Hinge mechanism and flexible electronic device having the same

What is claimed is: 1. A hinge mechanism comprising: a cam extending in a left-and-right direction to have left and right sides, and a middle portion interposed between said left and right sides, said cam having two adjusting slots which are formed in said middle portion and spaced apart from each other in the left-and-right direction, two arcuate surface sections which are respectively disposed on said left and right sides and face upwardly, and two peripheral cam surface sections which are respectively disposed on said left and right sides and respectively face said arcuate surface sections to cooperatively define two retaining cavities; a first arm unit including a first movable arm which has first proximate and distal ends relative to said left side of said cam, a first cam follower protrusion that is disposed on said first proximate end and movably received in one of said retaining cavities, and a first peg that extends in a front-and-rear direction transverse to the left-and-right direction and that is engaged in and movable relative to one of said adjusting slots; and a second arm unit including a second movable arm which has second proximate and distal ends relative to said right side of said cam, a second cam follower protrusion that is disposed on said second proximate end and movably received in the other one of said retaining cavities, and a second peg that extends in the front-and-rear direction and that is engaged in and movable relative to the other one of said adjusting slots such that said first and second movable arms are pivotable relative to each other between an unfolded position, where said first and second distal ends are remote from each other to have said first and second movable arms extending parallel to each other along the left-and-right direction and where said first and second cam follower protrusions are respectively received in said retaining cavities, and a folded position, where said first and second distal ends are close to each other and have said first and second movable arms extending in an up-and-down direction that is transverse to both the left-and-right direction and the front-and-rear direction, and where said first and second cam follower protrusions are respectively disengaged from and disposed upwardly of said retaining cavities, and such that during the pivoting of said first and second movable arms from the unfolded position to the folded position, each of said first and second cam follower protrusions is moved from said respective cavity and slides on a respective one of said peripheral cam surface sections so as to provide a leeway between said first and second movable arms. 2. The hinge mechanism as claimed in claim 1 , wherein each of said adjusting slots is elongated in the up-and-down direction to allow movable engagement of a respective one of said first and second pegs therein with the pivoting of said first and second movable arms. 3. The hinge mechanism as claimed in claim 2 , said hinge mechanism being adapted to be mounted on a support structure which includes first and second substrate units juxtaposed and spaced apart from each other in the left-and-right direction, wherein said hinge mechanism further comprises first and second coupling units which are disposed adjacent to said cam and which are driven to rotate with said first and second arm units, respectively; said first arm unit including a first stationary arm which is connected to and permits movement of said first movable arm relative thereto, and which has a cam-side end that is connected to said first coupling unit to rotate said first coupling unit during the pivoting of said first movable arm, and a spring-side end opposite to said cam-side end, and a first spring which is connected to said spring-side end and said first distal end to bias said first movable arm toward said first stationary arm during the pivoting of said first movable arm so as to keep said first movable arm in slidable engagement with said corresponding peripheral cam surface section; said second arm unit including a second stationary arm which is connected to and permits movement of said second movable arm relative thereto, and which has a cam-side end that is connected to said second coupling unit to rotate said second coupling unit during the pivoting of said second movable arm, and a spring-side end opposite to said cam-side end, and a second spring which is connected to said spring-side end and said second distal end to bias said second movable arm toward said second stationary arm during the pivoting of said second movable arm so as to keep said second movable arm in slidable engagement with said corresponding peripheral cam surface section. 4. The hinge mechanism as claimed in claim 3 , wherein said first arm unit includes at least one first spacer which is disposed on said first stationary arm and which extends to abut against said first movable arm when said first movable arm is moved relative to said first stationary arm, said second arm unit including at least one second spacer which is disposed on said second stationary arm and which extends to abut against said second movable arm when said second movable arm is moved relative to said second stationary arm. 5. The hinge mechanism as claimed in claim 3 , wherein each of said first and second movable arms has a sliding slot elongated to terminate at two opposite closed ends, each of said first and second stationary arms having a sliding peg which is extended into and slidable along said sliding slot so as to guide the movement of said first and second movable arms relative to said first and second stationary arms and so as to limit the distance of the movement by said closed ends. 6. The hinge mechanism as claimed in claim 3 , further comprising: abase seat on which said first and second coupling units are pivotably mounted; and a synchronously driving unit which is coupled with said first and second coupling units and which transmits the rotation of said first coupling unit to said second coupling unit to rotate said second coupling unit in an opposite rotational direction relative to that of said first coupling unit so as to make synchronous pivoting of said first and second movable arms in opposite rotational directions. 7. The hinge mechanism as claimed in claim 6 , wherein said first coupling unit includes a first pivot shaft which is pivotably connected to said base seat about a first pivot axis in the front-and-rear direction and which is engaged with said cam-side end of said first stationary arm, and a first gear which is disposed on and rotatable with said first pivot shaft, said second coupling unit including a second pivot shaft which is pivotably connected to said base seat about a second pivot axis in the front-and-rear direction and which is engaged with said cam-side end of said second stationary arm, and a second gear which is disposed on and rotatable with said second pivot shaft, said synchronously driving unit including a transmitting gear which meshes with said first and second gears. 8. The hinge mechanism as claimed in claim 7 , wherein said synchronously driving unit includes a gear frame which is disposed on said base seat and which is sleeved on said first and second pivot shafts and permits rotation of said first and second pivot shafts relative thereto, said gear frame having two lugs which are disposed between said first and second pivot shafts and which are spaced apart from each other in the up-and-down direction, and a spindle which extends in the up-and-down direction and which interconnects said lugs, said transmitting gear being journalled on said spindle to be interposed between and mesh with said first and second gears. 9. The hinge mechanism as claimed in claim 8