Sleeve exchange system

What is claimed is: 1. A system that exchanges sleeves on arbors of ink transfer rollers of a printing machine, said system comprising: a storage device, in which the sleeves which are not used in a current ink transfer are stored; transport devices, with which a plurality of the sleeves are individually transported to the printing machine; devices that transfer the sleeves, with which the sleeves are at least one of transferred to the arbors and transferred from the arbors, the devices that transfer of the sleeves including an arbor-shaped support element that receives thereon the sleeve to a length that is less than a full length of the sleeve, the support element having an external diameter that is variable so as to provide for secured frictional engagement with a corresponding internal diameter of the sleeve during positioning to an initial position of the sleeve on the arbor, and for subsequent disengagement therefrom once the sleeve is positioned at the initial position on the arbor, a slider that is displaceable relative to the device for transfer of the sleeves, so that the sleeves are displaced along a sleeve axis, and a robotic arm having three degrees of freedom for translation, the robotic arm being rotatable about at least two axes of rotation, and having a first joint that provides for coaxial alignment of the sleeve axis with an axis of the arbor, and a second joint that provides for circumferential alignment of the sleeve with the arbor before or during the receipt of the sleeve by the arbor; and sensors, with which a relative angular position of the sleeve to the support element, with respect to a line of alignment with an axis of the ink transfer roller, is determined and communicated, so as to provide for the coaxial alignment of the sleeve axis with the axis of the arbor. 2. The system according to claim 1 , wherein the support element projects at least in part into an interior of the sleeves. 3. The system according to claim 1 , further comprising a computing and control unit which controls driving devices fOr driving the devices for the transfer of the sleeves in such a manner that the support element can be placed in positions in which a transfer of the sleeves therefrom onto the arbor of the ink transfer rollers, into the storage device, or the inverse, can be carried out. 4. The system according to claim 3 , wherein positions of the arbors of the ink transfer rollers, in which a replacement of a sleeves is to be done, and respective target positions and current positions of the sleeves in the printing machine, in the transport devices, and in the storage device are known to the computing and control unit. 5. The system according to claim 3 , wherein based on the relative angular positions of the sleeve on the support element with respect to the line of alignment with the axis of the arbor of the ink transfer roller, as determined by the sensors, as well as the target values, the computing and control unit transmits signals to the devices for transfer of the sleeves, until the support element is so positioned that the axis of the arbor of the ink transfer roller is aligned with the axis of the sleeve, if the latter was received by the device for receiving the sleeves. 6. The system according to claim 3 , wherein the devices for the transport include a traversable carriage, which assumes a defined position relative to the printing machine for the replacement of the sleeves with the position of the traversable carriage being known to the computing and control unit. 7. A method for replacement of printing sleeves with a system according to claim 3 , wherein the computing and control unit determines an arrangement of the sleeves, which are to be replaced, in the transport devices, with one position for receiving at least one more sleeve remaining free in the transport devices. 8. The method according to claim 7 , wherein the device for the transfer removes a sleeve from an arbor of an ink transfer roller, and delivers the sleeve to the free position, and the device for the transfer takes a different sleeve from the transport devices, and delivers the different sleeve to the arbor from which the sleeve had been removed. 9. The method according to claim 8 , wherein the free position in the transport devices, to which a sleeve, removed from an arbor of the ink transfer roller, is delivered, and the position, from which a next sleeve is taken, are directly adjacent. 10. The system according to claim 1 , wherein the robotic arm is configured to at least rotate and tilt the sleeves. 11. The system according to claim 1 , wherein the printing machine includes pushing devices, with which the sleeves can be pushed along their axis. 12. The system according to claim 1 , wherein the support elements can be coupled and uncoupled with the devices for transfer of the sleeves. 13. A system that exchanges a sleeve with an arbor of an ink transfer roller of a printing machine, said system comprising: a storage device, in which the sleeve, if not used in a current ink transfer, is stored; a transport device, with which the sleeve is transported from the storage device to the printing machine; a device that exchanges the sleeve with the arbor, the device that exchanges the sleeve including an arbor-shaped support element that receives thereon the sleeve to a length that is less than a full length of the sleeve, the support element having an external diameter that is variable so as to provide for secured frictional engagement with a corresponding internal diameter of the sleeve during positioning to an initial position of the sleeve on the arbor, and for subsequent disengagement therefrom once the sleeve is positioned at the initial position on the arbor, and a robotic arm having three degrees of freedom for translation, the robotic arm being rotatable about at least two axes of rotation, and having a first joint that provides for coaxial alignment of an axis of the sleeve with an axis of the arbor, and a second joint that provides for circumferential alignment of the sleeve with the arbor before or during the receipt of the sleeve by the arbor; and a sensor, with which a relative angular position of the sleeve to the support element, with respect to a line of alignment with an axis of the ink transfer roller, is determined and communicated so as to provide for the coaxial alignment of the sleeve axis with the axis of the arbor. 14. The system according to claim 13 , wherein the coaxial alignment of the axis of the sleeve with the axis of the arbor is with respect to a substantially vertical direction. 15. A system that exchanges sleeves on arbors of ink transfer rollers of a printing machine, said system comprising: a storage device, in which the sleeves not being used in an ink transfer are stored; transport devices, with which a plurality of the sleeves are individually transported to the printing machine; devices that transfer the sleeves, with which the sleeves are at least one of transferred to the arbors and transferred from the arbors, the devices that transfer the sleeves including an arbor-shaped support element that receives thereon the sleeve to a length that is less than a full length of the sleeve, the support element having an external diameter that is variable so as to provide for secured frictional engagement with a corresponding internal diameter of the sleeve during positioning to an initial position of the sleeve on the arbor, and for subsequent disengagement therefrom once the sleeve is positioned at the initial position on the arbor, and a slider that is displaceable relative to the dev