Claims
- 1. An ink jet printer for printing ink onto a recording sheet, the ink jet printer comprising:
- belt-type preheating means for pressingly heating a recording sheet while transporting the recording sheet in a transport direction;
- suction transport means, positioned downstream of the belt-type preheating means in the transport direction, the suction transport means including a transport belt, the suction transport means transporting, on the transport belt, the recording sheet heated by the belt-type preheating means in the transport direction while fixing the heated recording sheet onto the transport belt by a vacuum suction; and
- ink ejection means located facing the heated recording sheet being transported on the suction transport means, said ink ejection means for recording images by ejecting water-based ink onto the heated recording sheet.
- 2. An ink jet printer of claim 1, wherein the belt-type preheating means includes:
- a preheater for heating the recording sheet, the preheater having a heat source for generating heat, a belt mounted on the heat source in contact therewith, the belt transporting the recording sheet on one surface of the belt while contacting the heat source at the other surface, and a drive source for driving the belt; and
- a pressure roller positioned in contact with the belt for rotating synchronously with the belt driven by the drive source, the recording sheet being transported between the belt and the pressure roller while being pressed against the pressure roller, the belt transmitting heat from the heat source to the recording sheet.
- 3. An ink jet printer of claim 2, wherein the heat source includes:
- a plurality of PTC heater chips arranged perpendicular to the transport direction; and
- a heat transmission plate provided over the plurality of PTC chips, the belt slides against the heat transmission plate at the one surface and transports the recording sheet on the other surface, the belt transmitting heat from the one surface contacted with the heat transmission plate to the other surface contacted with the recording sheet.
- 4. An ink jet printer of claim 3, wherein the heat transmission plate is made from zirconia-toughened alumina ceramics.
- 5. An ink jet printer of claim 4, wherein each of the plurality of PTC heater chips has a Curie temperature selected from a range of 120 degrees C. to 230 degrees C.
- 6. An ink jet printer of claim 4, wherein the heat transmission plate is thin enough to sufficiently transmit heat from the PTC heater chips to the belt.
- 7. An ink jet printer of claim 6, wherein the belt is formed from an endless belt made from a single layer of polyimide resin having a width in a range of 20 to 50 micrometer, and
- wherein the drive source includes a drive roller, the endless belt being mounted over both the heat source and the drive source.
- 8. An ink jet printer of claim 7, wherein the pressure roller is made from silicon rubber.
- 9. An ink jet printer of claim 8, wherein the pressure roller is soft enough to provide a large nip portion between the pressure roller and the belt of the preheater, at which the recording sheet is sandwiched while being transported by the belt.
- 10. An ink jet printer of claim 1, wherein the suction transport means includes:
- a transport belt support for supporting the transport belt, the transport belt support having an outer wall, on which the transport belt slides to move in the transport direction, and an inner wall for defining a vacuum duct, the vacuum duct being communicated with an air suction pump, a plurality of openings being formed through the transport belt support from the inner wall to the outer wall, the suction being performed through the plurality of openings; and
- a drive source for driving the transport belt in the transport direction.
- 11. An ink jet printer of claim 10, wherein the suction transport means further includes adjusting means to produce a greater suction force on the heated recording sheet at a region facing the ink ejection means than a region downstream from the ink ejection means in the transport direction.
- 12. An ink jet printer of claim 11, wherein the density at which the openings are formed at the region confronting the ink ejection means is larger than that at the other region downstream from the ink ejection means in regards to the transport direction.
- 13. An ink jet printer of claim 12,
- wherein the drive source of the suction transport means is a drive roller, and
- wherein the transport belt is formed from an endless belt mounted over both the transport belt support and the drive roller, the endless belt sliding against the transport belt support on its one surface while transporting the recording sheet on its another surface, a plurality of pores being formed through the endless belt from its one surface to the other surface, the suction being provided from the vacuum duct to the recording sheet through both the openings formed through the transport belt support and the pores formed through the endless belt.
- 14. An ink jet printer of claim 13, wherein the endless belt is formed from a porous film.
- 15. An ink jet printer of claim 13, wherein the endless belt is formed from a mesh sheet.
