Unmanned aerial vehicle and techniques for securing a payload to the UAV in a desired orientation

We claim: 1. An unmanned aerial vehicle system comprising: an unmanned aerial vehicle (UAV) having a fuselage; a tether having a first end secured to a winch system positioned in the UAV and a second end secured to a payload coupling apparatus; a payload coupling apparatus receptacle positioned in the fuselage of the UAV; a payload having a handle directly connected to a top of the payload, wherein the handle of the payload is positionable within a slot in the payload coupling apparatus; and wherein the payload coupling apparatus comprises a housing; wherein the housing is attached to the second end of the tether; wherein a first cam and a second cam extend outwardly from an outer surface of the housing of the payload coupling apparatus, and wherein the first and second cams are adapted to engage mating cams positioned within the payload coupling apparatus receptacle positioned in the fuselage of the UAV to force rotation of the payload coupling apparatus and the handle of the payload into a desired position within the payload coupling apparatus receptacle positioned in the fuselage of the UAV. 2. The unmanned aerial system of claim 1 , wherein a top portion of the payload has a linear shape. 3. The unmanned aerial system of claim 2 , wherein the fuselage has a recessed restraint slot for receiving the top portion of the payload. 4. The unmanned aerial system of claim 3 , wherein, the recessed restraint slot is positioned longitudinally in the fuselage. 5. The unmanned aerial system of claim 1 , wherein a portion of the housing is weighted such that when the handle of the payload is decoupled from the slot, the top of housing rotates downwardly. 6. The unmanned aerial system of claim 1 , wherein the payload coupling apparatus has no moving parts. 7. The unmanned aerial system of claim 1 , wherein the payload coupling apparatus comprises a housing; wherein the housing is attached to the first end of a tether at a bottom of the housing; wherein the housing includes a slot vertically extending between a first inner surface of the housing and, a pair of vertical, upwardly extending fingers on the housing; wherein the slot is adapted to receive the handle of the payload; an opening formed between the pair of vertical fingers forming a tether slot. 8. The unmanned aerial system of claim 7 , wherein a top portion of the housing is weighted such that when the handle of the payload is decoupled from the slot of the housing, the top portion of the housing rotates such that the fingers point downwardly. 9. The unmanned aerial system of claim 7 , wherein the tether is positioned within the tether slot. 10. The unmanned aerial system of claim 9 , wherein when the handle of the payload is decoupled from the slot of the housing, the tether is disengaged from the tether slot and extends through the opening between the fingers during rotation of the housing and the bottom of the housing is suspended frons the tether. 11. An unmanned aerial vehicle system comprising: an unmanned aerial vehicle (UAV) having a fuselage; a tether having a first end secured to a winch system positioned in the UAV and a second end secured to a payload coupling apparatus; a payload coupling apparatus receptacle extending longitudinally positioned in the fuselage of the UAV; a payload having a handle directly connected to a top of the payload, wherein the handle of the payload is adapted to be secured to the payload coupling apparatus, wherein a first cam and a second cam extend outwardly from an outer surface of the payload coupling apparatus, and wherein the first and second cams are adapted to engage mating cams positioned within the payload coupling apparatus receptacle positioned in the fuselage of the UAV to force rotation of the payload coupling apparatus and the handle of the payload into a desired position within the payload coupling apparatus receptacle positioned in the fuselage of the UAV. 12. The unmanned aerial system of claim 11 , wherein the first cam extends upwardly to form a first sharp apex and the second cam extends upwardly to form a blunt apex. 13. A method of securing a payload to an unmanned aerial vehicle (UAV), including: providing a tether having a first end secured to a winch system positioned in the UA V and a second end secured to a payload coupling apparatus; a payload coupling apparatus receptacle positioned in the fuselage of the UAV; a payload having a handle, wherein the handle of the payload is positioned within a slot in the payload coupling apparatus; wherein the payload coupling apparatus includes a first cam and a second carts that extend outwardly from an outer surface of the housing, and wherein the first and second cams are adapted to engage mating cams positioned within the payload coupling apparatus receptacle to force rotation of the housing into a desired position within the fuselage of the UAV; operating the winch system to raise the payload coupling apparatus and payload to the UAV, until the first and second cams are brought into engagement with the mating cams positioned within the payload coupling apparatus receptacle; and further operating the winch system to force rotation of the payload coupling apparatus into a desired position within the payload coupling apparatus receptacle. 14. The method of claim 13 , wherein the payload includes a top portion and the fuselage includes a recessed restraint slot, and further including the step of positioning the top portion of the payload into the recessed restraint slot. 15. The method of claim 13 , wherein the handle of payload includes a pair of holes and the fuselage includes a pair of locking pins, and further including the step of inserting the locking pins through the pair of holes in the handle to secure the handle and payload to the UAV.