14469260 - (D) (P.T.A.B. Nov. 10, 2020)

Brooks Automation, Inc.

Patent Trials and Appeals BoardNov 10, 2020

14469260 - (D) (P.T.A.B. Nov. 10, 2020)

UNITED STATES PATENT AND TRADEMARK OFFICE 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 APPLICATION NO. FILING DATE FIRST NAMED INVENTOR ATTORNEY DOCKET NO. CONFIRMATION NO. 14/469,260 08/26/2014 Ulysses Gilchrist 390P014912-US (PAR) 2587 106446 7590 11/10/2020 Perman & Green, LLP 99 Hawley Lane Stratford, CT 06614 EXAMINER JARRETT, RONALD P ART UNIT PAPER NUMBER 3652 MAIL DATE DELIVERY MODE 11/10/2020 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 ULYSSES GILCHRIST ____________ Appeal 2020-002249 Application 14/469,2601 Technology Center 3600 ____________ Before JOSEPH A. FISCHETTI, MICHAEL C. ASTORINO, and BRUCE T. WIEDER, Administrative Patent Judges. WIEDER, Administrative Patent Judge. DECISION ON APPEAL This is a decision on appeal under 35 U.S.C. § 134 from the Examiner’s final rejection of claims 1–25. We have jurisdiction under 35 U.S.C. § 6(b). We AFFIRM. 1 We use the word “Appellant” to refer to “applicant” as defined in 37 C.F.R. § 1.42. Appellant identifies the real party in interest as Brooks Automation, Inc. (Appeal Br. 1.) Appeal 2020-002249 Application 14/469,260 2 CLAIMED SUBJECT MATTER Appellant’s invention relates “to robotic transport apparatus and, more particularly, to robotic drive transmissions.” (Spec. ¶ 2.) Claims 1, 12, 21, and 25 are the independent claims on appeal. Claim 1 is illustrative. It recites (emphasis and some paragraphing added): 1. A substrate processing apparatus comprising: a transport arm having serially connected arm links, at least one of the arm links having a predetermined arm link height; at least a first pulley and a second pulley, where the second pulley is fixed to an arm link of the serially connected arm links; and a multiband torque transmission with more than one independent unidirectional torque transmission band each of which extends longitudinally continuously between and independently coupled to each of the first pulley and the second pulley so that each torque load transmission, between the first pulley and the second pulley, by each of the more than one independent unidirectional torque transmission band between the first pulley and the second pulley imparts, under torque load, a substantially constant unidirectional uniaxial tension load throughout a respective one of the more than one independent unidirectional torque transmission band substantially continuously throughout a whole span length of the respective one of the more than one independent unidirectional torque transmission band extending in whole from the first pulley to the second pulley, each of the more than one independent unidirectional torque transmission band having a corresponding band height for the predetermined arm link height and a variable lateral thickness such that each of the more than one independent unidirectional torque transmission band includes a Appeal 2020-002249 Application 14/469,260 3 segment of laterally increased cross section for the corresponding band height, the segment of laterally increased cross section being distinct from and disposed between end couplings located at a respective terminus of the respective one of the more than one independent unidirectional torque transmission band coupling opposite ends of the respective one of the more than one independent unidirectional torque transmission band respectively to each of the first pulley and the second pulley. OBJECTION AND REJECTIONS The Amendment to the Specification filed July 24, 2017, is objected to under 35 U.S.C. § 132(a) because it introduces new matter into the disclosure. Claims 1–25 are rejected under 35 U.S.C. § 112(a) as failing to comply with the written description requirement. Claims 1–25 are rejected under 35 U.S.C. § 112(b) as being indefinite for failing to particularly point out and distinctly claim the subject matter which the inventor regards as the invention. Claims 1–25 are rejected under 35 U.S.C. § 103 as unpatentable over Solomon (US 6,428,266 B1, iss. Aug. 6, 2002) and Sakada (JP 2002- 093881, pub. Mar. 29, 2002).2 2 As used herein, “Sakada” refers to the translation of record dated June 2019. Appeal 2020-002249 Application 14/469,260 4 ANALYSIS The new matter objection and § 112(a) rejection The Examiner finds that “the claims contain the newly amended limitation[] ‘a substantially constant unidirectional tension load throughout the at least one torque transmission band’ which is