12313469 (P.T.A.B. Dec. 12, 2012)

Ex Parte Pohl et al

Patent Trial and Appeal BoardDec 12, 2012

12313469 (P.T.A.B. Dec. 12, 2012)

UNITED STATES PATENT AND TRADEMARK OFFICE __________ BEFORE THE PATENT TRIAL AND APPEAL BOARD __________ Ex parte FRITZ POHL, KLAUS BISKUP, RAINER BRUNS, FRIEDHELM STEFFENS, and LARS PADEKEN __________ Appeal 2012-002400 Application 12/313,469 Technology Center 1600 __________ Before ERIC GRIMES, STEPHEN WALSH, and JACQUELINE WRIGHT BONILLA, Administrative Patent Judges. WALSH, Administrative Patent Judge. DECISION ON APPEAL This is an appeal under 35 U.S.C. § 134(a) from the rejection of claims directed to a process for the production of a primary aromatic diisocyanate in gaseous phase. The Patent Examiner rejected the claims for obviousness. We have jurisdiction under 35 U.S.C. § 6(b). We reverse. Appeal 2012-002400 Application 12/313,469 2 STATEMENT OF THE CASE “The reaction of aromatic diamines with phosgene in the gaseous phase to form the corresponding diisocyanates is … described in the literature.” (Spec. 2, ll. 14-15.) According to the Specification, “[t]here have been a number of attempts to minimize the formation of solids, particularly in the reaction of aromatic diamines with phosgene in the gaseous phase, in order to allow an industrial scale phosgenation of aromatic diamines in the gaseous phase.” (Id. at 3, ll. 1-4.) The Summary of the Invention tells us: Surprisingly this object has been achieved by (1) reacting phosgene and the primary aromatic diamine(s) within a mean, hydrodynamic residence time of from 0.05 to 15 seconds and (2) using primary aromatic diamine(s) containing overall less than 0.05 mole % of aliphatic amine(s) per mole of primary amino groups and (3) ensuring that no keto groups are present in any aliphatic amine which may be present. It is aliphatic amines containing no keto groups which are believed to be largely responsible for the formation of solid deposits in the gas phase phosgenation. (Id. at 6, ll. 19-26, emphasis added.) Claims 1-15 are on appeal. Claim 1 is representative and reads as follows: 1. A process for the production of a primary aromatic diisocyanate comprising reacting a primary aromatic diamine with phosgene in gaseous phase in which a) the phosgene and the primary aromatic diamine are reacted within a mean residence time of 0.05 to 15 seconds, and b) the primary aromatic diamine contains less than 0.05 mole % overall of aliphatic amine containing no keto groups per mole of primary amino groups. Appeal 2012-002400 Application 12/313,469 3 The Examiner rejected claims 1-15 under 35 U.S.C. § 103(a) as unpatentable over Biskup, 1 Applicants’ acknowledgment of prior art at Specification 8, and Koch. 2 OBVIOUSNESS The Examiner cited Biskup’s process for producing a primary aromatic diisocyanate by reacting a primary aromatic diamine with phosgene in the gaseous phase. (Office action 3, quoting Biskup col. 3, l. 50 through col. 4, l. 20.) 3 The Examiner found that the only differences between Biskup’s process and Appellants’ process are: (i) Biskup et al fail to teach the primary aromatic diamine contains less than 0.05 mole% overall of aliphatic amine containing no keto groups per mole of primary amino groups; (ii) Biskup et al fails to teach the process is carried out adiabatically. (Id. at 4.) As evidence that feature (i) was known in the art, the Examiner relied on Applicants’ acknowledgement of prior art at Specification 8. (Id.) As evidence that feature (ii), adiabatic phosgenation, was known in the art and would have been an obvious modification of Biskup’s process, the Examiner cited Koch’s use of adiabatic conditions for preparing isocyanates by reacting primary amines with phosgene. (Id., citing Koch ¶¶[0009] and [0010].) Appellants contend that the prior art discussed at Specification page 8 did not suggest that the diamine composition to be phosgenated should be 1 Klaus Biskup et al., US 5,449,818, issued Sept. 12, 1995. 2 Daniel Koch et al., US 2006/0025556 A1, published Feb. 2, 2006. 