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公开(公告)号:US09914263B2
公开(公告)日:2018-03-13
申请号:US14472084
申请日:2014-08-28
申请人: Dukane IAS, LLC
发明人: Leo Klinstein , Paul Golko , William E. Jurkowski
CPC分类号: B29C65/08 , B23K20/10 , B29C66/1122 , B29C66/30223 , B29C66/41 , B29C66/45 , B29C66/71 , B29C66/73921 , B29C66/80 , B29C66/8122 , B29C66/8167 , B29C66/822 , B29C66/8224 , B29C66/8246 , B29C66/8322 , B29C66/847 , B29C66/9221 , B29C66/92211 , B29C66/9231 , B29C66/92431 , B29C66/92443 , B29C66/92445 , B29C66/92611 , B29C66/92921 , B29C66/932 , B29C66/934 , B29C66/93431 , B29C66/93441 , B29C66/9511 , B29C66/9513 , B29C66/9516 , B29C66/9592 , B29C66/961 , B29K2905/02 , B29K2069/00
摘要: An ultrasonic welding system includes a movable ultrasonic welding stack for applying vibrational energy to a workpiece. A motion control system controls the motion of the ultrasonic welding stack and one or more sensors sense a control variable and output a corresponding control signal. A controller provides control inputs, based on the control signal, to the motion control system and causes, following initiation of a welding operation, an automatic change of speed of motion of the ultrasonic welding stack. The automatic change of the speed is a function of at least one control variable until the control variable reaches a predetermined value.
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公开(公告)号:US20180057198A1
公开(公告)日:2018-03-01
申请号:US15245721
申请日:2016-08-24
申请人: Robert Bosch GmbH
发明人: Stephen Anderson , John Schmidt , John Konitzer
CPC分类号: B29C66/872 , B29C65/18 , B29C65/305 , B29C65/745 , B29C66/1122 , B29C66/4312 , B29C66/7373 , B29C66/81419 , B29C66/81427 , B29C66/81431 , B29C66/8242 , B29C66/8246 , B29C66/83221 , B29C66/849 , B29C66/8491 , B29C66/92311 , B29C66/9241 , B29C66/92451 , B29C66/92611 , B29C66/961 , B65B51/14 , B65B51/30 , B65B57/12
摘要: A product detection system includes a first frame piece configured to be coupled to a first sealing jaw of a sealing machine, a second frame piece configured to be coupled to a second sealing jaw of the sealing machine, a first detector bar slidably coupled to the first frame piece, a second detector bar slidably coupled to the second frame piece, a first linear actuator coupled to the first detector bar to move the first detector bar, and a second linear actuator coupled to the second detector bar to move the second detector bar. An encoder is coupled to the second detector bar to detect movement of the second detector bar. The first and second linear actuators are configured to move the first and second detector bars toward one another.
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公开(公告)号:US20160354858A1
公开(公告)日:2016-12-08
申请号:US15236607
申请日:2016-08-15
发明人: Pei-chung Wang , Susan M. Smyth , Zhongxia Liu
CPC分类号: B23K20/10 , B23K20/106 , B23K20/24 , B23K20/26 , B23K2103/42 , B29C65/08 , B29C65/82 , B29C65/8253 , B29C66/0342 , B29C66/1122 , B29C66/43 , B29C66/71 , B29C66/7212 , B29C66/727 , B29C66/7352 , B29C66/73774 , B29C66/7392 , B29C66/73921 , B29C66/742 , B29C66/81425 , B29C66/8322 , B29C66/83221 , B29C66/91221 , B29C66/91231 , B29C66/91951 , B29C66/92211 , B29C66/92311 , B29C66/92431 , B29C66/92445 , B29C66/92611 , B29C66/929 , B29C66/92921 , B29C66/9421 , B29C66/9441 , B29C66/949 , B29C66/9592 , B29C66/961 , B29C66/963 , B29C66/964 , B29K2105/08 , B29K2307/04 , B29K2077/00
摘要: Systems and methods to improve weld quality are described. For example, certain systems and methods described use weld quality monitoring as feedback to an ultrasonic welding process to improve weld quality. Still other systems and methods provide improvement to double sided and single sided ultrasonic welding through the use of selected multiple pulses.