not supported by the original Specification.” (Final Action 7.)3 Appellant argues that paragraph 28 of the Specification (as twice- amended by Appellant) supports the newly amended claim limitation. Appellant argues that the twice-amended Specification language “so that each torque load transmission by the first and second torque transmission bands 350, 351 between the first pulley 342 and the second pulley 344 imparts, under torque load, a substantially constant unidirectional tension load throughout the respective torque transmission band 350, 351 substantially continuously throughout a whole span length of each of the respective torque transmission band 350, 351 extending in whole from the first pulley 342 to the second pulley 344” added to paragraph [0028] naturally follows from and is inherent to the 3 We note that claim 1 was amended by Appellant’s AMENDMENT filed April 2, 2018. The Final Rejection mailed July 6, 2018, states that “Applicant’s amendment [of April 2, 2018] necessitated the new ground(s) of rejection.” (Final Rejection, mailed July 6, 2018, at 13.) From this, it is our understanding that Appellant’s amendment to claim 1 was entered. In relevant part, claim 1, which was previously amended, was further amended as follows: “a substantially constant unidirectional uniaxial tension load throughout a respective one of the more than at least one independent unidirectional torque transmission band.” Presumably treating it as a harmless transcription error, Appellant does not argue the discrepancy between the claim language quoted by the Examiner and the further amended claim language. Because the rejection is based on the claim requirement for a substantially constant unidirectional tension load throughout a band, we agree that, in this case, the transcription error is harmless. Appeal 2020-002249 Application 14/469,260 5 . . . language of paragraph [0028] as would be understood by those skilled in the art. (Appeal Br. 15.) The Examiner, however, determined that Appellant’s first amendment to paragraph 28 “introduces new matter into the disclosure,” i.e., the added material “is not supported by the original disclosure.” (Final Action 6.) The Examiner required cancellation of the new matter. (Id.) Appellant’s second amendment to paragraph 28 did not resolve the problem. (See id.; see also infra n.4.) Appellant asks us to determine whether the Examiner’s new matter objection is proper. (Appeal Br. 9–13.) Ordinarily, an objection is petitionable to the Director, and a rejection is appealable to the Board. However, when the issue of new matter is the subject of both an objection and a rejection, as is the case here in view of the § 112(a) rejection, the issue is appealable. See MPEP § 2163.06 II; see also 37 C.F.R. § 1.181. As originally filed, paragraph 28 of the Specification recites: The torque transmission bands 350, 351 may not form a continuous circular belt around the pulleys 342, 344. Rather, one end of the torque transmission band 350 may be at least partially wrapped around (e.g. in a clockwise direction) and affixed to the first pulley 342 while the other end of the torque transmission band 350 may be at least partially wrapped round [sic] (e.g. in a counter-clockwise direction) and affixed to the second pulley 344. The ends of the torque transmission band 350 may be affixed to a respective pulley 342, 344 in any suitable manner such as with pins or any other suitable removable or non- removable chemical or mechanical fastener. A second torque transmission band 351, substantially similar to torque transmission band 350 may be affixed at its ends to the pulleys 342, 342 [sic, 344] in a manner substantially similar to that described above with respect to torque transmission band 350, Appeal 2020-002249 Application 14/469,260 6 however the direction in which the torque transmission band 351 is wrapped around the pulleys 342, 344 may be reversed (e.g. one end of the torque transmission band 351 is wrapped in a counter- clockwise direction around pulley 342 and the other end of the torque transmission band 351 is wrapped around the pulley 344 in a clockwise direction). This dual torque transmission band configuration places both torque transmission bands 350, 351 in constant tension so that neither torque transmission band goes slack. (Spec. ¶ 28.) Appellant’s first amendment adds to the final sentence of paragraph 28 so that the final sentence reads: This dual torque transmission band configuration places both torque transmission bands 350, 351 in constant tension