OXYGEN BLOWING LANCE WITH PROTECTION ELEMENT
    5.
    发明申请
    OXYGEN BLOWING LANCE WITH PROTECTION ELEMENT 审中-公开
    氧气吹扫保护元件

    公开(公告)号:US20110127348A1

    公开(公告)日:2011-06-02

    申请号:US12997008

    申请日:2009-05-25

    IPC分类号: B05B17/04

    摘要: An oxygen blowing lance for steel production, the lance having a protection element. The end of a main oxygen tube at the lance head has a cover shell with outlets. An oxygen outlet nozzle is removably and exchangeably fastened to each outlet. The protection element is provided removably and exchangeably at the lance head end of the oxygen blowing lance. An intermediate space is present between the lance head end of the oxygen blowing lance and the protection element. Penetrations are provided in the protection element, the oxygen outlet nozzles passing through the penetrations from the shell outward, and a gap remains between the oxygen outlet nozzle and the protection element. A protective gas line feeds into the intermediate space between the lance head end of the oxygen blowing lance and the protection element. A method for operating the oxygen blowing lance is also described.

    摘要翻译: 用于钢铁生产的氧气喷枪,喷枪具有保护元件。 枪头上的主氧气管的末端具有带出口的盖壳。 氧气出口喷嘴可拆卸地并且可交换地紧固到每个出口。 保护元件在氧气喷枪的喷枪头端处可移除地和可交换地设置。 在吹氧枪的喷枪头端与保护元件之间存在中间空间。 在保护元件中提供穿透,氧气出口喷嘴穿过外壳的穿透物,并且在氧气出口喷嘴和保护元件之间留有间隙。 保护气体管线进入氧气吹枪的喷枪头端和保护元件之间的中间空间。 还描述了用于操作吹氧枪的方法。

    Method for determining the position of an object relative to the
background with ultrasound
    9.
    发明授权
    Method for determining the position of an object relative to the background with ultrasound 失效
    用超声波确定对象相对于背景的位置的方法

    公开(公告)号:US5761155A

    公开(公告)日:1998-06-02

    申请号:US687367

    申请日:1996-08-02

    摘要: In a method for determining the position of an object relative to the background with ultrasound, a plurality of ultrasound transducers arranged in a row simultaneously transmit ultrasound in line-shaped fashion in the direction of an object scene and receive both the echo of the signal transmitted by the transducer itself as well as the echoes of the signals generated by the neighboring ultrasound transducers. On the basis of a reference measurement wherein no object is located in the measurement region, the amplitudes and the times of incidence of the echo signals are stored. In the following measurements with an object, the echo amplitudes and the times of incidence of the echo signals are again stored and compared by fuzzy logic to those of the reference measurement. As a result, this supplies the position of the object relative to the background.

    摘要翻译: PCT No.PCT / DE95 / 00254 Sec。 371日期:1996年8月2日 102(e)日期1996年8月2日PCT提交1995年2月28日PCT公布。 公开号WO95 / 23344 日期1995年8月31日在使用超声波确定对象相对于背景的位置的方法中,排列成行的多个超声波换能器同时沿着物体场景的方向以线状方式发射超声波,并且接收两者 由传感器本身发送的信号的回波以及由相邻的超声换能器产生的信号的回波。 基于测量区域中没有物体的参考测量,存储回波信号的振幅和入射次数。 在用对象进行的以下测量中,回波振幅和回波信号的入射次数再次被存储并通过模糊逻辑与参考测量的相反。 因此,这将提供对象相对于背景的位置。

    HOLDER FOR LENSES AND HELMET FOR SUCH A HOLDER

    公开(公告)号:US20180292671A1

    公开(公告)日:2018-10-11

    申请号:US15947128

    申请日:2018-04-06

    申请人: Stefan Lechner

    发明人: Stefan Lechner

    IPC分类号: G02C3/02 A42B1/24

    摘要: A holder for eyeglass lenses having a holding part, which is magnetically secured to the fastening part in detachable fashion and has a nose bridge for holding eyeglass lenses, and having at least one swivel bearing, which is provided between the fastening part and the nose bridge of the holding part and has at least two bearing parts that are able to swivel relative to each other around the swivel axis of the swivel bearing in order to move the holding part between a use position of the eyeglass lenses and a non-use position of the eyeglass lenses in which they are folded upward in relation to the use position. In order to embody a holder of the above-mentioned type in a reliable and simply designed way, the first bearing parts and second bearing parts are embodied so that they are detachable from each other and are held together magnetically, for which purpose, at least one bearing part has at least one permanent magnet with a magnetization direction oriented in the direction of the swivel axis.