In various embodiments of the present disclosure, a cargo bed pivoting panel assembly is provided. The assembly includes a panel having a pair of studs extending from corresponding opposing ends of the panel adjacent a bottom of the panel. The assembly additionally includes a main body having a firs
In various embodiments of the present disclosure, a cargo bed pivoting panel assembly is provided. The assembly includes a panel having a pair of studs extending from corresponding opposing ends of the panel adjacent a bottom of the panel. The assembly additionally includes a main body having a first deck portion and a pair of opposing sidewalls extending substantially perpendicular from the first deck portion. Each sidewall includes an elongated receptacle for receiving, and slideably and pivotally retaining, a respective one of the studs. Accordingly, the panel can be moved between a stowed position and a deployed position by sliding the studs between first ends of the elongated receptacles and second ends of the elongated receptacles while simultaneously rotating the panel about a centerline of studs.
대표청구항▼
What is claimed is: 1. A cargo bed pivoting panel assembly comprising: a pair of opposing cargo bed sidewalls, each sidewall including an elongated receptacle; and a panel positioned between the opposing sidewalls, the panel including a pair of opposing posts extending from opposing ends of the pan
What is claimed is: 1. A cargo bed pivoting panel assembly comprising: a pair of opposing cargo bed sidewalls, each sidewall including an elongated receptacle; and a panel positioned between the opposing sidewalls, the panel including a pair of opposing posts extending from opposing ends of the panel, each post slideably and pivotally retainable within a respective elongated receptacle, wherein the opposing sidewalls are substantially planarly parallel and structured to flex slightly to allow insertion of the opposing posts into the respective elongated receptacles when the panel diagonally positioned between the sidewalls. 2. The assembly of claim 1, wherein the each sidewall further includes a first receptacle and a transfer channel extending between the first receptacle and the respective elongated receptacle. 3. The assembly of claim 2, wherein the opposing sidewalls are substantially planarly parallel and the first receptacles comprise a height and a length adapted to allow the posts to be inserted into the first receptacles to thereby insert the panel between the sidewalls. 4. The assembly of claim 3, wherein transfer channels are substantially linearly parallel within the opposing sidewalls, and the transfer channels are adapted to allow the posts to be slidably moved along the transfer channels from the first receptacles to the elongated receptacles. 5. The assembly of claim 4, wherein the elongated receptacles comprise a height and length adapted to retain the posts within the elongated receptacles and to allow the posts to be rotatably transitioned between first ends of the elongated receptacle to second ends of the elongated receptacle. 6. A cargo bed transitional pivoting panel assembly, said assembly comprising: a panel including a pair of studs, each stud extending from a corresponding one of opposing ends of the panel adjacent a bottom of the panel; and a main body including a first deck portion and a pair of opposing sidewalls extending substantially perpendicular from the first deck portion, each sidewall including an elongated receptacle for receiving, and slideably and pivotally retaining, a respective one of the studs such that the panel can be moved between a stowed position and a deployed position by sliding the studs between first ends of the elongated receptacles and second ends of the elongated receptacles while simultaneously rotating the panel about a centerline of studs, wherein the opposing sidewalls are substantially planarly parallel and structured to flex slightly to allow insertion of the opposing posts into the respective elongated receptacles when the panel is diagonally positioned between the sidewalls. 7. The assembly of claim 6, wherein each sidewall further includes an insertion receptacle and a transfer channel extending between the insertion receptacle and the elongated receptacle; wherein the insertion receptacles are adapted to receive the studs to insert the pivoting panel between the sidewalls, the transfer channels are adapted to allow the studs to be slidably moved from the insertion receptacles to the elongated receptacles, and the elongated receptacles are adapted to retain the studs such that the panel can be moved between a stowed position and a deployed position by sliding the studs between first ends of the elongated receptacles and second ends of the elongated receptacles while simultaneously rotating the panel about a centerline of studs. 