so that neither torque transmission band goes slack and so that each torque load transmission by the first and second torque transmission bands 350, 351 between the first pulley 342 and the second pulley 344 imparts, under torque load, a substantially constant unidirectional tension load throughout the respective torque transmission band 350, 351 substantially continuously throughout a whole length of the respective torque transmission band 350, 351 extending in whole at and from the first pulley 342 to and at the second pulley 344. (Amendment After Final, July 24, 2017, at 2–3 (added language appears with underline); see also Replacement Specification, October 29, 2018, ¶ 28 (incorporating Appellant’s first and second amendments to paragraph 28) (hereinafter “Replacement Spec.”).)4 4 Appellant’s second amendment to paragraph 28 amended the language added by the first amendment as follows: This dual torque transmission band configuration places both torque transmission bands 350, 351 in constant tension so that neither torque transmission band goes slack and so that each Appeal 2020-002249 Application 14/469,260 7 Paragraph 28 of the Specification as originally filed discloses that the “dual torque transmission band configuration places both torque transmission band 350, 351 in constant tension so that neither torque transmission band goes slack.” (Spec. ¶ 28 (emphasis added).) Appellant argues that it naturally follows from this that “constant tension” means more than just preventing either band from going slack, i.e., it means that under torque load there is a substantially constant unidirectional uniaxial tension load throughout a respective one of the more than one independent unidirectional torque transmission band substantially continuously throughout a whole span length of the respective one of the more than one independent unidirectional torque transmission band extending in whole from the first pulley to the second pulley. (Appeal Br. 15; see also Replacement Spec. ¶ 28.) Appellant argues that [r]eferring to Applicant’s specification (see Fig. 3A for example) those skilled in the art know that the bands 350, 351 are preloaded (tensioned against each other), where the preload on the bands 350, 351 is greater than the forces generated on the pulley system by arm motion (i.e., so that the tension in the bands 350, 351 does not increase or decrease and remains constant). In this manner the pulley system is a rigid system as is known in the art and provides accurate movements of the arm. torque load transmission by the first and second torque transmission bands 350, 351 between the first pulley 342 and the second pulley 344 imparts, under torque load, a substantially constant unidirectional tension load throughout the respective torque transmission band 350, 351 substantially continuously throughout a whole span length of each of the respective torque transmission band 350, 351 extending in whole at and from the first pulley 342 to and at the second pulley 344. (See Amendment, April 2, 2018, at 2–3.) Appeal 2020-002249 Application 14/469,260 8 (Appeal Br. 13.) As evidence, Appellant points to U.S. Patent No. 5,682,795, titled “ROBOTIC JOINT USING METAL BANDS” (hereinafter “Solomon II”). (Reply Br. 3–4.)5 But the cited portion of Solomon II simply says that a two drive band “configuration places both drive bands in constant tension so that neither drive band ever goes slack.” (Solomon II, col. 3, ll. 43–49.) We do not see how this furthers Appellant’s argument given that paragraph 28 of the Specification as originally filed said that the “dual torque transmission band configuration places both torque transmission bands 350, 351 in constant tension so that neither torque transmission band goes slack.” (Spec. ¶ 28.) The test for sufficiency of a written description is “whether the disclosure clearly ‘allow[s] persons of ordinary skill in the art to recognize that [the inventor] invented what is claimed.’ ” Ariad Pharms., Inc. v. Eli Lilly & Co., 598 F.3d 1336, 1351 (Fed.Cir.2010) (en banc) (quoting Vas–Cath Inc. v. Mahurkar, 935 F.2d 1555, 1562–63 (Fed.Cir.1991)). The disclosure must “reasonably convey[ ] to those skilled in the art that the inventor had possession of the claimed subject matter as of the filing date.” Id. at 1351. Possession means “possession as shown in the disclosure” and “requires an objective inquiry into the four 5 The Reply Brief is the first place in this appeal that Solomon II is presented as evidence or argument is made referencing Solomon II. “A reply brief shall not include . . . any new or non-admitted affidavit or other Evidence.” See 37 C.F.R. § 41.41(b)(1). Appellant argues that Solomon II is incorporated by reference in Solomon which is of record in this appeal. (Reply Br. 3; see also Final Action 8.) Regardless, Appellant’s argument relying on Solomon II was not raised in the Appeal Brief, is not responsive to a new argument raised in the Answer, and Appellant has not shown good cause for why we should consider this late argument. See 37 C.F.R. § 41.41(b)(2). However, for the sake of completeness, we address Appellant’s Solomon II argument. Appeal 2020-002249 Application 14/469,260 9 corners of the specification from the perspective of a person of ordinary skill in the art.” Id. Crown Packaging Tech., Inc. v. Ball Metal Beverage Container Corp., 635 F.3d 1373, 1380 (Fed. Cir. 2011). “[T]he level of detail required to satisfy the written description requirement varies depending on the nature and scope of the claims and on the complexity and predictability of the relevant technology.” Ariad Pharm., Inc., 598 F.3d at 1351. This inquiry is a question of fact. Id. The question we must address is whether the application-as-filed clearly allows one of ordinary skill in the art to recognize that the inventor had possession of the subject matter now being claimed. Here, Appellant presents attorney argument, not persuasive evidence; and we are not persuaded by this attorney argument (even if we consider the cited portions of Solomon II) that one of ordinary skill in the art would clearly recognize from the application as originally filed that the inventor had possession of the additional subject matter now claimed, i.e., that each torque load transmission, between the first pulley and the second pulley, by each of the more than one independent unidirectional torque transmission band between the first pulley and the second pulley imparts, under torque load, a substantially constant unidirectional uniaxial tension load throughout a respective one of the more than one independent unidirectional torque transmission band. (Claim 1 (emphasis added).)6 Therefore, we will affirm the Examiner’s rejection of claim 1 under § 112(a). Claims 2–25 are not separately argued 6 We also do not find persuasive Appellant’s argument “that the specification amendments made in Appellant’s response filed on Appeal 2020-002249 Application 14/469,260 10 with regard to the § 112(a) rejection and will fall with claim 1. See 37 C.F.R. § 41.37(c)(iv). It follows from the above discussion that we are also not persuaded that Appellant’s first amendment to paragraph 28 is not new matter. Therefore, we will also affirm the Examiner’s new matter objection. The § 112(b) rejection The Examiner determines that claim 1 is indefinite because it is not clear April 2, 2018 were deemed by the Examiner not to be new matter.” (Appeal Br. 11.) In a filing on July 24, 2017, Appellant sought to amend paragraph 28. The amendment was entered and objected to. (See Office Action, October 31, 2017, at 6–7; see also Answer 4–5, MPEP § 608.04.) In a filing on April 2, 2018, Appellant sought to further amend paragraph 28. In that amendment, Appellant presented paragraph 28 as amended by the July 24, 2017 amendment, but did not note that the amendment had been objected to. (See Amendment, April 2, 2018, at 2–3 (referring to paragraph 28 of the Specification-as-filed as “paragraph [0030] of the specification as published” (brackets in original)).) In the Final Action dated July 6, 2018, the Examiner stated “that attempted amendments (to the original Specification) filed 08/29/2016 and 04/02/2018 were determined not to be new matter, but attempted amendments filed 07/24/2017 were determined to be new matter.” (Final Action, July 6, 2018, at 2.) The Examiner did not enter the proposed April 2, 2018 amendment. Instead, “[g]iven the fluid nature of a repeatedly amended specification,” the Examiner required the filing of a substitute specification. (Id.) Therefore, when Appellant quotes from the April 2, 2018 proposed amendment (see Appeal Br. 11), and argues that “it is noted that the specification amendments made in Appellant’s responses filed on April 2, 2018 were deemed by the Examiner not to be new matter” (id.), we do not find the argument persuasive as it appears to suggest, incorrectly, that the amendment of July 24, 2017, had been entered without objection. Appeal 2020-002249 Application 14/469,260 11 how a torque transmission band can transfer a tension load to a pulley, resulting