Disk brake

The invention claimed is: 1. A disk brake comprising: a mounting member secured to a vehicle, extending over a disk, the mounting member having torque receiving surfaces receiving torque during a braking operation, the mounting member having a caliper provided thereon slidably in an axial direction of the disk, the caliper being configured to press friction pads against the disk, the friction pads being provided to face both sides, respectively, of the disk; the friction pads each having a backing plate supported by the mounting member at both sides thereof in a circumferential direction of the disk, the backing plate having torque transmission portions on side portions thereof that abut against the torque receiving surfaces, respectively, of the mounting member, the friction pads each further having a friction material fixed to one surface side of the backing plate, the friction material being abuttable against the disk to generate frictional force, and an urging device urging the friction pad toward an exit side of a rotational direction of the disk; the urging device having: a mounting portion secured to the backing plate; a first extending portion connected at a proximal end thereof to the mounting portion and extended away from the disk; a bent portion connected to a distal end of the first extending portion, extending so as to incline toward a center side of the friction pad and then formed arcuately away from the disk and bent so that a distal end of the bent portion faces toward the disk; a second extending portion extending from the distal end of the bent portion toward the disk and resiliently abutting against the mounting member in an elastically deformed state; and a boundary region formed between the first extending portion and the bent portion, and formed so as to bend away from the disk toward the center side of the friction pad, wherein a distal end of the second extending portion abuts against the disk when the friction material has worn by a predetermined amount; and wherein at least one side in a width direction of the bent portion has an edge portion that is additionally bent along a longitudinal direction to form a reinforcing portion to further enhance a stiffness in a direction in which the bent portion is formed arcuately away from the disk; the bent portion being set higher in stiffness than the boundary region. 2. The disk brake of claim 1 , wherein the boundary region is set lower in stiffness than the first extending portion, and the bent portion is set higher in stiffness than the first extending portion. 3. The disk brake of claim 1 , wherein the urging device comprises a metal plate; the boundary region being a narrow-width portion narrower in width than the first extending portion. 4. The disk brake of claim 1 , wherein the urging device comprises a metal plate; the bent portion being a wide-width portion wider in width than the first extending portion. 5. The disk brake of claim 4 , wherein the urging device comprises a metal plate.