10214865 (B.P.A.I. Mar. 10, 2010)

Ex Parte Gibson et al

Board of Patent Appeals and InterferencesMar 10, 2010

10214865 (B.P.A.I. Mar. 10, 2010)

UNITED STATES PATENT AND TRADEMARK OFFICE ____________________ BEFORE THE BOARD OF PATENT APPEALS AND INTERFERENCES ____________________ Ex parte CATERPILLAR, INC. ____________________ Appeal 2009-005550 Application 10/214,865 Technology Center 3700 ____________________ Decided: March 11, 2010 ____________________ Before RICHARD E. SCHAFER, JAMESON LEE, and SALLY C. MEDLEY, Administrative Patent Judges. LEE, Administrative Patent Judge. DECISION ON APPEAL A. STATEMENT OF THE CASE This is a decision on appeal by the real party in interest, Caterpillar, Inc. (“Caterpillar”), under 35 U.S.C. § 134(a) from a final rejection of claims 8-19. We have jurisdiction under 35 U.S.C. § 6(b). We reverse. Appeal 2009-005550 Application 10/214,865 2 References Relied on by the Examiner Honma et al. (“Honma”) 4,526,145 Jul. 2, 1985 Matsumura et al. (“Matsumura”) 4,573,442 Mar. 4, 1986 Kawachi et al. (“Kawachi”) 6,135,090 Oct. 24, 2000 The Rejections on Appeal The Examiner rejected claims 8-13 and 15-19 under 35 U.S.C. § 103(a) as unpatentable over Kawachi and Honma. The Examiner rejected claim 14 under 35 U.S.C. § 103(a) as unpatentable over Kawachi, Honma, and Matsumura. The Invention The invention relates to a common rail fuel injection system incorporating a sleeve metered variable delivery fluid pump. (Spec. 1:12- 16.) Claim 8 is reproduced below (App. Br. 14 Claims App’x.): A fuel injection system comprising: a common rail; a plurality of fuel injectors fluidly connected to said common rail; a source of fluid; a sleeve metered pump with an outlet fluidly connected to said common rail and an inlet fluidly connected to said source of fluid; an inlet check valve fluidly positioned between said source of fluid and a pump chamber of said sleeve metered pump; Appeal 2009-005550 Application 10/214,865 3 said sleeve metered pump including a solenoid assembly, at least one plunger that defines a vent and is positioned to reciprocate a stroke distance in a pump housing; said solenoid assembly includes a coil disposed around said at least one plunger and a metering sleeve slidably mounted on each said at least one plunger; and a camshaft operably coupled to said pump and being rotatable with respect to said at least one plunger. B. ISSUE Has Caterpillar shown that the Examiner erred in determining that a person of ordinary skill in the art would have had reason to substitute Honma’s cut-off valve for Kawachi’s fuel-pressure control valve? C. FINDINGS OF FACT 1. Kawachi discloses a fuel injection control system that includes high pressure pump 8. (Kawachi 4:32-35.) Appeal 2009-005550 Application 10/214,865 4 2. Kawachi’s Figures 2-4 are reproduced below: The figures above depict cross-sectional views of Kawachi’s pump during its operation. 3. As shown in the figures reproduced above, Kawachi’s pump 8 includes cylinder 10, pressurized chamber 11, reciprocating pump plunger 12, cam 13, fuel passage 15, suction valve 16, discharge fuel passage 17, discharge valve 18, a relief fuel passage 19, and fuel-pressure control valve 20. (Id. at 4:48-63.) 4. When cam 13 rotates, plunger 12 follows a reciprocating motion within cylinder 10. (Id. at 5:10-15.) 5. As plunger 12 reciprocates, fuel is allowed to pass from fuel passage 15 through suction valve 16 into pressurized chamber 11 and then through discharge valve 18 where it is directed to common rail 30 (not shown in the figures reproduced above). (Id. at 5:34-47.) 6. The pressure level of the fuel in pressurized chamber 11 is representative of the pressure level of the fuel within common rail 30. (Id. at 6:50-59.) Appeal 2009-005550 Application 10/214,865 5 7. Kawachi’s Figure 5 is reproduced below: The figure above depicts the operation of fuel-pressure control valve 20. 8. As illustrated in Figure 5, in the event that the fuel pressure in pressurized chamber 11 is beyond a predetermined maximum, pressure control valve 20 opens to relieve pressure within the chamber. (Id.) 9. The purpose of fuel-pressure control valve 20 is to control and regulate the pressure within pressurized chamber 11 and by extension the pressure within common rail 30. (Id. at 6:38-49; 8:9-14.) 10. Honma discloses an apparatus for adjusting fuel injection quantity in a fuel injection pump. (Honma 1: 6-12.) 11. In Honma, cut-off valve 68 operates to adjust the quantity of fuel that is supplied directly to a fuel injector. (Id. at 3:36-39.) 