2020000470 (P.T.A.B. Dec. 28, 2020)

Corning Incorporated

Patent Trials and Appeals BoardDec 28, 2020

2020000470 (P.T.A.B. Dec. 28, 2020)

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. 15/373,882 12/09/2016 Daniel Boughton SP14-075A 8704 22928 7590 12/28/2020 CORNING INCORPORATED SP-TI-3-1 CORNING, NY 14831 EXAMINER HERRING, LISA L ART UNIT PAPER NUMBER 1741 NOTIFICATION DATE DELIVERY MODE 12/28/2020 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): usdocket@corning.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte DANIEL BOUGHTON Appeal 2020-000470 Application 15/373,882 Technology Center 1700 Before JEFFREY T. SMITH, JAMES C. HOUSEL, and N. WHITNEY WILSON, Administrative Patent Judges. HOUSEL, Administrative Patent Judge. DECISION ON APPEAL STATEMENT OF THE CASE Pursuant to 35 U.S.C. § 134(a), Appellant1 appeals from the Examiner’s decision to reject claims 16–25. We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. 1 We use the word “Appellant” to refer to “applicant” as defined in 37 C.F.R. § 1.42. Appellant identifies the real party in interest as Corning Incorporated. Appeal Brief (“Appeal Br.”) filed July 8, 2019, 1. Appeal 2020-000470 Application 15/373,882 2 CLAIMED SUBJECT MATTER The invention relates to methods for material processing using a plasma thermal source, in particular for processing glass batch material by means of atmospheric thermal plasma. Specification (“Spec.”) filed December 9, 2016, ¶¶ 1, 7.2 Sole independent claim 16, reproduced below from the Claims Appendix to the Appeal Brief, is illustrative of the claimed subject matter: 16. A method, comprising: providing a plasma containment vessel having at least first and second opposing wall members defining an inner volume, an inlet end, and an opposing outlet end; feeding glass batch material into the inlet of the plasma containment vessel in such a way that the glass batch material is dispensed as a substantially planar sheet of glass batch material particles into the inner volume of the plasma containment vessel; directing one or more sources of plasma gas into the inner volume of the plasma containment vessel in such a way that the plasma gas enters the plasma containment vessel as at least one substantially planar sheet of plasma gas; and applying an alternating electric field to the plasma gas to facilitate production of a plasma plume within the inner volume of the plasma containment vessel, wherein the plasma plume is of a substantially planar sheet shape having dimensions sufficient to envelope the planar sheet of glass batch material particles, and is of sufficient thermal energy to cause the glass batch material to thermally react. 2 This Decision also cites to the Final Office Action (“Final Act.”) dated October 10, 2018, the Examiner’s Answer (“Ans.”) dated August 22, 2019, and the Reply Brief (“Reply Br.”) filed October 22, 2019. Appeal 2020-000470 Application 15/373,882 3 REFERENCES The Examiner relies on the following prior art: Name Reference Date Koinuma et al. (“Koinuma”) US 5,198,724 Mar. 30, 1993 Barankova et al. (“Barankova”) US 6,351,075 B1 Feb. 26, 2002 Koulik et al. (“Koulik”) US 2004/0238345 A1 Dec. 2, 2004 Ueda US 2012/0321895 A1 Dec. 20, 2012 Maher Boulos (“Boulos”) Plasma Power Can Make Better Powders, Metal Powder Report, metal-powder.net, Elsevier Ltd., 16–21. May 2004 REJECTIONS The Examiner maintains, and Appellant requests our review of, the following rejections under 35 U.S.C. § 103: 1. Claims 16–18 and 23–25 as unpatentable over Ueda in view of Koulik and Koinuma; 2. Claims 19–21 as unpatentable over Ueda in view of Koulik and Koinuma, and further in view of Barankova;3 and 3. Claim 22 as unpatentable over Ueda in view of Koulik and Koinuma, and further in view of Boulos. 3 The Examiner omitted Ueda from the rejection statements for Rejections 2 and 3. See Final Act. 5, 6; Ans. 3. However, the Examiner includes Ueda in the body of these rejections, indicating that the Examiner’s omission was inadvertent. Importantly, Appellant recognizes that the Examiner intended to include Ueda in these rejections. See Appeal Br. 35–36, 38. Accordingly, we have corrected the statements for Rejections 2 and 3 to reflect the Examiner’s intent. Appeal 2020-000470 Application 15/373,882 4 OPINION We review the appealed rejections for error based upon the issues Appellant identifies, and in light of the arguments and evidence produced thereon. Ex parte Frye, 94 USPQ2d 1072, 1075 (BPAI 2010) (precedential) (cited with approval in In re Jung, 637 F.3d 1356, 1365 (Fed. Cir. 2011) (“[I]t has long been the Board’s practice to require an applicant to identify the alleged error in the examiner’s rejections.”). After considering the argued claims and each of Appellant’s arguments, we are not persuaded of reversible error in the Examiner’s obviousness rejections. Therefore, we affirm the stated rejections for