A method of printing and processing a fabric having first material yarns forming a technical front, and second material yarns forming a technical back, first and second material yarns being held together by a ground; carding and polishing the technical front to increase the permeability of the fabric; printing an image on the technical front of the fabric, so that ink from the printing process penetrates to the ground of the fabric; brushing and napping the technical back, after the printing process, so that ink from the technical front is pulled through the ground to the technical back, so that a mirror image of the image from the technical front is formed on the technical back.

A method of printing and processing a fabric having first material yarns forming a technical front, and second material yarns forming a technical back, first and second material yarns being held together by a ground; carding and polishing the technical front to increase the permeability of the fabric; printing an image on the technical front of the fabric, so that ink from the printing process penetrates to the ground of the fabric; brushing and napping the technical back, after the printing process, so that ink from the technical front is pulled through the ground to the technical back, so that a mirror image of the image from the technical front is formed on the technical back.

An apparel printing system for printing on regions of tubular fabrics with repeating patterns includes a textile printer having a print head and a tubular platen that includes features on the platen surface to retain and register the tubular fabric on the platen surface during printing.

A roll-to-roll printing process for large scale manufacturing of nanosensor systems for sensing pathophysiological signals is disclosed. The roll-to-roll manufacturing process may include three processes to improve the throughput and to reduce the cost in manufacturing: fabrication of textile based nanosensors, printing conductive tracks, and integration of electronics. The wireless nanosensor systems can be used in different monitoring applications. The fabric sheet printed and integrated with the customized components can be used in a variety of different applications. The electronics in the nanosensor systems connect to remote severs through adhoc networks or cloud networks with standard communication protocols or non-standard customized protocols for remote health monitoring.

A roll-to-roll printing process for large scale manufacturing of nanosensor systems for sensing pathophysiological signals is disclosed. The roll-to-roll manufacturing process may include three processes to improve the throughput and to reduce the cost in manufacturing: fabrication of textile based nanosensors, printing conductive tracks, and integration of electronics. The wireless nanosensor systems can be used in different monitoring applications. The fabric sheet printed and integrated with the customized components can be used in a variety of different applications. The electronics in the nanosensor systems connect to remote severs through adhoc networks or cloud networks with standard communication protocols or non-standard customized protocols for remote health monitoring.

The present invention provides a substrate having a unidirectional water transport property, the substrate comprised of a fluid permeable structure and including: an inner side surface; and an outer side surface having a higher absorbent capacity than the inner side surface, wherein the inner side surface has a hydrophobic surface layer extending continuously over at least one section thereof, the hydrophobic surface layer having a predetermined thickness which, in use, produces a substantial hydrophobic property to contacting water, whilst allowing for water contacting the inner side surface of the substrate to wick through the hydrophobic surface layer into the substrate; and wherein the substrate is respectively comprised of hydrophobic channels and hydrophilic channels which respectively extend between the inner side surface and the outer side surface.

A printer includes a printing mechanism configured to print on a printing object held by a holder, a reciprocating mechanism configured to move the holder in a first direction and a second direction opposite to the first direction, and controller circuitry configured to control the printing mechanism and the reciprocating mechanism. When the controller circuitry executes a superimposed printing on the printing object, the controller circuitry causes the printing mechanism to execute a pre-printing process and a post-printing process that prints on the image printed by the pre-printing process while the holder is moved in the first direction from a waiting position, and the controller circuitry causes the reciprocating mechanism to stop a movement of the holder for a predetermined time period after the pre-printing process is terminated and the holder has returned to the waiting position.

A printer includes a printing mechanism configured to print on a printing object held by a holder, a reciprocating mechanism configured to move the holder in a first direction and a second direction opposite to the first direction, and controller circuitry configured to control the printing mechanism and the reciprocating mechanism. When the controller circuitry executes a superimposed printing on the printing object, the controller circuitry causes the printing mechanism to execute a pre-printing process and a post-printing process that prints on the image printed by the pre-printing process while the holder is moved in the first direction from a waiting position, and the controller circuitry causes the reciprocating mechanism to stop a movement of the holder for a predetermined time period after the pre-printing process is terminated and the holder has returned to the waiting position.

A hold-down pallet for a textile printer, the pallet comprising a central board and flaps, the flaps moving between an open position to allow placing of a garment and a closed position to hold a garment firmly on the board for printing, the pallet travelling between a garment setting position and a printing area and comprising an engagement mechanism which engages the pallet as it enters the garment setting position. Engagement opens the flaps so that the flaps are in the open position in the garment setting area, the pallet disengaging to close the flaps as it heads for the printing area.

A curl straightening method applied upon printing on a spread medium in a printing step, the method being provided with a first spreading step of spreading the medium fed out from a medium roll between a feeding step of feeding the medium from the medium roll in which the medium made of a textile fabric and having a predetermined width is wound on a roll core, and the printing step of printing on the medium fed out from the medium roll, and in the first spreading step, spreading of the medium is performed in a state where the medium fed out from the medium roll is stretched on an outer circumference of a first spreader roller rotating about a pivotal axis parallel to a pivotal axis of the medium roll, and the medium has its surface side with a curl stretched on the outer circumference of the first spreader roller.