Sheet transport device comprising an endless transport belt

The invention claimed is: 1 . A method of printing, comprising the steps of: transporting a print medium along a print station for printing on the print medium by means of an endless, air permeable transport belt positioned over a suction device for applying an underpressure to the print medium on the transport belt, wherein the transport belt comprises endless, substantially non-permeable strips positioned between air permeable areas provided with openings and the suction device comprises a plurality of spaced apart support beams extending substantially in a main transport direction defined by the print station for supporting the transport belt; and controlling the position and/or orientation of the transport belt for aligning the print medium with respect to the print station, wherein each adjustment to the transport belt's position and/or orientation is restricted, such that the strips are maintained entirely overlapping the support beams. 2 . The method according to claim 1 , further comprising the steps of: measuring the position and/or orientation of the transport belt, wherein the measured position and/or orientation of the transport belt determines the position of each strip with respect to the respective support beam over which it extends; comparing to the measured position and/or orientation to a first reference; and if the measured position and/or orientation deviates from the first reference, determining an adjustment of the transport belt to align the position and/or orientation of the transport belt to the reference without any of the strips uncovering a portion of their respective support beams. 3 . The method according to claim 2 , wherein the step of determining an adjustment comprises: determining at least one parameter corresponding to a distance between a periphery of at least one a support beam and a periphery of the corresponding strip, and determining each adjustment of the transport belt, such that said at least one parameter is prevented from crossing a predetermined threshold, which threshold corresponds to the peripheries of the support beam and the corresponding strip overlapping. 4 . The method according to claim 1 , wherein a width of each strip is greater than that of the respective support beam and the step of controlling comprises rotating and/or shifting each strip with respect to its respective support beam, such that lateral edges of each support beam are always kept in between lateral edges of the respective strip without contact. 5 . The method according to claim 1 , further comprising a step of determining the positions and orientations of the support beams and storing a second reference based on the determined positions and orientations of the support beams. 6 . The method according to claim 5 , further comprising a step of determining positions and/or orientations of the strips with respect to markers on the transport belt and storing information corresponding to said determined positions and/or orientations on a memory of a controller. 7 . The method according to claim 6 , further comprising the steps of: sensing the markers for generating data; comparing said data to a first reference to determine whether an adjustment of the position and/or orientation of the belt is required; and applying the positional information to said data to control that any adjustment is executed, such that top surfaces of the support beams remain free from the permeable areas. 8 . The method according to claim 1 , wherein a ratio of a combined surface area of the openings with respect to a surface area of the belt is less than 50%. 9 . The method according to claim 8 , wherein a ratio of a width of at least strip in a lateral direction of the belt with respect to a width of at least one area is less than 40%. 10 . A printer comprising: an endless transport belt supported on a plurality of support beams to define a medium support plane opposite an inkjet printhead assembly of a print station, wherein the transport belt comprises a plurality of spaced apart, endless, substantially non-permeable strips in between areas with openings, through which openings an underpressure is applicable to a print medium on the transport belt by means of a suction device; a sensor assembly for detecting a position and/or orientation of the transport belt; and a controller configured to control the transport belt to a given range so that the substantially non-permeable strips do not deviate from the support beams as a result. 11 . The printer according to claim 10 , wherein the controller receives and/or stores position information of the support beams and the printhead assembly and which the controller is configured for comparing the detected position and/or orientation of the transport belt to said information and for adjusting the position and/or orientation of the transport belt based thereon, such that each strip is maintained to entirely cover the respective support beam over which it extends. 12 . The printer according to claim 10 , wherein a ratio of the combined surface area of the openings with respect to the belt's surface area is less than 50%. 13 . The printer according to claim 12 , wherein a ratio of a width of at least strip in a lateral direction of the belt with respect to a width of at least one area is less than 40%. 14 . The printer according to claim 10 , wherein the printer is configured to perform a method comprising the steps of: transporting a print medium along the print station for printing on the print medium by means of the endless, air permeable transport belt positioned over the suction device for applying the underpressure to the print medium on the transport belt, wherein the transport belt comprises the endless, substantially non-permeable strips positioned between air permeable areas provided with openings and the suction device comprises a plurality of spaced apart support beams extending substantially in a main transport direction defined by the print station for supporting the transport belt; and controlling the position and/or orientation of the transport belt for aligning the print medium with respect to the print station, wherein each adjustment to the transport belt's position and/or orientation is restricted, such that the strips are maintained entirely overlapping the support beams. 15 . The printer according to claim 10 , wherein the controller is configured for controlling the position and/or orientation of the transport belt for aligning the print medium with respect to the print station, wherein each adjustment to the transport belt's position and/or orientation is restricted, such that the strips are maintained entirely overlapping the support beams. 16 . A computer-readable storage medium storing a computer program comprising instructions, which when executed by a computer, causes a printer to execute steps of a method, wherein the printer includes: an endless transport belt supported on a plurality of support beams to define a medium support plane opposite an inkjet printhead assembly of a print station, wherein the transport belt comprises a plurality of spaced apart, endless, substantially non-permeable strips in between areas with openings, through which openings an underpressure is applicable to a print medium on the transport belt by means of a suction device; a sensor assembly for detecting a position and/or orientation of the transport belt; and a controller configured to control the transport belt to a given range so that the substantially non-permeable strips do not deviate from the support beams