11173920 (P.T.A.B. Dec. 18, 2012)

Ex Parte Gray et al

Patent Trial and Appeal BoardDec 18, 2012

11173920 (P.T.A.B. Dec. 18, 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. 11/173,920 07/01/2005 Charles L. Gray JR. 310121.424 8914 31785 7590 12/18/2012 DAVID H. READ USEPA, NVFEL 2565 Plymouth Rd. Ann Arbor, MI 48105 EXAMINER TRIEU, THAI BA ART UNIT PAPER NUMBER 3748 MAIL DATE DELIVERY MODE 12/18/2012 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 CHARLES L. GRAY, JR. and DAVID JAMES HAUGEN ____________ Appeal 2010-012378 Application 11/173,920 Technology Center 3700 ____________ Before LINDA E. HORNER, STEVEN D.A. McCARTHY, and SCOTT A. DANIELS, Administrative Patent Judges. HORNER, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Charles L. Gray, Jr. and David James Haugen (Appellants) seek our review under 35 U.S.C. § 134 of the Examiner’s decision rejecting claims Appeal 2010-012378 Application 11/173,920 2 1-3, 5-13, 15-28, 30, and 31. Claims 4, 14, and 29 are pending and not rejected.1 We have jurisdiction under 35 U.S.C. § 6(b). We REVERSE. THE INVENTION Appellants’ claimed invention relates to “multi-stage turbochargers having bypass systems for diverting exhaust gas flow around a first turbine.” Spec. 1, ll. 9-11. Appellants have recognized that a pressure drop, which occurs in the exhaust that flows between ports in the bypass line of a conventional multi-stage turbocharger, represents a loss of useful energy. Spec. 7, ll. 6-25. Appellants’ invention is directed to a valve, system, and method to reclaim some of the energy lost in the bypass channel. Spec. 7, ll. 25-27. Claims 1, 7, 21, 22, 26, and 30 are independent. Claims 1 and 30 are directed to a valve, claims 7, 21, and 26 are directed to a system, and claim 22 is directed to a method. Claims 1 and 7, reproduced below, are representative of the subject matter on appeal. 1. A turbocharger bypass valve, comprising: a valve body having a first passage extending between a first gas inlet and a gas outlet, and a second passage extending between a second gas inlet and the gas outlet, the first and second passages configured such that gas streams entering the first and second inlets are combined into a single gas stream exiting the gas outlet; a valve member actuable between a closed position in which the valve member substantially blocks all gas flow in the 1 The Examiner withdrew the rejections of claims 4, 14, and 29. Ans. 3. Appeal 2010-012378 Application 11/173,920 3 second passage and an open position in which the valve member is retracted, leaving the second passage unobstructed, such that gas flowing in the second passage is substantially unimpeded by the valve member, the valve member configured to direct gas flowing in the second passage in a substantially focused stream toward the outlet; and a control mechanism configured to control actuation of the valve member according to a pressure level at the second gas inlet. 7. A system, comprising: a first turbine having an inlet and an outlet; a bypass channel having a first end in fluid communication with the inlet of the first turbine and a second end in fluid communication with the outlet of the first turbine, and configured to provide a bypass for a flow of gaseous fluid around the first turbine; a second turbine having an inlet in fluid communication with the outlet of the first turbine and the second end of the bypass channel, and an outlet; and a valve positioned in the bypass channel and configured to regulate a flow of gaseous fluid in the bypass channel, the valve further configured to increase a velocity of a stream of the gaseous fluid passing therethrough, and focus the stream toward the inlet of the second turbine such that the increased velocity of the stream of fluid is substantially preserved as it enters the second turbine. THE EVIDENCE The Examiner relies upon the following evidence: Paul US 2,394,471 Feb. 5, 1946 West US 3,576,102 Apr. 27, 1971 Kanesaka US 4,930,315 Jun. 5, 1990 Ando US 5,501,427 Mar. 26, 1996 Appeal 2010-012378 Application 11/173,920 4 Mayer US 6,751,956 B2 Jun. 22, 2004 Dorsch GB 2 110 755 A Jun. 22, 1983 THE REJECTIONS Appellants seek review of the following rejections: 1. Claim 31 under 35 U.S.C. § 112, second paragraph, as being indefinite. 2. Claims 1-3, 5, 6, 10, 30, and 31 under 35 U.S.C. § 103(a) as being unpatentable over Dorsch and either Paul or Ando. 3. Claims 7-9, 11-13, 16-19, and 21-28 under 35 U.S.C. § 103(a) as being unpatentable over Kanesaka and Dorsch. 4. Claim 15 under 35 U.S.C. § 103(a) as being unpatentable over Kanesaka, Dorsch, and Mayer. 