A fluid delivery system includes a print cartridge and a fluid supply. The print cartridge includes a housing structure, an air-fluid separator structure within the housing structure, including an air vent region in communication with the seperator structure. A fluid ejector is mounted to the housin
A fluid delivery system includes a print cartridge and a fluid supply. The print cartridge includes a housing structure, an air-fluid separator structure within the housing structure, including an air vent region in communication with the seperator structure. A fluid ejector is mounted to the housing structure, and a fluid plenum within the housing structure is in fluid communication with the fluid ejector. A fluid reservoir in the housing structures is in fluid communication with the plenum for supplying fluid to the plenum under negative pressure. A fluid re-circulation path is provided in the housing structure through the separator structure and the fluid plenum. A pump structure re-circulates fluid and air through the re-circulation path during a pump mode. The fluid supply is continuously or intermittently fluidically coupled to the fluid reservoir.
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A fluid delivery system includes a print cartridge and a fluid supply. The print cartridge includes a housing structure, an air-fluid separator structure within the housing structure, including an air vent region in communication with the seperator structure. A fluid ejector is mounted to the housin
A fluid delivery system includes a print cartridge and a fluid supply. The print cartridge includes a housing structure, an air-fluid separator structure within the housing structure, including an air vent region in communication with the seperator structure. A fluid ejector is mounted to the housing structure, and a fluid plenum within the housing structure is in fluid communication with the fluid ejector. A fluid reservoir in the housing structures is in fluid communication with the plenum for supplying fluid to the plenum under negative pressure. A fluid re-circulation path is provided in the housing structure through the separator structure and the fluid plenum. A pump structure re-circulates fluid and air through the re-circulation path during a pump mode. The fluid supply is continuously or intermittently fluidically coupled to the fluid reservoir. saturation of the predetermined area and the number of printing data corresponding to the amount of ink to be ejected to the count area. 5. An ink jet printing apparatus as claimed in claim 4, wherein the printing head ejecting the plurality of colors of ink consists of a different printing head for each color of ink and the different printing heads are arranged in a direction along a scanning direction of said different printing heads. 6. An ink jet printing apparatus as claimed in claim 4, wherein said thinning rate determining means determines the thinning rate based on hue or both hue and saturation determined by said color area determining means and a sum of the amount of each color of ink to be ejected to the count area. 7. An ink jet printing apparatus as claimed in claim 4, wherein said count means cause the obtained number of printing data to be weighted for each color of ink. 8. An ink jet printing apparatus as claimed in claim 4, wherein said thinning rate determining means determine the thinning rate for each divided area, which is obtained by dividing the predetermined area. 9. An ink jet printing apparatus as claimed in claim 8, wherein the divided area is obtained by dividing the predetermined area in a different direction from the scanning direction. 10. An ink jet printing apparatus as claimed in claim 4, wherein said thinning rate determining means determine one of the thinning rates set for the respective hue or the respective combination of hue and saturation, determined by said color area determining means. 11. An ink jet printing apparatus as claimed in claim 10, wherein said thinning rate determining means determine one of the thinning rates set independently for each color of ink used for printing. 12. An ink jet printing apparatus as claimed in claim 4, wherein said thinning rate determining means determine the thinning rate as a thinning rank of a predetermined discrete value. 13. An ink jet printing apparatus as claimed in claim 8, wherein said decreasing means perform a thinning process based on the thinning rate determined for each divided area. 14. An ink jet printing apparatus as claimed in claim 4, wherein said decreasing means perform a thinning process independently for each color of ink. 15. An ink jet printing method using a printing head and relatively scanning the printing head to a printing medium to perform printing by ejecting a plurality of colors of ink from the printing head, said method comprising the steps of: determining whether to reduce an amount of ink to be ejected to a vicinity of a joint in a band on the printing medium, the band being defined by the joint and defined as an area printed by scanning the printing head, based on printing method information added to printing data; when it is determined in said determining step to reduce the amount of ink, correcting the printing data so that the amount of ink ejected to a predetermined area in the vicinity of the joint during the scanning is decreased at a decreasing rate corresponding to an amount of ink to be ejected based on the printing data, and controlling the printing apparatus to perform printing according to a printing method designated by the printing method information, based on the corrected printing data, and when it is determined in said determining step not to reduce the amount of ink, controlling the printing apparatus to perform printing according to a printing method designated by the printing method information, based on the printing data without executing correcting of the printing data for decreasing an amount of ink ejected during the scanning. 