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    • 1. 发明申请
    • Method and Device for Accessing Microforms
    • 访问微格式的方法和设备
    • US20100320267A1
    • 2010-12-23
    • US12812211
    • 2009-01-08
    • Klaus Langner
    • Klaus Langner
    • G06F17/00
    • G06K17/0019G03B21/11H04N1/00204H04N2201/0046H04N2201/041
    • The invention pertains to a method for reading analog and/or digital data stored on a microform in fields by means of a device for accessing the microform, which is connected to a data processing system by a hardware interface. The invention also pertains to a device for implementing the method and to a microform. So that the data acquired by the device can be subjected to further processing in a conventional personal computer, it is proposed according to the invention that the analog and/or digital data stored on the microform be presented to the data processing system by a control unit of the device as if the microform were a conventional removable data storage medium. Finally, an advantageous microform is described, the data on which can be read out quickly and which, because of its design, is suitable for the long-term, safe archiving of data, especially digital data.
    • 本发明涉及用于通过用于访问通过硬件接口连接到数据处理系统的微形式的设备来读取存储在字段中的微形式上的模拟和/或数字数据的方法。 本发明还涉及用于实现该方法和微形式的装置。 为了使传统的个人计算机能够进行进一步的处理,根据本发明提出,存储在微形式上的模拟和/或数字数据由控制单元提供给数据处理系统 该设备就像微型传统的可移动数据存储介质一样。 最后,描述了一种有利的微形式,可以快速读取数据,以及由于其设计而适用于数据的长期,安全存档,特别是数字数据。
    • 3. 发明授权
    • Method and device for accessing microforms
    • 访问微格式的方法和设备
    • US08500003B2
    • 2013-08-06
    • US12812211
    • 2009-01-08
    • Klaus Langner
    • Klaus Langner
    • G03B23/00
    • G06K17/0019G03B21/11H04N1/00204H04N2201/0046H04N2201/041
    • A method for reading analogue and/or digital data, which are stored in fields on a microform, includes using a device for accessing the microform, which device is connected to a data processing system via a hardware interface. In order to make it possible to further process the data acquired by the device in a conventional personal computer, the analogue and/or digital data stored on the microform are represented by a control unit of the device of the data processing system as if the microform were a conventional replaceable data storage medium. Finally, the microform has a structure that allows the data stored thereon to be read quickly and is also suitable for the long-term and secure archiving of digital data.
    • 用于读取存储在微格式的字段中的模拟和/或数字数据的方法包括使用用于访问微格式的设备,该设备经由硬件接口连接到数据处理系统。 为了能够进一步处理在常规个人计算机中由设备获取的数据,存储在微形式上的模拟和/或数字数据由数据处理系统的设备的控制单元表示,如同微型 是常规的可更换数据存储介质。 最后,微形态具有允许快速读取存储在其上的数据的结构,并且也适用于数字数据的长期和安全归档。
    • 9. 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。
    • 10. 发明授权
    • Process for compacting iron particles and subsequent breaking apart of
the compacted iron band
    • 用于压实铁颗粒并随后分解压实的铁带的方法
    • US4804319A
    • 1989-02-14
    • US175628
    • 1988-03-31
    • Klaus Langner
    • Klaus Langner
    • B02C4/02B22F3/18B30B11/18B30B15/00C21B13/00C22B1/24
    • B30B11/18B22F3/18B30B15/0005C21B13/0086C21B13/0093Y10T225/325Y10T225/329Y10T225/336Y10T29/4979
    • An apparatus for the passivating, multistage compaction of hot iron particles supplied in the form of a packed bed from a reduction unit and for the subsequent breaking apart of the compacted iron band is described. Prior to the final compacting, the iron particles pass through a homogenizing and precompressing stage. Thus, the compacted iron has a pore volume of max. 40% and a density of at least 5.5 g/cm.sup.3. The iron compacted to a band is subsequently guided between the rollers (7,8,11) of a separating stage exposing it to bending stresses such that it breaks apart at the predetermined desired breaking points. The breaking points have a smaller density than the band regions between them. They can be produced in that in the precompression stage the feed speed is briefly decelerated compared with the feed speed in the compaction stage or in the compaction stage there is less marked compression at these points than in the intermediate regions.
    • 描述了一种用于从还原单元以填充床的形式供应的热铁颗粒的钝化,多级压实以及随后的压实铁带的分离的装置。 在最终压实之前,铁颗粒通过均质和预压阶段。 因此,压实铁的孔体积最大。 40%,密度至少5.5g / cm3。 随后在分离台的辊(7,8,11)之间引导压缩成带的铁,将其暴露于弯曲应力,使得其在预定的期望断裂点处分裂。 断点具有比它们之间的带区更小的密度。 它们可以在预压段中与进料速度相比在压缩阶段或压实阶段短暂地减速而在预压段中产生,这些点上的压缩比在中间区域略小。