13959909 (P.T.A.B. Aug. 21, 2018)

Ex Parte HEIDENREICH

Patent Trial and Appeal BoardAug 21, 2018

13959909 (P.T.A.B. Aug. 21, 2018)

UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE FIRST NAMED INVENTOR 13/959,909 08/06/2013 Steffen HEIDENREICH 23548 7590 08/23/2018 LEYDIG VOIT & MA YER, LTD 700 THIRTEENTH ST. NW SUITE 300 WASHINGTON, DC 20005-3960 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. 713910 8684 EXAMINER ANBACHT, BRIT ELIZA ART UNIT PAPER NUMBER 1776 NOTIFICATION DATE DELIVERY MODE 08/23/2018 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): DCpatent@leydig.com Chgpatent@leydig.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte STEFFEN HEIDENREICH Appeal2017-010509 Application 13/959 ,909 Technology Center 1700 Before BRADLEY R. GARRIS, ROMULO H. DELMENDO, and JANEE. INGLESE, Administrative Patent Judges. DELMENDO, Administrative Patent Judge. DECISION ON APPEAL The Applicant (hereinafter "Appellant") 1 appeals under 35 U.S.C. Â§ 134(a) from the Primary Examiner's final decision to reject claims 3-5, 9-15, 17, 19, 21, and 26-29. 2 We have jurisdiction under 35 U.S.C. Â§ 6(b). We affirm. 1 The Appellant is the Applicant, Pall Corporation, which, according to the Brief, is the real party in interest (Appeal Brief filed April 18, 2017 (hereinafter "Appeal Br.") 1 ). 2 Appeal Br. 4--13; Reply Brief filed August 3, 2017 (hereinafter "Reply Br.") 2-5; Final Office Action entered January 19, 2017 (hereinafter "Final Act.") 2-22; Examiner's Answer entered June 20, 2017 (hereinafter "Ans.") 2-16. Appeal2017-010509 Application 13/959,909 I. BACKGROUND The subject matter on appeal relates to a filter system comprising filter modules for gas filtration (Specification filed August 6, 2013 (hereinafter "Spec.") ,r 2). According to the Appellant, "[t]he key element of the present invention resides in the honeycomb structure of filter elements and regularly interposed clean gas ducts provided with a clean gas collecting and discharge arrangement extending across all of the clean gas outlets of the clean gas ducts" (id. ,r 12). Figure IA, reproduced below from the Drawings filed August 6, 2013, is illustrative of a filter module in accordance with the invention: /40 ,.-----.. ~Â· ___ ,/14 FIG.lA Figure IA above depicts a filter module 10 comprising one block-shaped unit 12 with a plurality of filter elements 14 having a longitudinal, porous tubular wall part 16 with an open end 18 and a closed end 20 and arranged in 2 Appeal2017-010509 Application 13/959,909 a checkerboard pattern together with a plurality of clean gas ducts 22, which are open at one end 24 and closed at the other end 26 (Spec. ,r,r 51-52). As shown in the drawing, the filter module 10 has an upstream or feed side surface 28 through which raw gas enters into the open ends 18, penetrates the porous tubular wall parts 16 into clean gas ducts 22, and discharges at the discharge side surface 30 (id. ,r 53). Representative claim 15 is reproduced from the Claims Appendix to the Appeal Brief (Appeal Br. 15), with key limitations emphasized, as follows: 15. A filter system comprising a housing comprising a raw gas and a clean gas chamber as well as two or more filter modules for gas filtration, each filter module comprising a feed side and a discharge side, and comprising a plurality of block-shaped units, each unit comprising a plurality of filter elements each having a longitudinal, porous tubular wall part having an open first end serving as a raw gas inlet and a closed second end, each tubular wall part having a length of about 10 mm to about 300 mm; wherein said filter elements are arranged coextensive and in parallel orientation with their tubular wall parts, their open ends being all located on one side of the filter module serving as a feed side thereof, and a plurality of clean gas ducts which are substantially coextensive with, oriented parallel to, and regularly interposed between the filter elements, the clean gas ducts being open at one end forming a clean gas outlet and closed at their opposite end, whereas the closed ends of the clean gas ducts are located at the feed side of the filter module, and whereas their open ends are located adjacent to the discharge side of the filter module opposite to the feed side of the filter module; wherein said open ends of the filter elements and said closed ends of the clean gas ducts form a feed 3 Appeal2017-010509 Application 13/959,909 side surface of a block-shaped unit, and wherein said open ends of the clean gas ducts and said closed ends of the filter elements form a discharge side surface of a block-shaped unit; each said filter module further comprising at the discharge side a separate clean gas collecting and discharge arrangement extending across all of the clean gas outlets of the clean gas ducts of the block-shaped units and providing a clean gas discharge opening for the filter module, said clean gas collecting and discharge arrangement comprising one or more clean gas channels in fluid communication