公开(公告)号：US11801559B2

公开(公告)日：2023-10-31

申请号：US17678563

申请日：2022-02-23

Applicant: HJR Real Estate Management, LLC

Inventor： Harold F. Ross

IPC: B23B5/32 ,  B23B25/06 ,  B23B5/28 ,  B23C5/28 ,  B23C3/00

CPC classification number: B23B5/32 ,  B23B5/28 ,  B23C3/00 ,  B23C5/28 ,  Y10T82/10 ,  Y10T82/18 ,  Y10T82/185 ,  Y10T83/162

Abstract: A portable apparatus for configuring a wheel associated with a track is provided. The apparatus is in a fixed position with respect to a rail associated with the track when in operation. The apparatus includes a tool configured to engage the wheel, a position system for positioning the cutting tool in at least two axis, and a computer control. The computer control is coupled to control the positioning system. The positioning system is controlled so that the wheel is configured in accordance with a profile.

公开(公告)号：US20170056976A1

公开(公告)日：2017-03-02

申请号：US15351374

申请日：2016-11-14

Applicant: Brian Len

Inventor： Brian Len

IPC: B23B5/28 ,  B23B31/16

CPC classification number: B23B5/28 ,  B23B5/00 ,  B23B31/16275 ,  B23B2215/08 ,  B23B2231/34 ,  B23B2260/124 ,  B23P6/00 ,  B23Q15/013 ,  Y10T82/18 ,  Y10T82/2552

Abstract: The present invention is a novel machine for repairing damaged wheel rims whereby the machine is a combination CNC and manual lathe configured of performing all of the required tasks for repairing damaged wheel rims in a single unit.

Abstract translation: 本发明是一种用于修理损坏的轮缘的新型机器，其中机器是组合CNC和手动车床，其被配置为执行在单个单元中修复损坏的轮辋的所有必要任务。

公开(公告)号：US20150239074A1

公开(公告)日：2015-08-27

申请号：US14623042

申请日：2015-02-16

Applicant: Art Parmely ,  Carl Cooper ,  Steven Mark Everritt ,  Richard Grifno

Inventor： Art Parmely ,  Carl Cooper ,  Steven Mark Everritt ,  Richard Grifno

IPC: B23K35/40

CPC classification number: B23K35/402 ,  E21B43/088 ,  Y10T82/10 ,  Y10T82/18

Abstract: Embodiments of a wire wrapping system generally include a welding wheel electrode mounted on a support assembly, wherein the support assembly is moveable laterally and vertically to a welding position, and moveable laterally and vertically to a sharpening location where a sharpening mechanism can engage the welding wheel electrode contact surface. Embodiments of a method of sharpening a welding wheel electrode contact surface generally include installing the welding wheel on a support assembly that is moveable laterally and vertically to a welding position, and moveable laterally and vertically to a fixed sharpening location, installing a sharpening mechanism, manipulating the support assembly to move the welding wheel electrode to the sharpening location where the sharpening mechanism engages the welding wheel electrode contact surface, rotating the welding wheel electrode in relation to the sharpening mechanism, and laterally adjusting the support system to allow uniform sharpening of the welding wheel electrode contact surface.

Abstract translation: 电线缠绕系统的实施例通常包括安装在支撑组件上的焊轮电极，其中支撑组件可横向和垂直地移动到焊接位置，并且可横向和垂直地移动到磨削位置，其中磨削机构可与焊轮接合 电极接触面。 焊接轮电极接触表面的磨削方法的实施例通常包括将焊轮安装在支撑组件上，该支撑组件横向和垂直地移动到焊接位置，并且能够横向和垂直地移动到固定的磨削位置，安装磨削机构，操纵 所述支撑组件用于将所述焊接轮电极移动到所述磨削位置，在所述磨削位置处，所述磨削机构与所述焊接轮电极接触表面接合，使所述焊轮电极相对于所述磨削机构旋转，以及横向调节所述支撑系统以允许所述焊接 车轮电极接触面。

