公开(公告)号：US08819953B2

公开(公告)日：2014-09-02

申请号：US13509686

申请日：2010-12-10

Applicant: Thomas Andersson ,  Paolo Gaboardi ,  Massimiliano Giucolsi ,  Fabrizio Porta

Inventor： Thomas Andersson ,  Paolo Gaboardi ,  Massimiliano Giucolsi ,  Fabrizio Porta

IPC: G01B5/08 ,  G01B3/20 ,  G01B5/10 ,  G01B5/20 ,  G01B5/252

CPC classification number: G01B3/20 ,  G01B5/08 ,  G01B5/10 ,  G01B5/201 ,  G01B5/252

Abstract: An apparatus for revealing the geometry of operative cylinders, in particular during the grinding operation of the same, includes a pair of movable clamps which can be moved away from and towards each other with respect to a fixed intermediate structure, the clamps having tilted surfaces in opposite directions to each other according to a swallowtail arrangement with respect to a cylinder being measured, positioned between them and between a surface of the fixed intermediate structure, the surfaces of the movable clamps and the surface of the fixed intermediate structure always being kept in contact with the cylinder, whether still or rotating, wherein the fixed structure also has, in its interior, parts of a group which interact with each other to correlate the movement of the clamps.

Abstract translation: 用于揭示工作气缸的几何形状的装置，特别是在其研磨操作过程中，包括一对可移动夹具，其可相对于固定的中间结构离开和朝向彼此移动，夹具具有倾斜表面 根据相对于被测量的圆柱体的燕尾布置，彼此相反的方向，位于它们之间并且在固定中间结构的表面之间，可移动夹具的表面和固定中间结构的表面总是保持接触 与气缸一起，无论是静止还是旋转，其中固定结构在其内部还具有彼此相互作用以使夹具的运动相关联的组的部分。

公开(公告)号：US08336223B2

公开(公告)日：2012-12-25

申请号：US12784779

申请日：2010-05-21

Applicant: Tatsuki Nakayama ,  Hideki Shindo

Inventor： Tatsuki Nakayama ,  Hideki Shindo

IPC: G01B5/004

CPC classification number: G01B5/201 ,  G01B21/047

Abstract: A roundness measuring apparatus includes a stylus stocker and a controller. The stylus stocker stores plural types of styli prepared corresponding to shapes of measurement sites of a measurement target object. The stylus stocker can store styli in such a manner that each stylus can be held thereon and taken out thereof. The stylus stocker is provided outside a measurement region, which is determined on the basis of the operation range of a turntable and a detector driving mechanism. The detector driving mechanism can move the detector to the outside of the measurement region. When a measurement command is given, the controller carries out roundness measurement of the object while controlling the turntable and the detector driving mechanism. When a stylus replacement command is given, the controller carries out stylus replacement operation between a detector main unit and the stylus stocker while controlling the detector driving mechanism.

Abstract translation: 圆度测量装置包括触笔储料器和控制器。 触针储存器存储与测量目标对象的测量位置的形状对应地准备的多种类型的测针。 触笔存储器可以以这样的方式存储测针，使得每个触笔可以保持在其上并从中取出。 触针储存器设置在基于转台和检测器驱动机构的操作范围确定的测量区域之外。 检测器驱动机构可以将检测器移动到测量区域的外部。 当给出测量命令时，控制器在控制转台和检测器驱动机构的同时进行对象的圆度测量。 当给出触针替换命令时，控制器在控制检测器驱动机构的同时在检测器主单元和触针储存器之间执行触笔替换操作。

公开(公告)号：US20120234075A1

公开(公告)日：2012-09-20

申请号：US13419748

申请日：2012-03-14

Applicant: Yoshiyuki OMORI ,  Shousei MIKI

Inventor： Yoshiyuki OMORI ,  Shousei MIKI

IPC: G01B5/28

CPC classification number: G01B21/042 ,  G01B5/201 ,  G01B5/28

Abstract: A method of calibrating a surface texture measurement device includes obtaining Y-axis shape measurement data and a maximum diameter portion to obtain upper and lower maximum diameter portions of a reference sphere from Y-axis upper and lower shape data obtained by relatively moving in the Y-axis direction while a downward and an upward styluses are in contact with an upper and a lower surfaces, respectively, of the reference sphere; obtaining X-axis shape measurement data to obtain X-axis upper and lower shape data of the reference sphere by relatively moving in the X-axis direction while the downward stylus is in contact with the upper diameter portion and the upward stylus with the lower diameter portion of the reference sphere; and calculating offset amounts Δx and Δz of the upward and downward styluses from center coordinates O3 and O4 obtained from the shape data.