with said clean gas outlets of the clean gas ducts deflecting and directing the clean gas flow from the open ends of the clean gas ducts in a direction transverse to a vertical of the discharge side surface, wherein the one or more channels of the clean gas collecting and discharge arrangement have a height, measured as a clearance in the direction of the vertical of the discharge side surface of the block-shaped units, in the range of from about 0.3 to about 0.5 times the length of the tubular wall parts of the filter elements, said housing comprising an interior space separated into a raw gas and a clean gas chamber, said filter modules being arranged within said interior space, the feed side of the modules oriented substantially vertical, said feed sides of the filter modules being in fluid communication with the raw gas chamber and said clean gas discharge opening(s) of the filter modules being in fluid communication with the clean gas chamber of the housing, the system comprising a back-pulse arrangement. II. REJECTIONS ON APPEAL On appeal, the Examiner maintains several rejections under pre-AIA 35 U.S.C. Â§ 103(a) as follows: A. Claims 3-5, 9, 10, 12, 14, 15, 17, 19, 21, and 26-29 as 4 Appeal2017-010509 Application 13/959,909 unpatentable over Cutler et al. 3 (hereinafter "Cutler") in view of Kuivalainen; 4 B. Claim 11 as unpatentable over Cutler, Kuivalainen, and Matsumoto; 5 C. Claim 13 as unpatentable over Cutler, Kuivalainen, and Lippert et al. 6 (hereinafter "Lippert"); and D. Claim 14 as unpatentable over Cutler, Kuivalainen, and Ishii et al. 7 (hereinafter "Ishii"). (Ans. 3-16; Final Act. 2-21.) III. DISCUSSION The Appellant submits arguments according to four groups of claims as follows: (1) claims 3, 4, 9, 10, 12, 13, 15, 17, 19, 21, and 26-29; (2) claim 5; (3) claim 11; and (4) claim 14 (Appeal Br. 4). For the first group, we confine our discussion to claim 15, which we select as representative pursuant to 37 C.F.R. Â§ 4I.37(c)(l)(iv). All other claims within the group stand or fall with claim 15. Claim 15. The Examiner finds that Cutler describes two embodiments relevant to the invention recited in claim 15 (Ans. 3). Specifically, the Examiner finds that Cutler discloses a honeycomb filter including most of the limitations recited in claim 15 except: (i) the reference 3 US 2002/0073666 Al, published June 20, 2002. 4 US 5,318,755, issued June 7, 1994. 5 US 4,205,969, issued June 3, 1980. 6 US 6,312,490 Bl, issued November 6, 2001. 7 US 4,925,561, issued May 15, 1990. 5 Appeal2017-010509 Application 13/959,909 teaches a filter module containing only one block-shaped unit; (ii) the reference teaches a filter element having a preferred length of 7 6.2 mm to 203.2 mm rather than "about 10 mm to about 300 mm" as specified in the claim; (iii) the reference does not explicitly disclose the clean gas collecting and discharge arrangement's height clearance dimensional relationship specified in the claim-i.e., "about 0.3 to about 0.5 times the length of the tubular wall parts of the filter elements"; and (iv) the reference does not teach "a back-pulse arrangement" (id. at 3-7). Regarding the first difference, the Examiner finds that duplication of parts to increase filtration capacity would have been within the level of the ordinary skill in the art and, therefore, obvious to one of ordinary skill in the art (id. at 4--5). Regarding the tubular wall part length limitation ("about 10 mm to about 300 mm"), the Examiner concludes that a person having ordinary skill in the art would have discovered an optimum or workable range that includes length values within the range recited in claim 15 in view of the overlap between the range disclosed in the prior art and the range recited in the claim (id. at 5). Regarding the clearance limitation ("about 0.3 to about 0.5 times the length of the tubular wall parts of the filter elements"), the Examiner states "merely determining the size of the outlet to accommodate a desired flow would [have been] obvious to one of ordinary skill in the art ... so as to obtain a desired fluid flow and pressure loss" (id. at 6). Regarding the "back-pulse arrangement" limitation, the Examiner finds that Kuivalainen teaches back-pulsing nozzles to clean a filter bank and, therefore, "[i]t would have been obvious to one having ordinary skill in the art ... to modify Cutler to include a back-pulsing arrangement as taught by Kuivalainen, since ... such a modification would clean the filter while 6 Appeal2017-010509 Application 13/959,909 preventing damage thereto as may occur during a thermal cleaning [ disclosed in Cutler]" (id. at 7). The Appellant's principal argument is that "Cutler simply does not consider using the geometry of the filter modules to improve the back- flushing properties of the modules in a system in order to facilitate regeneration of the filter modules after a certain time of operation" (Appeal Br. 5). According to the Appellant, "Cutler does not, and cannot, provide a teaching as to how to improve