11189090 (P.T.A.B. Oct. 31, 2012)

Ex Parte Lutaud

Patent Trial and Appeal BoardOct 31, 2012

11189090 (P.T.A.B. Oct. 31, 2012)

UNITED STATES PATENT AND TRADEMARK OFFICE 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 APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 11/189,090 07/25/2005 Dominique Lutaud 8470G-000043/DVA 8843 27572 7590 10/31/2012 HARNESS, DICKEY & PIERCE, P.L.C. P.O. BOX 828 BLOOMFIELD HILLS, MI 48303 EXAMINER OMGBA, ESSAMA ART UNIT PAPER NUMBER 3726 MAIL DATE DELIVERY MODE 10/31/2012 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 DOMINIQUE LUTAUD ____________________ Appeal 2010-006308 Application 11/189,090 Technology Center 3700 ____________________ Before: JENNIFER D. BAHR, MICHAEL L. HOELTER, and JOHN W. MORRISON, Administrative Patent Judges. BAHR, Administrative Patent Judge. DECISION ON APPEAL Appeal 2010-006308 Application 11/189,090 2 STATEMENT OF THE CASE Dominique Lutaud (Appellant) appeals under 35 U.S.C. § 134 from the Examiner’s decision rejecting claims 11-16. Specifically, the Examiner rejected claims 11, 12, 15, and 16 under 35 U.S.C. § 103(a) as unpatentable over Appellant’s Admitted Prior Art (AAPA) in view of Tetsuya (JP 2001- 225392, pub. Aug. 21, 2001)1 or Kremer (US 3,776,873, iss. Dec. 4, 1973) and rejected claims 13 and 14 under 35 U.S.C. § 103(a) as unpatentable over the AAPA in view of Tetsuya or Kremer, and further in view of Teicher (US 3,455,826, iss. Jul. 15, 1969). We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. The Claimed Subject Matter Claim 11, reproduced below, is illustrative of the claimed subject matter. 11. A method for closing a spiral stage which is bounded by a screw thread-shaped groove in a sealing lip of a lip sealing ring and by a surface to be sealed, facing the groove, of a machine element to be sealed, comprising: introducing a thixotropic medium, presented in a liquid form in an agitated container, in at least one partial region of the groove of the lip sealing ring which is at rest; automatically solidifying the thixotropic medium after its introduction into the groove and thereby forming a hermetic seal in the groove; subsequently mounting the lip ring on the machine element; 1 We derive our understanding of the Tetsuya reference from the English language Abstract entered into the electronic file wrapper of this application on November 14, 2007 and from the undisputed statements of the Examiner and Appellant paraphrasing or quoting from the machine translation of the Tetsuya reference, entered into the electronic file wrapper on July 28, 2008. Appeal 2010-006308 Application 11/189,090 3 subjecting the mounted lip ring to a pressure test at an ambient temperature greater than 90° C; determining whether the mounted lip ring is mounted correctly or damaged; and if the lip ring is mounted correctly or undamaged, liquefying the thixotropic medium during use of the lip ring. ISSUES In contesting the rejection of claims 11, 12, 15, and 16 as unpatentable over the AAPA in view of Tetsuya or Kremer, Appellant groups all of these claims together. App. Br. 10. Thus, we select claim 11 as representative in deciding the appeal as to this rejection. Appellant merely relies on the arguments presented for claim 11 in contesting the rejection of claims 13 and 14 as unpatentable over the AAPA in view of Tetsuya or Kremer, and further in view of Teicher. Id. Thus, our decision with respect to the rejection of claim 11 will also be determinative for the rejection of claims 13 and 14. The following issues are presented in this appeal. (1) Would it have been obvious to substitute a thixotropic medium in place of the wax in the AAPA method described in Appellant’s Specification? App. Br. 9. (2) If the AAPA method were modified as proposed by the Examiner by using a thixotropic medium in place of the wax, would the method of claim 11 result? More specifically, would the modified method include determining whether the mounted lip ring is mounted correctly or damaged and, if it is “mounted correctly or undamaged” as claimed, liquefying the thixotropic medium during use of the lip ring? Reply Br. 5. Appeal 2010-006308 Application 11/189,090 4 (3) Does the AAPA teach away from subjecting the lip ring to a pressure test at an ambient temperature greater than 90o C? Reply Br. 8. FACTS PERTINENT TO THE ISSUES FF1 Appellant admits that the AAPA discloses a lip sealing ring having wax provided in a groove on the lip sealing ring. Wax is provided in the groove because, after installation of the lip sealing ring, the lip sealing ring may be tested to determine whether the lip sealing ring was properly installed. By providing wax in the groove, a pressure test may be completed where compressed air is provided in the space to be sealed. If a rapid pressure drop is experienced during the test due to the rapid loss of the compressed air in the space to be sealed, the lip sealing ring is either installed incorrectly