Apparatus and method for orienting a tubular heat-shrinkable sleeve relative to a container

The invention claimed is: 1. An apparatus for orienting a tubular heat-shrinkable sleeve relative to a container that is being transported along a transport direction and around which the heat-shrinkable sleeve has been arranged, wherein the sleeve has not yet been finally shrunk, the apparatus comprising: a sleeve orientation unit, comprising: a support surface arranged at a distance from the container, the support surface being moveable in a direction parallel to the transport direction; a holding unit configured to hold the sleeve against the support surface; wherein the sleeve orientation unit is configured is rotate the sleeve relative to the container in dependence of an angular position difference between the container and the sleeve by moving the support surface while the sleeve is held against the support surface. 2. The apparatus according to claim 1 , wherein the sleeve orientation unit is configured to rotate the sleeve relative to the support surface. 3. The apparatus according to claim 1 , further comprising a conveyor having a moveable conveyor belt for transporting the container in the transport direction, wherein the sleeve orientation unit is configured to rotate the sleeve while the sleeve is moving in direction parallel to the transport direction. 4. The apparatus according to claim 1 , further comprising a determining unit for determining the angular position difference, relative to an axis perpendicular to the conveyor belt, wherein the support surface is arranged downstream of the determining unit and at least on one side of the conveyor belt; wherein the sleeve orientation unit further comprises a support surface drive unit for moving the support surface at a predefined speed, and a control unit configured to determine a speed at which the support surface moves and/or a holding time during which the sleeve is held against the support surface based on the determined angular position difference and to control the holding unit and/or support surface drive unit using the determined holding time and/or speed. 5. The apparatus according to claim 4 , wherein the control unit is configured to control the support surface drive unit to rotate the sleeve from a starting position to an end position, wherein: the sleeve is rotated from the starting position directly to the end position, or the sleeve is first rotated from its starting position to a predetermined reference position, and then rotated from the reference position to the end position, or the sleeve is first rotated in a first direction over a first angle, and then rotated over a second angle in a second direction opposite to the first direction. 6. The apparatus according to claim 4 , comprising a further determining unit configured for determining a further angular position difference between the container and the sleeve downstream of the sleeve orientation unit, the apparatus further comprising at least one of a return unit and a rejection unit arranged downstream of the sleeve orientation unit, wherein the return unit is configured to return a container and sleeve to a position upstream of the sleeve orientation unit if the further angular position difference exceeds a first predefined threshold, and wherein the rejection unit is configured to remove a container and sleeve if the further angular position difference exceeds a second predefined threshold; wherein the control unit is further configured to determine a correlation between the angular position difference and control parameters for the support surface drive unit needed for correcting the difference, wherein the control unit is configured to determine the correlation using a self-learning algorithm that compares the angular position difference, the control parameters used for correcting the difference, and the further angular position difference observed after correcting the difference. 7. The apparatus according to claim 4 , wherein the determining unit comprises a first detector for detecting the angular position of the sleeve, wherein the first detector comprises an optical camera; wherein the sleeve comprises an identifiable first reference point, an area or feature in a printed image on the sleeve, and wherein the first detector is configured to detect the angular position of the sleeve by identifying the first reference point; wherein the angular position of the sleeve is determined by comparing the identified first reference point to a corresponding first reference point in a first reference image, wherein the angular position associated with the first reference image and/or the first reference point in that first reference image is known; wherein: the container comprises an identifiable second reference point, a physical structure wherein the first detector is configured to determine the angular position difference from a distance between the first and second identifiable reference points; or wherein the angular position of the container has a known value or has been set to a known value upstream of the detection unit and sleeve orientation unit, wherein the angular position difference is determined by the detection unit or the control unit by comparing the detected angular position of the sleeve with known value; or wherein the sleeve comprises a folding line and wherein the sleeve has been arranged around the container in a manner that the orientation of the folding line relative to the container is known, and wherein an angular offset between an image printed on the sleeve relative to an intended position of the image on the sleeve is known or detected by the first detector, wherein the determining unit is configured to determine the angular position difference by comparing the angular offset and the known orientation of the folding line relative to the container; or wherein the determining unit comprises a second detector for detecting the angular position of the container, wherein the second detector comprises an optical camera, wherein the container comprises an identifiable second reference point, a physical structure and wherein the second detector is configured to detect the angular position of the container by identifying the second reference point, wherein the angular position of the container is determined by comparing the identified second reference point to a corresponding second reference point in a second reference image, wherein the angular position associated with the second reference image and/or the second reference point in that second reference image is known, wherein the determining unit is configured to determine the angular position difference by subtracting the angular positions of the sleeve and the container as determined by the first and second detectors, respectively. 8. The apparatus according to claim 1 wherein the support surface is formed by a supporting conveyor belt that is configured to support the sleeve along a predetermined length along the transport direction; wherein the supporting conveyor belt is wound around a pair of rollers/wheels that are spaced apart along the transport direction, wherein the sleeve orientation unit comprises a plurality of the supporting conveyor belts that are spaced apart. 9. The apparatus according to claim 1 , wherein the holding unit comprises: an injector for injecting a gaseous medium into the sleeve to push the sleeve against the support surface; and/or an electrostatic unit comprising a voltage source for applying an electrostatic voltage between the support surface and sleeve to attract the sleeve towards the support surface and to hold it there against using static electricity; and/or a vacuum unit being arranged for holding the sleeve against the support surface by applying a suction force through one o