14683408 - (D) (P.T.A.B. Mar. 27, 2019)

Ex Parte Gautschi et al

Patent Trials and Appeals BoardMar 27, 2019

14683408 - (D) (P.T.A.B. Mar. 27, 2019)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 14/683,408 04/10/2015 52237 7590 Bachman & LaPointe, P.C. 900 Chapel St., Suite 1201 New Haven, CT 06510 03/27/2019 FIRST NAMED INVENTOR Steven Bruce Gautschi 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. 76780US02 (14-216-2) 1029 EXAMINER DELRUE, BRIAN CHRISTOPHER ART UNIT PAPER NUMBER 3745 MAIL DATE DELIVERY MODE 03/27/2019 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 STEVEN BRUCE GAUTSCH!, SAN QUACH, and TRACY A. PROPHETER-HINCKLEY1 Appeal2018-007505 Application 14/683,408 Technology Center 3700 Before JENNIFER D. BAHR, MICHELLE R. OSINSKI, and LEE L. STEPINA, Administrative Patent Judges. BAHR, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Appellant appeals under 35 U.S.C. Â§ 134(a) from the Examiner's decision rejecting claims 1, 5-12, and 16-20. We have jurisdiction under 35 U.S.C. Â§ 6(b). We AFFIRM. 1 United Technologies Corporation (Appellant) is the applicant as provided in 37 C.F.R. Â§ 1.46 and is identified as the real party in interest. Appeal Br. 2. Appeal2018-007505 Application 14/683,408 THE CLAIMED SUBJECT MATTER Appellant's invention is directed to "components for a gas turbine engine, and more particularly, to cooling features for an airfoil therefor." Spec. ,r 3. Claim 1, reproduced below, is illustrative of the claimed subject matter. 1. A turbine blade for a gas turbine engine, comprising: a root including a neck and a fir tree, said fir tree including an outer tooth, said root includes a feed passage in communication with a tooth cooling passage that extends through said outer tooth outside of a maximum compressive stress zone, said tooth cooling passage is directed into a circumferential space formed between said outer tooth and a disk fillet that blends an inner lug and an outer lug of a rotor disk when said turbine blade is assembled to said rotor disk. REJECTIONS I. Claims 1 and 8-11 stand rejected under 35 U.S.C. Â§ I02(a)(2) as anticipated by Giametta (US 2015/0118045 Al, published Apr. 30, 2015). II. Claim 12 stands rejected under 35 U.S.C. Â§ 102(a)(2) as anticipated by Zelesky (US 2014/0000282 Al, published Jan. 2, 2014). III. Claims 6, 7, and 17-20 stand rejected under 35 U.S.C. Â§ 103 as unpatentable over Giametta and Zelesky. IV. Claim 5 stands rejected under 35 U.S.C. Â§ 103 as unpatentable over Giametta and Nakamata (US 2014/0020393 Al, published Jan. 23, 2014). V. Claim 16 stands rejected under 35 U.S.C. Â§ 103 as unpatentable over Zele sky and N akamata. 2 Appeal2018-007505 Application 14/683,408 DISCUSSION Rejection I Appellant argues that the Examiner errs in finding that Giametta anticipates the subject matter of claim 1 because (1) Giametta's cooling hole 7 4 ( on which the Examiner reads the claimed "cooling passage") is directed toward the first lug of Giametta' s rotor disk, and not "into a circumferential space formed between said outer tooth and a disk fillet that blends an inner lug and an outer lug of a rotor disk," as called for in claim 1, and (2) cooling hole 7 4 "would likely pass through the maximum compressive stress zone as identified by example in Appellant's Figure 7." Appeal Br. 10-13; id. at 18 (Claims App.). Appellant's first argument is not persuasive. The "disk fillet that blends an inner lug and an outer lug of a rotor disk" is the concave surface that transitions the inner lug to the outer lug. Further, we construe the term "circumferential" in claim 1 as requiring that the recited "space" have a dimension in the circumferential direction of the disk (i.e., in a direction normal to the radius and axis of the disk). Giametta's cooling hole 74 is directed into a circumferential space formed between the outer tooth (dovetail tang 54) and the fillet of the disk (rotor wheel 44). We reproduce below Figure 6 of Giametta with annotations to show the limits of what we understand the Examiner to be considering the "circumferential space," as well as what we consider to be the limits of the "fillet." 