13841229 (P.T.A.B. Aug. 29, 2017)

Ex Parte Gasper

Patent Trial and Appeal BoardAug 29, 2017

13841229 (P.T.A.B. Aug. 29, 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. 13/841,229 03/15/2013 Thomas P. Gasper J-5662 3163 28165 7590 S.C. JOHNSON & SON, INC. 1525 HOWE STREET RACINE, WI53403-2236 EXAMINER NGO, LIEN M ART UNIT PAPER NUMBER 3754 NOTIFICATION DATE DELIVERY MODE 08/31/2017 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): F074168@scj.com selechne @ scj. com mjzolnow @ scj .com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte THOMAS P. GASPER1 Appeal 2016-005707 Application 13/841,229 Technology Center 3700 Before JENNIFER D. BAHR, MICHELLE R. OSINSKI, and BRANDON J. WARNER, Administrative Patent Judges. BAHR, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Appellant appeals under 35 U.S.C. § 134 from the Examiner’s decision rejecting claims 1, 2, and 5—20. We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM-IN-PART. 1 Appellant is the Applicant, S. C. Johnson & Son, Inc., which, according to the Appeal Brief, is the real party in interest. Appeal Br. 2. Appeal 2016-005707 Application 13/841,229 THE CLAIMED SUBJECT MATTER Claim 1, reproduced below, is illustrative of the claimed subject matter. 1. A dispensing system, comprising: a conduit including a valve stem of an aerosol container and a volumetric capacity between an internal discharge orifice for receipt of a flow of pressurized fluid from the valve stem and an external discharge orifice; a volume of pressurized fluid; and a sensor, wherein the fluid has a volumetric flow rate of about 0.05 ml/ms to about 15 ml/ms when released into the volumetric capacity from the internal discharge orifice, and wherein the sensor detects a sound at the external discharge orifice. REJECTIONS I. Claims 1, 5—13, and 18—20 stand rejected under 35 U.S.C. § 103(a) as unpatentable over Nielsen (US 2010/0006667 Al, pub. Jan. 14, 2010) and one of Smrt (US 5,314,097, iss. May 24, 1994) and van der Wal (US 5,318,208, iss. June 7, 1994). II. Claim 2 stands rejected under 35 U.S.C. § 103(a) as unpatentable over Nielsen, Tillotson (WO 2006/059059 Al, pub. June 8, 2006), and one of Smrt and van der Wal. III. Claims 14—16 stand rejected under 35 U.S.C. § 103(a) as unpatentable over Nielsen. IV. Claims 1, 5—16, and 18—20 stand rejected under 35 U.S.C. § 103(a) as unpatentable over Ganzeboom (US 5,938,076, iss. Aug. 17, 1999), Nielsen, and one of Smrt and van der Wal. 2 Appeal 2016-005707 Application 13/841,229 V. Claim 17 stands rejected under 35 U.S.C. § 103(a) as unpatentable over Ganzeboom, Nielsen, and Tillotson.2 DISCUSSION Rejection I Claims 1 and 18—20 The Examiner finds that Nielsen discloses a dispensing system, substantially as claimed, except for, in pertinent part, a “conduit including a volumetric capacity between the internal orifice from the valve stem and an external discharge orifice.” Final Act. 3. However, the Examiner finds that each of Smrt and van der Wal discloses “an aerosol container comprising a conduit including a val[v]e stem and a volumetric capacity between the internal orifice from the valve stem and an external discharge orifice.” Id. (citing Smrt, Figs. 1, 2; van der Wal, Figs. 1, 4). The Examiner determines that it would have been obvious to modify Nielsen’s dispensing system “with the conduit including a volumetric capacity between the internal orifice from the valve stem and an external discharge orifice, in view ... of Smrt... or [v]an der Wal[], in order to facilitate of spraying the contain [sic] in an angled target with an extending nozzle.” Id. Appellant argues that “the proposed combination would impermissibly render Niels[e]n unsatisfactory for its intended purpose.” 2 We note that claim 17 depends from independent claim 14, which stands rejected under 35 U.S.C. § 103(a) as being unpatentable over Ganzeboom, Nielsen, and one of Smrt and van der Wal. See Appeal Br. 31, Claims App.; Final Act. 5—6. Because claim 17 includes the limitations of base claim 14, it is illogical for claim 17 to be rejected based on a combination of only Ganzeboom, Nielsen, and Tillotson when the base claim is rejected based on a combination of Ganzeboom, Nielsen, and one of Smrt and van der Wal. 3 Appeal 2016-005707 Application 13/841,229 Appeal Br. 12. In particular, Appellant asserts that Nielsen uses inverted marking spray paint, whereas Smrt and van der Wal spray liquid “sideways” at a right-angle to the direction of the valve stem. Id. at 12, 13. According to Appellant, modifying Nielsen’s marking device to include a sideways firing spray head, as taught by Smrt or van der Wal, “would render Niels[e]n entirely unusable for its intended purpose of ‘dispensing a marking substance on the ground.”’ Id. at 14 (quoting Nielsen, Abstract). This argument is not persuasive of error. To the extent that modifying Nielsen’s marking device based on the teachings of Smrt or van der Wal would result in the marking paint being sprayed sideways, Appellant does not persuasively explain why such modification would prevent Nielsen’s marking device from suitably operating to dispense the marking substance on the ground. With respect to operating the marking device, Nielsen discloses that “[t]he user grasps handle 114 of marking device 100 and aims nozzle 130 of marking dispenser 122 at the intended target.” Nielsen 122. In this regard, we fail to see why the proposed modification of Nielsen’s device would result in a device that a user could not manipulate and aim to mark an intended target, such as the ground. For the above reasons, Appellant does not apprise us of error in the Examiner’s determination that the subject matter of claim 1 would have been obvious. Accordingly, we sustain the rejection of claim 1 under 35 U.S.C. § 103(a) as unpatentable over Nielsen and one of Smrt and van der Wal. In contesting the rejection of independent claim 18, Appellant again argues that modifying Nielsen’s marking device to include a sideways-firing spray head, as taught by Smrt or van der Wal, “would render Niels[e]n entirely unusable for its intended purpose of ‘dispensing a marking 4 Appeal 2016-005707 Application 13/841,229 substance on the groundAppeal Br. 21 (quoting Nielsen, Abstract). This assertion essentially repeats the argument discussed above with respect to claim 1 and is unpersuasive with respect to claim 18 for the same reasons. Accordingly, we sustain the rejection of claim 18, and its dependent claims 19 and 20, as unpatentable over Nielsen and one of Smrt and van der Wal. Claim 5 Claim 5 depends from claim 1 and further recites that “the sensor detects a level of the sound that corresponds to different flow rates.” Appeal Br. 29, Claims App. The Examiner finds that Nielsen discloses that “sound sensing devices or sound sensors can be used for defining whether the paint dispenser [is becoming] empty.” Ans. 3 (citing Nielsen 1102). Appellant contends that, “[although Niels[e]n mentions a sound sensing device for detecting the sound of a substance being sprayed from a dispenser, Nielsen does not teach or suggest how the sound sensing device detects the sound.” Appeal Br. 15; see Reply Br. 2. For the following reasons, this argument is not persuasive of error. Nielsen discloses that various types of sensors can be used for “determining whether the paint dispenser is becoming empty.” Nielsen 1102. More particularly, Nielsen discloses that, “[i]n one example of determining whether the paint dispenser is becoming empty, sound sensing devices may be used for detecting the sound of marking substance 134 being sprayed from marking dispenser 122.” Id.', see also id. f2l (disclosing that “marking dispenser 122 may be an aerosol canister that contains marking paint,” and includes nozzle 130 for dispensing the marking paint). To the extent that Nielsen may not specify how the sound sensing device detects 5 Appeal 2016-005707 Application 13/841,229 sound, claim 5 only requires a sensor that detects a level of the sound generated at the external discharge orifice. Although the claim also recites that the detected level of the sound “corresponds to different flow rates,” this recitation simply acknowledges an association between the detected sound level and flow rates without placing meaningful limits on the structure of the sensor or dispensing device.3 Further, Appellant’s Specification describes that the sensor detects sound pressure levels generated by discharging pressurized fluid from a container, and the sound pressure levels correspond to different