Substrate-feeding device and a sheet-processing machine

The invention claimed is: 1. A substrate supply system comprising: at least first and second primary acceleration means arranged side by side with respect to a transverse direction (A) and beneath a storage area of the substrate supply system provided for storage of a pile of sheets of a substrate; at least one stand and at least one lifting frame of the substrate supply system, the at least one lifting frame being movable relative to the at least one stand, at least with respect to a vertical direction (V), by means of a vertical drive, and wherein the at least first and second primary acceleration means are supported by the at least one lifting frame and are arranged such that they are movable with respect to the vertical direction (V) both jointly with one another and with the at least one lifting frame; at least one rotational member for each of the at least first and second primary acceleration means, each said at least one rotational member being driven via a shaft that is common to said at least first and second primary acceleration means; and wherein the common shaft comprises at least four shaft sections, arranged in a row with respect to a transverse direction (A), and wherein shaft sections of the common shaft that are immediately adjacent to one another, with respect to the transverse direction (A), are arranged connected via a coupling, which coupling is at least one of partially removable and at least partially openable. 2. A substrate supply system comprising: at least first and second primary acceleration means arranged side by side with respect to a transverse direction (A) and beneath a storage area of the substrate supply system provided for storage of a pile of sheets of a substrate; at least one stand and at least one lifting frame of the substrate supply system, the at least one lifting frame being movable relative to the at least one stand, at least with respect to a vertical direction (V), by means of a vertical drive, and wherein the at least first and second primary acceleration means are supported by the at least one lifting frame and are arranged such that they are movable with respect to the vertical direction (V) both jointly with one another and with the at least one lifting frame; at least one rotational member for each of the at least first and second primary acceleration means, each said rotational member being driven via a shaft that is common to said at least first and second primary acceleration means; wherein the common shaft comprises at least two shaft sections, arranged in a row with respect to a transverse direction (A); wherein shaft sections of the common shaft that are immediately adjacent to one another, with respect to the transverse direction (A), are arranged connected via a coupling that is one of at least partially removable and at least partially openable; wherein subassemblies are provided, each of which subassemblies has at least one deflection means nd at least one shaft section and at least one conveyor belt; wherein each of the subassemblies is one of attached to the at least one lifting frame and is arranged such that each of the subassemblies is one of movable jointly with the at least one lifting frame and is configured, at least partially, as part of the at least one lifting frame; and wherein the subassemblies are interconnected whereby their shaft sections are connected via at least partially openable couplings to form the common shaft. 3. The substrate supply system according to claim 2 , wherein the common shaft has at least three shaft sections, which are arranged in a row with respect to a transverse direction (A), and wherein shaft sections of the common shaft that are immediately adjacent to one another, with respect to the transverse direction (A), are arranged connected via one of an at least partially removable coupling and an at least partially openable coupling. 4. The substrate supply system according to claim 1 , wherein subassemblies are provided, each of which subassemblies comprises at least one deflection means and at least one shaft section and at least one conveyor belt, and wherein each of which subassemblies is one of attached to the at least one lifting frame and is arranged such that it is movable jointly with the at least one lifting frame and is configured, at least partially, as part of the at least one lifting frame, and which subassemblies can be interconnected whereby their shaft sections are connected via at least partially openable couplings to form the common shaft. 5. The substrate supply system according to claim 1 , one of wherein the shaft sections of the common shaft that are immediately adjacent to one another, with respect to the transverse direction (A), are arranged connected via at least two. 6. The substrate supply system according to claim 1 , wherein the at least one rotational member, each of which is driven via a shaft that is common to these at least first and second primary acceleration means, is configured as one of a deflection means and as a deflection means of one of a respective conveyor belt and a suction belt. 7. The substrate supply system according to claim 1 , wherein each of the at least first and second primary acceleration means has the at least one respective rotational member, each of which at least one respective rotational member one of is and can be driven by means of at least one primary acceleration drive and is one of configured as a deflection means and as a drive wheel, and wherein the common shaft one of is and can be driven by means of at least one primary acceleration drive. 8. The substrate supply system according to claim 7 , wherein the at least one primary acceleration drive is one of arranged rigidly relative to the stand and relative to a support frame that is different from the lifting frame, and is connected to the common shaft at least via at least one universal shaft. 9. The substrate supply system according to claim 1 , wherein, by means of the at least one lifting frame, a displacing movement of at least one transport surface of the at least one primary acceleration means can be brought about, a movement direction of which displacing movement at least has a vertical component, and wherein, by this displacing movement, said at least one transport surface one of can be and is moved at least between an upper end position and a lower end position, and wherein, when the respective primary acceleration means is situated in the upper end position, its at least one transport surface is located, at least partially above at least one supporting surface of at least one spacer, and wherein, when the respective primary acceleration means is situated in the lower end position, its entire at least one transport surface is located below the at least one supporting surface of the at least one spacer. 10. The substrate supply system according to claim 2 , wherein the common shaft comprises at least four shaft sections, arranged in a row with respect to a transverse direction (A). 11. The substrate supply system according to claim 1 , wherein one of for the at least partial removal and for the at least partial opening of the respective coupling, at least one component of the respective coupling can be moved in at least one direction that is oriented orthogonally to an axis of rotation of the shaft. 12. The substrate supply system according to claim 1 , wherein the respective coupling can be one of at least partially removed and at least partially opened while the respective position of the rotational member immediately adjacent to said coupling is maintained. 13. The substrate supply system according to claim 1 , wherein, by one of th