Apparatus for reducing flash for thermal transfer printers

That which is claimed: 1. An intermediate transfer printing assembly configured to transfer an image to a product, the intermediate transfer printing assembly comprising: an intermediate transfer media comprising an image disposed thereon; a transfer assembly comprising a transfer device, wherein the transfer assembly is configured to transfer the image from the intermediate transfer media to the product by: receiving the product and the intermediate transfer media into the transfer assembly along a first direction, compressing the intermediate transfer media between the transfer device and the product, expelling the product from the transfer assembly along a second direction, and peeling the intermediate transfer media from the product such that the image is transferred from the intermediate transfer media to the product; and a blower configured to intermittently provide a cooling stream of air along and in contact with a peel interface defined where the intermediate transfer media is peeled from the product, the blower comprising a first nozzle having a closed side positioned toward the transfer device and an open side positioned away from the transfer device, the closed side opposing the open side. 2. The printing assembly of claim 1 , wherein the blower is configured to selectively provide the cooling stream of air proximate the peel interface between the intermediate transfer media and the product when the product is expelled from the transfer assembly along the second direction, but not provide the cooling stream of air proximate the peel interface between the intermediate transfer media and the product when the product is received into the transfer assembly along the first direction. 3. The printing assembly of claim 1 , wherein the product defines a surface and an edge, and wherein the blower is configured to direct the cooling stream of air proximate the edge and along the surface. 4. The printing assembly of claim 1 , wherein the transfer assembly is a single-pass double-sided transfer assembly configured to transfer first and second images from the intermediate transfer media to opposed image-receptive surfaces of the product. 5. The printing assembly of claim 1 , further comprising: at least one sensor configured to detect the position of the product relative to the transfer assembly; and control circuitry in communication with the at least one sensor and configured to engage the blower to provide the cooling stream of air proximate the peel interface between the intermediate transfer media and the product when the product is disposed in a first position relative to the transfer assembly and not provide the cooling stream of air proximate the peel interface between the intermediate transfer media and the product when the product is disposed in a second position relative to the transfer assembly. 6. The printing assembly of claim 1 , wherein the blower comprises a single plenum in fluid communication with the first nozzle and a second nozzle. 7. The printing assembly of claim 6 , wherein the product defines two edges extending in the first direction, and wherein each of the first and second nozzles is positioned proximate a respective edge of the product. 8. The printing assembly of claim 6 , wherein the transfer assembly comprises at least one peel bar positioned proximate a surface of the product, wherein the peel bar and the transfer device define a chamber, and wherein each of the first and second nozzles is positioned at either end of the chamber and directs the cooling stream of air through the chamber. 9. The printing assembly of claim 6 , wherein the first and second nozzles are configured to provide substantially opposing streams of air. 10. The printing assembly of claim 6 , wherein each of the first and second nozzles is connected to the plenum by a respective conduit. 11. The printing assembly of claim 6 , wherein the first and second nozzles are configured to direct cooling streams of air proximate the peel line defined where the intermediate transfer media is peeled from the product while limiting the flow of the cooling streams of air proximate the transfer assembly. 12. The printing assembly of claim 6 , wherein the product defines two edges extending in the first direction and a surface disposed there between, and wherein each of the first and second nozzles is positioned proximate a respective edge of the product and configured to direct respective cooling streams of air in substantially opposing directions. 13. The printing assembly of claim 1 , wherein the blower comprises a centrifugal fan. 14. An intermediate transfer printing assembly configured to transfer an image to a product, the intermediate transfer printing assembly comprising: an intermediate transfer media comprising an image disposed thereon; a transfer assembly comprising a transfer device, wherein the transfer assembly is configured to transfer the image from the intermediate transfer media to the product; at least one sensor configured to detect the position of the product relative to the transfer assembly; a blower configured to provide a cooling stream of air along and in contact with a peel interface defined where the intermediate transfer media is peeled away from the product, the blower including a first nozzle having a closed side positioned toward the transfer device and an open side positioned away from the transfer device, the closed side opposing the open side; and control circuitry in communication with the at least one sensor and configured to engage the blower to provide the cooling stream of air proximate the product when the product is disposed in a first position relative to the transfer assembly and not provide the cooling stream of air proximate the product when the product is disposed in a second position relative to the transfer assembly. 15. The printing assembly of claim 14 , wherein the sensor and control circuitry are configured to selectively engage the blower to provide the cooling stream of air when the product is expelled from the transfer assembly, but not provide the cooling stream of air when the product is received into the transfer assembly. 16. The printing assembly of claim 14 , wherein the product defines a surface and an edge, and wherein the blower is configured to direct the cooling stream of air towards the edge and along the surface. 17. The printing assembly of claim 14 , wherein the transfer assembly is a single-pass double-sided transfer assembly configured to transfer first and second images from the intermediate transfer media to opposed image-receptive surfaces of the product. 18. The printing assembly of claim 14 , wherein the blower comprises a single plenum in fluid communication with the first nozzle and a second nozzle. 19. The printing assembly of claim 14 , wherein the blower comprises a centrifugal fan. 20. An intermediate transfer printing assembly configured to transfer an image to a product, the intermediate transfer printing assembly comprising: an intermediate transfer media comprising an image disposed thereon; a transfer assembly comprising a transfer device, wherein the transfer assembly is configured to transfer the image from the intermediate transfer media to the product by: receiving the product and the intermediate transfer media into the transfer assembly along a first direction such that the intermediate transfer media is compressed between the transfer device and the product, expelling the product from the transfer assembly along a second dir