fluid flow rates. See Spec. 141 (describing that high and low sound pressure levels correspond, respectively, to high and low flow rates). In our view, one of ordinary skill in the art would appreciate that Nielsen’s spray dispenser, in discharging a pressurized fluid, would similarly generate sound levels from the discharge orifice that would correspond to different flow rates, and there would be different sound levels as the dispenser becomes empty (i.e., the flow rate reduces). Thus, in order for Nielsen’s sound sensing device to determine whether the dispenser is becoming empty, the sound sensing device must detect the sound level generated by the discharged fluid, which corresponds to different flow rates through the discharge orifice. 3 We note that neither claim 5 nor its base claim 1 recites any structure that discerns a particular flow rate based on a detected level of the sound (e.g., a programmed controller). Compare Appeal Br. 29, Claims App. (claim 5 reciting a sensor detecting a level of sound, but not reciting a controller for analyzing the detected sound level), with Spec. 141 (disclosing controller 18 for determining, by distinguishing between high sound pressure levels and lower sound pressure levels detected, whether the container is full, less full, or empty). 6 Appeal 2016-005707 Application 13/841,229 For the above reasons, Appellant does not apprise us of error in the Examiner’s determination that the subject matter of claim 5 would have been obvious. Accordingly, we sustain the rejection of claim 5 as unpatentable over Nielsen and one of Smrt and van der Wal. Claims 6—8 and 13 Claim 6, which depends from claim 5, further recites “a ratio of a threshold level of sound to the detected level of sound during an actuation state is less than one at a first stage and substantially unity at a second stage.” Appeal Br. 29, Claims App. Claim 13, which depends from claim 1, recites a substantially similar limitation. Id. at 30. Appellant argues that the Examiner’s rejection fails to address this limitation, and the cited references do not render obvious such a feature. See Appeal Br. 15—16, 19; Reply Br. 5—6. We agree that a sustainable case of obviousness has not been established. In rejecting claims 6 and 13, the Examiner does not make any factual findings with respect to Nielsen, Smrt, or van der Wal regarding a ratio of a threshold level of sound to the detected level of sound, as required in the claims. See Final Act. 2-4; Ans. 2-4, 8—9. Moreover, the Examiner does not articulate an apparent reason, with any rational underpinnings, as to why this subject matter would have been obvious to a person having ordinary skill in the art at the time of the invention. As such, the Examiner has not made the initial factual findings to support a conclusion of obviousness with respect to claims 6 and 13. See In re Warner, 379 F.2d 1011, 1017 (CCPA 1967) (In making a rejection based on obviousness, the examiner has the initial duty of supplying the requisite factual basis and may not, because of 7 Appeal 2016-005707 Application 13/841,229 doubts that the invention is patentable, resort to speculation, unfounded assumptions or hindsight reconstruction to supply deficiencies in the factual basis). For this reason, we do not sustain the rejection of claims 6 and 13, or claims 7 and 8, which depend from claim 6, as unpatentable over Nielsen and one of Smrt and van der Wal. Claim 9 Claim 9 depends from claim 1 and further recites that “the sensor detects a frequency characteristic of the sound that is generated by at least one of a shape of the conduit and a product formulation.” Appeal Br. 30, Claims App. The Examiner relies on paragraph 102 of Nielsen to address this feature. See Ans. 3. The Examiner also finds that “[a] sound sensor for detecting frequency of the sound is well known in the art.” Id. at 7 (citing Spec. 1136, 39, 40). Appellant argues that “none of Niels [e]n, Smrt, van der Wal, or any combination thereof, teaches or suggests a sensor that detects a frequency characteristic of the sound that is generated by at least one of a shape of the conduit and a product formulation.” Appeal Br. 17. This argument is not persuasive. As discussed above, Nielsen discloses using a sound sensing device to detect sound generated by discharging a marking substance from a spray paint dispenser. See Nielsen 1102. Appellant’s Specification also acknowledges that frequency is a known property of acoustic waves (i.e., sound), and “[s]uch characteristics of the acoustic waves 34 are functions of the internal pressure of the container 28 and the mechanical design of all or a portion of the surfaces defining the volumetric capacity of the conduit 14, e.g., a mechanical design of the output valve of an aerosol container.” 