Disc brake with a spring attachment

The invention claimed is: 1. A disc brake including brake pads ( 7 ), which are slidably received on either side of a brake disc within guide portions ( 6 ) of the disc brake and are supported for transmitting circumferential brake forces, and including a spring arrangement ( 10 ) for applying a spring force to the brake pads ( 7 ) comprising: at least one radial spring element ( 11 ) for radially clamping the brake pads ( 7 ) with respect to the guide portions ( 6 ) and that includes axially extending lugs ( 12 ) which stationarily fix the at least one radial spring element on at least one of the guide portions ( 6 ), the radial spring element including spring arms ( 14 ) that bear a preload against a top surface of projections of each of the brake pads ( 7 ); at least one axial spring element ( 22 ) for axially clamping the brake pads ( 7 ) in relation to each other; at least one tangential spring element ( 18 ) for tangentially clamping the brake pads ( 7 ) with respect to the guide portions ( 6 ), wherein the tangential spring element ( 18 ) is attached to the brake pads ( 7 ) and biased against guide portions ( 6 ) and forms an accommodation ( 21 ), into which the axial spring element ( 22 ) is hooked; wherein the radial spring element ( 11 ) extends between the brake pad ( 7 ) and the guide portion ( 6 ) in order to entirely prevent a direct contact between the brake pad ( 7 ) and the guide portion ( 6 ); and wherein tongues ( 16 ) are integrally formed on the radial spring element ( 11 ) and run obliquely with respect to guide and support surfaces ( 13 ) and form an insertion aid during axial mounting of the brake pads, the tongues ( 16 ) disposed on a radially opposite side of the support surface ( 13 ) from the axial extending logs ( 12 ) for holding the radial spring element in place on the corresponding one of the guide portions ( 6 ). 2. The disc brake as claimed in claim 1 , wherein the axial spring element ( 22 ) is supported on brake pads ( 7 ) on both sides of the brake disc and is displaceable along with the brake pads in relation to the guide portions ( 6 ). 3. The disc brake as claimed in claim 2 , wherein the axial spring element ( 22 ) is hooked into an accommodation ( 21 ) fixed at the brake pad ( 7 ). 4. The disc brake as claimed in claim 3 , wherein the accommodation ( 21 ) is integrated into a sheet-metal element attached to the brake pad ( 7 ). 5. The disc brake as claimed in claim 1 , wherein the tangential spring element ( 18 ) is attached to the brake pad ( 7 ) and extends with a spring portion ( 20 ) between the brake pad ( 7 ) and the guide portion ( 6 ). 6. The disc brake as claimed in claim 5 , wherein exactly one tangential spring element ( 18 ) is secured at each brake pad ( 7 ). 7. The disc brake as claimed in claim 1 , wherein the disc brake includes a stationary brake support member ( 1 ) with guide portions ( 6 ), and the radial spring element ( 11 ) is detachably caught at said brake support member. 8. A disc brake including brake pads ( 7 ), which are slidably received on either side of a brake disc within guide portions ( 6 ) of the disc brake and are supported for transmitting circumferential brake forces, and including a spring arrangement ( 10 ) for applying a spring force to the brake pads ( 7 ) comprising: at least one radial spring element ( 11 ) for radially clamping the brake pads ( 7 ) with respect to the guide portions ( 6 ) and that includes axially extending lugs ( 12 ) which stationarily fix the at least one radial spring element on at least one of the guide portions ( 6 ), the radial spring element ( 11 ) including spring arms ( 14 ) that are biased against a projection ( 8 ) of each of the brake pads ( 7 ); at least one axial spring element ( 22 ) for axially clamping the brake pads ( 7 ) in relation to each other; at least one tangential spring element ( 18 ) for tangentially clamping the brake pads ( 7 ) with respect to the guide portions ( 6 ) is attached to the brake pad ( 7 ) and extends with a spring portion ( 20 ) biased against the guide portion ( 6 ), wherein the tangential spring element ( 18 ) forms an accommodation ( 21 ), into which the axial spring element ( 22 ) is hooked and wherein exactly one tangential spring element ( 18 ) is secured at each brake pad ( 7 ); wherein the radial spring element ( 11 ) extends between the brake pad ( 7 ) and the guide portion ( 6 ) in order to entirely prevent a direct contact between the brake pad ( 7 ) and the guide portion ( 6 ), wherein tongues ( 16 ) are integrally formed on the radial spring element ( 11 ) and run obliquely with respect to the guide and support surfaces ( 13 ) and form and insertion aid during axial mounting of the brake pads; and wherein the disc brake includes a stationary brake support member ( 1 ) with guide portions ( 6 ), and the radial spring element ( 11 ) is detachably caught at said brake support member, the tongues ( 16 ) disposed on a radially opposite side of the support surface ( 13 ) from the axially extending lugs ( 12 ) for holding the radial spring element in place on the corresponding one of the guide portions ( 6 ). 9. The disc brake as claimed in claim 8 , wherein the axial spring element ( 22 ) is supported on brake pads ( 7 ) on both sides of the brake disc and is displaceable along with the brake pads in relation to the guide portions ( 6 ). 10. The disc brake as claimed in claim 9 , wherein the axial spring element ( 22 ) is hooked into an accommodation ( 21 ) fixed at the brake pad ( 7 ). 11. The disc brake as claimed in claim 10 , wherein the accommodation ( 21 ) is integrated into a sheet-metal element attached to the brake pad ( 7 ). 12. A disc brake including a brake holder ( 1 ) and brake pads ( 7 ) with lateral projections ( 8 ), with the projections ( 8 ) being held in a slidingly guided manner and supported radially and tangentially by a guide portion ( 6 ) of holder arms ( 4 ) of the brake holder ( 1 ) in order to transmit braking operation to the holder arts (4) and a spring arrangement ( 10 ) for exerting spring force on the brake pad ( 7 ) comprising: a tangential spring element ( 18 ) attached to the brake pads ( 7 ) and biased against guide portions ( 6 ); and a radial spring element ( 11 ) of the spring arrangement ( 10 ) for radially preloading the brake pads ( 7 ) in the direction of the guide portion ( 6 ); wherein the radial spring element ( 11 ) has at least a section between a projection ( 8 ) of the brake pad ( 7 ) and a guide portion ( 6 ) of the brake holder ( 1 ), and having guide and support surfaces ( 13 ) for radial and tangential support of the projections ( 8 ) to prevent direct contact between the brake pad ( 7 ) and the guide portion ( 6 ); wherein the radial spring element ( 11 ) has a spring arm ( 14 ) which bears radially against a top surface of the projection ( 8 ) of the brake pads ( 7 ); wherein tongues ( 16 ) are integrally formed on the radial spring element ( 11 ), which tongues ( 16 ) run obliquely with respect to guide and support surface ( 13 ) and form an insertion aid during the axial mounting of the brake pads, the tongues ( 16 ) disposed on a radially opposite side of the support surface ( 13 ) from the axial extending lugs 912 ) for holding the radial spring element in place on the corresponding one of the guide portions ( 6 ). 13. The disc brake as claimed in claim 12 , further comprising an axial spring element ( 22 ) supported on brake pads ( 7 ) on both sides of the brake disc and is displaceable along with the brake pads in relation to the guide portions ( 6 ). 14. The disc brake as claimed in claim 13 , wherein the axial spri