公开(公告)号：US20140150243A1

公开(公告)日：2014-06-05

申请号：US13836912

申请日：2013-03-15

Applicant: Marek Mamczur

Inventor： Marek Mamczur

IPC: B23B5/28 ,  B23B1/00 ,  B23B25/06

CPC classification number: B23B5/28 ,  B23B1/00 ,  B23B25/06 ,  B23B2215/08 ,  B23Q15/013 ,  G05B19/401 ,  G05B2219/32228 ,  G05B2219/37398 ,  G05B2219/50214 ,  Y10T29/49986 ,  Y10T82/10 ,  Y10T82/18

Abstract: An apparatus for recutting the surface of a wheel is described. The apparatus comprises a rotatable mount, for holding and rotating the wheel about its axis, a surface profiler, configured to detect and output a surface elevation profile of a concentric ring at a current radial position on the surface of the wheel, a linear drive mechanism, configured to reposition the surface profiler radially with respect to the wheel, a radial profile generator, configured to calculate a cutting profile for the wheel based on the surface elevation profile for each concentric ring, a cutting tool, and cutting control circuitry, configured to control the position of the cutting tool with respect to the wheel to recut the surface of the wheel in accordance with the generated cutting profile.

Abstract translation: 描述了一种用于重新研磨车轮表面的装置。 该装置包括用于保持和旋转车轮绕其轴线的可旋转的安装件，表面轮廓仪，被配置为检测并输出在车轮表面上的当前径向位置的同心环的表面仰角轮廓;线性驱动机构 ，其被配置为相对于所述车轮径向地重新定位所述表面轮廓仪;径向轮廓发生器，被配置为基于每个同心环的表面仰角轮廓计算所述车轮的切割轮廓，切割工具和切割控制电路， 根据生成的切割轮廓来控制切割工具相对于轮的位置，以重新查看车轮的表面。

公开(公告)号：US20140144301A1

公开(公告)日：2014-05-29

申请号：US13989259

申请日：2010-11-26

Applicant: Hans J. Naumann ,  Theo Nijssen ,  Robert Mertens ,  Hans-Joachim Reiche

Inventor： Hans J. Naumann ,  Theo Nijssen ,  Robert Mertens ,  Hans-Joachim Reiche

IPC: B23B5/32

CPC classification number: B23B5/32 ,  B23B5/04 ,  B23B5/28 ,  B23B2215/36 ,  Y10T82/10 ,  Y10T82/18 ,  Y10T82/185

Abstract: The invention relates to a method for reprofiling wheelsets (1) rotatably mounted in axle bearing housings (6) on rail vehicles on underfloor wheelset lathes (12; 14) equipped with machining tools, a machine control for the machining tools, drive rollers (15), axial guide rollers (17), measuring rollers (13) as well as clamping devices (21; 22) to engage the axle bearing housings (6). The method is characterised in that the wheelset (1) is lifted off the rail using the drive rollers (15), weighing it in the process, the axle bearing housings (6) are fixed between the drive rollers (15) and the clamping devices (21; 22), an axial guide roller (17) is adjusted to touch the inner side (16) of each of the two wheels (3; 4) of the wheelset (1) and fixed in this position, an additional force (20) is applied to the drive rollers (15), that the actual diameter (8) and the wear profile of each wheel (3; 4) is determined by means of a measuring roller (13), that the smaller actual diameter is determined based on the measurement results and, it having been modified by a specified machining allowance, entered as the nominal diameter (11) into the machine control for the machining tools.

Abstract translation: 本发明涉及一种用于重新安装在轨道车辆上的车轴轴承座（6）中的轮对（1）的方法，所述车轮轴承壳体（6）装备有加工工具的地板车轮车轮（12; 14），用于加工工具的机床控制装置 ），轴向导辊（17），测量辊（13）以及夹紧装置（21; 22）以接合轴承壳体（6）。 该方法的特征在于，使用驱动辊（15）将轮对（1）从轨道上提起，在该过程中对其进行称重，轴承座（6）固定在驱动辊（15）和夹紧装置 （21; 22），轴向引导辊（17）被调节以接触轮对（1）的两个轮子（3; 4）中的每一个的内侧（16）并固定在该位置，附加的力 20）被施加到驱动辊（15）上，通过测量辊（13）确定每个车轮（3; 4）的实际直径（8）和磨损轮廓，确定较小的实际直径 基于测量结果，并且已经通过指定的加工余量修改，作为公称直径（11）输入到加工工具的机器控制中。

