Ex Parte Wachtel et alDownload PDFPatent Trial and Appeal BoardAug 9, 201713020200 (P.T.A.B. Aug. 9, 2017) Copy Citation 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. 13/020,200 02/03/2011 Herbert WACHTEL 01-2036-US-2 1933 28518 7590 C/O VP, IP, LEGAL BOEHRINGERINGELHEIM USA CORPORATION 900 RIDGEBURY ROAD RIDGEFIELD, CT 06877-0368 EXAMINER YOUNG, RACHEL T ART UNIT PAPER NUMBER 3771 NOTIFICATION DATE DELIVERY MODE 08/11/2017 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): US PTO.e-Office. rdg@ boehringer-ingelheim .com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte HERBERT WACHTEL, HUBERT HOELZ, and MARC ROHRSCHNEIDER Appeal 2015-008202 Application 13/020,2001 Technology Center 3700 Before ANTON W. FETTING, BIBHU R. MOHANTY, and MICHAEL C. ASTORINO, Administrative Patent Judges. ASTORINO, Administrative Patent Judge. DECISION ON APPEAL The Appellants appeal under 35 U.S.C. § 134 from the Examiner’s decision rejecting claims 11—14 and 16—19. We have jurisdiction over the appeal under 35 U.S.C. § 6(b). We REVERSE. 1 According to the Appellants, “the real party in interest is Boehringer Ingelheim Pharma GmbH & Co. KG, assignee of record and the owner of the entire interest in the instant application.” Appeal Br. 2. Appeal 2015-008202 Application 13/020,200 STATEMENT OF THE CASE Claimed Subject Matter Claim 11, the sole independent claim, is representative of the subject matter on appeal and is reproduced below. 11. A device for providing pharmaceutical active substances, active substance mixtures, and formulations, comprising: a container having a valve stem extending along an axis, the container being filled with a pharmaceutical preparation, containing an active substance, an active substance mixture or formulation in pressure-liquefied 1.1.1.2-tetrafluoroethane (HFC-134a) or 1.1.1.2.3.3.3-heptafluoropropane (HFC-227) ora mixture of HFC-134a and HFC-227, a shaft within which the container is disposed, a valve stem receptacle receiving at least a portion of the valve stem of the container and having a channel extending away from the valve stem about the axis and tapering to a channel opening at a terminus of the channel such that a volume of the channel terminates at the channel opening and no volume of the channel exists along the axis beyond the channel opening, where the tapering is characterised by: (i) respective decreasing radial distances taken perpendicularly from the axis to a surface of the channel as the radial distances are taken along the axis at positions farther from the valve stem, and (ii) respective substantially constant radial distances taken perpendicularly from the axis to the surface of the channel when the radial distance is in a common plane with the axis and the channel opening, and a nozzle bore extending into the valve stem receptacle transversely to the channel such that: (i) the nozzle bore impacts upon the channel at an obtuse angle to the axis extending from the valve stem, and (ii) the pharmaceutical composition, mixture or formulation which is liquefied under pressure is directed at greater than 90 degrees from a direction along the axis from the valve stem and outwards through the nozzle bore, thereby generating a spray cloud at a transition from the nozzle bore to a nozzle opening. 2 Appeal 2015-008202 Application 13/020,200 Rejections Claims 11, 12, 14, 18, and 19 stand rejected under 35 U.S.C. § 103(a) as unpatentable over Davies et al. (US 2005/0061314 Al, published Mar. 24, 2005; hereinafter “Davies”) and Wharton et al. (US 2007/0119450 Al, published May 31, 2007; hereinafter “Wharton”) and Shultz et al. (US 5,899,201, issued May 4, 1999; hereinafter “Shultz”). Claims 13 and 16 stand rejected under 35 U.S.C. § 103(a) as unpatentable over Davies, Wharton, Shultz, and Fenn et al. (US 2008/0023000 Al, published Jan. 31, 2008; hereinafter “Fenn”). Claim 17 stands rejected under 35 U.S.C. § 103(a) as unpatentable over Davies, Wharton, Shultz, and Warby (US 2008/0224082 Al, published Sept. 18,2008). ANALYSIS Independent claim 11 requires, among other things, a valve stem receptacle having a channel “tapering to a channel opening at a terminus of the channel such that a volume of the channel terminates at the channel opening and no volume of the channel exists along the axis beyond the channel opening.” Appeal Br., Claims App. A feature of the foregoing limitation is a lack of space within the channel that projects beyond a nozzle bore (i.e., a “dead volume”). See Spec. 3. Compare Spec. Fig. 5 with Spec. Fig. 3a (Figure 5 depicts a “dead volume” by showing a space within channel 8 that projects beyond nozzle bore 9 and does not lie in the direct flow path, whereas Figure 3 has no or almost no “dead volume”). Claim 11 further restricts the structure of the channel taper with