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    • 1. 发明授权
    • Part-conveying apparatus
    • 部件输送设备
    • US06257394B1
    • 2001-07-10
    • US09343701
    • 1999-06-30
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • B65G4704
    • B65G27/12B65G47/1407B65G47/1428
    • A part-conveying apparatus allows parts to align and slide down a sloped chute without stacking therein. The part-conveying apparatus has a chute sloped to align and slide down parts, and a first mobile blade for slidably supporting the parts in a bottom section of the chute in the direction of the chute 9. The lower end section of the chute is connected to a horizontal guide path, and a second conveying blade movable forward and backward is provided in a bottom section of the guide path. The second conveying blade reciprocates in a manner so as to move backward faster than to move forward, thereby conveying forward the parts placed thereon. A projection in the lower end of the first mobile blade engages with a groove of the second mobile blade so as to cause fine movements of the first conveying blade in the direction of the chute in synchronous with back and forth movements of the second conveying blade 26. This allows the parts to side down.
    • 部件输送装置允许部件在没有堆叠的情况下对准和滑动倾斜的滑槽。 部件输送装置具有倾斜的倾斜部,用于对准和滑下部分;以及第一可动叶片,用于沿滑槽9的方向可滑动地支撑滑槽的底部中的部分。滑槽的下端部分连接 并且在引导路径的底部设置有可前后移动的第二输送叶片。 第二输送叶片以向前移动的方式往复运动,从而向前运送放置在其上的部件。 第一活动叶片的下端部的突出部与第二活动叶片的槽接合,从而与第二输送叶片26的前后运动同时地使第一输送叶片在滑槽的方向上进行精细的运动 这允许零件朝向侧面。
    • 2. 发明授权
    • Apparatus for transporting parts
    • 运输零件的装置
    • US06241461B1
    • 2001-06-05
    • US09307730
    • 1999-05-10
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • B65G2504
    • H05K13/028B65G25/06B65G27/12B65G47/1407
    • A part transporting apparatus comprises: a guiding groove for lining up parts in one row and guiding the parts; a transporting member which is provided at the base of the guiding groove and transports the parts in a forward direction by itself moving forwards and backwards along the groove; and a driving means for reciprocally driving the transporting member in the forward and backward directions; wherein the transporting member is advanced slowly and retracted rapidly, so as to transport the parts forwards. Provided to this arrangement are: a second stopper which operates so as to open and close in the width direction of the guiding groove, and hold the second part from the front of the row of parts; and a movable first stopper which stops the first part at the tip of the guiding groove; wherein the first stopper is moved forwards synchronously with the transporting member immediately prior to completion of the forward movement of the transporting member, thereby separating the first part in the row from the second part. The first stopper retreats following the retreat of the transporting member. Such an arrangement provides for an apparatus for transporting parts, wherein the first part and second part can be separated in a sure manner even in the event that the parts are non-magnetic material, wherein ease of extracting of the first part is facilitated, and wherein parts can be supplied in a sure manner even in the event that an extracting failure occurs.
    • 一种部件传送装置包括:引导槽,用于排列一排中的部件并引导部件; 传送构件,其设置在引导槽的基部并通过其沿着槽向前和向后沿向前方向传送部件; 以及用于沿前后方向往复驱动传送部件的驱动装置; 其中传送构件缓慢前进并且迅速地缩回,以便将部件向前运送。 提供这样的结构是:第二止动件,其沿着导向槽的宽度方向开闭,并将第二部分从该列的前部保持; 以及可移动的第一止动件,其将所述第一部分停止在所述引导槽的末端; 其中,所述第一止动件在所述输送构件的向前移动完成之前立即与所述输送构件同步向前移动,从而将所述行中的所述第一部分与所述第二部分分离。 第一个塞子在运送构件撤退后撤退。 这种布置提供了用于运输部件的装置,其中即使在部件是非磁性材料的情况下,第一部分和第二部分也可以以可靠的方式分离,其中易于提取第一部分的方便,以及 即使在提取失败的情况下也可以以可靠的方式供给部件。
    • 3. 发明授权
    • Apparatus for transporting parts
    • 运输零件的装置
    • US06375406B1
    • 2002-04-23
    • US09307773
    • 1999-05-10
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • B65G5900
    • B65G25/06B65G27/12B65G47/1407H05K13/028
    • A part transporting apparatus comprises: a guiding groove for lining up parts in one row and guiding the parts; a transporting member which is provided at the base of the guiding groove and transports the parts in a forward direction by itself moving forwards and backwards along the groove; and a driving means for reciprocally driving the transporting member in the forward and backward directions; wherein the transporting member is advanced slowly and retracted rapidly, so as to transport the parts forwards. Provided to this arrangement are: a stopper which operates so as to open and close in the width direction of the guiding groove, and hold the second part from the front of the row of parts being transported on the upper plane of the transporting member; and a synchronizing means for opening and closing the stopper synchronously with the reciprocal forward and backward movement of the transporting member; wherein, once the stopper holds the second part, the transporting member further moves forward, thereby separating the first part in the row from the second part. Such an arrangement provides for an apparatus for transporting parts, wherein the first part and second part can be separated in a sure manner even in the event that the parts are non-magnetic material, and wherein ease of extracting of the first part is facilitated.
