会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Gas ring-laser
    • 气环激光
    • US5136608A
    • 1992-08-04
    • US702227
    • 1991-05-17
    • Walter BernardKlaus LangnerWerner Neumann
    • Walter BernardKlaus LangnerWerner Neumann
    • G01C19/66H01S3/034H01S3/083
    • G01C19/661H01S3/034H01S3/083H01S3/0835
    • A gas ring-laser comprises a ceramic block containing a closed gas-filled channel (12) which extends along the sides of an equilateral triangle and forms a resonant cavity. An anode (64) and cathodes (76, 78) permit the creation of two gas discharges. With the aid of dielectric mirrors (26, 28 and 30), two light beams circulating in opposite directions are guided through the channel. In order to simplify construction, the ceramic block (10) consists of a glass ceramic which is produced from a green ceramic body by sintering. The mirrors (26, 28, 30) are located in adjustable metal holders (80, 82, 84) and fixed in the ceramic block (10) by means of glass solder (98). In addition, the other electrical connections for the electrodes in the cavity are sealed in place by glass solder. The invention also relates to a method for manufacturing such a gas ring-laser. The gas ring-laser may serve as an inertial sensor for measuring angular velocities by means of the Sagnac-effect.
    • 气体环激光器包括陶瓷块,该陶瓷块包含沿着等边三角形的侧面延伸并形成谐振腔的封闭气体填充通道(12)。 阳极(64)和阴极(76,78)允许产生两个气体放电。 借助于电介质镜(26,28和30),沿相反方向循环的两束光束被引导通过通道。 为了简化结构,陶瓷块(10)由玻璃陶瓷组成,其通过烧结由生坯陶瓷体制成。 镜子(26,28,30)位于可调节的金属保持器(80,82,84)中,并通过玻璃焊料(98)固定在陶瓷块(10)中。 此外,空腔中的电极的其他电气连接通过玻璃焊料密封就位。 本发明还涉及制造这种气体环形激光器的方法。 气环激光器可以用作惯性传感器,用于通过Sagnac效应来测量角速度。
    • 3. 发明授权
    • Hard magnetic object and method for adjusting the direction and position of a magnetic vector
    • 用于调整磁性矢量的方向和位置的硬磁性物体和方法
    • US07859156B2
    • 2010-12-28
    • US11856427
    • 2007-09-17
    • Peter NüsserConrad KauffeldtWerner NeumannKurt GraichenAndrcas Arndt
    • Peter NüsserConrad KauffeldtWerner NeumannKurt GraichenAndrcas Arndt
    • H02K7/09
    • F16C32/0406F16C41/008H01F7/0273H01F13/00H02K7/09
    • The invention relates to a hard magnetic object and a method for adjusting a magnetic vector of a hard magnetic object. Therefore, the invention has the object, to provide a hard magnetic object and a method for its manufacture, which hard magnetic object has, without being influenced by an outside magnetic circuit, a desired resultant magnetic vector, which is in the frame of a predetermined tolerance range, and furthermore, that the hard magnetic object has a higher maximal energy density compared to the State of Art. According to the invention a hard magnetic object, which magnetic vector is as far as possible within the frame of a predetermined tolerance range, consists at least of one hard magnetic moulding (1) and at least one further moulded dement (11), which are combined with each other in such a way, that by means of shape, bringing together and aligning of the moulding (1) and of the moulded element (11), a predetermined direction and position of the magnetic vector of the hard magnetic object is achieved. The magnetic vector of the hard magnetic object is the resultant magnetic vector of the magnetic vectors (4; 14) of the hard magnetic moulding (1) and of the moulded elements (11).
