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    • 1. 发明授权
    • Center cylinder ejection assist
    • 中心气缸弹出辅助
    • US07316796B2
    • 2008-01-08
    • US11372206
    • 2006-03-10
    • Roy N. KrohnGregory D. Taylor
    • Roy N. KrohnGregory D. Taylor
    • B29C49/48
    • B29C33/44B29C49/70B29C2049/708
    • A method of ejecting a container from a blow mold comprises the steps of: opening a blow mold containing a container, the blow mold comprising a pair of pistons having a head and a heel, an end cap disposed behind the heel, and a pair of ejector rods, each ejector rod coupled to a different one of the pair of pistons; forcing a fluid against each head of each of the pair of pistons, extending each of the ejector rods to maintain contact with an opposite side of a center portion of the container in the blow mold and pushing the container from the blow mold; and forcing a fluid against the heel of each of the pair of pistons operative to retract the pair of ejector rods away from the container when the container is separated from the blow mold.
    • 从吹塑模具弹出容器的方法包括以下步骤:打开包含容器的吹塑模具,该吹塑模具包括一对具有头部和后跟的活塞,设置在鞋跟后面的端盖和一对 顶出杆,每个排出杆联接到一对活塞中的不同的一个; 迫使流体抵靠在一对活塞中的每一个的每个头部上,延伸每个顶出杆以保持与吹塑模具中的容器的中心部分的相反侧的接触并且将该容器从吹塑模具推出; 并且当所述容器与所述吹塑模具分离时,迫使流体抵靠所述一对活塞中的每一个的跟部,以使所述一对顶出杆远离所述容器。
    • 3. 发明授权
    • Center cylinder ejection assist
    • 中心气缸弹出辅助
    • US07037101B2
    • 2006-05-02
    • US10413403
    • 2003-04-15
    • Roy N. KrohnGregory D. Taylor
    • Roy N. KrohnGregory D. Taylor
    • B29C49/48B29C49/70
    • B29C33/44B29C49/70B29C2049/708
    • A method of ejecting containers from a blow mold comprises the steps of: opening a blow mold containing containers, the blow mold comprising a pair of pistons having a head and a heel, an end cap disposed behind the heel, and a pair of ejector rods, each ejector rod coupled to a different piston; simultaneously with the opening forcing a fluid against each head of each of the pair of pistons, extending each of the ejector rods to maintain contact with an opposite side of a center portion of the containers in the blow mold and pushing the containers from the blow mold; and forcing a fluid against the heel of each of the pair of pistons operative to retract the pair of ejector rods away from the containers when the containers are separated from the blow mold.
    • 从吹塑模具中排出容器的方法包括以下步骤:打开包含容器的吹塑模具,该吹塑模具包括一对具有头部和后跟的活塞,设置在鞋跟后面的端盖和一对顶出杆 每个推出杆联接到不同的活塞; 同时,开口迫使流体抵靠每对活塞的每一个的每个头部,延伸每个顶出杆以保持与吹塑模具中的容器的中心部分的相对侧的接触,并将容器从吹塑模具 ; 并且当所述容器与所述吹塑模具分离时,迫使流体抵靠所述一对活塞中的每一个的脚跟,以使所述一对顶出杆远离所述容器。
    • 7. 发明授权
    • Rapid analysis of functional fluids
    • 功能液快速分析
    • US07754488B2
    • 2010-07-13
    • US10823219
    • 2004-04-13
    • Robert C. RichardsonRichard J. VickermanMark R. BakerGregory D. TaylorGary A. Garvin
    • Robert C. RichardsonRichard J. VickermanMark R. BakerGregory D. TaylorGary A. Garvin
    • G01N33/22G01N33/26
    • G01N21/78G01N31/22G01N33/2876G01N33/2882G01N33/2888
    • The invention relates to a method to analyze the condition of a functional fluid comprising: (1) obtaining a sample of the used fluid; (2) placing the sample of the fluid to a test medium; (3) reacting the fluid with an indicator in the test medium; (4) analyzing visually the results of the reactor resulting in the determination of the condition of the fluid. Further an apparatus for analyzing functional fluids is disclosed in the form of a test medium consisting of an absorbent or nonabsorbent material which has been treated with a chemical indicator, marker substance or a developer or detector reagent upon which a sample of the fluid to be tested is placed. The components in the treated test medium react with components in the test fluid providing a visual indication, for example a color change, to judge the condition, the presence of a marker substance or another parameter of the fluid. The functional fluid may be a lubricant, fuel or other functional fluid of innumerable sources, including internal combustion engines, turbines, transmissions, differentials, pumps, metalworking operations, cooling systems, etc, and be either organic solvent or aqueous based.
    • 本发明涉及一种分析功能流体状况的方法,包括:(1)获得所用流体的样品; (2)将流体样品放置在测试介质中; (3)使流体与测试介质中的指示剂反应; (4)目测观察反应器的结果,从而确定流体的状态。 另外一种用于分析功能流体的装置以由吸收剂或非吸收材料组成的测试介质的形式被公开,所述吸收剂或非吸收性材料已经用化学指示剂,标记物质或显色剂或检测剂处理,待测试流体的样品 被放置 处理的测试介质中的组分与测试流体中的组分反应,提供视觉指示,例如颜色变化,以判断条件,标记物质的存在或流体的另一参数。 功能流体可以是无数来源的润滑剂,燃料或其它功能流体,包括内燃机,涡轮机,变速箱,差速器,泵,金属加工操作,冷却系统等,并且是有机溶剂或水性基质。