12. The only component of Honma’s pump that is associated with any pressure regulating function is a separate valve 42. (Id. at 3:4-6.) Appeal 2009-005550 Application 10/214,865 6 13. Honma’s Figure 1 is reproduced below: The figure above depicts a cross-sectional view of Honma’s fuel injection pump. 14. As shown in Figure 1, valve 42 is illustrated as a feature of Honma’s pump that is removed from cut-off valve 68. (Id. at Fig. 1.) D. PRINCIPLES OF LAW To support an obviousness determination, the Examiner must articulate a reason with rational underpinnings to support a motivation to combine two reference’s teachings. In re Kahn, 441 F.3d 977, 988 (Fed. Cir. 2006). E. ANALYSIS The Examiner rejected claims 8-13 and 15-19 as unpatentable over Kawachi and Honma and claim 14 as unpatentable over Kawachi, Honma, and Matsumura. Caterpillar argues dependent claims 9-13 and 16-19 Appeal 2009-005550 Application 10/214,865 7 collectively with independent claims 8 and 15. Dependent claim 14 is argued separately. We focus on claims 8 and 15. Claim 8 is drawn to a fuel injection system. Claim 15 is drawn to a method that corresponds to the system of claim 8. Specifically, those claims associate a “common rail” with a “sleeve metered pump” in a fuel injection system. The common rail operates to deliver fuel to a plurality of fuel injectors connected to the common rail. The pump supplies fuel to the common rail and includes a solenoid assembly with a coil disposed around a plunger and a metering sleeve which is slidably mounted on the plunger. The Examiner found that the Kawachi discloses a fuel injection system which uses a common rail. In particular, the Examiner characterizes Kawachi’s teachings as follows (Ans. 3:15-16): Kawachi teaches a common rail fuel system fed by a single reciprocating pump. The pump includes an inlet check valve and a magnetically controlled spill valve. Evidently, the Examiner determined that Kawachi’s “magnetically controlled spill valve” lacks some feature required by Caterpiller’s claims. To make-up for the deficiency, the Examiner turned to Honma. The Examiner characterizes Honma’s teachings as follows (Ans. 3:17-20): Honma teaches a multiple cam pump whose output is varied using a spill valve. The spill valve is on the bottom of the pump piston and fuel is spilled from the pump via an internal spill passage (Note the similarity between Appellant’s Figure 3 and Figure 14 of Honma.). Combining the teachings of Kawachi and Honma, the Examiner concluded (Ans. 3:21-4:2): Appeal 2009-005550 Application 10/214,865 8 It would have been obvious to modify Kawachi by merely replacing the spill valve (and spill passage) mechanism with the one taught by Honma because this type of spill valve had been used for decades on rotating and reciprocating pumps and on merely reciprocating pumps (although the magnetic ring feature was only found on the former). [Emphasis in original] The Examiner’s choice of terminology in describing the teachings of Kawachi and Honma and how they are applied to Caterpillar’s claims is confusing. Neither of those references nor Caterpillar’s claims uses the terms “spill valve” or “spill passage.” Based on our review of the record, the Examiner has evidently determined that Kawachi’s pump 8 is not a “sleeve-metered pump” because the electromagnetically-controlled pressure control valve 20 within that pump lacks the component of a metered sleeve. To supply the missing feature, the Examiner appears to have pointed to Honma’s disclosure of solenoid operated cut-off valve 68 as including a metered sleeve. The Examiner then concluded that it would have been obvious to substitute Honma’s cut-off valve 68 for Kawachi’s pressure control valve 20 to arrive at Caterpillar’s claimed invention. Caterpillar contends that there is no motivation to substitute Honma’s cut-off valve 68 for Kawachi’s pressure control valve 20 because those two valves, while both used in fuel injection systems, operate for different purposes and perform distinct functions within their respective systems. To support an obviousness determination, the Examiner must articulate a reason with rational underpinnings to support a motivation to combine two reference’s teachings. In re Kahn, 441 F.3d at 988. In this case, the rationales offered by the Examiner to support his proposed combination of Kawachi and Honma are: (1) that valves with a metering Appeal 2009-005550 Application 10/214,865 9 sleeve, such as in Honma, “have been used for decades” in fuel pumps (Ans. 4:1); (2) that the valves of Kawachi and Honma may be substituted for one another because they “are performing the exact same function” (Ans. 7:12- 14); and (3) that Honma teaches that its valve “produces improved control accuracy over prior art control sleeves…” (Ans. 8:3-6.) None of those rationales is persuasive. As to the first rationale, that one type of fuel pump, such Honma’s pump, includes one type of valve does not alone provide adequate reason to implement that valve in another type of fuel pump. That is, a motivation to combine the teachings of Honma with Kawachi does not emerge simply because Honma shows that valves with a metered sleeve are known to exist. With respect to the Examiner’s second rationale, we do not agree with the Examiner that the identified valves