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公开(公告)号:US09511574B2
公开(公告)日:2016-12-06
申请号:US14111548
申请日:2012-04-12
IPC分类号: B32B37/14 , B29C65/14 , B29C65/18 , B29C65/78 , B32B37/10 , B01L3/00 , B32B37/00 , B32B37/06 , B81C3/00 , B29C65/00 , B32B38/18 , B29L31/00
CPC分类号: B32B37/144 , B01J2219/00808 , B01L3/502707 , B01L2200/0689 , B01L2300/0816 , B29C65/1406 , B29C65/1432 , B29C65/1464 , B29C65/1467 , B29C65/18 , B29C65/7847 , B29C65/7876 , B29C66/0242 , B29C66/028 , B29C66/1122 , B29C66/45 , B29C66/53461 , B29C66/54 , B29C66/71 , B29C66/73112 , B29C66/73921 , B29C66/7465 , B29C66/8161 , B29C66/81811 , B29C66/8221 , B29C66/8242 , B29C66/8322 , B29C66/8324 , B29C66/91231 , B29C66/9141 , B29C66/91411 , B29C66/91421 , B29C66/91431 , B29C66/91445 , B29C66/91641 , B29C66/9221 , B29C66/9241 , B29C66/92445 , B29C66/92611 , B29C66/92653 , B29C66/92655 , B29C66/929 , B29C66/961 , B29L2031/756 , B32B37/0046 , B32B37/06 , B32B37/10 , B32B37/14 , B32B38/1858 , B32B2310/0831 , B81C3/001 , B81C2203/036 , B29K2083/00 , B29K2023/38 , B29K2033/12
摘要: Two workpieces composed of a resin workpiece and a resin workpiece, or composed of a resin workpiece and a glass substrate are bonded to each other such that troubles, such as an alignment shift and breakage etc. are not generated, while ensuring bonding uniformity. A first workpiece is placed on an inverting stage of an inverting stage unit, a second workpiece is placed on a work stage of a pressurizing stage unit, and UV light is radiated from a light irradiation unit. Then, the inverting stage is inverted 180°, the workpieces are overlapped each other on the work stage, and the workpieces are pressurized and pre-bonded to each other. Then, the workpieces in the pre-bonded state are transferred to a heating stage by a transfer means, the temperature of the workpieces is increased to a predetermined temperature by heating the workpieces, and the temperature is maintained until bonding is completed.
摘要翻译: 由树脂工件和树脂工件构成的两个由树脂工件和玻璃基板构成的工件彼此接合,从而在确保结合均匀性的同时不产生诸如取向偏移和断裂等的问题。 将第一工件放置在倒置级单元的翻转级上,将第二工件放置在加压级单元的工作台上,并从光照射单元辐射UV光。 然后,倒车台倒转180°,工件在工作台上重叠,工件相互加压并预先接合。 然后,通过转印装置将预接合状态的工件转移到加热台,通过加热工件将工件的温度升高到规定温度,并保持温度直到接合完成。
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公开(公告)号:US20150352778A1
公开(公告)日:2015-12-10
申请号:US14827455
申请日:2015-08-17
申请人: DUKANE CORPORATION
发明人: Leo Klinstein , Paul Golko , William E. Jurkowski
CPC分类号: B29C65/08 , B23K20/10 , B29C66/1122 , B29C66/30223 , B29C66/41 , B29C66/45 , B29C66/71 , B29C66/73921 , B29C66/80 , B29C66/8122 , B29C66/8167 , B29C66/822 , B29C66/8224 , B29C66/8246 , B29C66/8322 , B29C66/847 , B29C66/9221 , B29C66/92211 , B29C66/9231 , B29C66/92431 , B29C66/92443 , B29C66/92445 , B29C66/92611 , B29C66/92921 , B29C66/932 , B29C66/934 , B29C66/93431 , B29C66/93441 , B29C66/9511 , B29C66/9513 , B29C66/9516 , B29C66/9592 , B29C66/961 , B29K2905/02 , B29K2069/00
摘要: An ultrasonic welding system includes a motion control system that is coupled to and that causes controlled movement of an ultrasonic welding stack, in accordance with control inputs that are based on one or more control signals that are received from one or more sensors. The motion control system initiates a welding operation, subsequent to which an initial motion delay occurs until a predetermined condition is satisfied. Subsequently, in response to the predetermined condition being satisfied, the ultrasonic welding stack is caused to move in accordance with a weld profile. Subsequently, in response to an occurrence of a predetermined delay initiating condition, the ultrasonic welding stack is caused to stop motion and to maintain a stationary position. Subsequently, in response to an occurrence of a predetermined delay terminating condition, motion of the ultrasonic welding stack is resumed in accordance with the weld profile.
