公开(公告)号：US20070135574A1

公开(公告)日：2007-06-14

申请号：US10578137

申请日：2004-06-18

Applicant: Hirotaka Minami ,  Yoshinori Mayama ,  Yasuyuki Yoshimoto ,  Yoshihiro Nakata ,  Kiyoshi Hasegawa

Inventor： Hirotaka Minami ,  Yoshinori Mayama ,  Yasuyuki Yoshimoto ,  Yoshihiro Nakata ,  Kiyoshi Hasegawa

IPC: C08F8/00

CPC classification number: C09J133/20 ,  B60J10/80 ,  C08K3/013 ,  C08K3/26 ,  C08K5/0016 ,  C08K5/12 ,  C08L9/02 ,  C08L9/06 ,  C08L19/003 ,  C09J135/06 ,  C09K3/10 ,  C09K2200/0612 ,  C09K2200/0632 ,  C08L2666/08

Abstract: The present invention provides a sealant for automobile doors, which is used to bond an inside screen to the inner panel of an automobile door and which is excellent in hot creep resistance and shear adhesive strength at high temperatures, particularly in consideration of the application thereof in summer. The sealant for automobile doors of the present invention comprises partially crosslinked NBR and/or SBR, a plasticizer and a filler.

Abstract translation: 本发明提供一种用于汽车门的密封剂，其用于将内屏幕粘合到汽车门的内板上，并且在高温下特别是考虑到其在高温下的耐热蠕变性和剪切粘合强度优异 夏季。 本发明的汽车门密封剂包括部分交联的NBR和/或SBR，增塑剂和填料。

公开(公告)号：US07153119B2

公开(公告)日：2006-12-26

申请号：US10436766

申请日：2003-05-13

Applicant: Shigeru Hashimoto ,  Kiyoshi Hasegawa

Inventor： Shigeru Hashimoto ,  Kiyoshi Hasegawa

IPC: A23L1/00

CPC classification number: A21C11/16 ,  A21C11/163

Abstract: An extruding apparatus for food materials having a filling material and a wrapping material extrudes and envelops the filling material with the wrapping material. An internal cylinder supplies the filling material while a concentrically arranged external cylinder creates an annular space for extruding and enveloping the material supplied. The wrapping material is fluidized by a fluidizer accommodated in the annular space. A driving mechanism is sealed from the fluidizer and drives the fluidizer in the annular space. The driving mechanism is driven by a transmission mechanism. A storage space section near the seals prevents wrapping material from penetrating the driving mechanism.

Abstract translation: 用于具有填充材料和包装材料的食品材料的挤出装置用包装材料挤出和包封填充材料。 内部气缸供应填充材料，而同心布置的外部气缸形成用于挤压和包封供应材料的环形空间。 包裹材料被容纳在环形空间中的流化器流化。 驱动机构与流化器密封并驱动流化器在环形空间中。 驱动机构由传动机构驱动。 在密封件附近的存储空间部分防止包裹材料穿透驱动机构。

公开(公告)号：US06879188B2

公开(公告)日：2005-04-12

申请号：US10322594

申请日：2002-12-19

Applicant: Masayuki Miyazaki ,  Ken Tatezawa ,  Kiwamu Takada ,  Kunio Uchiyama ,  Osamu Nishii ,  Kiyoshi Hasegawa ,  Hirokazu Aoki ,  Masaru Kokubo

Inventor： Masayuki Miyazaki ,  Ken Tatezawa ,  Kiwamu Takada ,  Kunio Uchiyama ,  Osamu Nishii ,  Kiyoshi Hasegawa ,  Hirokazu Aoki ,  Masaru Kokubo

IPC: G06F1/04 ,  G06F1/06 ,  G06F1/32 ,  H01L21/82 ,  H01L21/822 ,  H01L27/04 ,  H03L7/07 ,  H03L7/081 ,  H03L7/099 ,  H03B19/00

