the passenger vehicle, such as a floor, track, etc. Traditionally, such leg assemblies have been a single-piece construction. Such leg assemblies are difficult to optimize to different load cases for the passenger seat and generate significant material waste during manufacturing.
The terms “invention,” “the invention,” “this invention” and “the present invention” used in this patent are intended to refer broadly to all of the subject matter of this patent and the patent claims below. Statements containing these terms should be understood not to limit the subject matter described herein or to limit the meaning or scope of the patent claims below. Embodiments of the invention covered by this patent are defined by the claims below, not this summary. This summary is a high-level overview of various aspects of the invention and introduces some of the concepts that are further described in the Detailed Description section below. This summary is not intended to identify key or essential features of the claimed subject matter, nor is it intended to be used in isolation to determine the scope of the claimed subject matter. The subject matter should be understood by reference to appropriate portions of the entire specification of this patent, any or all drawings and each claim.
According to certain embodiments of the present invention, a leg assembly for a passenger seat includes a forward leg, an aft leg, and a central link that may connect the forward leg and the aft leg. The forward leg may include a forward connecting feature and may be adapted to receive a first base frame tube of the passenger seat. The aft leg may include an aft connecting feature and may be adapted to receive a second base frame tube of the passenger seat. The aft connecting feature may include a cavity defined in the aft leg. The central link may be pivotably connected to the forward connecting feature and to the aft connecting feature. The central link may extend at least partially into the cavity in the aft leg.
In some embodiments, the forward leg may include a forward side and an aft side opposite the forward side, and the forward connecting feature may extend outwards from the aft side of the forward leg. In certain embodiments, the forward connecting feature may include a slot, and the central link may extend at least partially into the slot of the forward leg. In various embodiments, the central link may extend along a 16 g load path of the leg assembly. In some embodiments, the forward leg may include a first material and the central link may include a second material that may be different from the first material. In certain embodiments, the first material may include an aluminum alloy, and the second material may include a magnesium alloy. In various embodiments, the aft leg may include the first material.
In some embodiments, the aft leg may include a forward side and an aft side opposite from the forward side, and the cavity may be included in the forward side of the aft leg. In certain embodiments, the aft side may include an arcuate profile such that a top end of the aft leg may be offset from a bottom end of the aft leg in a vertical and horizontal direction. In various embodiments, the leg assembly may additionally include a first connector pivotably connecting the central link with the forward connecting feature and may additionally include a second connector pivotably connecting the central link with the aft connecting feature. In some embodiments, the forward leg may include a forward base frame tube aperture that may be adapted to receive the first base frame tube of the passenger seat, and the aft leg may include an aft base frame tube aperture that may be adapted to receive the second base frame tube of the passenger seat.
In certain embodiments, the forward connecting feature may be positioned at a vertical position above a vertical position of the aft connecting feature such that the central link may be angled downwards from the forward leg to the aft leg. In various embodiments, a cross section of the central link may be different from a cross section of the forward leg.
In some embodiments, a passenger seat may include the leg assembly, a first base frame tube that may be supported by the forward leg, and a second base frame tube that may be supported by the aft leg. In certain embodiments, a method for assembling the leg assembly may include manufacturing the forward leg, manufacturing the central link, manufacturing the aft leg, and pivotably connecting the central link with the forward leg and the aft leg, such that manufacturing the forward leg or the central link may involve machining in two or fewer directions.
According to certain embodiments of the present invention, a leg assembly for a passenger seat may include a forward leg, and aft leg, and a central link that may connect the forward leg and the aft leg. The forward leg may include a forward connecting feature, and the forward leg may be adapted to receive a first base frame tube of the passenger seat. The aft leg may include an aft connecting feature, and the aft leg may be adapted to receive a second base frame tube of the passenger seat. The central link may be pivotably connected to the forward connecting feature and may be pivotably connected to the aft connecting feature. The central link may extend along a 16 g load path of the leg assembly.
In some embodiments, the aft connecting feature may include a cavity defined in the aft leg, and the central link may extend at least partially into the cavity in the aft leg.
