13808519 (P.T.A.B. Oct. 30, 2018)

Ex Parte Frenal et al

Patent Trial and Appeal BoardOct 30, 2018

13808519 (P.T.A.B. Oct. 30, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 13/808,519 01/04/2013 Antoine Frenal 40582 7590 11/01/2018 American Air Liquide, Inc. Intellectual Property Department 9811 Katy Freeway Suite 100 Houston, TX 77024 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. Serie 8509 9713 EXAMINER STCLAIR, ANDREW D ART UNIT PAPER NUMBER 3753 NOTIFICATION DATE DELIVERY MODE 11/01/2018 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): IP-USOffice@airliquide.com Neva.Dare-c@airliquide.com J us tin.Murray@airliquide.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte ANTOINE FRENAL, PHILIPPE DECK, CYRIL MANS COURT, and PHILIPPE PIS OT Appeal2018-001494 1 Application 13/808,5192 Technology Center 3700 Before BEYERL Y M. BUNTING, KENNETH G. SCHOPPER, and ROBERT J. SILVERMAN, Administrative Patent Judges. SCHOPPER, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. Â§ 134 from the rejection of claims 16-28. We have jurisdiction under 35 U.S.C. Â§ 6(b). We AFFIRM. 1 Our decision references the Appeal Brief ("Appeal Br.," filed Aug. 7, 2017), the Reply Brief ("Reply Br.," filed Nov. 28, 2017), the Examiner's Answer ("Ans.," mailed Sept. 28, 2017), and the Final Office Action ("Final Act.," mailed Feb. 24, 2017). 2 According to Appellants, the real party in interest is L' Air Liquide, S. A. Appeal Br. 3. Appeal2018-001494 Application 13/808,519 BACKGROUND According to Appellants, "[t]he present invention relates to a pressurized-gas filling nozzle, a unit comprising a connector and a filling nozzle, the use thereof and a corresponding filling method." Spec. 1. CLAIMS Claims 16 and 27 are the independent claims on appeal. Claim 16 is illustrative of the appealed claims and recites: 16. A filling nozzle designed to engage with a filling connector (1) of a faucet of a pressurized-fluid recipient, compnsmg â€¢ a base (15, 16) and at least one claw (2) extending longitudinally about a longitudinal axis (A), â€¢ a filling connector (1) with at least one internal valve, â€¢ a central space located between the at least one claw (2) and the longitudinal axis (A) forming an enclosure configured to receive the filling connector (1) of cylindrical overall shape, â€¢ an internal face of the at least one claw (2) located facing a central space being of flat overall shape and having reliefs (12) and/or recesses (22) of set dimensions, reliefs (12) and/or recesses (22) being spaced relative to one another in a set fashion, and configured to fit into matching grooves (11) and/ or reliefs (21) formed on an external face of the filling connector (1 ), â€¢ the at least one claw (2) being movable in relation to the base (15, 16) transversely in relation to the longitudinal axis (A) between an open position configured to enable insertion of the filling connector (1) in the central space and a closed position configured to enable the internal face of the at least one claw (2) to fit the external face of the filling connector ( 1 ), â€¢ said nozzle further including a locking member (3) movable in relation to a base (15, 16) and in relation to the at least one claw (2) between an active position locking the at 2 Appeal2018-001494 Application 13/808,519 least one claw (2) in closed position and an inactive position enabling the at least one claw (2) to move to an open position, â€¢ wherein the locking member (3) is adapted to be pushed by default towards the active position thereof by a return member ( 60), â€¢ the filling nozzle includes a valve actuator ( 111) that is selectively movable in the central space to actuate the opening of the at least one internal valve of the filling connector (1 ), and â€¢ the valve actuator ( 111) of the filling nozzle being movable in translation independently of the position of the at least one claw (2) and of the position of the locking member (3). Appeal Br. 13. REJECTION The Examiner rejects claims 16-28 under 35 U.S.C. Â§ 103(a) as unpatentable over Dubinsky3 in view of Scott4 and/or Le Clair. 