Wedge cam brake

The invention claimed is: 1. A wedge cam brake, in which proximal end portions of brake arms are expanded to oscillate by a cam action of a wedge cam which moves along a direction of a rotational axis of a ball screw which screws into a ball nut for pushing to bias the wedge cam to a braking position as a result of the ball screw being driven to rotate by an electric motor, causing a pair of pad assemblies provided at open end portions of the brake arms to be pressed against both sides of a brake rotor so as to hold the brake rotor therebetween to thereby execute a braking operation, the wedge cam brake comprising: an elastic member configured to bias the wedge cam in a direction from a non-braking position to the braking position to expand the proximal end portions of the brake arms; and a spring holding mechanism holding the elastic member in a biasing force accumulating state, wherein the spring holding mechanism includes: a piston member which is allowed to move along the direction of the rotational axis of the ball screw to transmit a biasing force of the elastic member to the ball nut which is held so as not to rotate relative to the piston member, wherein the elastic member is interposed between a stationary portion on a brake main body side and the piston member; an armature, which is disposed at a rear end side of the piston member, and which is attracted to a stator of an electromagnetic clutch which is fixed to the stationary portion on the brake main body side; and a holding lever, which is attached to a distal end portion of a guide rod which is fixed to the armature at a proximal end portion thereof so as to oscillate, wherein the holder lever is brought into engagement with an engaging portion provided in a guide rail of the brake main body side at an oscillating end thereof for abutment with a distal end side of the piston member to restrict the movement thereof. 2. A wedge cam brake, in which proximal end portions of brake arms are expanded to oscillate by a cam action of a wedge cam which moves along a direction of a rotational axis of a ball screw which screws into a ball nut for pushing to bias the wedge cam to a braking position as a result of the ball screw being driven to rotate by an electric motor, causing a pair of pad assemblies provided at open end portions of the brake arms to be pressed against both sides of a brake rotor so as to hold the brake rotor therebetween to thereby execute a braking operation, the wedge cam brake comprising: an elastic member configured to bias the wedge cam in a direction from a non-braking position to the braking position to expand the proximal end portions of the brake arms; and a spring holding mechanism holding the elastic member in a biasing force accumulating state, wherein the spring holding mechanism includes: a piston having a flange and a cylindrical main body portion, which is configured to move along the direction of the rotational axis of the ball screw to transmit a biasing force of the elastic member to the ball nut accommodated therein, wherein the elastic member is interposed between a stationary portion on a brake main body side and the piston; a guide groove portion, which is provided on the stationary portion on a brake main body side, and which extends along the direction of the rotational axis of the ball screw; a cam groove having a holding groove portion which extends from one end portion of the guide groove portion in a rotational direction of the ball screw; and a follower member, which is provided integrally with the ball nut, which has a roller contact element which moves so as to follow the cam groove at a distal end portion thereof, and which is provided so as to project radially outwards of the ball nut, wherein in a state where the roller contact element is guided in the holding groove portion, the ball nut holds the wedge cam in the non-braking position against the spring biasing forces of the elastic member. 3. The wedge cam brake according to claim 2 , wherein the holding groove portion has a sloping surface which allows the roller contact element to roll towards the guide groove portion by the biasing force of the elastic member. 4. A wedge cam brake, in which proximal end portions of brake arms are expanded to oscillate by a cam action of a wedge cam which moves along a direction of a rotational axis of a ball screw which screws into a ball nut for pushing to bias the wedge cam to a braking position as a result of the ball screw being driven to rotate by an electric motor, causing a pair of pad assemblies provided at open end portions of the brake arms to be pressed against both sides of a brake rotor so as to hold the brake rotor therebetween to thereby execute a braking operation, the wedge cam brake comprising: an elastic member configured to bias the wedge cam in a direction from a non-braking position to the braking position to expand the proximal end portions of the brake arms; and a spring holding mechanism holding the elastic member in a biasing force accumulating state, wherein the spring holding mechanism includes: a piston member which is configured to move along the direction of a rotational axis of the ball screw to transmit a biasing force of the elastic member to the ball nut which is held so as not rotate relative to the ball screw, wherein the elastic member is interposed between a stationary portion on a brake main body side and the piston member; an armature, which is brought into engagement with the piston member so as not to move towards the elastic member relative thereto, and which is attracted to a stator of an electromagnetic clutch which is fixed to the stationary portion on the brake main body side; an axial force sensor, which is provided on a link rod for expanding the proximal end portion of the brake arm, for detecting an axial force exerted on the link rod; and a controller for controlling the rotation of the electric motor based on a detection signal of the axial force sensor. 5. The wedge cam brake according to claim 4 , wherein a damper member is provided between a pushing portion of the piston member which pushes to bias the ball nut and the ball nut. 6. The wedge cam brake according to claim 4 , wherein the armature is elastically biased towards the stator by a set spring whose spring force is weaker than the biasing force of the elastic member at all times. 7. A wedge cam brake, in which proximal end portions of brake arms are expanded to oscillate by a cam action of a wedge cam which moves along a direction of a rotational axis of a ball screw which screws into a ball nut for pushing to bias the wedge cam to a braking position as a result of the ball screw being driven to rotate by an electric motor, causing a pair of pad assemblies provided at open end portions of the brake arms to be pressed against both sides of a brake rotor so as to hold the brake rotor therebetween to thereby execute a braking operation, the wedge cam brake comprising: an elastic member configured to bias the wedge cam in a direction from a non-braking position to the braking position to expand the proximal end portions of the brake arms; and a spring holding mechanism holding the elastic member in a biasing force accumulating state, wherein the spring holding mechanism includes: a piston having a flange and a cylindrical main body portion, which is configured to move along the direction of a rotational axis of the ball screw, which accommodates the ball nut so as to move relative to the ball screw along the direction of the rotational axis of the ball screw within a predetermined range and so as not to rotate relative thereto and which is configured to transmit a biasing force of the elastic member to the wedge cam, wherein the elastic member is interpose