in a torque on the pulley, while having “a substantially constant unidirectional tension load throughout the at least one torque transmission band substantially continuously throughout a whole length of the at least one torque transmission band” as claimed. (Final Action 7; see also supra n.3.) The Examiner explains that since the torque transmission bands are driving a robotic arm to different positions, the robotic arm’s operation will be dynamic, such as starting, stopping, and changing direction. This dynamic operation will require changes in speed, which is acceleration, which necessitates changes i[n] force (or changes in tension) applied to and through the torque transmission bands from the driving pulley. (Answer 6.) Once again, Appellant directs us to Solomon II. (Reply Br. 3–4.) Appellant argues that Solomon II demonstrates that, “[w]ith reference to the operation of the metal bands,” the metal bands of Solomon II operate to provide “perfect timing without backlash” (see Col. 2, L. 40-42 of Solomon II) where the drive bands are wound around the pulleys in opposite directions so that the opposing drive bands are in constant tension, i.e., one band pulling against the other band (in a “substantially constant unidirectional uniaxial tension load throughout a respective one of the more than one independent unidirectional torque transmission band substantially continuously throughout a whole span length of the respective one of the more than one independent unidirectional torque transmission band extending in whole from the first pulley to the second pulley”), so that neither drive band ever goes slack (see Col. 3, L. 43-49 of Solomon II). (Reply Br. 3–4.) The Federal Circuit has stated that when the USPTO has initially issued a well-grounded rejection that identifies ways in which language in a claim is ambiguous, Appeal 2020-002249 Application 14/469,260 12 vague, incoherent, opaque, or otherwise unclear in describing and defining the claimed invention, and thereafter the applicant fails to provide a satisfactory response, the USPTO can properly reject the claim as failing to meet the statutory requirements of § 112(b). In re Packard, 751 F.3d 1307, 1311 (Fed. Cir. 2014). “[W]e employ a lower threshold of ambiguity when reviewing a pending claim for indefiniteness than those used by post-issuance reviewing courts.” Ex parte Miyazaki, 89 USPQ2d 1207, 1211 (BPAI 2008) (precedential). Specifically, “if a claim is amenable to two or more plausible claim constructions, the USPTO is justified in requiring the applicant to more precisely define the metes and bounds of the claimed invention by holding the claim unpatentable under 35 U.S.C. § 112, second paragraph, as indefinite.” Id.; see also In re Packard, 751 F.3d at 1311. As an initial matter, we note that Appellant’s claim 1 is not limited to metal bands. Claim 1 simply recites an “independent unidirectional torque transmission band.” Appellant’s Specification discloses in the section titled “Brief Description of Related Developments” that “robotic arms may use metal bands to transmit torque.” (Spec. ¶ 3.) And, in the section titled “DETAILED DESCRIPTION,” the Specification discloses that “[i]n one aspect the torque transmission bands may be metallic bands.” (Id. ¶ 27.) Applying a broadest reasonable interpretation, claim 1 is not limited to metal bands; and we do not find arguments directed to only metal bands to be persuasive.7 7 Although the Examiner refers to “Appellant’s metal bands” (Answer 5), for the reasons discussed, we do not agree that the torque transmission bands recited in claim 1 are limited to metal bands. Appeal 2020-002249 Application 14/469,260 13 The Examiner’s determination that “the robotic arm’s operation will be dynamic, such as starting, stopping, and changing direction” and that “[t]his dynamic operation will require changes in speed, which is acceleration, which necessitates changes i[n] force (or changes in tension)” (Answer 6), appears to be based on the Examiner’s understanding that the tension on the band will vary depending on the particular arm action being performed. It also appears that the Examiner interprets the claim language “each torque load transmission . . . by each of the more than one independent unidirectional torque transmission band . . . imparts, under torque load, a substantially constant unidirectional uniaxial tension load” as including a band that will be under a constant, i.e., a fixed value of, tension. Bands that are “in constant tension so that neither torque transmission