Abstract translation: 校准表面纹理测量装置的方法包括获得Y轴形状测量数据和最大直径部分，以从Y轴上下形状数据获得参考球体的上和下最大直径部分，所述Y轴上下形状数据通过在Y 而向下和向上的触针分别与参考球的上表面和下表面接触; 获得X轴形状测量数据，以通过在X轴方向上相对移动来获得参考球的X轴上下形状数据，同时向下的触针与具有较小直径的上部直径部分和向上的触针接触 参考球的一部分; 并且从形状数据中获得的中心坐标O3和O4的向上和向下测针的偏移量＆Dgr; x和＆Dgr; z。

公开(公告)号：US20120204563A1

公开(公告)日：2012-08-16

申请号：US13457324

申请日：2012-04-26

Applicant: O. James Fiske

Inventor： O. James Fiske

IPC: F03G3/04 ,  H02K15/00 ,  H02K7/00

CPC classification number: F03D9/026 ,  F03D9/14 ,  F03D9/16 ,  F03D9/25 ,  F03D9/28 ,  F03D13/10 ,  F03D13/25 ,  F03D13/40 ,  F03D15/10 ,  F03G3/00 ,  F05B2240/9151 ,  F05B2240/95 ,  F05B2260/4031 ,  F05B2260/406 ,  G01B5/0032 ,  G01B5/201 ,  Y02E10/725 ,  Y02E10/727 ,  Y02E10/728 ,  Y02E60/16 ,  Y02E60/17 ,  Y02P90/50 ,  Y10T29/49009

Abstract: A system includes at least one body, a link for suspending the body for movement with gravity from a first elevation position to a second elevation position, and an electrical energy generator coupled with the body through the link to drive the generator to generate electricity upon movement of the body with gravity from the first to the second elevation position. The at least one body has a mass of at least approximately 100 tonnes; the first and the second elevation positions define a distance therebetween of at least approximately 200 meters; and/or the system further includes an operator configured to operate the link to controllably move the at least one body against gravity from the second to the first elevation position to increase a gravitational potential energy of the at least one body, and to maintain the gravitational potential energy of the at least one body.

Abstract translation: 一种系统包括至少一个主体，用于悬挂主体以使重力从第一高度位置移动到第二升高位置的连杆，以及通过连杆与主体联接以驱动发电机在运动时发电的电能发生器 身体的重力从第一到第二高度位置。 至少一个身体的质量至少约为100吨; 第一和第二仰角位置之间的距离至少约为200米; 和/或所述系统还包括操作器，所述操作器被配置为操作所述连杆以可控制地将所述至少一个主体抵抗重力从所述第二升高位置移动到所述第一升高位置，以增加所述至少一个主体的重力势能，并且保持重力 至少一个身体的潜在能量。

公开(公告)号：US20120185210A1

公开(公告)日：2012-07-19

申请号：US13349016

申请日：2012-01-12

Applicant: Ryo TAKANASHI

Inventor： Ryo TAKANASHI

IPC: G06F15/00

CPC classification number: G01B5/201 ,  G01B5/008 ,  G01B7/12 ,  G01B7/282 ,  G01B21/045 ,  G01B21/20

Abstract: According to the present invention, a center deviation amount, which is an amount of deviation (distance) between the center line of a reference measurement target and the detection point is calculated using the reference measurement target having a known diameter, and a measurement value of a diameter of an arbitrary measurement target is corrected using the center deviation amount. Therefore, an accurate diameter value can be calculated even in the case of a measurement target having a diameter value different from the diameter value of the reference measurement target.