8. The assembly of claim 7, wherein the opposing sidewalls are substantially planarly parallel and the transfer channels are substantially linearly parallel within the opposing sidewalls. 9. The assembly of claim 7, wherein each elongated receptacle comprises one of an aperture within the respective sidewall and a recess within the respective sidewall. 10. The assembly of claim of 7, wherein each elongated receptacle is formed within the respective sidewall to have a linear decline from the first end to the second end. 11. The assembly of claim 7, wherein when in the stowed position, at least a portion of the panel rests on top of the first deck portion. 12. The assembly of claim 7, wherein when in the deployed position, the bottom of the panel mates with an edge of the first deck portion such that the panel extends from the first deck portion to form a deck. 13. A method for rotatably transitioning a cargo bed panel from a stowed position to a deployed position, said method comprising: inserting a pair of opposing posts extending from opposing ends of a panel and adjacent a bottom of the panel into a pair of opposing elongated receptacles within a pair of opposing cargo bed sidewalls extending substantially perpendicularly from a cargo bed first deck portion by slightly flexing at least one of the sidewalls to allow insertion of the opposing posts into the respective elongated receptacles when the panel is diagonally positioned between the sidewalls such that the panel is in a stowed position with each post located at a first end of each elongated receptacle and at least a portion of the panel resting on top of the first deck portion; sliding the posts from the first ends of the elongated receptacles to second ends of the elongated receptacle; and simultaneously rotating the posts about a centerline of the post, thereby flipping the panel over such that the panel is in a deployed position wherein the bottom mates with an edge of the first deck portion and the panel extends from the first deck portion to form a deck. 14. The method of claim 13, wherein inserting the posts into the elongated receptacles comprises: canting the panel between the opposing sidewalls to have an effectively diagonal relation with the opposing sidewalls, slightly flexing at least one of the sidewalls to insert each post into a respective elongated receptacle; and positioning the panel to have a substantially geometrically square relation to the sidewalls. 15. The method of claim 13, wherein inserting the posts into the elongated receptacles comprises: canting the panel between the opposing sidewalls to have a effectively diagonal relation with the opposing sidewalls, inserting the posts into a pair of opposing insertion receptacles in the opposing sidewalls; positioning the panel to have a substantially geometrically square relation to the sidewalls; and sliding the posts from the insertion receptacles to the elongated receptacles through a pair of opposing transfer channels in the opposing sidewalls that connect the insertion receptacles to the elongated receptacles. 16. The method of claim 13, wherein each elongated receptacle is formed within the respective sidewall to have a linear decline from the first end to the second end.
Sunsdahl, Richard Larry; Deckard, Aaron David; Tullemans, Marcus Johannes; Eck, Richard E.; Plugge, Jason Carl; Meyer, Alan A.; Rengel, Laurie Jean; White, Geoffrey G.; McCoubrey, Thomas Samuel Parks; Safranski, Brian Michael, Side-by-side ATV.
Sunsdahl, Richard Larry; Deckard, Aaron David; Tullemans, Marcus Johannes; Eck, Richard E.; Plugge, Jason Carl; Meyer, Alan A.; Rengel, Laurie Jean; White, Geoffrey G.; Parks McCoubrey, Thomas Samuel; Safranski, Brian Michael, Side-by-side ATV.
Sunsdahl, Richard Larry; Deckard, Aaron David; Tullemans, Marcus Johannes; Eck, Richard E; Plugge, Jason Carl; Meyer, Alan A; Rengel, Laurie Jean; White, Geoffrey G; Parks McCoubrey, Thomas Samuel; Safranski, Brian Michael, Side-by-side ATV.
Sunsdahl, Richard Larry; Deckard, Aaron David; Tullemans, Marcus Johannes; Plugge, Jason Carl; Meyer, Alan A.; White, Geoffrey G.; Safranski, Brian Michael, Side-by-side ATV.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.