Ex Parte Nakanishi et alDownload PDFBoard of Patent Appeals and InterferencesFeb 28, 201211722410 (B.P.A.I. Feb. 28, 2012) Copy Citation UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE BOARD OF PATENT APPEALS AND INTERFERENCES ____________ Ex parte RYOTA NAKANISHI, HIROSHI IRIE, MASAYA NAKAMURA, KOHEI OKAMOTO, and MASAFUMI SHIMIZU ____________ Appeal 2011-002043 Application 11/722,410 Technology Center 1700 ____________ Before PETER F. KRATZ, HUBERT C. LORIN, and RAE LYNN P. GUEST, Administrative Patent Judges. LORIN, Administrative Patent Judge. DECISION ON APPEAL An oral hearing was held on Nov. 15, 2011. STATEMENT OF THE CASE Ryota Nakanishi, et al. (Appellants) seek our review under 35 U.S.C. § 134 of the final rejection of claims 1, 6, 12, 14, and 15. We have jurisdiction under 35 U.S.C. § 6(b) (2002). Appeal 2011-002043 Application 11/722,410 2 SUMMARY OF DECISION We REVERSE.1 THE INVENTION Claims 1 and 12, reproduced below, are illustrative of the subject matter on appeal. 1. A process for hot-dip galvanization in which a steel sheet is treated by oxidization/reduction for better quality of galvanization and then galvanized, wherein an annealing line of hot-dip galvanizing equipment is composed of a first non-oxidizing zone, a second oxidizing zone, and a third reducing zone arranged in an order of first to third zone in line; wherein a steel sheet containing silicon of 0.2-3.0 weight percent is oxidized during oxidization/reduction by flames blown to it in the oxidizing zone and then reduced and annealed in the reducing zone, characterized in that said steel sheet on which rolling oil sticks is heated under conditions where the excess air ratio r1 is 0.9 or higher but below 1.00, the temperature t (°C) of the steel sheet is 450°C or higher, and said excess air ratio r1 and temperature t (°C) of the steel sheet satisfy the expression: t < -1000 x r1 + 1750 in said non- oxidizing zone; and said steel sheet is then heated by flames which are directly applied for direct heating by burners whose nozzles are directed toward the upper and lower surfaces of said steel sheet and extend in the lateral direction of said steel sheet, under a condition where an air- fuel ratio r2 is 1.00 or higher in said oxidizing zone. 1 Our decision will make reference to the Appellants’ Appeal Brief (“App. Br.,†filed Jul. 21, 2010) and Reply Brief (“Reply Br.,†filed Oct. 26, 2010), and the Examiner’s Answer (“Answer,†mailed Aug. 31, 2010). Appeal 2011-002043 Application 11/722,410 3 12. A process for hot-dip galvanization in which a steel sheet containing silicon of not less than 0.2 weight percent is treated by oxidization/reduction for better quality of galvanization and then galvanized, wherein the steel sheet is heated to 600°C or higher and then is oxidized with flames blown onto it during oxidization/reduction, the steel sheet is passed through an oxidizing zone of the blown flames, and oxide films are formed on surfaces of the steel sheet at a rate of 200-2,000 Ǻ/sec. THE REJECTION The Examiner relies upon the following as evidence of unpatentability: Wang Kimura2 US 4,133,634 JP 04-202630 Jan. 9, 1979 Jul. 23, 1992 The following rejection is before us for review: 1. Claims 1, 6, 12, 14, 15 are rejected under 35 U.S.C. §103(a) as being unpatentable over Kimura and Wang. ISSUE Has the Examiner established a prima facie case of obviousness for the claimed subject matter over the cited art combination? 2 The Examiner relies on a English Language Abstract and a computer translation of JP 02-587724, which is identified as “the granted version of JP ‘630,†as the basis for rejecting the claims. Answer 4. Appellants do not object to these documents as accurately reflecting the subject matter of JP 04-202630. See App. Br. 8. Appeal 2011-002043 Application 11/722,410 4 ANALYSIS Independent claim 1 and claim 6 dependent thereon. Claim 1 is drawn to a process for hot-dip galvanization “wherein an annealing line of hot-dip galvanizing equipment is composed of a first non- oxidizing zone, a second oxidizing zone, and a third reducing zone arranged in an order of first to third zone in line.