of Kawachi and Honma perform the same function. Kawachi discloses a fuel injection control system that includes high pressure pump 8. (Kawachi 4:32-35.) Appeal 2009-005550 Application 10/214,865 10 Kawachi’s Figures 2-4 are reproduced below: The figures above depict cross-sectional views of Kawachi’s pump during its operation. As shown in the figures reproduced above, Kawachi’s pump 8 includes cylinder 10, pressurized chamber 11, reciprocating pump plunger 12, cam 13, fuel passage 15, suction valve 16, discharge fuel passage 17, discharge valve 18, a relief fuel passage 19, and fuel-pressure control valve 20. (Id. at 4:48-63.) When cam 13 rotates, plunger 12 follows a reciprocating motion within cylinder 10. (Id. at 5:10-15.) As plunger 12 reciprocates, fuel is allowed to pass from fuel passage 15 through suction valve 16 into pressurized chamber 11 and then through discharge valve 18 where it is directed to common rail 30 (not shown in the figures reproduced above). (Id. at 5:34-47.) The pressure level of the fuel in pressurized chamber 11 is representative of the pressure level of the fuel within common rail 30. (Id. at 6:50-59.) Appeal 2009-005550 Application 10/214,865 11 Kawachi’s Figure 5 is reproduced below: The figure above depicts the operation of fuel-pressure control valve 20. As illustrated in the figure above, in the event that the fuel pressure in pressurized chamber 11 is beyond a predetermined maximum, pressure control valve 20 opens to relieve pressure within the chamber. (Id.) Thus, the purpose of fuel-pressure control valve 20 is to control and regulate the pressure within pressurized chamber 11 and by extension the pressure within common rail 30. (Id. at 6:38-49; 8:9-14.) On the other hand, Honma’s cut-off valve 68 is not disclosed as functioning to relieve pressure within its fuel injector system. Instead, valve 68 is described as operating to adjust the quantity of fuel that is supplied directly to a fuel injector. (Honma 3:36-39.) The only component of Honma’s pump that is associated with any pressure regulating function is a separate valve 42. (Id. at 3:4-6.) Appeal 2009-005550 Application 10/214,865 12 Honma’s Figure 1 is reproduced below: The figure above depicts a cross-sectional view of Honma’s fuel injection pump. Little detail is provided as to the structure of valve 42, however, as shown in the figure reproduced above, it is illustrated as a feature of Honma’s pump that is removed from cut-off valve 68. (Id. at Fig. 1.) That a separate valve component is necessary to perform a pressure regulating function indicates that the cut-off valve does not perform such a function. Accordingly, we reject the Examiner’s premise that Honma’s cut-off valve 68 may be substituted for Kawachi’s pressure control valve 20 because those two valves allegedly have the “exact same” function. As set forth above, Kawachi’s valve operates to relieve fuel pressure when a predetermined maximum pressure is reached whereas Honma’s valve operates to adjust fuel quantity that is supplied directly to a fuel injector. Appeal 2009-005550 Application 10/214,865 13 Those two functions are independent and have not been shown to be the same. Finally, we also reject the Examiner’s third proposed rationale for combining the teachings of Kawachi and Honma. Honma does disclose that its cut-off valve 68 has the benefit of providing improved control accuracy of fuel quantity supplied to a fuel injector. (Id. at 2:3-5.) However, the Examiner does not explain why that benefit would be desirable or even apply when the cut-off valve is substituted for a valve that must operate to control fuel pressure, such as Kawachi’s fuel-pressure control valve 20. On this record, the Examiner has not established a reasonable basis for the conclusion that a person of ordinary skill in the art would have had reason to substitute Honma’s cut-off valve for Kawachi pressure control valve. For the foregoing reasons, we do not sustain the rejection of claims 8 and 15 as unpatentable over Kawachi and Honma. Claims 9-14 and 16-19 are ultimately dependent on, and include all the limitations of, one of claims 8 and 15. Accordingly, we also do not sustain the rejection of claims 9-13 and 16-19 over Kawachi and Honma or the rejection of claim 14 over Kawachi, Honma, and Matsumura. F. CONCLUSION Caterpillar has shown that the Examiner erred in determining that a person of ordinary skill in the art would have had reason to substitute Honma’s cut-off valve for Kawachi’s fuel-pressure control valve. G. ORDER The rejection of claims 8-13 and 15-19 under 35 U.S.C. § 103(a) as unpatentable over Kawachi and Honma is reversed. Appeal 2009-005550 Application 10/214,865 14 The rejection of claim 14 under 35 U.S.C. § 103(a) as unpatentable over Kawachi, Honma, and Matsumura is reversed. REVERSED CATERPILLAR c/o LIELL, MCNEIL & HARPER Intellectual Property Department AH9510 100 N.E. Adams Peoria IL 61629-9510