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公开(公告)号:US11820084B2
公开(公告)日:2023-11-21
申请号:US17413702
申请日:2019-12-18
申请人: Cytiva Sweden AB
发明人: Hanish Lakhani , Preetam Hosamani , Nishu Garg , Bhaskaran Savarimuthu , Srihari Kannuri , Juzar Mazhar Ezzy , Ramu Balaguru
CPC分类号: B29C66/965 , B29C65/04 , B29C65/1425 , B29C65/16 , B29C65/8253 , B29C66/4312 , B29C66/73921 , B29C66/8322 , B29C66/857 , B29C66/861 , B29C66/91231 , B29C66/9221 , B29C66/9231 , B29C66/932 , B29C66/963 , B29C66/9672 , B29C66/9674 , B29C66/974
摘要: Disclosed is an automated method (54) which includes directing rays from a source (34) to a tube (38) disposed between relatively movable first and second sealing plates (20, 32), capturing an image (70) of at least a portion of the tube (38) by an image capturing device (26), and transferring the captured image (70) to a processing device (24). The method (54) also includes determining a plurality of tube parameters by the processing device (24) based on the captured image (70), using an image processing technique and determining a plurality of sealing parameters from a database (44) by the processing device (24) based on the determined plurality of tube parameters. Additionally, the method (54) includes controlling the drive unit (22) and a heater (36) by the processing device (24) influenced by the determined plurality of sealing parameters, to respectively compress the tube (36) and perform heat sealing of the tube (38).
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公开(公告)号:US20230356320A1
公开(公告)日:2023-11-09
申请号:US18026120
申请日:2021-09-14
申请人: Corebon AB
发明人: Kenneth Frogner
CPC分类号: B23K13/02 , B23K13/08 , B29C65/32 , B29C66/91653 , B29C66/9261 , B29C66/9241 , B29C66/965 , B29C66/721 , H05B6/06
摘要: A system for controlled induction welding of at least one weld seam area (A) of at least two surfaces of at least one workpiece is provided. The system comprises an inductor configured to be arranged in conjunction with the at least one workpiece, a processing means configured to generate an electromagnetic field by applying an alternating voltage to the inductor so as to inductively heat at least one of the surfaces so that the weld seam area (A) is welded together, simultaneously measure at least one parameter (P) of the at least one workpiece at least based on the generated electromagnetic field, detect a change of the at least one parameter (P), and determine a temperature estimation of the at least one workpiece based on said detected change.
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3.发明授权Apparatus and method for closed-loop control of laser welder for welding polymeric catheter components 有权激光焊接机用于焊接聚合物导管部件的闭环控制装置和方法公开(公告)号:US06858104B2
公开(公告)日:2005-02-22
申请号:US10059634
申请日:2002-01-28
申请人: Aiden Flanagan
发明人: Aiden Flanagan
IPC分类号: A61L29/00 , A61F2/958 , A61M25/16 , B23K26/00 , B23K26/03 , B29C35/08 , B29C65/00 , B29C65/16 , B29L23/00 , B32B31/28
CPC分类号: B23K26/034 , B23K26/03 , B29C65/1616 , B29C65/1619 , B29C65/1629 , B29C65/1635 , B29C65/1674 , B29C65/1687 , B29C66/1142 , B29C66/5221 , B29C66/53241 , B29C66/71 , B29C66/73921 , B29C66/74 , B29C66/742 , B29C66/7465 , B29C66/91216 , B29C66/91221 , B29C66/91411 , B29C66/91431 , B29C66/91443 , B29C66/91643 , B29C66/919 , B29C66/91951 , B29C66/94 , B29C66/9592 , B29C66/961 , B29C66/962 , B29C66/965 , B29C66/966 , B29C2035/0822 , B29L2031/7542 , B29L2031/7543 , B29K2021/003 , B29K2023/00 , B29K2023/0625 , B29K2023/0633 , B29K2023/065 , B29K2033/08 , B29K2033/12 , B29K2067/00 , B29K2067/003 , B29K2067/006 , B29K2075/00 , B29K2077/00 , B29K2096/005
摘要: A method for forming a fusion bond between polymeric materials. Preferably, a detector detects thermal radiation being emitted from a fusion bond site while a laser beam impinges on and heats at least a portion of the bond site. In an aspect of the present invention the detector can provide an electrical signal to a signal processor for controllably adjusting the laser beam power. In another aspect of the present invention, the electrical signal may be substantially correlated to the temperature of at least a region of the bond site. The present invention is also directed to an apparatus for forming a fusion bond between polymeric materials. The apparatus includes a workpiece support, a laser, a detector, and a signal processor. The workpiece support preferably positions a first and second polymeric body so that a fusion bond site is formed. The laser impinges on at least a portion of the fusion bond site such that it emits thermal radiation. The detector senses the thermal radiation and preferably provides a signal to the signal processor. In an aspect of the present invention, the signal processor controllably adjusts the power of the laser beam based on the signal provide by the detector.