†According to the claimed process, (a) in the first non-oxidizing zone: “a steel sheet containing silicon of 0.2-3.0 weight percent†on which rolling oil sticks is heated under conditions where the excess air ratio r1 is 0.9 or higher but below 1.00, the temperature t (°C) of the steel sheet is 450°C or higher, and said excess air ratio r1 and temperature t (°C) of the steel sheet satisfy the expression: t < -1000 x r1 + 1750 in said non- oxidizing zone; (b) in the second oxidizing zone: said steel sheet is then heated by flames which are directly applied for direct heating by burners whose nozzles are directed toward the upper and lower surfaces of said steel sheet and extend in the lateral direction of said steel sheet, under a condition where an air-fuel ratio r2 is 1.00 or higher in said oxidizing zone; and (c) in the third reducing zone: “reduc[ing] and anneal[ing] in the reducing zone.†The Examiner’s basic position is that Kimura discloses the claim steps but for “that the preheating zone is a non-oxidizing zone as claimed,†for which Wang is relied upon. Answer 4. That is to say, the Examiner found Appeal 2011-002043 Application 11/722,410 5 that Wang discloses elements (a), the first non-oxidizing zone, and Kimura discloses (b), the second oxidizing zone, and (c), the third reducing zone, in preforming the steps as claimed. With respect to Wang, the Examiner found that “Wang teaches that preheating in a non-oxidizing furnace at a temperature of 600-700°C in order to remove oil/grease on the surface of the steel sheet (col. 1 lines 8- 19 and 24-31).†Answer 4. Given Wang and Kimura, the Examiner concludes that “it would have been obvious to one of ordinary skill in the art to have incorporated the non-oxidizing preheating step as taught by Wang into the hot-dip galvanizing process of [Kimura] in order to effectively remove oil/grease on the steel sheet surface as taught by Wang;†that is, the Examiner concluded that in combining Wang and Kimura one of ordinary skill in the would have reached the combination (a), (b) and (c) as claimed. Answer 4. The Appellants disagree, arguing that the claimed process requires certain conditions within the (a) non-oxidizing and (b) oxidizing zones which one of ordinary skill in the art would not reach given what Wang and Kimura disclose. We agree. Specifically, as the Appellants point out, “Wang teaches that the invention being described is specifically designed to solve the problem of undesirable soot which normally forms on the steel surface ‘when the burners are operated with an insufficient air supply’†App. Br. 11 (citing col. 1, ll. 50-57). See also Wang, col. 1, ll. 58-63: “permitting in the preheating oven of a steel strip galvanizing production line the combustion of liquid hydrocarbons with a considerable air deficiency.†Accordingly, notwithstanding that Wang discloses a temperature range (600-700°C) (see Appeal 2011-002043 Application 11/722,410 6 col. 1, ll. 11-13) overlapping with that claimed (450°C or higher), Wang’s intent to heat under air deficiency is counter to, and thus teaches away from, “heat[ing] under conditions where the excess air ratio r1 is 0.9 or higher but below 1.00 . . . and said excess air ratio r1 and temperature t (°C) of the steel sheet satisfy the expression: t < -1000 x r1 + 1750 in said non-oxidizing zone†as claimed. The Examiner responds to the Appellants’ argument that not only does Wang not teach the excess air ratio for the first non-oxidizing zone as claimed, but Wang teaches away from doing so, by stating: Appellant argues that Wang does not expressly teach the claimed air fuel ratio. However, as stated above, the claimed air-fuel ratio in the non-oxidizing zone is a result effective variable that directly affect[s] the heating efficiency and oil/grease removal efficiency in the non-oxidizing preheating zone. Therefore, one of ordinary skill in the art would have found it obvious to have varied the air-fuel ratio in the non-oxidizing zone of [Kimura] in view of Wang via routine optimization in order to achieve desired heating efficiency and oil/grease removal