11330447 (P.T.A.B. Dec. 18, 2014)

Ex Parte Hernandez

Patent Trial and Appeal BoardDec 18, 2014

11330447 (P.T.A.B. Dec. 18, 2014)

UNITED STATES PATENT AND TRADEMARK OFFICE ________________ BEFORE THE PATENT TRIAL AND APPEAL BOARD ________________ Ex parte ENRIQUE HERNANDEZ ________________ Appeal 2013-003025 Application 11/330,447 Technology Center 1700 ________________ Before TERRY J. OWENS, BEVERLY A. FRANKLIN, and DONNA M. PRAISS, Administrative Patent Judges. PRAISS, Administrative Patent Judge. DECISION ON APPEAL Appeal 2013-003025 Application 11/330,447 2 STATEMENT OF THE CASE The Appellant appeals under 35 U.S.C. § 134(a) from the Examiner’s rejection of claims 1–5, 7–13, and 28–39. We have jurisdiction under 35 U.S.C. § 6(b). The Invention The Appellant claims a method for forming a detergent solution containing an alkali metal silicate with a degree of polymerization regulated using pH. Spec. 1. Claims 1 and 28, which are the sole independent claims, are illustrative (key limitations in dispute italicized): 1. A method for forming a detergent solution in which the degree of polymerization of an alkali metal silicate in the detergent solution is regulated during detergent formation and use, the method comprising: forming a detergent solution of an alkali metal silicate; regulating the pH of the detergent solution to be approximately a selected pH, wherein the selected pH is at least about 11; and limiting polymerization of the alkali metal silicate in the detergent solution to a desired degree of polymerization using the selected pH, wherein the detergent solution retains at least the desired degree of polymerization during use. 28. A method for regulating the degree of polymerization of an alkali metal silicate, the method comprising: forming a solution of an alkali metal silicate; regulating the pH of the solution to be approximately a selected pH, wherein the selected pH is at least about 11; and limiting polymerization of the alkali metal silicate to a desired degree of polymerization using the selected pH. Appeal 2013-003025 Application 11/330,447 3 The References1 Shaver US 3,471,253 Oct. 7, 1969 Deabriges US 4,336,235 June 22, 1982 Ahmed US 2006/0089285 A1 Apr. 27, 2006 Manning, Jr. US 2009/0311136 A1 Dec. 17, 2009 The Rejections2 The claims stand rejected under 35 U.S.C. § 102 as follows: claims 28–30, 32–37, and 39 as anticipated by Shaver; claims 28–37 and 39 as anticipated by Deabriges; claims 1–5, 7–13, and 28–39 as anticipated by Manning; and claims 1–5, 7–11, 13, 28–37, and 39 as anticipated by Ahmed. Ans. 5–9; Action 5, 8, and 9. 1 Additional references identified in the non-final Office Action dated April 26, 2012 (“Action”), from which this appeal is taken, are not included because the Examiner has withdrawn the rejections based on those references as cumulative. Ans. 4. 2 Claims 1 and 28 were rejected under 35 U.S.C. §112, first paragraph, as not enabled for “regulating” the pH and “limiting” polymerization (Action 3) and under 35 U.S.C. § 112, second paragraph, as indefinite for the same terms (id. at 4). In the Answer, the Examiner does not include the Section 112 rejections among the grounds of rejection applicable to the appealed claims (Ans. 5–9), nor does the Examiner address Appellant’s arguments concerning Section 112 in the Response to Argument section of the Answer (id. at 9–12). Therefore, we understand the Section 112 rejections to be withdrawn as well. We agree with Appellant that claims 1 and 28 “refer to a specific factor, the pH, being used to limit the degree of polymerization.” Br. 3. Other factors besides pH can affect polymerization, but those factors are not required or precluded by the claims. See id. at 3–4. In sum, we agree with Appellant that the terms “regulating the pH” and “limiting polymerization” as used in claims 1 and 28 are not one and the same thing (see id. at 4) and that the claims satisfy Section 112. Appeal 2013-003025 Application 11/330,447 4 OPINION We reverse the Section 102 rejections of anticipation by Shaver and Deabriges. We affirm the Section 102 rejections of anticipation by Manning and Ahmed. We need to address only the independent claims (1 and 28). Anticipation by Shaver The Examiner finds that “Shaver teaches a 70 wt% concentrated sodium hydroxide solution added to a sodium silicate solution to obtain a sodium metasilicate solution that has a Na2O:SiO2 molar ratio of 1:1 (col. 4, example 1). The examiner notes that this highly caustic solution will result in a pH within the range claimed.” Action 5. The Examiner also finds “as a metasilicate is formed which has a ratio of 1:1, clearly the polymerization has been limited to achieve this ratio.” Id. Appellant contends that the Examiner “has provided no rationale or evidence as to why a caustic solution must necessarily have a pH of at least about 11.” Br. 5. Appellant also argues that the Examiner has not shown that Shaver teaches controlling polymerization using pH. Id. at 6. Appellant explains that Shaver is concerned with solubility of sodium metasilicate in the solution because if it is not soluble, then it precipitates. Id. Appellant cites the Specification as support for the statement that the degree of polymerization may affect precipitation, but it is not the only factor. Id. (citing Spec. 5, ll. 7–9.) Similarly, Appellant argues that the molar ratios of component parts in a solution cannot anticipate limiting polymerization using a selected pH because a variety of factors may affect the degree of polymerization, therefore Shaver does not inherently disclose using the claimed pH to limit