Brake pad pressing spring and disc brake having brake pad pressing spring

What is claimed is: 1. A brake pad pressing spring which is mounted on a brake pad of a disc brake by causing a pinching portion to pinch a pad back plate, wherein an elastic arm which presses the brake pad in a disc rotor normal-rotating direction continuously is formed on a base end side of the pinching portion, wherein the elastic arm has a configuration in which, when a load exceeding a predetermined value is applied in a direction opposite to a direction in which the pad is pressed, a tip end side of the elastic arm comes into contact with a lateral surface of the pad back plate or the pinching portion, and thus a spring constant of the brake pad pressing spring increases compared to a spring constant in a state where a load exceeding the predetermined value is not applied, wherein the pinching portion is constituted by a first pinching piece and a second pinching piece which pinch the pad back plate, and a plate-shaped connection wall connecting base end portions of the first and second pinching pieces, wherein the base end portion of the first pinching piece and the base end portion of the second pinching piece are aligned in parallel, wherein the first pinching piece, the second pinching piece, and the connection wall are formed by bending a single plate material, and wherein the width of the base end portion of the elastic arm is set to a value adequate to straddle the first pinching piece and the second pinching piece. 2. The brake pad pressing spring according to claim 1 , wherein at least one of the first pinching piece and the second pinching piece includes a biasing force generation portion which is engaged to the pad back plate and generates a biasing force and which presses, using the biasing force, the connection wall to a lateral surface of the pad back plate, which is the lateral surface on a rear side in the disc rotor normal-rotating direction. 3. The brake pad pressing spring for a disc brake according to claim 2 , wherein the brake pad pressing spring is also used as an abrasion indicator, in such a manner that, in a state where the brake pad pressing spring is mounted on the pad back plate, a tip end of the elastic arm protrudes above a friction material adhered surface of the pad back plate, to a disc rotor side by a predetermined amount, and thus the tip end of the elastic arm comes into contact with the disc rotor, in an abrasion limit point of a friction material of the brake pad. 4. The brake pad pressing spring according to claim 2 , wherein the biasing force generation portion has a configuration in which an inclined surface or a corner portion is formed on the pinching piece including the biasing force generation portion and a pressing force of the connection wall with respect to the lateral surface of the pad back plate is generated by pressing the inclined surface or the corner portion to the pad back plate, using an elastic pinching force of the pinching piece. 5. The brake pad pressing spring for a disc brake according to claim 4 , wherein the brake pad pressing spring is also used as an abrasion indicator, in such a manner that, in a state where the brake pad pressing spring is mounted on the pad back plate, a tip end of the elastic arm protrudes above a friction material adhered surface of the pad back plate, to a disc rotor side by a predetermined amount, and thus the tip end of the elastic arm comes into contact with the disc rotor, in an abrasion limit point of a friction material of the brake pad. 6. The brake pad pressing spring for a disc brake according to claim 1 , wherein the brake pad pressing spring is also used as an abrasion indicator, in such a manner that, in a state where the brake pad pressing spring is mounted on the pad back plate, a tip end of the elastic arm protrudes above a friction material adhered surface of the pad back plate, to a disc rotor side by a predetermined amount, and thus the tip end of the elastic arm comes into contact with the disc rotor, in an abrasion limit point of a friction material of the brake pad. 7. A disc brake comprising: a caliper having a brake piston installed therein; and the brake pad pressing spring according to claim 1 which is mounted on the pad back plate of the brake pad, wherein the caliper or a torque member slidably holds the brake pad in a disc axial direction, and wherein the elastic arm of the brake pad pressing spring is interposed between the pad back plate and a torque receiving surface formed on the caliper or the torque member. 8. The disc brake according to claim 7 , wherein, in the brake pad pressing spring, the pinching portion is constituted by the first pinching piece and the second pinching piece which pinch the pad back plate, and the plate-shaped connection wall connecting the base end portions of the first and second pinching pieces and at least one of the first pinching piece and the second pinching piece includes a biasing force generation portion which is engaged to the pad back plate and generates a biasing force and which presses, using the biasing force, the connection wall to a lateral surface of the pad back plate, which is the lateral surface on a rear side in a disc rotor normal-rotating direction, and wherein an inclined surface or a corner portion is formed on the pad back plate and a pressing force of the connection wall with respect to the lateral surface of the pad back plate is generated by pressing the biasing force generation portion of the brake pad pressing spring to the inclined surface or the corner portion, using an elastic pinching force of the pinching piece. 9. The brake pad pressing spring for a disc brake according to claim 1 , wherein the number of either one of the first pinching piece or the second pinching piece of the pinching portion is two and the number of the other one is one, wherein the first and second pinching pieces have a staggered arrangement, and wherein pinching is performed at three positions by the first and second pinching pieces. 10. The brake pad pressing spring for a disc brake according to claim 9 , wherein the brake pad pressing spring is also used as an abrasion indicator, in such a manner that, in a state where the brake pad pressing spring is mounted on the pad back plate, a tip end of the elastic arm protrudes above a friction material adhered surface of the pad back plate, to a disc rotor side by a predetermined amount, and thus the tip end of the elastic arm comes into contact with the disc rotor, in an abrasion limit point of a friction material of the brake pad.