band goes slack” (Spec. ¶ 28) may be constantly under tension, but they need not be under a constant, i.e., a fixed value of, tension. Appellant’s claim 1 recites “a substantially constant unidirectional uniaxial tension load,” which suggests that the bands are under a fixed value of tension. But Appellant appears to conflate tension to keep a band from going slack, i.e., tension that may vary, so long as the band does not go slack, with a constant tension, that is a band having a fixed value of tension. In view of the above, we agree with the Examiner that the claim limitation “a substantially constant unidirectional uniaxial tension load throughout a respective one of the more than one independent unidirectional torque transmission band” is ambiguous. We are not persuaded that the Examiner erred in rejecting claim 1 under § 112(b). Claims 2–25, which contain similar language and are not Appeal 2020-002249 Application 14/469,260 14 separately argued with regard to the § 112(b) rejection, will fall with claim 1. See 37 C.F.R. § 41.37(c)(iv). The § 103 rejection Obviousness is a legal conclusion involving a determination of underlying facts. Under § 103, the scope and content of the prior art are to be determined; differences between the prior art and the claims at issue are to be ascertained; and the level of ordinary skill in the pertinent art resolved. Against this background, the obviousness or nonobviousness of the subject matter is determined. Such secondary considerations as commercial success, long felt but unsolved needs, failure of others, etc., might be utilized to give light to the circumstances surrounding the origin of the subject matter sought to be patented. KSR Int’l Co. v. Teleflex Inc., 550 U.S. 398, 406 (2007) (quoting Graham v. John Deere Co. of Kansas City, 383 U.S. 1, 17–18 (1966)). “[R]ejections on obviousness grounds cannot be sustained by mere conclusory statements; instead, there must be some articulated reasoning with some rational underpinning to support the legal conclusion of obviousness.” Id. at 418 (brackets in original) (quoting In re Kahn, 441 F.3d 977, 988 (Fed. Cir. 2006)). With regard to the scope and content of the prior art, the Examiner finds that Solomon does not teach the claim 1 limitation “that each of the more than one independent unidirectional torque transmission band includes a segment of laterally increased cross section for the corresponding band height.” (Final Action 12.) However, the Examiner finds that Sakata teaches “a variable lateral thickness (Fig. 3) such that the torque transmission band includes a segment of laterally increased cross section Appeal 2020-002249 Application 14/469,260 15 (Par. 0020 and Fig. 3.)” (Id. at 15.) Specifically, and as discussed in more detail below, Sakata teaches attaching metal plates to portions of a torque transmission timing belt. (The lateral thickness of the belt/metal plate combination being greater than the thickness of the belt alone.) (See Sakata ¶¶ 14–15, Figs. 1–4.) The Examiner determines that in view of Sakata’s teachings, it would have been obvious to one of ordinary skill in the art at the time the invention was effectively filed to have modified any one or all of Solomon’s independent unidirectional torque transmission bands to include rigid band segments between pulleys so that the torque transmission band portions do not expand and contract, suppressing rotation delay and restricting rectilinear deviation. (Id. at 17.) The Examiner additionally determines that “one of ordinary skill in the art would clearly understand that modifying Solomon’s transmission bands with Sakata’s teaching of adding rigid members would have a predictable result of reducing band length deformation when under tension.” (Answer 13.) Appellant argues that “Sakata expressly discloses a toothed belt (i.e., timing belt) that is made of rubber (i.e., an elastic material)” (Appeal Br. 20), that “Sakata recognizes and eschews metal wires (which are recognized in Sakata as being inelastic belts without stretch)” (id. (citing Sakata ¶ 7)), that “[w]hat is disclosed/taught in Sakata is the use of the inherently elastic timing belt with added rigidity to counter the inherent elasticity of the timing belt by adding rigid members (i.e., metal plates) to the rubber of the timing belt” (id. at 21), and that unlike Sakata, “Solomon . . . teaches pinned metal bands, or laminated metal-visco-elastic bands (see the metal drive tapes/bands 96 and 114) that are stiff and do not stretch” (id.). Appellant further argues