A cart includes a platform assembly, a handle assembly, first wheel assembly and a second wheel assembly. In use, the cart may folded from a deployed position in which it rolls along a surface to transport items, to a stowed position, in which it is collapsed in a compact geometry for storage. The c
A cart includes a platform assembly, a handle assembly, first wheel assembly and a second wheel assembly. In use, the cart may folded from a deployed position in which it rolls along a surface to transport items, to a stowed position, in which it is collapsed in a compact geometry for storage. The cart may be further integrated into a chair, chaize lounge, garden cart, bicycle utility cart or a bicycle passenger cart.
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1. A collapsible cart comprising: a support member defining a surface configured to support an object;a first leg member coupled to the support member, the first leg member configured to pivot between a stowed position and a deployed position;a second leg member coupled to the support member, the se
1. A collapsible cart comprising: a support member defining a surface configured to support an object;a first leg member coupled to the support member, the first leg member configured to pivot between a stowed position and a deployed position;a second leg member coupled to the support member, the second leg member being spaced from the first leg member and configured to pivot between a stowed position and a deployed position;at least one axle coupled to the second leg member, the at least one axle including a distal end, a proximal end, and at least one aperture disposed in the at least one axle proximate to the distal end of the axle, the at least one axle configured to removably receive at least one wheel proximate to the aperture; anda resilient member disposed within the at least one axle and at least partially extending through the aperture in the at least one axle to retain the at least one wheel on the at least one axle when the resilient member extends through the aperture. 2. The collapsible cart of claim 1, wherein the first leg member and second leg member cooperate to support the support member over a surface when in the deployed position. 3. The collapsible cart of claim 1, wherein the at least one axle is slidable between a stowed position and a deployed position. 4. The collapsible cart of claim 1, wherein the aperture of the at least one axle is a first aperture and the at least one axle includes: a second aperture disposed in the at least one axle proximate to the proximal end of the axle. 5. The collapsible cart of claim 4, wherein the resilient member is a first resilient member and further comprising: a second resilient member disposed within the at least one axle and configured to at least partially extend through the second aperture of the at least one axle. 6. The collapsible cart of claim 5, wherein at least one wheel is a first wheel and further comprising: a second wheel removably coupled to the at least one axle proximate to the second aperture, the second wheel being retained to the at least one axle when the second resilient member extends through the second aperture. 7. The collapsible cart of claim 5, wherein the first and second resilient members are snap buttons. 8. A cart comprising: a support member defining a surface configured to support an object;a first leg member coupled to the support member;a second leg member coupled to the support member;a housing coupled to the second leg member, the housing including an at least partially enclosed channel; andat least one axle slidingly disposed within the at least partially enclosed channel and configured to slide between a deployed position and a stored position, the at least one axle extending from the housing in the deployed position, the at least one axle configured to removably receive at least one wheel when the at least one axle is in the deployed position. 9. The cart of claim 8, wherein the support member comprises a frame and supporting material coupled to the frame. 10. The cart of claim 8, wherein the first leg member and second leg member are pivotally coupled to the support member. 11. The cart of claim 10, wherein the first leg member and second leg member are pivotable between a stowed position to a deployed position, the first and second leg members cooperate to support the support member over a surface when in the deployed position. 12. The cart of claim 8, wherein the housing includes a distal end and a proximal end opposite the distal end. 13. The cart of claim 12, wherein the at least one axle is slidably received in the housing proximate to the distal end of the housing, the at least one axle extending from the distal end of the housing when the at least one axle is in the deployed position. 14. The cart of claim 13, wherein the at least one axle is a first axle and further comprising: a second axle slidably received in the housing proximate to the proximal end of the housing, the second axle being configured to slide between a deployed position and a stored position where the second axle extends from proximal end of the housing when in the deployed position. 15. A cart comprising: a support member defining a surface configured to support an object;a first leg member coupled to the support member;a second leg member coupled to the support member; andat least one hollow axle coupled to the second leg member, the at least one hollow axle configured to slide between a deployed position and a stored position, the at least one axle configured to removably receive at least one wheel when the at least one hollow axle is in the deployed position. 16. The cart of claim 15, wherein the at least one hollow axle comprises a proximal end and a distal end, the distal end including an aperture. 17. The cart of claim 16, further comprising a pin removably disposed within the aperture to retain the at least one wheel on the at least one hollow axle when the at least one hollow axle is in the deployed position. 18. The cart of claim 16, further comprising a resilient member disposed in the distal end of the axle and configured to extend through the aperture, the resilient member retaining the at least one wheel on the at least one hollow axle when the at least one hollow axle is in the deployed position and the resilient member extends from the aperture.
Schwalm Bruce D. (Leola PA) Webb Bryant F. (Ephrata PA), Method of converting an implement frame from a forward harvesting mode to a lateral transport mode.
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