11194423 (B.P.A.I. Sep. 3, 2010)

Ex Parte Levin et al

Board of Patent Appeals and InterferencesSep 3, 2010

11194423 (B.P.A.I. Sep. 3, 2010)

UNITED STATES PATENT AND TRADEMARK OFFICE ____________ BEFORE THE BOARD OF PATENT APPEALS AND INTERFERENCES ____________ Ex parte LEONARD LEVIN and SOPHIA LEVIN ____________ Appeal 2010-000623 Application 11/194,423 Technology Center 1700 ____________ Before EDWARD C. KIMLIN, PETER F. KRATZ, and MARK NAGUMO, Administrative Patent Judges. KRATZ, Administrative Patent Judge. DECISION ON APPEAL1 This is a decision on an appeal under 35 U.S.C. § 134 from the Examiner’s final rejection of claims 1-13. We have jurisdiction pursuant to 35 U.S.C. § 6. 1 The two-month time period for filing an appeal or commencing a civil action, as recited in 37 C.F.R. § 1.304, or for filing a request for rehearing, as recited in 37 C.F.R. § 41.52, begins to run from the “MAIL DATE” (paper delivery mode) or the “NOTIFICATION DATE” (electronic delivery mode) shown on the PTOL-90A cover letter attached to this decision. Appeal 2010-000623 Application 11/194,423 Appellants’ claimed invention is directed to a method and apparatus of monitoring a fluid bead pattern applied to a substrate via a fluid dispensing device. According to Appellants, a monitoring apparatus in accordance with the present invention computes time differences associated with the sensing of a particular substrate location and leading and trailing edges of one or more fluid beads applied to the substrate to be monitored. These time differences are used to develop dimensionless ratio values, which are compared to corresponding ratios developed from a sample or reference pattern. As the ratios are dimensionless, their numerical values are not speed-dependent, and thus are applicable at any line speed for a given pattern. The monitoring system of the present invention permits the dispensing of adhesive or other liquids onto a moving substrate to be accurately and continuously tracked without a complicated interface with the dispensing circuitry. By accurately computing delay ratios and comparing them with the corresponding delay ratios extracted from the sample pattern, the monitoring system provides information for a variety of quality control processes. Spec. ¶ ¶ 0008 and 0009. Claims 1, 6, and 10 are illustrative and reproduced below: 1. A method for monitoring a pattern of fluid beads applied by a fluid applicator to a substrate moving with respect to the fluid applicator, comprising the steps of: (a) generating a first signal corresponding to a time of passage of a first, leading point on the substrate past a reference location; (b) generating second and third signals corresponding to a time of passage of a leading edge and a trailing edge, respectively, of a fluid pattern bead applied to the substrate past a reference location; 2 Appeal 2010-000623 Application 11/194,423 (c) calculating a first time difference between the first signal and the second signal and a second time difference between the first signal and the third signal; (d) calculating a ratio between the first and second time differences; and (e) comparing the ratio to a reference ratio and generating a signal corresponding to the results of the comparison. 6. An apparatus for monitoring a pattern of a fluid applied by a fluid dispensing device onto a substrate moving with respect to the fluid dispensing device, wherein a trigger sensor is disposed for providing a trigger signal in response to detecting an edge of a substrate element and a sensor is disposed for providing a sensor signal in response to detecting an edge of the fluid applied to the substrate element, the apparatus comprising: an input processor for detecting the trigger and sensor signals and providing representations of the corresponding edges of the substrate element or fluid; a timer connected to said input processor and configured for measuring time delays between trigger signals and sensor signals associated with a substrate element; memory cells connected to the timer for storing a first data value corresponding to a time delay between a given substrate leading edge trigger signal and a liquid leading edge sensor signal and a second data value corresponding to a time delay between the given substrate leading edge trigger signal and a liquid trailing edge sensor signal; means connected to the timer for computing and storing a data value corresponding to a ratio between the first and second data values; and an output processor configured for comparing the data value to a reference ratio data value and generating a output signal representative of results of the comparison. 