公开(公告)号：US07963036B2

公开(公告)日：2011-06-21

申请号：US10590266

申请日：2005-02-22

Applicant: Tadashi Mitarai ,  Shunji Morimoto

Inventor： Tadashi Mitarai ,  Shunji Morimoto

IPC: B21D53/26 ,  B21K1/40

CPC classification number: F16C33/64 ,  B23B5/02 ,  B23B31/16275 ,  B60B27/00 ,  B60B27/0005 ,  B60B27/0094 ,  F16C19/186 ,  F16C33/581 ,  F16C2326/02 ,  Y10T29/49533 ,  Y10T29/49536 ,  Y10T29/49636 ,  Y10T29/49689 ,  Y10T29/49696 ,  Y10T82/10 ,  Y10T82/18 ,  Y10T82/21

Abstract: An outer ring of a bearing device for a vehicle has a cylindrical main body extending from an inner vehicle side to an axially opposite side. The main body has a raceway at an inner peripheral surface. A flange is provided at an outer peripheral surface of the outer ring toward the ring's vehicle inner side end. A cylindrical fitting tolerance part also is provided at the outer peripheral surface of the outer ring, at a position closer to the vehicle inner side end than the flange. The axial length of the cylindrical fitting tolerance part may be designed to be any of various lengths. The bearing device is manufactured by turning the cylindrical main body while holding the flange, such as for embodiments in which the cylindrical fitting tolerance part has a short length unsuitable for holding.

Abstract translation: 用于车辆的轴承装置的外圈具有从内侧车辆侧向轴向相对侧延伸的圆筒形主体。 主体在内周面具有滚道。 在外圈的外周面朝向环的车辆内侧端部设置有凸缘。 在外圈的外周面，在与凸缘相比更靠近车辆内侧端的位置处也设置有圆筒形配合公差部。 圆柱形配合公差部分的轴向长度可以被设计为各种长度中的任何一个。 轴承装置通过在保持凸缘的同时转动圆柱形主体来制造，例如对于其中圆柱形配合公差部分具有不适于保持的短长度的实施例。

公开(公告)号：US20070227318A1

公开(公告)日：2007-10-04

申请号：US11730440

申请日：2007-04-02

Applicant: Matthias Biertz ,  Wolfgang Pieczeit ,  Patrik Scalla

Inventor： Matthias Biertz ,  Wolfgang Pieczeit ,  Patrik Scalla

IPC: B23B23/04

CPC classification number: B23Q3/063 ,  B23Q3/103 ,  B23Q3/183 ,  Y10T82/18 ,  Y10T82/2568 ,  Y10T82/27

Abstract: A workpiece holding system for correctly locating disk-shaped workpieces in a work area of a machine tool, in particular for machining rotor disks of a gas turbine engine, includes a base plate (6) firmly attached to the machine tool (1) with vertically and radially adjustable clamping elements (7) for restraining the workpiece on an outer circumference in a correct position, as well as a plurality of differently dimensioned centering elements (12) and supporting elements (17), each adapted to a particular shape and size of the workpiece (2) to be machined and to the respective processing step, these centering (12) and supporting elements (17) being exchangeable and attachable to the base plate/machine tool by quick fasteners.

