14135677 (P.T.A.B. Sep. 20, 2017)

Ex Parte Rowan et al

Patent Trial and Appeal BoardSep 20, 2017

14135677 (P.T.A.B. Sep. 20, 2017)

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. 14/135,677 12/20/2013 Brian Rowan 2055-015C 1015 27820 7590 09/22/2017 WITHROW & TERRANOVA, P.L.L.C. 106 Pinedale Springs Way Cary, NC27511 EXAMINER CHEYNEY, CHARLES ART UNIT PAPER NUMBER 3754 NOTIFICATION DATE DELIVERY MODE 09/22/2017 ELECTRONIC 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. Notice of the Office communication was sent electronically on above-indicated "Notification Date" to the following e-mail address(es): patents @ wt-ip.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte BRIAN ROWAN and PATRICK WALSH1 Appeal 2016-002901 Application 14/135,677 Technology Center 3700 Before JAMES P. CALVE, WILLIAM A. CAPP, and SEAN P. O’HANLON, Administrative Patent Judges. CALVE, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Appellants appeal under 35 U.S.C. § 134(a) from the Final Office Action rejecting claims 1—10. See Appeal Br. 6—9. We have jurisdiction under 35 U.S.C. § 6(b). We REVERSE. 1 Walsh Intellectual Property Ltd. is identified as the real party in interest and the Applicant. See Appeal Br. 1. Appeal 2016-002901 Application 14/135,677 CLAIMED SUBJECT MATTER Claim 1, the sole independent claim, is reproduced below. 1. A tubular duct member comprising a plurality of circumferential sheet material panels joined along adjacent longitudinal edges by cooperating sheet material catches formed along each edge, the catches being pushed together such that respective detent surfaces on each catch engage behind one another to retain the edges of the sheets together, wherein at least one of the catches includes a body of resilient material compressed between the catches and biasing the catches apart to maintain the detent surfaces bearing against one another, wherein each catch comprises a rib of triangular cross-section extending along the respective edge, the detent surfaces being surfaces of said ribs. REJECTIONS Claims 1—5 and 10 are rejected under 35 U.S.C. § 102(a) as anticipated by Knudson (US 2009/0058078 Al, pub. Mar. 5, 2009). Claims 6—9 are rejected under 35 U.S.C. § 103(a) as unpatentable over Knudson and Noonan (US 6,270,865 Bl, iss. Aug. 7, 2001). ANALYSIS Claims 1—5 and 10 as anticipated by Knudson The Examiner finds that Knudson discloses duct member 18, as recited in claim 1, with sheet panels 20, 21 joined by cooperating catches (first and second connectors 25, 26) with a body of resilient material (sealant bead 43) compressed between catches 25, 26 to bias the catches apart and maintain detent surfaces (tail 47, second end 39) bearing against each other. Final Act. 3; Ans. 2—3. The Examiner reasons that sealant 43 is resilient because it deforms between the detent surfaces to enhance the seal and has a normal force that acts against other objects that contact it. Ans. 2. 2 Appeal 2016-002901 Application 14/135,677 Appellant argues that Knudson discloses that sealant 43 is deformable like an adhesive or putty, but Knudson does not disclose sealant 43 as being resilient or biasing first connection portion 25 away from second connection portion 26 to lock the panels together, as recited in claim 1. Br. 6—8. The Examiner’s finding that Knudson discloses a body of resilient material that is compressed between the catches and biases the catches apart is not supported by a preponderance of evidence. Appellants disclose this material as “[a] body of resiliently compressible plastics material 36” that “both seals the join [sic] between the edges of the panels and biases the catches apart to maintain the bases 28, 30 of the ribs 26, 22 strongly bearing against one another to avoid a loose joint.” Spec. 6:20—26. This usage is consistent with an ordinary meaning of resilient as “capable of withstanding shock without permanent deformation or rupture” or “tending to recover from or adjust easily to misfortune or change.” See Definition of resilient by Merriam-Webster at http://www.merriam-webster.com/dictionary/resilient (last viewed Sept. 12, 2017). The Examiner reasons that anything with mass inherently exhibits a normal force back at another object in contact with it, and this force alone