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    • 4. 发明授权
    • Apparatus and method for net shape finishing of gears
    • 齿轮网形精整装置及方法
    • US5221513A
    • 1993-06-22
    • US829187
    • 1992-01-31
    • Maurice F. AmateauG. Dwayne KidwellNagesh Sonti
    • Maurice F. AmateauG. Dwayne KidwellNagesh Sonti
    • B23P15/14C21D1/19C21D1/42C21D8/00C21D9/32
    • B23P15/14C21D8/00C21D9/32C21D1/19C21D1/42Y02P10/253
    • An apparatus is disclosed for performing thermomechanical processing of gears in which precise control of the thermal, metallurgical and mechanical action during the forming process is maintained. The apparatus comprises an induction heating system which reaustenitizes the surface of the gear with minimum decarburization, a material transfer system which provides timely operations on the work piece, tooling and fixture adjustments which provide accurate initial conditions for forming, and a process control architecture that provides the precise sequence and timing necessary to achieve metallurgically sound and dimensionally accurate gears. Using this invention the induction heating cycle can be controlled from the peak, average or minimum gear surface temperature detected with a high response optical pyrometer. An inert environment is maintained around the workpiece during the induction heating and transfer to quenching above the M.sub.s temperature. Both through-feed and in-feed motion are simultaneously controlled by load, position and velocity transducers which provide feedback information to a supervising microprocessor. This apparatus produces metallurgically sound and accurate gears.
    • 公开了一种用于执行齿轮的热机械加工的装置,其中保持了在成形过程期间对热,冶金和机械作用的精确控制。 该装置包括感应加热系统,其以最少的脱碳对齿轮的表面进行再励化,提供工件上的及时操作的材料输送系统,提供准确的成型初始条件的工具和夹具调整,以及提供 实现冶金声音和尺寸精确齿轮所需的精确顺序和时间。 使用本发明,感应加热循环可以由用高响应光学高温计检测的峰值,平均或最小齿轮表面温度来控制。 在感应加热期间,工件周围保持惰性环境,并转移到高于Ms温度的淬火。 通过进给和进给运动同时由负载,位置和速度传感器控制,该传感器向监控微处理器提供反馈信息。 该设备产生冶金声音和精确的齿轮。
    • 6. 发明授权
    • Apparatus and method for net shape finishing of gears
    • 齿轮网形精整装置及方法
    • US5656106A
    • 1997-08-12
    • US360506
    • 1994-12-21
    • Maurice F. AmateauG. Dwayne KidwellNagesh Sonti
    • Maurice F. AmateauG. Dwayne KidwellNagesh Sonti
    • B23P15/14C21D1/19C21D1/42C21D8/00C21D9/32
    • B23P15/14C21D8/00C21D9/32C21D1/19C21D1/42Y02P10/253
    • An apparatus is disclosed for performing thermomechanical processing of gears in which precise control of the thermal, metallurgical and mechanical action during the forming process is maintained. The apparatus comprises an induction heating system which reaustenitizes the surface of the gear with minimum decarburization, a material transfer system which provides timely operations on the work piece, tooling and fixture adjustments which provide accurate initial conditions for forming, and a process control architecture that provides the precise sequence and timing necessary to achieve metallurgically sound and dimensionally accurate gears. The induction heating cycle can be controlled from the peak, average or minimum gear surface temperature detected with a high response optical pyrometer. An inert environment is maintained around the workpiece during the induction heating and transfer to quenching above the M.sub.s temperature. Both through-feed and in-feed motion are simultaneously controlled by load, position and velocity transducers which provide feedback information to a supervising microprocessor. This apparatus produces metallurgically sound and accurate gears.
