Overhead lifts having a release assembly for disengaging an electromagnetic brake and methods for disengaging an electromagnetic brake of an overhead lift

What is claimed is: 1. An overhead lift comprising: a lift strap; a motor comprising a rotatable shaft coupled to the lift strap, the rotatable shaft comprising a first rotational direction wherein the lift strap is paid-out from the overhead lift and a second rotational direction wherein the lift strap is taken-up into the overhead lift; an electromagnetic brake coupled to the rotatable shaft, the electromagnetic brake comprising an engaged state wherein the electromagnetic brake prohibits rotation of the rotatable shaft and a disengaged state wherein the electromagnetic brake permits rotation of the rotatable shaft; and a release assembly engaged with the electromagnetic brake, wherein actuation of the release assembly switches the electromagnetic brake from the engaged state to the disengaged state, the release assembly comprising: a release lever engaged with the electromagnetic brake and moveable between a first position and a second position, wherein the release lever switches the electromagnetic brake to the disengaged state when in the second position; and a release strap coupled to the release lever, wherein tensioning of the release strap moves the release lever from the first position to the second position thereby switching the electromagnetic brake from the engaged state to the disengaged state. 2. The overhead lift of claim 1 , wherein motion of the release lever from the first position to the second position moves a lever arm of the release lever closer to an axis of rotation of the rotatable shaft. 3. The overhead lift of claim 1 , wherein: the release assembly further comprises a sliding plate engaged with the release lever; the release strap is coupled to the sliding plate such that tensioning the release strap slides the sliding plate from a first lateral position to a second lateral position; and the sliding plate pulls the release lever to the second position when the sliding plate transitions from the first lateral position to the second lateral position. 4. The overhead lift of claim 3 , wherein: the sliding plate comprises: an aperture extending around the motor; and a lever opening formed within a wall of the aperture; and a lever arm of the release lever extends through the lever opening thereby engaging the lever arm with the sliding plate. 5. The overhead lift of claim 3 , wherein: the release assembly further comprises a cam rotatable about a cam rotation axis and comprising a lobe; the cam is coupled to the release strap such that tensioning the release strap causes the cam to rotate about the cam rotation axis from a first radial position to a second radial position; the sliding plate further comprises a follower plate positioned to contact the lobe; and rotation of the cam to the second radial position causes the lobe to push against the follower plate and slide the sliding plate from the first lateral position to the second lateral position thereby pulling the release lever from the first position to the second position and releasing the electromagnetic brake. 6. The release assembly of claim 5 , further comprising a torsion spring biasing the cam to the first radial position such that the torsion spring returns the cam to the first radial position upon release of tension on the release strap. 7. The overhead lift of claim 1 , wherein: the release assembly further comprises: a pinion gear coupled to the release strap; and a rack gear meshed with the pinion gear and coupled to the release lever; and tensioning the release strap rotates the pinion gear thereby laterally translating the rack gear and pulling the release lever to the second position. 8. The overhead lift of claim 1 , wherein: the release assembly further comprises a pulley; the lift strap is arranged around the pulley and is attached to the release lever; and tensioning the release strap causes the pulley to rotate about a pulley axis and causes the release lever to move from the first position to the second position, thereby releasing the electromagnetic brake. 9. An overhead lift comprising: a lift strap; a drum coupled to the lift strap, the drum being rotatable in a first rotational direction wherein the lift strap is paid-out from the overhead lift and in a second rotational direction wherein the lift strap is taken-up into the overhead lift; a motor comprising a rotatable shaft coupled to the drum such that rotation of the rotatable shaft rotates the drum in the first rotational direction or the second rotational direction; an electromagnetic brake coupled to the rotatable shaft, the electromagnetic brake comprising an engaged state wherein the electromagnetic brake prohibits rotation of the rotatable shaft and a disengaged state wherein the electromagnetic brake permits rotation of the rotatable shaft; and a release assembly engaged with the electromagnetic brake, wherein actuation of the release assembly switches the electromagnetic brake from the engaged state to the disengaged state, the release assembly comprising: a release lever engaged with the electromagnetic brake and moveable between a first position and a second position, wherein the release lever switches the electromagnetic brake to the disengaged state when in the second position; a cam coupled to the release lever, wherein the cam is rotatable from a first radial position to a second radial position, wherein rotation to the second radial position causes the release lever to move to the second position; and a release strap coupled to the cam, wherein tensioning of the release strap moves the cam from the first radial position to the second radial position, which moves the release lever from the first position to the second position thereby switching the electromagnetic brake from the engaged state to the disengaged state. 10. The overhead lift of claim 9 , wherein motion of the release lever from the first position to the second position moves a lever arm of the release lever closer to an axis of rotation of the rotatable shaft. 11. The overhead lift of claim 9 , wherein: the release assembly further comprises a sliding plate engaged with the release lever; the cam is engaged with the sliding plate such that movement of the cam from the first radial position to the second radial position slides the sliding plate from a first lateral position to a second lateral position; and the sliding plate pulls the release lever to the second position as the sliding plate transitions from the first lateral position to the second lateral position. 12. The overhead lift of claim 11 , wherein: the sliding plate comprises: a first aperture extending around the motor; a second aperture extending around a drum shaft of the drum; and a lever opening formed within a wall of the first aperture; and a lever arm of the release lever extends through the lever opening thereby engaging the lever arm with the sliding plate. 13. The overhead lift of claim 12 , wherein: the cam comprises a lobe; the sliding plate further comprises a follower plate positioned to contact the lobe; and rotation of the cam to the second radial position causes the lobe to push against the follower plate and slide the sliding plate from the first lateral position to the second lateral position thereby pulling the release lever from the first position to the second position and releasing the electromagnetic brake. 14. The release assembly of claim 9 , further comprising a torsion spring biasing the cam to the first radial position such that the torsion spring returns the cam to the first radial position upon release of tension on the release strap.