Disk brake

The invention claimed is: 1 . A disk brake comprising: a brake mechanism configured to apply a braking force by advancing a piston from an initial position in a cylinder portion based on driving of an electric motor to thus press a pad against a disk rotor; and an elastic member configured to bias the pad in an axial direction of the disk rotor and in a direction away from the disk rotor, wherein a biasing force of the elastic member is greater than a sliding resistance of the piston on the cylinder portion such that, at the time of a braking release, the pad and the piston retract in the direction away from the disk rotor under the biasing force of the elastic member in a state in which the piston is not yet retracted to the initial position at the time of the braking release. 2 . The disk brake according to claim 1 , wherein the piston is configured to move forward in the cylinder portion according to actuation of a rotation-linear motion conversion mechanism to which a driving force of the electric motor is transmitted, and wherein the biasing force of the elastic member is weaker than a sliding resistance for actuating the rotation-linear motion conversion mechanism. 3 . The disk brake according to claim 1 , wherein the pad is slidably supported on a mounting member configured to be mounted on a non-rotational portion of a vehicle, and wherein the biasing force of the elastic member is greater than a force acquired by adding the sliding resistance of the piston on the cylinder portion and a sliding resistance of the pad on the mounting member. 4 . The disk brake according to claim 1 , wherein the cylinder portion is slidably supported on a mounting member configured to be mounted on a non-rotatable portion of a vehicle, and wherein the biasing force of the elastic member is greater than a sliding resistance of the cylinder portion on the mounting member. 5 . The disk brake according to claim 1 , wherein the elastic member is provided between a mounting member configured to be mounted on a non-rotational portion of a vehicle and the pad. 6 . A disk brake comprising: a brake mechanism including a mounting member configured to support a sliding movement of a pad and be mounted on a non-rotational portion of a vehicle, and a caliper including a cylinder portion and supported slidably in an axial direction of a disk rotor relative to the mounting member, the brake mechanism being configured to apply a braking force by pressing the pad against the disk rotor using a piston that slidably moves in the cylinder portion; and an elastic member configured to bias the pad in the axial direction of the disk rotor and in a direction away from the disk rotor, wherein a biasing force of the elastic member is weaker than a sliding resistance of the piston on the cylinder portion and greater than a force acquired by adding a sliding resistance of the pad on the mounting member and a sliding resistance of the caliper on the mounting member. 7 . The disk brake according to claim 2 , wherein the pad is slidably supported on a mounting member configured to be mounted on a non-rotational portion of a vehicle, and wherein the biasing force of the elastic member is greater than a force acquired by adding the sliding resistance of the piston on the cylinder portion and a sliding resistance of the pad on the mounting member. 8 . The disk brake according to claim 2 , wherein the cylinder portion is slidably supported on a mounting member configured to be mounted on a non-rotatable portion of a vehicle, and wherein the biasing force of the elastic member is greater than a sliding resistance of the cylinder portion on the mounting member. 9 . The disk brake according to claim 3 , wherein the cylinder portion is slidably supported on the mounting member configured to be mounted on the non-rotatable portion of the vehicle, and wherein the biasing force of the elastic member is greater than a sliding resistance of the cylinder portion on the mounting member. 10 . The disk brake according to claim 2 , wherein the elastic member is provided between a mounting member configured to be mounted on a non-rotational portion of a vehicle and the pad. 11 . The disk brake according to claim 3 , wherein the elastic member is provided between the mounting member configured to be mounted on the non-rotational portion of the vehicle and the pad. 12 . The disk brake according to claim 4 , wherein the elastic member is provided between the mounting member configured to be mounted on the non-rotational portion of the vehicle and the pad. 13 . The disk brake according to claim 1 , wherein the elastic member comprises a pair of elastic members. 14 . The disk brake according to claim 13 , wherein the elastic members bias the brake pad in an axial direction of the disk rotor and in a direction away from the disk rotor.