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公开(公告)号:US06637584B2
公开(公告)日:2003-10-28
申请号:US09964760
申请日:2001-09-28
申请人: Shigeki Takahashi , Nihei Kaishita , Akira Nemoto
发明人: Shigeki Takahashi , Nihei Kaishita , Akira Nemoto
IPC分类号: B65G2504
CPC分类号: B65G47/1407 , B65G25/06 , B65G27/12 , H05K13/028
摘要: A component carrying device has a simple constitution, and is capable of lining up components and carrying them in one direction with high reliability. The device comprises a guide groove for lining up components into one line and guiding them; a carrying member, provided on the bottom face of the guide groove, which can move forward and backward along the direction of the groove; and driving means, for driving the carrying member forward and backward at a higher speed when moving backward than when moving forward. The speed of the carrying member when moving forward is a speed at which a predetermined sustained frictional force acts between the carrying member and the components, which are mounted on the top face of the carrying member; and the speed of the carrying member when moving backward is a speed at which the frictional force between the carrying member and the components mounted on its top face, substantially breaks, so that the components are carried forward by the difference in frictional force.
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公开(公告)号:US06189733B1
公开(公告)日:2001-02-20
申请号:US09358428
申请日:1999-07-22
申请人: Akira Nemoto , Shigeki Takahashi , Nihei Kaishita
发明人: Akira Nemoto , Shigeki Takahashi , Nihei Kaishita
IPC分类号: B23Q712
CPC分类号: H05K13/028
摘要: A component feeder minimizes damage to chip components and efficiently discharges chip components aligned in a line. A bulk case is attached on the top portion of an external storage housing capable of being supplied with a large number of chip components. A predetermined number of the chip components is supplied at a time from the external storage housing to an inner housing of a component storage housing via a supplying path. The chip components in the inner housing enter into the outer housing from the reception inlet via a guide path by being scooped up by pockets in accordance with rotation of a rotary drum. The chip components are dropped into an aligning groove to be aligned and are discharged aligned in a line via a gate and a discharge path. The chip components slide down on the aligning groove to be discharged to a discharge path, via the gate, aligned in a line. Since excess components in the outer housing are returned to the inner housing via the return path by raking them up by a raking-up portion formed in the rotary drum, the number of chip components in the outer housing is small, resulting in maintaining increased alignment efficiency.
摘要翻译: 元件馈线最大限度地减少了芯片组件的损坏,并有效地排放了一条线对齐的芯片组件。 散装壳体附着在能够供应大量芯片部件的外部存储壳体的顶部上。 预定数量的芯片部件经由供给路径一次从外部存储壳体供给到部件储存壳体的内部壳体。 内壳体中的芯片部件通过根据旋转滚筒的旋转而由凹槽舀取而通过引导路径从接收入口进入外壳体。 芯片部件落入对准槽中以对准,并且经由栅极和放电路径排列成一行。 芯片部件在对准槽上向下滑动,通过门排列到排出路径,排成一行。 由于外壳中的多余部件经由返回路径通过由形成在旋转滚筒中的上升部分向上突出而返回到内壳体,所以外壳体中的芯片部件的数量小,导致维持增加的对准 效率。
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公开(公告)号:US6152671A
公开(公告)日:2000-11-28
申请号:US434164
申请日:1999-11-04
申请人: Nihei Kaishita , Akira Nemoto , Shigeki Takahashi
发明人: Nihei Kaishita , Akira Nemoto , Shigeki Takahashi
CPC分类号: H05K13/021 , Y10T29/53178 , Y10T29/53261
摘要: A component conveying device is provided in which a lead component and a second component behind the lead component can be reliably separated and the lead component can be readily extracted with reduced error. The device includes a guide groove 6 for guiding and aligning the components P in a single line. A blade 5 is provided which moves back and forth in the groove. The components P are conveyed forward by moving the blade 5 forward at a low speed and then moving the blade backward in a high speed. A first stopper 31 holds a second component at the distal end of the device. A second stopper 41 stops the lead component P1 from moving back and forth, and a shutter 43 includes a magnet 49 for attracting the lead component. The second stopper is provided at a distal end portion of the guide groove 6. After the first stopper 31 holds the second component P2, the blade 5 moves forward by a predetermined distance, thereby conveying the lead component P1 forward with the blade 5 while the lead component P1 is attracted and held by the magnet 49 of the shutter 43. Thus, the lead component P1 is separated from the second component P2. Further, extraction of the lead component can be made easier by pulling the magnet 49 away from the lead component P1 just before the completion of the forward movement of the blade 5.
