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    • 1. 发明申请
    • INSTRUMENTO TOPOGRÁFICO PARA MEDIR ÁNGULOS Y CALCULAR DISTANCIAS POR UN MÉTODO, DENOMINADO TEODOLITO DIDÁCTICO
    • 通过方法测量角度和计算距离的地形仪器,分离的胆甾醇二锝
    • WO2017075726A1
    • 2017-05-11
    • PCT/CL2016/000067
    • 2016-10-28
    • GIGLIO INOSTROZA, Giovanny
    • GIGLIO INOSTROZA, Giovanny
    • G01C1/00G01C1/02G01C15/00G01C15/12
    • G01C1/00G01C1/02G01C15/00G01C15/12
    • Se trata de un instrumento topográfico para medir ángulos y calcular distancias por un método indirecto, caracterizado por poseer un anteojo de colimación láser. Dicho instrumento cuenta con una plomada láser. Este instrumento consta de dos limbos uno acimutal y otro cenital (horizontal y vertical), los cuales son transportadores graduados en grados sexagesimales, el limbo vertical es caracterizado por poseer un tomillo y un láser, que trabajan en conjunto paralelamente, uno para marcar la graduación y el otro para proyectar un punto, respectivamente. En cuanto al limbo horizontal, es caracterizado por compartir el mismo tornillo y láser que posee el otro limbo, mediante el reflejo de un espejo con una inclinación de 45° respecto a la horizontal, logramos proyectar líneas horizontales También se destaca por incorporar una brújula sobre el limbo horizontal, que trabaja simétricamente con el limbo, lo cual nos permite determinar el norte magnético y por ende calcular azimut y rumbos. I
    • 是一个地形仪&aacute附图计量箱并计算对于m&eacute距离;所有间接的,其特征在于具有望远镜colimació N Lá可以。 这种仪器具有简单的铅垂线。 此仪器由两个翼一个方位角和其它开销(水平和垂直),这是在输送机毕业度,垂直肢的特征在于具有一个螺钉和L&aacute的;被并行一个一起工作,以标记 毕业和另一个分别投射点。 至于水平肢体,其特征在于通过共用相同的螺钉并且使其具有另一肢体,通过反射倾斜45°的镜子来实现。 到水平,我们预计升RIVER水平线坦比é n为一体化BR STILL罗盘上的水平圈有效的SIM卡é凯莉与缘,这使我们能够确定磁北é天工,从而计算 方位角和方向。 我

    • 2. 发明申请
    • LASERSCANNER
    • 激光扫描器
    • WO2008019856A1
    • 2008-02-21
    • PCT/EP2007/007249
    • 2007-08-16
    • LEICA GEOSYSTEMS AGJENSEN, ThomasSIERCKS, Knut
    • JENSEN, ThomasSIERCKS, Knut
    • G01S17/42G01S17/89G01C1/02
    • G01S17/42G01S7/4817G01S7/4818G01S17/89G02B6/32G02B6/4204
    • Ein Laserscanner zum Erfassung einer räumlichen Umgebung umfasst einen Stator (21), einen am Stator (21) um eine erste Drehachse drehbar gelagerten Rotor (1) und einen am Rotor (1) um eine zweite Drehachse drehbar gelagerten Drehkörper (2). Im Rotor (1) sind eine Laserquelle (6) und ein Detektor (7) angeordnet. Zwischen dem Rotor (1) und Drehkörper (2) ist auf der zweiten Drehachse beidseits des Drehkörpers (2) je ein optischer Link (9) ausgebildet, so dass über den ersten optischen Link (9) Sendelicht von der Laserquelle in den Drehkörper (2) einzubringen und über den zweiten optischen Link (9) Empfangslicht aus dem Drehkörper (2) auszubringen ist. Ein erster Drehantrieb (25) treibt den Rotor (21) und ein zweiter Drehantrieb (26) den Drehkörper (2) an. Zwei Winkelmesser (4) und eine Auswertungselektronik (5), die mit der Laserquelle (6) und dem Detektor (7) verbunden ist, ermöglichen es, eine erfasste Distanz einer entsprechenden Ausrichtung zuzuordnen. Der Drehkörper (2) kann klein gebaut werden, ist komplett passiv und bedarf somit keiner elektrischen Versorgungs- oder Signalübertragung.
