10579327 (P.T.A.B. Jun. 25, 2018)

Ex Parte Saito et al

Patent Trial and Appeal BoardJun 25, 2018

10579327 (P.T.A.B. Jun. 25, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 10/579,327 0310512007 7663 7590 06/25/2018 STETINA BRUNDA GARRED & BRUCKER 75 ENTERPRISE, SUITE 250 ALISO VIEJO, CA 92656 FIRST NAMED INVENTOR Shinichiro Saito UNITED STATES DEPARTMENT OF COMMERCE United States Patent and Trademark Office Address: COMMISSIONER FOR PATENTS P.O. Box 1450 Alexandria, Virginia 22313-1450 www .uspto.gov ATTORNEY DOCKET NO. CONFIRMATION NO. NAKAI-008US 6568 EXAMINER MURPHY, KEVIN F ART UNIT PAPER NUMBER 3753 MAILDATE DELIVERY MODE 06/25/2018 PAPER Please find below and/or attached an Office communication concerning this application or proceeding. The time period for reply, if any, is set in the attached communication. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte SHINICHIRO SAITO and T AKAHIKO SUZUKI Appeal2016-003388 Application 10/579,327 Technology Center 3700 Before LINDA E. HORNER, STEVEN D.A. McCARTHY and JILL D. HILL, Administrative Patent Judges. McCARTHY, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE The Appellants 1 appeal under 35 U.S.C. Â§ 134(a) from the Examiner's decision finally rejecting claims 1, 2, 4, 6, 7 and 9-14 under pre-AIA 35 U.S.C. Â§ 103(a) as being unpatentable over Niwa2 (JP H9-301751 A, publ. Nov. 25, 1997) and Hansen (US 2002/0086258 Al, publ. July 4, 2002); and claims 4, 13 and 15 underÂ§ 103(a) as being unpatentable over Niwa, Hansen The Appellants identify the real party in interest as Taiheiyo Cement Corporation. (See "Appeal Brief under 37 C.F.R. Â§ 41.37," dated July 22, 2015, at 3). 2 Niwa was referred to by its assignee's name, UBE Industries, during prosecution before the Examiner. Appeal2016-003388 Application 10/579,327 and Murata (US 6,017,213, issued Jan. 25, 2000). We have jurisdiction under 35 U.S.C. Â§ 6(b ). We REVERSE. The appealed claims are directed to a system for addressing the problem of chlorides solidifying a cement kiln gas stream to form a coating on the walls of the kiln. (See generally Spec., paras. 22-30 (as corrected, June 4, 2013) & Figs. 1 & 2). Claim 1 is the sole independent claim on appeal: 1. A combustion gas extraction probe for extracting a high-temperature combustion gas while cooling said high- temperature combustion gas with a low-temperature gas characterized by: an outer tube; and a metal inner tube positioned within the outer tube to define a cooling fluid passage therebetween, the metal inner tube being of unitary construction and having an inner diameter defining a flow path area substantially along the entire tube and through which extracted high- temperature combustion gas flows, the metal inner tube configured to emit low-temperature gas into the flow path area only in a single transverse plane generally perpendicular to a sucking direction of the high- temperature combustion gas, the inner tube having a plurality oflow-temperature discharge holes in direct fluid communication with the cooling fluid passage and the flow path area and spaced from a sucking end of the inner tube and disposed about respective axes aligned within a single plane for emitting said low-temperature gas so as to flow in a direction that is substantially perpendicular to the sucking direction of the high-temperature combustion gas and is toward a center of a flow of said high-temperature combustion gas such that said low-temperature gas reaches the centermost portion of said high-temperature combustion gas to create a single transverse sheet of low- 2 Appeal2016-003388 Application 10/579,327 temperature gas for mixed cooling and that all vector components of said low-temperature gas emitted into the high temperature gas and parallel to the flow direction of said high-temperature gas are in a downstream direction of the high-temperature combustion gas; and a plurality of collars coupled to the inner tube and disposed about respective ones of the plurality of low- temperature discharge holes, each collar being disposed about a respective axis which is perpendicular to the sucking direction of the high-temperature combustion gas; the inner tube being independent of a discharge hole disposed about an axis spaced from the single plane and arranged perpendicular to the inner tube. Niwa describes a gas extraction pipe for a cement kiln. (See Niwa, para. 13). In one embodiment, as depicted in Figure 4, an inner tube 1 defines a flow path area through which extracted high-temperature combustion gas flows. The annular space 3 between the inner and outer tubes 1, 2 defines a cooling fluid passage into which cooling air is sent. Cooling fluid enters the flow path area from an annular space surrounding the inner tube 1 through two or more small-diameter holes near the mouth 8 of the inner tube. The injection of the cooling air into the inner tube 1 mixes the high-temperature combustion gas flow with the cooling air so as to cool the gas flow. (See Niwa, para. 17 & Fig. 4). Niwa teaches that the injection of the cooling air near the mouth 8 of the inner tube 1 prevents the growth of deposits (that is, coatings) by generating a curtain of air near the entryway into the gas extraction pipe. (See id.) Hansen describes a method for improving energy efficiency, and reducing NOx emissions, from a cement kiln by promoting the oxidation of uncombusted gases in the kiln gas stream. (See Hansen, paras. 