efficiency MPEP 2144.05 II. Since appellant has not provided any factual evidence to show that the claimed air- fuel ratio would have in fact led to unexpected results, appellant's argument is not found convincing. Answer 6. The difficulty with this reasoning is that the burden is on the Office to establish a prima facie case of obviousness. Where there is a teaching away, as there is here for the use of the excess air ratio claimed in the non-oxidizing zone, the Office bears the burden of showing that the rationale underpinning the legal conclusion of obviousness is not undermined. This is so because “[a] reference may be said to teach away when a person of ordinary skill, upon reading the reference, would be Appeal 2011-002043 Application 11/722,410 7 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). “[W]hen the prior art teaches away from combining certain known elements, discovery of a successful means of combining them is more likely to be nonobvious.†KSR Int'l Co. v. Teleflex Inc., 550 U.S. 398, 416 (2007). Shifting the burden to the Appellants to show why the claimed invention was not obvious is not proper in light of the fact that the prior art teaches away from the claimed combination. We are persuaded by the Appellants’ argument that the Office has not met its burden of establishing a prima facie case of obviousness in the first instance. The rejection of claims 1 and 6 under 35 U.S.C. § 103(a) as being unpatentable over Kimura and Wang is reversed. Independent claim 12 and claims 14 and 15 dependent thereon. We will reverse the rejection of claims 12, 14, and 15 for different reasons. The issue is whether one of ordinary skill in the art would have been led to the claimed method whereby: the steel sheet is heated to 600°C or higher and then is oxidized with flames blown onto it during oxidization/reduction, the steel sheet is passed through an oxidizing zone of the blown flames, and oxide films are formed on surfaces of the steel sheet at a rate of 200-2,000 Ǻ/sec. According to the Examiner, “[r]egarding claim 12, [Kimura] teaches Appeal 2011-002043 Application 11/722,410 8 an average oxidation velocity of not less than 30 Ǻ/sec (Claim 1), which encompasses the claimed rate of oxidization film formation.†Answer 5. Claim 12 is reasonably broadly construed to require certain steps be performed – that is, heating to 600°C or higher and then oxidizing with flames blown onto it during oxidization/reduction – by which oxide films on surfaces of the steel sheet at a rate of 200-2,000 Ǻ/sec are formed. The fact that Kimura discloses a rate of formation overlapping that claimed does not address the claimed subject matter, which is not drawn to forming oxide films on surfaces of the steel sheet at a rate of 200-2,000 Ǻ/sec per se but a process comprising steps to yield that result. In that regard, the Examiner adds that “the heating temperature of 600-700°C at the preheating non- oxidizing zone as taught by [Kimura] in view of Wang reads on the non- oxidizing zone heating temperature as claimed.†Answer 5. Wang discloses a temperature range (600-700°C) (see col. 1, ll. 11- 13) for the purpose of cleaning the steel sheet. Nevertheless, there is insufficient apparent reasoning with logical underpinning to support the legal conclusion of obviousness. We are not persuaded by the preponderance of the evidence that, given Kimura’s disclosure of an average oxidation velocity of not less than 30 Ǻ/sec and Wang’s disclosure of the temperature range 600-700°C for cleaning the steel sheet, one of ordinary skill in the art would have reached the claimed method whereby: the steel sheet is heated to 600°C or higher and then is oxidized with flames blown onto it during oxidization/reduction, the steel sheet is passed through an oxidizing zone of the blown flames, and oxide films are formed on surfaces of the steel sheet at a rate of 200-2,000 Ǻ/sec. Appeal 2011-002043 Application 11/722,410 9 The rejection is reversed. DECISION The decision of the Examiner to reject claims 1, 6, 12, 14, and 15 is reversed. REVERSED ssl Copy with citationCopy as parenthetical citation