BLOW MOLDED CONTAINERS AND METHODS OF MAKING THE SAME

DETAILED ACTION Notice of Pre-AIA or AIA Status The present application, filed on or after March 16, 2013, is being examined under the first inventor to file provisions of the AIA . Claims Status Claims 1-6 are pending. Claim Objections Claims 2 and 5 are objected to because of the following informalities:Applicant is advised that should claim 2 be found allowable, claim 5 will be objectedto under 37 CFR 1.75 as being a substantial duplicate thereof. When two claims in anapplication are duplicates or else are so close in content that they both cover the samething, despite a slight difference in wording, it is proper after allowing one claim to objectto the other as being a substantial duplicate of the allowed claim. See MPEP§ 706.03(k). Appropriate correction is required. Claim Rejections - 35 USC § 103 The following is a quotation of 35 U.S.C. 103 which forms the basis for all obviousness rejections set forth in this Office action: A patent for a claimed invention may not be obtained, notwithstanding that the claimed invention is not identically disclosed as set forth in section 102, if the differences between the claimed invention and the prior art are such that the claimed invention as a whole would have been obvious before the effective filing date of the claimed invention to a person having ordinary skill in the art to which the claimed invention pertains. Patentability shall not be negated by the manner in which the invention was made. The factual inquiries for establishing a background for determining obviousness under 35 U.S.C. 103 are summarized as follows: 1. Determining the scope and contents of the prior art. 2. Ascertaining the differences between the prior art and the claims at issue. 3. Resolving the level of ordinary skill in the pertinent art. 4. Considering objective evidence present in the application indicating obviousness or nonobviousness. This application currently names joint inventors. In considering patentability of the claims the examiner presumes that the subject matter of the various claims was commonly owned as of the effective filing date of the claimed invention(s) absent any evidence to the contrary. Applicant is advised of the obligation under 37 CFR 1.56 to point out the inventor and effective filing dates of each claim that was not commonly owned as of the effective filing date of the later invention in order for the examiner to consider the applicability of 35 U.S.C. 102(b)(2)(C) for any potential 35 U.S.C. 102(a)(2) prior art against the later invention. Claim(s) 1-6 are rejected under 35 U.S.C. 103 as being unpatentable over Collette et al. (US 5,759,653; “Collette”) in view of Merical et al. (US 2008/0185301; “Merical”) and Klein et al. (US 2016/0039955; “Klein”). Regarding claims 1 and 3, Collette teaches a method of manufacturing a bottle (col. 3, lines 51-67, Fig. 6, bottle 110), the bottle (110) comprising a base (113), a sidewall (117) extending from the base, and a neck extending from the sidewall, the neck leading to a dispensing opening (111), the base and the sidewall defining an interior (see annotated Fig. 6) configured to house at least one product, the neck having a first cross sectional area and the sidewall having a second cross sectional area, the first cross sectional area being smaller than the second cross sectional area (see annotated Fig. 6 below for respective references to base, sidewall, neck, cross sectional areas, col. 3, lines 51-67, the configuration of the bottle 110 of Collette meets the claimed structural limitations of the instantly claimed bottle). PNG media_image1.png 810 421 media_image1.png Greyscale PNG media_image2.png 732 250 media_image2.png Greyscale Collette teaches the process of making its container bottle includes the step of providing a stock component having a coextruded composite having a barrier layer (76) and an oxygen scavenging layer (77) (Fig. 4 above, col.7, lines 44-59, col. 5, lines 64, the multilayer laminated/coextruded perform of Collette having a barrier layer and an oxygen scavenging layer). Collette teaches the manufacturing process of making its bottle via blow molding, of which the preform having the barrier layer (76) and the oxygen scavenging layer (77) are being blow-molded together and contiguous with each other along the sidewall, the neck and the base (col. 7, lines 21-23, and col. 7, lines 59-67, see Fig. 4). Collette teaches in its bottle, the barrier layer (76) is being disposed external relative to the oxygen scavenging layer (77) (see Fig. 4, col. 7, lines 44-47, the barrier layer 76 is the outer most layer, and is being external relative to the middle oxygen scavenging layer (77), meeting the claimed limitations), the barrier layer (76) is being made of a plastic material (col. 7, lines 44-47, the barrier layer (76) is of PET, which is a plastic material), meeting the claimed limitations. As discussed above, Collette teaches the manufacturing process of making its bottle via blow molding (col. 7, lines 21-23). However, Collette does not specifically teach the specific steps of inserting an apparatus into an opening in the stock component and passing air into the opening. Those steps are well known steps in blow molding process. Merical is cited in this regard. Merical teaches the manufacturing process of making multilayer container bottle includes blow molding, co-extrusion blowing molding (para [0024]). Merical teaches the step of