CPC classification number: H03L7/07 ,  G06F1/04 ,  G06F1/3203 ,  H03L7/0812 ,  H03L7/0995 ,  Y02D10/126

Abstract: A semiconductor integrated circuit device employing two clock signal generating circuits which output clock signals for distribution to an internal circuit of the device, the first and second clock signal generating circuits having different clock-settling times and the selection thereof is effected from outside of the device. A first one of the clock signal generating circuits uses, for example, a phase-locked loop circuit which has a large clock-settling time, and the second clock signal generating circuit is implemented, for example, using a delay-locked loop circuit whose clock-settling time is small, for example, 2-3 periods. Due to the selective actuation of the second clock signal generating circuit, which has a small clock-settling time, the generating of clock signals for the internal circuits can also be halted when the internal circuits of the device are halted thereby to further lower power consumption without compromising clock oscillator responsiveness.

Abstract translation: 一种采用两个时钟信号发生电路的半导体集成电路器件，其输出时钟信号以分配到器件的内部电路，具有不同时钟稳定时间的第一和第二时钟信号发生电路及其选择是从器件外部实现的 。 时钟信号发生电路中的第一个使用例如具有大的时钟稳定时间的锁相环电路，并且第二时钟信号发生电路例如使用延迟锁定环电路来实现， 时钟建立时间很小，例如2-3个周期。 由于具有小的时钟建立时间的第二时钟信号产生电路的选择性致动，当器件的内部电路停止时也可以停止内部电路的时钟信号的产生，从而进一步降低功耗 而不会影响时钟振荡器的响应。

公开(公告)号：US20050053193A1

公开(公告)日：2005-03-10

申请号：US10935610

申请日：2004-09-07

Applicant: Kiyoshi Hasegawa

Inventor： Kiyoshi Hasegawa

IPC: G01N23/20 ,  G01N23/223 ,  G01N33/44 ,  G01T1/36 ,  G01V5/08

CPC classification number: G01N23/223 ,  G01N33/44 ,  G01N2223/076

Abstract: An object is to reduce the influence of chlorine in plastics when the metal concentrations in the plastics are analyzed. In an X-ray analyzer including an X-ray generating part for irradiating primary X-rays onto a sample and an X-ray detector for detecting an X-ray from the sample, primary X-rays is irradiated onto a plastic sample from the X-ray generating part, the X-ray intensity of chlorine is obtained from the plastic sample by the X-ray detector, and the scattered X-ray intensity where the primary X-ray has been scattered by the plastic sample is obtained by the X-ray detector. A chlorine X-ray intensity ratio calculating means for dividing the X-ray intensity of chlorine by the scattered X-ray intensity to calculate a chlorine X-ray intensity ratio is provided. The calculated chlorine X-ray intensity ratio and the chlorine concentration in the plastic sample have positive correlation each other. A relative chlorine concentration calculating means adapted to calculate the relative chlorine concentration in the plastic sample from the chlorine X-ray intensity ratio is provided.

Abstract translation: 当分析塑料中的金属浓度时，目的是减少塑料中氯的影响。 在包括用于将原始X射线照射到样品上的X射线产生部件和用于检测来自样品的X射线的X射线检测器的X射线分析仪中，将主X射线从 X射线产生部，通过X射线检测器从塑料样品获得氯的X射线强度，并且通过塑料样品获得主X射线已被散射的散射X射线强度 X射线探测器。 提供一种用于将X射线强度除以散射X射线强度以计算氯X射线强度比的氯X射线强度比计算装置。 计算的氯X射线强度比和塑料样品中的氯浓度呈正相关。 提供了一种适用于从氯X射线强度比计算塑料样品中的相对氯浓度的相对氯浓度计算装置。

公开(公告)号：US06515519B1

公开(公告)日：2003-02-04

申请号：US09580646

申请日：2000-05-30

Applicant: Masayuki Miyazaki ,  Ken Tatezawa ,  Kiwamu Takada ,  Kunio Uchiyama ,  Osamu Nishii ,  Kiyoshi Hasegawa ,  Hirokazu Aoki ,  Masaru Kokubo

