公开(公告)号：US20100129169A1

公开(公告)日：2010-05-27

申请号：US12625149

申请日：2009-11-24

申请人： Masayuki Kyoi ,  Hideaki Onozuka ,  Koji Utsumi ,  Ippei Kono

发明人： Masayuki Kyoi ,  Hideaki Onozuka ,  Koji Utsumi ,  Ippei Kono

IPC分类号： B23B51/08

CPC分类号： B23B51/105 ,  B23B29/14 ,  B23B51/102 ,  B23B2220/08 ,  B23B2270/24 ,  Y10T407/1946 ,  Y10T408/34 ,  Y10T408/352

摘要： A corner portion working tool includes: a main body portion 4 having a space 5 through which a cutting fluid can pass; and a blade portion 8 that is provided in the main body portion 4 and can be displaced outwardly of the main body portion 4, wherein the blade portion 8 is displaced outwardly of the main body portion 4 according to a change in hydrostatic pressure of the cutting fluid having passed through the space 5, and the main body portion 4 is rotated to work a corner portion with the blade portion 8. Thus, the corner portion working tool brings the blade portion for deburring or corner portion shape forming into contact with only a hole end surface, does not reduce quality of an inner wall surface of a hole, does not select a proper rotation condition, and easily performs deburring or corner portion shape forming.

摘要翻译： 角部加工工具包括：主体部分4，其具有切割流体可以通过的空间5; 以及叶片部8，其设置在主体部4中，并且可以从主体部4向外移位，其中，叶片部8根据切割的静水压力的变化而偏离主体部4 已经通过空间5的流体和主体部分4转动以与刀片部分8一起工作。因此，角部加工工具使用于去毛刺或角部形状的刀片部分仅与 孔端面不会降低孔的内壁面的质量，不选择适当的旋转状态，容易进行去毛刺或角部形状的形成。

公开(公告)号：US08967927B2

公开(公告)日：2015-03-03

申请号：US12830121

申请日：2010-07-02

申请人： Hideaki Onozuka ,  Koji Utsumi ,  Toshio Yamanaka ,  Masayuki Kyoi

发明人： Hideaki Onozuka ,  Koji Utsumi ,  Toshio Yamanaka ,  Masayuki Kyoi

IPC分类号： B23Q11/00 ,  B23B47/00 ,  B23Q5/40

CPC分类号： B23Q11/0035 ,  B23Q5/40 ,  Y10T408/76 ,  Y10T409/304312 ,  Y10T409/304536 ,  Y10T409/304592 ,  Y10T409/30868 ,  Y10T409/309576

摘要： The table on which a workpiece is put can travel on a guide rail mechanism relative to a working head with a cutting tool mounted thereon. The table is connected through a nut to a ball screw part to move in an axial direction thereof as the ball screw part rotates. One end of the ball screw part is supported by a bearing and the other end is connected to a servomotor to be rotationally driven. A hollow part is provided in the table to receive therein a damper mechanism part, which comprises a spring, a damper, and a weight, the table and the weight being arranged to enable traveling separately on guide rails. Thereby, even when the workpiece is heavy, the weight can move relative to the table to effectively damp vibrations of the table in a feed direction.

摘要翻译： 放置工件的工作台可以相对于工作头在导轨机构上行进，并安装有切削工具。 当滚珠丝杠部分旋转时，工作台通过螺母连接到滚珠丝杠部分以沿轴向方向移动。 滚珠丝杠部分的一端由轴承支撑，另一端连接到伺服电机以进行旋转驱动。 在桌子中设置中空部分以容纳阻尼器机构部件，该减震器机构部件包括弹簧，阻尼器和重物，所述工作台和重物被配置成使得能够在导轨上单独行驶。 因此，即使当工件重时，重量可相对于工作台移动，以有效地减小工作台在进给方向上的振动。

公开(公告)号：US07810417B2

公开(公告)日：2010-10-12

申请号：US11640870

申请日：2006-12-19

申请人： Hideaki Onozuka ,  Masayuki Kyoi

发明人： Hideaki Onozuka ,  Masayuki Kyoi

IPC分类号： B23B3/00

CPC分类号： B23C3/00 ,  B23C2220/48 ,  Y10T82/10 ,  Y10T407/19 ,  Y10T409/307224

摘要： In a cutting method of an oblique surface by a rotary tool, for analyzing in advance a stability limit depth of cut with respect to a self-excited cutting vibration in consideration of a pick feed amount and a work oblique angle and reducing the number of steps necessary for preparation and correction of NC data, a tool diameter, the number of cutting teeth and dynamic stiffness of the rotary tool, a cutting force coefficient determined by a combination of the tool and work materials, dynamic stiffness of the work, the pick feed amount, oblique angles between the tool and the work and the like are used as input values, an initial value of the stability limit depth of cut is determined based on the input values, and calculation is performed based on the initial value. In this case, the initial value is compared with the calculated value, the initial value is corrected by a certain rule, and the calculation is repeated until both the initial value and the calculated value fall in a constant error range to thereby calculate the stability limit depth of cut during the oblique cutting.