Abstract translation: 根据本发明，使用具有已知直径的基准测量对象来计算作为基准测量对象的中心线与检测点之间的偏差量（距离）的中心偏差量，测定值 使用中心偏差量来校正任意测量对象的直径。 因此，即使在具有与基准测定对象的直径值不同的直径值的测定对象的情况下，也可以算出准确的直径值。

公开(公告)号：US20120134790A1

公开(公告)日：2012-05-31

申请号：US13367283

申请日：2012-02-06

Applicant: O. James Fiske

Inventor： O. James Fiske

IPC: F03B7/00

CPC classification number: F03D9/026 ,  F03D9/14 ,  F03D9/16 ,  F03D9/25 ,  F03D9/28 ,  F03D13/10 ,  F03D13/25 ,  F03D13/40 ,  F03D15/10 ,  F03G3/00 ,  F05B2240/9151 ,  F05B2240/95 ,  F05B2260/4031 ,  F05B2260/406 ,  G01B5/0032 ,  G01B5/201 ,  Y02E10/725 ,  Y02E10/727 ,  Y02E10/728 ,  Y02E60/16 ,  Y02E60/17 ,  Y02P90/50 ,  Y10T29/49009

Abstract: A system includes at least one body, a link for suspending the body for movement with gravity from a first elevation position to a second elevation position, and an electrical energy generator coupled with the body through the link to drive the generator to generate electricity upon movement of the body with gravity from the first to the second elevation position. The at least one body has a mass of at least approximately 100 tonnes; the first and the second elevation positions define a distance therebetween of at least approximately 200 meters; and/or the system further includes an operator configured to operate the link to controllably move the at least one body against gravity from the second to the first elevation position to increase a gravitational potential energy of the at least one body, and to maintain the gravitational potential energy of the at least one body.

公开(公告)号：US08166760B2

公开(公告)日：2012-05-01

申请号：US12365848

申请日：2009-02-04

Applicant: O. James Fiske

Inventor： O. James Fiske

IPC: F03B7/00 ,  F03C1/00

CPC classification number: F03D9/026 ,  F03D9/14 ,  F03D9/16 ,  F03D9/25 ,  F03D9/28 ,  F03D13/10 ,  F03D13/25 ,  F03D13/40 ,  F03D15/10 ,  F03G3/00 ,  F05B2240/9151 ,  F05B2240/95 ,  F05B2260/4031 ,  F05B2260/406 ,  G01B5/0032 ,  G01B5/201 ,  Y02E10/725 ,  Y02E10/727 ,  Y02E10/728 ,  Y02E60/16 ,  Y02E60/17 ,  Y02P90/50 ,  Y10T29/49009

Abstract: A system includes at least one body, a link for suspending the body for movement with gravity from a first elevation position to a second elevation position, and an electrical energy generator coupled with the body through the link to drive the generator to generate electricity upon movement of the body with gravity from the first to the second elevation position. The at least one body has a mass of at least approximately 100 tonnes; the first and the second elevation positions define a distance therebetween of at least approximately 200 meters; and/or the system further includes an operator configured to operate the link to controllably move the at least one body against gravity from the second to the first elevation position to increase a gravitational potential energy of the at least one body, and to maintain the gravitational potential energy of the at least one body.

Abstract translation: 一种系统包括至少一个主体，用于悬挂主体以使重力从第一高度位置移动到第二升高位置的连杆，以及通过连杆与主体联接以驱动发电机在运动时发电的电能发生器 身体的重力从第一到第二高度位置。 至少一个身体的质量至少约为100吨; 第一和第二仰角位置之间的距离至少约为200米; 和/或所述系统还包括操作器，所述操作器被配置为操作所述连杆以可控制地将所述至少一个主体抵抗重力从所述第二升高位置移动到所述第一升高位置，以增加所述至少一个主体的重力势能，并且保持重力 至少一个身体的潜在能量。

公开(公告)号：US20110083335A1

公开(公告)日：2011-04-14

申请号：US12879311

申请日：2010-09-10

Applicant: Junsuke YASUNO ,  Hideki SINDO

Inventor： Junsuke YASUNO ,  Hideki SINDO

IPC: G01B3/00

CPC classification number: G01B5/012 ,  G01B3/22 ,  G01B5/201 ,  G01B21/047

Abstract: A detector includes a stylus, a holding portion that holds a proximal end portion of the stylus, a body portion that supports the holding portion rotatably about a rotational axis, and a sensor that detects a rotational displacement of the holding portion. The holding portion includes an abutting member, on which the proximal end portion of the stylus abuts, and a plate spring that biases the proximal end portion of the stylus against the abutting member. The abutting member includes a groove portion on which the proximal end portion of the stylus abuts, and a semispherical portion that extends toward the plate spring, compared with a bottom of the groove portion. The stylus includes a proximal end inclined portion at the proximal end portion of the stylus. The proximal end inclined portion is inclined toward the plate spring, with a decreasing distance from the rotational axis.