substantially the fact findings, reasoning, and conclusion of obviousness set forth in the Examiner’s Answer, which we adopt as our own. We offer the following for emphasis only. For purposes of this appeal, to the extent that the claims on appeal are separately argued, we will address them separately consistent with 37 C.F.R. § 41.37(c)(1)(iv) (2018). Rejection 1: Obviousness of claim 16–18 and 23–25 The Examiner finds that Ueda discloses a method substantially as recited in claim 16, except wherein the glass batch material is fed as a substantially planar sheet into an inner volume of the plasma vessel defined by first and second opposing wall members. Final Act. 3. However, the Examiner finds that Koulik discloses, as an alternative to a cylindrical plasma vessel, a parallelepipedal vessel having opposing walls 19, 21 defining an inner volume. Id. The Examiner determines that “one skilled in the art could envision an alternative plasma reactor configuration with a planar geometry with opposing walls, since it is a known alternative plasma Appeal 2020-000470 Application 15/373,882 5 reactor shape, as taught by Koulik.”4 Id. The Examiner further determines that with the alternative planar geometry, one skilled in the art could envision at least a first and second opposing walls defining an inner volume, feeding glass batch material in such a way that the glass batch material is dispensed as a substantially planar sheet of glass batch material into the inner volume of the plasma containment vessel and directing one or more sources of plasma gas into the inner volume of the plasma containment vessel, in such a way that the plasma gas enters the plasma containment vessel as at least one substantially planar sheet of plasma gas, and wherein the plasma plume is of a substantially planar sheet shape having dimensions sufficient to envelope the planar sheet of glass batch materials, and is of sufficient energy to cause the glass batch material to thermally react wherein the thermal reaction includes at least partially melting the glass batch material and/or at least partially melting the glass batch materials to form substantially homogeneous, spheroid shaped glass intermediate particles, based on the combination of Ueda and Koulik. Id. at 3–4. In addition, the Examiner relies on both Koulik and Koinuma, without dispute, to establish that applying an alternating current in Ueda’s method in order to create the plasma plume via an induced alternating electric field would have been obvious. Id. at 4. Appellant argues that the prior art, primarily Koulik, fails to teach or suggest feeding a substantially planar sheet of glass batch material into the 4 We note that the Examiner appears to state an improper standard for obviousness as what an ordinary artisan “could envision,” rather than what an ordinary artisan “would have” done based on the combined prior art teachings. However, we hold this error to be harmless because the Examiner otherwise applies the correct analytical framework for obviousness and, in this instance, the resulting determination of obviousness remains changed. Appeal 2020-000470 Application 15/373,882 6 plasma vessel (Appeal Br. 5–17), or directing one or more sources of plasma gas into the plasma vessel in such a way that the gas enters the vessel as at least one substantially planar sheet of plasma gas (id. at 17–26), or wherein the produced plasma plume is of a substantially planar sheet shape having dimensions sufficient to envelope the planar sheet of glass batch material particles (id. at 26–30). Appellant disputes the Examiner’s finding that Koulik discloses a plurality of rows of longitudinal channels 17 in filter 6. Id. at 11. Further, Appellant contends that even if Koulik’s channels 17 are arranged in rows, Koulik does not suggest that these channels operate by feeding the cores (particles) into the plasma vessel in such a way that the cores are dispensed as a substantially planar sheet. Id. Appellant’s arguments are not persuasive of reversible error. As the Examiner finds, Koulik discloses that the plasma reactor vessel may have a substantially parallelepipedal shape and depicts such a construction with a planar geometry. Koulik ¶¶ 27, 28; Fig. 1. As the Examiner also finds, Koulik’s vessel is shown in Figure 1 with a rectangular longitudinal cross- section, suggesting that the vessel has a rectangular parallelepipedal shape. Id. Moreover, Koulik discloses a honeycomb-like filter 6 with longitudinal channels 17 aligned along direction D of the gas flow through the plasma reactor for imparting substantially uniform longitudinal velocity to the core/gas mixture fed/directed to the plasma vessel’s inner volume. Id. ¶¶ 36, 37. The Examiner finds that Koulik’s channels 17, arranged in a honeycomb configuration, would have been understood as providing aligned multiple channels suggesting multiple rows of