摘要翻译: 超声波焊接系统包括运动控制系统,该运动控制系统根据基于从一个或多个传感器接收的一个或多个控制信号的控制输入而耦合到超声波焊接叠层的受控移动。 运动控制系统启动焊接操作,接着在其中发生初始运动延迟,直到满足预定条件。 随后,响应于满足预定条件,使超声波焊接堆叠根据焊接轮廓移动。 随后,响应于预定延迟启动条件的发生,使超声波焊接堆栈停止运动并保持静止位置。 随后,响应于预定的延迟终止条件的发生,根据焊接轮廓恢复超声波焊接叠层的运动。
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公开(公告)号:US20140367018A1
公开(公告)日:2014-12-18
申请号:US14471895
申请日:2014-08-28
申请人: Dukane Corporation
发明人: Leo Klinstein , Paul Golko , William E. Jurkowski
CPC分类号: B29C65/08 , B23K20/10 , B29C66/1122 , B29C66/30223 , B29C66/41 , B29C66/45 , B29C66/71 , B29C66/73921 , B29C66/80 , B29C66/8122 , B29C66/8167 , B29C66/822 , B29C66/8224 , B29C66/8246 , B29C66/8322 , B29C66/847 , B29C66/9221 , B29C66/92211 , B29C66/9231 , B29C66/92431 , B29C66/92443 , B29C66/92445 , B29C66/92611 , B29C66/92921 , B29C66/932 , B29C66/934 , B29C66/93431 , B29C66/93441 , B29C66/9511 , B29C66/9513 , B29C66/9516 , B29C66/9592 , B29C66/961 , B29K2905/02 , B29K2069/00
摘要: An ultrasonic welding system includes a motion control system that is coupled to and that causes controlled movement of an ultrasonic welding stack, in accordance with control inputs that are based on one or more control signals that are received from one or more sensors. The motion control system initiates a welding operation, subsequent to which an initial motion delay occurs until a predetermined condition is satisfied. Subsequently, in response to the predetermined condition being satisfied, the ultrasonic welding stack is caused to move in accordance with a weld profile. Subsequently, in response to an occurrence of a predetermined delay initiating condition, the ultrasonic welding stack is caused to stop motion and to maintain a stationary position. Subsequently, in response to an occurrence of a predetermined delay terminating condition, motion of the ultrasonic welding stack is resumed in accordance with the weld profile.