摘要翻译： 在通过旋转工具的倾斜表面的切割方法中，考虑到拾取进给量和工件斜角，预先分析相对于自激切割振动的稳定极限切割深度并减少步骤数 NC数据的准备和校正，刀具直径，切削齿数和旋转刀具的动态刚度所需的切削力系数由刀具和加工材料的组合确定，动作刚度，加工动作 使用刀具和工件之间的倾斜角度等作为输入值，根据输入值确定稳定极限切削深度的初始值，并根据初始值进行计算。 在这种情况下，将初始值与计算值进行比较，初始值由某一规则进行校正，重复计算，直到初始值和计算值都落入恒定误差范围，从而计算稳定极限 斜切时切割深度。

公开(公告)号：US20070201956A1

公开(公告)日：2007-08-30

申请号：US11640870

申请日：2006-12-19

申请人： Hideaki Onozuka ,  Masayuki Kyoi

发明人： Hideaki Onozuka ,  Masayuki Kyoi

IPC分类号： B26D1/12

CPC分类号： B23C3/00 ,  B23C2220/48 ,  Y10T82/10 ,  Y10T407/19 ,  Y10T409/307224

摘要： In a cutting method of an oblique surface by a rotary tool, for analyzing in advance a stability limit depth of cut with respect to a self-excited cutting vibration in consideration of a pick feed amount and a work oblique angle and reducing the number of steps necessary for preparation and correction of NC data, a tool diameter, the number of cutting teeth and dynamic stiffness of the rotary tool, a cutting force coefficient determined by a combination of the tool and work materials, dynamic stiffness of the work, the pick feed amount, oblique angles between the tool and the work and the like are used as input values, an initial value of the stability limit depth of cut is determined based on the input values, and calculation is performed based on the initial value. In this case, the initial value is compared with the calculated value, the initial value is corrected by a certain rule, and the calculation is repeated until both the initial value and the calculated value fall in a constant error range to thereby calculate the stability limit depth of cut during the oblique cutting.

摘要翻译： 在通过旋转工具的倾斜表面的切割方法中，考虑到拾取进给量和工件斜角，预先分析相对于自激切割振动的稳定极限切割深度并减少步骤数 NC数据的准备和校正，刀具直径，切削齿数和旋转刀具的动态刚度所需的切削力系数由刀具和加工材料的组合确定，动作刚度，加工动作 使用刀具和工件之间的倾斜角度等作为输入值，根据输入值确定稳定极限切削深度的初始值，并根据初始值进行计算。 在这种情况下，将初始值与计算值进行比较，初始值由某一规则进行校正，重复计算，直到初始值和计算值都落入恒定误差范围，从而计算稳定极限 斜切时切割深度。

公开(公告)号：US07500812B2

公开(公告)日：2009-03-10

申请号：US11698109

申请日：2007-01-26

申请人： Hideaki Onozuka ,  Tomu Kato ,  Koji Utsumi

发明人： Hideaki Onozuka ,  Tomu Kato ,  Koji Utsumi

IPC分类号： G06F19/00

CPC分类号： G05B19/40937 ,  G05B2219/49237 ,  Y02P90/265 ,  Y10T409/303808

摘要： A method for calculating depth of cut without any milling self-excited vibration. An initial value for machining-surface-perpendicular depth of cut is set. A cutting start angle and cutting end angle for a cutting edge is obtained, based on the initial value. A machining-surface-perpendicular depth of cut that causes no self-excited vibration is calculated. The maximum depth of cut that corresponds to the stability limit of a milling self-excited vibration is calculated, by repeating the calculation while modifying the initial value until the difference between the initial value and the calculation result becomes the same as, or smaller than, a given value. As a result, the stability-limit depth of cut is preliminarily analyzed to the milling self-excited vibration in consideration of a pick feed, the gradient angle of a workpiece, and a machining-surface curvature radius, so that man-hours required for creation and modification of NC data can be reduced.