5. Claim 20 under 35 U.S.C. § 103(a) as being unpatentable over Kanesaka, Dorsch, and West. ANALYSIS Rejection of claim 31 under 35 U.S.C. § 112, second paragraph Claim 31 depends from claim 1 and recites “wherein the first and second passages merge according to an orientation and configuration selected to preserve kinetic energy of the gas stream that enters the second inlet as it combines with the gas stream that enters the first inlet.” App. Br. 46, Claims Appendix. The Examiner rejected claim 31 because it is not clear which orientation and configuration for the first and second passages is to be selected to preserve energy of the gas stream. Ans. 5. The Examiner further explained that the functional language renders the claim improper Appeal 2010-012378 Application 11/173,920 5 because the structure disclosed in the Specification is incapable of preserving the kinetic energy of the gas.2 Ans. 16. Appellants argue one of ordinary skill in the art would understand what is meant by “preserve kinetic energy of the gas stream” when the claim language is read in view of the Specification, and in particular, the description of the embodiments of Figures 7, 8A, 8B, and 9. App. Br. 11-12 (citing Spec. 13, l. 17 – Spec. 15, l. 7). Figures 7, 8A, and 8B depict a gate- type bypass valve 70 and Figure 9 depicts a venturi-type bypass valve 66. Spec. 13, l. 17 and Spec. 14, l. 24. With reference to gate-type valve 70, the shape of the sliding valve member 80 is selected to function as a nozzle to increase a velocity of the flow of gases and minimize turbulence of a second stream 96 and focus the stream as it joins with stream 94. Spec. 14, ll. 10- 14. The second passage 75 is straight between the valve body inlet and outlet to minimize energy loss due to changes in direction, and the geometry of the valve body and sliding valve member are selected to combine the streams with as little turbulence as possible, so that the combined stream retains a high energy level. Spec. 14, ll. 17-22. With respect to venturi-type bypass valve 66, when the valve is fully open, exhaust flow in the bypass channel 33 is free to flow around the valve member 68 unimpeded, and as the valve member 68 moves toward the closed position, the shape of the valve member 68 in cooperation with the shape of the valve seat 67 2 The Examiner has not presented a separate rejection of claim 31 under 35 U.S.C. § 112, first paragraph, for lack of enablement or adequate written description. Appeal 2010-012378 Application 11/173,920 6 progressively restricts the flow while directing it into a focused stream as it enters the exhaust channel 28. Spec. 15, ll. 1-7. Based on the Specification, one of ordinary skill in the art would understand that an orientation and configuration of the first and second passages designed to “preserve kinetic energy of the gas stream” are those orientations and configurations that focus the stream exiting the bypass channel as it joins with the exhaust stream and that minimize turbulent flow at the point at which the two streams merge within the valve body. As such, we find that the Specification provides an adequate understanding to one of ordinary skill in the art as to an orientation and configuration for the first and second passages to preserve energy of the gas stream as called for in claim 31. Accordingly, we reverse the rejection of claim 31 under 35 U.S.C. § 112, second paragraph, as being indefinite. Rejection of claims 1-3, 5, 6, 10, 30 and 31 as unpatentable over Dorsch and either Paul or Ando The Examiner determined that Dorsch discloses a valve as called for in independent claims 1 and 30 except it fails to disclose an open position of the valve member in which the valve member is retracted leaving the second passage unobstructed or unimpeded by the valve member, and a gate-type valve member. Ans. 6-7. The Examiner determined that it would have been obvious to one having ordinary skill in the art to use a gate-type valve, as taught by Paul and Ando, in place of Dorsch’s valve member 24/25 “to improve the flow control in the [Dorsch] device.” Ans. 7. See also Ans. 19- Appeal 2010-012378 Application 11/173,920 7 21 (annotated Figure 2 of Dorsch showing proposed modifications based on Paul and Ando). As noted by Appellants, Dorsch relies on the closely controlled and continuous obstruction and resistance provided by the cone member 25, which has a diminishing taper downstream of the propulsion jet nozzle 33, to prevent a reduction of the velocity with which the exhaust gases emerge from the propulsion jet nozzle 33. Dorsch, p. 2, ll. 42-49. Replacing Dorsch’s valve cone 24/cone member 25 with the plate valve member of either Paul or Ando would appear to provide less control over the velocity with which the exhaust gases emerge from the bypass pipe. Since Dorsch