Rotational brake assembly for a seat locking mechanism

What is claimed is: 1. A rotational brake assembly of a seat locking mechanism, the rotational brake comprising: a swivel disc having an outer diameter and a plurality of locking holes proximate the outer diameter; a cam having an angled slot, the cam in operation moves to at least one of a locked position and an unlocked position based on an input; a lifting pin located within the angled slot of the cam, wherein the lifting pin in operation moves along the angled slot when the cam moves; and a rotational brake pin operably connected to the lifting pin, the rotational brake pin in operation moves due to motion of the cam, wherein the rotational brake pin in operation moves from an engaged position with the swivel disc to a disengaged position with the swivel disc, when the cam moves from the locked to the unlocked position, wherein the rotational brake pin in operation moves from the disengaged position with the swivel disc to the engaged position with the swivel disc, when the cam moves from the unlocked to the locked position. 2. The rotational brake assembly of claim 1 , wherein: the cam in operation moves to the locked position when the cam moves radially outward towards the outer diameter of the swivel disc; and the locked position is radially outward from unlocked position. 3. The rotational brake assembly of claim 1 , wherein: the cam in operation moves to the locked position when the cam moves radially inward away from the outer diameter of the swivel disc; and the locked position is radially inward from unlocked position. 4. The rotational brake assembly of claim 1 , further comprising: a biasing mechanism operably connected to the rotational brake pin, the biasing mechanism in operation moves the rotational brake pin to the engaged position. 5. A seat locking mechanism comprising: a control mechanism, the control mechanism in operation controls at least one of unlocking the seat locking mechanism when the control mechanism is activated and locking the seat locking mechanism when the control mechanism is deactivated; and a plurality of positional brake mechanisms operably connected to the control mechanism, the plurality of positional brake mechanisms include a rotational brake assembly, a longitudinal brake assembly, and a lateral brake assembly, the rotational brake assembly comprising: a swivel disc having an outer diameter and a plurality of locking holes proximate the outer diameter; a cam having an angled slot, the cam in operation moves to at least one of a locked position and an unlocked position based on an input; a lifting pin located within the angled slot of the cam, wherein the lifting pin in operation moves along the angled slot when the cam moves; and a rotational brake pin operably connected to the lifting pin, the rotational brake pin in operation moves due to motion of the cam; wherein the rotational brake pin in operation moves from an engaged position with the swivel disc to a disengaged position with the swivel disc, when the cam moves from the locked to an unlocked position, wherein the rotational brake pin in operation moves from the disengaged position with the swivel disc to the engaged position with the swivel disc, when the cam moves from the unlocked to the locked position. 6. The seat locking mechanism of claim 5 , wherein: the cam in operation moves to the locked position when the cam moves radially outward towards the outer diameter of the swivel disc; and the locked position is radially outward from unlocked position. 7. The seat locking mechanism of claim 5 , wherein: the cam in operation moves to the locked position when the cam moves radially inward away from the outer diameter of the swivel disc; and the locked position is radially inward from unlocked position. 8. The seat locking mechanism of claim 5 , further comprising: a biasing mechanism operably connected to the rotational brake pin, the biasing mechanism in operation moves the rotational brake pin to the engaged position when the control mechanism is deactivated. 9. The seat locking mechanism of claim 5 , wherein: the control mechanism is an electric motor assembly operably connected to the rotational brake pin, the electric motor assembly in operation moves the rotational brake pin to at least one of the engaged position and the disengaged position. 10. The seat locking mechanism of claim 9 , wherein: the rotational brake pin is operably connected to the electric motor assembly through a carriage assembly, the rotational brake pin in operation moves to at least one of the engaged position and the disengaged position, when the electric motor assembly rotates the carriage assembly. 11. The rotational brake assembly of claim 5 , wherein: the control mechanism is an override bypass assembly operably connected to the rotational brake pin, the override bypass assembly in operation moves the rotational brake pin to at least one of the engaged position and the disengaged position. 12. The seat locking mechanism of claim 11 , wherein: the rotational brake pin is operably connected to the override bypass assembly through a carriage assembly, the rotational brake pin in operation moves to at least one of the engaged position and the disengaged position, when the override bypass assembly rotates the carriage assembly. 13. A method of assembling a seat locking mechanism comprising: installing a control mechanism onto a structural support of the seat locking mechanism, the control mechanism in operation controls at least one of unlocking the seat locking mechanism when the control mechanism is activated and locking the seat locking mechanism when the control mechanism is deactivated; installing a plurality of positional brake mechanisms onto the structural support; and operably connecting the control mechanism to the plurality of positional brake mechanisms, the plurality of positional brake mechanisms include a rotational brake assembly, a longitudinal brake assembly, and a lateral brake assembly, the rotational brake assembly comprising: a swivel disc having an outer diameter and a plurality of locking holes proximate the outer diameter; a cam having an angled slot, the cam in operation moves to at least one of a locked position and an unlocked position based on an input; a lifting pin located within the angled slot of the cam, wherein the lifting pin in operation moves along the angled slot when the cam moves; and a rotational brake pin operably connected to the lifting pin, the rotational brake pin in operation moves due to motion of the cam, wherein the rotational brake pin in operation moves from an engaged position with the swivel disc to a disengaged position with the swivel disc, when the cam moves from the locked to an unlocked position, wherein the rotational brake pin in operation moves from the disengaged position with the swivel disc to the engaged position with the swivel disc, when the cam moves from the unlocked to the locked position. 14. The method of claim 13 , wherein: the cam in operation moves to the locked position when the cam moves radially outward towards the outer diameter of the swivel disc; and the locked position is radially outward from unlocked position. 15. The method of claim 13 , wherein: the cam in operation moves to the locked position when the cam moves radially inward away from the outer diameter of the swivel disc; and the locked position is radially inward from unlocked position. 16. The method of claim 13 , further comprising: operably connecting a biasing mechanism to the rotational brake pin, the