3 Appeal 2010-000623 Application 11/194,423 10. A method of monitoring a pattern of a fluid dispensed by a fluid dispensing device on a substrate moving with respect to the fluid dispensing device, the method comprising the evaluation of quality of the pattern by comparing a ratio of delays associated designated locations on the pattern with a corresponding rato of delays associated with a reference pattern of the fluid. The Examiner lists the following prior art references (Ans. 2): Klein 2006/0096530 A1 May 11, 2006 Estelle2 6,770,142 B2 Aug. 03, 2004 Claims 1-13 stand rejected under 35 U.S.C. § 103(a) as being unpatentable over Klein. We reverse the stated rejection for substantially the reasons set forth in the Appeal Brief and the Reply Brief. Klein is directed to a closed loop adhesive registration system and method. A command signal that is used to change an operating state of a fluid dispensing gun is automatically adjusted by the closed loop control system. In Klein, the closed loop control process is used for applying adhesive to a substrate using trigger and adhesive sensors to effect an adjustment to a command signal used to adjust an operating state of a fluid dispensing gun. On or off time compensation and pressure compensation parameters are adjusted when a number of consecutive measurements of an adhesive bead characteristic (such as the distance a leading edge of a bead is from an edge of a substrate) is outside a predetermined tolerance range. In Klein, for example, Xon is an on time compensation value for an operating parameter that is used to generate a command signal for a glue 2 The Examiner does not employ Estelle in rejecting the claims. While Appellants refer to Estelle in rebuttal (App. Br. 17-18), we do not reach this evidence in deciding this appeal. 4 Appeal 2010-000623 Application 11/194,423 gun, not the command signal itself (¶ 0028). Xon corresponds to the distance that a moving substrate is up line from a glue gun at which the gun should initiate a process to apply adhesive or change its state so that the adhesive is properly placed on the substrate (¶ 0029). As explained in Klein, a glue applicator gun may apply adhesive to a location other than desired as a result of variable glue valve delays (variable glue gun switching time), glue pressure or glue consistency variations, and/or other delays or variations associated with glue dispensing operations (¶¶ 0002-0012). Klein employs control processes to automatically compensate for such switching delays and other delays in the dispensing process, including providing for adjustments to the aforementioned on time compensation value, Xon (¶¶ 0014-0017). When a selected number of consecutive adhesive bead characteristic measurements are outside a predetermined tolerance range for these measurements, an adjustment can be made to the Xon operating parameter (¶ 0015). Klein teaches that a sensor can be used to generate a feedback signal that is employed to communicate a measurable difference between actual and desired bead characteristics such as a distance from a substrate edge to a bead edge (¶ 0018). Klein’s system uses the feedback signal in determining an adjustment to Xon. Id. In Figure 4 of the drawings, Klein provides a flowchart for depicting the processes employed in adjusting the on time compensation value, Xon (Fig. 4; ¶¶ 0062 -0073). The Examiner has determined that Klein does not disclose calculating and/or comparing time difference ratios (ratios of delays) as part of the fluid bead application method thereof or describe a control system including components that perform fluid bead monitoring, as here-claimed (Ans. 3, 5, 5 Appeal 2010-000623 Application 11/194,423 6, and 7). In addressing this acknowledged difference between the claimed process and apparatus and Klein, the Examiner basically maintains that it would have been obvious to one of ordinary skill in the art to perform (or provide means for performing) time difference ratio calculations and/or ratio comparisons as part of Klein’s control system so as to result in the process or apparatus, as claimed by Appellants (see generally Ans.). The principal issue before us is: Has the Examiner established that it would have been obvious to one of ordinary skill in the art to modify the control process or control system taught by Klein to include time difference ratio calculations and/or ratio comparisons as claimed by Appellants, as proposed in the rejection? We answer this question in the negative. It is well settled that the burden of establishing a prima facie case of non-patentability resides with the Examiner. See In re Piasecki, 745 F.2d 1468, 1472 (Fed. Cir. 1984). Here, the Examiner’s obviousness rejection lacks an adequate factual predicate properly founded upon