5 DISCUSSION Appellants address the claims as a single group. See Appeal Br. 6-11. We select claim 16 as representative of this group, and claims 17-28 will stand or fall with claim 16. With respect to claim 16, the Examiner finds that Dubinsky teaches a filling nozzle with the claimed features, except that Dubinsky does not disclose an internal valve in the filling connector. Final Act. 4--5. The Examiner finds that Dubinsky does disclose a valve in the nozzle body, and the Examiner finds that both Scott and Le Clair teach a configuration that includes an internal valve in the filling connector. Id. The Examiner 3 Dubinsky, US 6,343,630 B 1, iss. Feb. 5, 2002. 4 Scott et al., US 4,960,261, iss. Oct. 2, 1990. 5 Le Clair, US 2,457,052, iss. Dec. 21, 1948. 3 Appeal2018-001494 Application 13/808,519 concludes that it would have been obvious to include a valve in the filling connector to automatically seal the connector after fluid transfer is complete and that doing so "merely amount[ s] to a combination of known elements according to known methods with predictable results." Id. at 5. We agree with and adopt the Examiner's findings and conclusions with respect to claim 16. See Final Act. 4--5; see also Ans. 2-8. As discussed below, we are not persuaded of reversible error by Appellants' arguments. First, Appellants argue "that there is no deficiency in Dubinsky" such that "[t]here would be no purpose or impulse for the skilled artisan to introduce an internal valve in the filling connector" of Dubinsky's device because "the filling nozzle (1) already has an internal valve (39)." Appeal Br. 6-7. We are not persuaded by this argument. Regardless of whether there is a specific deficiency identified in Dubinsky's system, the Examiner has identified a reason with adequate rational underpinnings to support the conclusion that it would have been obvious to one of skill in the art to modify Dubinsky to include a second valve in the filling connector. See KSR Int 'l Co. v. Teleflex Inc., 550 U.S. 398, 418 (2007). In particular, the Examiner's conclusion is supported by the art of record wherein both Scott and Le Clair provide valves at both ends of a fluid connector and wherein the art provides a reason for providing two valves. See Final Act. 5; see also e.g., Le Clair col. 6, 11. 11-22 (teaching that the valves prevent fluid from escaping when the coupling members are disengaged). Appellants do not address expressly the Examiner's reasoning, and thus, this argument fails to show any error in the rejection before us. 4 Appeal2018-001494 Application 13/808,519 Second, Appellants argue that adding a second valve to Dubinsky's device would compromise the basic functionality of the device. Appeal Br. 8. Specifically, Appellants assert that equalization of pressure in Dubinsky's nozzle and connector allows for the connector to be easily disengaged from the nozzle and that placing a valve in the connector would prevent pressure equalization such that the parts could not be easily disengaged. Id. We are not persuaded for the reasons provided by the Examiner in the Answer. See Ans. 4. Specifically, Appellants do not explain adequately why the proposed modification of Dubinsky would affect the ability to disconnect the connector and nozzle. As the Examiner explains, the modification to Dubinsky contemplates that the valve would be open when the connector is connected, as in the valves of the secondary references. Id. As such, we fail to see how the inclusion of a valve, as claimed, would affect equalization of pressure and thus make the removal of the connector more difficult. Third, Appellants argue that the Examiner has failed to identify a valve actuator that is selectively movable as required by the claim. Appeal Br. 8. Appellants assert that the Examiner identifies Dubinsky's element 4 as such an actuator, but Dubinsky discloses that valve 39 only opens when the pressure difference across the valve "overcomes the force provided by piston spring 41." Id. Thus, Appellants assert that the valve actuator is automatically moved to open the valve and not selectively moved to open the valve. However, we agree with the Examiner that the broadest reasonable interpretation of the claim, when read in light of the Specification, requires only that the actuator is selectively moved when the operator chooses to move it by any means. First, we note that the claim language itself does not 5 Appeal2018-001494 Application 13/808,519 provide for how the movement of the actuator is selected. The claim recites only that the valve actuator "is selectively movable in the central space to actuate the opening of the at least one internal