摘要翻译: 提供一种部件传送装置,其中可以可靠地分离引导部件后面的引导部件和第二部件,并且可以容易地以较小的误差提取引导部件。 该装置包括用于在单线中引导和对准组件P的引导槽6。 设置有在槽内前后移动的叶片5。 通过以低速向前移动叶片5然后高速地将叶片向后移动,将部件P向前方传送。 第一止动件31在装置的远端处保持第二部件。 第二止动件41阻止引导部件P1来回移动,并且挡板43包括用于吸引引导部件的磁体49。 第二止动件设置在引导槽6的远端部分。在第一止动件31保持第二部件P2之后,刀片5向前移动预定距离,从而将引导部件P1向前传送到刀片5,同时 引导部件P1被活门43的磁体49吸引并保持。因此,引导部件P1与第二部件P2分离。 此外,在叶片5的向前移动完成之前,通过将磁体49远离引导部件P1,可以更容易地提取引导部件。
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公开(公告)号:US06685052B1
公开(公告)日:2004-02-03
申请号:US09684676
申请日:2000-10-11
IPC分类号: B23Q712
CPC分类号: B65G47/1428 , H05K13/022
摘要: A feed lever is lowered, correspondingly to the load input of a chip mounter. A rotary drum is intermittently moved through a conversion mechanism, intermittently in one direction. Chip components placed in a component accommodation chamber are aligned and discharged. When a rotation resistance larger than a predetermined value acts, a belt is slid, and breaking of a chip component is prevented.
摘要翻译: 相应于芯片安装机的负载输入,进给杆下降。 旋转滚筒在一个方向间歇地间歇地移动通过转换机构。 放置在部件容纳室中的芯片部件对齐并排出。 当大于预定值的旋转阻力作用时,皮带滑动,并且防止了切屑部件的断裂。
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公开(公告)号:US06513644B1
公开(公告)日:2003-02-04
申请号:US09109407
申请日:1998-07-02
申请人: Shigeki Takahashi , Nihei Kaishita
发明人: Shigeki Takahashi , Nihei Kaishita
IPC分类号: B65G4714
CPC分类号: H05K13/003
摘要: A subject part-aligning apparatus has a simple structure and causes less damage to chip parts, and operates well even if a chip discharge passage thereof is clogged or overflows with the chip parts. The apparatus has a part-holding chamber for accommodating a number of chip parts. An arc-shaped chute groove is formed in the inner surface of the bottom of the part-holding chamber to orient the chip parts in a given direction and to slidably guide the chips. A gate port is formed at the lower end of the chute groove to permit the chip parts sliding downward in a given orientation along the chute groove to pass in series (e.g., one by one). The discharge passage is formed to be tangential to the chute groove to align the passed chip parts in a line and to discharge the chip parts. A rotary impeller having blades is mounted in the part-holding chamber. The blades urge any chip part halted in an abnormal orientation in the gate port toward a direction opposite to the direction in which the chips are discharged.