polymerization as required by claim 28. Appeal 2013-003025 Application 11/330,447 5 The Examiner responds by maintaining “it is irrefutable that the highly alkaline solution of Shaver will have a pH well above 11” without support or analysis why the caustic solution of Shaver is necessarily at least about pH 11. See Ans. 9. We agree with Appellant that the Examiner has not established by a preponderance of evidence that Shaver discloses either expressly or inherently a pH of at least about 11. Therefore, we reverse the rejection of claims 28–30, 32–37, and 39 as anticipated by Shaver. Anticipation by Deabriges The Examiner finds that Deabriges teaches “a sodium hydroxide solution and sodium carbonate added to sodium silicate to obtain a sodium silicate that has a SiO2:Na2O molar ratio in the 1.7-2.6 range (col. 2, lines 26-40). The examiner notes that this highly caustic solution will result in a pH within the range claimed.” Action 8. The Appellant argues that the Examiner has not shown how a specific pH may be calculated from the disclosure of Deabriges. Br. 13. Appellant also argues that although molar ratio is a factor that may affect polymerization of an alkali metal silicate, it has not been shown that the caustic soda that Deabriges uses to dissolve a silicon source (quartz) is also used to limit polymerization using a selected pH. Id. The Examiner responds “it is irrefutable that the highly alkaline solution of Deabriges will have a pH well above 11” without support or further explanation how the pH range of Deabriges is determined. See Ans. 10. The Examiner also responds that because Deabriges produces a sodium silicate with a preferred reduced degree of polymerization according to table 1 in the Specification, all of the “claim limitations are satisfied.” Id. Appeal 2013-003025 Application 11/330,447 6 We agree with Appellant that it has not been established by a preponderance of evidence that Deabriges’ caustic solution has a pH that is at least about 11. Without a determination that the pH condition required by claim 28 is met by Deabriges, the molar ratio of the sodium silicate product cannot be said to inherently be the result of limiting polymerization using the pH required by the claim. Therefore, we reverse the rejection of claims 28–37 and 39 as anticipated by Deabriges. Anticipation by Manning The Examiner finds that Manning teaches “an antibacterial cleaning composition comprising a surfactant, enzymes, sodium silicate, sodium hydroxide, and the balance water wherein the composition has a pH of 13.5.” Action 9 (citing Manning ¶ 93, Ex. VII.) The Examiner further finds that a metasilicate would be formed inherently by the process of Manning because it teaches a detergent and silicate and the claimed pH conditions. Id. Appellant contends that because pH is not the only factor that controls the degree of polymerization, a metasilicate is not necessarily formed in Manning’s process as required by claims 1 and 28. Br. 16. Regarding claim 1, Appellant further argues that the selected pH in the detergent does not indicate “retention of a desired degree of polymerization of an alkali metal silicate during use of the detergent solution.” Id. at 17. The Examiner responds that the claims at issue specifically require pH as the factor limiting polymerization and do not require the presence or absence of any other condition that would limit polymerization. Ans. 10–11. We are persuaded that the preponderance of the evidence supports the Examiner’s finding of anticipation by Manning because the claimed Appeal 2013-003025 Application 11/330,447 7 components and conditions required by the claims are present in Manning’s process for forming a detergent solution with a pH of at least about 11. Anticipation by Ahmed The Examiner finds that Ahmed teaches “a detergent composition comprising a bleach, potassium silicate, potassium hydroxide, and the balance water wherein the composition has a pH of 13.97.” Action 10 (citing Ahmed ¶ 58, Table 18.) As in the rejection based on Manning, the Examiner further finds that a metasilicate would be formed inherently by the process of Manning because it teaches a detergent and silicate and the claimed pH conditions. Id. Appellant contends that because pH is not the only factor that controls the degree of polymerization, a metasilicate is not necessarily formed in Manning’s process as required by claims 1 and 28. Br. 17. Regarding claim 1, Appellant further argues that the selected pH in the detergent does not indicate “retention of a desired degree of polymerization of an alkali metal silicate during use of the detergent solution.” Id. at 18. The Examiner responds that the claims at issue specifically require pH as the factor limiting polymerization which is present in the Ahmed process. Ans. 11–12. We are persuaded that the preponderance of the evidence supports the Examiner’s finding of anticipation by Ahmed because the claimed components and conditions required by the claims are present in Ahmed’s process for forming a detergent solution with a pH of at least about 11. Appeal 2013-003025 Application 11/330,447 8 DECISION/ORDER The rejections under 35 U.S.C. § 102 of claims 28–30, 32–37, and 39 as anticipated by Shaver and claims 28–37 and 39 as anticipated by Deabriges are reversed. The rejections under 35 U.S.C. § 102 of claims 1–5, 7–13, and 28–39 as anticipated by Manning and claims 1–5, 7–11, 13, 28– 37, and 39 as anticipated by Ahmed are affirmed. It is ordered that the Examiner’s decision is affirmed. No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a)(1). AFFIRMED cdc