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1.发明申请METHOD FOR MACHINING CENTER HOLES OF FORGED ROTARY BODY AND SYSTEM FOR MACHINING CENTER HOLES OF FORGED ROTARY BODY 有权用于加工锻造旋转体的中心孔的方法和用于加工锻造身体的中心的系统公开(公告)号:US20150231710A1
公开(公告)日:2015-08-20
申请号:US14430189
申请日:2013-12-10
CPC分类号: B23B49/04 , B21C51/00 , B21J5/00 , B21K1/08 , B23B2215/20 , G01M1/24 , Y10T408/03 , Y10T408/05
摘要: Disclosed is a technique of achieving weight reduction of a forged rotary body while improving productivity of the forged rotary body. Temporary center holes are set for each of two or more samples extracted from one forging lot of a plurality of forged rotary bodies produced within a time period after a die misalignment adjustment through before a next die misalignment adjustment. Then, a virtual final shape of each of the samples is simulated on an assumption that machining is performed on the basis of the temporary center holes, and a rotational imbalance amount is calculated. Then, an average value of the rotational imbalance amounts in all of the samples in the same forging lot is calculated, and center-hole positions which allow the average value to become zero are set as center hole machining positions for all of the forged rotary bodies in a corresponding forging lot.
摘要翻译: 公开了一种在提高锻造旋转体的生产率的同时实现锻造旋转体的重量减轻的技术。 对于在通过在下一个模具未对准调整之前的模具未对准调整之后的时间段内产生的多个锻造旋转体的一个锻造批次中提取的两个或更多个样品中的每一个设置临时中心孔。 然后,假设基于临时中心孔进行加工,并且计算旋转不平衡量,来模拟每个样本的虚拟最终形状。 然后,计算同一锻造批次中所有样品的旋转不平衡量的平均值,将平均值为零的中心孔位置设定为所有锻造旋转体的中心孔加工位置 在相应的锻造批次。
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2.发明授权Method for machining center holes of forged rotary body and system for machining center holes of forged rotary body 有权用于加工锻造旋转体中心孔的方法和用于加工锻造旋转体中心孔的系统公开(公告)号:US09539651B2
公开(公告)日:2017-01-10
申请号:US14430189
申请日:2013-12-10
CPC分类号: B23B49/04 , B21C51/00 , B21J5/00 , B21K1/08 , B23B2215/20 , G01M1/24 , Y10T408/03 , Y10T408/05
摘要: Disclosed is a technique of achieving weight reduction of a forged rotary body while improving productivity of the forged rotary body. Temporary center holes are set for each of two or more samples extracted from one forging lot of a plurality of forged rotary bodies produced within a time period after a die misalignment adjustment through before a next die misalignment adjustment. Then, a virtual final shape of each of the samples is simulated on an assumption that machining is performed on the basis of the temporary center holes, and a rotational imbalance amount is calculated. Then, an average value of the rotational imbalance amounts in all of the samples in the same forging lot is calculated, and center-hole positions which allow the average value to become zero are set as center hole machining positions for all of the forged rotary bodies in a corresponding forging lot.
摘要翻译: 公开了一种在提高锻造旋转体的生产率的同时实现锻造旋转体的重量减轻的技术。 对于在通过在下一个模具未对准调整之前的模具未对准调整之后的时间段内产生的多个锻造旋转体的一个锻造批次中提取的两个或更多个样品中的每一个设置临时中心孔。 然后,假设基于临时中心孔进行加工,并且计算旋转不平衡量,来模拟每个样本的虚拟最终形状。 然后,计算同一锻造批次中所有样品的旋转不平衡量的平均值,将平均值为零的中心孔位置设定为所有锻造旋转体的中心孔加工位置 在相应的锻造批次。
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