Inventor： Masayuki Miyazaki ,  Ken Tatezawa ,  Kiwamu Takada ,  Kunio Uchiyama ,  Osamu Nishii ,  Kiyoshi Hasegawa ,  Hirokazu Aoki ,  Masaru Kokubo

IPC: H03B1900

CPC classification number: H03L7/07 ,  G06F1/04 ,  G06F1/3203 ,  H03L7/0812 ,  H03L7/0995 ,  Y02D10/126

Abstract: A signal from a crystal resonator or an external clock signal are input from terminals xta1 or exta1, and the signal from the crystal resonator or external clock signal are selected by mode terminal mod8 and input to an oscillator OSC. An input clock signal ckl1 is frequency-divided to desired values by a divider DIV1. A divided clock signal clk2 is input as the reference clock of a phase-locked loop PLL1 or delay-locked loop DLL1, and a clock signal output by a circuit selected by a selector SEL3 passes via a divider DIV2 to be distributed to an LSI. The phase-locked loop PLL1 has a clock settling time of at least 40 clock periods, whereas the clock settling time of the delay-locked loop DLL1 is 2-3 periods.

Abstract translation: 来自晶体谐振器或外部时钟信号的信号从端子xta1或exta1输入，并且来自晶体谐振器或外部时钟信号的信号由模式端子mod8选择并输入到振荡器OSC。 输入时钟信号ck11由分频器DIV1分频为期望值。 输入分频时钟信号clk2作为锁相环路PLL1或延迟锁定环路DLL1的基准时钟，由选择器SEL3选择的电路输出的时钟信号通过分配器DIV2通过分配给LSI。 锁相环PLL1具有至少40个时钟周期的时钟建立时间，而延迟锁定环DLL1的时钟建立时间为2-3个周期。

公开(公告)号：US06489824B2

公开(公告)日：2002-12-03

申请号：US09935717

申请日：2001-08-24

Applicant: Masayuki Miyazaki ,  Koichiro Ishibashi ,  Takeshi Sakata ,  Satoru Hanzawa ,  Hiroyuki Mizuno ,  Kiyoshi Hasegawa ,  Masaru Kokubo ,  Hirokazu Aoki

Inventor： Masayuki Miyazaki ,  Koichiro Ishibashi ,  Takeshi Sakata ,  Satoru Hanzawa ,  Hiroyuki Mizuno ,  Kiyoshi Hasegawa ,  Masaru Kokubo ,  Hirokazu Aoki

IPC: H03L706

CPC classification number: H04L7/0008 ,  G06F1/10 ,  H03K5/135 ,  H04L7/0037

Abstract: A timing-control circuit device, which uses a synchronous mirror delay circuit, for keeping the synchronization between clock signals in phase even at a load change. A reference clock signal (clkin 11) is entered to a timing-control circuit (SMDF 14) and used to generate an internal clock (dclk 12), then generates an external clock (clkout 13) through a buffer (BUF 15). The external clock signal is fed back to the timing-control circuit (SMDF 14) and used to generate an internal clock signal so as to synchronize the external clock signal in phase with the reference clock signal. The timing-control circuit is provided with a circuit (FDA 21, MCC 22) for detecting a phase difference between the internal clock signal and the external clock signal, as well as a delay circuit (DCL 24) for controlling a delay time, so that the delay circuit (DCL 24) can change the delay time according to the detected phase difference.

公开(公告)号：US6115450A

公开(公告)日：2000-09-05

申请号：US57422

申请日：1998-04-08

Applicant: Kiyoshi Hasegawa

Inventor： Kiyoshi Hasegawa

IPC: G01B15/00 ,  G01N1/28 ,  G01N23/223 ,  H01L21/66

CPC classification number: G01N23/223 ,  G01N2223/076

Abstract: An x-ray fluorescence analyzer which accomplishes determination of the center of a circular sample in an xy-plance, in which the sample is placed, by performing a first step of determining a provisional center, a second step of carrying out measurements by scanning in the x-axis direction, a third step of calculating the center of the sample in the x-axis direction, a fourth step of carrying out measurements by scanning in the y-axis direction, a fifth step of calculating the center of the sample in the y-axis direction, and a sixth step of determining coordinates of the center of the sample.

