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    • 1. 发明授权
    • Apparatus for coating bottles or like cylindrical articles
    • 用于涂覆瓶子或类似圆柱形物品的装置
    • US4308818A
    • 1982-01-05
    • US136865
    • 1980-04-03
    • Ichiro AbeTakashi SuzukiToshio Ebara
    • Ichiro AbeTakashi SuzukiToshio Ebara
    • B05C1/02B05C9/08B05C13/02B41F17/18B41F17/22
    • B05C13/025B05C1/022B05C9/08
    • Apparatus for coating with a desired substance a succession of beverage bottles traveling along an arcuate guideway. A star wheel assembly, rotatable about an axis at which the arcuate guideway is centered, feeds the successive bottles along the guideway, further coacting with the opposed guideway-defining surface to cause rotation of each bottle about its own axis. Coaxially mounted on the star wheel assembly, either for simultaneous rotation therewith or for independent rotation, one or more annular rows of discrete coating bodies or one or more coating rolls apply the coating substance to the successive bottles, creating one or more band-shaped coatings around each bottle. In one embodiment the star wheel assembly is replaced by a feed roll assembly comprising a pair of annular rows of independently rotatable feed rolls.
    • 用期望物质涂覆一系列沿弓形导轨行进的饮料瓶的装置。 围绕弓形导轨居中的轴线可旋转的星形轮组件沿着导轨供给连续的瓶子,进一步与相对的导轨限定表面共同作用以使每个瓶子围绕其自己的轴线旋转。 同轴地安装在星形轮组件上,或者用于与其同时旋转或独立旋转,一个或多个环形排的离散涂覆体或一个或多个涂布辊将涂覆物质施加到连续的瓶子上,从而产生一个或多个带状涂层 每个瓶子周围。 在一个实施例中,星轮组件由包括一对可独立旋转的进料辊的一排环形进给辊组件代替。
    • 3. 发明申请
    • Semiconductor integrated circuit
    • 半导体集成电路
    • US20060038593A1
    • 2006-02-23
    • US11203980
    • 2005-08-16
    • Ichiro Abe
    • Ichiro Abe
    • H03B1/00
    • H03K5/082H03K19/0016
    • Disclosed is a semiconductor integrated circuit that comprises first and second transmission systems receiving in common an input signal supplied to a signal input terminal and having substantially identical logic configuration to each other, each comprising a plurality of transistors; and an output select unit. Transistors constituting said first transmission system comprise transistors having relatively high threshold values and being turned off and transistors having relatively low threshold values and being turned on, when the input signal supplied to said first transmission system takes a first value; and transistors constituting said second transmission system, comprise transistors having relatively high threshold values and being turned off and transistors have relatively low threshold values and being turned on, when an input signal supplied to said second transmission system assumes a second value. Each of the first and second transmission systems receives a control signal and is set to an active state and a standby mode based on the control signal. The output select unit, receiving outputs from said first and second transmission systems, outputs from an output terminal thereof an output of the transmission system where the relatively low threshold transistors are in an on-state, in active state, and said output select unit cuts off an output of the transmission system with an unstable output and outputs from said output terminal an output of the transmission system with a stable output, in a standby mode.
    • 公开了一种半导体集成电路,其包括第一和第二传输系统,共同接收提供给信号输入端的输入信号,并且具有彼此基本相同的逻辑配置,每个包括多个晶体管; 和输出选择单元。 构成所述第一传输系统的晶体管包括具有相对较高阈值并被截止的晶体管,并且当提供给所述第一传输系统的输入信号取第一值时,晶体管具有相对较低阈值并导通; 并且构成所述第二传输系统的晶体管包括具有相对较高阈值并被截止的晶体管,并且当提供给所述第二传输系统的输入信号呈现第二值时,晶体管具有相对较低的阈值并导通。 第一和第二传输系统中的每一个接收控制信号,并且基于控制信号将其设置为活动状态和待机模式。 输出选择单元接收来自所述第一和第二传输系统的输出,从输出端输出其中较低阈值晶体管处于导通状态的传输系统的输出,并且所述输出选择单元切断 以不稳定的输出关闭传输系统的输出,并在待机模式下从所述输出端输出具有稳定输出的传输系统的输出。
    • 4. 发明授权
    • Label peeler
    • 标签剥皮机
    • US4944832A
    • 1990-07-31
    • US301635
    • 1989-01-25
    • Ichiro AbeToshio Suzuki
    • Ichiro AbeToshio Suzuki
    • B08B9/08B08B9/38B08B9/42
    • B08B9/423B08B9/083B08B9/38Y10S156/935Y10S83/924Y10T156/1052Y10T156/1195Y10T156/1348Y10T156/1365Y10T156/19Y10T156/1906
    • A label peeler for peeling off a label attached to a side of a container such as a bottle includes a holder for holding the container, label scraping means for scraping the label off the container by effecting sliding movement in intimate contact with the side of the container, and driving means for varying the relative position of the container and the lavel scraping means to remove the label from the side of the container. With the container being held by the holder, the holder or the label scraping means or both are moved to vary the relative position of the container and the label scraping means while keeping the label scraping means in close contact with the side of the container, for thereby mechanically peeling the label off the container.