摘要翻译: 超声波焊接系统包括运动控制系统,该运动控制系统根据基于从一个或多个传感器接收的一个或多个控制信号的控制输入而耦合到超声波焊接叠层的受控移动。 运动控制系统启动焊接操作,接着在其中发生初始运动延迟,直到满足预定条件。 随后,响应于满足预定条件,使超声波焊接堆叠根据焊接轮廓移动。 随后,响应于预定延迟启动条件的发生,使超声波焊接堆栈停止运动并保持静止位置。 随后,响应于预定的延迟终止条件的发生,根据焊接轮廓恢复超声波焊接叠层的运动。
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公开(公告)号:US08795453B2
公开(公告)日:2014-08-05
申请号:US13263773
申请日:2010-02-26
申请人: Juergen Ippers , Ulrich Wieduwilt
发明人: Juergen Ippers , Ulrich Wieduwilt
CPC分类号: B29C65/087 , B29C66/1122 , B29C66/4312 , B29C66/80 , B29C66/8161 , B29C66/8221 , B29C66/8223 , B29C66/82265 , B29C66/8227 , B29C66/83411 , B29C66/83511 , B29C66/9121 , B29C66/91231 , B29C66/92 , B29C66/9231 , B29C66/9241 , B29C66/92611 , B29C66/92653 , B29C66/92655 , B29C66/9516 , B29C66/961 , B65B51/225 , B65B51/26
摘要: A device and a method is proposed whereupon the device for processing a packing material using ultrasound comprises the following elements: at least one sonotrode (10), at least one anvil (12), whereupon a gap is constructed between sonotrode (10) and anvil (12) through which the packing material can be passed for the purpose of ultrasonically sealing a packing material, at least one adjustment means (50) that adjusts the gap (s) between sonotrode (10) and anvil (12), at least one generator (70) that changes an input voltage into an output voltage, which a converter (74) transforms into mechanical oscillations in order to generate ultrasonic oscillations on the sonotrode (10), whereupon a regulation device and/or control device (78) is arranged to regulate or control the gap (s) between sonotrode (10) and anvil (12) depending on at least one electric variable (P,E,R) that acts on the sonotrode (10).
摘要翻译: 提出了一种装置和方法,其中用于使用超声处理包装材料的装置包括以下元件:至少一个超声波发生器(10),至少一个砧座(12),因此在超声波发生器(10)和砧座之间构造间隙 (12),为了超声波地密封包装材料,可以通过包装材料的至少一个调节装置(50),调节装置(50)调节超声焊丝(10)和砧座(12)之间的间隙,至少一个 发生器(70),其将输入电压改变成输出电压,转换器(74)转换成机械振荡,以便在超声波发生器(10)上产生超声波振荡,于是调节装置和/或控制装置(78)是 布置成根据作用在超声波发生器(10)上的至少一个电变量(P,E,R)来调节或控制超声焊丝(10)和砧座(12)之间的间隙。
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8.发明申请公开(公告)号:US20130316143A1
公开(公告)日:2013-11-28
申请号:US13899975
申请日:2013-05-22
发明人: John F. Budinscak, JR. , Jeffrey J. Van Sloun , Nikoi Annan , Roland R. Loh , Rodger D. Lightle
CPC分类号: B23C5/10 , B21D22/14 , B23C2226/62 , B23C2240/08 , B23P15/34 , B26D1/14 , B26D3/006 , B26D2001/002 , B26D2001/0033 , B29C53/18 , B29C65/02 , B29C65/1432 , B29C65/1454 , B29C65/1464 , B29C65/20 , B29C65/203 , B29C65/26 , B29C66/0222 , B29C66/1122 , B29C66/1142 , B29C66/435 , B29C66/45 , B29C66/71 , B29C66/723 , B29C66/727 , B29C66/73921 , B29C66/83413 , B29C66/8416 , B29C66/91411 , B29C66/91421 , B29C66/91431 , B29C66/91645 , B29C66/919 , B29C66/91921 , B29C66/91931 , B29C66/9241 , B29C66/92611 , B29C66/929 , B29C66/954 , B29C69/001 , B29C2793/009 , B29K2025/06 , B29K2105/043 , B29K2105/26 , B29K2995/0015 , B32B3/263 , B32B3/30 , B32B5/145 , B32B5/32 , B32B27/302 , B32B37/04 , B32B37/06 , B32B37/1054 , B32B38/10 , B32B38/1833 , B32B2266/0228 , B32B2272/00 , B32B2305/022 , B32B2307/304 , B32B2309/10 , B32B2309/105 , B32B2419/00 , Y10T428/24504
摘要: Thermally laminated foam boards, methods for making thermally laminated foam boards, apparatus for making thermally laminated foam boards, smaller foam pieces made from thermally laminated foam boards, methods for making smaller foam pieces from thermally laminated foam boards, parts made from thermally laminated foam boards, methods for making parts from thermally laminated foam boards, and tools for making parts from thermally laminated foam boards are disclosed. The thermally laminated foam boards are made by thermally bonding at least two polystyrene boards together.
