Stackable dollies that each include a platform component having a plurality of indentations that is structured to receive wheel components of other dollies are provided. Stackable dolly systems and related methods are also provided.
대표청구항▼
1. A stackable dolly, comprising:a platform component having first and second surfaces and at least first and second pluralities of aligned indentations, which first plurality of aligned indentations is disposed at least in the first surface, which second plurality of aligned indentations is dispose
1. A stackable dolly, comprising:a platform component having first and second surfaces and at least first and second pluralities of aligned indentations, which first plurality of aligned indentations is disposed at least in the first surface, which second plurality of aligned indentations is disposed at least in the second surface, and which platform component is structured to support at least one object on the second surface; and,a plurality of wheel components operably connected to the first surface of the platform component, wherein the first and second pluralities of aligned indentations are structured to receive at least portions of wheel components disposed on at least one other stackable dolly.2. The stackable dolly of claim 1, wherein the first and/or second surface is substantially flat.3. The stackable dolly of claim 1, wherein the stackable dolly comprises 3, 4, 5, 6, or more wheel components operably connected to the first surface of the platform component.4. The stackable dolly of claim 1, wherein the stackable dolly comprises 3, 4, 5, 6, or more indentations disposed in the first and second surfaces of the platform component.5. The stackable dolly of claim 1, wherein the first and second pluralities of aligned indentations are disposed through the platform component.6. The stackable dolly of claim 1, further comprising at least one opening disposed through the platform component, which opening is structured such that a user can grasp the stackable dolly.7. The stackable dolly of claim 1, further comprising at least one handle component removably attached to the platform component by at least one attachment component.8. The stackable dolly of claim 1, wherein the second surface comprises a retaining element that is structured to retain the object when the object is moved on the stackable dolly.9. The stackable dolly of claim 8, wherein the retaining element comprises a frictional material.10. A stackable dolly system, comprising a plurality of stackable dollies, each stackable dolly comprising:a platform component having first and second surfaces, and at least first and second pluralities of aligned indentations, which first plurality of aligned indentations is disposed at least in the first surface and which second plurality of aligned indentations is disposed at least in the second surface; anda plurality of wheel components operably connected to the first surface, wherein the first or second pluralities of aligned indentations of at least a first of the stackable dollies receives at least portions of the wheel components disposed on at least a second of the stackable dollies when the first and second stackable dollies are stacked together.11. The stackable dolly of claim 10, wherein each of the stackable dollies comprises 3, 4, 5, 6, or more wheel components operably connected to the first surface of the platform component.12. The stackable dolly of claim 10, wherein each of the stackable dollies comprises 3, 4, 5, 6, or more indentations disposed in the first and second surfaces of the platform component.13. The stackable dolly of claim 10, wherein the first and second pluralities of aligned indentations are disposed through the platform component.14. The stackable dolly of claim 10, wherein each of the stackable dollies further comprises at least one opening disposed through the platform component, which opening is structured such that a user can grasp the stackable dolly.15. A method of moving an object, the method comprising:providing at least one stackable dolly comprising:a platform component having first and second surfaces and at least first and second pluralities of aligned indentations, which first plurality of aligned indentations is disposed at least in the first surface, which second plurality of aligned indentations is disposed at least in the second surface, and which platform component is structured to support at least one object on the second surface; anda plurality of wheel components operably connected to the first surface, wherein the first and second pluralities of aligned indentations are structured to receive at least portions of wheel components disposed on at least one other stackable dolly;placing one or more objects on the second surface of the stackable dolly, and,moving the stackable dolly, thereby moving the object.16. A method of stacking stackable dollies, the method comprising:providing a plurality of stackable dollies, each stackable dolly comprising:a platform component having first and second surfaces, and at least first and second pluralities of aligned indentations, which first plurality of aligned indentations is disposed at least in the first surface and which second plurality of aligned indentations is disposed at least in the second surface; anda plurality of wheel components operably connected to the first surface; and,placing at least portions of the wheel components of at least a first of the plurality of stackable dollies into the first or second pluralities es of aligned indentations of at least a second of the plurality of stackable dollies, thereby stacking the stackable dollies.
Kean J. H. B. (Marina Del Rey CA) Brumbelow Everette A. (Rome GA) Grimes Henry C. (Rome GA) Schultz Dennis (Cartersville GA) Watson Mickey (Rome GA), Mover\s dolly.
Faber, Richard D.; Buss, Kenneth; Bevier, Alex D.; Jambois, Brian K.; Roberts, Adam P., Box with hand holes and spacer panel to facilitate lifting and carrying the box.
Mitchell, Prenell; Combs, Thomas Darwin; Cook, William Eric; Butrum, Thomas Josef; Dunn, Anthony Lee; Giordano, Bethany Kay; Jackson, Danny Joe; Johnson, Heather Dawn; Devers, Shirley Mae; Rucker, Mark David, Dolly transport systems.
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