Ex Parte Ma et alDownload PDFPatent Trial and Appeal BoardDec 11, 201211269041 (P.T.A.B. Dec. 11, 2012) Copy Citation UNITED STATES PATENT AND TRADEMARK OFFICE ________________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ________________ Ex parte ZEYING MA, GARY W. LARSON and LUFEI LIN ________________ Appeal 2010-007919 Application 11/269,041 Technology Center 2800 ________________ Before, ROBERT E. NAPPI, LARRY J. HUME and JOHN G. NEW, Administrative Patent Judges. NEW, Administrative Patent Judge. DECISION ON APPEAL Appeal 2010-007919 Application 11/269,041 2 SUMMARY Appellants file this appeal under 35 U.S.C. § 134(a) from the Examiner’s Final Rejection of claims 1-5, 7-22, 24, and 31-35 as unpatentable under 35 U.S.C. § 103(a). Specifically, claims 1, 4, 5, 7-14, 18-22, 24, and 35 stand rejected under 35 U.S.C. § 103(a) as being obvious over Auslander et al. (US 2006/00443332 A1, March 2, 2006) (“Auslander”) and Byers et al. (US 6,378,976 B1, April 30, 2002) (“Byers”). Claims 2, 3, 15-17, and 31-34 stand rejected under 35 U.S.C. § 103(a) as being obvious over Auslander, Byers, and Treado et al. (US 2004/0184660 A1, September 23, 2004) (“Treado”). We have jurisdiction under 35 U.S.C. § 6(b). We affirm. STATEMENT OF THE CASE Appellants’ invention is directed to methods for tagging an ink with a detectable marker and methods for identifying an ink. The tagged ink includes a colorant visible under visible light and a detectable marker capable of fluorescing when subjected to infrared light. Abstract. GROUPING OF CLAIMS Because Appellants argue that the Examiner erred for substantially the same reasons with respect to independent claims 1, 8, 14, and 31, as well as dependent claims 2-5, 7, 9-13, 15-22, 24, and 32-35, we select claim 1 as representative of the claims on appeal. Claim 1 recites: 1. A method for identifying an ink, the method comprising: Appeal 2010-007919 Application 11/269,041 3 obtaining a sample of an unidentified ink including a non- fluorescent, visible colorant; subjecting the sample of the unidentified ink to infrared light capable of causing an infrared fluorescing agent, if present, in the sample of the unidentified ink to fluoresce, the infrared fluorescing agent and the non-fluorescent, visible colorant in the unidentified ink leaving the ink performance unaltered and the ink quality and integrity preserved; and determining whether fluorescence emitted from the sample of the unidentified ink, if any, corresponds to fluorescence of an authentic ink known to include the infrared fluorescing agent; and wherein the infrared fluorescing agent does not interfere with ink performance as a visible, non-fluorescent, inkjet printed ink; is not visible to the naked eye under normal or white light; and does not cause failure of an inkjet printing device. App. Br. 16. ISSUE Appellants argue that the Examiner erred in finding that claim 1 is unpatentable under 35 U.S.C. § 103(a) as being obvious over Auslander and Byers. App. Br. 9. Specifically, Appellants argue that the Examiner erred in finding that the combination of Auslander and Byers teaches or suggests that an infrared (“IR”) luminescent chemical marker can be used as a taggant for conventional inkjet printing without interfering with print quality, as recited in claim 1. App. Br. 12. Appellants also argue that Byers’ disclosure of an IR-fluorescent ink, for the reason provided supra, and taken in the context of the method of implementation suggested by Byers, teaches away from combining Byers with the teaching of Auslander. App. Br. 13. Appeal 2010-007919 Application 11/269,041 4 We therefore address the issue of whether the Examiner erred in improperly combining Auslander and Byers and in finding that the combined prior art discloses or suggests the limitations of claim 1. ANALYSIS Appellants argue that Auslander teaches the use of ultraviolet (“UV”)- fluorescent ink for use in a postal printing system, but does not disclose or suggest the use of IR-fluorescent compounds in inks. App. Br. 11. Appellants also argue that Byers teaches the use of UV- or IR-fluorescent markers, either in a colorless fluid, or in colored inks, for the purpose of testing inkjet nozzle alignment via printing test patterns. Id. Appellants contend that Byer’s disclosure that IR-fluorescent markers may have red absorption, making them appear cyan at high concentrations, which interferes with the print quality of the conventional inkjet printing ink. Id. According to Appellants, this is in contradistinction to the limitations of claim 1 reciting “the infrared fluorescing agent does not interfere with ink performance as a visible, non-fluorescent, inkjet printed ink; is not visible to the naked eye under normal or white light; and does not cause failure of an inkjet printing device.” App. Br. 12-13. The Examiner agrees with Appellants that Auslander teaches the use of UV-fluorescent, but not IR-fluorescent taggants, in inkjet