According to certain embodiments of the present invention, a leg assembly for a passenger seat may include a forward leg, an aft leg, and a central link that may connect the forward leg and the aft leg. The forward leg may include a forward connecting feature, and the forward leg may be adapted to receive a first base frame tube of the passenger seat. The aft leg may include an aft connecting feature, and the aft leg may be adapted to receive a second base frame tube of the passenger seat. The aft connecting feature may be positioned at a vertical position that may be lower than a vertical position of the forward connecting feature. The central link may be pivotably connected to the forward connecting feature and may be pivotably connected to the aft connecting feature. The central link may extend in a downward direction from the forward leg to the aft leg.
In some embodiments, the aft connecting feature may include a cavity that may be characterized in the aft leg, and the central link may extend at least partially into the cavity in the aft leg. In certain embodiments, the forward leg may include a forward side and an aft side opposite the forward side, and the forward connecting feature may extend outwards from the aft side of the forward leg. The forward connecting feature may include a slot, and the central link may extend at least partially into the slot of the forward leg.
The subject matter of embodiments of the present invention is described here with specificity to meet statutory requirements, but this description is not necessarily intended to limit the scope of the claims. The claimed subject matter may be embodied in other ways, may include different elements or steps, and may be used in conjunction with other existing or future technologies. This description should not be interpreted as implying any particular order or arrangement among or between various steps or elements except when the order of individual steps or arrangement of elements is explicitly described.
The described embodiments of the invention provide multi-part leg assemblies for passenger seats. While the multi-part leg assemblies are discussed for use with aircraft seats, they are by no means so limited. Rather, embodiments of the multi-part leg assemblies described herein may be used in passenger seats or other seats of any type or otherwise as desired.
The generalized passenger seat 101 includes a leg assembly 100 that may mechanically affix or otherwise couple the generalized passenger seat 101 to a floor of a passenger vehicle such as an airplane or other suitable passenger vehicle. As illustrated, the leg assembly 100 is a single-part leg assembly such that the leg assembly 100 contains one piece. Additionally, as illustrated, couplings associated with the leg assembly 100 may be fixed. While the leg assembly 100 is illustrated as a single component in
In certain embodiments, the passenger seat 101 may include at least one structural tube 104, and in certain embodiments, the generalized passenger seat 101 may include two or more structural tubes 104. Accordingly, while two structural tubes 104a-b are illustrated, the generalized passenger seat 101 may include any number of structural tubes 104 as desired, including a single structural tube 104 or more than two structural tubes 104. The structural tubes 104 may include uniform structural tubes, non-uniform structural tubes, or a combination thereof. Moreover, the particular structural tubes 104 illustrated should not be considered limiting, and other portions of the base frame assembly 102 may include a structural tube 104 as desired. A fully assembled generalized passenger seat 101 may include various cushioning, a bottom seat pan, in-flight entertainment equipment, tray tables, and/or other components as desire. Optionally, the generalized passenger seat 101 may include a baggage bar 106 that may be coupled to the leg assembly 100.
The portions or components of the multi-part leg assembly 200 may be constructed from various suitable materials as desired, including but not limited to, stainless steel, aramid fibers, polycarbonate, polypropylene, aluminum, aluminum alloys, magnesium, magnesium alloys, other metallic materials or non-metallic materials, composite materials, combinations thereof, or other suitable materials. In certain embodiments, at least one portion of the multi-part leg assembly 200 may optionally be constructed from a material that is different from the material used for another portion of the multi-part leg assembly 200. As one non-limiting example, the forward leg 202 may be constructed from aluminum or an aluminum alloy, and the central link 206 may be constructed from magnesium or a magnesium alloy. In other embodiments, the components of the multi-part leg assembly 200 may be constructed from the same material. In certain embodiments, the forward leg 202 and the aft leg 204 may include the same or similar material, such as an aluminum alloy, and the central link 206 may include another material, such as the magnesium alloy, that is different from the material of the forward leg 202 and the aft leg 204.
As best illustrated in
In certain embodiments, the forward leg 202 optionally includes a first aperture 203a for receiving a first base-frame tube such as the structural tube 104. When the passenger seat is assembled, the first base-frame tube may be positioned within the first aperture 203a for mechanically coupling the forward leg 202 to other components of the passenger seat. The forward leg 202 optionally includes a base connecting feature 216a at a second end 218 of the forward leg 202, which may be utilized to attach the forward leg 202 to a floor or other location on the passenger vehicle (either directly or using intermediate structures or components as desired).