8 Appeal 2016-005707 Application 13/841,229 Spec. 140 (emphasis added). In other words, the Specification identifies a known relationship between the mechanical design of the conduit and the frequency of sound generated by discharging fluid through the conduit. Given that Nielsen discloses detecting a sound generated by discharging a fluid and frequency is a known property of sound, Appellant fails to apprise us of error in the Examiner’s finding that Nielsen discloses a sensor that detects a frequency characteristic of the sound generated by the shape of the conduit.4 For the above reasons, Appellant does not apprise us of error in the Examiner’s determination that the subject matter of claim 9 would have been obvious. Accordingly, we sustain the rejection of claim 9 as unpatentable over Nielsen and one of Smrt and van der Wal. Claims 10—12 Appellant argues that the Examiner erred in determining that the subject matter of claim 10 would have been obvious because “none of Niels[e]n, Smrt, van der Wal, or any combination thereof, teaches or suggests a controller that initiates or prohibits at least one of an initial or subsequent actuation of the dispensing system based on the detected frequency characteristic.” Appeal Br. 17—18. For the following reasons, we agree with Appellant. 4 Notably, claim 9 does not recite a processor for processing the sensor output signals to analyze a frequency characteristic of the sound. See Spec. 140 (disclosing the sensor converting the waves into electrical signals for further processing, such as analysis of frequency characteristics; the disclosed sensor does not perform such analysis) 9 Appeal 2016-005707 Application 13/841,229 In rejecting claim 10, the Examiner finds that Nielsen discloses that “sound sensing devices or sound sensors can be used for defining whether the paint dispenser [is becoming] empty.” Ans. 3 (citing Nielsen 1102). The Examiner also finds that Appellant’s Specification admits that “a controller having a plurality of preprogrammed operational parameters associated with a plurality of preprogrammed frequency characteristics, wherein the controller compares a frequency characteristic of the sound to the plurality of preprogrammed frequency characteristics,” is known in the art. Id. at 4 (citing Spec. 143). The portion of Appellant’s Specification cited by the Examiner describes that “[t]he determination of a full or empty container 28 may be based on a threshold sound pressure level that is known for full or empty containers 28 and preprogrammed into the controller 18 for implementation during a full or empty control logic.” Spec. 143. However, to the extent that this portion of the Specification describes a controller that is preprogrammed with a known threshold sound pressure level for full or empty containers, such disclosure does not constitute an admission that the preprogrammed controller recited in claim 10 was known in the art. Rather, the “known” threshold sound pressure level is simply a predetermined threshold sound pressure level. Moreover, the Examiner does not articulate an apparent reason with rational underpinnings why it would have been obvious to modify Nielsen to include a controller programmed as required in claim 10. See KSR Int’l Co. v. Teleflex Inc., 550 U.S. 398, 418 (2007) (pointing out that a conclusion of obviousness must be supported by explicit findings and analysis establishing an apparent reason to combine the known elements in the manner required in 10 Appeal 2016-005707 Application 13/841,229 the claim at issue). Consequently, the Examiner has not met the burden of establishing a proper case of obviousness. Accordingly, for at least the above reasons, we do not sustain the rejection of claim 10, or its dependent