13254297 (P.T.A.B. Dec. 27, 2018)

Ex Parte Thorwid et al

Patent Trial and Appeal BoardDec 27, 2018

13254297 (P.T.A.B. Dec. 27, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 13/254,297 11/04/2011 140282 7590 Murtha Cullina LLP One Century Tower 265 Church Street New Haven, CT 06510 12/31/2018 FIRST NAMED INVENTOR Peter Thorwid 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. 6485-0094WOUS 8031 EXAMINER HOWELL, MARC C ART UNIT PAPER NUMBER 1774 NOTIFICATION DATE DELIVERY MODE 12/31/2018 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): ipdocketing@murthalaw.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte PETER THORWID, ROLAND ISAKSSON, PETER HAGQVIST, CARL HAGGMARK, and LARS HILLSTROM Appeal2017-002896 Application 13/254,297 Technology Center 1700 Before KAREN M. HASTINGS, GEORGE C. BEST, and JANEE. INGLESE, Administrative Patent Judges. INGLESE, Administrative Patent Judge. DECISION ON APPEAL Appellants 1 request our review under 35 U.S.C. Â§ 134(a) of the Examiner's decision to reject claims 21--40. We have jurisdiction over this appeal under 35 U.S.C. Â§ 6(b). 2 We REVERSE. 1 Appellants identify ALF A LAV AL CORPORA TE AB as the real party in interest. Appeal Brief filed January 20, 2016 ("App. Br."), 2. 2 We heard oral arguments from Appellants' representative on December 10, 2018. Appeal2017-002896 Application 13/254,297 STATEMENT OF THE CASE Appellants claim a centrifugal separator and a method for operating a centrifugal separator. Independent claims 21 and 3 8 illustrate the subject matter on appeal and are reproduced below with contested language italicized: 21. A centrifugal separator comprising a casing which delimits a space which is sealed relative to the surroundings of the casing and in which a rotor is arranged for rotation, which rotor forms within itself a separation space, and in which separation space centrifugal separation of at least one higher density component and at least one lower density component from a fluid takes place during operation, into which rotor at least one inlet extends for introducing said fluid to the separation space, and from which rotor at least one first outlet extends for discharge of at least one component separated from the fluid during operation, where a pump device is in fluid communication with all of said space, the pump device being arranged to remove gas from the space during operation, thereby maintaining negative pressure in said space, and wherein the rotor comprises at least one second outlet extending from a portion of the separation space to the space for discharge of at least one higher density component separated from the fluid during operation; the at least one second outlet being configured to at least partially seal the separation space from the space or selectively isolate the separation space from the space; and a discharge device in the form of a sludge pump being arranged to remove the at least one higher density component separated from the fluid from the space during operation. 38. A method for operating a centrifugal separator, the method comprising: providing a centrifugal separator comprising 2 Appeal2017-002896 Application 13/254,297 a casing which delimits a space which is sealed relative to the surroundings of the casing and in which a rotor is arranged for rotation, said rotor forming within itself a separation space, at least one inlet extending into said rotor, and at least one first outlet extending from said rotor, a pump device is in fluid communication with all of said space, the rotor comprises at least one second outlet extending from a portion of the separation space to the space, the at least one second outlet being configured to at least partially seal the separation space from the space or selectively isolate the separation space from the space; removing gas from the space round the rotor, thereby maintaining negative pressure in said space; discharging from a portion of the separation space to the space via said second outlet at least one higher density component separated from the fluid during operation; and removing the at least one higher density component separated from the fluid from the space during separation via a discharge device in the form of a sludge pump. App. Br. 21, 23 (Claims Appendix) (emphasis and indentations added). The Examiner sets forth the following rejections in the Non-Final Office Action entered August 27, 2015 ("Office Act."), and maintains the rejections in the Examiner's Answer entered October 24, 2016 ("Ans."): I. Claims 21-32 and 34--40 under 35 U.S.C. Â§ I03(a) as unpatentable over Scholz3 in view ofFryar4, Wenger5, and Wendt6; and 3 Scholz et al., US 2005/0006319 Al, published January 13, 2005. 4 Fryar, US 3,928,003, issued December 23, 1975. 5 Wenger, US 3,239,137, issued March 8, 1966. 6 Wendt, US 3,001,293, issued September 26, 1961. 3 Appeal2017-002896 Application 13/254,297 II. Claim 33 under 35 U.S.C. Â§ 103(a) as unpatentable over Scholz in view of Fryar, Wenger, Wendt, and Niinai7. DISCUSSION Upon consideration of the evidence relied upon in this appeal and each of Appellants' contentions, we reverse the Examiner's rejections of claims 21--40 under 35 U.S.C. Â§ 103(a) for the reasons set forth in the Appeal Brief and below. Independent claim 21 recites, in part, a centrifugal separator comprising a casing that delimits a space in which a rotor is arranged, and a pump device in fluid communication with the space and arranged to remove gas from the space during operation, thereby maintaining negative pressure in the space. Similarly, independent claim 38 recites, in part, a method comprising providing a centrifugal separator comprising a casing that delimits a space in which a rotor is arranged, providing a pump device in fluid communication with the space, and removing gas from the space around the rotor, thereby maintaining negative pressure in the space. The Examiner finds that Scholz discloses a centrifugal separator comprising a casing that delimits a space in which a rotor is arranged, and an opening in fluid communication with the space from which gas is removed via exhaust gas pipe 11. Office Act. 3--4 ( citing Scholz Fig. 1 ). The Examiner finds that Scholz does not disclose a pump device connected to the opening that removes gas from the space during operation of the centrifugal separator, and the Examiner relies on Fryar to address these features missing from Scholz's disclosures. Office Act. 4. The Examiner finds that Fryar 7 Niinai, US 2005/0272587, published December 8, 2005. 