or was damaged during installation. During this pressure test, the ambient temperature typically ranges greater than 90°C. App. Br. 7-8. FF2 The Examiner found that Tetsuya and Kremer evidence that it was known in the art “to seal a gap by spraying liquid material having thixotropic properties in the gap.” Ans. 3-4; see Tetsuya Abstr., p. 1, (“TITLE: Gasket manufacturing method for sealing precision mechanical equipments, involves spraying liquid material having thixotropic property”); Kremer, col. 1, ll. 26-28; col. 4, ll. 29-66; col. 8, ll. 1-6. Appellant does not dispute the Examiner’s findings. FF3 Tetsuya discloses that the liquid thixotropic material is sprayed on the surface of a substrate and then hardened by irradiating. Tetsuya Abstr., p. 1. FF4 Tetsuya discloses that “hardening of the material is done at a high temperature.” Tetsuya Abstr., p. 2. Appeal 2010-006308 Application 11/189,090 5 FF5 The established, ordinary and customary meaning of the term “thixotropic” is “having a viscosity that decreases when a stress is applied, as when stirred.” Collins English Dictionary (HarperCollins Pub. 2003), http://www.thefreedictionary.com/thixotropic (last visited Oct. 24, 2012). FF6 The established, ordinary and customary meaning of the term “thixotropy” is “[t]he property exhibited by certain gels of becoming fluid when stirred or shaken and returning to the semisolid state upon standing.” The American Heritage Dictionary of the English Language (4th ed. 2000), http://www.thefreedictionary.com/thixotropic (last visited Oct. 24, 2012). ANALYSIS Issue (1) The Examiner found that the “AAPA does not disclose using a thixotropic medium presented in a liquid form in an agitated container, the thixotropic medium being introduced in at least one partial region of the groove by spraying in order to seal the gap.” Ans. 3. The Examiner reasoned it would have been obvious to substitute the sprayable sealant taught by Tetsuya or Kremer for the wax used in the AAPA method “in order to provide a convenient, easy and an economical way of sealing the gap.” Ans. 4. According to the Examiner, the sealing method taught by Tetsuya or Kremer would have been “obvious to try” in the AAPA method “since it would have amounted to choosing from a finite number of identified, predictable solutions, with a reasonable expectation of success.” Id. Appeal 2010-006308 Application 11/189,090 6 Appellant argues that neither Tetsuya nor Kremer discloses that thixotropic materials withstand ambient temperatures greater than 90o C, and, consequently, there is no suggestion or motivation to combine the teachings of either Tetsuya or Kremer with the AAPA. App. Br. 9, 10. For the reasons that follow, this argument is not convincing. To support a conclusion of obviousness, examiners are not required to find and express a specific teaching, suggestion, or motivation for making a proposed combination, and instead are charged with presenting an apparent reason to combine teachings, as by, for example, articulating some reasoning supported by rational underpinnings. KSR Int'l Co. v. Teleflex, Inc., 550 U.S. 398, 418 (2007). In this case, the Examiner articulated a reason for substituting a thixotropic medium for the wax in the AAPA method (i.e., to provide a convenient, easy, and an economical way of sealing the gap). Further, the teachings of Tetsuya and Kremer relied upon by the Examiner provide rational underpinnings for the Examiner’s articulated reason. See FF2. The Examiner also reasoned that the proposed modification would have been “obvious to try” as the mere selection of a sealing technique “from a finite number of identified, predictable solutions, with a reasonable expectation of success.” Ans. 4. When there is a design need or market pressure to solve a problem and there are a finite number of identified, predictable solutions, a person of ordinary skill has good reason to pursue the known options within his or her technical grasp. If this leads to the anticipated success, it is likely the product not of innovation but of ordinary skill and common sense. In that instance the fact that a combination was obvious to try might show that it was obvious under § 103. KSR, 550 U.S. at 421. Appeal 2010-006308 Application 11/189,090 7 Moreover, Tetsuya’s teaching that the thixotropic material is hardened “at a high temperature” strongly suggests that it can withstand high temperatures. See, FF4. Thus, the temperature ranges at which the pressure test of the AAPA is conducted (see FF1) would not have dissuaded a person of ordinary skill in the art from considering thixotropic material as a suitable substitute for the wax in the AAPA method. For the above reasons, Appellant does not apprise us of error in the Examiner’s determination that it would have been obvious to substitute a thixotropic medium in place of the wax in the AAPA method. Issue (2) Appellant admits that the AAPA method includes determining whether