claims 11 and 12, as unpatentable over Nielsen and one of Smrt and van der Wal. Rejection II With respect to the rejection of claim 2, Appellant does not set forth any additional substantive arguments separate from the arguments discussed above, instead relying on the dependency of this claim from independent claim 1. See Appeal Br. 14. Accordingly, Appellant does not apprise us of error in the rejection of claim 2 under 35 U.S.C. § 103(a), which we sustain. Rejection III Independent claim 14 recites, in relevant part, “a controller having a plurality of preprogrammed operational parameters associated with a plurality of preprogrammed frequency characteristics, wherein the controller compares a frequency characteristic of the sound to the plurality of preprogrammed frequency characteristics.” Appeal Br. 31, Claims App. Appellant argues that Nielsen fails to disclose such a feature. See id. at 6—8. We agree with Appellant. In rejecting claim 14, the Examiner finds that Nielsen discloses a “dispensing system comprising control electronic 144 communicating with a[nd] processing information from the detection mechanism 140; the control electronic including a processor 150, a user interface 152, a storage device 154, a detection algorithm 156, etc.” Final Act. 4 (citing Nielsen || 25—30). 11 Appeal 2016-005707 Application 13/841,229 The Examiner also finds that Nielsen discloses “an electronic controller 144 having a plurality of preprogramed operational parameters with a plurality of preprogrammed characteristics^] and the controller comparing a characteristic of the detecting of the sensor to the plurality of the preprogrammed characteristics.” Ans. 7—8 (citing Nielsen || 25, 26, 29). As discussed above, Nielsen discloses a marking device that determines whether the paint dispenser is becoming empty. Nielsen discloses, in an exemplary embodiment, using a sound sensing device (detection mechanism 140) to detect the sound of paint being sprayed. See Nielsen 1102. Control electronics 144 processes information from detection mechanism 140 (e.g., sound sensing device) using processor 150, which is programmed with detection algorithm 156. See id. 125. However, to the extent that Nielsen discloses a controller preprogrammed with operational parameters (i.e., control electronics 144 with processor 150 executing detection algorithm 156), we discern no disclosure in Nielsen as to the controller comparing a sound frequency characteristic to a plurality of preprogrammed frequency characteristics, as required by claim 14. The Examiner takes the position that Appellant’s Specification admits that “a controller having a plurality of preprogrammed operational parameters] associated with [a] plurality of preprogrammed frequency characteristics as claimed is . . . known.” Ans. 8 (citing Spec. 143). However, such a position is untenable. As discussed above with respect to Rejection I of claim 10, the Specification describes a controller preprogrammed with a known (i.e., predetermined) threshold sound pressure level for full or empty containers, which does not constitute an admission 12 Appeal 2016-005707 Application 13/841,229 that a preprogrammed controller as recited in claim 14 was known in the art. See Spec. 143. Moreover, the Examiner does not articulate an apparent reason with rational underpinnings why it would have been obvious to modify Nielsen’s controller to compare a detected sound frequency characteristic to a plurality of preprogrammed frequency characteristics. See KSR, 550 U.S, at 418. Consequently, the Examiner fails to set forth a proper case of obviousness. Accordingly, for at least the above reasons, we do not sustain the rejection of independent claim 14, and its dependent claims 15 and 16, as unpatentable over Nielsen. Rejection IV In the rejection of claims 1, 5—16, and 18—20 as unpatentable over Ganzeboom, Nielsen, and one of Smrt and van der Wal, the Examiner finds that Ganzeboom discloses a dispensing system, substantially as claimed, except for “the sensor for detecting a level of the sound corresponding to different flow rates.” Final Act. 5. However, the Examiner finds that the combination of Nielsen and one of Smrt and van der Wal “teach[es] an aerosol dispensing system comprising a sensor for detecting a level of the sound at the external discharge orifice corresponding to different flow rates to sense the condition of the charge of the aerosol container corresponding to the empty state of the container.” Id. The Examiner determines that it would have been obvious “to replace the sensor in the invention of Ganzeboom with a sensor for detecting a level of the sound corresponding to different flow rates to sense the condition of the charge of the aerosol container corresponding to the empty state of the container.” Id. at 6. 