摘要翻译： 一种计算切削深度的方法，无需任何铣削自激振动。 设定加工面初始值 - 垂直切割深度。 基于初始值获得切削刃的切削起始角和切削端角。 计算出不产生自激振动的加工面垂直切削深度。 通过在修改初始值的同时重复计算直到初始值和计算结果之间的差值变得等于或小于该值，计算对应于铣削自激振动的稳定极限的最大切削深度， 一个给定的值。 结果，考虑到拾取进给，工件的倾斜角和加工表面曲率半径，预先分析了切削的稳定极限深度对于铣削自激振动，从而所需的工时 可以减少NC数据的创建和修改。

公开(公告)号：US20070179661A1

公开(公告)日：2007-08-02

申请号：US11698109

申请日：2007-01-26

申请人： Hideaki Onozuka ,  Tomu Kato ,  Koji Utsumi

发明人： Hideaki Onozuka ,  Tomu Kato ,  Koji Utsumi

IPC分类号： G06F19/00

CPC分类号： G05B19/40937 ,  G05B2219/49237 ,  Y02P90/265 ,  Y10T409/303808

摘要： There is provided a method for calculating depth of cut without any milling self-excited vibration, in consideration of a machining condition, the rigidity of a machining tool, the machinability of a material, and the like; in the method, an initial value for the machining-surface-perpendicular depth of cut is firstly set, by utilizing as input values the curvature radius of a machining surface, a tool radius, a pick feed, the gradient angle between the machining surface and a rotation axis of the tool, and the number of tool edges; a cutting start angle and a cutting end angle for a cutting edge is obtained, based on the initial value; the machining-surface-perpendicular depth of cut that causes no self-excited vibration is calculated; and the maximum depth of cut that corresponds to the stability limit of a milling self-excited vibration is calculated, by repeating the calculation while modifying the initial value until the difference between the initial value and the calculation result becomes the same as or smaller than a given value. As a result, in gradient-surface milling processing by use of a rotating tool, the stability-limit depth of cut is preliminarily analyzed to the milling self-excited vibration in consideration of a pick feed, the gradient angle of a workpiece, and a machining-surface curvature radius, so that the number of man-hours required for creation and modification of NC data can be reduced.

摘要翻译： 考虑加工条件，加工工具的刚性，材料的机械加工性等，提供了一种用于计算切削深度的方法，而不需要任何铣削自激振动。 在该方法中，首先通过利用加工面的曲率半径，刀具半径，拾取进给，加工面与切削面之间的倾斜角度作为输入值，设定加工面垂直切削深度的初始值 刀具的旋转轴线和刀刃数量; 基于初始值获得切削起始角度和切削刃的切削端角度; 计算不产生自激振动的加工面垂直切削深度; 并且通过在修改初始值的同时重复计算，直到初始值和计算结果之间的差值变得等于或小于一个来计算与铣削自激振动的稳定极限对应的最大切削深度 给定值。 结果，在通过使用旋转工具进行的梯度表面铣削加工中，考虑到拾取进给，工件的倾斜角和工件的倾斜角度，预先将切割的稳定极限深度分析为铣削自激振动 加工表面曲率半径，从而可以减少创建和修改NC数据所需的工时。

公开(公告)号：US20140123740A1

公开(公告)日：2014-05-08

申请号：US14124142

申请日：2012-05-07

申请人： Takehisa Yoshikawa ,  Hideaki Onozuka ,  Nobuaki Nakasu

发明人： Takehisa Yoshikawa ,  Hideaki Onozuka ,  Nobuaki Nakasu

IPC分类号： G01N19/08

CPC分类号： G01N19/08 ,  B23Q17/0961 ,  G05B19/406 ,  G05B2219/50197

摘要： Provided are a device and a method which determine a threshold value for detecting abnormality in a working path in which the cutting condition changes momentarily to thereby enable abnormality determination. Cutting force that becomes an abnormality determination value and threshold value information are previously calculated by cutting simulation, and a threshold value with which a comparison is to be made is determined from the position coordinates of a working machine which have been acquired during cutting and the measurement result of cutting force to thereby enable abnormality determination.

摘要翻译： 提供一种确定用于检测切割条件瞬间变化的工作路径中的异常的阈值的装置和方法，从而能够进行异常判定。 通过切割模拟预先计算成为异常判定值和阈值信息的切削力，根据在切削和测量中获取的作业机械的位置坐标来确定要进行比较的阈值 从而能够进行异常判定。