摘要翻译: 一种在聚合材料之间形成熔接的方法。 优选地,检测器检测在激光束照射并且加热至少一部分粘结位点时从熔合位点发射的热辐射。 在本发明的一个方面,检测器可以向信号处理器提供电信号,以可控地调节激光束功率。 在本发明的另一方面,电信号可以与至少粘合部位的区域的温度基本相关。 本发明还涉及一种用于在聚合材料之间形成熔接的装置。 该装置包括工件支撑件,激光器,检测器和信号处理器。 工件支撑件优选地定位第一和第二聚合体,从而形成熔接部位。 激光器照射到融合键位置的至少一部分,使得其发射热辐射。 检测器感测热辐射,并且优选地向信号处理器提供信号。 在本发明的一个方面,信号处理器可以根据由检测器提供的信号可控地调节激光束的功率。
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4.发明授权Method and system for online quality monitoring and control of a vibration welding process 有权振动焊接过程在线质量监测与控制方法与系统公开(公告)号:US08702882B2
公开(公告)日:2014-04-22
申请号:US12898075
申请日:2010-10-05
申请人: Wayne W. Cai , Jeffrey A Abell , Jason C. H. Tang , Michael Anthony Wincek , Paul J Boor , Paul F. Spacher , Shixin Jack Hu
发明人: Wayne W. Cai , Jeffrey A Abell , Jason C. H. Tang , Michael Anthony Wincek , Paul J Boor , Paul F. Spacher , Shixin Jack Hu
IPC分类号: B32B41/00
CPC分类号: B23K31/12 , B23K20/10 , B23K20/26 , B29C65/06 , B29C65/08 , B29C65/081 , B29C66/1122 , B29C66/21 , B29C66/43 , B29C66/474 , B29C66/524 , B29C66/5326 , B29C66/73921 , B29C66/8167 , B29C66/91212 , B29C66/91216 , B29C66/91221 , B29C66/91231 , B29C66/9161 , B29C66/9221 , B29C66/9231 , B29C66/95 , B29C66/951 , B29C66/9513 , B29C66/9517 , B29C66/961 , B29C66/965
摘要: A method for monitoring and controlling a vibration welding system includes collecting sensory data during formation of a welded joint using sensors positioned with respect to welding interfaces of a work piece. A host machine extracts a feature set from a welding signature collectively defined by the sensory data, compares and correlates the feature set with validated information in a library, and executes a control action(s) when the present feature set insufficiently matches the information. A welding system includes a sonotrode, sensors, and the host machine. The host machine is configured to execute the method noted above.
