Spring-equipped member for guiding a disc brake pad and disc brake provided with such guiding members

The invention claimed is: 1. A guiding member for a disk brake pad in a cap, the cap including two generally U-shaped arms connected by two bars, each arm having at respective two ends thereof a stud and an axial housing, the axial housing including a base, a lower surface, and an upper surface which form a substantially rectangular cross-sectional area, the guiding member comprising: a body which has a substantially U-shaped cross section that is substantially rectangular, such that the body is configured to be positioned in the axial housing, the body including: an external radial surface configured to abut the upper surface of the axial housing; a base configured to abut the lower surface of the axial housing; an internal radial surface including a locking tongue configured to press against and engage the base of the axial housing; an external abutment surface configured to abut a front surface of the stud, the external abutment surface including: two tongues that form lateral stops extending from each side of the stud; and a shock-absorbing spring configured such that when the body is positioned in the axial housing, the shock absorbing spring is interposed between the front surface of the stud and a face of the disk brake pad above a lug of the disk brake pad, the shock-absorbing spring including a spring arm comprising a lower surface configured to abut the face of the disk brake pad above the lug of the disk brake pad, the spring arm extending substantially parallel to the front surface of the stud, the shock-absorbing spring configured to move towards the front surface of the stud such that the lower surface of the shock-absorbing spring is resiliently pressed against the face of the disk brake pad above the lug of the disk brake pad; and an internal abutment surface configured such that when the body is positioned in the axial housing, the internal abutment surface abuts an internal front surface of the arm and the internal abutment surface receives a face of the disc brake pad below the lug; wherein the guiding member is formed by a folded spring steel band that is configured to be fixed to the stud and positioned in the axial housing of the arm; wherein the guiding member is further configured such that when the body is positioned in the axial housing, the guiding member receives the lug in an axially sliding manner; and wherein the guiding member is configured such that when the body is positioned in the axial housing, the guiding member guides and presses a radial spring of the lug. 2. The guiding member as claimed in claim 1 , wherein the lower surface of the shock-absorbing spring includes a rounded axial edge configured such that when the body is positioned in the axial housing, the rounded axial edge presses against the face of the disk brake pad above the lug. 3. The guiding member as claimed in claim 1 , wherein the tongues which form the lateral stops are cut from the external abutment surface at each side of the shock-absorbing spring and are bent toward the stud. 4. The guiding member as claimed in claim 1 , wherein the locking tongue is formed by a cut such that the locking tongue is resiliently shaped from the base and the internal radial surface of the body, substantially at a center of an axial length of the folded spring steel band forming the guiding member. 5. The guiding member as claimed in claim 1 , wherein: the spring arm includes a rounded end, which includes the lower surface, wherein the rounded end has a substantially cylindrical shape; and wherein the rounded end has two guiding extensions which are curved toward a rear, and which are configured to engage the side of the disk brake pad against the rounded end of the shock-absorbing spring. 6. The guiding member as claimed in claim 1 , wherein a folding edge between the internal radial surface of the body and the internal abutment surface comprises a longitudinal cutout over a large portion of an axial length thereof, such that material at ends of the longitudinal cutout form curved attachments. 7. A brake disk comprising: a cap that has two substantially U-shaped arms connected by two bars, each arm having at each end a stud and an axial housing, the axial housing including a base, a lower surface, and an upper surface; disk brake pads having upstream lugs; and a guiding member for each of the upstream lugs of the brake pads, each guiding member including: a body which has a substantially U-shaped cross section that is substantially rectangular, such that the body is configured to be positioned in the axial housing, the body including: an external radial surface configured to abut the upper surface of the axial housing; a base configured to abut the lower surface of the axial housing; an internal radial surface including a locking tongue configured to press against and engage the base of the axial housing; an external abutment surface configured to abut a front surface of the stud, the external abutment surface including: two tongues that form lateral stops extending from each side of the stud; and a shock-absorbing spring interposed between the front surface of the stud and a face of the disk brake pad above a corresponding upstream lug of the disk brake pad, the shock-absorbing spring configured to move towards the front surface of the stud so as to resiliently press against the face of the disk brake pad; and an internal abutment surface configured to abut an internal front surface of the arm and configured to receive a face of the one of the disc brake pads below the corresponding upstream lug; wherein each guiding member is formed by a folded spring steel band that is configured to be fixed to the stud and positioned in the axial housing of the arm; wherein each guiding member is further configured to receive the corresponding upstream lug in an axially sliding manner; and wherein each of the upstream lugs includes a radial spring configured to be guided and pressed by the respective guiding member in the axial housing. 8. The guiding member as claimed in claim 7 , wherein an end of the shock-absorbing spring includes a rounded axial edge configured such that when the body is positioned in the axial housing, the rounded axial edge presses against the face of the disk brake pad above the lug. 9. The guiding member as claimed in claim 7 , wherein the tongues which form the lateral stops are cut from the external abutment surface at each side of the shock-absorbing spring and are bent toward the stud. 10. The guiding member as claimed in claim 7 , wherein the locking tongue is formed by a cut such that the locking tongue is resiliently shaped from the base and the internal radial surface of the body, substantially at a center of an axial length of the folded spring steel band forming the guiding member. 11. The guiding member as claimed in claim 7 , wherein: the shock-absorbing spring includes a rounded end with a substantially cylindrical shape; and the rounded end has two guiding extensions which are curved toward a rear, and which are configured to engage the side of the disk brake pad against the rounded end of the shock-absorbing spring. 12. The guiding member as claimed in claim 7 , wherein a folding edge between the internal radial surface of the body and the internal abutment surface comprises a longitudinal cutout over a large portion of an axial length thereof, such that material at ends of the longitudinal cutout form curved attachments.