that Appeal 2020-002249 Application 14/469,260 16 the notion Sakata discloses that the invention of Sakata (i.e., the toothed elastic timing belt with added rigidity) “can be applied to an arm mechanism of any structure as long as it has a structure that transmits power using a timing belt and pulley” as noted by the Examiner on page 4 of the Final Office Action again requires the use of a toothed elastic belt, which is clearly teaching away from the metal bands of Solomon. (Id. at 20.) Thus, Appellant argues, it is clear that the drive bands of Solomon do not stretch or elastically deform and already assure transmission of sufficient power. Thus, one skilled in the art reading Solomon and Sakata (and considering the actual teachings of the references) would not modify the non-elastic bands of Solomon with the rigid members of Sakata to reduce the elasticity as described in Sakata because there is no elasticity in the metallic bands of Solomon that needs mitigating. (Id. at 25.) The Examiner answers “that Col. 4, Ln. 35-46 of Solomon says nothing about the metal bands not stretching. Regarding Sakata’s use of the term ‘non-stretchable wires,’ this term may be used by Sakata in relative comparison to the toothed belt.” (Answer 11.) With regard to Appellant’s argument that Sakata uses a toothed elastic timing belt and pulley which teaches away from Solomon’s metal bands, the Examiner answers that “Appellant seems to wrongly conclude that all timing belts are toothed belts. . . . [T]he term ‘timing’ in the nomenclature is simply an indication that the belt provides a predictable outcome of the driven pulley based [on] a known input to the driving pulley.” (Id. at 13.) Solomon “generally relates to material handling robots, and specifically relates to directly driving arm links and end effectors of a Appeal 2020-002249 Application 14/469,260 17 robot.” (Solomon, col. 1, ll. 24–26.) In particular, Solomon discloses a robot arm having first and second elbow drive pulleys that are substantially identical, i.e., the diameters are related by a 1:1 ratio. The drive tapes 96 comprise metal bands, or laminated metal-visco-elastic bands, each having one end 98 wrapped around one of the pulleys 92, 94 and retained in place by a pin 100. A band tensioner 150 enables adjustment of tension in the bands. The amount of band tension can be measured by inserting a measuring tool through hole 152. The other end of each band is pinned to the opposite pulley. The first end 98 of each band wraps around about 320 degrees of the circumference of a pulley 92, 94. (Id. at col. 4, ll. 35–45.) Sakata “relates to a substrate conveyer robot.” (Sakata ¶ 1.) Sakata discloses a robotic arm including a first and second pulley where “[t]he second pulley 12 is connected to the first pulley 11 via the timing belt 13.” (Id. ¶ 3.) Under the heading “Problem(s) to Be Solved by the Invention,” Sakata discloses: Timing belts are generally comprised of materials with a certain degree of flexibility as found in composite materials that are primarily comprised of nitrile hydroxide rubber so that they can be wrapped around a pulley to transmit motor drive force. Thus, when the substrate is large and thereby requires larger arm dimensions and weight, a large force will be applied to the timing belt and cause the timing belt to stretch, which is a major problem in terms of performing stable substrate conveyance. (Id. ¶ 6.) Sakata also discloses: Measures for avoiding these problems include methods that use non-stretchable wires instead of the timing belt, and methods that detect misalignment in the substrate from the straight-line movement caused by stretching at the time [sic] belt and then correct the motor rotation angle to avoid collision, etc. Appeal 2020-002249 Application 14/469,260 18 However, when using metal wires, there may be instances where sliding occurs between the belt and the pulley, which can lead to problems not being able to achieve stable straight-line movement and result in poor reliability. (Id. ¶¶ 7–8.) Figure 2 of Sakata is reproduced below. Figure 2 is a schematic diagram that shows a transverse cross-section structure of a robotic arm of the Sakata device. (Id. ¶ 14.) As illustrated in Fig.2, a tooth surface has been formed on the inner peripheral surface of the timing belt 23, and corresponding tooth surfaces have also been formed on the outer peripheral surfaces of the pulleys 21 and 22. These tooth grooves prevent the pulleys and the timing belt from sliding, whereby it is possible to more reliably transfer the rotational drive force of the motors via the timing belt. Additionally, an idler pulley 8 has been provided to the fourth pulley 22 which has a large diameter 22. This allows an appropriate amount of tension to be provided to the timing belt and reliable interlocking between the timing belt tooth surface and the pulley tooth surfaces . . . . The timing belt 23 rotates the pulley 21 and also moves left-to-right to move the other pulley 22, and a rigid member 7 is provided to the parts that contact with the pulley and the idler pulley at the time of rotation. . . . [T]he rigid member is comprised of a metal plate . . . 