摘要翻译: 一种用于监测和控制振动焊接系统的方法,包括使用相对于工件的焊接界面定位的传感器,在形成焊接接头期间收集感觉数据。 主机从由感官数据共同定义的焊接签名中提取特征集,将特征集与库中的验证信息进行比较并相关,并且当当前特征集合与信息不足时执行控制动作。 焊接系统包括超声波发生器,传感器和主机。 主机配置为执行上述方法。
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5.发明申请METHOD AND SYSTEM FOR ONLINE QUALITY MONITORING AND CONTROL OF A VIBRATION WELDING PROCESS 有权振动焊接工艺在线质量监测与控制方法与系统公开(公告)号:US20110108181A1
公开(公告)日:2011-05-12
申请号:US12898075
申请日:2010-10-05
申请人: Wayne W. Cai , Jeffrey A Abell , Jason C.H. Tang , Michael Anthony Wincek , Paul J Boor , Paul F. Spacher , Shixin Jack Hu
发明人: Wayne W. Cai , Jeffrey A Abell , Jason C.H. Tang , Michael Anthony Wincek , Paul J Boor , Paul F. Spacher , Shixin Jack Hu
CPC分类号: B23K31/12 , B23K20/10 , B23K20/26 , B29C65/06 , B29C65/08 , B29C65/081 , B29C66/1122 , B29C66/21 , B29C66/43 , B29C66/474 , B29C66/524 , B29C66/5326 , B29C66/73921 , B29C66/8167 , B29C66/91212 , B29C66/91216 , B29C66/91221 , B29C66/91231 , B29C66/9161 , B29C66/9221 , B29C66/9231 , B29C66/95 , B29C66/951 , B29C66/9513 , B29C66/9517 , B29C66/961 , B29C66/965
摘要: A method for monitoring and controlling a vibration welding system includes collecting sensory data during formation of a welded joint using sensors positioned with respect to welding interfaces of a work piece. A host machine extracts a feature set from a welding signature collectively defined by the sensory data, compares and correlates the feature set with validated information in a library, and executes a control action(s) when the present feature set insufficiently matches the information. A welding system includes a sonotrode, sensors, and the host machine. The host machine is configured to execute the method noted above.
摘要翻译: 一种用于监测和控制振动焊接系统的方法,包括使用相对于工件的焊接界面定位的传感器,在形成焊接接头期间收集感觉数据。 主机从由感官数据共同定义的焊接签名中提取特征集,将特征集与库中的验证信息进行比较并相关,并且当当前特征集合与信息不足时执行控制动作。 焊接系统包括超声波发生器,传感器和主机。 主机配置为执行上述方法。
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公开(公告)号:US07892372B2
公开(公告)日:2011-02-22
申请号:US11663752
申请日:2005-10-11
申请人: Edward W. Lee , Avraham Benatar , David Grewell
发明人: Edward W. Lee , Avraham Benatar , David Grewell
IPC分类号: B32B37/00
CPC分类号: B29C65/081 , B23K20/10 , B29C65/08 , B29C66/1122 , B29C66/342 , B29C66/41 , B29C66/43 , B29C66/45 , B29C66/721 , B29C66/723 , B29C66/72321 , B29C66/73754 , B29C66/7392 , B29C66/73921 , B29C66/7394 , B29C66/73941 , B29C66/81422 , B29C66/8242 , B29C66/8322 , B29C66/836 , B29C66/91216 , B29C66/91221 , B29C66/91411 , B29C66/91443 , B29C66/919 , B29C66/9192 , B29C66/91951 , B29C66/92211 , B29C66/9241 , B29C66/929 , B29C66/934 , B29C66/93431 , B29C66/939 , B29C66/949 , B29C66/9516 , B29C66/9517 , B29C66/954 , B29C66/9592 , B29C66/961 , B29C66/962 , B29C66/965 , B29C66/966 , B29K2101/10 , B29K2101/12 , B29K2105/06 , B29L2009/00
摘要: A method for ultrasonic debulking a composite laminate (105) includes the steps of defining a path (115) across the laminate, the path having a starting location and an ending location and applying a force (109) to and transmitting ultrasonic vibration (111) into the laminate along the path, beginning at the starting location and ending at the ending location. The method further includes determining a temperature of a surface (103, 123) of the laminate proximate to the path and varying at least one of an amplitude of the ultrasonic vibration, the applied force, a feed rate at which the force and the ultrasonic vibration are applied along the path, an angle at which the ultrasonic vibration is applied to the laminate, and an interval at which plies of the laminate are processed, based upon the determined temperature of the surface of the laminate.
