Apparatus for picking a garment having a front and a back and placing the garment over a pallet such that the front and the back of the garment are on the front and the back sides respectively of the pallet. The apparatus comprises a picking arm to approach the garment and then withdraw towards the pallet; and one or more adherence locations on the picking arm, the adherence location being smaller than the first side, the adherence location for contacting the garment using sticky material and causing adherence of the garment via the sticky material at the contact location, thereby causing the picking arm to pull the front of the garment over the front of the pallet, the back of the garment sliding under the first side onto the back of the pallet.

A platen is disclosed. In an example, the platen may include a shirtboard configured to receive a garment. A backing is coupled to the shirtboard. The backing and the shirtboard are compressible to selectively compress the shirtboard against the backing during a printing operation. An example method of printing on a garment includes threading a garment onto a board so that the board is wearing the garment, supporting the board against a backing during compression, and printing on the garment. In an example, a fabric of the garment is pretreated, heat-pressed, and printed on, all without removing the garment from the board.

A platen is disclosed. In an example, the platen may include a shirtboard configured to receive a garment. A backing is coupled to the shirtboard. The backing and the shirtboard are compressible to selectively compress the shirtboard against the backing during a printing operation. An example method of printing on a garment includes threading a garment onto a board so that the board is wearing the garment, supporting the board against a backing during compression, and printing on the garment. In an example, a fabric of the garment is pretreated, heat-pressed, and printed on, all without removing the garment from the board.

A heat press device is provided that includes a support structure, a first platen and a heating element assembly that includes a heating element and a second platen. The heat press device further includes a movement assembly configured to change a pressure state between the first platen and the second platen when the heat press device is in a closed configuration. The heat press device can also include an indicator that is configured to convey the pressure state between the first platen and the second platen when the heat press device is in the closed configuration.

A heat press device is provided that includes a support structure, a first platen and a heating element assembly that includes a heating element and a second platen. The heat press device further includes a movement assembly configured to change a pressure state between the first platen and the second platen when the heat press device is in a closed configuration. The heat press device can also include an indicator that is configured to convey the pressure state between the first platen and the second platen when the heat press device is in the closed configuration.

A pad printing machine is arranged for enabling the transfer and application of multiple layers of ink from an ink source both into and onto an ink receiving member. The pad printing machine comprises a depth enhanced ink well (about 0.0015 to about 0.0035 inches deep) for peripherally enclosing an absorbable pattern of ink, a vertically and horizontally displaceable temperature controlled ink transfer print pad, and a temperature controlled printable item support print fixture for supporting an ink receiving printable item member, to enable multiple layers of ink to be simultaneously transferred after pickup by the print pad as one layer, and inversely and simultaneously applied as multiple layers into and onto the ink receiving printable item member on the support print fixture.

The present disclosure provides an apparatus for transferring an image onto a textile substrate using dye sublimation, the apparatus comprising: a flat support structure on which the textile substrate is laid with an ink transfer substrate; a heating element that rotates and applies heat while pulling the textile substrate and ink transfer substrate from the flat support structure towards the heating element; and a chevron-shaped brush with the vertex of the chevron pointing away from the heating element wherein the textile substrate and ink transfer substrate pass under the chevron-shaped brush before contacting the heat element. Also provided is a method for transferring an image onto a textile substrate using dye sublimation.

An image transfer article can include an image-imparting member and a removable substrate disposed adjacent to the image-imparting member. The image-imparting member can have a softening point temperature less than about 220° C. The image-imparting member can include at least one surface configured to receive and carry indicia to be transferred and at least one portion comprising a pigment providing an opaque background for received indicia. In some examples, the image-imparting member can comprise a first polymer including the indicia and at least a second polymer including the pigment. In some examples, the image-imparting member can comprise a polymer including the indicia and the pigment. The indicia and the opaque background can be arranged to concurrently transfer to a woven- or fabric-based article or paper in contact with the image-imparting member, upon application of iron pressing temperatures.

An image transfer article can include an image-imparting member and a removable substrate disposed adjacent to the image-imparting member. The image-imparting member can have a softening point temperature less than about 220° C. The image-imparting member can include at least one surface configured to receive and carry indicia to be transferred and at least one portion comprising a pigment providing an opaque background for received indicia. In some examples, the image-imparting member can comprise a first polymer including the indicia and at least a second polymer including the pigment. In some examples, the image-imparting member can comprise a polymer including the indicia and the pigment. The indicia and the opaque background can be arranged to concurrently transfer to a woven- or fabric-based article or paper in contact with the image-imparting member, upon application of iron pressing temperatures.

A geographically remote computing device transmits an image to a central computing device. The geographically remote computing device also communicates specifications of a substrate or substrates to be imaged to the central computing device. The central computing device selects a geographically remote fulfillment printer. A local, but geographically diverse distribution system is available according to the invention. The central computing device chooses the geographically remote fulfillment printer as a function of factors such as the selected image and substrate, printer capabilities, and the consumer's location. Image quality and consistency is maintained by the central computer selecting an appropriate geographically remote computing device and providing printer the appropriate instructions, rather than the instructions for printing being determined locally at the printer.