Self-locking hinge assembly for vehicle swinging desk top

What is claimed is: 1. A hinge assembly comprising: a finger-grip rotator knob assembly; a mounting plate having a first side operably coupled to a mounting surface and a second side of the mounting plate operably coupled to the finger-grip rotator knob assembly; and a movable element disposed between the finger-grip rotator knob assembly and the mounting plate, wherein the movable element is operably coupled to, and rotatable with, the finger-grip rotator knob assembly. 2. The hinge assembly of claim 1 , wherein the finger-grip rotator knob assembly further comprises a finger-grip rotator knob, a pressure-actuated lock release having a plurality of lock release protrusions that extend downwardly from the pressure-actuated lock release, a plurality of lock release springs, and the lock release protrusions each sheathed by one of the lock release springs. 3. The hinge assembly of claim 2 , wherein the second side of the mounting plate includes a plurality of recesses that each receives a locking pin and a locking pin spring, and wherein the locking pin spring engages with the locking pin to provide a biasing force to the locking pin. 4. The hinge assembly of claim 3 , wherein the pressure-actuated lock release is movable between a raised condition and a lowered condition, wherein the raised condition provides a locked configuration of a self-locking hinge assembly and the lowered condition provides an unlocked configuration of the self-locking hinge assembly, and wherein the locked configuration is achieved by an interference fit provided by the locking pins. 5. The hinge assembly of claim 4 , wherein the raised condition of the pressure-actuated lock release provides the locking pins in a raised condition as a result of the extension of the locking pin springs, thereby providing the interference fit and preventing rotational motion of the self-locking hinge assembly. 6. The hinge assembly of claim 5 , wherein the lowered condition of the pressure-actuated lock release provides the locking pins in the lowered condition as a result of the lock release protrusions actuating the locking pins to compress the locking pin springs such that rotational motion of the self-locking hinge assembly is permitted. 7. A seating assembly comprising: a seatback; a mounting plate having a first side operably coupled to the seatback and a second side of the mounting plate operably coupled to a hinge assembly, wherein the hinge assembly includes a finger-grip rotator knob assembly; and a desk disposed between the second side of the mounting plate and the hinge assembly, wherein the desk is operably coupled to the hinge assembly. 8. The seating assembly of claim 7 , wherein the hinge assembly is movable between at least a stowed position and a use position. 9. The seating assembly of claim 7 , wherein the second side of the mounting plate includes a plurality of recesses that each receives a locking pin and a locking pin spring, and wherein the locking pin spring engages with the locking pin to provide a biasing force to the locking pin. 10. The seating assembly of claim 9 , wherein the finger-grip rotator knob assembly further comprises a finger-grip rotator knob, a pressure-actuated lock release having a plurality of lock release protrusions that extend downwardly from the pressure-actuated lock release, a plurality of lock release springs, and the lock release protrusions each sheathed by one of the lock release springs. 11. The seating assembly of claim 10 , wherein the pressure-actuated lock release is movable between a raised condition and a lowered condition, wherein the raised condition provides a locked configuration of a self-locking hinge assembly and the lowered condition provides an unlocked configuration of the self-locking hinge assembly, and wherein the locked configuration is achieved by an interference fit provided by the locking pins. 12. The seating assembly of claim 11 , wherein the raised condition of the pressure-actuated lock release provides the locking pins in a raised condition as a result of the extension of the locking pin springs, thereby providing the interference fit and preventing rotational motion of the self-locking hinge assembly. 13. The seating assembly of claim 12 , wherein the lowered condition of the pressure-actuated lock release provides the locking pins in the lowered condition as a result of the lock release protrusions actuating the locking pins to compress the locking pin springs such that rotational motion of the self-locking hinge assembly is permitted. 14. A vehicle seating assembly comprising: a seatback; a hinge assembly comprising a finger-grip rotator knob assembly that is movable between at least a stowed position and a use position; a mounting plate having a first side operably coupled to the seatback and a second side of the mounting plate operably coupled to the hinge assembly; and a desk operably coupled to the hinge assembly and disposed between the second side of the mounting plate and the hinge assembly. 15. The seating assembly of claim 14 , wherein the second side of the mounting plate includes a plurality of recesses that each receives a locking pin and a locking pin spring, and wherein the locking pin spring engages with the locking pin to provide a biasing force to the locking pin. 16. The seating assembly of claim 15 , wherein the finger-grip rotator knob assembly further comprises a finger-grip rotator knob, a pressure-actuated lock release having a plurality of lock release protrusions that extend downwardly from the pressure-actuated lock release, a plurality of lock release springs, and the lock release protrusions each sheathed by one of the lock release springs. 17. The seating assembly of claim 16 , wherein the pressure-actuated lock release is movable between a raised condition and a lowered condition, wherein the raised condition provides a locked configuration of a self-locking hinge assembly and the lowered condition provides an unlocked configuration of the self-locking hinge assembly, and wherein the locked configuration is achieved by an interference fit provided by the locking pins. 18. The seating assembly of claim 17 , wherein the raised condition of the pressure-actuated lock release provides the locking pins in the raised condition as a result of the extension of the locking pin springs, thereby providing the interference fit and preventing rotational motion of the self-locking hinge assembly. 19. The seating assembly of claim 18 , wherein the lowered condition of the pressure-actuated lock release provides the locking pins in the lowered condition as a result of the lock release protrusions actuating the locking pins to compress the locking pin springs such that rotational motion of the self-locking hinge assembly is permitted. 20. The vehicle seating assembly of claim 15 , further comprising: a first end and a second end of the locking pins; the first end of the locking pins being substantially concave; and the second end of the locking pins having a diameter that is smaller than the diameter of a body of the locking pins, such that the second end of the locking pin can be inserted into the locking pin spring while the body of the locking pin rests on an upper end of the locking pin spring.