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1. 发明授权

EP2553495B1 RÖNTGENZEILENDETEKTOR SOWIE VERFAHREN ZUR HERSTELLUNG DESSELBEN 有权
标题翻译： RÖNTGENZEILENDETEKTORSOWIE VERFAHREN ZUR HERSTELLUNG DESSELBEN
公开(公告)号：EP2553495B1
公开(公告)日：2017-08-23
申请号：EP11804493.2
申请日：2011-12-12
申请人： YXLON International GmbH
发明人： BAVENDIEK, Klaus
IPC分类号： G01T1/29
CPC分类号： G01T1/2018 , A61B6/035 , A61B6/4411 , G01T1/2985 , H01L27/14603 , Y10T29/49002

3. 发明授权

EP2948749B1 VERFAHREN ZUR KALIBRIERUNG EINER RÖNTGENPRÜFANLAGE FÜR EINEN REIFENTYP SOWIE VERFAHREN ZUR PRÜFUNG DER LAGE VON CORDS IN EINEM REIFEN 有权
标题翻译：方法校准X射线轮胎AND METHOD测试的一类用于管理帘线在轮胎的
公开(公告)号：EP2948749B1
公开(公告)日：2017-03-15
申请号：EP14701477.3
申请日：2014-01-28
申请人： YXLON International GmbH
发明人： MELCHERT, Jürgen , BAVENDIEK, Klaus
IPC分类号： G01M17/02 , G01N23/18 , G01N23/04 , G01M17/03
CPC分类号： G01M17/028 , G01N23/04 , G01N23/185 , G01N2223/303 , G01N2223/627

4. 发明公开

EP3061116A1 TARGET UND/ODER FILAMENT FÜR EINE RÖNTGENRÖHRE, RÖNTGENRÖHRE, VERFAHREN ZUR ERKENNUNG EINES TARGETS UND/ODER EINES FILAMENTS UND VERFAHREN ZUR EINSTELLUNG DER KENNGRÖßEN EINES TARGETS UND/ODER EINES FILAMENTS 审中-公开
标题翻译：目标和/或灯丝X射线管的X射线管，检测方法的用于确定目标和/或长丝的相关特性的目标和/或长丝和方法
公开(公告)号：EP3061116A1
公开(公告)日：2016-08-31
申请号：EP14792390.8
申请日：2014-10-21
申请人： YXLON International GmbH
发明人： NIEMANN, Willhelm , SCHRADER, Björn , DEYE, Jens , KLEIN, Axel
IPC分类号： H01J35/02 , H01J35/06 , H01J35/08
CPC分类号： H01J35/025 , A61B6/4494 , H01J35/06 , H01J35/08
摘要： A target 1/filament 5 for an x-ray tube 9 comprising a target base 10/filament holder and a target element 11/filament element attached thereto, wherein an identification element 8, 14, 15 is attached to the target base 10/filament holder, which identification element is identifiable in conjunction with an acquisition element 13, 16, 18 at the x-ray tube 9 and has a unique association with the characteristics of the target 1/filament 5. A method for identifying a specific target 1 and/or a specific filament 5, wherein the acquisition element 13, 16, 18 attached to the x-ray tube 9 identifies the identification element 8, 14, 15, which is attached to the target base 10 and/or the filament holder, and the target 1 and/or the filament 5 is uniquely associated with the identification element 8, 14, 15 by means of a database. A method for automatically setting the characteristics of a target 1 and/or a filament 5 installed in an x-ray tube 9, wherein, after performing an above-described method, the characteristics stored in the database for the respective identification element 8, 14, 15 or the target 1 and/or the filament 5 are transferred to the setting devices for the respective characteristics and these characteristics are set by way of these setting devices.
摘要翻译：靶和/或长丝提供了一种用于X射线管。靶标包括一目标基站。靶元件附接至所述目标基站。识别元件被安装到所述目标基站。识别元件被配置为在合作在采集元件上的X射线管与鉴定，且具有对明确分配给目标的特性。在X射线管的灯丝包括灯丝支架。灯丝元件被附接到金属丝支架。识别元件被附接到金属丝支架。识别元件被配置为在合作在采集元件上的X射线管与鉴定，且具有对明确分配到灯丝的特性。

