Patent ID: 8657096
Filing Date: 2014-02-25
Classification: E05F,E05Y,E06B

Abstract:
1. An electric door machine comprising a chain disk locking mechanism, an electromagnetic brake module, and an electric motor having a drive shaft, wherein: said electromagnetic brake module comprising a stationary shaft, an end disk, a brake disk, an electromagnetic force generator, and an elastic element; a first end of said stationary shaft being coupled to said drive shaft of said electric motor, said end disk being connected to said first end of said stationary shaft; said brake disk, said electromagnetic force generator, and said elastic element being fitted on said stationary shaft, said brake disk being located at one side of said end disk, said elastic element drives said brake disk to press against said end disk to effect braking; when said electric motor is activated, said electromagnetic force generator is energized to disengage said brake disk from said end disk, to thereby releasing said drive shaft; said end disk being connected axially with a brake wheel, said brake disk being located between said end disk and said brake wheel, said electromagnetic brake module further comprising a shaft disk fitted on said stationary shaft and located between said electromagnetic force generator and said brake disk; said elastic element drives said shaft disk and said brake disk to press against said brake wheel and said end disk to effect braking; when said electric motor is activated, said electromagnetic force generator is energized to attract said shaft disk so as to disengage said shaft disk and said brake disk disengaged from said end disk and said brake wheel, to thereby releasing said drive shaft; said brake wheel being attached to said end disk coaxially and slidable relative to said end disk, a plurality of linings being provided on both side surfaces of said brake disk and a surface of said shaft disk facing said brake disk; said elastic element drives said end disk, said shaft disk, said brake wheel and said brake disk to stack together so that said linings contact said end disk and said brake wheel to effect braking; said brake disk and said shaft disk each having an axial leaf spring through which said brake disk and shaft disk are disposed on said stationary shaft, each leaf spring has a pre-deformation force for forcing said brake disk and said shaft disk to disengage from said end disk; said chain disk locking mechanism comprising a chain disk, an engaging rotary block, and a plurality of moving pins; said chain disk having a chain wheel, a wall disk, a holder, and a plurality of fixed pins, said wall disk having an axial hole at the center portion and being fastened on one side surface of said chain wheel, said chain wheel having a central opening for receiving said holder, said holder being fixedly connected to an outer casing to define with said wall disk a central circular bore, said plurality of fixed pins being axially positioned within said central circular bore and being fixed on said wall disk; said engaging rotary block being received within said central circular bore and connected to a second end of said stationary shaft, and having a plurality of axial slots corresponding to said plurality of fixed pins in number; each axial slot including a first end face and two second end faces with said two second end faces respectively disposed at both sides of said first end face, said first end face and an inner wall of said central circular bore being spaced apart by a first gap; said second end faces and the inner wall of said central circular bore being spaced apart by a second gap, and said first gap being narrower than said second gap; each of said plurality of moving pins being received within each of said plurality of axial slots, and is positioned between one of said second end face and said inner wall of said central circular bore; wherein: a diameter of each said moving pin is bigger than said first gap but smaller than said second gap; the diameter of each said fixed pin being smaller than said first gap; when said chain disk is rotated, said fixed pins bias against said moving pins to push said engaging rotary block to rotate and to cause said stationary shaft to rotate; when said stationary shaft is about to rotate, said moving pins is engaged between said first end face of said engaging rotary block and said inner walls of said central circular bore, whereby said stationary shaft is prevented from rotating.