Patent ID: 9101198
Filing Date: 2015-08-11
Classification: A45F,F41C,Y10T

Abstract:
1. A quick release assembly comprising: a rectangular plate member comprising two bent loops at respective ends thereof; a slidable fastener disposed in each loop; a rectangular inner plate attached to the rectangular plate member, the rectangular inner plate comprising a longitudinal channel adjacent to one side of the rectangular plate member, a lateral receptacle communicating with the longitudinal channel, and a through hole under the lateral receptacle communicating with the longitudinal channel; a shuttle moveably disposed in the longitudinal channel of the rectangular inner plate, the shuttle comprising an upper tunnel formed on an edge of the shuttle opposite to the lateral receptacle, a lower tunnel formed on an edge of the shuttle, under the upper tunnel, and opposite to the lateral receptacle, a lug under the lower tunnel and disposed in the through hole of the rectangular inner plate, a slot through the lug, the slot comprising a narrow hole on an upper portion of the slot, and a circular hole on a lower portion of the slot and communicating with the narrow hole; a first spring actuated detent disposed in the lateral receptacle of the rectangular inner plate and having one end urging against either the upper tunnel or the lower tunnel of the shuttle; a rectangular outer plate attached to the rectangular inner plate, the rectangular out plate comprising a longitudinal recess, and a hole member through the longitudinal recess and communicating with the slot of the shuttle and the through hole of the rectangular inner plate; a lock mechanism removably disposed in the longitudinal recess and comprising a lever and a concave part facing the hole member of the rectangular outer plate and the slot of the shuttle; and a second spring actuated detent disposed in the through hole of the rectangular inner plate, the slot of the shuttle, the hole member of the rectangular outer plate, and the concave part of the lock mechanism; wherein in a locked state, the first spring actuated detent is disposed in the upper tunnel of the shuttle and the second spring actuated detent is disposed in the narrow hole of the slot; and wherein in an unlocked state, the first spring actuated detent is disposed in the lower tunnel of the shuttle and the second spring actuated detent is disposed in the circular hole of the slot so that a pushing up of the lever of the lock mechanism causes the concave part to push the second spring actuated detent inward to unlock the lock mechanism.