Ex Parte Freymiller et alDownload PDFPatent Trial and Appeal BoardDec 10, 201814552685 (P.T.A.B. Dec. 10, 2018) Copy Citation UNITED STA TES p A TENT AND TRADEMARK OFFICE APPLICATION NO. FILING DATE 14/552,685 11/25/2014 757 7590 12/10/2018 BGL P.O. BOX 10395 CHICAGO, IL 60610 UNITED ST A TES OF AMERICA FIRST NAMED INVENTOR Otley Dwight Freymiller 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. 16005-1395 (72154US02) 5694 EXAMINER ALLGOOD, ALESA M ART UNIT PAPER NUMBER 2868 MAIL DATE DELIVERY MODE 12/10/2018 PAPER 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. PTOL-90A (Rev. 04/07) UNITED STATES PATENT AND TRADEMARK OFFICE BEFORE THE PATENT TRIAL AND APPEAL BOARD Ex parte OTLEY DWIGHT FREYMILLER, RONALD J. GLAVAN, and JEFFREY L. SANDS Appeal2018-003068 Application 14/552,685 1 Technology Center 2800 Before DONNA M. PRAISS, CHRISTOPHER C. KENNEDY, and BRIAND. RANGE, Administrative Patent Judges. RANGE, Administrative Patent Judge. DECISION ON APPEAL SUMMARY Appellant appeals under 35 U.S.C. § 134(a) from the Examiner's decision rejecting claims 1-14. We have jurisdiction. 35 U.S.C. § 6(b). We REVERSE. 1 Appellant is the Applicant, Taylor Commercial Foodservice Inc., which, according to notice subsequent to the appeal brief, was formerly known as Carrier Commercial Refrigeration Inc. and is the real party in interest. See September 14, 2018, Notification of Change of Name of Real Party in Interest. Appeal2018-003068 Application 14/552,685 STATEMENT OF THE CASE2 Appellant describes the invention as relating to "a grill that automatically calibrates a gap between an upper grilling surface and a lower grilling surface." Spec. 2. Claim 1, reproduced below with emphases added to certain key recitations, is illustrative of the claimed subject matter: 1. A method of calibrating a grill comprising: performing a first calibration run including: monitoring a current of a leveling mechanism as a first grilling surface moves into contact with a second, opposite grilling surface to determine a first location of the first grilling surface; monitoring the current of a leveling mechanism as the first grilling surface moves out of contact with a second, opposite grilling surface to determine a second location of the first grilling surf ace; and storing a first calibration setting including the first location and the second location in a control. Appeal Br. 12 (Claims App.). REFERENCES The Examiner relies upon the prior art below in rejecting the claims on appeal: Kundinger et al. ("Kundinger") Sands et al. ("Sands") US 8,075,816 B2 US 8,833,243 B2 Dec. 13, 2011 Sept. 16, 2014 2 In this Decision, we refer to the Final Office Action dated April 20, 2017 ("Final Act."), the Appeal Brief filed September 20, 2017 ("Appeal Br."), and the Examiner's Answer dated October 31, 2017 ("Ans."). 2 Appeal2018-003068 Application 14/552,685 REJECTIONS The following rejections are before us on appeal: Rejection 1. Claims 1-13 under 35 U.S.C. § 102 as being anticipated by Sands. Ans. 2; Final Act. 4. Rejection 2. Claim 14 under 35 U.S.C. § 103 as unpatentable over Sands in view of Kundinger. Ans. 2; Final Act. 8. ANALYSIS The Examiner finds that Sands teaches each limitation of claim 1. Final Act. 4--5. Most pertinent to this decision, the Examiner cites Sands, at column 4, lines 42-65, as teaching monitoring of a current of a leveling mechanism "as a first grilling surface moves into contact with a second" and "storing a first calibration setting including the first location and the second location in a control." Final Act. 4--5; see also id. at 2-3; Ans. 5. Appellant argues that Sands fails to teach monitoring of the current of a leveling mechanism as the first surface moves towards the second surface and fails to teach monitoring of the current leveling mechanism as the first surface moves both toward and away from the second surface (i.e., the upper grill moves downward and upward, respectively, if the grill is orientated in a typical fashion, see Spec. Fig. 2). In particular, Appellant argues that Sands teaches monitoring current as grilling surfaces move apart but not as they move together. Appeal Br. 9. On the present record, we agree with Appellant that the Examiner has not adequately established that Sands teaches each limitation of claim 1. Sands primarily focuses on monitoring current as grilling surfaces move apart (i.e., in the configuration of Sands Figure 2, as the upper grill moves 3 Appeal2018-003068 Application 14/552,685 upwards). See, e.g., Sands 1:65-2:3 (explaining that current is monitored as the upper grilling surface is slightly lifted), 4:28-32 (explaining that current changes when cables "begin to sustain the weight of the upper grilling surface 3 2 "); 5: 14--16 ("Before each motor ... performs the calibration steps, the upper grilling surface 32 is lowered onto the lower grilling surface 30."). To support that Sands also teaches monitoring current as grilling surfaces move into contact with each other ( e.g., when the upper grill is lowered), the Examiner writes: Sands teaches "The motor 46a rotates the shaft 48a in the direction A to lower the upper grilling surface 32 onto the lower grilling surface 30. The current of the windings of the motor 46a is detected by the current sensor 80" in Col. 4, Lines 49-56. Ans. 5. The Examiner's above quotation of Sands is inaccurate. The cited portion of Sands instead states: The motor 46a rotates the shaft 48a in the direction A to lower the upper grilling surface 32 onto the lower grilling surface 30. The motor 46a is again operated to rotate the shaft 48a in the direction B, wrapping the cable 58a around the disc 52a to shorten and remove any slack in the cable 58a. The current of the windings of the motor 46a is detected by the current sensor 80. Sands 4:49-56 ( emphasis modified). Direction B moves the plates apart, not together. Sands Fig. 7; 3:53---62. This passage of Sands is not entirely clear, but in view of the context provided by the other portions of Sands (for example, the portions cited above), this passage is best understood as teaching current detection only when the surfaces are moving apart. We note that Sands may teach current detection when surfaces move together when describing an alternative embodiment. Sands 5:65---67 4 Appeal2018-003068 Application 14/552,685 ("Alternatively, the size of the gap 36 is determined by detecting when the upper grilling surface 32 contacts the food item 34 based on the detected current."). The Examiner, however, does not cite or rely on this passage of Sands. Even if the Examiner were to cite this passage, the Examiner's analysis would still be lacking because the Examiner fails to adequately explain where Sands teaches "storing a first calibration setting including the first location [ determined from monitoring as the first surface moves into contact with the second surface] and the second location [ determined from monitoring current as the first surface moves out of contact with the second surface] in a control" as recited by claim 1. For the above reasons, we do not sustain the Examiner's rejection of claim 1. We do not sustain the Examiner's rejection of claims 2-13 because each of those claims depend from claim 1. We do not sustain the Examiner's rejection of claim 14 under 35 U.S.C. § 103 because claim 14 depends from claim 1 and because the Examiner's use of Kundinger does not cure the error we address above. Ans. 5 ("Kundinger was not relied upon for teaching any limitations of Claim 1."). DECISION For the above reasons, we reverse the Examiner's rejections of claims 1-14. REVERSED 5 Copy with citationCopy as parenthetical citation