16. An ink jet printing method as claimed in claim 15, wherein the printing method information comprises at least one of a type of the printing medium and the number of times of scanning for completing printing of the band. 17. An ink jet printing method as claimed in claim 15, wherein said printing control step comprises a count step, of counting the number o f printing data of binary form in a count area near to the joint to obtain the amount of ink to be ejected based on the printing data, a thinning rate determining step, of determining a thinning rate for the binary printing data as the decreasing rate, and a decreasing step, of thinning the binary printing data of the predetermined area based on the thinning rate to correct the printing data. 18. An ink jet printing method as claimed in claim 17, wherein the printing head ejects a plurality of colors of ink, and said thinning rate determining step comprises a color area determining step, of determining hue or both hue and saturation of the predetermined area based on information on the amount of ink obtained by said count step, so as to determine the thinning rate based on the determined hue or both hue and saturation of the predetermined area and the number of printing data corresponding to the amount of ink to be ejected to the count area. 19. An ink jet printing method as claimed in claim 18, wherein the printing head ejecting the plurality of colors of ink has a different printing head for each color of ink and the different printing heads are arranged in a direction along a scanning direction of the different printing heads. 20. An ink jet printing method as claimed in claim 18, wherein said thinning rate determining step includes determining the thinning rate based on hue or both hue and saturation determined in said color area determining step and a sum of the amount of each color of ink to be ejected to the count area. 21. An ink jet printing method as claimed in claim 18, wherein said count step includes causing the obtained number of printing data to be weighted for each color of ink. 22. An ink jet printing method as claimed in claim 18, wherein said thinning rate determining step includes determining the thinning rate for each divided area, which is obtained by dividing the predetermined area. 23. An ink jet printing method as claimed in claim 22, wherein the divided area is obtained by dividing the predetermined area in a different direction from the scanning direction. 24. An ink jet printing method as claimed in claim 18, wherein said thinning rate determining step includes determining one of the thinning rates set for the respective hue or the respective combination of hue and saturation, determined by said color area determining step. 25. An ink jet printing method as claimed in claim 24, wherein said thinning rate determining step includes determining one of the thinning rates set independently for each color of ink used for printing. 26. An ink jet printing method as claimed in claim 18, wherein said thinning rate determining step includes determining the thinning rate as a thinning rank of a predetermined discrete value. 27. An ink jet printing method as claimed in claim 22, wherein said decreasing step includes performing a thinning process based on the thinning rate determined for each divided area. 28. An ink jet printing method as claimed in claim 18, wherein said decreasing step includes performing a thinning process independently for each color of ink. 29. A data processing method used in an ink jet printing apparatus using a printing head and scanning the printing head relative to a printing medium to perform printing by ejecting a plurality of colors of ink from the printing head, said method comprising the steps of: determining whether to reduce an amount of ink to be ejected to a vicinity of a joint in a band on the printing medium, the band being defined by the joint and defined as an area printed by scanning the printing head, based on printing method information added to printing data; when it is determined said determining step to reduce the amount of ink, correcting the printing data so that the amount of ink ejected to a predetermined area in the vicinity of the joint during the scanning is decreased at a decreasing rate corresponding to an amount of ink to be ejected based on the printi
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이 특허에 인용된 특허 (8)
Chris T. Armijo ; Gonzalo Gaston ES; Javier Lagares ES; Antoni Gil ES; Francesc Subirada ES; Francisco Guerrero ES, Detection of non-firing printhead nozzles by optical scanning of a test pattern.
Zuber Marilyn Louise ; Michael Donald L. ; Chavez Susan A. ; Herald Nancy Leigh ; Helterline Brian L., Method and apparatus for detecting the end of life of a print cartridge for a thermal ink jet printer.
Davis, Jeremy A; Gedraitis, Melissa S.; Baldwin, Marc A.; Barinaga, Louis; Dowell, Daniel D; Childs, Ashley E; Smith, Mark A.; Steinmetz, Charles R.; Stathem, Ralph L.; Langford, Jeffrey D.; Hilton, Michael L., Ink delivery system and methods for improved printing.
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