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    • 3. 发明申请
    • Muffler Draining Apparatus for Working Machine
    • 消声器排水装置
    • US20110219757A1
    • 2011-09-15
    • US13044883
    • 2011-03-10
    • Tomoyuki SAITOToshihiro AbeHiroki SugawaraHidefumi HiramatsuHiroyuki Kamata
    • Tomoyuki SAITOToshihiro AbeHiroki SugawaraHidefumi HiramatsuHiroyuki Kamata
    • F01N3/02
    • F01N3/005F01N13/00F01N2530/04F01N2570/22Y02T10/20
    • A muffler draining apparatus for a working machine is provided which allows a drain line having excellent heat resistance to be reliably installed, even when a device or equipment is present at the position below a muffler. In a muffler draining apparatus that is provided to a muffler equipped to a hydraulic excavator, and includes a drain line that discharges water accumulated in the muffler to the outside of a vehicle body, the above-described drain line includes a single metal tubing whose one end is connected to the muffler, and whose intermediate portion provided continuous to the one end is extended into the space formed between the muffler and a hydraulic pump located below the muffler. The intermediate portion of the metal tubing includes a single linear portion and plural bent portions. Also, the muffler draining apparatus includes, for example, a single support bracket that is fixed to the muffler, and supports the intermediate portion of the metal tubing.
    • 提供了一种用于工作机械的消音器排放装置,即使当设备或设备存在于消音器下方的位置时,也能够可靠地安装具有优异耐热性的排水管线。 在设置在配备有液压挖掘机的消音器的消音器排水装置中,具有将积存在消声器中的水排出到车身外部的排水管,上述排水管路包括单个金属管, 端部连接到消音器,并且其连接到一端的中间部分延伸到形成在消音器和位于消声器下方的液压泵之间的空间中。 金属管的中间部分包括单个线性部分和多个弯曲部分。 此外,消音器排出装置例如包括固定到消音器的单个支撑支架,并且支撑金属管的中间部分。
    • 6. 发明授权
    • Highly reactive fluid fan coupling device
    • 高反应流体风扇耦合装置
    • US08991581B2
    • 2015-03-31
    • US13641827
    • 2011-04-20
    • Masato YamadaHiroki Sugawara
    • Masato YamadaHiroki Sugawara
    • F16D35/02
    • F16D35/024F16D35/021
    • Provided is a highly reactive fluid fan coupling device utilizing the non-Newtonian fluid characteristics of oil, thereby obtaining an excellent reaction rate of fan rotation using a control signal. In the fan coupling device, where the interior of a sealed housing supported on a rotary shaft with a drive disk secured thereto is partitioned in an oil reservoir chamber and a torque transmission chamber placing the drive disk thereinto by a partition plate; drive torque is transmitted to a driven side by oil supplied to the torque transmission chamber; and opening and closing of a flow path of oil is controlled by a valve member actuated by an electromagnet, wherein a mechanism to scrape out the oil in the oil reservoir chamber utilizing the non-Newtonian fluid characteristics of oil is provided on the drive disk so as to be opposed to an oil supply adjusting hole of the partition plate.
    • 提供了利用非牛顿流体特性的油的高反应性流体风扇联接装置,从而使用控制信号获得优异的风扇旋转速率。 在风扇联接装置中,支撑在具有固定在其上的驱动盘的旋转轴上的密封壳体的内部被分隔在储油室中,并且转矩传递室通过分隔板将驱动盘放置在其中; 驱动扭矩通过供给到转矩传递室的油传递到从动侧; 并且通过由电磁体驱动的阀构件控制油的流路的打开和关闭,其中利用非牛顿流体特性的油刮除储油室中的油的机构设置在驱动盘上 与隔板的供油调整孔相对。
    • 7. 发明申请
    • SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME
    • 半导体器件及其制造方法
    • US20090302368A1
    • 2009-12-10
    • US12542274
    • 2009-08-17
    • Hiroki Sugawara
    • Hiroki Sugawara
    • H01L27/112H01L21/8246H01L21/336H01L29/788
    • H01L27/115H01L27/11519H01L27/11521H01L29/66825
    • A method for manufacturing a semiconductor device is provided. The method includes forming multiple conductive patterns 13a, forming an intermediate insulating film 16 on all of device isolation insulating films 6 and the conductive patterns 13a, forming a second conductive film 17 on the intermediate insulating film 16, patterning the second conductive film 17, the intermediate insulating film 16, and the multiple conductive patterns 13a, individually, to make the conductive patterns 13a into floating gates 13c and to make the second conductive film 17 into multiple strip-like control gates 17a. In the method, an edge, in a plan layout, of at least one of each of the conductive patterns 13a and each of the device isolation insulating films 6 is bent in a region between the control gates 17a adjacent in a row direction.