3 Citations are to the Office action mailed Aug. 5, 2010, because the copy of the rejection pasted into the Answer is illegible. Appeal 2012-002400 Application 12/313,469 4 controlled to ensure that it contained less than 0.05 mole% aliphatic amine containing no keto groups. (App. Br. 4.) We agree with Appellants. In pertinent part, the Specification states: The low content of aliphatic amines containing no keto groups in the aromatic diamines to be reacted in the desired gas phase phosgenation which is required in the present invention is all the more surprising because simultaneous phosgenation of aliphatic and aromatic primary amino groups is taught in the prior art. (See, e.g., DE-A 2249459, DE- A- 198 28 510). Although the literature deals with the stability of the amines used in a gas phase phosgenation regarding their decomposition under de-amination, no information on the necessary relative stability of the formed isocyanates by the simultaneous use of both aromatic and (cyclo)aliphatic primary amino groups can be derived from the specified vaporization and reaction conditions. In particular, the prior art does not give any indication that the aliphatic amines containing no keto groups are a problem. (Spec. 8, ll. 5-15, emphasis added.) Nothing in this paragraph is an admission that it was known to keep aliphatic amines with no keto groups below a certain level. The Examiner reasoned: “Since Biskup et al also did not get any solid formation in their process, the amount of aliphatic amine is expected to be extremely low or the reactant is free from the aliphatic amine.” (Final Rej. 3.) First, the possibility that Biskup’s reactant was free of aliphatic amine is only a possibility. “Inherency . . . may not be established by probabilities or possibilities. The mere fact that a certain thing may result from a given set of circumstances is not sufficient.” In re Robertson, 169 F.3d 743, 745 (Fed. Cir. 1999) (citations omitted). Second, Appellants rebut the Examiner’s reasoning by citing “the express teaching of Biskup et al that solid formation is avoided by keeping the contact time between phosgene and aromatic diamine short at column 1, lines 45-52.” (App. Br. Appeal 2012-002400 Application 12/313,469 5 5.) The evidence supports Appellants’ point, as Biskup taught “it is possible to prepare aromatic diisocyanates while avoiding solid substances which block up the reactors . . . if the contact between phosgene and aromatic diamine is kept within a very narrowly restricted contact time….” (Biskup, col. 1, ll. 45-52.) Appellants contend their comparative examples demonstrate “a significant improvement with respect to solid deposition.” (App. Br. 3.) The Specification’s “Example 1” describes a run in which the diamine mixture used was composed of 2,4- and 2,6-toluenediamine containing overall 0.01 mole % of aliphatic amines containing no keto groups, per mole, of primary amino groups. The result: After an operating time of 300 hours, the differential pressure was 28 mbar and was thus unchanged within the limits of the measurement accuracy of industrial measuring instruments. An inspection showed no deposits of solids. (Spec. 17, ll. 24-26.) In contrast, the Specification’s “Example 2 (Comparative)” describes a run in which the diamine mixture used was composed of 2,4- and 2,6-toluenediamine containing 0.07 mole % overall of aliphatic amines containing no keto groups, per mole of primary amino groups. The result: After an operating time of 30 hours, the pressure in the gaseous TDA line rose significantly and the differential pressure between the TDA line and the outlet of the condensation stage was 3177 mbar. The reaction therefore had to be discontinued. An inspection revealed very large deposits of solids. (Id. at 18, ll.18-21.) We agree with Appellants that the prior art of record did not suggest these results. Appeal 2012-002400 Application 12/313,469 6 CONCLUSION OF LAW The prior art of record did not teach or suggest producing aromatic diisocyanate by using a primary aromatic diamine containing less than 0.05 mole % overall of aliphatic amine containing no keto groups per mole of primary amino groups. SUMMARY We reverse the rejection of claims 1-15 under 35 U.S.C. § 103(a) as unpatentable over Biskup, Applicants’ acknowledgment of prior art at Specification 8, and Koch. REVERSED alw