摘要翻译: 对象零件调整装置具有简单的结构,对芯片部件造成的损坏较小,即使其芯片排出通道堵塞或芯片部件溢出,也能够良好地运行。 该装置具有容纳多个芯片部件的部分保持室。 在所述部件保持室的底部的内表面中形成弧形斜槽,以沿着给定方向定位所述芯片部件,并且可滑动地引导所述芯片。 门槽口形成在斜槽槽的下端,以允许芯片部件沿着斜槽沿给定方向向下滑动以串联(例如一个接一个地)通过。 排出通道形成为与滑槽相切,以使经过的芯片部分在一条线上对准并排出芯片部件。 具有叶片的旋转叶轮安装在部分保持室中。 叶片促使任何芯片部分在门口中朝向与芯片排出方向相反的方向以异常方向停止。
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公开(公告)号:US06318592B1
公开(公告)日:2001-11-20
申请号:US09705841
申请日:2000-11-06
申请人: Shigeki Takahashi , Nihei Kaishita , Akira Nemoto
发明人: Shigeki Takahashi , Nihei Kaishita , Akira Nemoto
IPC分类号: B65G5900
CPC分类号: B65G47/1407 , B65G25/06 , B65G27/12 , H05K13/028
摘要: A component carrying device has a simple constitution, and is capable of lining up components and carrying them in one direction with high reliability. The device comprises a guide groove for lining up components into one line and guiding them; a carrying member, provided on the bottom face of the guide groove, which can move forward and backward along the direction of the groove; and driving means, for driving the carrying member forward and backward at a higher speed when moving backward than when moving forward. The speed of the carrying member when moving forward is a speed at which a predetermined sustained frictional force acts between the carrying member and the components, which are mounted on the top face of the carrying member; and the speed of the carrying member when moving backward is a speed at which the frictional force between the carrying member and the components mounted on its top face, substantially breaks, so that the components are carried forward by the difference in frictional force.
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公开(公告)号:US06318541B1
公开(公告)日:2001-11-20
申请号:US09287635
申请日:1999-04-07
申请人: Shigeki Takahashi , Nihei Kaishita , Akira Nemoto
发明人: Shigeki Takahashi , Nihei Kaishita , Akira Nemoto
IPC分类号: B65G2504
CPC分类号: B65G47/1407 , B65G25/06 , B65G27/12 , H05K13/028
摘要: A component carrying device has a simple constitution, and is capable of lining up components and carrying them in one direction with high reliability. The device comprises a guide groove for lining up components into one line and guiding them; a carrying member, provided on the bottom face of the guide groove, which can move forward and backward along the direction of the groove; and driving means, for driving the carrying member forward and backward at a higher speed when moving backward than when moving forward. The speed of the carrying member when moving forward is a speed at which a predetermined sustained frictional force acts between the carrying member and the components, which are mounted on the top face of the carrying member; and the speed of the carrying member when moving backward is a speed at which the frictional force between the carrying member and the components mounted on its top face, substantially breaks, so that the components are carried forward by the difference in frictional force.
摘要翻译: 部件承载装置具有简单的结构,并且能够以高可靠性在一个方向上排列组件并携带它们。 该装置包括用于将部件排列成一条线并引导它们的引导槽; 一个承载构件,设置在引导槽的底面上,该承载构件能够沿着槽的方向前后移动; 以及驱动装置,用于当向后移动时以比向前移动时以更高的速度向前和向后驱动承载构件。 承载构件向前移动的速度是在承载构件和安装在承载构件的顶面上的构件之间作用预定的持续摩擦力的速度; 并且当向后移动时承载构件的速度是承载构件和安装在其顶面上的部件之间的摩擦力基本上断裂的速度,使得通过摩擦力的差异将部件向前延伸。
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公开(公告)号:US06209713B1
公开(公告)日:2001-04-03
申请号:US09339040
申请日:1999-06-23
申请人: Shigeki Takahashi , Nihei Kaishita , Akira Nemoto
发明人: Shigeki Takahashi , Nihei Kaishita , Akira Nemoto
IPC分类号: B65G2504
CPC分类号: B65G25/04
摘要: A part transfer apparatus includes a guide groove for aligning and guiding parts, a blade placed at the bottom of the guide groove so as to move forward and backward in the direction of the groove, and a driving device for reciprocally driving the blade so that the speed of backward movement of the blade is higher than the speed of forward movement. The part transfer apparatus conveys the parts forward by using the difference in frictional force. The driving device includes a cam, and a cam lever having a cam follower in contact with the peripheral surface of the cam. The rear end of the blade is in contact with the front side of the cam lever. Since the rotational motion of the cam is converted into the pivotal motion of the cam lever, and further into the reciprocating motion of the blade, vertical force hardly acts on the blade, and vertical vibration of the blade is inhibited. This makes it possible to prevent parts laid on the blade from being lifted and popped off, and to thereby stably transfer the parts.