provides a biasing. Ans. 2. The Examiner also finds that a certain amount of resiliency is disclosed implicitly by the enhancement of sealing when the surfaces compress the sealant body, and this reformation of shape (ability to return to an original shape) allows the deformable sealant 43 to fill crevices or spaces between the surfaces and bias them apart an appreciable amount. Id. at 3. The Examiner finds that Figure 3 illustrates two surfaces biased apart from one another with the resilient sealant 43 disposed therebetween and acting against each surface as a biasing force. Id. 3 Appeal 2016-002901 Application 14/135,677 Our review of Knudson leads us to the opposite conclusion from that reached by the Examiner. Figures 3—6 of Knudson are reproduced below. Figure 6 is an end view of the second connector 26, which is inserted into the first connector 25, which is pictured in Figure 5. A sealant bead 43 is placed in receptacle 28 (first end 37) of first connector 25 as shown in Figure 5 so that when second connector 26 is inserted into first connector 25, sealant bead 43 is compressed as shown in Figure 3 above. Then, flange 29 of first connector 25 is pushed or formed against tail 47 of second connector 26 to complete the connection as shown in Figure 4. Knudson H 24—25. 4 Appeal 2016-002901 Application 14/135,677 We agree with the Examiner that sealant bead 43 is compressed when second connector 26 is inserted into first connector 25. Knudson discloses that when nose 46 (of second connector 26) is inserted into receptacle 28 (of first connector 25), “the nose 46 deforms the bead of sealant 43, enhancing the sealing of the connection 15.” Knudson 124; Ans. 3 (citing id.). The drawings of Knudson illustrate this deformation. Figure 5 shows sealant bead 43 with a circular cross section before second connector 26 is inserted into first connector. Figure 3 shows the deformation of sealant bead 43 by nose 46 of second connector 26 after assembly. We are not persuaded, however, that Knudson discloses that sealant bead 43 is resilient, i.e., has an ability to return to its original shape or exert a force against nose 46 of second connector 26 or against first end 37 of first connector 25 to bias first connector 25 and second connector 26 and their catches apart or maintain detent surfaces 47, 39 bearing against one another, as the Examiner found. Final Act. 3; Ans. 2—3. Instead, Knudson illustrates sealant bead 43 as being permanently deformed from a circular cross section in Figure 5 to a semi-circular cross section in Figures 3 and 4. As a result, Figure 3 shows a gap between detent surfaces 47, 39. We understand this gap to signify that sealant bead 43 does not exert any biasing force between first and second connectors 25, 26 such that the connectors 25, 26 are biased apart or their respective detent surfaces 47, 39 bear against one another, as claimed. In other words, even though a space or gap exists between first and second connectors 25, 26 after assembly, sealant bead 43 retains a deformed shape in Figure 3. It does not expand in any respect. It does not bias first and second connectors 25, 26 apart or cause detent surfaces 47, 39 to bear against one another, as claimed. 5 Appeal 2016-002901 Application 14/135,677 As a result, Knudson discloses that flange 29 of first connector 25 must be pushed, formed, hand crimped, or roll formed against tail 47 of second connector in order to secure second connection 26 inside of first connection 25 and complete the sealed connection as shown in Figure 4. Knudson 125. In view of these disclosures, we are not persuaded that sealant bead 43 exerts a biasing force between the first and second connections 25, 26 to bias those elements apart or maintain detent surfaces 47, 39 bearing against one another, as required by claim 1. Thus, we do not sustain the rejection of claims 1—5 and 10. Claims 6—9 as unpatentable over Knudson and Noonan Appellants argue that the Examiner’s reliance on Noonan to teach features of dependent claims 6—9 (see Final Act. 5) does not remedy the deficiencies of Knudson as to claim 1, from which claims 6—9 depend. Br. 8. We agree. Thus, we do not sustain the rejection of claims 6—9. DECISION We reverse the rejections of claims 1—10. REVERSED 6