two limitations. The first limitation of the channel taper is set forth by the 3 Appeal 2015-008202 Application 13/020,200 recitation, “(i) respective decreasing radial distances taken perpendicularly from the axis to a surface of the channel as the radial distances are taken along the axis at positions farther from the valve stem.” Appeal Br., Claims App. This first limitation, taken in light of the previous claimed feature, essentially requires a channel with no dead volume, where the channel narrows towards the terminus of the channel (i.e., the channel opening). The second structural limitation of the channel taper is set forth by the recitation, “(ii) respective substantially constant radial distances taken perpendicularly from the axis to the surface of the channel when the radial distance is in a common plane with the axis and the channel opening.” Appeal Br., Claims App. This feature essentially requires a channel, in a longitudinal section side view, to have a constant distance between the longitudinal axis of a valve stem and the surface of the channel that terminates in channel opening. See, e.g., Spec. Fig. 3a. The Examiner finds Davies’s Figure 1 depicts a channel that corresponds with the foregoing features of claim 11, except for the second structural limitation of the channel taper. Final Act. 3. More specifically, the Examiner finds Davies’s actuator insert 5 includes a channel that narrows to an opening and lacks a dead volume. See Final Act. 3. As for the second structural limitation of the channel taper, the Examiner finds that Wharton’s Figure 7 teaches this second limitation of the taper. Final Act. 4. The Examiner concludes that: it would have been obvious to one of ordinary skill in the art. . . to modify Davies’[s] tapering with respective substantially constant radial distances taken perpendicularly from the axis to the surface of the channel when the radial distance is in a common plane with the axis and the channel opening, as taught by Wharton, for the purpose of providing an 4 Appeal 2015-008202 Application 13/020,200 alternate tapering funnel structure having the predictable results of providing a cloud spray to a user for inhalation. Final Act. 4. The Appellants argue that the foregoing modification results in “the claimed taper with the omission of dead space below the channel opening” only by arbitrarily choosing features of Davies’s and Wharton’s channels and relying on knowledge found in the Appellants’ Specification. See Appeal Br. 7—8; Reply Br. 4—6. The Appellants’ argument is persuasive. At the outset, we note that the Examiner’s rejection relies solely on the channels as depicted in Davies’s Figure 1 and Wharton’s Figure 7. See Final Act. 3^4; see also Ans. 8—9. In as much as Davies’s Figure 1 teaches a channel having features that correspond to some of the features of the claimed channel, the figure effectively depicts the exact opposite of the second structural limitation, i.e., “tapering front wall surface (the surface near the nozzle 20).” See Appeal Br. 7; Reply Br. 4. And, although Wharton teaches the second structural limitation, Wharton does not teach many of the other features of the claimed channel. For example, Wharton’s fails to teach a channel that terminates at a channel opening and has no dead volume. See Appeal Br. 8; Reply Br. 5. The reason for the Examiner’s combination is to provide an alternative channel taper structure, however the Examiner does not use a wholesale replacement of one known channel taper structure for another known channel taper structure. See Final Act. 4. In this case, we determine that the Examiner’s reasoning has support only by picking and choosing, arbitrarily, features of Davies’s and Wharton’s channels. See Appeal Br. 8; Reply Br. 5—6. For similar reasons, we determine that the Examiner’s 5 Appeal 2015-008202 Application 13/020,200 reasoning hones in on the features of the claimed channel taper by relying improperly on knowledge found in the Appellants’ Specification. Thus, we do not sustain the Examiner’s rejection of independent claim 11 and dependent claims 12, 14, 18, and 19 as unpatentable over Davies, Wharton, and Shultz. The remaining rejections based on Davies, Wharton, and Shultz, in combination with Fenn or Warby rely on the same reasoning discussed above. The additional findings and reasoning provided for each of the remaining rejections does not remedy the errant reasoning. As such, we do not sustain the Examiner’s rejections under 35 U.S.C. § 103(a) of: claims 13 and 16 as unpatentable over Davies, Wharton, Shultz, and Fenn; and, claim 17 as unpatentable over Davies, Wharton, Shultz, and Warby. DECISION We REVERSE the Examiner’s decision rejecting claims 11—14 and 16-19. REVERSED 6 Copy with citationCopy as parenthetical citation