摘要翻译: 部件传送装置包括用于对准和引导部件的引导槽,设置在引导槽的底部以沿着槽的方向前后移动的刀片,以及用于往复驱动刀片的驱动装置, 叶片向后运动的速度高于向前运动的速度。 部件传送装置通过使用摩擦力的差异将部件向前传送。 驱动装置包括凸轮和具有与凸轮的周面接触的凸轮从动件的凸轮杆。 叶片的后端与凸轮杆的前侧接触。 由于凸轮的旋转运动被转换成凸轮杆的枢转运动,并且进一步转动到叶片的往复运动中,所以垂直力几乎不作用在叶片上,并且叶片的垂直振动被抑制。 这使得可以防止放置在刀片上的部件被提起并弹出,从而稳定地转移部件。
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公开(公告)号:US6019212A
公开(公告)日:2000-02-01
申请号:US102877
申请日:1998-06-24
申请人: Shigeki Takahashi , Nihei Kaishita
发明人: Shigeki Takahashi , Nihei Kaishita
CPC分类号: H05K13/028
摘要: A part-aligning apparatus is provided which is not overly complex in structure, which reduces the damage to chip parts, and which operates well even if its chip discharge passage is clogged or overflows. The apparatus has a part-holding chamber for accommodating a number of chip parts. The chamber is formed between a stationary drum and a rotary drum. The rotary drum has an annular portion forming an outer wall of the part-holding chamber. An arc-shaped chute groove is formed in the inner surface of the annular portion. At least one gate hole extends through the annular portion and is in communication with the chute groove. An arc-shaped guide groove corresponding in position to the outer opening of the gate hole is formed in the inner surface of the stationary drum. A discharge passage is formed at the lower end of the guide groove. The rotary drum is rotated to align the chip parts and to deliver the chip parts into the discharge passage via the chute groove, the gate hole and guide groove.
摘要翻译: 提供了一种结构不过分复杂的部件对齐装置,其减少了对芯片部件的损坏,并且即使其芯片排出通道堵塞或溢出也能够良好地运行。 该装置具有容纳多个芯片部件的部分保持室。 腔室形成在固定鼓和旋转鼓之间。 旋转鼓具有形成部分保持室的外壁的环形部分。 在环状部的内表面形成有弧形的斜槽。 至少一个门孔延伸穿过环形部分并且与滑槽沟槽连通。 在静止鼓的内表面上形成有与门孔的外部开口相对应的弧形引导槽。 排出通道形成在引导槽的下端。 旋转鼓旋转以对准芯片部分并且经由滑槽,门孔和引导槽将芯片部件输送到排出通道中。
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公开(公告)号:US09123996B2
公开(公告)日:2015-09-01
申请号:US13088480
申请日:2011-04-18
申请人: Yuya Dokai , Nihei Kaishita , Hiroshi Nonogaki , Ryohei Goto , Takahiro Yamaguchi , Kazuyuki Ikeda
发明人: Yuya Dokai , Nihei Kaishita , Hiroshi Nonogaki , Ryohei Goto , Takahiro Yamaguchi , Kazuyuki Ikeda
CPC分类号: H01Q1/38 , H01Q1/2225 , H01Q7/00
摘要: A wireless IC device includes a substantially rectangular parallelepiped dielectric body, a metal pattern that is provided on the surface of the dielectric body via a film and functions as a radiator, and a wireless IC element coupled to feeding portions of the metal pattern. The dielectric body has a laminated structure including a folded flexible dielectric layer. Surfaces of the dielectric layer which face each other after the dielectric layer has been folded are non-bonded surfaces.
摘要翻译: 无线IC器件包括基本上为长方体的电介体,金属图案,其通过膜设置在电介质体的表面上并用作散热器,以及耦合到金属图案的馈电部分的无线IC元件。 电介质体具有包括折叠的柔性介电层的叠层结构。 在电介质层折叠之后彼此面对的电介质层的表面是非接合表面。
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