公开(公告)号：US09549066B2

公开(公告)日：2017-01-17

申请号：US14928575

申请日：2015-10-30

Applicant: SMS/800, Inc.

Inventor： Sriram Sharma ,  William Carter ,  Michael Kimmel

IPC: H04M3/00 ,  H04M5/00 ,  H04M3/493

CPC classification number: H04M15/83 ,  H04M3/493 ,  H04M3/5232 ,  H04M15/59 ,  H04M2201/40 ,  H04M2203/251 ,  H04M2203/258

Abstract: Methods and systems are provided for the management, routing and reporting of toll-free telecommunications calls and data. Methods and systems are provided for pre-populating a call routing template based on natural language inputs and populating telecommunications routing codes at nodes of a call routing decision tree to generate a call routing template that may be identified and presented to a user interface based at least in part on a natural language input.

Abstract translation: 提供方法和系统用于管理，路由和报告免费电话呼叫和数据。 提供了方法和系统，用于基于自然语言输入来预先填充呼叫路由模板，并且在呼叫路由决策树的节点处填充电信路由代码以生成可被识别并且至少呈现给用户界面的呼叫路由模板 部分是自然语言输入。

公开(公告)号：US20160347543A1

公开(公告)日：2016-12-01

申请号：US15100530

申请日：2015-01-19

Applicant: SMS LOGISTIKSYSTEME GMBH

Inventor： Carsten HEIDE ,  Volker BRUECK ,  Michél BANNERT

IPC: B65G1/04 ,  B66C1/10 ,  B66C19/00 ,  B65G63/00

CPC classification number: B65G1/0435 ,  B65G63/004 ,  B66C1/101 ,  B66C19/002 ,  B66F9/07

Abstract: A method for storing and retrieving or shifting containers (4, 34) in high-bay warehouses (1) of a transfer facility, in particular of a sea port or inland port, wherein the containers (4, 34) are transported, and stored and retrieved or shifted, by storage-and-retrieval units (7) which can be displaced in aisles (6) extending parallel to compartments (3) of the high-bay warehouse (1), said compartments being arranged on a number of levels in storage modules (2). The intention is to create, for such a high-bay warehouse (1), a method and an apparatus which reduce usage of transporting means and, with the high-hay warehouse (1) being of narrow construction, make it possible for any individual container (4, 34) to be accessed even by floor-going stackers (7). For this purpose, raisable and lowerable telescopic holders (35 to 38; 40, 41) of the storage-and-retrieval unit (7) are used to store the containers (4, 34) telescopically, with their longitudinal sides (11) in front, in the compartments (3) from a transporting position, in which said containers preferably do not project beyond the peripheral outer contour of the storage-and-retrieval unit (7), and to remove them therefrom and telescope them back into the transporting position in the storage-and-retrieval unit (7).

Abstract translation: 一种用于在转运设施，特别是海港或内陆港口的高架仓库（1）中储存和取回或移动集装箱（4,34）的方法，其中所述集装箱（4,34）被运输和存储 并且通过可以平行于高架仓库（1）的隔室（3）延伸的通道（6）中移位的存储和取出单元（7）来检索或移动，所述隔室被布置在多个层次上 在存储模块（2）中。 目的是为这样的高档仓库（1）创造一种减少运输工具使用的方法和装置，并且由于建筑狭窄的高洼仓库（1）可以使任何个人 容器（4,34）即使由落地堆垛机（7）进行访问。 为此，存储和取出单元（7）的可升高和可降低的伸缩式保持器（35至38; 40,41）用于将容器（4,34）可伸缩地存放，其纵向侧面（11）位于 从传送位置的隔室（3）中，所述容器优选地不超出存储和取出单元（7）的周边外轮廓，并且将其从其中移除并将其望远镜返回到运送 在存储和检索单元（7）中的位置。

公开(公告)号：US20160303627A1

公开(公告)日：2016-10-20

申请号：US15100421

申请日：2014-11-28

Applicant: SMS GROUP GMBH

Inventor： Markus CRAMER

IPC: B21B45/08

CPC classification number: B21B45/08 ,  B21B45/06

Abstract: A method for descaling a metal surface of a semifinished metal product, including the steps of: guiding the semifinished metal product in a transporting direction past nozzle head parts that rotate about rotation axes and are arranged alongside one another transversely to the transporting direction; and directing high-pressure fluid jets produced by nozzle elements arranged on the rotating nozzle head parts at the metal surface. The fluid jets also being blasted as far as the metal surface at a narrow point between two immediately adjacent nozzle head parts. The nozzle head parts rotate synchronously with one another at a preset angular position with respect to a rotation angle of a particular rotation axis of the nozzle head parts. The fluid jets produced by the nozzle elements are always blasted onto the metal surface past one another without coming into contact with one another.