the filter system in order to promote back flushing, as Cutler relies on a different mechanism for regeneration: combustion of the particulate matter deposited on the filter elements" (id.). For the reasons given by the Examiner and below, the Appellant's principal argument fails to reveal any reversible error in the Examiner's rejection. In re Jung, 637 F.3d 1356, 1365 (Fed. Cir. 2011). Cutler's Figures 4A and 4B are reproduced as follows: FIG. 4A 10~ 28 12 24 26 7 Appeal2017-010509 Application 13/959,909 FIG. 4B 28 21 14 21 30 16 Cutler's Figures 4A and 4B above depict a filter 10 designed to remove particulates (soot) from a diesel engine's exhaust, wherein the filter 10 includes two end-plugged honeycombs 12 and 14 housed in an enclosure 16 and the flows of exhaust gas, separated by a panel 22, are indicated by arrows (Cutler ,r,r 2, 30-32). Although Cutler's Figures 4A and 4B show honeycomb structures oriented in a configuration parallel to the gas flow, Cutler teaches that the structures may alternatively be oriented perpendicularly to the gas flow (id. claim 8; Figs. 5A and 5B; ,r 36). Regarding suitable dimensions, Cutler teaches that the "[ f]iltering system 10 may have any length desired or required by the exhaust system chosen" and that "[t]he individual honeycombs may be of equal length or have differing lengths, and may be of any size as long as the system dimensions are met" (id. ,r 34). Specifically, Cutler teaches that the filtering system 10 preferably has a length of at least 20.32 cm (203.2 mm), although the length may be as short as 7.62 cm (76.2 mm), and adds further that "[t]he individual honeycomb structures can be equal in length or have different 8 Appeal2017-010509 Application 13/959,909 lengths" (id. ,r 41 ). In this regard, Cutler teaches that filters are "designed to provide for nearly complete filtration of soot without significantly hindering the exhaust flow" (id. ,r 3; emphasis added). In addition, Cutler teaches that "long filters experience a higher pressure drop, increased occurrence of radial or ring-off breaks due to thermal gradients and are also difficult to manufacture and package" (id. ,r 6). Thus, consistent with the Examiner's position (Ans. 6-7, 14--15), a person having ordinary skill in the art would have drawn a reasonable inference from Cutler's teachings as a whole that the dimensions of the honeycomb structures (including the length of each tube) and the clearance for filtered gas flow are result-effective variables that affect performance variables such as filtration capacity, flow rate, and pressure drop. 8 Based on Cutler's teachings, a person having ordinary skill in the art would have arrived at workable or even optimum ranges of dimensions for the filter components, and thus, clearance to tube length ratios falling within the range recited in claim 15, by routine experimentation. In re Applied Materials, Inc., 692 F.3d 1289, 1295 (Fed. Cir. 2012) ("'[W]here the general conditions of a claim are disclosed in the prior art, it is not inventive to discover the optimum or workable ranges by routine experimentation."' ( quoting In re Aller, 220 F.2d 454,456 (CCPA 1955))). The Appellant's argument that "Cutler simply does not consider using the geometry of the filter modules to improve the back-flushing properties of the modules in a system in order to facilitate regeneration of the filter 8 See, e.g., In re Preda, 401 F .2d 825, 826 ( CCP A 1968) ("[I]n considering the disclosure of a reference, it is proper to take into account not only specific teachings of the reference but also the inferences which one skilled in the art would reasonably be expected to draw therefrom."). 9 Appeal2017-010509 Application 13/959,909 modules after a certain time of operation" (Appeal Br. 5; see also id. at 5---6) is inapposite because, as the Examiner finds (Ans. 14), the Appellant fails to identify evidence demonstrating that the dimensional characteristics recited in claim 15 provide any benefit or improvement over the prior art, let alone an unexpected benefit or improvement in terms of back-flushing. Though Cutler teaches regenerating the filter by combusting filtered carbon soot at high temperatures (id. ,r,r 4, 48), rather than by a back-pulse arrangement (back-flushing) as specified in claim 15, we detect no error in the Examiner's reliance on Kuivalainen (Ans. 7) and, therefore, adopt it as our own. KSR Int 'l Co. v. Teleflex Inc., 550 U.S. 398, 417 (2007) ("[I]f a technique has been used to improve one device, and a person of ordinary skill in the art would recognize that it would improve similar devices in the same way, using the technique is obvious unless its actual application is beyond his or her skill."). The Appellant argues that "despite the differences of the embodiments taught by Cutler (Figs. 4A-4B versus Figs. 5A-5A), the Office Action mixes their elements and functions randomly as the basis for rejecting the pending claims" (Appeal Br. 6). That argument also fails because "when a patent 'simply