valve" without further recitation regarding how such movement is achieved. Second, the Specification does not provide any clear indication as to how selective movement should be construed. For example, regarding movement of the actuator, the Specification describes: For example, the filling nozzle includes a valve actuator 111 that is movable in translation by electromechanical and/or hydraulic and/or pneumatic means and/or by means of a manual or automatic control lever 204. The lever 204 is for example pivoting and transforms for example a rotational movement into a selective movement of the valve actuator 111 along the longitudinal axis A (see Figures 5 and 6). Spec. 13, 11. 9--15. Thus, the Specification describes various means by which the valve actuator may be moved and provides an example in which the rotational movement of a lever translates into "selective" longitudinal movement of the valve actuator. But the Specification does not indicate or explain that the other forms of movement, e.g., by hydraulic means, would not be selective. Further, this passage indicates that such "selective" movement may be by indirect means, i.e., the user rotates a lever to provide longitudinal movement without the user directly applying any force on the actuator itself. Thus, we find that the Specification is consistent with the Examiner's interpretation that the claim only requires that the user chooses that the actuator moves and does not otherwise limit how such movement is achieved. 6 Appeal2018-001494 Application 13/808,519 Based on this interpretation of the claim, we agree with the Examiner that Dubinsky's method of actuating valve 39 falls within the scope of the claim. Specifically, the user chooses to move the actuator to connect it to valve 39 (see Figures 2 and 3), which allows for fluid flow through the nozzle. The fluid flow through the nozzle results in high pressure that forces the actuator to move, which in tum cause the valve to open. See Dubinsky col. 2, 1. 47---col. 3, 1. 4. We disagree with Appellants that Dubinsky describes only "a completely passive opening of a valve." Reply Br. 2. Rather, as noted, the user actively moves the identified actuator to engage the valve, which allows for fluid transfer and higher pressure that acts to further move the actuator to open the valve. Finally, Appellants argue that Dubinsky does not teach "a locking member that is adapted to be pushed by default towards the active position thereof by a return member." Appeal Br. 9. Appellants assert that the active position is the position in which the nozzle is distributing the pressurized fluid (Dubinsky Fig. 5), and Appellants argue that in Dubinsky's device, the locking member "holds the retaining ring equally during active and inactive states." Id. at 9--11. We agree that in the active position relied upon by Appellants' argument, i.e., Dubinsky's Figure 5, the locking member identified by the Examiner (Dubinsky's element 12) is pushed towards the active position by the return member identified by the Examiner (Dubinsky' s unlabeled spring), as indicated by the spring being in the extended position, as opposed to the compressed position shown in Figure. 6. See Ans. 5---6. Further, Figure 6 shows the position of the locking member and return member when the filling connector is to be disengaged, and in this figure, the return member identified by the Examiner is 7 Appeal2018-001494 Application 13/808,519 compressed and urged away from this position. See Dubinsky Fig. 6; see also Final Act. 4. Appellants do not explain adequately how the configuration depicted in these figures fails to meet the claim limitation at issue. Finally, to the extent Appellants argue that the return member in Dubinsky pushes the locking member equally toward active and certain inactive positions, we note that the claim does not foreclose such a configuration. Rather, the claim only requires that the default position is toward the active position and does not require any specific position when in the inactive position. Based on the foregoing, we are not persuaded of error in the rejection of claim 16. Accordingly, we sustain the rejection of claim 16, and we also sustain the rejection of claims 17-28, which fall with claim 16. CONCLUSION We AFFIRM the rejection of claims 16-28. 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)(l )(iv). AFFIRMED 8