the mounted lip ring is mounted correctly or damaged. See FF1. The Examiner found that “it is widely known that a thixotropic medium or agent is a substance which can impart to a composition a liquid state when such composition is shaken or agitated and will solidify when not agitated” and that, therefore, “it is inherent that the thixotropic medium will liquefy during use of the lip ring as a result of the shaft rotation and/or the vibrations created during use.” Ans. 4. The common dictionary definitions of the terms “thixotropic” and “thixotropy” (see FF5, FF6) belie any notion that it was not widely known that a thixotropic medium or agent is a substance which can impart to a composition a liquid state when such composition is shaken or agitated and will solidify when not agitated. Moreover, in any event, “[i]nherency is not necessarily coterminous with knowledge of those of ordinary skill in the art. Artisans of ordinary skill may not recognize the inherent characteristics or functioning of the prior art.” In re Cruciferous Sprout Litig., 301 F.3d 1343, 1349 (Fed. Cir. Appeal 2010-006308 Application 11/189,090 8 2002); Schering Corp. v. Geneva Pharms., 339 F.3d 1373, 1377 (Fed. Cir. 2003) (rejecting the contention that inherent anticipation requires recognition in the prior art). Thus, recognition in the art that thixotropic materials liquefy when agitated and solidify when not agitated need not be shown to support the Examiner’s finding that the thixotropic material will inherently solidify during conventional use of the lip ring in the AAPA method modified as proposed by the Examiner. Given the well-known properties of thixotropic materials (see FF2, FF5, FF6), which evidences that a previously solidified thixotropic material can be liquefied and used to form a seal because such material returns to a semisolid state upon standing but, at the same time, the very nature of the material permits it to liquefy upon agitation, the Examiner established a sound basis to reasonably support the determination that the thixotropic medium will liquefy during use in a lip ring as a result of the shaft rotation and/or the vibrations created during use in the AAPA method modified as proposed by the Examiner. Once the PTO establishes a prima facie case of anticipation based on inherency, the burden shifts to the appellant to prove that the prior art does not possess the characteristic at issue. See In re King, 801 F.2d 1324, 1327 (Fed. Cir. 1986). Appellant has not provided adequate evidence or technical reasoning to show that liquefication of the thixotropic medium would not inherently occur as a result of shaft rotation and/or vibrations.2 Thus, Appellant fails to identify error in the Examiner’s determination. 2 Appellant points out that Tetsuya teaches irradiating the thixotropic material to cure it (Reply Br. 6; see FF3). However, this is not necessarily inconsistent with subsequent liquefication from vibration or agitation during use, as evidenced by Appellant’s claimed method, in which the thixotropic Appeal 2010-006308 Application 11/189,090 9 Issue (3) Appellant argues that the AAPA “teaches away from a method where temperatures are greater than 90o C.” Reply Br. 8. This argument is unsound. Appellant has already stated on the record that the AAPA method includes subjecting the mounted lip ring to a pressure test at an ambient temperature greater than 90° C. FF1. CONCLUSIONS 1. On the basis of this record, it would have been obvious to substitute a thixotropic medium in place of the wax in the AAPA method described in Appellant’s Specification. 2. If the AAPA method were modified as proposed by the Examiner by using a thixotropic medium in place of the wax, the modified method would include determining whether the mounted lip ring is mounted correctly or damaged and, if it is mounted correctly or undamaged, liquefying the thixotropic medium during use of the lip ring. 3. The AAPA does not teach away from subjecting the lip ring to a pressure test at an ambient temperature greater than 90o C, and, in fact, teaches such a step. In light of these conclusions, Appellant does not apprise us of error in the rejection of claim 11 as unpatentable over the AAPA in view of Tetsuya or Kremer. We thus sustain the rejection of claims 11, 12, 15, and 16 as unpatentable over the AAPA in view of Tetsuya or Kremer. We also sustain the rejection of claims 13 and 14 as unpatentable over the AAPA in view of Tetsuya or Kremer, and further in view of Teicher. medium is solidified after its introduction into the groove and subsequently liquefied during use. Moreover, the Examiner does not specify that the step of curing by irradiation be incorporated into the AAPA method. See Ans. 4. Appeal 2010-006308 Application 11/189,090 10 DECISION The Examiner’s decision rejecting claims 11-16 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). See 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED hh