Polishing disc for a tool for fine processing of optically effective surfaces on spectacle lenses

The invention claimed is: 1. A polishing disc for a tool for fine processing of optically effective curved surfaces on spectacle lenses, comprising a base body which has a center axis and a substantially symmetrical semi-spherical end surface about said center axis and to which is secured an intermediate layer of a resilient material, on which a polishing medium carrier rests, the intermediate layer being softer by comparison with the base body, characterized in that the intermediate layer has at least two regions of different hardness, which are arranged in succession in the direction of the center axis and which are formed by mutually different foam material layers, wherein the foam material layer adjoining the base body is softer than the foam material layer on which the polishing medium carrier rests, each layer having a substantially symmetrical semi-spherical surface about said center axis, and wherein, as determined for the case of whole-area compression, the static modulus of elasticity of the harder foam material layer is between 0.40 and 1.50 N/mm 2 , whereas the static modulus of elasticity of the softer foam material layer is between 0.25 and 0.45 N/mm 2 . 2. A polishing disc according to claim 1 , characterized in that the mutually different foam material layers are glued together. 3. A polishing disc according to claim 2 , characterized in that both the harder foam material layer and the softer foam material layer have substantially constant thicknesses, wherein the ratio of the substantially constant thickness of the harder foam material layer to the substantially constant thickness of the softer foam material layer is between 1 to 2 and 1 to 4, the thicknesses being measured along or parallel to the center axis. 4. A polishing disc according to claim 1 , characterized in that the softer foam material layer is made from an at least partly open-pore polyetherurethane elastomer, whereas the harder foam material layer is made from of a closed-cell polyetherurethane elastomer. 5. A polishing disc according to claim 1 , characterized in that the intermediate layer is secured, namely firmly glued to the end surface of the base body, wherein the end surface has a radius of curvature of between 35 and 42 mm. 6. A polishing disc according to claim 5 , characterized in that the base body has a diameter between 35 and 60 mm in the region of its end surface, wherein the intermediate layer has a substantially constant thickness which is between 15 and 22 mm as measured along or parallel to the center axis. 7. A polishing disc according to claim 6 , characterized in that the polishing medium carrier protrudes in radial direction with respect to the center axis at all sides beyond the intermediate layer. 8. A polishing disc according to claim 3 , characterized in that the ratio of the substantially constant thickness of the harder foam material layer to the substantially constant thickness of the softer foam material layer is approximately 1 to 3, the thicknesses being measured along or parallel to the center axis. 9. A polishing disc according to claim 1 , characterized in that as determined for the case of whole-area compression the static modulus of elasticity of the harder foam material layer is between 0.80 and 1.00 N/mm 2 , whereas the static modulus of elasticity of the softer foam material layer is between 0.35 and 0.45 N/mm 2 . 10. A polishing disc according to claim 5 , characterized in that the end surface has a radius of curvature of between 36 and 40 mm. 11. A tool for fine processing of optically effective curved surfaces at spectacle lenses, comprising a tool mounting head securable to a spindle shaft of a tool spindle to be capable of axial and rotational entrainment, characterized in that a polishing disc for a tool for fine processing of optically effective curved surfaces on spectacle lenses is exchangeably mounted on the tool mounting head, said polishing disc comprising a base body which has a center axis and a substantially symmetrical semi-spherical end surface about said center axis and to which is secured an intermediate layer of a resilient material, on which a polishing medium carrier rests, the intermediate layer being softer by comparison with the base body, wherein the intermediate layer has at least two regions of different hardness, which are arranged in succession in the direction of the center axis and which are formed by mutually different foam material layers, wherein the foam material layer adjoining the base body is softer than foam material layer on which the polishing medium carrier rests, each layer having a substantially symmetrical semi-spherical end surfact about said center axis, wherein, as determined for the case of whole-area compression, the static modulus of elasticity of the harder foam material layer is between 0.40 and 1.50 N/mm 2 , whereas the static modulus of elasticity of the softer foam material layer is between 0.25 and 0.45 N/mm 2 , and wherein for mounting purposes the base body of the polishing disc and the tool mounting head are provided with complementary structures for axial detenting and rotational entrainment of the polishing disc with and by the tool mounting head. 12. A tool according to claim 11 , characterized in that the tool mounting head has a ball joint with a ball head which is received in a ball socket and which is formed at a ball pin securable to the spindle shaft of the tool spindle, the ball socket being formed in a mounting plate with which the polishing disc is detentable. 13. A tool according to claim 12 , characterized in that the ball head has a receiving bore for a transverse pin which extends through the ball head and engages on either side of the ball head in associated recesses in the ball socket so as to connect the mounting plate with the ball pin to be capable of rotational entrainment. 14. A tool according to claim 13 , characterized in that the mounting plate is resiliently supported on a support flange at the ball-pin side by way of a resilient annular element so that the polishing disc detented with the mounting plate seeks to self-align by its center axis with the ball pin and thus the spindle shaft of the tool spindle. 15. A tool according to claim 14 , characterized in that the base body of the polishing disc and the tool mounting head are each provided with a respective radially protruding collar, wherein the collars in the state in which the polishing disc is mounted on the tool mounting head are opposite one another and mechanically positively engaged over by a securing ring with a substantially U-shaped cross-section. 16. A tool according to claim 15 , characterized in that the securing ring is formed by two half rings which are pivotably connected together on one side by use of a hinge and are releasably detentable together on the other side by way of a snap connection. 17. A tool according to claim 12 , characterized in that the mounting plate is resiliently supported on a support flange at the ball-pin side by way of a resilient annular element so that the polishing disc detented with the mounting plate seeks to self-align by its center axis with the ball pin and thus the spindle shaft of the tool spindle. 18. A tool according to claim 11 , characterized in that the base body of the polishing disc and the tool mounting head are each provided with a respective radially protruding collar, wherein the collars in the state in which the polishing disc is mounted on the tool mounting head are opposite one another and mechanically positively engaged over by a securing ring with a substan