9 & 39). The method includes the steps of injecting air into the kiln gas stream through air 3 Appeal2016-003388 Application 10/579,327 injection tubes 32 located along the lower one-half length of the kiln. (See Hansen, paras. 9, 38 & 40). As depicted in Figures 2-7, each air injection tube 32 includes a straight, cylindrical portion extending perpendicularly through the cylindrical wall 14 of the rotary vessel 12. The air injection tubes 32 terminate at their radially inner ends in nozzles 36 that redirect the air flow in a direction transverse to the radial direction defined by the cylindrical wall 14. (See Hansen, para. 40). The Examiner finds that Niwa teaches each limitation of claim 1 except "a plurality of collars coupled to the inner tube and disposed about respective ones of the plurality of low-temperature discharge holes, each collar being disposed about a respective axis which is perpendicular to the sucking direction of the high-temperature combustion gas." (Final Act. 3- 5). The Examiner concludes that it would have been obvious to modify the device of [Niwa] such that a plurality of collars are coupled to the inner tube and disposed about respective low- temperature discharge holes perpendicular to the sucking direction of the high-temperature combustion gas as taught by Hansen for the purpose of directing the injected air toward the center of the inner tube, thereby improving the mixing of the injected air with the main flow. (Final Act. 6). The Appellants argue that the proposed modification ofNiwa's system in view of the teachings of Hansen would have rendered Niwa' s system inoperable for its intended purpose. Br. 13. We are not persuaded that the proposed modification would have rendered Niwa's system incapable of drawing off a bypass flow and solidifying chloride particles from the bypass flow. Nevertheless, the Appellants' argument highlights another problem with the Examiner's rejection. The proposed modification 4 Appeal2016-003388 Application 10/579,327 would have changed the pattern of cooling air flow into the bypass probe, from a substantially radial flow tending to generate a curtain of air near the entryway into the gas extraction pipe (see Niwa, para. 17 & Fig. 4) to a swirling flow (see Hansen, paras. 38--40). In order to demonstrate that such a change would have been obvious, the Examiner at least had to suggest some apparent reason for making this change. The Examiner finds that one of ordinary skill in the art might have made this change "for the purpose of directing the injected air toward the center of the inner tube." (Final Act. 6). Disposing, about each ofNiwa's small-diameter holes, an air injection tube such as the tubes 32 proposed by Hansen, including a nozzle 3 6 for diverting the cooling air flow from a radial pattern into a swirling pattern, would have had the opposite result. Therefore, the Examiner's reasoning is not persuasive. We do not sustain the rejection of claims 1, 2, 4, 6, 7, and 9-14 underÂ§ 103(a) as being unpatentable over Niwa and Hansen. With respect to the remaining claims, Figures 4--6 of Murata depict a bypass probe 5 including inner and outer tubes 10, 12 defining an annular fluid flowing path 17. The inner tube 10 is punctured by holes 28, depicted in Figures 4--6 as arranged to inject cooling air CA from the annular fluid flowing path 17 into an extracted exhaust gas flow GT through the inner tube 10. (See Murata, col. 3, 11. 26-30 & 55-57; col. 4, 11. 8-10; & col. 5, 11. 16- 19 & 33--41 ). More specifically, Figures 4--6 depict the cooling air CA entering the inner tube 10 through the holes 28 as entering in a direction transverse to, if not perpendicular to, the direction of the exhaust gas flow GT. Murata teaches that the cooling air CA mixes with, and cools, the 5 Appeal2016-003388 Application 10/579,327 exhaust gas flow GT in a front end portion 20 of the inner tube. (Murata, col. 5, 11. 33--41 ). Murata does not appear to describe collars disposed about the holes 28. Therefore, Murata's teachings do not remedy the deficiencies in the Examiner's rejection of parent claim 1. We do not sustain the rejection of claims 4, 13 and 15 underÂ§ 103(a) as being unpatentable over Niwa, Hansen and Murata. DECISION We REVERSE the Examiner's decision rejecting claims 1, 2, 4, 6, 7, and 9-15. REVERSED 6