72 with a cross-section structure that interlocks with the tooth surface on the timing belt and a flat metal plate 71, and both of these components interpose the timing belt 23, and the rigid members are reliably fixated on the timing belt using fixating members such as bolts [] and nuts [], Appeal 2020-002249 Application 14/469,260 19 etc. By using this type of configuration, the part of the timing belt where the metal plate is attached will no longer stretch and the pulley rotational delays will also be suppressed. (Id. ¶¶ 14–15.) The rigid member, i.e., the metal plates 71 and 72, when attached to the belt effectively increases the lateral thickness of the belt. (See id.; see also id. at Figs. 1–4.) Sakata clearly teaches use of timing belts for torque transmission. Sakata describes timing belts as “generally comprised of materials with a certain degree of flexibility as found in composite materials that are primarily comprised of nitrile hydroxide rubber.” (Sakata ¶ 6.) Sakata recognizes the problem of stretch in such rubber timing belts (id.) and addresses the problem by attaching metal plates to that portion of the belt between pulleys (id. ¶¶ 14–15.) Sakata also clearly recognizes the possibility of using metal wires for torque transmission. (Id. ¶ 7.) However, the Examiner does not direct us to any teaching in Sakata regarding attaching a rigid member to such metal wires. Indeed, Sakata describes these wires as “non-stretchable,” although subject to sliding. (Id.) When, as in this case, it is necessary “to look to interrelated teachings of multiple patents,” we must “determine whether there was an apparent reason to combine the known elements in the fashion claimed by the patent at issue.” KSR Int’l Co. v. Teleflex Inc., 550 U.S. 398, 418 (2007). “‘[T]here must be some articulated reasoning with some rational underpinning to support the legal conclusion of obviousness.’” Id. (quoting In re Kahn, 441 F.3d 977, 988 (Fed. Cir. 2006)). The Examiner does not direct us to anything in Sakata indicating that Sakata recognizes a problem with stretching with respect to the use of metal wires for torque transmission. Nor does the Examiner direct us to anything Appeal 2020-002249 Application 14/469,260 20 in Solomon indicating that Solomon recognizes a problem with stretching with respect to the use of metal bands. Although the Examiner determines that “adding rigid members would have a predictable result of reducing band length deformation” (Answer 13), the Examiner does not indicate where the prior art recognizes metal band length deformation as a problem to be solved. We do not doubt that adding rigid members to metal bands would, to some degree, reduce band length deformation. However, the Examiner does not sufficiently explain why one would have been motivated to modify Solomon as the Examiner suggests. See KSR Int’l Co., 550 U.S. at 418. In view of the above, we are persuaded that the Examiner erred in rejecting claim 1 under § 103. For the same reason, we are persuaded that the Examiner erred in rejecting claims 2–25 under § 103. CONCLUSION The Examiner’s objection to the July 24, 2017 Amendment to the Specification is affirmed. The Examiner’s rejection of claims 1–25 under 35 U.S.C. § 112(a) is affirmed. The Examiner’s rejection of claims 1–25 under 35 U.S.C. § 112(b) is affirmed. The Examiner’s rejection of claims 1–25 under 35 U.S.C. § 103 is reversed. In summary, with regard to the rejections only: Claims Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 1–25 112(a) Written Description 1–25 Appeal 2020-002249 Application 14/469,260 21 Claims Rejected 35 U.S.C. § Reference(s)/Basis Affirmed Reversed 1–25 112(b) Indefiniteness 1–25 1–25 103 Solomon, Sakada 1–25 Overall Outcome 1–25 No time period for taking any subsequent action in connection with this appeal may be extended under 37 C.F.R. § 1.136(a). See 37 C.F.R. § 1.136(a)(1)(iv). AFFIRMED