Abstract translation: 一种用于对半成品金属制品的金属表面进行除鳞的方法，包括以下步骤：将半成品的金属产品沿传送方向引导通过围绕旋转轴线旋转的喷嘴头部分，并横向于传送方向彼此排列; 并且引导由金属表面上布置在旋转喷嘴头部上的喷嘴元件产生的高压流体射流。 在两个直接相邻的喷嘴头部分之间的窄点处，流体射流也被喷射到金属表面。 喷嘴头部分相对于喷嘴头部分的特定旋转轴线的旋转角度在预设角度位置处彼此同步旋转。 由喷嘴元件产生的流体射流总是被喷在金属表面上而彼此不相接触。

公开(公告)号：US09440271B2

公开(公告)日：2016-09-13

申请号：US14375557

申请日：2013-01-31

Applicant: SMS Siemag AG

Inventor： Matthias Kipping ,  Johannes Alken ,  Ralf Seidel

IPC: B21B45/02 ,  B21B27/10

CPC classification number: B21B45/0218 ,  B21B27/10 ,  B21B45/0233 ,  B21B2027/103

Abstract: The invention is directed to a device for straightening a stream of a cooling medium for cooling a roll or a metal strip. This device comprise a hollow body, extending over at least part of the width of the roll or the metal strip, and a tube, arranged in the hollow body and extending in the direction of the width of the roll or the metal strip, wherein the hollow body is divided in the direction of the width of the roll or the metal strip into a number of chambers, and the tube comprises openings for introducing cooling medium into the chambers of the hollow body, and the chambers respectively comprise an opening for the flowing out of cooling medium from the hollow body. Furthermore, according to the invention the chambers, respectively, comprise a channel, formed between the inner wall of the hollow body and the tube, for conducting cooling medium from the openings of the tube to the opening for the outflow of cooling medium from the hollow body, wherein the flow cross-section of the channel narrows art least at its downstream end.

Abstract translation: 本发明涉及一种用于矫直用于冷却辊或金属带的冷却介质的流的装置。 该装置包括中空体，其延伸至辊或金属条的宽度的至少一部分上，以及管，其布置在中空体中并沿着辊或金属带的宽度方向延伸，其中， 空心体沿着辊或金属带的宽度方向分成多个室，并且管包括用于将冷却介质引入中空体的室的开口，并且室分别包括用于流动的开口 从中空体排出冷却介质。 此外，根据本发明，腔室分别包括形成在中空体的内壁和管之间的通道，用于将冷却介质从管的开口传导到开口，用于将冷却介质从中空流出 其中通道的流动横截面在其下游端至少缩小。

公开(公告)号：US20160236251A1

公开(公告)日：2016-08-18

申请号：US15025644

申请日：2015-04-22

Applicant: SMS GROUP GMBH

Inventor： Ulrich PATZELT ,  Benjamin DICKEL

IPC: B21C47/30 ,  B65H75/24

CPC classification number: B21C47/30 ,  B65H75/242

Abstract: The invention relates to a device for winding a strip material into a coil. The device comprises a winding mandrel (1) having a shaft element (2) and radially movable segments (16) mounted on the shaft element for winding and unwinding the strip material. The device further comprises an actuating drive (26) for spreading or collapsing the segments. The device also has a rotary drive (5) for rotationally driving the winding mandrel. To achieve a simpler and more economical design, a displacement device (60) is provided for axially displacing the actuating drive (26) together with the winding mandrel (1).

Abstract translation: 本发明涉及一种用于将条带材料卷绕成线圈的装置。 该装置包括具有轴元件（2）和安装在轴元件上的用于卷绕和展开条带材料的径向可移动部分（16）的卷绕心轴（1）。 该装置还包括用于扩展或折叠片段的致动驱动器（26）。 该装置还具有用于旋转地驱动卷绕心轴的旋转驱动器（5）。 为了实现更简单和更经济的设计，提供了一种位移装置（60），用于将致动驱动器（26）与卷绕心轴（1）一起轴向移位。

公开(公告)号：US20160199905A1

公开(公告)日：2016-07-14

申请号：US15051320

申请日：2016-02-23

Applicant: SMS GROUP GMBH

Inventor： Joerg BAUSCH ,  Jochen WANS

IPC: B22D11/045 ,  B22D11/103 ,  B22D41/08 ,  B22D11/055

CPC classification number: B22D11/045 ,  B22D11/055 ,  B22D11/0631 ,  B22D11/064 ,  B22D11/066 ,  B22D11/0685 ,  B22D11/103 ,  B22D41/08

Abstract: The invention relates to a caster (1) having a casting ladle (2), a distribution device (4), and a horizontally moveable transport belt (5) having side limitation elements (13, 14), wherein liquid metal, preferably steel, can flow out of the casting ladle (2) onto the distribution device (4), and from there can be applied to the horizontal transport belt (5), the side limitation elements (13, 14) of the horizontal transport belt (5) being adjustable over the width of the horizontal transport belt. The invention further relates to a corresponding method.