arranges old elements with each performing the same function it had been known to perform' and yields no more than one would expect from such an arrangement, the combination is obvious." KSR, 550 U.S. at 417. For these reasons, we sustain the Examiner's rejection as maintained against claim 15. Claim 5. Claim 5, which depends from claim 15, recites that "the tubular wall parts in each filter module have a cross-sectional area corresponding to the area of a square with an edge length of about 3 to about 10 Appeal2017-010509 Application 13/959,909 20 mm" (Appeal Br. 14). The Examiner finds that, based on certain calculations using information given by Cutler, the equivalent area per cell would be 2-67 mm2 rather than 9-400 mm2 derived from the specified square edge length of "about 3 to about 20 mm" (Ans. 8) (relying on Cutler if 43). The Appellant does not contest the Examiner's calculations (Appeal Br. 10). Rather, the Appellant argues that "the [Examiner] fails to explain how and why this would be optimized to provide the claimed range" (id.). Consistent with the Examiner's position (Ans. 8-9), "[a] primafacie case of obviousness typically exists when the ranges of a claimed [invention] overlap the ranges disclosed in the prior art." In re Peterson, 315 F.3d 1325, 1329 (Fed. Cir. 2003) (citing, e.g., In re Geisler, 116 F.3d 1465, 1469 (Fed. Cir. 1997) and In re Woodruff, 919 F.2d 1575, 1578 (Fed. Cir. 1990)). Therefore, we also uphold the rejection maintained against claim 5. Claim 11. Claim 11, which also depends from claim 15, recites "wherein the tubular wall parts of the filter elements in each filter module are arranged with respect to a vertical of the feed side surface of each filter module at an angle of from about 10Â° to about 60Â°" (Appeal Br. 14). Relying on Matsumoto, the Examiner concludes that a person having ordinary skill in the art would have been prompted to modify the angular orientation of Cutler's cells as shown in Matsumoto to improve filtration efficiency (Ans. 11-12). The Appellant argues that "[t]he fact that Matsumoto may teach honeycomb cells which are angularly inclined relative to the air flow direction is of no import" (Appeal Br. 10). In the Appellant's view, "Matsumoto teaches several inclinations of walls set in different angles to 11 Appeal2017-010509 Application 13/959,909 the feed side, resulting in a complicated pathway for the fluid that would increase the pressure drop such that the arrangement would not be suitable for regeneration by back-pulsing" (id.). Furthermore, the Appellant argues that Matsumoto discloses "flimsy materials" that are not suitable for back- flushing (id.). We agree with the Examiner's position on this matter (Final Act. 3--4). Moreover, claim 11 does not specify any limitation as to pressure drop, and nothing substantiates the unsupported argument that Matsumoto's polymeric filter media would be unsuitable for all back-flushing conditions. In any event, the Examiner's rejection is not premised on incorporating Matsumoto's filter media into Cutler. 1 1. Accordingly, we also sustain the rejection maintained against claim Claim 14. Claim 14, which also depends from claim 15, recites: wherein the one or more channels of the clean gas collecting and discharge arrangement in each filter module are closed at one end and open at the opposite end that receives clean gas and have a cross-sectional area which increases from the closed end of the channel(s) to the open, opposite end of the channel(s). The Examiner determines (Ans. 14): It would have been obvious to one having ordinary skill in the art ... to modify the honeycomb filter of Cutlter in view of Kuivalainen to have triangular cross-sectional channels as taught by Ishii, since Ishii states at column 1 lines 60-64 that such a modification would provide a filter which is compact in size but has a large filtering area. The Appellant argues that "Ishii teaches filter elements and ducts which have decreasing and increasing cross-sections in a direction from the raw gas to the clean gas side, as illustrated in Figs. 1 and 2" (Appeal Br. 11 ). 12 Appeal2017-010509 Application 13/959,909 According to the Appellant, "claim 14 requires that the clean gas collecting and discharge arrangement which receives the clean gas from the clean gas ducts is provided with a cross-sectional area increasing from the closed end to the open end thereof, which is the opposite of the arrangement in Ishii" (id. at 12). The broadest reasonable interpretation of claim 14, however, includes the channels defined by the triangular openings shown on the outlet side of Ishii. Moreover, the outlet configuration shown in Cutler also meets the claim limitations, as broadly recited. For these reasons, we uphold the Examiner's rejection as to claim 14. IV. SUMMARY Rejections A through Dare sustained. Therefore, the Examiner's final decision to reject claims 3-5, 9-15, 17, 19, 21, and 26-29 is affirmed. 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). AFFIRMED 13