5. 发明公开

EP3061068A1 VERFAHREN ZUR BESTIMMUNG DES GEFÄHRDUNGSBEREICHS ZWISCHEN EINEM PRÜFOBJEKT UND EINEM RÖNTGENPRÜFSYSTEM 有权
标题翻译： PROCEDURE用于确定危险区之间的测试对象和一个X射线检查系统
公开(公告)号：EP3061068A1
公开(公告)日：2016-08-31
申请号：EP14792739.6
申请日：2014-10-21
申请人： YXLON International GmbH
发明人： KOLESNIKOFF, Piotr , KRATZ, Bärbel , HEROLD, Frank
IPC分类号： G06T11/00 , G06T7/00 , G06T7/60
CPC分类号： G06T11/005 , G01N23/046 , G06T7/0004 , G06T7/62 , G06T2207/10081 , G06T2207/30164
摘要： The invention relates to a method for determining the danger zone 7 between a test object 3 and an x-ray inspection system, which rotate counter to one another about an axis of rotation 5 extending through the test object 3, wherein, by means of a radiation source and a radiation detector arranged at a predetermined distance therefrom, those marginal rays 6 are determined which, under a predetermined angle of rotation γ between test object 3 and radiation source/radiation detector arrangement, graze the external contour of the test object 3 under this angle of rotation γ, determining the danger radius 8 of the external contour in relation to the axis of rotation 5 of the test object 3 for the predetermined angle of rotation γ, repeating the determination of the marginal rays 6 for predetermined angles of rotation γ, which are distributed over 360°, and determining the respective danger radius 8, generating a table with the relevant parameters of the danger radii 8 of the edge of the test object 3 obtained for the predetermined angles of rotation γ.
摘要翻译：确定性采矿测试物体之间的危险区域和X射线检查系统的方法包括在来自辐射源的预定距离排列的放射线检测器。边缘光线是确定性的开采其中，在所述对象和所述测试布置辐射源和辐射检测器之间的旋转预定角度时，在物体的外轮廓触碰被测在旋转预定的角度。甲危险半径是从外轮廓到的TestObject的用于旋转的预定角度的旋转轴确定性的开采。边缘光线的确定被重复它们分布在360°，并重复用于边缘光线的各respectivement重复判定危险半径的确定旋转预定的角度。表被编译获得的每个所述的TestObject的边缘的旋转的预定角度的危险半径的参数。

6. 发明公开

EP3347706A1 VORRICHTUNG ZUR ZERSTÖRUNGSFREIEN MATERIALPRÜFUNG VON GEGENSTÄNDEN, INSBESONDERE VON FELGEN UND RÄDERN AUS LEICHTMETALLGUSS 有权
公开(公告)号：EP3347706A1
公开(公告)日：2018-07-18
申请号：EP16760651.6
申请日：2016-08-29
申请人： Yxlon International Gmbh
发明人： BOGUMIL, Frank , KRÜGER, Reinhard , MALIN, Joscha , MELCHERT, Jürgen , FREIHERR VON OLDERSHAUSEN, Florian , OTTENS, Erhard , SCHLÜTER, Heiko
IPC分类号： G01N23/18 , G01M17/03
CPC分类号： G01N23/185 , G01M17/028 , G01N2223/627
摘要： The invention relates to a device for non-destructively material testing objects, in particular rims or wheels (12), comprising an X-ray inspection cabin (14) which contains an X-ray inspection device (28) for X-raying the objects and comprising conveyor devices (34, 36, 56, 68, 98) for conveying the objects through at least one lock (20, 22) into the X-ray inspection cabin (14) and out of the X-ray inspection cabin (14). The aim of the invention is to prevent a leakage of X-rays into the surrounding area through the lock (20, 22) and to reduce the quantity of lead needed for shielding and optionally the space requirement of the device (10). According to the invention this is achieved in that the lock (20, 22) comprises a hollow cylinder (60), the circumferential wall (62) of which has a through-opening (64) for the objects and which can be rotated about a horizontal rotational axis in order to position the through-opening (64) on a lock (20, 22) side facing away from the X-ray inspection cabin (14) or a lock (20, 22) side facing the X-ray inspection cabin (14) in an alternating manner.