    • 用于检测物理环境中的激光扫描器包括:定子(21),一个关于第一旋转轴线可旋转地安装的转子(1)和关于第二旋转轴线的转子(1)的定子(21)可旋转地支撑旋转体(2)。 在转子(1)是一个激光源(6)和设置的检测器(7)。 所述转子(1)和旋转体(2)之间是光链路,根据(9)上的旋转体的两侧上的第二旋转轴线(2),使得经由所述第一光链路(9)从所述激光光源传递到所述旋转体(2 介绍)和(通过从旋转体(2)是部署所述接收光的第二光链路9)。 第一旋转驱动器(25)驱动转子(21)和第二旋转驱动装置(26)使旋转体(2)。 两个量角器(4)和评估电子设备(5),其连接到激光源(6)和所述检测器(7),其允许分配一个相应的取向的检测到的距离。 旋转体(2)可以变小,完全是被动的,因此不需要电力供应或信号传输。
    • 3. 发明申请
    • ELECTRIC MOTOR
    • 电动马达
    • WO2006005511A2
    • 2006-01-19
    • PCT/EP2005007348
    • 2005-07-07
    • TRIMBLE ABHERTZMAN MIKAELWESTERMARK MAGNUS
    • HERTZMAN MIKAELWESTERMARK MAGNUS
    • H02K15/00G01C1/02H02K20060101H02K1/27H02K3/04H02K21/12
    • H02K1/278G01C1/02H02K1/27H02K1/2786H02K3/04H02K21/12Y10T29/49009Y10T29/49071Y10T29/49073
    • A winding for an n-phase electric motor is disclosed. The inventive winding comprises a number of consecutive winding groups of n individual windings, wherein at any point in time an individual winding of a first group exhibits one direction of current flow and wherein at the same point in time a corresponding individual winding of an adjacent group exhibits the opposite direction of current flow. There is also disclosed a method for preparing such winding. It is further disclosed a magnetic unit adapted for such winding, comprising permanent magnets being essentially triangular in cross-section. Further, there is disclosed electric motors using the inventive winding concept, as well as geodetic instruments taking advantage thereof. An electric motor according to the disclosed inventive concept is particularly well suited, for direct drive.
    • 公开了一种用于n相电动机的绕组。 本发明的绕组包括n个单独绕组的多个连续绕组,其中在任何时间点,第一组的各个绕组表现出一个电流流动方向,并且其中在相同的时间点,相邻组的相应单独绕组 表现出相反的电流流向。 还公开了一种制备这种绕组的方法。 还公开了一种适用于这种绕组的磁性单元,其包括横截面基本上为三角形的永磁体。 此外,公开了使用本发明的绕组概念的电动机以及利用它的大地测量仪器。 根据所公开的发明构思的电动马达特别适用于直接驱动。
    • 4. 发明申请
    • TRACK AND FIELD MEASURING APPARATUS AND METHOD
    • 轨迹和场测量装置及方法
    • WO2002097369A2
    • 2002-12-05
    • PCT/US2002/016368
    • 2002-05-24
    • NORMAN, Richard, GrantHESCH, James, K.
    • NORMAN, Richard, GrantHESCH, James, K.
    • G01C1/02
    • G01C15/002
    • The present invention relates to a distance measuring device for measuring athlete throws in a throwing event at a track and field meet. The device is setup in a position outside a throwing circle and a landing area for the event being measured and is aimed at a target placed at a landing position of a thrown object. The present invention also relates to a method of using a distance measuring device to measure athlete throws in a throwing event at a track and field meet from a position outside of a throwing area and a landing area for a event being measured by aiming the device at a target placed at the landing position of a thrown object. The present invention further relates to a method of using a laser distance measuring device to determine the height of a cross bar in a leaping event at a track and field meet.