13 Appeal 2016-005707 Application 13/841,229 Appellant argues that a person of ordinary skill in the art “would not have a reason to modify Ganzeboom to include a sensor to detect a level of the sound corresponding to different flow rates.” Appeal Br. 21. In particular, Appellant asserts that “Ganzeboom already includes a temperature sensor (10) specifically for the purpose of determining if the aerosol can is empty.” Id. We find this argument persuasive of error. “A rejection based on section 103 clearly must rest on a factual basis, and these facts must be interpreted without hindsight reconstruction of the invention from the prior art.” In re Warner, 379 F.2d at 1017. Further, “rejections on obviousness grounds cannot be sustained by mere conclusory statements; instead, there must be some articulated reasoning with some rational underpinning to support the legal conclusion of obviousness.” In re Kahn, 441 F.3d 977, 988 (Fed. Cir. 2006), cited with approval in KSR, 550 U.S. at 418. Here, the Examiner fails to meet this burden. Ganzeboom discloses that “temperature sensor 10 measures the temperature of the outflowing gas from the aerosol can,” and, “[i]f this temperature rises below a preset ‘too high’ value, such as the temperature when the can is empty, the high temperature signal is processed by controller 25 such that LED indicator 12 gives a signal.” Ganzeboom, col. 4,1. 65—col. 5,1. 3. Given that Ganzeboom’s temperature sensor already provides information to controller 25 for determining whether a can is empty, the Examiner does not adequately explain why one of ordinary skill in the art would have been prompted to replace the temperature sensor with the sound sensing device of Nielsen to accomplish the same function. As such, the Examiner’s articulated reason (i.e., “to sense the condition of the charge of the aerosol container corresponding to the empty state of the container”) in 14 Appeal 2016-005707 Application 13/841,229 support of the proposed modification to Ganzeboom lacks rational underpinnings. For the above reasons, the Examiner fails to establish that a proper case of obviousness. Thus, we do not sustain the Examiner’s rejection of claims 1, 5—16, and 18—20 as unpatentable over Ganzeboom, Nielsen, and one of Smrt and van der Wal. Rejection V In the rejection of claim 17, which depends from independent claim 14, the Examiner does not articulate any findings or reasoning, or rely on any teachings of Tillotson, that would remedy the aforementioned deficiency in the combination of Ganzeboom, Nielsen, and one of Smrt and van der Wal. See Final Act. 6. Accordingly, we do not sustain the rejection of claim 17 under 35 U.S.C § 103(a). DECISION The Examiner’s decision rejecting claims 1, 5, 9, and 18—20 under 35 U.S.C. § 103(a) as unpatentable over Nielsen and one of Smrt and van der Wal is AFFIRMED. The Examiner’s decision rejecting claim 2 under 35 U.S.C. § 103(a) as unpatentable over Nielsen, Tillotson, and one of Smrt and van der Wal is AFFIRMED. The Examiner’s decision rejecting claims 6—8 and 10—13 under 35 U.S.C. § 103(a) as unpatentable over Nielsen and one of Smrt and van der Wal is REVERSED. 15 Appeal 2016-005707 Application 13/841,229 The Examiner’s decision rejecting claims 14—16 under 35 U.S.C. § 103(a) as unpatentable over Nielsen is REVERSED. The Examiner’s decision rejecting claims 1, 5—16, and 18—20 under 35 U.S.C. § 103(a) as unpatentable over Ganzeboom, Nielsen, and one of Smrt and van der Wal is REVERSED. The Examiner’s decision rejecting claims 17 under 35 U.S.C. § 103(a) as unpatentable over Ganzeboom, Nielsen, and Tillotson is REVERSED. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). See 37 C.F.R. § 1.136(a)(l)(iv). AFFIRMED-IN-PART 16