公开(公告)号：US07661912B2

公开(公告)日：2010-02-16

申请号：US11412985

申请日：2006-04-28

申请人： Hideaki Onozuka ,  Hayato Takahashi ,  Tomu Katou

发明人： Hideaki Onozuka ,  Hayato Takahashi ,  Tomu Katou

IPC分类号： B23B47/00

CPC分类号： B23B29/022 ,  B23C5/003 ,  B23C5/10 ,  Y10T408/76 ,  Y10T409/304312

摘要： Disclosed herein is the structure of a damper that is capable of improving the degree of freedom in design to optimize the damping characteristics of the damper and is capable of allowing the damper to be easily optimized and manufactured for a wide variety of dynamic stiffness characteristics of a tool body, and a manufacturing method using the same. A plurality of ring-shaped elastic members are disposed at opposite ends of a weight part. The weight part is connected to the tool body via the elastic members. Consequently, the weight part is moved relative to the tool body. The plurality of elastic members are mounted while spacers are disposed between the elastic members, and the spacers are moved with respect to the weight part in the axial direction thereof. A viscous fluid is filled in the region surrounded by the outer circumferential surfaces of the spacers, the elastic members, and the inner surface of a hollow part of the tool body. Consequently, it is possible to damp the relative movement of the weight part with respect to the tool body.

摘要翻译： 这里公开了一种阻尼器的结构，其能够提高设计自由度以优化阻尼器的阻尼特性，并且能够允许阻尼器容易地优化和制造，用于各种各样的动态刚度特性 工具主体以及使用其的制造方法。 多个环形弹性构件设置在重量部分的相对端。 重物部分经由弹性构件连接到工具主体。 因此，重量部分相对于工具主体移动。 多个弹性构件安装在间隔件设置在弹性构件之间，并且间隔件相对于配重部件在其轴向方向上移动。 在由间隔件的外周面，弹性部件和工具主体的中空部的内表面包围的区域填充粘性流体。 因此，可以减轻重量部件相对于工具主体的相对运动。

公开(公告)号：US20060275090A1

公开(公告)日：2006-12-07

申请号：US11412985

申请日：2006-04-28

申请人： Hideaki Onozuka ,  Hayato Takahashi ,  Tomu Katou

发明人： Hideaki Onozuka ,  Hayato Takahashi ,  Tomu Katou

IPC分类号： B23B29/02

CPC分类号： B23B29/022 ,  B23C5/003 ,  B23C5/10 ,  Y10T408/76 ,  Y10T409/304312

摘要： Disclosed herein is the structure of a damper that is capable of improving the degree of freedom in design to optimize the damping characteristics of the damper and is capable of allowing the damper to be easily optimized and manufactured for a wide variety of dynamic stiffness characteristics of a tool body, and a manufacturing method using the same. A plurality of ring-shaped elastic members are disposed at opposite ends of a weight part. The weight part is connected to the tool body via the elastic members. Consequently, the weight part is moved relative to the tool body. The plurality of elastic members are mounted while spacers are disposed between the elastic members, and the spacers are moved with respect to the weight part in the axial direction thereof. A viscous fluid is filled in the region surrounded by the outer circumferential surfaces of the spacers, the elastic members, and the inner surface of a hollow part of the tool body. Consequently, it is possible to damp the relative movement of the weight part with respect to the tool body.

摘要翻译： 这里公开了一种阻尼器的结构，其能够提高设计自由度以优化阻尼器的阻尼特性，并且能够允许阻尼器容易地优化和制造，用于各种各样的动态刚度特性 工具主体以及使用其的制造方法。 多个环形弹性构件设置在重量部分的相对端。 重物部分经由弹性构件连接到工具主体。 因此，重量部分相对于工具主体移动。 多个弹性构件安装在间隔件设置在弹性构件之间，并且间隔件相对于配重部件在其轴向方向上移动。 在由间隔件的外周面，弹性部件和工具主体的中空部的内表面包围的区域填充粘性流体。 因此，可以减轻重量部件相对于工具主体的相对运动。

公开(公告)号：US20140288882A1

公开(公告)日：2014-09-25

申请号：US14126198

申请日：2012-06-25

申请人： Nobuaki Nakasu ,  Hideaki Onozuka

发明人： Nobuaki Nakasu ,  Hideaki Onozuka

IPC分类号： G01M13/00

CPC分类号： G01M13/00 ,  G05B19/4065 ,  G05B2219/37242 ,  G05B2219/37355 ,  G05B2219/50203

摘要： A cutting state quantity caused by processing, in which a cutting tool is rotated, is measured, cutting force components containing a fundamental and harmonics are extracted from a measured signal, a threshold for abnormality determination is calculated on the basis of harmonic ratios that are ratios between the fundamental and harmonics of the cutting force components, a cutting force is calculated from the extracted cutting force components, and an abnormality is determined on the basis of the calculated cutting force and the calculated threshold.

摘要翻译： 测量由切割工具旋转的加工引起的切割状态量，从测量信号中提取包含基波和谐波的切割力分量，基于作为比率的谐波比计算异常判定的阈值 在切削力分量的基波和谐波之间，根据所提取的切削力分量计算出切削力，根据计算出的切削力和计算出的阈值来确定异常。