    • 本发明涉及一种用于测量在田径碰撞中的投掷事件中的运动员投掷的距离测量装置。 设备设置在投掷圈外的位置和被测量事件的着陆区域,并且瞄准放置在被抛物体的着陆位置处的目标。 本发明还涉及一种使用距离测量装置来测量在投掷事件中的投掷事件的运动员投掷的方法,所述投掷事件在投掷区域外部的位置与通过将装置对准的事件的着陆区域相遇 放置在被抛物体的着陆位置的目标物。 本发明还涉及一种使用激光距离测量装置来确定在轨道和场地碰撞中的跳跃事件中的横杆的高度的方法。
    • 5. 发明申请
    • HAND IMPLEMENT
    • 手工执行
    • WO00037888A1
    • 2000-06-29
    • PCT/AU1999/001123
    • 1999-12-21
    • G01C15/00G01C1/00G01C1/02G01C5/00G01C15/10G01C15/14
    • G01C15/008
    • A hand implement (10) for providing a locating, measurement, alignment or levelling function. One embodiment of the implement (10) provides a straight edge and comprises a body (12) having a size and shape such that it is single handedly manually positionable by an operator at a location. A portion of the body (12) is adapted for the operator to perform at least one of the locating, measurement, alignment or levelling functions with the other hand while holding the body at said location. Thus the body (12) provides a straight edge (16). Laser beam generating means (18) are mounted on the body for generating and propagating two laser beams (20) away from the body. The two laser beams (20) are oppositely directed, are co-linear, and are aligned with the straight edge (16). In other embodiments, the implement may be a level, a centre marker or an angle setter. The oppositely directed laser beams are locatable on spaced reference points to accurately align the implement between those points and thus allow the locating, measurement, alignment or levelling function to be provided at the location of the implement relative to remotely spaced reference points.
    • 一种用于提供定位,测量,对准或调平功能的手动工具(10)。 工具(10)的一个实施例提供了一个直边缘,并且包括具有尺寸和形状的主体(12),使得其可以由操作者在一个位置处手动地可手动定位。 身体(12)的一部分适于使操作者在将身体保持在所述位置的同时执行定位,测量,对准或调平功能中的至少一个。 因此,主体(12)提供直边缘(16)。 激光束产生装置(18)安装在主体上用于产生和传播离开身体的两个激光束(20)。 两个激光束(20)是相反方向的,是共线的,并且与直边缘(16)对齐。 在其他实施例中,工具可以是水平,中心标记或角度设定器。 相对定向的激光束可定位在间隔的参考点上以在这些点之间精确地对准工具,并且因此允许在工具相对于远离间隔的参考点的位置处提供定位,测量,对准或调平功能。
    • 6. 发明申请
    • SYSTEM AND METHOD OF CALIBRATING A RADAR ROTATABLE ANTENNA SYSTEM
    • WO2020105041A1
    • 2020-05-28
    • PCT/IL2019/051259
    • 2019-11-18
    • ELTA SYSTEMS LTD.
    • MIHLIN, Michael
    • G01S7/40G01C1/02
    • Techniques for calibrating a radar antenna mounted at a predetermined position relative to a reference point on a rotatable support are disclosed. The calibration utilizes reference data indicative of a position of a target element relative to a reference location, of a position of the reference point on the rotatable support relative to the reference location, orientation data indicative of at least one angular position of the rotatable support, and antenna measurement data indicative of electromagnetic echo signals received by the radar antenna from the reference target element. A measured position of the target element relative to the radar antenna is determined based on at least a portion of the antenna measurement data. A reference position of the target element relative to the radar antenna is determined based on the reference data and on at least a portion of the orientation data. At least one bias value or function associated with at least one of the orientation data and the antenna measurement data is determined based on a deviation between the determined measured position and reference position of the target element.
    • 8. 发明申请
    • HIGH PRECISION ELECTRONIC SOLAR COMPASS
    • 高精密电子太阳能指南针
    • WO2014102841A1
    • 2014-07-03
    • PCT/IT2013000365
    • 2013-12-23
    • ENEA AGENZIA NATIONALE PER LE NUOVE TECNOLOGIE L EN E LO SVILUPPO ECONOMICO SOSTENIBILE
    • FLORA FRANCESCOBOLLANTI SARAHDE MEIS DOMENICODI LAZZARO PAOLOFASTELLI ANTONIOGALLERANO GIAN PIEROMEZI LUCAMURRA DANIELETORRE AMALIAVICCA DAVIDE
    • G01C17/34G01C1/02
    • G01C1/02G01C17/34
    • The present invention concerns an electronic solar compass (1) comprising a support (2), capable of rotating around a vertical axis (A), a detection unit (3) of the position of the sun, arranged on said support (2), said detection unit (3) being capable of rotating around a vertical axis (A) of a rotation angle (&phgr;) with respect to said support (2), said detection unit (3) comprising a goniometer (34), preferably an electronic goniometer, adapted to measure said rotation angle (&phgr;), pointing means (4) integral with said support (2), and a visualization display (6), said solar electronic compass (1) wherein said detection unit (3) comprises a matrix photosensor (F), a logic control unit, operatively connected with said photosensor (F), with said electronic goniometer (34) and said display (6), and a container (31), in which said photosensor (F) is placed, said container (31) having a slit (33) for the passage of sunlight toward said photosensor (F), said slit (33) having a width and a slit length and being integral with said photosensor (F), in that said slit (33) and said photosensor (F) are inclined by an angle (&bgr;) with respect to the horizontal plane, preferably equal to 45°, and are separated by a distance (d), and in that said width of said slit (33) is approximately equal to (I), where A is the average wavelength of the sunlight, equivalent to about 0,5 μm, and d is said distance of said slit (33) from said photosensor (F), said logic control unit being programmed to calculate the ephemeris of the sun on the basis of the time and the geographical coordinates of the location and to process the data received by said photosensor (F) and from said electronic goniometer (34), so as to measure the pointing direction of said pointing means (4) with respect to the geographical North and/or with respect to the geographical South, showing the result on said display (6). The present invention relates to methods for determining the pointing direction of an object with respect to the geographic North using a electronic solar compass (1).