inserting an apparatus into an opening in the stock component (para [0027], tube is pierced at the top with an apparatus and inserting an air providing apparatus); and passing air into the opening of the stock component in order to form the bottle (para [0027], air is being injected into the opening of the tube to inflate the tube to form the bottle), which steps read on the instantly claimed method of claim 1. Also, as shown in Fig. 1 of Merical, the process taught by Merical produces a container (10) of which the outer layer (21) and the inner layer (22) of the container (10) are attached at the neck, sidewall and base of the container (Fig. 1), meeting the instantly claimed limitations of claim 1. PNG media_image3.png 490 430 media_image3.png Greyscale It would have been obvious to one of ordinary skill in the art to modify Collette in view the teachings of Merical, to include the step of inserting an apparatus into an opening in the stock component (the preform of Collett) and to further include the step of passing air into the opening of the stock component (the preform of Collett) in order to form the blow molded bottle as taught by Merical (para [0027]), because those steps are known steps in the blow molding process for making blow-molded bottle as taught by Merical (para [0024], [0027]), which would have predictably arrived at a bottle wherein the barrier layer and the oxygen scavenging layer are being blow-molded together and contiguous with each other along the sidewall, the neck and the base as taught by Merical. Further, it is noted that Collette teaches its oxygen scavenger layer is being made of a monolithic composition comprising a mixture includes a base polymer, an oxygen scavenger (col. 9, lines 25-35, and col. 10, lines 61-67, includes the base polymers such as polyester and/or polycarbonates, and includes suitable oxygen scavengers). Collette does not specifically teach the inclusion of a polymeric channeling agent in the polymer composition for its oxygen scavenger layer (that includes base polymer and desiccant), of which the channeling agent having a water vapor transmission rate greater than the base polymer, the monolithic composition for the desiccant layer comprising interconnecting channels formed of the channeling agent, as instantly claimed in claims 1 and 3. Klein teaches a container and method of making the container (para [0009], [0015], [0052], [0055] [0079], [0090], see Fig. 6, container 61), of which the container comprising a base; and a sidewall extending from the base, and that the sidewall and the base has a barrier layer (60) and a liner layer/oxygen scavenger layer (70) attached to the barrier layer (para [0090]) (see Fig. 6, para [0053] [0087] [0090] [0091]). Klein also teaches its liner layer/oxygen scavenger layer (70) being made of a monolithic composition comprising a mixture of a base polymer (25), an active agent that is oxygen scavenger/oxygen absorber (30) (para [0087]), and a polymeric channeling agent (35) having a water vapor transmission rate greater than the base polymer (para [0025], [0034], [0087], the monolithic composition includes the base polymer 25, active agent 30 that is of oxygen scavenger/oxygen absorber having a water vapor transmission rate at least twice greater than the base polymer). Klein also teaches at para [0035] that suitable polymeric channeling agent materials include ethylene vinyl acetate (EVA), meeting the claimed material limitations of instant claim 1 and instant claim 3 for the polymeric channeling agent. Klein teaches the monolithic composition comprising interconnecting channels formed of the channeling agent (para 0087). Klein teaches the inclusion of a polymeric channeling agent (35) to the mixture of the base polymer and the oxygen scavenger provides a polymer composition suitable for use as packaging material that is substantially lower extractable (para [0006] [0113]). Klein teaches that the channeling agent does not migrate into the packaged product (para [0004]). Klein teaches its composition is suitable for applications in co-molding process and vacuum molding, etc. (para [0088], [0094] [0095]). It would have been obvious to one of ordinary skill in the art to modify the modified Collette in view the teachings of Klein, to include the channeling agent taught by Klein in the monolithic polymer composition for forming the oxygen scavenger layer of the multilayer bottle of Collette (that includes the base polymer and the oxygen scavenger of Collette), motivated by the desire to provide an improved monolithic polymer composition for making an improved oxygen scavenger layer of the bottle of Collette that is substantially lower extractable as taught by Klein (para [0006], i.e., which monolithic polymer composition includes base polymer and oxygen scavenger and the channeling agent of ethylene vinyl acetate (EVA), and that polymeric channeling agent having a water vapor transmission rate greater than the base polymer, and that comprising interconnecting channels formed of the channeling agent as taught by Klein, para [0006] [0025][0026]), which would have predictably arrived at a satisfactory monolithic polymer composition for the oxygen scavenger layer that is the same as instantly claimed. Regarding claims 2 and 5, Collette teaches the dimensions and wall/layers thickness, i.e., the thickness of barrier layer and/or oxygen scavenging layer, are not critical and can be selected depending on the intended applications (col. 7, lines 55-57). In the same field of manufacturing process of making multilayer container bottle includes blow molding (para [0024]), Merical teaches a bottle having the barrier layer (21) that has a thickness of about 20 to 50 mils to provide required rigidity and durability to meet commercial performance requirements (para 0035]), which range overlaps with the instantly claimed range of 20 to 40 mils. Merical teaches the bottle having the oxygen scavenging layer that has a thickness of about 10 to 25 mils to provide required rigidity and durability to meet commercial performance requirements (para 0035]), which range overlaps with the instantly claimed range of 20 to 40 mils. In the case where the claimed ranges “overlap or lie inside ranges disclosed by the prior art” a prima facie case of obviousness exists. In re Wertheim, 541 F.2d 257, 191 USPQ 90 (CCPA 1976); In re Woodruff, 919 F.2d 1575, 16 USPQ2d 1934 (Fed. Cir. 1990). MPEP 2144.05. It would have been obvious to a person of ordinary skill in the art at the time of the invention to modify Collette in view the teachings of Merical, to provide the barrier layer and the oxygen scavenging layer with suitable thickness as taught by Merical (para 0035]) (which thickness ranges overlap with instantly claimed thickness ranges, respectively, as discussed above), to provide desired rigidity and durability to meet commercial performance requirements as taught by Merical. Regarding claim 4, as discussed above in rejection to claim 1, modified Collette teaches a bottle having an oxygen scavenger layer of a monolithic polymer composition includes the channeling agent (taught by Klein). Klein teaches the suitable amount of the channeling agent is about 2% to 10% by weight with respect to total weight of the monolithic composition (col. 11, lines 1-2, and see claim 65 of Klein), which range overlaps with the instantly claimed range of 2 to 15% by weight with respect to total weight of the monolithic composition. In the case where the claimed ranges “overlap or lie inside ranges disclosed by the prior art” a prima facie case of obviousness exists. In re Wertheim, 541 F.2d 257, 191 USPQ 90 (CCPA 1976); In re Woodruff, 919 F.2d 1575, 16 USPQ2d 1934 (Fed. Cir. 1990). MPEP 2144.05. It would have been obvious to one of ordinary skill in the art to modify Collette in view the teachings of Klein, to include the suitable amount of channeling agent in the monolithic polymer composition taught by Klein for the oxygen scavenger layer of the multilayer bottle of oxygen scavenger layer, which would have predictably arrived at a satisfactory monolithic polymer composition that is the same as instantly claimed. Regarding claim 6, Collette teaches the dimensions and wall thickness are not critical and can be select depending on the intended applications (col. 7, lines 55-57). In the same field of manufacturing process of making multilayer container bottle includes blow molding, co-extrusion blowing molding (para [0024]), Merical teaches as in one its embodiment a multilayer bottle has a total wall thickness of about 45 mils to provide required rigidity and durability to meet commercial performance requirements (para [0035]), which range overlaps with the instantly claimed range of 10 to 80 mils. In the case where the claimed ranges “overlap or lie inside ranges disclosed by the prior art” a prima facie case of obviousness exists. In re Wertheim, 541 F.2d 257, 191 USPQ 90 (CCPA 1976); In re Woodruff, 919 F.2d 1575, 16 USPQ2d 1934 (Fed. Cir. 1990). MPEP 2144.05. It would have been obvious to a person of ordinary skill in the art at the time of the invention to modify Collette in view the teachings of Merical, to provide the bottle with suitable total wall thickness as taught by Merical (para 0035]) (which thickness range overlaps with instantly claimed thickness range, as discussed above), to provide desired rigidity and durability to meet commercial performance requirements as taught by Merical. Conclusion Any inquiry concerning this communication or earlier communications from the examiner should be directed to YAN LAN whose telephone number is (571)270-3687. The examiner can normally be reached Monday - Friday 7AM-4PM. Examiner interviews are available via telephone, in-person, and video conferencing using a USPTO supplied web-based collaboration tool. To schedule an interview, applicant is encouraged to use the USPTO Automated Interview Request (AIR) at http://www.uspto.gov/interviewpractice. If attempts to reach the examiner by telephone are unsuccessful, the examiner’s supervisor, Aaron Austin can be reached on 5712728935. The fax phone number for the organization where this application or proceeding is assigned is 571-273-8300. Information regarding the status of published or unpublished applications may be obtained from Patent Center. Unpublished application information in Patent Center is available to registered users. To file and manage patent submissions in Patent Center, visit: https://patentcenter.uspto.gov. Visit https://www.uspto.gov/patents/apply/patent-center for more information about Patent Center and https://www.uspto.gov/patents/docx for information about filing in DOCX format. For additional questions, contact the Electronic Business Center (EBC) at 866-217-9197 (toll-free). If you would like assistance from a USPTO Customer Service Representative, call 800-786-9199 (IN USA OR CANADA) or 571-272-1000. /YAN LAN/ Primary Examiner, Art Unit 1782