    • 提供一种制造半导体器件的方法。 该方法包括形成多个导电图案13a,在所有器件隔离绝缘膜6和导电图案13a上形成中间绝缘膜16,在中间绝缘膜16上形成第二导电膜17,图案化第二导电膜17, 中间绝缘膜16和多个导电图案13a,以使导电图案13a成为浮动栅极13c,并使第二导电膜17成为多个条形控制栅极17a。 在该方法中,每个导电图案13a和每个器件隔离绝缘膜6中的至少一个的平面布置中的边缘在沿行方向相邻的控制栅极17a之间的区域中弯曲。
    • 8. 发明申请
    • HIGHLY REACTIVE FLUID FAN COUPLING DEVICE
    • 高反应流体风扇耦合装置
    • US20130037371A1
    • 2013-02-14
    • US13641827
    • 2011-04-20
    • Masato YamadaHiroki Sugawara
    • Masato YamadaHiroki Sugawara
    • F16D35/02
    • F16D35/024F16D35/021
    • Provided is a highly reactive fluid fan coupling device utilizing the non-Newtonian fluid characteristics of oil, thereby obtaining an excellent reaction rate of fan rotation using a control signal. In the fan coupling device, where the interior of a sealed housing supported on a rotary shaft with a drive disk secured thereto is partitioned in an oil reservoir chamber and a torque transmission chamber placing the drive disk thereinto by a partition plate; drive torque is transmitted to a driven side by oil supplied to the torque transmission chamber; and opening and closing of a flow path of oil is controlled by a valve member actuated by an electromagnet, wherein a mechanism to scrape out the oil in the oil reservoir chamber utilizing the non-Newtonian fluid characteristics of oil is provided on the drive disk so as to be opposed to an oil supply adjusting hole of the partition plate.
    • 提供了利用非牛顿流体特性的油的高反应性流体风扇联接装置,从而使用控制信号获得优异的风扇旋转速率。 在风扇联接装置中,支撑在具有固定在其上的驱动盘的旋转轴上的密封壳体的内部被分隔在储油室中,并且转矩传递室通过分隔板将驱动盘放置在其中; 驱动扭矩通过供给到转矩传递室的油传递到从动侧; 并且通过由电磁体驱动的阀构件控制油的流路的打开和关闭,其中利用非牛顿流体特性的油刮除储油室中的油的机构设置在驱动盘上 与隔板的供油调整孔相对。
    • 9. 发明授权
    • Semiconductor device and method for manufacturing the same
    • 半导体装置及其制造方法
    • US08076710B2
    • 2011-12-13
    • US12542274
    • 2009-08-17
    • Hiroki Sugawara
    • Hiroki Sugawara
    • H01L29/41H01L29/43H01L29/792
    • H01L27/115H01L27/11519H01L27/11521H01L29/66825
    • A method for manufacturing a semiconductor device is provided. The method includes forming multiple conductive patterns 13a, forming an intermediate insulating film 16 on all of device isolation insulating films 6 and the conductive patterns 13a, forming a second conductive film 17 on the intermediate insulating film 16, patterning the second conductive film 17, the intermediate insulating film 16, and the multiple conductive patterns 13a, individually, to make the conductive patterns 13a into floating gates 13c and to make the second conductive film 17 into multiple strip-like control gates 17a. In the method, an edge, in a plan layout, of at least one of each of the conductive patterns 13a and each of the device isolation insulating films 6 is bent in a region between the control gates 17a adjacent in a row direction.
    • 提供一种制造半导体器件的方法。 该方法包括形成多个导电图案13a,在所有器件隔离绝缘膜6和导电图案13a上形成中间绝缘膜16,在中间绝缘膜16上形成第二导电膜17,图案化第二导电膜17, 中间绝缘膜16和多个导电图案13a,以使导电图案13a成为浮动栅极13c,并使第二导电膜17成为多个条形控制栅极17a。 在该方法中,每个导电图案13a和每个器件隔离绝缘膜6中的至少一个的平面布置中的边缘在沿行方向相邻的控制栅极17a之间的区域中弯曲。