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    • 1. 发明公开
    • Method and apparatus for controlling temperature of cooling air for glass manufacturing machine
    • 用于控制冷却空气的温度为玻璃成型机的方法及装置
    • EP1284241A3
    • 2005-01-19
    • EP02017522.0
    • 2002-08-06
    • OWENS-BROCKWAY GLASS CONTAINER INC.
    • Mace, Douglas K.
    • C03B9/38
    • C03B9/3816C03B9/3808F28D2021/0019
    • The temperature of cooling air to a manifold (12) for distribution to molds of a glass manufacturing machine is controlled by passing untreated air through an indirect heat exchanger (18) in indirect heat exchange relationship with water flowing through a coil (20) in the indirect heat exchanger (18) before treated air from the indirect heat exchanger is passed through a blower (14) for distribution to the manifold (12). Water for treating the air flowing through the indirect heat exchanger (18) is pumped through the coil (20) from a water cooling tower (24) that is used in a glass manufacturing plant, either at a first temperature from a first outlet (24a) of the water cooling tower or at a second temperature from a second outlet (24b) of a water cooling tower, or a mixture of water from the first outlet and the second outlet. In a first embodiment water from the first outlet and water from the second outlet pass through a temperature controlled three-way mixing valve (26) before delivery to a pump for delivery to the indirect heat exchanger (18). In a second embodiment, water from a first outlet (124b) is delivered to a pump (122) and then to a temperature control three-way valve (126) for delivery to the indirect heat exchanger (118) or for return to a location upstream of the pump (122). In the latter embodiment, air from the blower (114) is also caused to flow through a second indirect heat exchanger (160) before delivery to the manifold, and its temperature is altered in the second indirect heat exchanger (160) in indirect heat exchange relationship with water flowing through a coil (162) in a second indirect heat exchanger. In this embodiment, water flows from the water cooling tower (124) to the coil (162) of the second indirect heat exchanger (160), and a temperature controlled two-way valve (164) is placed in a line between the water cooling tower (124) and the second indirect heat exchanger (160) to control the rate of water flowing through the second indirect heat exchanger.
    • 7. 发明公开
    • Fiber optic receptacle with protective shutter
    • Faseroptische Steckbuchse mit Schutzklappe
    • EP1189085A3
    • 2004-08-11
    • EP01120584.6
    • 2001-08-29
    • MOLEX INCORPORATED
    • Szilagyi, Daniel B.Grois, Igor
    • G02B6/38
    • G02B6/3849G02B6/3825G02B2006/4297
    • A receptacle (10) is provided for receiving a fiber optic connector along an optic axis (22). The receptacle includes a housing (12) having a forward open end (24) for receiving the fiber optic connector inserted thereinto on the optic axis. An outside wall (46) extends rearwardly from the open end of the housing. A shutter member (14) is pivotally mounted on the housing adjacent the open end thereof and is pivotally movable to close and open the open end. The shutter member (14) extends across the optic axis (22) when the shutter member is closed. The shutter member (14) is pivotable away from the optic axis (22) to a position juxtaposed against the rearwardly extending outside wall (46).
    • 插座(10)被设置用于沿光轴(22)接收光纤连接器。 所述插座包括具有前开口端(24)的外壳(12),用于接收在光轴上插入的光纤连接器。 外壁(46)从壳体的开口端向后延伸。 活门构件(14)围绕其开口端枢转地安装在壳体上,并且可枢转地移动以关闭并打开开口端。 当活门构件关闭时,活门构件(14)横过光轴(22)延伸。 活门构件(14)能够远离光轴(22)转动到与向后延伸的外壁(46)并置的位置。
    • 9. 发明公开
    • Ferrule for an optical fiber and manufacturing method thereof
    • Hülsefüroptische Faser und deren Herstellungsverfahren
    • EP1122564A3
    • 2004-06-16
    • EP01101893.4
    • 2001-01-27
    • MOLEX INCORPORATED
    • Shimotsu, Akihiro
    • G02B6/38
    • G02B6/3846G02B6/266G02B6/3833G02B6/3865G02B6/3874
    • The specification and drawings show and describe an embodiment of the present invention in the form of a ferrule (10) for a fiber optic connector having a capillary (12) for receiving an optical fiber and a flange (14) molded onto an outer surface of the capillary (12). A recess (15) is formed in the outer surface of the capillary (12) prior to the molding process, and a plastic material is injected into a mold (20) containing the capillary (12), forming both the flange (14) and a projecting portion of the flange (14) which extends into the capillary recess (15) . The features of the molded flange (14) are used for positioning and securing the capillary (12) within the fiber optic connector.
    • 说明书和附图以用于光纤连接器的套圈(10)的形式示出和描述本发明的实施例,该光纤连接器具有用于接收光纤的毛细管(12)和模制在光纤的外表面上的凸缘(14) 毛细管(12)。 在模制过程之前,在毛细管(12)的外表面上形成一个凹槽(15),并且将塑料材料注入包含毛细管(12)的模具(20)中,形成凸缘(14)和 凸缘(14)的突出部分延伸到毛细管凹槽(15)中。 模制法兰(14)的特征用于将毛细管(12)定位和固定在光纤连接器内。