7. 发明公开

EP2553495A2 RÖNTGENZEILENDETEKTOR SOWIE VERFAHREN ZUR HERSTELLUNG DESSELBEN 有权
标题翻译： RÖNTGENZEILENDETEKTORSOWIE VERFAHREN ZUR HERSTELLUNG DESSELBEN
公开(公告)号：EP2553495A2
公开(公告)日：2013-02-06
申请号：EP11804493.2
申请日：2011-12-12
申请人： YXLON International GmbH
发明人： BAVENDIEK, Klaus
IPC分类号： G01T1/29
CPC分类号： G01T1/2018 , A61B6/035 , A61B6/4411 , G01T1/2985 , H01L27/14603 , Y10T29/49002
摘要： The invention relates to an x-ray line detector having a predefined number of carrier modules (1) which, apart from a production tolerance, have the same width a and are arranged in a housing (8), wherein a one-piece printed circuit board (2), on which a photodiode (3) is arranged, is attached to each carrier module (1), wherein this printed circuit board (2) is wider than the pixel forming the active surface of the photodiode (3), wherein in each case a scintillator element (4) is attached to each photodiode (3) the length b of said scintillator element precisely covering the active area in the width thereof plus an interspace between two adjacent pixels of a photodiode (3), wherein the width a of each carrier module (1) is at most twice as large as the length b of a scintillator element (4), wherein the carrier modules (1) are arranged in two rows (9, 10) in the housing (8) such that the photodiodes (3) of each row (9, 10) lie opposite each other, wherein the scintillator elements (4) abut one another upon impact, wherein scintillator elements (49) abutting one another are arranged in respectively opposite rows (9, 10). In addition, the invention relates to a method for producing an x-ray line detector having the features of one of the preceding claims, comprising the following steps: inserting a first spacer (21) on the first end plate (16) and subsequently inserting a first carrier module (1') on the first carrier element (11) until the scintillating element (4) thereof butts up against the first spacer (21) and inserting a first buffer piece (23) on the second carrier element (12) until it butts up against the first end plate (16), wherein the insertion of the first carrier module (1') and of the first buffer piece (23) can also be carried out in the reverse order. As an alternative to the preceding step, the first buffer piece (23) on the second carrier element (12) can also first be attached to the first end plate (16) upon impact, and thereafter the first spacer (21) can be attached to the first end plate (16) upon impact, and subsequently the first carrier module (1') with the scintillating element (4) thereof is attached to the first spacer (21) upon impact. After one of the two previously mentioned alternative steps, a second carrier module (1'') is inserted in such a way that the scintillator element (4) thereof butts against the scintillator element (4) of the first carrier module (1') and said second carrier module itself butts against the first buffer piece (23); then, alternatingly, a carrier module (1) is always inserted on the first and on the second carrier element (11, 12), wherein the respective scintillating element (4) thereof butts against the scintillator element (4) of the directly previously inserted carrier module (1). In any desired order, a second spacer (22), which is half as wide as a scintillating element (4), is placed on the scintillator element (4) of the last carrier module (1''') upon impact and a second buffer piece (24), which is half as wide as a carrier module (1), is placed on the carrier module (1) upon impact, which carrier module is inserted as the next to last; clamping means in the second end plate (17), in particular the third clamping screw (20), are actuated in such a way that all the scintillator elements (4) are pressed with the respectively opposite end faces (28) thereof against each other; fixing the two rows (9, 10) of carrier modules (1) with clamping means in the second end plate (17), in particular by means of the first and second clamping screws (18, 19).
摘要翻译： X射线线检测器包括壳体和预定数量的具有设置在壳体中的相同宽度的载体模块。其上布置有光电二极管的一体式印刷电路板被附接到每个载体模块。每个印刷电路板比构成光电二极管的像素的有源区域宽，并且每个光电二极管上安装着位激光器元件。每个闪烁体元件具有精确覆盖其宽度中的有效区域加上光电二极管的两个相邻像素之间的间隙的长度。每个载体模块的宽度是闪烁体元件的长度的至多两倍。载体模块在壳体中布置成两行，使得每行的光电二极管彼此相对，闪烁体元件在接触时彼此抵接，并且相互接触的闪烁体元件分别相对排列。