    • 公开了一种用于执行齿轮的热机械加工的装置,其中保持了在成形过程期间对热,冶金和机械作用的精确控制。 该装置包括感应加热系统,其以最少的脱碳对齿轮的表面进行再励化,提供工件上的及时操作的材料输送系统,提供准确的成型初始条件的工具和夹具调整,以及提供 实现冶金声音和尺寸精确齿轮所需的精确顺序和时间。 感应加热循环可以用高响应光学高温计检测的峰值,平均或最小齿轮表面温度进行控制。 在感应加热期间,工件周围保持惰性环境,并转移到高于Ms温度的淬火。 通过进给和进给运动同时由负载,位置和速度传感器控制,该传感器向监控微处理器提供反馈信息。 该设备产生冶金声音和精确的齿轮。
    • 7. 发明授权
    • Induction heating system for a near net shaped gear blank
    • 感应加热系统,用于近网形齿轮坯料
    • US5391862A
    • 1995-02-21
    • US6901
    • 1993-01-21
    • Maurice F. AmateauG. Dwayne KidwellNagesh Sonti
    • Maurice F. AmateauG. Dwayne KidwellNagesh Sonti
    • B23P15/14C21D1/19C21D1/42C21D8/00C21D9/32H05B6/08
    • B23P15/14C21D8/00C21D9/32C21D1/19C21D1/42Y02P10/253
    • An apparatus is disclosed for performing thermomechanical processing of gears in which precise control of the thermal, metallurgical and mechanical action during the forming process is maintained. The apparatus comprises an induction heating system which reaustenitizes the surface of the gear with minimum decarburization, a material transfer system which provides timely operations on the work piece, tooling and fixture adjustments which provide accurate initial conditions for forming, and a process control architecture that provides the precise sequence and timing necessary to achieve metallurgically sound and dimensionally accurate gears. Using this invention the induction heating cycle can be controlled from the peak, average or minimum gear surface temperature detected with a high response optical pyrometer. An inert environment is maintained around the workpiece during the induction heating and transfer to quenching above the M.sub.s temperature. Both through-feed and in-feed motion are simultaneously controlled by load, position and velocity transducers which provide feedback information to a supervising microprocessor. This apparatus produces metallurgically sound and accurate gears.
    • 公开了一种用于执行齿轮的热机械加工的装置,其中保持了在成形过程期间对热,冶金和机械作用的精确控制。 该装置包括感应加热系统,其以最少的脱碳对齿轮的表面进行再励化,提供工件上的及时操作的材料输送系统,提供准确的成型初始条件的工具和夹具调整,以及提供 实现冶金声音和尺寸精确齿轮所需的精确顺序和时间。 使用本发明,感应加热循环可以由用高响应光学高温计检测的峰值,平均或最小齿轮表面温度来控制。 在感应加热期间,工件周围保持惰性环境,并转移到高于Ms温度的淬火。 通过进给和进给运动同时由负载,位置和速度传感器控制,该传感器向监控微处理器提供反馈信息。 该设备产生冶金声音和精确的齿轮。
    • 8. 发明授权
    • Full form roll finishing technique
    • 全辊成型技术
    • US06779270B2
    • 2004-08-24
    • US10056928
    • 2002-01-24
    • Nagesh SontiSuren B. RaoJames V. Caldwell
    • Nagesh SontiSuren B. RaoJames V. Caldwell
    • B21D5328
    • B21H5/022Y10T29/49467Y10T29/49471Y10T29/49474
    • A full form net shape roll finished contacting machine element such as a gear or sprocket is produced from a near net shape workpiece of wrought or forged steel including teeth with an initial outer peripheral contoured surface, each having a tooth flank with a nominally involute surface and a root/fillet region with a trochoidal surface. A rolling die is rotatably supported on a first axis. With the workpiece rotatably supported on a parallel distant second axis, the rolling die is advanced in an in-feed direction to meshingly engage with the workpiece. The involute surface of each tooth of the rolling die engages the involute surface of a mating tooth of the workpiece and the tooth tip of the rolling die engaging the trochoidal root/fillet surface between adjacent mating teeth of the workpiece to effect material flow along the outer peripheral contoured surface. This process continues for all of the teeth of the workpiece.