The aft leg 204 of the multi-part leg assembly 200 includes a forward side 306 and by an aft side 308 opposite from the forward side 306. An aft connecting feature 210 may be provided on or adjacent to the forward side 306 of the aft leg 204. In certain embodiments, the aft connecting feature 210 on the aft leg 204 is between a first end 404 and a second end 406 of the aft leg 204. In some embodiments, the aft connecting feature 210 may be at a vertical position that is lower than the forward connecting feature 209.
The aft connecting feature 210 may be monolithically or integrally formed with the aft leg 204. In the embodiment of
In certain embodiments, similar to the forward leg 202, the aft leg 204 may include a second aperture 203b for receiving another base-frame tube. When the passenger seat is assembled, the second base-frame tube may be positioned within the second aperture 203b for mechanically coupling the aft leg 204 to a passenger seat. In some embodiments, the aft side 308 of the aft leg 204 may include a non-linear or arcuate profile such that the first end 404 of the aft leg 204 may be offset from the second end 406 of the aft leg 204. In various embodiments, the first end 404 may be offset from the second end 406 in a vertical direction, in a horizontal direction, or a combination thereof. Optionally, the aft leg 204 may include a base connecting feature 216b, which may be at or proximate to the second end 406 of the aft leg 204. The base connecting features 216b may allow the aft leg 204 to be affixed to a floor of a passenger vehicle.
The central link 206 of the multi-part leg assembly 200 may mechanically connect or otherwise couple the forward leg 202 and the aft leg 204. In some embodiments, a cross-section of the central link 206 may be different from a cross-section of the forward leg 202, different from a cross-section of the aft leg 204, or than a combination thereof, although it need not in other embodiments. When the leg assembly 200 is assembled, the central link 206 may extend from the forward connecting feature 209 of the forward leg 202 to aft connecting feature 210 of the aft leg 204. In some embodiments, and as best illustrated in
As mentioned, in some embodiments, the forward connecting feature 209 of the forward leg 202 may be higher than, or otherwise above, the aft connecting feature 210 of the aft leg 204. For example, the aft connecting feature 210 may be at a vertical position lower than a vertical position of the forward connecting feature 209. The central link 206 may be angled downward from the forward connecting feature 209 of the forward leg 202 to the aft connecting feature 210 of the aft leg 204. The central link 206 may optionally be pivotably coupled to the forward connecting feature 209, to the aft connecting feature 210, or to a combination thereof using the connectors 214a-b, which may include but are not limited to screws, bolts, rivets or other mechanical or chemical fasteners.
Each of the components of the multi-part leg assembly 200 (e.g., the forward leg 202, the aft leg 204, and the central link 206) may be formed via various manufacturing processes as desired. Suitable manufacturing processes include, but are not limited to, machining, forging, casting, printing, molding, combinations thereof, or other processes as desired. In some embodiments, the manufacturing process used to form one component may be different from the manufacturing process used to form another component. As one non-limiting example, the forward leg 202 or the aft leg 204 may be formed via forging, and the central link 206 may be formed via machining. In certain embodiments, at least one of the components of the multi-part leg assembly 200 may optionally only be manufactured in two directions (e.g., an x-direction and a y-direction), although in other embodiments they need not be.
Compared to a single-component leg assembly, the leg assembly 200 may have reduced manufacturing costs, reduced manufacturing waste, and/or improved optimization for loads that the leg assembly 200 may experience. As a non-limiting embodiment, each portion of the multi-part leg assembly 200 may be formed by a process and with a cross-sectional shape that may be, but does not have to be, separate and/or different from that of another portion of the multi-part leg assembly 200. As another non-limiting embodiment, each portion of the multi-part leg assembly 200 may have an optimized shape or profile to maximize a number of parts that can be obtained from a single source of material (e.g., maximize the number of parts that can be stamped, cast, etc. from a sheet of metal and/or otherwise formed), thereby reducing material waste during manufacturing.
In the following, further examples are described to facilitate the understanding of the invention:
Example 1. A leg assembly for a passenger seat, the leg assembly comprising: a forward leg comprising a forward connecting feature, wherein the forward leg is adapted to receive a first base frame tube of the passenger seat; an aft leg comprising an aft connecting feature, wherein the aft leg is adapted to receive a second base frame tube of the passenger seat, and wherein the aft connecting feature comprises a cavity defined in the aft leg; and a central link connecting the forward leg and the aft leg, wherein the central link is pivotably connected to the forward connecting feature and pivotably connected to the aft connecting feature, and wherein the central link extends at least partially into the cavity in the aft leg.
