Ex Parte Smythe et alDownload PDFPatent Trial and Appeal BoardMay 3, 201613361668 (P.T.A.B. May. 3, 2016) Copy Citation UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 13/361,668 01/30/2012 28997 7590 05/05/2016 HARNESS, DICKEY, & PIERCE, PLC 7700 Bonhomme, Suite 400 ST. LOUIS, MO 63105 FIRST NAMED INVENTOR Robert Michael Smythe 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. 9062N-000490-US-COB 7535 EXAMINER PILLAY, DEVINA ART UNIT PAPER NUMBER 1755 NOTIFICATION DATE DELIVERY MODE 05/05/2016 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): stldocket@hdp.com PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Exparte ROBERT MICHAEL SMYTHE, JEFFREY GERARD HERSHBERGER, and RICHARD F. HILL 1 Appeal2014-007266 Application 13/361,668 Technology Center 1700 Before BRADLEY R. GARRIS, JEFFREY T. SMITH, and BEVERLY A. FRANKLIN, Administrative Patent Judges. GARRIS, Administrative Patent Judge. DECISION ON APPEAL Appellants appeal under 35 U.S.C. § 134(a) from the Examiner's decision rejecting claims 1-20 and 26-30. We have jurisdiction under 35 U.S.C. § 6(b). We REVERSE. 1 Laird Technologies, Inc. is identified as the Real Party in Interest. App. Br. 4. Appeal2014-007266 Application 13/361,668 Appellants claim a thermoelectric assembly 400 comprising a substantially rigid thermally conductive layer 414, multiple thermoelectric modules 402 coupled to this layer, and multiple hinge regions 406 defined between adjacent ones of the thermoelectric modules on the layer thereby allowing each of the modules to be movable relative to an adjacent module (independent claim 26, Figs. 12-13). Appellants also claim an embodiment wherein the thermally conductive layer is substantially contiguous and is scored between adjacent modules to permit the layer to be plastically deformed (independent claim 1 ). Finally, Appellants claim an assembly wherein an articulated lower substrate 414 is mechanically and electrically coupled to thermoelectric elements thereby defining multiple thermoelectric modules on the articulated lower substrate (remaining independent claim 10, Figs. 12-13). A copy of claims 1, l 0, and 26, taken from the Claims Appendix of the Appeal Brief, appears below. 1. A thermoelectric assembly comprising: a plurality of thermoelectric modules, each of said thermoelectric modules including a substantially rigid upper laminate, a substantially rigid lower laminate, and a plurality of thermoelectric elements disposed generally between the upper and lower laminates; a substantially contiguous, substantially rigid, thermally conductive layer, the thermally conductive layer mechanically connected to each of said thermoelectric modules and scored between adjacent thermoelectric modules to permit the thermally conductive layer to be consistently plastically deformed between adjacent thermoelectric modules. 10. An articulated thermoelectric assembly comprising: 2 Appeal2014-007266 Application 13/361,668 a plurality of rigid upper laminates; a plurality of thermoelectric elements mechanically and electrically coupled to each upper laminate; an articulated lower substrate mechanically and electrically coupled to the thermoelectric elements; wherein the plurality of rigid upper laminates, the plurality of thermoelectric elements, and the articulated lower substrate define multiple distinct electrically independent thermoelectric modules on the articulated lower substrate. 26. A thermoelectric assembly comprising: a substantially rigid thermally conductive layer; multiple thermoelectric modules coupled to the thermally conductive layer; and multiple hinge regions defined between adjacent ones of the thermoelectric modules on the thermally conductive layer to thereby allow each of the thermoelectric modules on the thermally conductive layer to be moved to a desired position relative to an adjacent thermoelectric module prior to operation of the thermoelectric modules. App. Br. 19-20, 22 (Claims Appendix). Under 35 U.S.C. § 102(a)/(e), the Examiner rejects claims 26, 27, and 29 as anticipated by Lofy (US 2009/0025770 Al, published January 29, 2009) (Final Action 2-3). Under 35 U.S.C. § 103(a), the Examiner rejects as unpatentable: claims 1-8 over Lofy (id. at 5-7); claims 9 and 30 over Lofy in view of Yoshida (6,112,525, issued September 5, 2000) (id. at 8 and 12); and claims 10-20 and 28 over Lofy in view of Shah (US 2005/0087221 Al, published April 28, 2005) (id. at 8-12). 3 Appeal2014-007266 Application 13/361,668 Concerning the § 102 rejection of independent claim 26, the Examiner finds that Figure 18E of Lofy discloses the claimed thermally conductive layer at 1870, multiple thermoelectric modules, and multiple hinge regions at 1872 (Final Action 2-3; Ans. 13). Appellants argue that Lofy does not disclose "multiple [] thermoelectric modules coupled to a common thermally conductive layer and separated by multiple hinge regions" (App. Br. 9). Appellants' characterization of claim 26 as requiring multiple thermoelectric modules coupled to "a common thermally conductive layer" (id.) is consistent with their disclosure of multiple modules 402 coupled to a single continuous thermally conductive layer 414 (see, e.g., Figs. 12-13). In contrast, Lofy discloses forming thermal expansion joints 1872 "by including separate (or non-continuous) thermal conductive members 1870" (ii 138; see also Fig. 18E). The Examiner does not explain why it would be reasonable and consistent with Appellants' disclosure to interpret the thermally conductive layer limitation of claim 26 as satisfied by Lofy's separate, non-continuous members 1870. For this reason, the § 102 rejection of claims 26, 27, and 29 will not be sustained. As for the § 103 rejections of independent claims 1 and 10, the Examiner refers to Lofy' s Figure 20 and finds that elements 2010 correspond to the thermally conductive layer of claim 1 (Final Action 5; 4 Appeal2014-007266 Application 13/361,668 Ans. 16) and that elements 2010, 2020, and/or 2040 correspond to the lower substrate of claim 10 (Final Action 8-9; Ans. 19). Appellants contest these rejections by again arguing that Lofy does not disclose multiple thermoelectric modules on a common thermally conductive layer or substrate (App. Br. 13 and 15). Elements 2010, 2020, and 2040 are shown in Figure 20 of Lofy as a plurality of non-continuous layers separated by a gap 2030. As above, the Examiner does not explain why it is reasonable and consistent with Appellants' disclosure to consider these non-continuous layers to satisfy the "substantially contiguous, substantially rigid, thermally conductive layer" of claim 1 or the "articulated lower substrate" of claim 10. This deficiency of the§ 103 rejections is not supplied by the Examiner's conclusion that, in view of Lofy's Figure 19 disclosure regarding polyimide insulating layer 1930, it would have been obvious to modify the upper and lower laminates of Lofy' s Figure 20 to be "rigid segmented laminates joined with a flexible polyimide joint" (Final Action 6 and 9). Even if such a modification were made, the Examiner has failed to explain how the resulting polyimide layer or substrate would be thermally conductive as required by claim 1 or electrically coupled to thermoelectric elements as required by claim 10. For these reasons, we also will not sustain the Examiner's § 103 rejections. 5 Appeal2014-007266 Application 13/361,668 The decision of the Examiner is reversed. 6 Copy with citationCopy as parenthetical citation