channel. Ans. 6. As the Examiner suggests, each row of channels feeds a substantially planar sheet of cores and plasma gas into the plasma vessel. We note that claim 16 does not Appeal 2020-000470 Application 15/373,882 7 exclude multiple substantially planar sheets of glass particles and plasma gas being fed simultaneously into the plasma vessel, nor does claim 16 exclude the particles being mixed and dispensed in the same planar sheets as the plasma gas. Additionally, given Koulik’s parallelepiped-shaped plasma vessel, selecting an appropriate number of rows of filter channels would have been within the ordinary skill in the art, including a single row, as Koulik does not limit the dimensions or number of channels of the plasma vessel. Also, in feeding mixed cores and plasma gas through each row of channels into the plasma vessel as substantially planar sheets of cores and gas, Koulik’s plasma plume would likewise have a substantially planar sheet shape whose dimensions are sufficient to envelope the substantially planar sheets of cores and gas. Appellant also asserts that Koulik’s teaching of a parallelepipedal plasma vessel does not suggest feeding the cores into the vessel as a substantially planar sheet of core particles (Appeal Br. 9, 10), nor suggest directing plasma gas into the plasma vessel as a substantially planar sheet of plasma gas (id. at 21), nor suggest a plasma plume having a substantially planar sheet shape and sufficient to envelope the planar sheet of glass batch material particles (id. at 28). However, Appellant fails to explain why Koulik’s parallelepipedal construction, and especially the honeycomb arrangement of channels 17 in filter 6, as discussed above, does not suggest feeding the cores and plasma gas into the vessel as substantially planar sheets of cores and gas to create substantially planar sheet shaped plasma plumes. Appellant further argues that there are ways of feeding the cores and plasma gas into Koulik’s plasma reactor other than as substantially planar Appeal 2020-000470 Application 15/373,882 8 sheets of cores and plasma gas. Appeal Br. 15, 23. Appellant proffers, as an example, that the cores and that plasma gas may be fed into an inlet of Koulik’s plasma reactor in such a way that the cores and plasma gas are dispensed in a shape other than a substantially planar sheet of core particles and other than a substantially planar sheet of plasma gas. Id. at 15–16, 23– 24. Similarly, Appellant argues that Koulik’s plasma medium (gas) may be created to have a shape other than a substantially planar sheet shape and/or to have dimensions that are not sufficient to envelope a planar sheet of core particles. Id. at 30. Appellant contends, therefore, that these alternative ways of feeding the cores and plasma gas, and alternative ways to create the plasma plume weigh against the inevitable presence of feeding the cores and plasma gas as substantially planar sheets and creating a substantially planar sheet-shaped plasma plume. Id. at 16, 24, 30. This argument is not persuasive of reversible error because Appellant fails to identify, much less explain, any of the alleged other ways that the cores and plasma gas may be fed into the plasma vessel, or that the plasma plume may be created. Instead, Appellant merely alleges that there are other ways without identifying any other way, especially another way consistent with Koulik’s use of a honeycomb-like filter having longitudinal channels. It is true that Koulik identifies another plasma vessel arrangement involving coaxial cylindrical walls. Koulik ¶ 29. But the Examiner did not rely on this embodiment in the proposed combination. In the Reply Brief, Appellant contends that the claimed “substantially planar” configurations are not simply parallelepiped, but are defined as configurations where two dimensions are relatively larger than the third dimension. Reply Br. A5. Appellant refers to the description of an example Appeal 2020-000470 Application 15/373,882 9 in the Specification wherein the material inlet and outlet may be elongate (in the form of a slot) in the X direction to dispense a substantially planar, sheet- like accumulation of glass batch material particles into the inner volume of the plasma vessel. Id. at A6; see also Appeal Br. 12–13. Appellant similarly refers to the description of this example, wherein a plurality of gas outlets may be disposed along the peripheral edges of the batch material outlet to direct the plasma gas as at least one planar sheet into the inner volume of the plasma vessel. Reply Br. A6–7; see also Appeal Br. 17–18, 27–28. As such, Appellant urges that the Specification details the specific configuration and steps that can be utilized to obtain the specific claimed substantially planar glass batch material particles, plasma gas, and plasma plume, rather than merely disclosing a plasma containment vessel that