    • 用于剥离附着在诸如瓶子这样的容器侧的标签的标签剥离器包括用于保持容器的保持器,用于通过与容器侧紧密接触的滑动运动将标签从容器上刮下来的标签刮擦装置 以及驱动装置,用于改变容器和漱口装置的相对位置以从容器的侧面移除标签。 在容器被保持器保持的情况下,保持器或标签刮擦装置或两者移动以改变容器和标签刮擦装置的相对位置,同时保持标签刮擦装置与容器的侧面紧密接触,以便 从而将标签机械地剥离出容器。
    • 5. 发明授权
    • Container supply system
    • 集装箱供应系统
    • US4911602A
    • 1990-03-27
    • US367463
    • 1989-06-16
    • Ichiro Abe
    • Ichiro Abe
    • B08B9/20B65B21/14B65B69/00B65G47/248B65G47/74B65G47/90B65G47/96
    • B65B21/14B08B9/205
    • A container supply system supplies a plurality of containers such bottles encased in a box to a container processing machine such as a bottle washing machine. The container supply system includes a box reverser for reversing the box with the bottles encased therein, a container holder disposed for holding the bottles discharged from the reversed box and thereafter releasing the bottles, a container receiver having a plurality of container receiver members for receiving the bottles, respectively, and a container ejector having a plurality of container ejector members for pushing the bottles from the container receiver to the container processing machine. In one embodiment, the container receiver is positioned below the box reverser. In another embodiment, the box reverser and the container receiver are spaced from each other, and a delivery carriage is provided for receiving the containers from the box reverser and delivering the received containers to the container receiver. Since the containers are directly supplied to the container processing machine by reversing the box which encases the containers, the containers can be smoothly and reliably delivered without the danger of falling over which would otherwise be encountered if the containers were individually supplied by a container conveyor.
    • 容器供给系统将容纳在盒中的多个容器供给到诸如洗瓶机的容器处理机。 容器供应系统包括用于将盒子与其中包装的瓶子反转的箱子反向器,设置用于保持从倒置箱子排出的瓶子然后释放瓶子的容器保持器,容器接收器具有多个容器接收器构件,用于接收 瓶子和容器喷射器,其具有多个用于将瓶从容器接收器推到容器处理机器的容器顶出器构件。 在一个实施例中,容器接收器位于箱反向器下方。 在另一个实施例中,盒反向器和容器接收器彼此间隔开,并且提供了一个传送台,用于从盒反向器接收容器并将接收到的容器传送到容器接收器。 由于容器通过反转包装容器的箱子而被直接供应到容器加工机器,所以容器可以平稳可靠地输送,而不会有下落的危险,如果容器由集装箱输送机单独供应,否则将会遇到这种危险。
    • 6. 发明授权
    • Waveform width adjusting circuit with selective control delay
    • 具有选择性控制延迟的波形宽度调节电路
    • US07573309B2
    • 2009-08-11
    • US11790601
    • 2007-04-26
    • Ichiro Abe
    • Ichiro Abe
    • H03K3/017H03K5/04H03K7/08
    • H03K5/156H03K5/01
    • Disclosed is waveform width adjusting circuit that comprises: a delay circuit having a prescribed delay time is provided in a signal propagation path and a delay adjusting circuit which applies an adjustment in such a manner that when a waveform width extending from either a positive-going transition or a negative-going transition of the signal waveform at an input terminal to the next negative-going transition or positive-going transition is greater than the delay time of the delay circuit, a signal having a reduced waveform width is output, and such that when the waveform width of the signal at the input terminal is less than or equal to the delay time, the waveform width is not reduced and the signal that is output has the waveform width of the original signal. Thus, the waveform width of a signal for which the waveform width is less than a limit is not reduced.