- 16. An ink jet printer of claim 1, further comprising exhaust means provided adjacent to and downstream from the ink ejection means for exhausting air so as to suck water vapor released from the water-based ink impinged on the recording sheet.
- 17. An ink jet printer of claim 16, wherein the exhaust means is adjusted to produce a flow of air in a gap between the ink ejection means and the recording sheet so that the flow of air flows at two meters per second or less.
- 18. An ink jet printer of claim 17, wherein the exhaust means includes flow air adjusting means for adjusting flow of air in the gap between the ink ejection means and the recording sheet so that the flow of air is uniform across the width of the recording sheet, that extends perpendicularly to the transport direction, within an overall variation of .+-.20% or less and a local variation of .+-.5%/cm or less.
- 19. An ink jet printer of claim 18, wherein the flow air adjusting means includes a current rectifying means for rectifying air current in the gap between the ink ejection means and the recording sheet.
- 20. An ink jet printer of claim 16, further comprising another exhaust means provided between the belt-type preheating means and the ink ejection means for exhausting air so as to suck water vapor released from the recording sheet heated by the belt-type preheating means.
- 21. An ink jet printer of claim 1, wherein the ink ejection means includes a print head for printing a full-color image on the recording sheet, the print head including several nozzle rows arranged in a direction parallel to the transport direction, each nozzle row being constructed from a plurality of nozzles, aligned in a row extending perpendicularly to the transport direction, for ejecting ink droplets of a corresponding colors, a lead nozzle row positioned most upstream in the transport direction being for ejecting black ink droplets.
- 22. An ink jet printer of claim 21, wherein the ink ejection means further includes drive means for driving the print head to perform a dummy ejection operation to fire all of the nozzles at a predetermined cycle of printing operation to print an ink image on the recording sheet.
- 23. An ink jet printer of claim 22, wherein the print head is a line head provided at a fixed position so that its several nozzle rows extending in a length corresponding to the width of the recording sheet, the drive means driving the line head to perform a dummy ejection operation to fire all of the nozzles, at least once every time when one recording sheet is printed, so as to print an ink image at the bottom of each recording sheet.
- 24. An ink jet printer of claim 22, wherein the print head is a scanning type print head provided movable in a direction perpendicular to the transport direction, the drive means driving the scanning type print head to perform a dummy ejection operation to fire all of the nozzles, once when several recording sheets are being printed, so as to print an ink image at the bottom of a recording sheet.
- 25. An ink jet printer of claim 24, wherein the scanning type print head is of a reciprocal scanning type head for printing ink images at reciprocal scanning operations, a tail nozzle row positioned most downstream in the transport direction being for ejecting black ink droplets.
- 26. An ink jet printer of claim 1,
- wherein the ink ejection means includes a print head for printing an ink image on the recording sheet, the print head including:
- a monolithic silicon substrate having a top surface;
- a plurality of chamber walls for defining a plurality of ink chambers on the top surface of the silicon substrate, the plurality of ink chambers being aligned in a direction perpendicular to the transport direction into a row extending along the top surface of the silicon substrate, each of the plurality of ink chambers being filled with ink, each chamber wall having a nozzle portion for defining a nozzle of a plurality of nozzles, each nozzle portion being formed so that each nozzle is in fluid communication with a respective ink chamber, the plurality of nozzles being aligned in the first direction into a row extending parallel to the top surface of the silicon substrate;
- an integrated circuit provided on the top surface of the silicon substrate and located adjacent to the plurality of ink chambers for outputting pulsed electric current; and
- a plurality of thermal resistors provided on the top surface of the silicon substrate each being located in a corresponding ink chamber of the plurality of ink chambers, each of the plurality of thermal resistors including a thin-film conductor connected to the integrated circuit for receiving the pulsed electric current from the integrated circuit and a thin-film resistor connected to the thin-film conductor for receiving the pulsed electric current from the thin-film conductor and for generating pulsed heat in response to the pulsed electric current, the thin-film resistor having a surface portion exposed to the ink contained in the corresponding ink chamber for directly heating the ink with the generated pulsed heat so as to eject an ink droplet from the corresponding ink chamber through the nozzle, the thin-film resistor being made of a material selected from a group consisting of Ta--Si--SiO alloy and Cr--Si--SiO alloy, the thin-film conductor being made of a material selected from a group consisting of tungsten and nickel.