8. 发明公开

EP3794616A1 RÖNTGENRÖHRE MIT KOLLIMATOR, KOLLIMATORVORRICHTUNG FÜR GESCHLOSSENE RÖNTGENRÖHRE UND VERWENDUNG EINER SOLCHEN KOLLIMATORVORRICHTUNG 审中-公开
公开(公告)号：EP3794616A1
公开(公告)日：2021-03-24
申请号：EP19725689.4
申请日：2019-05-17
申请人： YXLON International GmbH
发明人： STICKLER, Daniel
IPC分类号： G21K1/02 , H01J35/18 , H05G1/02

9. 发明公开

EP3474043A1 DETEKTOR MIT VERKLEINERTEN RANDPIXEL ELEMENTEN 审中-公开
公开(公告)号：EP3474043A1
公开(公告)日：2019-04-24
申请号：EP18195838.0
申请日：2018-09-21
申请人： YXLON International GmbH
发明人： BAVENDIEK, Klaus
IPC分类号： G01T1/20 , G01T1/24
摘要： Die vorliegende Erfindung betrifft einen Detektor mit einem ersten Sensorelement (2a, 2a', 2a", 2a'''), welches eine Mehrzahl von linear hintereinander angeordneten ersten Pixelelementen (7a, 8a) aufweist, und einem zweiten Sensorelement (2b, 2b', 2b",2b"'), welches eine Mehrzahl von linear hintereinander angeordneten zweiten Pixelelementen (7b, 8b) aufweist, wobei das erste und zweite Sensorelement (2a, 2a', 2a", 2a"',2b, 2b', 2b",2b'"), nebeneinander montiert sind, sodass die zweiten Pixelelemente (7b, 8b) in einer Linie in Verlängerung zu den ersten Pixelelementen (7a, 8a) angeordnet sind. Die ersten Pixelelemente (7a, 8a) weisen erste zentrale Pixelelemente (7a) mit einer ersten Breite (b) auf, welche in einem ersten vorbestimmten im wesentlichen äquidistanten Abstand (a) zueinander linear hintereinander angeordneten sind, und die zweiten Pixelelemente (7b, 8b) weisen zweite zentrale Pixelelemente (7b) auf, mit einer zweiten Breite, welche der ersten Breite (b) entspricht. Die zweiten zentralen Pixelelemente (7b) sind in dem ersten vorbestimmten im Wesentlichen äquidistanten Abstand (a) zueinander linear hintereinander angeordneten, in dem die ersten zentralen Pixelelementen (7a) zueinander angeordnet sind, wobei eine Breite eines Pixelelementes der Dimension in Richtung der durch die hintereinander angeordneten Pixelelemente (7a, 8a, 7b, 8b) definierten Linie entspricht.
Ein Interzentralpixelabstand (i) von zueinander am nächsten liegenden ersten und zweiten Zentralpixelelemente (7a, 8a) der nebeneinander angeordneten Sensorelemente (2a, 2a', 2a", 2a"',2b, 2b', 2b",2b'") entspricht folgender Formel 1: i = n * a + b + a , wobei i der Interzentralpixelabstand, n eine natürliche Zahl, a der erste vorbestimmte im Wesentlichen äquidistanten Abstand, und b die jeweiligen Breite der Zentralpixelelemente (7a) ist.
. Zur Kompensation von Artefakten in der visuellen Darstellung sind in einem Zwischenraum zwischen den zueinander am nächsten liegenden ersten und zweiten Zentralpixelelementen (7a, 7b) der nebeneinander angeordneten Sensorelemente (2a, 2a', 2a", 2a"',2b, 2b', 2b",2b'") Randpixelelemente (8a, 8b) vorgesehen, welche linear hintereinander und in Linie zu den ersten und zweiten Zentralpixelelementen (7a, 7b) angeordnet sind, wobei die Randpixelelemente (8a, 8b) eine dritte Breite aufweisen, welche geringer ist als die erste und zweite Breite der ersten und zweiten Zentralpixelelemente (7a, 7b).

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