3 Appeal2018-007505 Application 14/683,408 FIG. 6 The annotated Figure 6 includes annotations "outer limit of fillet" and "inner limit of fillet" to denote the outer and inner limits of the fillet, as well as annotations "outer limit of space" and "inner limit of space" to denote the outer and inner limits of the circumferential space. As is evident from the annotated Figure 6, the denoted space is formed between the outer tooth and the fillet, and cooling hole 7 4 is directed into the denoted space. Giametta's cooling hole 74 is not directed toward or into the fillet itself, but claim 1 does not require that the cooling passage be directed into 4 Appeal2018-007505 Application 14/683,408 the fillet itself. See Ans. 2 ( correctly pointing out that claim 1 "does not require that the cooling passage be configured in such a way as to direct air to directly impinge on the fillet"). Further, the denoted space extends beyond the fillet. However, claim 1 does not recite any language that precludes the "circumferential space" from extending beyond the fillet. We additionally appreciate that Giametta's fillet extends beyond the outer limit of the denoted space, but claim 1 does not recite that the "circumferential space" extend in a radial direction along the entirety of the fillet. 2 Turning now to Appellant's second argument, claim 1 recites that the cooling passage extends "outside of a maximum compressive stress zone." Appeal Br. 18 (Claims App.). Appellant's Specification discloses that "[m]aximum compressive stress zones 134, 136 (illustrated schematically) are formed adjacent to the interface surfaces 131, 133 from the centrifugal and rotational forces applied to the blade 84." Spec. ,r 48. Further, Appellant's Specification discloses that "[e]ach of the multiple of tooth cooling passages 160 are also positioned through the outer tooth 126 to avoid the maximum compressive stress zones 136 such that the strength of the fir tree 122 is unaffected." Id. ,r 50. Appellant's Specification does not provide any quantitative definition for the "maximum compressive stress zone." See id. passim. As the Examiner points out, Appellant's Figure 7 illustrates the maximum 2 In fact, claim 1 is directed solely to a turbine blade, and does not positively recite a rotor disk, much less a disk fillet that blends an inner lug and an outer lug of such rotor disk, or a circumferential space formed between the outer tooth of the turbine blade and a disk fillet. See Appeal Br. 18 ( claim 1 reciting a turbine blade root having a cooling passage directed as discussed above "when said turbine blade is assembled to said rotor disk"). 5 Appeal2018-007505 Application 14/683,408 compressive stress zones only "schematically," and, thus, cannot be relied on for any quantitative guidance as to the spatial extent of these zones. See Ans. 5-6; Spec. ,r 48. Thus, the Examiner interprets "the language 'maximum compressive stress zone' [as] the zone with the highest compressive stress, which would occur at the direct contact point between the disk fillet and the blade outer tooth when the engine is operating." Ans. 6. Appellant does not contest the Examiner's finding that the zone with the highest compressive stress would be the direct contact point between the disk fillet and the blade outer tooth. 3 See Reply Br. 3--4. As illustrated in Figure 6 of Giametta, cooling hole 74 does not extend to, or even adjacent, the direct contact point between the disk fillet and the tooth (tang 54). Thus, Giametta's cooling hole 74 extends "outside of a maximum compressive stress zone," as recited in claim 1. For the above reasons, Appellant does not apprise us of error in the rejection of claim 1 as anticipated by Giametta. Accordingly, we sustain the rejection of claim 1, as well as claims 8-11, for which Appellant does not present any separate arguments, as anticipated by Giametta. See Appeal Br. 10-13. Rejections III and IV In contesting the rejections of claims 5-7 and 17-20 under 35 U.S.C. Â§ 103, Appellant relies solely on the arguments presented against 3 Consistent with the Examiner's finding, although areas of the outer tooth beyond the direct point of contact will experience some levels of stress, which gradually subside with distance from the direct contact point, they will experience lower levels of stress than the direct contact point and, thus, are not in the "maximum compressive stress zone." 6 Appeal2018-007505 Application 14/683,408 the rejection of claim 1. See Appeal Br. 14. For the reasons discussed above, these arguments