摘要翻译: 一种用于复合层压板(105)的超声降解方法包括以下步骤:跨越层叠体限定路径(115),该路径具有起始位置和终止位置,并向其施加力(109)并传递超声波振动(111) 沿着路径进入层压板,从起始位置开始并在结束位置结束。 该方法还包括确定接近该路径的层压板的表面(103,123)的温度,并且改变超声波振动的幅度,所施加的力,力和超声波振动的进给速率中的至少一个 基于层压体的表面的确定的温度沿着路径施加超声波振动施加到层压体的角度以及层压体的层的处理间隔。
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7.发明授权Method of monitoring transverse sealing in a packaging unit for continuously forming sealed packages containing pourable food products 有权监测包装单元中的横向密封的方法,用于连续地形成包含可倾倒食品的密封包装公开(公告)号:US06732496B1
公开(公告)日:2004-05-11
申请号:US09622164
申请日:2000-08-14
申请人: Bo Wessman , Olof Tyllered , Antonio Melandri
发明人: Bo Wessman , Olof Tyllered , Antonio Melandri
IPC分类号: B65B5110
CPC分类号: B65B57/00 , B29C65/3656 , B29C65/3668 , B29C65/368 , B29C66/1122 , B29C66/4312 , B29C66/72321 , B29C66/72328 , B29C66/8122 , B29C66/8126 , B29C66/81427 , B29C66/81457 , B29C66/81811 , B29C66/8242 , B29C66/83221 , B29C66/83543 , B29C66/849 , B29C66/872 , B29C66/8748 , B29C66/9121 , B29C66/91212 , B29C66/91221 , B29C66/9131 , B29C66/91313 , B29C66/91315 , B29C66/9221 , B29C66/92311 , B29C66/92443 , B29C66/92921 , B29C66/944 , B29C66/949 , B29C66/954 , B29C66/9592 , B29C66/961 , B29C66/963 , B29C66/965 , B29K2995/0008 , B29L2031/7166 , B65B51/227 , B29K2821/00
摘要: The method is aimed at indirectly determining the energy absorbed by a conducting layer (5) forming part of a strip of packaging material (1) to be sealed transversely. The method is based on measuring parameters correlated with the power supplied by a current source (45) to the packaging material (1) during sealing, and with the temperature of the conducting layer (5). The temperature measurement takes into account the temperature of the product to be packed, the characteristics of the packaging material, and the characteristics of the mechanical sealing members; correct cutting of the packaging material after sealing is also determined; and the parameters are monitored by measuring associated quantities and by comparison with permissible values.
摘要翻译: 该方法的目的在于间接地确定由形成横向密封的包装材料(1)的一部分的导电层(5)吸收的能量。 该方法基于在密封期间测量与电流源(45)提供给包装材料(1)的功率相关的参数,以及导电层(5)的温度。 温度测量考虑了要包装的产品的温度,包装材料的特性以及机械密封件的特性; 也确定密封后正确切割包装材料; 并通过测量相关数量并与允许值进行比较来监测参数。
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公开(公告)号:US08172969B2
公开(公告)日:2012-05-08
申请号:US13013318
申请日:2011-01-25
申请人: Edward W. Lee , Avraham Benatar , David Grewell
发明人: Edward W. Lee , Avraham Benatar , David Grewell
IPC分类号: B32B37/00
CPC分类号: B29C65/081 , B23K20/10 , B29C65/08 , B29C66/1122 , B29C66/342 , B29C66/41 , B29C66/43 , B29C66/45 , B29C66/721 , B29C66/723 , B29C66/72321 , B29C66/73754 , B29C66/7392 , B29C66/73921 , B29C66/7394 , B29C66/73941 , B29C66/81422 , B29C66/8242 , B29C66/8322 , B29C66/836 , B29C66/91216 , B29C66/91221 , B29C66/91411 , B29C66/91443 , B29C66/919 , B29C66/9192 , B29C66/91951 , B29C66/92211 , B29C66/9241 , B29C66/929 , B29C66/934 , B29C66/93431 , B29C66/939 , B29C66/949 , B29C66/9516 , B29C66/9517 , B29C66/954 , B29C66/9592 , B29C66/961 , B29C66/962 , B29C66/965 , B29C66/966 , B29K2101/10 , B29K2101/12 , B29K2105/06 , B29L2009/00
摘要: A method for ultrasonic debulking a composite laminate includes the steps of defining a path across the laminate, the path having a starting location and an ending location and applying a force to and transmitting ultrasonic vibration into the laminate along the path, beginning at the starting location and ending at the ending location. The method further includes determining a temperature of a surface of the laminate proximate to the path and varying at least one of an amplitude of the ultrasonic vibration, the applied force, a feed rate at which the force and the ultrasonic vibration are applied along the path, an angle at which the ultrasonic vibration is applied to the laminate, and an interval at which plies of the laminate are processed, based upon the determined temperature of the surface of the laminate.
