Claims
- 1. An image transfer apparatus that records an image through selective heat and pressure application, comprising:a conveyor unit that moves a recording sheet in a transport direction; an ink-transfer ribbon that comprises a base member and a layer of micro-capsules, coated over said base member, that contains a plurality of micro-capsules filled with dye, said plurality of micro-capsules exhibiting a temperature/pressure characteristic such that, said each micro-capsule is squashed under a corresponding predetermined pressure at a corresponding predetermined temperature; a thermal head unit, performing a printing operation on said base member, that includes a temperature application unit selectively and locally heating said layer of micro-capsules to predetermined temperatures and a pressure application system locally applying predetermined pressures to said layer of micro-capsules, said predetermined temperatures including said corresponding predetermined temperature and said predetermined pressures including said corresponding predetermined pressure; and a rotating member having a smooth outer surface that resiliently contacts said layer of micro-capsules and a recording surface of said recording sheet, said rotating member moving in synchronization with said movement of said recording sheet such that said transfer of said image to said recording surface of said recording sheet occurs, said rotating member configured to apply a pressure greater than said corresponding predetermined pressure to said recording sheet.
- 2. The image transfer apparatus of claim 1, wherein said conveyor unit intermittently moves said recording sheet, and said thermal head performs a line by line printing operation on said base member in a recording direction substantially perpendicular to said transport direction.
- 3. The image transfer apparatus of claim 1, wherein said thermal head and said ink transfer ribbon extend in parallel across substantially a width of said recording sheet.
- 4. The image transfer apparatus of claim 1, wherein said plurality of micro-capsules filled with dye comprises at least three types of micro-capsules having a different shell wall breaking under said corresponding predetermined pressure at said corresponding predetermined temperature and a corresponding different color dye.
- 5. The image transfer apparatus of claim 1, wherein said thermal head is tangentially aligned with said rotating member such that said predetermined pressures are applied by said pressure application system due to said alignment.
- 6. An image transfer apparatus for recording an image through selective heat and pressure application, comprising:a conveyor unit that moves a recording sheet in a transport direction; an ink-transfer ribbon that comprises a base member and a layer of micro-capsules, coated over said base member, that contains a plurality of micro-capsules filled with dye, said plurality of micro-capsules exhibiting a temperature/pressure characteristic such that, when each of said plurality of micro-capsules is squashed under a corresponding predetermined pressure at a corresponding predetermined temperature, said dye discharges from said squashed micro-capsule and transfers as said image to a recording surface of said recording sheet; a thermal head unit, performing a printing operation on said base member, that includes a temperature application unit selectively and locally heating said layer of micro-capsules to predetermined temperatures and a pressure application system locally applying predetermined pressures to said layer of micro-capsules, said predetermined temperatures including said corresponding predetermined temperature and said predetermined pressures including said corresponding predetermined pressure, wherein said recording sheet does not pass through said thermal head unit; a first rotating member having a releasant coated outer surface that resiliently contacts said ink-transfer ribbon as a part of said pressure application system; and a second rotating member downstream of said first rotating member that resiliently contacts said layer of micro-capsules passed through said thermal head unit to said recording surface of said recording sheet, said second rotating member moving in synchronization with said movement of said recording sheet such that said transfer of said image to said recording surface of said recording sheet occurs, said second rotating member configured to apply a pressure, which is less than said corresponding predetermined pressure, to said recording sheet.
- 7. The image transfer apparatus of claim 6, wherein said conveyor unit intermittently moves said recording sheet, and said thermal head performs a line by line printing operation on said base member in a recording direction substantially perpendicular to said transport direction.
- 8. The image transfer apparatus of claim 6, wherein said thermal head and said ink transfer ribbon extend in parallel across substantially a width of said recording sheet.
- 9. The image transfer apparatus of claim 6, wherein said plurality of micro-capsules filled with dye comprises at least three types of micro-capsules having a different shell wall breaking under said corresponding predetermined pressure at said corresponding predetermined temperature and a corresponding different color dye.
- 10. The image transfer apparatus of claim 6, wherein said thermal head is tangentially aligned with said first rotating member such that said predetermined pressures are applied by said pressure application system due to said alignment.
Priority Claims (1)
Number |
Date |
Country |
Kind |
10-020324 |
Jan 1998 |
JP |
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Parent Case Info
This is a divisional of U.S. application Ser. No. 09/231,801 filed Jan. 15, 1999, the contents of which are expressly incorporated by reference herein in their entireties.
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