    • 本发明涉及一种电子太阳能罗盘(1),其包括能够围绕垂直轴线(A)旋转的支撑件(2),布置在所述支撑件(2)上的太阳位置的检测单元(3) 所述检测单元(3)能够相对于所述支撑件(2)围绕垂直轴线(A)旋转旋转角度(&θ)旋转,所述检测单元(3)包括测角器(34),优选地为电子 测角仪,适于测量所述旋转角度(&phgr),与所述支撑件(2)成一体的指示装置(4)和可视化显示器(6),所述太阳能电子罗盘(1),其中所述检测单元(3)包括 矩阵光传感器(F),与所述光电传感器(F)可操作地连接的逻辑控制单元,与所述电子测角器(34)和所述显示器(6)相连,以及容器(31),所述光传感器 ,所述容器(31)具有用于使太阳光朝向所述光传感器(F)通过的狭缝(33),所述狭缝(33)具有宽度 并且与所述光传感器(F)成一体,其中所述狭缝(33)和所述光传感器(F)相对于水平面倾斜角度(& bgr),优选地等于45°,以及 分隔开距离(d),并且所述狭缝(33)的所述宽度近似等于(I),其中A是阳光的平均波长,相当于约0.5μm,d表示 所述狭缝(33)与所述光传感器(F)的距离,所述逻辑控制单元被编程为基于所述位置的时间和地理坐标来计算太阳的星历,并处理由所述光传感器接收的数据( F)和所述电子测角器(34),以便测量所述指示装置(4)相对于地理北部和/或相对于地理南部的指示方向,显示所述显示器(6)上的结果, 。 本发明涉及使用电子太阳能罗盘(1)来确定物体相对于地理北部的指向方向的方法。
    • 9. 发明申请
    • AN AIRCRAFT VISION SYSTEM
    • 飞机视觉系统
    • WO2014003698A1
    • 2014-01-03
    • PCT/TR2013/000213
    • 2013-06-28
    • TUSAŞ-TÜRK HAVACILIK VE UZAY SANAYII A.Ş.
    • ÖZCAN, Remzi
    • G06F17/30G01C1/02
    • G06F17/30041G01C11/02G01C23/00G06F17/30061G06F17/30241G06F17/30265
    • The invention is related to an aircraft vision system used in especially airliners comprising at least a panoptic camera positioned outside the aircraft both to be able to capture a line of vision of a spherical segment around a point of view and at the same time adapted to output depth information from a captured image/video upon request, at least a positioning system adapted to determine the position and angles of the aircraft, at least a map database adapted to accommodate a digital virtual map and contents regarding the positions determined in said map, at least a user device which displays with an imaging device the sections that are desired to be displayed which have been captured with a panoptic camera and the sections that have been determined via tri-axial interfaces, at least a main control unit which is in connection with the panoptic camera, positioning system, map database image database and user device; and provides the communication between said components.
    • 本发明涉及用于特别是飞机的飞行器视觉系统,其包括位于飞机外部的至少一个全景相机,以便能够围绕观察点捕获球形段的视线,并且同时适于输出 至少一个适于确定飞行器的位置和角度的定位系统,至少一个适于容纳数字虚拟地图的地图数据库,以及关于在所述地图中确定的位置的内容的至少一个定位系统, 至少一个用成像设备显示已经用全景相机捕获的期望显示的部分以及已经通过三轴接口确定的部分的至少一个主控制单元,该主控制单元与 全景摄像机,定位系统,地图数据库图像数据库和用户设备; 并提供所述组件之间的通信。