- 27. An ink jet printer of claim 1, wherein the belt-type preheating means pressingly heats the recording sheet while contacting a first surface of the recording sheet and transporting the recording sheet in the transport direction, the suction transport means transporting the recording sheet while fixing a second surface of the recording sheet opposite to the first surface, onto the transport belt by the vacuum suction, the ink ejection means facing the first surface of the recording sheet, which is being transported by the suction transport means and ejecting water-based ink onto the first surface of the recording sheet.
- 28. An ink jet printer of claim 27, wherein the belt type preheating means includes:
- a preheater for heating the recording sheet, the preheater having a heat source for generating heat, a belt mounted on the heat source in contact therewith, and a drive source for driving the belt, the belt transporting the recording sheet on one surface of the belt while contacting the heat source at the other surface, the one surface of the belt directly contacting the first surface of the sheet; and
- a pressure roller positioned in contact with the belt for rotating synchronously with the belt driven by the drive source, the recording sheet being transported between the belt and the pressure roller while being pressed against the pressure roller, the belt transmitting heat from the heat source to the recording sheet.
- 29. A method of recording on a recording medium using an ink jet print head, the method comprising the steps of:
- preheating the recording medium directly before the recording medium is recorded;
- transporting the recording medium, after preheating, by a transport belt while fixing the recording medium to the transport belt by vacuum suction; and
- controlling an ink jet print head to jet ink droplets onto the recording medium while the recording medium is being transported by the transport belt.
- 30. A method of claim 29, wherein the preheating step includes the step of controlling a belt to transport the recording medium thereon while transmitting heat generated from PTC heater chips to the recording medium through the belt.
- 31. A method of claim 30, further comprising the step of exhausting air from a region on the printed surface of the recording medium directly after recording on the recording medium with the print head.
- 32. A method of claim 30, further comprising the step of exhausting air from both sides of the recording medium after preheating the recording medium but before recording on the recording medium with the print head.
Priority Claims (6)
Number |
Date |
Country |
Kind |
5-090123 |
Apr 1993 |
JPX |
|
5-231913 |
Sep 1993 |
JPX |
|
5-318272 |
Dec 1993 |
JPX |
|
6-100143 |
May 1994 |
JPX |
|
6-137198 |
Jun 1994 |
JPX |
|
6-278852 |
Nov 1994 |
JPX |
|
CROSS-REFERENCE TO RELATED APPLICATION
This application is a continuation-in-part application of Ser. No. 08/228,897 filed Apr. 18, 1994 now U.S. Pat. No. 5,666,140.
US Referenced Citations (4)
Number |
Name |
Date |
Kind |
3811828 |
Ohta et al. |
May 1974 |
|
4335389 |
Shirato et al. |
Jun 1982 |
|
4831419 |
Iaia et al. |
May 1989 |
|
5371531 |
Rezanka et al. |
Dec 1994 |
|
Foreign Referenced Citations (8)
Number |
Date |
Country |
489622 |
Feb 1973 |
JPX |
54-51837 |
Apr 1979 |
JPX |
55-109672 |
Aug 1980 |
JPX |
58-188685 |
Apr 1983 |
JPX |
62-167056 |
Jul 1987 |
JPX |
4166966 |
Jun 1992 |
JPX |
5313528 |
Nov 1993 |
JPX |
5341672 |
Dec 1993 |
JPX |
Non-Patent Literature Citations (3)
Entry |
Nikkei Mechanical, Dec. 28, 1992, pp. 58-63. |
J. Baker et al.; "Design and Development of a Color Thermal Inkjet Print Cartridge"; Hewlett-Packard Journal, Aug. 1988. |
Hall et al., "Inkjet Printer Print Quality Enhancement Techniques" Hewlett Packard Journal Feb. 1994, vol. 45, No. 1. |
Continuation in Parts (1)
|
Number |
Date |
Country |
Parent |
228897 |
Apr 1994 |
|