    • 一种部件传送装置包括:引导槽,用于排列一排中的部件并引导部件; 传送构件,其设置在引导槽的基部并通过其沿着槽向前和向后沿向前方向传送部件; 以及用于沿前后方向往复驱动传送部件的驱动装置; 其中传送构件缓慢前进并且迅速地缩回,以便将部件向前运送。 提供这样一种装置:一个在引导槽的宽度方向上打开和关闭的止动器,并且从传送部件的上平面上被传送的部分行的前部保持第二部分; 以及同步装置,用于与传送构件的往复向前和向后运动同步地打开和关闭挡块; 其中,一旦止动器保持第二部分,传送部件进一步向前移动,从而将行中的第一部分与第二部分分离。 这种布置提供了用于输送部件的装置,其中即使在部件是非磁性材料的情况下,第一部分和第二部分也可以以可靠的方式分离,并且其中容易提取第一部分。
    • 4. 发明授权
    • Component feeder
    • 组件馈线
    • US6161676A
    • 2000-12-19
    • US345960
    • 1999-07-01
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • B65G47/14H05K13/02B65G47/24
    • H05K13/028
    • A component feeder is provided in which damage to chip components is minimized, being capable of efficiently discharging chip components aligned in a line. A bulk case is attached on the top portion of an outer storage housing capable of being supplied by a large number of chip components. Chip components are supplied from the outer storage housing to an inner housing of a component-storage housing via a supplying path. A predetermined number of the chip components in the inner housing is fed at a time to the outer housing via a communicating path in accordance with rotation of a rotary drum so as to be dropped into an aligning groove and aligned by a lug member of the rotary drum. The number of components in the outer housing is reduced, resulting in high efficiency of aligning and reduced damage to components. The chip components slide down on the aligning groove to be discharged to a discharge path, via the gate, aligned in a line.
    • 提供了一种组件馈电器,其中对芯片部件的损坏最小化,能够有效地排放一行中排列的芯片部件。 大容量壳体附着在能够由大量芯片部件供应的外部存储壳体的顶部上。 芯片部件经由供给路径从外部存储壳体供给到部件储存壳体的内部壳体。 内壳体中的预定数量的芯片部件通过旋转滚筒的旋转经由连通路径一次馈送到外壳体,以便落入对准槽中并且由旋转体的凸耳构件对齐 鼓。 外壳中的部件的数量减少,导致对准的高效率和对部件的损坏减少。 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。
    • 5. 发明授权
    • Feeder for chip components
    • 芯片组件馈线
    • US06705819B1
    • 2004-03-16
    • US09678096
    • 2000-10-04
    • Akira NemotoShigeki TakahashiNihei KaishitaMitsuhiro Namura
    • Akira NemotoShigeki TakahashiNihei KaishitaMitsuhiro Namura
    • B65B2102
    • B65G23/38B65G27/12B65G47/06H05K13/022
    • A feeder for chip components is provided wherein the chip components can be supplied with high stability even in high-speed operation by operating a conveying member at a lower speed than that of a chip mounter and operating the conveying member even when the chip mounter is stopped. The chip components on a belt are supplied in one direction by lowering a feed lever according to the input load from a chip mounter so as to drive the belt connected to the feed lever via a transmission mechanism intermittently in one direction. urging means is provided for urging the feed lever in the returning direction by storing the input load of the chip mounter as energy while an eddy current damper is provided for delaying the returning operation of the feed lever relative to the returning operation of the chip mounter. When the chip mounter operates downwardly, the feed lever is moved downwardly by linking to the chip mounter while the conveyor belt is maintained in a stationary state. When the chip mounter operates upwardly, the feed lever is moved upwardly so as to be delayed relative to the chip mounter by the eddy current damper while the belt is driven at a low speed.
