Loading system for a vehicle and vehicle having same

What is claimed is: 1. A loading system for a vehicle, comprising: a buggy for transporting cargo, the buggy having an upper portion and a lower portion, the buggy comprising: a buggy frame comprising at least one elongated member, the at least one elongated member extending generally vertically when the buggy is upright; a handle disposed at the upper portion of the buggy and configured for handling by a user; a lower platform disposed at the lower portion of the buggy, the lower platform being configured for supporting cargo; and at least one wheel for rolling the buggy on a ground surface; and a mounting assembly for loading the buggy onto the vehicle, the mounting assembly being configured to be connected to the vehicle, the mounting assembly comprising: at least one sliding rail configured to slidingly receive the at least one elongated member of the buggy frame to allow the buggy to slide along the at least one sliding rail, each of the at least one sliding rail having a first portion and a second portion extending at an angle relative to the first portion such that, when the mounting assembly is connected to the vehicle, the first portion extends generally horizontally and the second portion extends downwardly from the first portion, the second portion being configured to slide the buggy upwards onto the vehicle, the first portion being configured to slide the buggy generally horizontally into a loaded position on the vehicle. 2. The loading system of claim 1 , wherein the mounting assembly further comprises a locking device configured to lockingly engage a part of the buggy in the loaded position to retain the buggy to the mounting assembly in the loaded position. 3. The loading system of claim 2 , wherein the part of the buggy that is lockingly engaged by the locking device is the handle such that the locking device is configured to retain the upper portion of the buggy to the mounting assembly in the loaded position. 4. The loading system of claim 2 , wherein the locking device is movable between a locked position and an unlocked position, the locking device being biased to be in the locked position. 5. The loading system of claim 4 , wherein: the locking device comprises a rotating bracket; in the locked position, the rotating bracket at least partly surrounds the part of the buggy to retain the buggy to the mounting assembly; and in the unlocked position, the rotating bracket is clear of the part of the buggy to allow the part of the buggy to disengage the locking device. 6. The loading system of claim 2 , wherein: the mounting assembly has a first end portion and a second end portion opposite the first end portion; the second portion of each of the at least one sliding rail is disposed at the first end portion of the mounting assembly; and the locking device is disposed at the second end portion of the mounting assembly. 7. The loading system claim 1 , wherein: the buggy frame further comprises a lower cross-member extending transversally to the at least one elongated member at the lower portion of the buggy; and the mounting assembly defines a locking slot that at least partially receives the lower cross-member therein in the loaded position of the buggy to retain the lower portion of the buggy to the mounting assembly. 8. The loading system of claim 1 , wherein the mounting assembly is configured to be removably connected to the vehicle, the mounting assembly further comprising at least one anchor for removably connecting the mounting assembly to an anchor fixture disposed on the vehicle, the anchor fixture selectively retaining the at least one anchor. 9. The loading system of claim 8 , wherein the at least one anchor comprises: a fastener portion configured to be received in an anchor chamber defined at least in part by the anchor fixture, the fastener portion being movable between a locked position and an unlocked position; and an actuator portion operatively connected to the fastener portion, the actuator portion being movable by the user to move the fastener portion between the locked position and the unlocked position, the fastener portion being shaped such that, when the fastener portion is received in the anchor chamber, in the locked position, the fastener portion is retained by the anchor fixture and, in the unlocked position, the fastener portion is removable from the anchor fixture. 10. The loading system of claim 8 , wherein: the at least one anchor includes a first anchor and a second anchor; the first anchor is disposed at a first end portion of the mounting assembly; and the second anchor is disposed at a second end portion of the mounting assembly opposite the first end portion. 11. The loading system of claim 1 , further comprising a winch for moving the buggy onto the mounting assembly and into the loaded position, the winch comprising: a rotatable reel; a line reeled about the reel; and a hook disposed at an end of the line for connecting the winch to the buggy. 12. The loading system of claim 11 , wherein the winch is connected to the mounting assembly. 13. The loading system of claim 11 , wherein: the mounting assembly has a first end portion and a second end portion opposite the first end portion; the second portion of each of the at least one sliding rail is disposed at the first end portion of the mounting assembly; and the winch is connected to the second end portion of the mounting assembly. 14. The loading system of claim 13 , wherein: the winch is rotatably connected to the mounting assembly, the winch being rotatable between a deployed position and a stowed position; in the deployed position of the winch, the line is reeled onto the reel in a first direction that is generally parallel to the at least one sliding rail of the mounting assembly; and in the stowed position of the winch, the line is reeled onto the reel in a second direction at an angle relative to the first direction. 15. The loading system of claim 14 , wherein the winch is rotated by approximately 90° between the deployed and stowed positions. 16. The loading system of claim 14 , wherein a distance measured, along a direction parallel to the first portion of the at least one sliding rail, between the first end portion of the mounting assembly and a furthest point on the winch from the first end portion of the mounting assembly is greater in the deployed position of the winch than in the stowed position of the winch. 17. The loading system of claim 11 , wherein the winch is manually operated by the user to reel the line about the reel. 18. The loading system of claim 11 , wherein: the mounting assembly further comprises: a mounting assembly frame; and a line angle modifier pivotably connected to the mounting assembly frame, the line angle modifier having a line supporting end defining a cam surface; the line angle modifier is pivotable relative to the mounting assembly frame between a lifting position and a resting position; in the lifting position, the line angle modifier extends outward from the mounting assembly frame such that the line is extendable about the cam surface to modify an angle of approach of the line to the buggy; and in the resting position, the line angle modifier lies flat against the mounting assembly frame. 19. The loading system of claim 18 , wherein: the buggy frame further comprises a lower cross-member extending transversally to the at least one elongated member at the lower portion of the buggy; and the mounting assembly defines a lockin