摘要翻译: 一种用于复合层压板的超声降解的方法包括以下步骤:限定穿过层压体的路径,该路径具有起始位置和终止位置,并且沿着该路径向起始位置开始施加力并将超声振动传递到层压板中 并结束于结束位置。 所述方法还包括确定靠近路径的层压体的表面的温度,并且改变超声波振动的振幅,所施加的力,施加力和超声波振动的进给速率中的至少一个沿路径 基于所确定的层压体表面的温度,对层叠体施加超声波振动的角度以及层压体的层的处理间隔。
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公开(公告)号:US20080314498A1
公开(公告)日:2008-12-25
申请号:US11663752
申请日:2005-10-11
申请人: Edward W. Lee , Avraham Benatar , David Grewell
发明人: Edward W. Lee , Avraham Benatar , David Grewell
IPC分类号: B29C65/08
CPC分类号: B29C65/081 , B23K20/10 , B29C65/08 , B29C66/1122 , B29C66/342 , B29C66/41 , B29C66/43 , B29C66/45 , B29C66/721 , B29C66/723 , B29C66/72321 , B29C66/73754 , B29C66/7392 , B29C66/73921 , B29C66/7394 , B29C66/73941 , B29C66/81422 , B29C66/8242 , B29C66/8322 , B29C66/836 , B29C66/91216 , B29C66/91221 , B29C66/91411 , B29C66/91443 , B29C66/919 , B29C66/9192 , B29C66/91951 , B29C66/92211 , B29C66/9241 , B29C66/929 , B29C66/934 , B29C66/93431 , B29C66/939 , B29C66/949 , B29C66/9516 , B29C66/9517 , B29C66/954 , B29C66/9592 , B29C66/961 , B29C66/962 , B29C66/965 , B29C66/966 , B29K2101/10 , B29K2101/12 , B29K2105/06 , B29L2009/00
摘要: A method for ultrasonic debulking a composite laminate (105) includes the steps of defining a path (115) across the laminate, the path having a starting location and an ending location and applying a force (109) to and transmitting ultrasonic vibration (111) into the laminate along the path, beginning at the starting location and ending at the ending location. The method further includes determining a temperature of a surface (103, 123) of the laminate proximate to the path and varying at least one of an amplitude of the ultrasonic vibration, the applied force, a feed rate at which the force and the ultrasonic vibration are applied along the path, an angle at which the ultrasonic vibration is applied to the laminate, and an interval at which plies of the laminate are processed, based upon the determined temperature of the surface of the laminate.
摘要翻译: 一种用于复合层压板(105)的超声降解方法包括以下步骤:跨越层叠体限定路径(115),该路径具有起始位置和终止位置,并向其施加力(109)并传递超声波振动(111) 沿着路径进入层压板,从起始位置开始并在结束位置结束。 该方法还包括确定接近该路径的层压板的表面(103,123)的温度,并且改变超声波振动的幅度,所施加的力,力和超声波振动的进给速率中的至少一个 基于层压体的表面的确定的温度沿着路径施加超声波振动施加到层压体的角度以及层压体的层的处理间隔。
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公开(公告)号:US20060174994A1
公开(公告)日:2006-08-10
申请号:US11274974
申请日:2005-11-16
申请人: Dawn White
发明人: Dawn White
CPC分类号: B23K20/10 , B29C64/141 , B29C64/40 , B29C65/085 , B29C66/83411 , B29C66/83413 , B29C66/91411 , B29C66/9161 , B29C66/9241 , B29C66/934 , B29C66/9516 , B29C66/963 , B29C66/965 , B29C66/966
摘要: Disclosed is method of enhancing bond quality in an ultrasonic consolidation process using a sonotrode having a power output level. The preferred embodiment includes the steps of inputting a plurality of process parameters associated with a localized geometry over which the ultrasonic consolidation is occurring, and varying the relationship between these parameters to control the power output level to optimize bond quality between layers of material as they are consolidated. The process parameters, alone or in combination, may include the speed of the consolidation; the amplitude of the ultrasonic energy; applied force; and/or temperature.
摘要翻译: 公开了使用具有功率输出电平的超声波发生器在超声波固结处理中提高键合质量的方法。 优选实施例包括以下步骤:输入与超声波固结发生的局部几何相关联的多个工艺参数,并且改变这些参数之间的关系以控制功率输出水平,以优化物料层之间的粘合质量 巩固 过程参数单独或组合可能包括合并速度; 超声能量的振幅; 施加力 和/或温度。
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