Abstract translation: 本发明涉及一种具有铸钢包（2），分配装置（4）和具有侧限制元件（13,14）的水平移动传送带（5）的脚轮（1），其中液态金属，优选钢， 水平输送带（5）的侧限制元件（13,14）可从水浇带（5）施加到水平输送带（5）上， 可在水平输送带的宽度上调节。 本发明还涉及相应的方法。

公开(公告)号：US20160143564A1

公开(公告)日：2016-05-26

申请号：US14787382

申请日：2014-06-23

Applicant: SMS SWISS MEDICAL SENSOR AG

Inventor： Rolf-Dieter KLEIN ,  Mathias REICHL ,  Dieter EBERT

IPC: A61B5/1455 ,  A61B5/145

CPC classification number: A61B5/1455 ,  A61B5/0064 ,  A61B5/14532

Abstract: The invention relates to a measuring method and a measuring instrument for measuring raw data for determination of a blood parameter, in particular for non-invasive determination of the D-glucose concentration. The measuring device (1) comprises an excitation source (2) for generating electromagnetic radiation, a coupling arrangement (5-8) which is configured to couple in the radiation emitted by the excitation source (2) into a body surface of an object to be measured, and a sensor arrangement (13) which is configured to detect infrared (IR) radiation which is excited by the coupled-in radiation of the excitation source (2) in the body surface. The coupling arrangement (5-8) is configured to couple in the radiation emitted by the excitation source (2) extensively at a plurality of measuring points into the body surface, and the sensor arrangement (13) is configured to detect the IR radiation generated in the body surface at a plurality of measuring points.

Abstract translation: 本发明涉及一种用于测量血液参数的原始数据的测量方法和测量仪器，特别是用于D-葡萄糖浓度的非侵入性测定。 测量装置（1）包括用于产生电磁辐射的激发源（2），耦合装置（5-8），其配置成将由激发源（2）发射的辐射耦合到物体的体表面 以及被配置为检测被身体表面中的激发源（2）的耦合辐射激发的红外（IR）辐射的传感器装置（13）。 耦合装置（5-8）被配置为将激励源（2）发射的辐射在多个测量点处广泛耦合到体表中，并且传感器装置（13）被配置为检测所产生的IR辐射 在多个测量点处的体表中。

公开(公告)号：US20160111190A1

公开(公告)日：2016-04-21

申请号：US14638338

申请日：2015-03-04

Applicant: SMS Siemag AG

Inventor： Andreas Boettcher ,  Christian Klinkenberg ,  Ingo Schuster

IPC: H01F1/147 ,  C21D1/42 ,  C21D9/52 ,  C21D6/00 ,  C23C8/02 ,  H01F41/02 ,  C21D3/04 ,  C22C38/02 ,  C22C38/04 ,  C22C38/00 ,  C22C38/06 ,  C22C38/16 ,  C21D8/12 ,  C23C8/26

Abstract: A process for producing grain-oriented electrical steel strip by means of thin slab continuous casting, comprising the following process steps: a) smelting a steel, b) continuously casting the smelt by thin slab continuous casting, c′) heating up the thin slabs and subjecting the slabs to homogenization annealing at a maximum temperature of 1250° C., d) heating to a temperature between 1350° C. and 1380° C., e) continuously hot rolling the thin slabs to form a hot-rolled strip, f) cooling and reeling the hot-rolled strip to form a coil, g) annealing the hot-rolled strip after reeling and prior to a subsequent cold rolling step, h) cold rolling the hot-rolled strip to the nominal usable thickness, i) subjecting the cold-rolled strip to recrystallization, decarburization and nitridation annealing, j) applying an annealing separator (non-stick layer) to the strip surface of the cold-rolled strip, k) subjecting the cold-rolled strip to secondary recrystallization annealing, forming a finished steel strip having a pronounced Goss texture, and l) stress-free annealing the finished steel strip, which has been coated with an insulating layer, provides an improved process for producing grain-oriented electrical steel strip by means of thin slab continuous casting. This is achieved in that the recrystallization, decarburization and nitridation annealing of the cold-rolled strip in process step h) comprises a decarburization annealing phase and a subsequent nitridation annealing phase, with an intermediate reduction annealing phase being interposed between the decarburization annealing phase and the nitridation annealing phase, and carried out at a temperature ranging from 820° C.-890° C., for a maximum period of 40 seconds, with a dry, gaseous annealing atmosphere, which contains nitrogen (N2) and hydrogen (H2) and acts on the cold-rolled strip, and which has a water vapor/hydrogen partial pressure ratio pH2O/pH2 of less than 0.10 and wherein a cold-rolled strip is obtained, which primary recrystallized grains have a circle equivalent mean size (diameter) between 22 μm and 25 μm.

