Disk brake pad and disk brake apparatus

What is claimed is: 1. A disk brake pad supported on a pad support member movably in an axial direction of a rotor for a disk brake, comprising: a lining; and a back plate supporting a back surface of the lining, wherein shapes of opposite sides of the back plate in a circumferential direction of the rotor are asymmetric with respect to the circumferential direction, a first side part of the back plate in the circumferential direction includes a guided portion configured to engage movably in the axial direction with a guiding portion formed in the pad support member, the guided portion is disposed at a position more inward in a radial direction of the rotor than a line of action of a brake tangential force applied in braking, the guided portion is configured to engage with the guiding portion so as to support a brake tangential force applied toward a second side part of the back plate which is opposite to the first side part in the circumferential direction in braking, and the back plate is configured to support a brake tangential force applied toward the first side part in braking at a portion of the first side part of the back plate that exists more outward in the radial direction than the line of action of the brake tangential force applied toward the first side part, so that the back plate is configured to receive a moment pressing down the second side part inward in the radial direction in both of forward-run braking and backward-run braking operations, and the guided portion is a pin insertion portion for inserting a pin used as the guiding portion supported and fixed in the axial direction to the pad support member. 2. The disk brake pad according to claim 1 , wherein the back plate includes a torque transmission surface configured to contact with a part of the pad support member to support the brake tangential force toward the first side part in braking, and the torque transmission surface is disposed at the first side part, and exists more outward in the radial direction than the line of action of the brake tangential force applied toward the first side part. 3. The disk brake pad according to claim 1 , wherein the second side part of the back plate includes a second guided portion supportable movably in the axial direction on a second guiding portion formed in the pad support member to support the moment applied in braking. 4. The disk brake pad according to claim 3 , wherein the second guided portion is a raised ear portion projected in a direction from the first side part toward the second side part from a side edge of the back plate on the second side part. 5. The disk brake pad according to claim 3 , wherein the second guided portion is a second pin insertion portion for insertion of a second pin serving as the second guiding portion supported and fixed in the axial direction to the pad support member. 6. A disk brake apparatus, comprising: a pad support member; a pad, supported on the pad support member so as to move in an axial direction of a rotor for the disk brake apparatus, and including a lining and a back plate supporting a back surface of the lining; and a piston for pressing the pad against a surface of the rotor, wherein a first side part of the pad support member in a circumferential direction of the rotor includes a guiding portion, shapes of opposite sides of the back plate in the circumferential direction are asymmetric with respect to the circumferential direction, the first side part of the back plate includes a guided portion, configured to be engaged movably in the axial direction with the guiding portion, the guided portion is disposed at a position more inward in a radial direction of the rotor than a line of action of a brake tangential force applied in braking, the guided portion is configured to engage with the guiding portion so as to support a brake tangential force applied toward a second side part of the back plate which is opposite to the first side part in the circumferential direction in braking, and the back plate is configured to support a brake tangential force applied toward the first side part in braking at a portion of the part of the back plate that exists more outward in the radial direction than the line of action of the brake tangential force applied toward the first side part, so that the back plate is configured to receive a moment pressing down the second side part inward in the radial direction in both of forward-run and backward-run braking operations, the guiding portion is a pin supported and fixed in the axial direction to the pad support member, and the guided portion is a pin insertion portion for inserting the pin therein. 7. The disk brake apparatus according to claim 6 , wherein a part of an edge of the back plate in the second side part is configured to contact with the pad support member so as to support a part of the brake tangential force applied toward the second side part in braking. 8. The disk brake apparatus according to claim 6 , wherein the back plate includes a torque transmission surface which is disposed at the first side part and exists more outward in the radial direction than the line of action of a brake tangential force applied toward the first side part in braking, the pad support member includes a torque receiving surface so that the torque receiving surface is opposed to the torque transmission surface in the circumferential direction, and the torque receiving surface is configured to contact with the torque transmission surface so as to support the brake tangential force applied toward the first side in braking. 9. The disk brake apparatus according to claim 8 , wherein a sandwiched plate made of a metal plate is interposed between the torque transmission surface and the torque receiving surface. 10. The disk brake apparatus according to claim 9 , wherein the sandwiched plate elastically presses the pad in a direction from the first side part toward the second side part. 11. The disk brake apparatus according to claim 9 , wherein a pad spring elastically pressing the first side part inward in the radial direction is supported by the pad support member, and the sandwiched plate is integrally provided in a part of the pad spring. 12. The disk brake apparatus according to claim 11 , wherein the pad spring presses the pad in a direction to depart from the rotor with respect to the axial direction. 13. The disk brake apparatus according to claim 6 , wherein a pad spring elastically pressing the first side part outward in the radial direction is supported by the pin. 14. The disk brake apparatus according to claim 6 , wherein an outer surface of the pin is configured to contact with an inner surface of the pin insertion portion in a line contact, in braking.