inks. Ans. 8. The Examiner also finds that Byers discloses the IR taggant as potentially having red absorption at high taggant concentrations. Id. (citing Byers, col. 5, ll. 27- 36). The Examiner further finds, however, that Byers also teaches adjusting the concentration level based on the desired results, going on to state that, “the use of a luminescing chemical marker can be used with most colored inks, so long as the absorption is not particularly strong in the region of the second Appeal 2010-007919 Application 11/269,041 5 wavelength emitting by the chemical marker.” Ans. 8 (quoting Byers, col. 6, ll. 45-48). The Examiner finds, therefore, that Byers teaches that most colored inks have no performance problems. Ans. 8. We concur with the Examiner’s reasoning and adopt it as our own. We agree with the Examiner that, although Byers admits that some contamination in certain colors may occur at high concentrations of IR-fluorescent taggant, color contamination by the IR-fluorescent taggant is generally not a problem at lower concentrations, as demonstrated in Byers’ examples #6 and #7. Id. (citing Byers, col. 8, ll. 9-11). We further agree with the Examiner’s finding that since the claims as currently presented do not state a specific ink variety or color, Appellants’ claimed ink solution and performance is disclosed by Byers. We therefore conclude that the Examiner did not err in finding that Byers discloses the limitations of claim 1 reciting “the infrared fluorescing agent does not interfere with ink performance as a visible, non-fluorescent, inkjet printed ink; is not visible to the naked eye under normal or white light; and does not cause failure of an inkjet printing device.” Appellants also assert that, because the teaching of Byers contemplates use of fluorescent markers in testing the alignment of inkjet nozzles, and because Byers allegedly discloses problems with print quality when using IR- fluorescent taggants, Byers teaches away from combination with Auslander. App. Br. 13. (“Byer's disclosure about IR ink in the situations disclosed by Byers would instead be a reason not to combine Byers with Auslander”) Id. (boldface in original). The Examiner responds that, although the Auslander and Byers references differ in topic (authenticating an ink vs. testing misdirected nozzles), each attempts to address a problem in the art of inkjet printing by providing a non-visible fluorescent taggant in an inkjet ink. Furthermore, the Appeal 2010-007919 Application 11/269,041 6 Examiner finds that Byers also teaches that “the chemical maker may also be placed in one of the colored inks as well. Use of the chemical maker in one of more of the pens containing a colored ink will serve the same purposes as in the fixer fluid, namely, determining the status of the nozzles ...” and, further, that “use of the chemical marker in the colored inks allows automatic monitoring of the nozzle health with the same detector/sensor elements and thus reduced complexity/expense.” Ans. 9 (quoting Byers, col. 6, ll. 33-36, 41-45). Thus, the Examiner finds, the IR-fluorescent taggant taught by Byers not only provides adequate performance of the ink in normal inkjet functions, but further facilitates monitoring of nozzle alignment. Ans. 9. Finally, the Examiner finds that an artisan of ordinary skill would be motivated to combine the teachings of Auslander and Byers to employ an IR-fluorescent taggant when printing on UV absorptive material. Id. We are persuaded by the Examiner’s reasoning and adopt it as our own. “A reference may be said to teach away when a person of ordinary skill, upon reading the reference, would be discouraged from following the path set out in the reference, or would be led in a direction divergent from the path that was taken by the applicant.” In re Gurley, 27 F.3d 551, 553 (Fed. Cir. 1994). We have addressed supra the issue of whether Byers addresses the issue of interference with print quality. We further agree with the Examiner’s finding that Byers’ method of implementation does not teach away from combining its disclosures with those of Auslander. On the contrary, Byers teaches that the problem of potential color contamination by the IR-fluorescent taggant in certain ink colors can be successfully avoided by lowering the concentrations and that IR-fluorescent taggants can be employed in regular inkjet color inks to reduce complexity and expense, while still monitoring inkjet nozzle alignment. Ans. 8-9. Appeal 2010-007919 Application 11/269,041 7 We consequently conclude that the Examiner did not err in concluding that claim 1 would have been obvious to a person of ordinary skill in the contemporary art over the combination of Auslander and Byer. DECISION The Examiner’s rejection of claims 1-5, 7-22, 24, and 31-35 is affirmed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1). See 37 C.F.R. § 1.136(a)(1)(iv) (2011). AFFIRMED ELD Copy with citationCopy as parenthetical citation
