A process and apparatus for sublimating images onto two or more products substantially simultaneously are disclosed. Software components are configured to receive input of a desired number of products to sublimate, and then determine a spatial arrangement of the printed images to sublimate the desired number of products substantially simultaneously. The apparatus is configured to print the images according to the spatial arrangement. The apparatus is configured, using a control, to sublimate multiple products substantially simultaneously in a single thermal cycle.

A threadable heat transfer press includes an upper platen, a lower platen below the upper platen, a support head connected to one of the upper platen and the lower platen for moving the platens between an open position, when the platens are spaced away from one another, and a closed position, when the platens are pressed against each other. A vertical line extends from a geometric center of the lower platen and engaging the upper platen when the platens are in the closed position. The press further includes a support plate secured to the lower platen, a plurality of legs positioned below the lower platen, and a vertically extending support structure positioned between at least one of the plurality of legs and the support plate. The vertically extending support structure defines a throat spacing beneath the lower platen, which is spaced away from the geometric center of the lower platen.

A threadable heat transfer press includes an upper platen, a lower platen below the upper platen, a support head connected to one of the upper platen and the lower platen for moving the platens between an open position, when the platens are spaced away from one another, and a closed position, when the platens are pressed against each other. A vertical line extends from a geometric center of the lower platen and engaging the upper platen when the platens are in the closed position. The press further includes a support plate secured to the lower platen, a plurality of legs positioned below the lower platen, and a vertically extending support structure positioned between at least one of the plurality of legs and the support plate. The vertically extending support structure defines a throat spacing beneath the lower platen, which is spaced away from the geometric center of the lower platen.

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.

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.

The present invention belongs to the field of thermal transfer printing technology, and relates to a side holding structure, comprising: side openings arranged on the opposite sides of the housing, wherein a plurality of snap joints are arranged on the edge of the side openings; holding covers assembled in the side openings, a plurality of hooks detachably connected to the plurality of snap joints are arranged on the inner side of the ring mouth portion, at least one positioning groove is arranged on the top outside of the cover wall; and at least one inserting portion arranged on the top cover of the housing and fitted to the positioning groove. The present invention also provides a thermal transfer printing device using the side holding structure described above.

A fabric printing apparatus includes a body and a cloth holder that holds a cloth and is movable in a moving direction. A receiver is disposed inside the body. The receiver removably holds the cloth holder. A printing device prints an image on the cloth placed on the cloth holder held by the receiver. A guide rail is mounted on both lateral ends of one of the cloth holder and the receiver in a direction perpendicular to the moving direction of the cloth holder. The guide rail engages and holds both lateral ends of another one of the cloth holder and the receiver in the direction perpendicular to the moving direction of the cloth holder.

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.

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 heat press includes a lower platen and an upper swing arm attached to a base, and an upper platen having a heater therein. The upper platen is coupled to the upper swing arm via a piston rod, and operable via a linkage. The linkage includes a coupler linked between the upper swing arm and a print handle and includes an input link that rotationally couples the print handle to the piston rod such that a motion of the print handle moves the piston rod up or down. The heat press includes a control housing that is electrically coupled to the heater. The upper swing arm is operable to swing the upper platen away from the lower platen when not in contact with the lower platen. The control housing remains in a stationary position regardless of a position of the upper swing arm.