teaches using a high velocity exhaust emerging from the bypass pipe to entrain the exhaust gas in the pipe downstream of the exhaust turbine so as to reduce exhaust gas pressure downstream of the turbine (Dorsch, p. 2, ll. 33-42), having less control over the velocity of this bypass exhaust gas would be contrary to the purpose of Dorsch’s system. As such, we agree with Appellants (App. Br. 23) that the Examiner’s proposed modification of Dorsch with the valve member of either Paul or Ando is not based on rational underpinnings. Accordingly, we reverse the rejection of independent claims 1 and 30 and their dependent claims 2, 3, 5, 6, and 31 under 35 U.S.C. § 103(a) as being unpatentable over Dorsch and either Paul or Ando. Claim 10 depends from claim 7, which is rejected over the combination of Kanesaka and Dorsch. As the Examiner has failed to set forth a prima facie case of obviousness of independent claim 7 over the Appeal 2010-012378 Application 11/173,920 8 combination of Dorsch and either Paul or Ando, we also reverse the rejection of claim 10. Rejection of claims 7-9, 11-13, 16-19, and 21-28 as unpatentable over Kanesaka and Dorsch The Examiner determined that Kanesaka discloses the system of independent claims 7, 21, and 26 except for a valve/bypass means/means to perform the function of increasing the velocity of the stream and the valve being a venturi-type valve. Ans. 8-10. The Examiner determined that Dorsch teaches: [I]t is conventional in the art of regulating the charging pressure of a turbocharged engine, to utilize the valve (24, 25) configured to increase a velocity of a stream of the gaseous fluid passing therethrough, and focus the stream toward the inlet of the turbine such that the increased velocity of the stream of fluid is substantially preserved as it enters the turbine/means for preserving a portion of energy potential released as pressure of the gas flow drops in the bypass means (See Figures 1-3, Page 1, lines 42-59); and the valve being a venturi-type valve (24, 25) (See Figure 4). Ans. 10-11. The Examiner determined that it would have been obvious to one of ordinary skill in the art to use the venturi-type valve of Dorsch “to improve the efficiency of the Kanesaka turbocharged internal combustion engine.” Ans. 11. The Examiner also determined that the method of claim 22 would be inherent during the normal use and operation of the modified Kanesaka device. Id. We disagree with the Examiner’s determination that Dorsch teaches increasing a velocity of the bypass stream and focusing the stream toward the inlet of a turbine such that the increased velocity of the stream of fluid is Appeal 2010-012378 Application 11/173,920 9 substantially preserved as it enters the turbine. See App. Br. 32. As discussed supra, Dorsch discloses increasing the velocity of the bypass stream to entrain the exhaust gases coming from the outlet of the turbine so as to reduce the pressure downstream of the turbine. Dorsch, p. 2, ll. 33-42. Once the streams from the bypass and turbine exhaust are merged, Dorsch teaches reducing the kinetic energy of the merged stream by using a diffuser 23 to assist the discharge of the exhaust gases to atmosphere. Dorsch, p. 2, ll. 49-53. Thus, Dorsch does not relate to a multi-stage turbocharger, and thus does not teach increasing the velocity of the bypass stream so as to preserve the energy of the stream as it enters the inlet of a second turbine. As such, the combined teachings of Kanesaka and Dorsch would not render obvious the subject matter of independent claims 7, 21, 22, and 26, or their dependent claims 8, 9, 11-13, 16-19, 23-25, 27, and 28. Accordingly, we reverse the rejection of these claims under 35 U.S.C. § 103(a) based on Kanesaka and Dorsch. Rejections under 35 U.S.C. § 103(a) of claim 15 over Kanesaka, Dorsch, and Mayer and of claim 20 over Kanesaka, Dorsch, and West The Examiner does not rely on either Mayer or West to cure the deficiencies in the underlying combination of Kanesaka and Dorsch, discussed supra, as they pertain to independent claim 7, from which claims 15 and 20 depend. Ans. 12 (relying on Mayer to teach “utiliz[ing] the level of fluid pressure being calculated based on operating values of an engine” and relying on West to teach “utiliz[ing] the inlet of the second turbine being coupled to an additional outlet (44) of the exhaust manifold”). Accordingly, Appeal 2010-012378 Application 11/173,920 10 we reverse the rejections of claims 15 and 20 under 35 U.S.C. § 103(a) for the same reasons discussed supra in our analysis of the rejection of independent claim 7. DECISION We REVERSE the decision of the Examiner to reject claims 1-3, 5- 13, 15-28, 30, and 31. REVERSED mls