    • 由锻造或锻造钢的近净形状工件制造出完整形状的网状轧辊成品接触机构元件,例如齿轮或链轮,其包括具有初始外周轮廓表面的齿,每个具有标称渐开线表面的齿面, 具有摆线表面的根/圆角区域。 滚动模具可旋转地支撑在第一轴线上。 随着工件可旋转地支撑在平行的远离的第二轴线上,轧制模具在进给方向上前进以与工件啮合地接合。 轧制模具的每个齿的渐开线表面与工件的配合齿的渐开线表面接合,并且轧制模具的齿顶接合工件的相邻配合齿之间的摆线根/圆角表面,以沿着外部的材料流动 周边轮廓表面。 对于工件的所有齿,该过程继续。
    • 9. 发明授权
    • Method for strengthening of rolling element bearings by thermal-mechanical net shape finish forming technique
    • 通过热机械网形成型技术加固滚动体轴承的方法
    • US06264768B1
    • 2001-07-24
    • US09298375
    • 1999-04-23
    • Nagesh SontiSuren B. Rao
    • Nagesh SontiSuren B. Rao
    • C21D110
    • C21D9/32C21D1/19C21D8/00C21D9/40
    • A method and apparatus disclosed for cost-effective net shape precision ausform finishing the engagement surfaces of ball and roller bearings, for enhancing the surface strength and durability of bearing inner and outer races. The method consists of induction heating to austenitize the contacting surface layers of rolling element bearing races, followed by martempering (or marquenching), and then net shape roll finishing of the induction heated contacting surface layers in the metastable austenitic condition to finished dimensional accuracy requirements, and finally cooling to martensite. The apparatus utilizes a fixed vertical through-feed axis for the workpiece bearing race with capability for rotation and linear up and down positioning motion, and two coordinated and controlled laterally-moving infeed axes for roll finishing tooling dies. For finishing of the outer contacting surfaces of the bearing inner races, two suitably contoured power-driven dies are arranged symmetrically on diametrically opposing sides of the workpiece. A dual but asymmetric tooling arrangement employs a suitably contoured power-driven finish tooling die is positioned for the internal roll finishing operation, while a plane cylindrically shaped idling support tooling die is located on the opposing side of the work region. The apparatus includes specialized contoured finishing tooling for bearing inner and outer race ausform finishing utilizing specially contoured cylindrical roll finishing tolling dies to facilitate infeed ausforming of bearing inner and outer races, the structure and mechanism for asymmetric mounting, powered drive and infeeding of the roll finishing die and the idling support die with respect to the bearing outer race.
    • 公开了一种用于成本有效的净形状精度的方法和装置,其完成了滚珠和滚子轴承的接合表面,用于增强轴承内外圈的表面强度和耐久性。 该方法包括感应加热以对滚动元件轴承座圈的接触表面层进行奥氏体化,随后进行碾磨(或淬火),然后在亚稳态奥氏体条件下对感应加热的接触表面层进行净形状辊轧完成尺寸精度要求, 最后冷却至马氏体。 该设备利用固定的垂直通过进给轴线的工件轴承座圈,具有旋转和线性上下定位运动的能力,以及用于辊精加工模具的两个协调和受控的横向移动进给轴。 对于轴承内圈的外接触表面的精加工,两个适当轮廓的动力驱动模具对称地布置在工件的直径相对的侧面上。 双重但不对称的工具装置采用适当轮廓的动力精加工模具定位用于内辊精加工操作,而平面圆柱形空转支撑模具模具位于工作区域的相对侧上。 该设备包括专门的轮廓精加工工具,用于轴承内外轮廓整理,利用特殊轮廓的圆柱滚轮精加工收费模具,以方便轴承内外圈的进给,用于不对称安装,动力驱动和进料辊整理的结构和机构 模具和相对于轴承外圈的空转支撑模具。