Abstract translation: 一种用于在机床的工作区域，特别是用于加工燃气涡轮发动机的转子盘的工作区域中正确定位盘形工件的工件保持系统，包括：一个垂直地固定在机床（1）上的基板（6） 和可径向调节的夹紧元件（7），用于在正确位置的外圆周上限制工件，以及多个不同尺寸的定心元件（12）和支撑元件（17），每个适配器具有特定的形状和尺寸 要加工的工件（2）和相应的加工步骤，这些定中心（12）和支撑元件（17）可通过快速紧固件更换和附接到基板/机床上。

公开(公告)号：US06736036B2

公开(公告)日：2004-05-18

申请号：US10425917

申请日：2003-04-30

Applicant: Nobutaka Chiba ,  Toshikazu Nanbu ,  Makoto Kano ,  Jun Watanabe ,  Kenshi Ushijima ,  Masahiro Omata ,  Minoru Oota ,  Hiroo Ueda ,  Manabu Wakuta

Inventor： Nobutaka Chiba ,  Toshikazu Nanbu ,  Makoto Kano ,  Jun Watanabe ,  Kenshi Ushijima ,  Masahiro Omata ,  Minoru Oota ,  Hiroo Ueda ,  Manabu Wakuta

IPC: B23B528

CPC classification number: F16H55/32 ,  F16H15/38 ,  F16H2055/325 ,  Y10T82/18 ,  Y10T82/2522

Abstract: A rotary assembly for traction drives, including a plurality of rolling elements having a rotation axis and traction contact surfaces around the rotation axis and associating with each other to transmit a motive power between the rolling elements via a traction oil film formed between the traction contact surfaces, in which at least one of the traction contact surfaces has a microstructure with irregularities which sizes are larger than a thickness of the traction oil film. The process for the traction contact surface is also disclosed.

Abstract translation: 一种用于牵引驱动的旋转组件，包括多个滚动元件，所述多个滚动元件具有围绕旋转轴线的旋转轴线和牵引接触表面，并且彼此相关联以通过形成在牵引接触表面之间的牵引油膜在滚动元件之间传递动力 其中至少一个牵引接触表面具有尺寸大于牵引油膜厚度的不规则的微结构。 还公开了牵引接触表面的过程。

公开(公告)号：US20030200846A1

公开(公告)日：2003-10-30

申请号：US10425917

申请日：2003-04-30

Applicant: NISSAN MOTOR CO., LTD.

Inventor： Nobutaka Chiba ,  Toshikazu Nanbu ,  Makoto Kano ,  Jun Watanabe ,  Kenshi Ushijima ,  Masahiro Omata ,  Minoru Oota ,  Hiroo Ueda ,  Manabu Wakuda

IPC: B23B005/28

CPC classification number: F16H55/32 ,  F16H15/38 ,  F16H2055/325 ,  Y10T82/18 ,  Y10T82/2522

Abstract: A rotary assembly for traction drives, including a plurality of rolling elements having a rotation axis and traction contact surfaces around the rotation axis and associating with each other to transmit a motive power between the rolling elements via a traction oil film formed between the traction contact surfaces, in which at least one of the traction contact surfaces has a microstructure with irregularities which sizes are larger than a thickness of the traction oil film. The process for the traction contact surface is also disclosed.

公开(公告)号：US20030066397A1

公开(公告)日：2003-04-10

申请号：US10253888

申请日：2002-09-25

Applicant: Joseph B. Willey

Inventor： Harold Newell ,  John Wiggins

IPC: B23B005/28

CPC classification number: G01B5/255 ,  B23B5/04 ,  B23B2235/045 ,  B23B2235/21 ,  Y10T82/10 ,  Y10T82/16016 ,  Y10T82/18 ,  Y10T82/21 ,  Y10T82/2502 ,  Y10T82/2571 ,  Y10T82/2572 ,  Y10T82/2595

Abstract: An on-car disc brake lathe system for resurfacing a brake disc of a vehicle brake assembly includes a lathe body with a driving motor, a cutting head operably attached to the lathe body, and a drive shaft. The system also includes an alignment system having an electronic controller, input and output adaptors configured to rotate with the drive shaft, one or more adjustment discs, and an adjustment mechanism. The adjustment disc is positioned between the input adaptor and the output adaptor, and an axial alignment of the input adaptor relative to the output adaptor may be varied based on a rotational orientation of the adjustment disc. The adjustment mechanism is configured to change the rotational orientation of the adjustment disc in response to commands from the electronic controller.