Detection segment as well as device and method for printing containers

The invention claimed is: 1. An apparatus comprising a detection segment for use in a device for printing on containers, said device comprising a printing module, said detection segment comprising an image-capturing device, a sensor interface, a computer, a communication interface, said detection segment configured for holding and releasing a retaining-and-centering unit that rotates a container about a vertical axis thereof when said container is retained at said retaining-and-centering unit, wherein said image-capturing device is configured to optically detect a container feature of a container, wherein said sensor interface interfaces with a sensor that uses a code provided on said retaining-and-centering unit to determine a rotational position of said container when said container is retained by said retaining-and-centering unit, wherein said computer connects to said image-capturing device and said sensor unit, wherein said computer is configured for determining an alignment variable based on said code and said detected container feature, and wherein said communication interface is configured to forward said alignment variable to a printer segment on said printer module, wherein said detection segment is a detection module that can be swapped in and out of engagement with a rotor with which a plurality of other identical detection modules are also in engagement. 2. The apparatus of claim 1 , wherein said image-capturing device is configured to capture image data concerning a circumference of said container. 3. The apparatus of claim 1 , wherein said computer comprises a graphics card, and wherein said computer is configured for parallel processing of image data using graphics card programming. 4. The apparatus of claim 1 , further comprising a wire-bound communication channel, wherein said detection segment is configured to transmit said alignment variable to said printing segment using said wire-bound communication channel. 5. An apparatus comprising a detection segment for use in a device for printing on containers, said device comprising a printing module, said detection segment comprising an image-capturing device, a sensor interface, a computer, a communication interface, said detection segment configured for holding and releasing a retaining-and-centering unit that rotates a container about a vertical axis thereof when said container is retained at said retaining-and-centering unit, wherein said image-capturing device is configured to optically detect a container feature of a container, wherein said sensor interface interfaces with a sensor that uses a code provided on said retaining-and-centering unit to determine a rotational position of said container when said container is retained by said retaining-and-centering unit, wherein said computer connects to said image-capturing device and said sensor unit, wherein said computer is configured for determining an alignment variable based on said code and said detected container feature, and wherein said communication interface is configured to forward said alignment variable to a printer segment on said printer module, wherein said computer is configured to determine a difference between an angular coordinate of a reference mark on said container and an angular coordinate of said container feature, wherein said alignment variable is derived from said difference, and wherein said communication interface is configured to forward said alignment variable to said printing module. 6. The apparatus of claim 5 , further comprising a rotor, wherein said detection segment is provided on said rotor. 7. The apparatus of claim 5 , wherein said image-capturing device is configured to capture image data concerning at most a portion of a circumference of said container, said portion being less than said circumference. 8. The apparatus of claim 5 , wherein said detection segment further comprises storage for storing data regarding a container feature that is being sought by said detection segment. 9. The apparatus of claim 5 , wherein said computer is configured to compare image data acquired by said image-capturing device with stored data regarding a container feature that is being sought by said detection segment. 10. The apparatus of claim 5 , further comprising a wireless communication channel, wherein said detection segment is configured to transmit said alignment variable to said printing segment using said wireless communication channel. 11. The apparatus of claim 5 , further comprising a first rotor having printing segments disposed thereon and a second rotor downstream from said first rotor in a container-transport direction, said first rotor comprising plural detection segments disposed on a periphery thereof, one of said detection segments being said detection segment, said first rotor being configured to transfer a retaining-and-centering unit having a container held thereon to said second rotor, which is configured to receive said retaining-and-centering unit from said first rotor. 12. The apparatus of claim 5 , further comprising a first rotor on which said detection segment is disposed and a plurality of second rotors, wherein, for each second rotor, no more than one printing segment on said rotor will print upon said container, wherein said alignment variable is received only by said printing segment, whereby, for each of said second rotors, at most one printing segment receives said alignment variable. 13. The apparatus of claim 5 , wherein said detection segment is configured to forward said retaining-and-centering unit to said printing segment and to do so with said container having been rotated to a desired angle. 14. The apparatus of claim 5 , wherein said communication interface comprises an infrared interface. 15. An apparatus comprising a detection segment for use in a device for printing on containers, said device comprising a printing module, said detection segment comprising an image-capturing device, a sensor interface, a computer, a communication interface, said detection segment configured for holding and releasing a retaining-and-centering unit that rotates a container about a vertical axis thereof when said container is retained at said retaining-and-centering unit, wherein said image-capturing device is configured to optically detect a container feature of a container, wherein said sensor interface interfaces with a sensor that uses a code provided on said retaining-and-centering unit to determine a rotational position of said container when said container is retained by said retaining-and-centering unit, wherein said computer connects to said image-capturing device and said sensor unit, wherein said computer is configured for determining an alignment variable based on said code and said detected container feature, and wherein said communication interface is configured to forward said alignment variable to a printer segment on said printer module, further comprising a plurality of rotors that together define a container transport path on which containers are moved in a transport direction from a container inlet to a counter outlet, each rotor being configured to rotate about a vertical machine-axis thereof, wherein said rotors comprise a first rotor and a second rotor, wherein said detection segment is one of a plurality of identical detection segments disposed on said first rotor, wherein said second rotor follows said first rotor in said transport direction, wherein said second rotor comprises a plurality of printing segments disposed thereon. 16. The apparatus of claim 15 , further comprising a direct drive, wherein said container is configured to be r