公开(公告)号：US20160067753A1

公开(公告)日：2016-03-10

申请号：US14772092

申请日：2014-03-10

Applicant: SMS SIEMAG AG

Inventor： Christoph Klein ,  Christian Bilgen ,  Christian Klinkenberg ,  Michael Pander ,  Luc Neumann ,  Dieter Rosenthal ,  Cosimo Andreas Cecere

IPC: B21B1/26 ,  C21D1/42 ,  B22D11/00 ,  C21D1/00 ,  C21D6/00

CPC classification number: B21B1/26 ,  B21B45/004 ,  B22D11/00 ,  C21D1/00 ,  C21D1/42 ,  C21D6/00 ,  Y02P10/253

Abstract: A method for producing a metal strip (1) by casting and rolling, wherein first a slab (3) is cast in a caster (2) by dispensing metal from a mold (4), wherein the slab (3) is deflected from the vertical direction to the horizontal direction in the region of a strand guide (5), wherein the slab (3) is then tempered in a furnace (6), wherein the slab (3) is rolled in a rolling train (7) after the furnace (6) and wherein the slab (3) is processed either in discontinuous batch operation or in continuous or semi-continuous operation in dependence on a specified manner of operation. According to the invention, in order to create optimal process conditions for all desired operating modes, the slab (3) to be rolled or the metal strip (1) being rolled is subjected to heating in the region of the rolling train (7) at least between two roll stands (8, 9, 10, 11, 12, 13, 14) by means of an inductor (15).

Abstract translation: 一种通过铸造和轧制制造金属带（1）的方法，其中首先通过从模具（4）分配金属将板坯（3）铸造在脚轮（2）中，其中板坯（3）从 在线材引导件（5）的区域中与水平方向垂直的方向，其中，板坯（3）然后在炉子（6）中回火，其中板坯（3）在轧制线（7）之后滚动 炉子（6），并且其中所述板坯（3）以不连续的批量操作或依照指定的操作方式在连续或半连续的操作中进行处理。 根据本发明，为了为所有期望的操作模式创造最佳的工艺条件，将要轧制的板坯（3）或被轧制的金属带材（1）在轧制系（7）的区域中在 通过电感器（15）至少在两个辊架（8,9,10,11,12,13,14）之间。

公开(公告)号：US09268124B2

公开(公告)日：2016-02-23

申请号：US13908192

申请日：2013-06-03

Applicant: Carl Zeiss SMS GmbH ,  Carl Zeiss AG

Inventor： Holger Seitz ,  Thomas Frank ,  Thomas Trautzsch ,  Norbert Kerwien

IPC: G02B21/16 ,  G02B21/00 ,  G02B21/36 ,  G02B21/06

CPC classification number: G02B21/0016 ,  G02B21/06 ,  G02B21/361 ,  G02B21/364 ,  G02B21/365

Abstract: A microscope includes an illumination unit for illuminating a mask at a predetermined non-axial illumination angle, an imaging unit for imaging an aerial image of the mask within a predetermined defocus region, and an imaging field stop, in which as a result of the lateral displacement of the aerial image depending on the position within the defocus region and on the non-axial illumination angle, the opening of the imaging field stop is dimensioned such that the aerial image is either completely encompassed or circumferentially cut within the defocus region.A method for characterizing a mask having a structure includes illuminating the mask at at least one illumination angle using monochromatic illumination radiation such that a diffraction image of the structure is created, recording the diffraction image, establishing the intensities of the maxima of the adjacent orders of diffraction, and establishing an intensity ratio of the intensities.

Abstract translation: 显微镜包括用于以预定的非轴向照明角度照射掩模的照明单元，用于在预定的散焦区域内对掩模的空间图像进行成像的成像单元和成像场停止，其中作为横向 取决于散焦区域内的位置和非轴向照射角度的空间图像的位移，成像场停止件的开口的尺寸被设计成使得空间图像在散焦区域内完全包围或周向切割。 用于表征具有结构的掩模的方法包括：使用单色照射辐射以至少一个照明角度照射掩模，使得产生该结构的衍射图像，记录衍射图像，建立相邻阶数的最大值的强度 衍射，并建立强度的强度比。