is substantially planar in shape. Reply Br. A7. Appellant’s contentions are not persuasive of reversible error because claim 16 is not limited to the specific embodiment disclosed in the Specification. Claim 16 does not recite that glass batch material inlet and/or outlet are elongate (or in the shape of a slot), nor that two of their dimensions are relatively larger than the third dimension. Nor is claim 16 limited to a plurality of gas outlets disposed along the peripheral edges of the batch material outlet. Also, although Appellant asserts that the claimed “substantially planar” is defined as a configuration where two dimensions are relatively larger than the third dimension, the Specification description is exemplary, rather than definitional. Spec. ¶ 34 (“The material inlet 232 and the material outlet 234 may be elongate (in the form of a slot) in the X direction such that the glass batch material 10 is dispensed into the inner Appeal 2020-000470 Application 15/373,882 10 volume 218 as a substantially planar, sheet-like accumulation of glass batch material particles 10 (see also FIG. 4).” (emphasis added)). Appellant does not separately argue claims 17 and 23–25. Accordingly, we sustain the Examiner’s obviousness rejections of claims 16, 17, and 22–25. Claim 18 Claim 18 depends from claim 16, and further requires “the least one planar sheet of plasma gas includes two substantially planar sheets of plasma gas directed both toward the outlet end of the plasma containment vessel and toward one another in order to envelop the planar sheet of glass batch material particles.” The Examiner finds that Koulik provides multiple substantially planar sheets of plasma gas formed by filter 6 that are directed both toward the outlet end of the plasma containment vessel and toward one another in order to envelope the planar sheet of glass batch materials. Final Act. 4. Appellant disagrees. Appeal Br. 34. Appellant argues that Koulik does not suggest in any way that either the carrier gas or the treatment (plasma) gas is provided in a substantially planar sheet. Id. Appellant notes the positioning of carrier gas inlet 10 and treatment gas inlets 11, and contends that Koulik fails to mention anything about these gases being directed to envelope a planar sheet of glass batch material particles. Id. Appellant also notes that Koulik fails to indicate that filter channels 17 cause these gases to perform this function. Id. These arguments are not persuasive of reversible error because, as discussed above, Koulik’s plurality of rows of channels necessarily provide a plurality of substantially planar sheets of mixed cores and plasma gas. Appeal 2020-000470 Application 15/373,882 11 Each planar sheet necessarily provides plasma gas that envelopes the cores mixed therein, and the outer rows of channels direct the core and plasma gas mixture in a direction toward the outlet of the plasma vessel and envelope inner rows of channels. As such, Appellant has not identified reversible error in the obviousness rejection of claim 18. Rejection 2: Obviousness of claims 19–21 The Examiner rejects claims 19–21 as unpatentable over Ueda in view of Koulik and Koinuma, and further in view of Barankova. Appellant argues that Barankova fails to remedy the alleged deficiencies of the combination of Ueda, Koulik, and Koinuma argued with regard to claim 16 from which claims 19–21 depend. Appeal Br. 36. However, as discussed above, we are not persuaded of any deficiencies in the combination of Ueda, Koulik, and Koinuma. Accordingly, for the reasons discussed above with regard to claim 16, we likewise sustain the Examiner’s obviousness rejection as to claims 19–21. Rejection 3: Obviousness of claim 22 The Examiner rejects claim 22 as unpatentable over Ueda in view of Koulik and Koinuma, and further in view of Boulos. Appellant argues that Boulos fails to remedy the alleged deficiencies of the combination of Ueda, Koulik, and Koinuma argued with regard to claim 16 from which claims 22 depends. Appeal Br. 39. However, as discussed above, we are not persuaded of any deficiencies in the combination of Ueda, Koulik, and Koinuma. Accordingly, for the reasons discussed above with regard to claim 16, we likewise sustain the Examiner’s obviousness rejection as to claim 22. Appeal 2020-000470 Application 15/373,882 12 CONCLUSION Upon consideration of the record and for the reasons set forth above and in the Final Office Action and Examiner’s Answer, the Examiner’s decision to reject claims 16–25 under 35 U.S.C. § 103 is affirmed. DECISION SUMMARY In summary: Claims Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 16–18, 23– 25 103 Ueda, Koulik, Koinuma 16–18, 23– 25 19–21 103 Ueda, Koulik, Koinuma, Barankova 19–21 22 103 Ueda, Koulik, Koinuma, Boulos 22 Overall Outcome 16–25 TIME PERIOD FOR RESPONSE 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)(1)(iv). AFFIRMED