Example 2. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the forward leg comprises a forward side and an aft side opposite the forward side, and wherein the forward connecting feature extends outwards from the aft side of the forward leg.
Example 3. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the forward connecting feature comprises a slot, and wherein the central link extends at least partially into the slot of the forward leg.
Example 4. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the central link extends along a 16 g load path of the leg assembly.
Example 5. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the forward leg comprises a first material and the central link comprises a second material different from the first material.
Example 6. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the first material comprises an aluminum alloy, and wherein the second material comprises a magnesium alloy.
Example 7. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the aft leg comprises the first material.
Example 8. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the aft leg comprises a forward side and an aft side opposite from the forward side, and wherein the cavity is defined in the forward side of the aft leg.
Example 9. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the aft side comprises an arcuate profile such that a top end of the aft leg is offset from a bottom end of the aft leg in a vertical and horizontal direction.
Example 10. The leg assembly of any of the preceding or subsequent examples or combination of examples, further comprising a first connector pivotably connecting the central link with the forward connecting feature and a second connector pivotably connecting the central link with the aft connecting feature.
Example 11. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the forward leg comprises a forward base frame tube aperture adapted to receive the first base frame tube of the passenger seat, and wherein the aft leg comprises an aft base frame tube aperture adapted to receive the second base frame tube of the passenger seat.
Example 12. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the forward connecting feature is at a vertical position above a vertical position of the aft connecting feature such that the central link is angled downwards from the forward leg to the aft leg.
Example 13. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein a cross section of the central link is different from a cross section of the forward leg.
Example 14. A passenger seat comprising the leg assembly of any of the preceding or subsequent examples or combination of examples, a first base frame tube supported by the forward leg, and a second base frame tube supported by the aft leg.
Example 15. A method of assembling the leg assembly of claim 1, the method comprising: manufacturing the forward leg; manufacturing the central link; manufacturing the aft leg; and pivotably connecting the central link with the forward leg and the aft leg, wherein manufacturing the forward leg or the central link comprises machining in only two directions.
Example 16. A leg assembly for a passenger seat, the leg assembly comprising: a forward leg comprising a forward connecting feature, wherein the forward leg is adapted to receive a first base frame tube of the passenger seat; an aft leg comprising an aft connecting feature, wherein the aft leg is adapted to receive a second base frame tube of the passenger seat; and a central link connecting the forward leg and the aft leg, wherein the central link is pivotably connected to the forward connecting feature and pivotably connected to the aft connecting feature, and wherein the central link extends along a 16 g load path of the leg assembly.
Example 17. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the aft connecting feature comprises a cavity defined in the aft leg, and wherein the central link extends at least partially into the cavity in the aft leg.
Example 18. A leg assembly for a passenger seat, the leg assembly comprising: a forward leg comprising a forward connecting feature, wherein the forward leg is adapted to receive a first base frame tube of the passenger seat; an aft leg comprising an aft connecting feature, wherein the aft leg is adapted to receive a second base frame tube of the passenger seat, wherein the aft connecting feature is at a vertical position lower than a vertical position of the forward connecting feature; and a central link connecting the forward leg and the aft leg, wherein the central link is pivotably connected to the forward connecting feature and pivotably connected to the aft connecting feature, and wherein the central link extends in a downward direction from the forward leg to the aft leg.
Example 19. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the aft connecting feature comprises a cavity defined in the aft leg, and wherein the central link extends at least partially into the cavity in the aft leg.
Example 20. The leg assembly of any of the preceding or subsequent examples or combination of examples, wherein the forward leg comprises a forward side and an aft side opposite the forward side, wherein the forward connecting feature extends outwards from the aft side of the forward leg, wherein the forward connecting feature comprises a slot, and wherein the central link extends at least partially into the slot of the forward leg.
Different arrangements of the components depicted in the drawings or described above, as well as components and steps not shown or described are possible. Similarly, some features and sub-combinations are useful and may be employed without reference to other features and sub-combinations. Embodiments of the invention have been described for illustrative and not restrictive purposes, and alternative embodiments will become apparent to readers of this patent. Accordingly, the present invention is not limited to the embodiments described above or depicted in the drawings, and various embodiments and modifications may be made without departing from the scope of the claims below.
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/US2021/035737 | 6/3/2021 | WO |