Abstract translation: 检测器包括触针，保持触针的近端部分的保持部分，能够围绕旋转轴线可旋转地支撑保持部分的主体部分和检测保持部分的旋转位移的传感器。 保持部分包括抵接构件，触针的基端部抵接在该抵接构件上，并且将弹簧的近端部分偏压抵靠构件的板簧。 抵接构件包括与凹槽部分的底部相比，触针的基端部邻接的凹槽部分和朝向板簧延伸的半球形部分。 触针包括在触针的近端部分处的近端倾斜部分。 近端倾斜部分朝向板簧倾斜，与旋转轴线的距离减小。

公开(公告)号：US20090259435A1

公开(公告)日：2009-10-15

申请号：US12085292

申请日：2006-12-01

Applicant: Masato Enomoto ,  Susumu Sawafuji

Inventor： Masato Enomoto ,  Susumu Sawafuji

IPC: G01B11/24

CPC classification number: G01B5/201 ,  G01B21/045

Abstract: To realize a roundness measuring instrument of which the measurement precision when there is eccentricity has been improved. The instrument comprises a mount base 1, a tip head 11 having a spherical tip portion and capable of moving in a first plane including an axis of rotation of the mount base, which comes into contact with the surface of an object to be measured and moves, a measurement probe 12-14 that detects the displacement of the tip head and outputs measurement data, and a processing controller 15 that processes the measurement data, wherein the processing controller calculates a roundness by correcting a shift of the contact position of the surface of the object to be measured and the tip head in the first plane due to eccentricity between the center of the object to be measured and the center of rotation of the mount base, and further, the processing controller calculates a roundness by calculating a shift due to eccentricity of the contact position in a direction perpendicular to the first plane and also correcting a shift of the contact position due to the calculated shift in the first plane.

Abstract translation: 实现圆偏心测量仪器，其具有偏心时的测量精度得到改善。 该仪器包括安装基座1，具有球形尖端部分的尖端头部11，其能够在包括安装基座的旋转轴线的第一平面内移动，该第一平面与被测量物体的表面接触并移动 ，检测前端头的位移并输出测量数据的测量探针12-14以及处理测量数据的处理控制器15，其中处理控制器通过校正表面的接触位置的偏移来计算圆度 要测量的物体和由于被测量物体的中心与安装基座的旋转中心之间的偏心引起的第一平面中的尖端头，此外，处理控制器通过计算由于 接触位置在垂直于第一平面的方向上的偏心度，并且还校正由于计算出的第一平面中的移位引起的接触位置的偏移。

公开(公告)号：US20080299872A1

公开(公告)日：2008-12-04

申请号：US11988989

申请日：2006-07-26

Applicant: Giovanni Boselli ,  Giovanni Guido Maria Bavesterelli ,  Flavio Stefano Bianchessi ,  Claudio Trevisan

Inventor： Giovanni Boselli ,  Giovanni Guido Maria Bavesterelli ,  Flavio Stefano Bianchessi ,  Claudio Trevisan

IPC: B24B49/00 ,  B24B7/00

CPC classification number: G01B5/201 ,  G01B5/207

Abstract: Measuring apparatus (50) of geometrical parameters of cylinders, rolls and similar elements (11), used for the rolling of flat products operating on a machine for the grinding of said cylinders with an autonomous movement, i.e. with a movement independent of the translation movement of the grinding wheel or other parts, characterized in that it comprises at least four sensors (54, 55), situated on a surface orthogonal to the cylinder (11) or roll and in that at least two of said sensors are situated in opposite positions.

Abstract translation: 滚筒和类似元件（11）的几何参数的测量装置（50），用于在机器上操作的平面产品的滚动，用于以自主运动磨削所述气缸，即具有与平移运动无关的运动 的砂轮或其他部件，其特征在于，其包括至少四个传感器（54,55），其位于与所述气缸（11）或辊子垂直的表面上，并且所述传感器中的至少两个位于相对位置 。