    • 公开了一种波形宽度调整电路,包括:在信号传播路径中设置具有规定延迟时间的延迟电路,延迟调整电路以这样的方式进行调整:当从正向转变 或者在输入端子处的信号波形向下一个负向转换或正向转变的负向转变大于延迟电路的延迟时间,则输出具有减小的波形宽度的信号,并且使得 当输入端子的信号的波形宽度小于或等于延迟时间时,波形宽度不减小,输出的信号具有原始信号的波形宽度。 因此,波形宽度小于极限的信号的波形宽度不降低。
    • 7. 发明授权
    • Semiconductor device
    • 半导体器件
    • US08576647B2
    • 2013-11-05
    • US13288994
    • 2011-11-04
    • Yuya YamadaIchiro Abe
    • Yuya YamadaIchiro Abe
    • G11C29/00
    • G11C29/025G11C2029/1204
    • A semiconductor device includes a bit line; a data bus line corresponding to the bit line; a selection transistor that controls electrical connection between the bit line and the data bus line; a write amplifier that writes data to the bit line through the data bus; and a test circuit. The test circuit sets the bit line to a first potential during a test period regardless of an operation of the write amplifier, sets the data bus line to a second potential and then sets the data bus line in a floating state to detect transition of the data bus line from the second potential to the first potential, with the selection transistor being activated to electrically connect the bit line and the data bus line.
    • 半导体器件包括位线; 对应于位线的数据总线; 控制位线和数据总线之间的电连接的选择晶体管; 写入放大器,通过数据总线将数据写入位线; 和测试电路。 测试电路在测试期间将位线设置为第一电位,而与写放大器的操作无关,将数据总线线设置为第二电位,然后将数据总线设置为浮置状态,以检测数据的转换 总线从第二电位到第一电位,选择晶体管被激活以电连接位线和数据总线。
    • 8. 发明申请
    • Waveform width adjusting circuit
    • 波形宽度调整电路
    • US20070252628A1
    • 2007-11-01
    • US11790601
    • 2007-04-26
    • Ichiro Abe
    • Ichiro Abe
    • H03K3/017
    • H03K5/156H03K5/01
    • Disclosed is waveform width adjusting circuit that comprises: a delay circuit having a prescribed delay time is provided in a signal propagation path and a delay adjusting circuit which applies an adjustment in such a manner that when a waveform width extending from either a positive-going transition or a negative-going transition of the signal waveform at an input terminal to the next negative-going transition or positive-going transition is greater than the delay time of the delay circuit, a signal having a reduced waveform width is output, and such that when the waveform width of the signal at the input terminal is less than or equal to the delay time, the waveform width is not reduced and the signal that is output has the waveform width of the original signal. Thus, the waveform width of a signal for which the waveform width is less than a limit is not reduced.
    • 公开了一种波形宽度调整电路,包括:在信号传播路径中设置具有规定延迟时间的延迟电路,延迟调整电路以这样的方式进行调整:当从正向转变 或者在输入端子处的信号波形向下一个负向转换或正向转变的负向转变大于延迟电路的延迟时间,则输出具有减小的波形宽度的信号,并且使得 当输入端子的信号的波形宽度小于或等于延迟时间时,波形宽度不减小,输出的信号具有原始信号的波形宽度。 因此,波形宽度小于极限的信号的波形宽度不降低。
    • 9. 发明授权
    • Semiconductor integrated circuit comprising first and second transmission systems
    • 包括第一和第二传输系统的半导体集成电路
    • US07262642B2
    • 2007-08-28
    • US11203980
    • 2005-08-16
    • Ichiro Abe
    • Ichiro Abe
    • H03B1/00
    • H03K5/082H03K19/0016
    • Disclosed is a semiconductor integrated circuit that comprises first and second transmission systems, each comprising a plurality of transistors; and an output select unit. Transistors constituting said first transmission system comprise transistors having relatively high threshold values and being turned off and transistors having relatively low threshold values and being turned on, when the input signal supplied to said first transmission system takes a first value; and transistors constituting said second transmission system, comprise transistors having relatively high threshold values and being turned off and transistors have relatively low threshold values and being turned on, when an input signal supplied to said second transmission system assumes a second value. The output select unit, receiving outputs from said first and second transmission systems, outputs from an output terminal thereof an output of the transmission system where the relatively low threshold transistors are in an on-state, in active state, and said output select unit cuts off an output of the transmission system with an unstable output and outputs from said output terminal an output of the transmission system with a stable output, in a standby mode.
    • 公开了一种半导体集成电路,其包括第一和第二传输系统,每个包括多个晶体管; 和输出选择单元。 构成所述第一传输系统的晶体管包括具有相对较高阈值并被截止的晶体管,并且当提供给所述第一传输系统的输入信号取第一值时,晶体管具有相对较低阈值并导通; 并且构成所述第二传输系统的晶体管包括具有相对较高阈值并被截止的晶体管,并且当提供给所述第二传输系统的输入信号呈现第二值时,晶体管具有相对较低的阈值并导通。 输出选择单元接收来自所述第一和第二传输系统的输出,从输出端输出其中较低阈值晶体管处于导通状态的传输系统的输出,并且所述输出选择单元切断 以不稳定的输出关闭传输系统的输出,并在待机模式下从所述输出端输出具有稳定输出的传输系统的输出。