Thermoformable overcoat in roll-to-roll format printers for thermoforming applications

What is claimed is: 1. A printing system that deposits at least one stretchable ink directly onto a semi-rigid thermoformable substrate to be subject to a subsequent thermoforming process so as to form a printed thermoformed object having a semi-rigid shape, the semi-rigid thermoformable substrate comprising a first surface and a second surface opposite the first surface, the system comprising: an unwinder; a printing module; and, a rewinder, wherein, the unwinder is adapted to unwind and feed a first roll of the semi-rigid thermoformable substrate into the printing module, wherein the printing module is adapted to receive the unwound semi-rigid thermoformable substrate therein and deposit the at least one stretchable ink directly onto the semi-rigid thermoformable substrate, the printing module comprising: at least one printhead adapted to receive the unwound semi-rigid thermoformable substrate and deposit a first portion of the at least one stretchable ink directly on the first surface of the semi-rigid thermoformable substrate; a flood coater adapted to receive the unwound semi-rigid thermoformable substrate including the first portion of the at least one stretchable ink deposited directly thereon and deposit a coating layer directly on a portion of the first surface of the semi-rigid thermoformable substrate atop the first portion of the at least one stretchable ink deposited on the first surface, and wherein, the rewinder is adapted to receive the semi-rigid thermoformable substrate including the deposited first portion of the at least one stretchable ink and the coating layer and rewind the semi-rigid thermoformable substrate into a second roll. 2. The system of claim 1 , wherein the semi-rigid thermoformable substrate is a thermoformable grade plastic. 3. The system of claim 1 , wherein the semi-rigid thermoformable substrate is a thermoformable grade plastic, the first surface comprises an image formed from the at least one stretchable ink, and the coating layer comprises a stretchable ink. 4. The system of claim 3 , wherein the thermoformable grade plastic is a thermoformable grade polyethylene terephthalate (PET) having a thickness of about 0.014 inches and the image and the coating layer are applied to the portion of the first surface on the basis that the semi-rigid thermoformable substrate including the image and the coating layer will be subject to a subsequent thermoforming process to form a printed thermoformed object having a semi-rigid shape. 5. The system of claim 4 wherein the coating layer deposited atop the portion of the at least one stretchable ink partially covers the image or the coating layer fully covers the image. 6. The system of claim 1 wherein the semi-rigid thermoformable substrate is a thermoformable grade plastic and the printing module further comprises: at least one first radiation curing device; at least one second radiation curing device; and, the flood coater is positioned between the at least one first radiation curing device and the at least one second radiation curing device. 7. The system of claim 1 wherein the semi-rigid thermoformable substrate is a thermoformable grade plastic and the printing module further comprises: at least one first full width printhead array arranged to deposit the first portion of a stretchable ink on the first surface of the semi-rigid thermoformable substrate to form an image; at least one first radiation curing device; at least one second radiation curing device; the at least one first radiation curing device is positioned between the at least one first full width printhead array and the flood coater; and, the flood coater is positioned between the at least one first radiation curing device and the at least one second radiation curing device. 8. The system of claim 7 wherein the coating layer partially covers the image or the coating layer fully covers the image. 9. The system of claim 1 wherein the semi-rigid thermoformable substrate is a thermoformable grade plastic and the printing module further comprises: at least one first full width printhead array arranged to deposit the first portion of the at least one stretchable ink on the first surface of the semi-rigid thermoformable substrate to form a base layer; at least one second full width printhead array arranged to deposit a second portion of the at least one stretchable ink on the base layer to form an image; at least one radiation pinning device positioned between the at least one first full width printhead array and the at least one second full width printhead array, proximate the first surface, and arranged to partially cure the first portion of the at least one stretchable ink on the semi-rigid thermoformable substrate prior to the second portion of the at least one stretchable ink being deposited on the base layer; at least one first radiation curing device positioned between the at least one second full width printhead array and the flood coater, proximate the first surface, and arranged to partially cure the first portion and/or the second portion of the at least one stretchable ink on the semi-rigid thermoformable substrate prior to the coating layer being deposited on the image layer and/or base layer; at least one second radiation curing device positioned proximate the first surface and arranged to at least partially cure the first portion of the at least one stretchable ink, the second portion of the at least one stretchable ink and/or the coating layer; and, the flood coater is positioned between the at least one first radiation curing device and the at least one second radiation curing device. 10. The system of claim 9 wherein the coating layer partially covers the base layer and the image, or the coating layer fully covers the base layer and the image. 11. The system of claim 9 , wherein the semi-rigid thermoformable substrate has a thickness of about 0.014 inches. 12. The system of claim 9 , wherein the image and the coating layer are applied on the basis that the image and the coating layer will be affected by the subsequent thermoforming process. 13. The system of claim 1 wherein each of the at least one stretchable ink is an ultraviolet radiation curable ink. 14. The system of claim 1 wherein the semi-rigid thermoformable substrate is a thermoformable grade plastic selected from the group consisting of: polyethylene terephthalate glycol-modified; polycarbonate; acrylic; polyvinyl chloride; acrylonitrile butadiene styrene; and, combinations thereof. 15. The system of claim 1 , wherein the semi-rigid thermoformable substrate has a thickness of about 0.014 inches. 16. The system of claim 1 , wherein the image comprises a background layer and a foreground layer, and the background layer, foreground layer and the coating layer are applied on the basis that the background layer, the foreground layer and coating layer will be affected by the subsequent thermoforming process. 17. The system of claim 1 , wherein the printing module is adapted to receive the semi-rigid thermoformable substrate and comprises at least one first full width printhead array arranged to deposit a first portion of the at least one stretchable ink on the first surface of the semi-rigid thermoformable substrate to form a base layer. 18. A printing system that deposits at least one stretchable ink directly onto a semi-rigid thermoformable substrate without the use of labels or adhesives, the semi-rigid thermoformable substrate to be subject to a subsequent thermoforming process so as to form a printed thermoformed object