    • 本发明涉及一种硬磁性物体和一种用于调整硬磁性物体的磁性矢量的方法。 因此,本发明的目的是提供一种硬磁物体及其制造方法,该硬磁体在不受外部磁路的影响的情况下具有预定的框架中的期望的合成磁矢量 公差范围,此外,与现有技术相比,硬磁性物体具有较高的最大能量密度。 根据本发明,磁性物体在预定公差范围内的框架内尽可能地至少包括一个硬磁性模制件(1)和至少一个另外的模制成型件(11),该材料是 以这样的方式相互结合,通过形状将模制件(1)和模制件(11)的组合和对准,实现了硬磁性物体的磁矢量的预定方向和位置 。 硬磁性物体的磁矢量是硬磁性模制件(1)和模制元件(11)的磁矢量(4; 14)的合成磁矢量。
    • 4. 发明申请
    • HARD MAGNETIC OBJECT AND METHOD FOR ADJUSTING THE DIRECTION AND POSITION OF A MAGNETIC VECTOR
    • 用于调整磁矢量的方向和位置的硬磁对象和方法
    • US20080051622A1
    • 2008-02-28
    • US11856427
    • 2007-09-17
    • Peter NusserConrad KauffeldtWerner NeumannKurt GraichenAndreas Arndt
    • Peter NusserConrad KauffeldtWerner NeumannKurt GraichenAndreas Arndt
    • A61N1/362
    • F16C32/0406F16C41/008H01F7/0273H01F13/00H02K7/09
    • The invention relates to a hard magnetic object and a method for adjusting a magnetic vector of a hard magnetic object. Therefore, the invention has the object, to provide a hard magnetic object and a method for its manufacture, which hard magnetic object has, without being influenced by an outside magnetic circuit, a desired resultant magnetic vector, which is in the frame of a predetermined tolerance range, and furthermore, that the hard magnetic object has a higher maximal energy density compared to the State of Art. According to the invention a hard magnetic object, which magnetic vector is as far as possible within the frame of a predetermined tolerance range, consists at least of one hard magnetic moulding (1) and at least one further moulded element (11), which are combined with each other in such a way, that by means of shape, bringing together and aligning of the moulding (1) and of the moulded element (11), a predetermined direction and position of the magnetic vector of the hard magnetic object is achieved. The magnetic vector of the hard magnetic object is the resultant magnetic vector of the magnetic vectors (4, 14) of the hard magnetic moulding (1) and of the moulded elements (11).
    • 本发明涉及一种硬磁性物体和一种用于调整硬磁性物体的磁性矢量的方法。 因此,本发明的目的是提供一种硬磁物体及其制造方法,该硬磁体在不受外部磁路的影响的情况下具有预定的框架中的期望的合成磁矢量 公差范围,此外,与现有技术相比,硬磁性物体具有较高的最大能量密度。 根据本发明,一种硬磁性物体,其磁矢量在预定的公差范围内的框架内尽可能地至少包括一个硬磁性模制件(1)和至少一个另外的模制元件(11),其中 以这样的方式相互结合,通过形状将模制件(1)和模制件(11)的组合和对准,实现了硬磁性物体的磁矢量的预定方向和位置 。 硬磁性物体的磁矢量是硬磁性成型体(1)和模制元件(11)的磁性矢量(4,14)的合成磁矢量。
    • 6. 发明授权
    • Apparatus assembly of an electrotechnical apparatus
    • 电工设备的装置组装
    • US5481437A
    • 1996-01-02
    • US211413
    • 1994-04-04
    • Werner Neumann
    • Werner Neumann
    • H05K7/06H05K3/00H05K9/00H05K7/14
    • H05K9/0062
    • The invention provides a low cost apparatus assembly of an electrotechnical apparatus. The housing walls consist of plate-shaped elements. The dimensions and weight of the plate-shaped elements are considerably reduced as compared to the existing elements. The assembly has a housing wall with plate-shaped elements. At least part of the plate-shaped elements are synthetic plastic plates, which are metal-coated over a continuous surface area on one side. The metal-coated surfaces are interconnected electrically conductively. One or several of the metal-coated synthetic plastic plates are designed as printed circuit boards. They are provided with electrical and/or mechanical elements on the side which is not metal-coated. As the case may be, they are provided with strip conductors. The plate-shaped elements of metal, if present, are electrically conductively connected to the metal-coated surface of the synthetic plastic plates. Other important properties, particularly those relating to the protection of the apparatus against mechanical influences such as shock, vibration, influences of temperature, humidity and the like and also the protection against electrical and electromagnetic fields (EMV-protection, high-voltage protection and the like), remain unaffected.
    • PCT No.PCT / EP92 / 02266 Sec。 371日期1994年04月4日 102(e)日期1994年4月4日PCT提交1992年9月30日PCT公布。 出版物WO93 / 07737 日期:1993年04月15日。本发明提供了一种低成本的电工设备装置组件。 外壳壁由板状元件组成。 与现有元件相比,板状元件的尺寸和重量显着减小。 组件具有带有板状元件的壳体壁。 板状元件的至少一部分是合成塑料板,其在一侧的连续表面区域上被金属涂覆。 金属涂覆表面电连接。 金属涂覆的合成塑料板中的一个或几个被设计为印刷电路板。 它们在不被金属涂覆的一侧上设置有电和/或机械元件。 视情况而定,它们设有带状导体。 金属的板状元件(如果存在)与导电性地连接到合成塑料板的金属涂覆表面。 其他重要的特性,特别是有关保护设备免受诸如冲击,振动,温度,湿度等影响等机械影响的特性,以及防止电气和电磁场(EMV保护,高压保护和 喜欢),保持不受影响。