4 Appeal2017-002896 Application 13/254,297 discloses "a centrifuge contained within a housing [] which is connected to a source of vacuum to maintain a low pressure within the housing." Office Act. 4 ( citing Fryar Fig. 2; col. 1, 11. 64---68). The Examiner concludes that it would have been obvious to one of ordinary skill in the art at the time of Appellants' invention "to connect the vacuum pump of Fryar to the gas pipe of Scholz for the purpose of avoiding retrapping of air in the centrifuged mixture." Office Act. 4 (citing Fryar col. 2, 11. 1-3). A preponderance of the evidence relied upon in this appeal does not support the Examiner's conclusion of obviousness for reasons expressed by Appellants and discussed below. Scholz discloses a method and centrifuge for separating blood plasma particles from the liquid phase of a blood plasma suspension. ,r,r 1, 8. Scholz discloses that the centrifuge comprises rotating drum 4 contained within housing 1, and admission line 2 for feeding a blood plasma suspension into the lower area of drum 4. ,r,r 34--36 Fig. 1. Scholz discloses that space 10 surrounds drum 4, and discloses cooling space 10 while drum 4 rotates by feeding liquid nitrogen through attachment 16 in housing 1. ,r,r 27, 43. Scholz discloses removing nitrogen gas from space 10 through exhaust gas pipe 11. Id. Scholz discloses that the method of Scholz's invention "permits cooling of the drum without the need for a vacuum in the area of rotation of the drum." ,r 7. Fryar discloses a centrifugal vacuum deaerator for deaerating viscous liquids such as toothpaste. Col. 1, 11. 7-9. Fryar discloses that the deaerator comprises enclosed chamber 11 containing rotor assembly 13 that includes flange 17 and bowl 15, which receives material to be deaerated through inlet 12. Col. 1, 11. 61---64; col. 2, 11. 6-10, 17; Fig. 2. Fryar discloses that bowl 5 Appeal2017-002896 Application 13/254,297 15 contains a series of small holes 16, and explains that when bowl 15 is rotated by a power means, material to be deaerated is accelerated through holes 16 by centrifugal force and impinges on flange 17, which "gets rid of the largest bubbles." Col. 2, 11. 10-14, 17-21, 39-43; Fig 2. Fryar discloses that chamber 11 is connected to a source of vacuum to create and maintain a vacuum inside chamber 11 for the purpose of preventing "retrapping" of air in the deaerated material. Col. 1, 1. 64---col. 2, 1. 3. As Appellants correctly argue (Reply Br. 10-11), Scholz's centrifugal separator, unlike Fryar's centrifuge, is not used to deaerate viscous liquids, but, as discussed above, is used to separate blood plasma particles from the liquid phase of a blood plasma suspension. Accordingly, one of ordinary skill in the art would have understood that "retrapping" air in a liquid phase separated from particles in a plasma suspension is of no concern during operation of Scholz's centrifuge. Therefore, contrary to the Examiner's assertion, one of ordinary skill in the art would not have sought to avoid "retrapping of air in the centrifuged mixture" of Scholz by connecting a vacuum pump as disclosed in Fryar to Scholz's gas pipe 11. Appellants also argue that one of ordinary skill in the art would not have had reason to modify Scholz's centrifugal separator to include a vacuum source as disclosed in Fryar because Scholz explicitly discloses that Scholz's method permits cooling of the drum without the need for a vacuum in the area of rotation of the drum. App. Br. 12-15. In response to Appellants' arguments, the Examiner finds that "addition of a vacuum pump [ to Scholz' s centrifugal separator] would simply allow for the removal of unwanted gas from within the centrifuge chamber, which is the purpose of the exhaust gas pipe 11 of Scholz." Ans. 6 Appeal2017-002896 Application 13/254,297 10. However, the Examiner does not address Scholz's disclosure that exhaust gas pipe 11-in the absence of a vacuum pump----functions to remove gas from space 10 surrounding drum 4. Nor does the Examiner address Scholz's explicit disclosure that the drum described in the reference can be cooled "without the need for a vacuum in the area of rotation of the drum." The Examiner does not provide a credible explanation for why, despite these disclosures, one of ordinary skill in the art nonetheless would have had a reason to connect a vacuum pump as disclosed in Fryar to gas pipe 11 of Scholz's centrifugal separator. Belden v. Berk-Tek LLC, 805 F.3d 1064, 1073 (Fed. Cir. 2015) ("[O]bviousness concerns whether a skilled artisan not only could have made but would have been motivated to make the combinations or modifications of the prior art to arrive at the claimed invention."); KSR Int'! Co. v. Teleflex Inc., 550 U.S. 398,418 (2007) (It is well settled that "a patent composed of several elements is not proved obvious merely by demonstrating that each of its elements was, independently, known in the prior art."). Accordingly, on this appeal record, the Examiner does not provide a persuasive, reasoned explanation, supported by objective evidence, for why a combination of the relied-upon disclosures of Scholz and Fryar would have led one of ordinary skill in the art to a centrifugal separator comprising a casing that delimits a space in which a rotor is arranged, and a pump device in fluid communication with the space that removes gas from the space during operation, to maintain negative pressure in the space, as required by claims 21 and 3 8. 7 Appeal2017-002896 Application 13/254,297 We accordingly do not sustain the Examiner's rejection of independent claims 21 and 38 under 35 U.S.C. Â§ 103(a), and also of claims 22-37, 39, and 40, which each depend from either claim 21 or claim 38. DECISION We reverse the Examiner's rejection of claims 21--40 under 35 U.S.C. Â§ 103(a). REVERSED 8