    • 提供了一种用于芯片部件的馈线,其中即使在高速操作中,即使在芯片安装器停止时,也可以以比芯片安装器低的速度操作输送部件并操作输送部件,可以提供高稳定性的芯片部件 。 通过根据来自芯片安装器的输入负载降低进给杆,沿着一个方向间歇地驱动通过传动机构驱动连接到进给杆的皮带,从而沿一个方向供给皮带上的切屑部件。 提供推动装置,用于通过将芯片安装机的输入负载作为能量存储来提供馈送杆,同时设置涡流阻尼器以延迟馈送杆相对于芯片安装机的返回操作的返回操作。 当芯片安装器向下操作时,馈送杆通过连接到芯片安装器而向下移动,同时传送带保持在静止状态。 当芯片安装器向上操作时,馈送杆向上移动,以便当带子以低速驱动时,通过涡流阻尼器相对于芯片安装器延迟。
    • 6. 发明授权
    • Apparatus for transporting parts
    • 运输零件的装置
    • US06338608B1
    • 2002-01-15
    • US09307772
    • 1999-05-10
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • B65G5912
    • H05K13/0434
    • A part transporting apparatus comprises a guiding groove for lining up parts in one row and guiding the parts; a transporting member which is provided at the base of the guiding groove and transports the parts in a forward direction by itself moving forwards and backwards along the groove; and a driving means for reciprocally driving the transporting member in the forward and backward directions; wherein the transporting member is advanced slowly and retracted rapidly, so as to transport the parts forwards. Provided to this arrangement are: a stopper which operates so as to open and close in the width direction of the guiding groove, and hold the second part from the front of the row of parts being transported on the upper plane of the transporting member; and a shutter for opening and closing at the tip of the guiding groove, so as to cover the space above the first part in the row so as to prevent the part from flying out. The shutter is opened synchronously with the transporting member immediately before forward movement of the transporting member is completed, thereby extracting the first part separated from the second part. Such an arrangement provides for an apparatus for transporting parts, wherein the first part and second part can be separated in a sure manner even in the event that the parts are non-magnetic material, and wherein ease and stability of extracting of the first part is facilitated.
    • 一部分输送装置包括用于排列一排中的部分并引导部分的引导槽; 传送构件,其设置在引导槽的基部并通过其沿着槽向前和向后沿向前方向传送部件; 以及用于沿前后方向往复驱动传送部件的驱动装置; 其中传送构件缓慢前进并且迅速地缩回,以便将部件向前运送。 提供这样一种装置:一个在引导槽的宽度方向上打开和关闭的止动器,并且从传送部件的上平面上被传送的部分行的前部保持第二部分; 以及用于在引导槽的顶端打开和关闭的挡板,以便覆盖行中的第一部分上方的空间,以防止该部件飞出。 在完成传送部件的向前移动之前,快门与传送部件同步地打开,从而提取与第二部分分离的第一部分。 这种布置提供了用于运输部件的装置,其中即使在部件是非磁性材料的情况下,第一部分和第二部分可以以可靠的方式分离,并且其中第一部分的提取的容易性和稳定性是 方便了
    • 9. 发明授权
    • Component carrying device
    • 元件承载装置
    • US06318541B1
    • 2001-11-20
    • US09287635
    • 1999-04-07
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • B65G2504
    • B65G47/1407B65G25/06B65G27/12H05K13/028
    • 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.
    • 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。
    • 10. 发明授权
    • Part transfer apparatus
    • 零件传送装置
    • US06209713B1
    • 2001-04-03
    • US09339040
    • 1999-06-23
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • Shigeki TakahashiNihei KaishitaAkira Nemoto
    • B65G2504
    • B65G25/04
    • 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.
    • 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。