fail to apprise us of error in the rejection of claim 1 and, likewise, fail to apprise us of error in the rejections of claims 5-7 and 17-20, which we, thus, sustain. Rejection II Appellant argues that the Examiner errs in finding that Zelesky's neck cooling passage (impingement hole 102, and first and second holes 104 and 106) are directed toward the outer lug of a rotor disk when the turbine blade is assembled to such rotor disk, as required in claim 12. See Appeal Br. 14-- 16; Final Act. 10. According to Appellant, Zelesky' s hole 102 is directed to an under platform area (U-channel 94), and first and second holes 104 and 106 simply connect U-channel 94 to pressure and side pockets 96, 98. Id. at 14--15. Thus, Appellant contends that Zelesky directs cooling flow to the underside of platform 7 6, "not to the outer lug as apparently interpreted by the Examiner." Id. at 16. As the Examiner points out, claim 12 does not require the neck cooling passage to direct cooling flow to the outer lug. See Ans. 8. Rather, claim 12 recites that the "neck cooling passage is directed toward said outer lug" when the "turbine blade is assembled to a rotor disk." Appeal Br. 20 (Claims App.). 4 4 Notably, claim 12 is directed only to a turbine blade, and not to the combination of the turbine blade assembled to a rotor blade. See Appeal Br. 20 (Claims App.) (claim 12 reciting a turbine blade root including a feed passage in communication with a neck cooling passage directed toward an outer lug of a rotor disk "when said turbine blade is assembled to a rotor disk" having such a lug). 7 Appeal2018-007505 Application 14/683,408 The Examiner provides an annotated version of Figure 5 of Zelesky to illustrate how first and second holes 104 and 106 are directed toward the outer lug. Ans. 9. The Examiner's annotated Figure 5 is reproduced below. ,.tÂ·M _.-~: .. n~ l!'igure !i: Office (1tmofated 1-'igure 1-f Zeli?Iky Figure .t The Examiner's annotated Figure 5 includes arrows A and B, added by the Examiner, to depict the direction in which holes 104 and 106 are directed. Id. at 8-9. Zelesky' s Figure 2 illustrates rotor disk 68, but Figure 5 of Zelesky depicts only blade 64, and does not include rotor disk 68. However, Appellant's Figure 7 is illustrative as to how root 74 of Zelesky's blade 64 is received in a rotor disk. For convenience, we reproduce Appellant's Figure 7 below. 8 Appeal2018-007505 Application 14/683,408 ;,;,;i ~ -Â·Â·tÂ·' FlG. 7 ' '1 ! ! l J I I i i ,. ,. \ \ . I .. , , \ ,: ' lH) : I \ / ! n~ l : / 1. j : ! \ i j / \ / r \"----~-~ -------- Â·Â·--..--~---------'/ ' Â·Tâ€¢ 00 â€¢ ~_.._ .... ,..,,,,,,,,,,,~-~---..-.â€¢â€¢â€¢â€¢--..,-. â€¢â€¢ ,......,,.. __ .,. ...... -Jl Appellant's Figure 7 depicts how the root of Appellant's turbine blade is received in the rotor disk, with the root teeth received in fillets between inner and outer lobes of the disk. Appellant's Figure 7 also depicts cooling passages 170 extending downwardly, in the area just under the platform, and "directed toward the outer surface 154 of the disk 86, which is also the outer surface of the outer lug 130." Spec. ,r 51. In the same manner, Zelesky's holes 104 and 106, which are in communication, via impingement hole 102, with the feed passage ( cooling passage 108), would be directed toward the outer surface of rotary disk 68, which, as defined in Appellant's Specification, is also the outer surface of the outer lug of the disk, when turbine blade 64 is assembled to such a rotor disk. See Zelesky ,r 52-53; id., Fig. 5; Spec. ,r 51. For the above reasons, Appellant does not apprise us of error in the rejection of claim 12 as anticipated by Zelesky, which we, thus, sustain. 9 Appeal2018-007505 Application 14/683,408 Rejection V In contesting the rejection of claim 16, Appellant relies solely on the argument presented against the rejection of claim 12. See Appeal Br. 16. For the reasons discussed above, this argument fails to apprise us of error in the rejection of claim 12, and, likewise, fails to apprise us of error in the rejection of claim 16. Accordingly, we sustain the rejection of claim 12 as unpatentable over Zelesky and Nakamata. DECISION The Examiner's decision rejecting claims 1, 5-12, and 16-20 is AFFIRMED. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. Â§ 1.136(a). See 37 C.F.R. Â§ 1.136(a)(l )(iv). AFFIRMED 10