摘要翻译: 热层压发泡板,制造热层压发泡板的方法,制造热层压发泡板的装置,由热层压泡沫板制成的较小泡沫片,由热层压发泡板制造较小泡沫片的方法,由热层压泡沫板制成的部件 公开了从热层压泡沫板制造零件的方法以及由热层压泡沫板制造零件的工具。 热层压泡沫板通过将至少两个聚苯乙烯板热粘合在一起而制成。
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公开(公告)号:US08557071B2
公开(公告)日:2013-10-15
申请号:US13266307
申请日:2010-04-26
申请人: Klaus Weiler
发明人: Klaus Weiler
IPC分类号: B32B37/00
CPC分类号: B29C65/08 , B29C66/43 , B29C66/4312 , B29C66/432 , B29C66/4322 , B29C66/80 , B29C66/8161 , B29C66/9121 , B29C66/91231 , B29C66/91421 , B29C66/91431 , B29C66/9161 , B29C66/92211 , B29C66/92431 , B29C66/92611 , B29C66/92613 , B29C66/92651 , B29C66/9512 , B29C66/9516 , B29C66/961 , B29L2031/7128 , B65B51/225 , B65B51/26
摘要: The present invention relates to an ultrasound welding device for welding material webs, for example, films, having an anvil (1) with an anvil welding surface, and a sonotrode (2) with a sonotrode welding surface, wherein the anvil is movable relative to the sonotrode. In order to provide an ultrasound welding device that reacts promptly to changes in material thickness and properties of the material to be welded, the invention proposes to provide a counterforce generator, which exerts a counterforce on the anvil in the direction of the sonotrode, if the anvil is moved out of a reference position away from the sonotrode.
摘要翻译: 本发明涉及一种用于焊接材料幅材的超声波焊接装置,例如具有砧座(1)和砧座焊接表面的薄膜,以及具有超声波焊接表面的超声波发生器(2),其中砧座相对于 超声波发生器 为了提供对焊接材料的材料厚度和性质的变化作出迅速反应的超声波焊接装置,本发明提出了一种反力发生器,其在砧座上沿着超声焊丝的方向施加反作用力,如果 砧座从参考位置移出远离超声波发生器。
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公开(公告)号:US20130134153A1
公开(公告)日:2013-05-30
申请号:US13750121
申请日:2013-01-25
申请人: Newfrey LLC
发明人: Klaus-Gisbert Schmitt , Andreas Becker , Reinhold Opper , Michael Schmidt , Reimar Saltenberger
IPC分类号: B23K37/04
CPC分类号: B23K37/04 , B29C65/34 , B29C65/3468 , B29C65/3476 , B29C65/3644 , B29C65/3676 , B29C65/44 , B29C65/46 , B29C65/7847 , B29C66/112 , B29C66/131 , B29C66/474 , B29C66/742 , B29C66/8161 , B29C66/81811 , B29C66/81812 , B29C66/8223 , B29C66/8227 , B29C66/8322 , B29C66/863 , B29C66/91212 , B29C66/91216 , B29C66/91221 , B29C66/91231 , B29C66/91421 , B29C66/91645 , B29C66/91653 , B29C66/91655 , B29C66/9231 , B29C66/9241 , B29C66/92445 , B29C66/92611 , B29C66/92921 , B29C66/9592 , B29C66/961 , B29C66/974 , B29K2101/12 , B29K2305/00 , B29L2031/7172 , Y10T156/10
摘要: A joining apparatus includes a joining tool on which a joining component is held and which moves the joining component in an axial direction to position a metal section of the joining component on a surface of the workpiece. A heating device is provided for heating the metal section of the joining component to integrally couple the metal section to the workpiece. A sensor is connected to the joining tool acting to determine a zero point defined when a joining surface of the metal section has reached the surface of the workpiece before the workpiece is axially deformed.
摘要翻译: 接合装置包括接合工具,接合部件保持在该接合工具上,并且使接合部件沿轴向移动,以将接合部件的金属部分定位在工件的表面上。 提供加热装置用于加热接合部件的金属部分以使金属部分整体地连接到工件。 传感器连接到接合工具,用于确定在工件轴向变形之前金属部分的接合表面到达工件表面时限定的零点。
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