the disclosure of Klein and a persuasive rationale for the proposed modification of Klein that would have led one of ordinary skill in the art to the claimed subject matter. In rejecting claim 1, the Examiner refers to sensors 38, 39, and 80, counter 74, steps 124, 130, 154, and 184, and paragraphs 0042 and 0043 of Klein (Figs. 1, 3, 4, and 5) followed by opining that: Both signal processing techniques represent the same underlying quantity and inform on the accuracy of the underlying dispense, and one skilled in the art would appreciate that the signal of Klein are mathematically identical in informational content to the signals claimed, especially since Klein acquires the same sensor information as claimed. Therefore, it would have been obvious to one of ordinary skill 6 Appeal 2010-000623 Application 11/194,423 in the art at the time of the invention to have utilized ratio measurements in lieu of two direct measurements because both techniques represent the same underlying quantity. Ans. 3-4. However, the Examiner does not follow through by explaining how and/or why this proposed substitution would have been implemented by one of ordinary skill in the art in concert with the control system of Klein based on the teachings of Klein. Thus, even accepting, arguendo, the Examiner’s position that Appellants’ and Klein’s signal processing techniques did involve “the same underlying quantity”, the Examiner’s rejection falls short in articulating why the Examiner’s proposed modifications to the processing steps and apparatus of Klein would have been implemented by an ordinary skilled artisan in order to advance Klein’s objectives. The Examiner points to paragraphs 0062- 0073 of Klein (Ans. 3). These latter paragraphs of Klein are repeatedly referred to by the Examiner and relate to Klein’s individual distance value comparisons for adjustment of Klein’s distance-based on time compensation value Xon, as discussed above and, as more specifically described in Klein (Ans. 3, 5, 6, 7, and 13; Klein, ¶¶ 0062 -0073). The Examiner does not point to any particularly relevant disclosure in Klein within these paragraphs and explain how such particular disclosure would have reasonably suggested to one of ordinary skill in the art the proposed substitutions to the control scheme of Klein that are relied upon by the Examiner in rejecting all of the appealed claims. As basically argued by Appellants, Klein’s method and apparatus involve individually comparing a collection of distance measurements to corresponding standards, require use of an encoder coupled to a conveyor 7 Appeal 2010-000623 Application 11/194,423 shaft, and require that each distance comparison is separate or independent to allow its feedback system to process the differences and determine an appropriate response, based on the difference data considered (App. Br. 11- 12, 15-16, 18-19). The Examiner has not established that the applied prior art would have suggested the use of Appellants’ time difference ratios as a substitution for Klein’s direct comparison of separate distance values with a standard corresponding to each as employed by Klein in making adjustments in the disclosed control system. For example, Klein details in the flowcharts of Figures 3-5 how the system of Figure 1 employs separate/individual distance comparisons to adjust compensation values employed in the control system that relate to intrinsic glue gun switching time variations. The Examiner has not explained how Appellants’ claimed calculated time difference ratios and comparisons of such would have been suggested to one of ordinary skill in the art as viable processing and data substitutions for determining appropriate corrections to Klein’s glue gun switching operations via the parameters or compensation values, systems and method employed by Klein, or by any obvious proposed alternatives that have been established by the Examiner. In this regard, the Examiner’s reference to Klein’s generic mention of a time-based implementation in paragraph 0088 of the published U.S. Patent Application does not per se establish that the here-claimed monitoring process and/or apparatus would have been an obvious option to one of ordinary skill in the art (Ans. 12). On this record, the Examiner has not reasonably established the obviousness of the claimed subject matter over Klein based on the proposed 8 Appeal 2010-000623 Application 11/194,423 modifications to Klein’s closed loop control process and apparatus advanced in the stated rejection. CONCLUSION/ORDER The Examiner’s decision to reject claims 1-13 under 35 U.S.C. § 103(a) as being unpatentable over Klein is reversed. REVERSED Ssl LADAS & PARRY LLP 26 WEST 61ST STREET NEW YORK, NY 10023 9