Abstract translation: 一种x射线荧光分析仪，其通过执行确定临时中心的第一步骤来确定放置样品的xy样品中的圆形样品的中心的确定，通过扫描进行测量的第二步骤 x轴方向，第三步骤，在x轴方向上计算样本的中心;第四步骤，通过沿y轴方向进行扫描进行测量;第五步骤，计算样品的中心在 y轴方向，以及确定样品中心坐标的第六步骤。

公开(公告)号：US5895271A

公开(公告)日：1999-04-20

申请号：US578891

申请日：1995-12-27

Applicant: Kiyoshi Hasegawa ,  Hiroshi Ozaki

Inventor： Kiyoshi Hasegawa ,  Hiroshi Ozaki

IPC: H01L21/28 ,  H01L21/027 ,  H01L21/203 ,  H01L21/3205 ,  H01L21/768 ,  H01L21/00

CPC classification number: H01L21/0272 ,  H01L21/7688 ,  Y10S438/978

Abstract: A metal film forming method by which a metal film having a desired pattern can be formed with good reproducibility and satisfactory precision. In a metal film forming method for forming a metal film into the desired pattern on a surface of an object by the lift-off method, a resist layer is laminated on the surface of the object, the resist layer is exposed to light with the desired pattern and it is developed. Radio frequency sputtering is then performed against the resist layer so that the opening is deformed into a shape which is suited for the lift-off process. A metal film is then laminated on the surfaces of the resist layer and the metal film forming object. Then the resist layer is subjected to lift-off processing, whereby the metal film can be formed with good precision and satisfactory reproducibility. In this way, such a metal film forming method can be realized that a metal film having the desired pattern can be formed with good reproducibility and satisfactory precision.

Abstract translation: 可以以良好的再现性和令人满意的精度形成具有期望图案的金属膜的金属膜形成方法。 在通过剥离法在物体表面上将金属膜形成为期望图案的金属膜形成方法中，在物体的表面上层压抗蚀剂层，将抗蚀剂层暴露于具有期望的光的光 模式，它是开发的。 然后对抗蚀剂层进行射频溅射，使得开口变形成适合于剥离过程的形状。 然后在抗蚀剂层和金属成膜物体的表面上层压金属膜。 然后对抗蚀剂层进行剥离处理，由此能够以良好的精度和令人满意的再现性形成金属膜。 以这种方式，可以实现这样的金属膜形成方法，即可以以良好的再现性和令人满意的精度形成具有所需图案的金属膜。

公开(公告)号：US5425066A

公开(公告)日：1995-06-13

申请号：US210387

申请日：1994-03-18

Applicant: Haruo Takahashi ,  Kiyoshi Hasegawa

Inventor： Haruo Takahashi ,  Kiyoshi Hasegawa

IPC: G01B15/02 ,  G01B11/00 ,  G01N23/223

CPC classification number: G01B11/00

Abstract: The center of a band-shaped region on a sample is searched by first coarsely scanning a region of the sample, calculating a tentative center of the sample coarsely from scanning result, collecting data with reference to the tentative center, calculating the center of gravity from the result, and making a correction for raising the precision of the center of gravity determination.

Abstract translation: 通过首先粗略扫描样本的区域，从扫描结果粗略地计算样本的暂定中心，参照暂定中心收集数据，计算重心的重心，来搜索样本上的带状区域的中心 结果，并提高了重心确定精度的校正。

公开(公告)号：US5338170A

公开(公告)日：1994-08-16

申请号：US93278

申请日：1993-07-19

Applicant: Shigeru Hashimoto ,  Kiyoshi Hasegawa ,  Yasunori Tashiro

Inventor： Shigeru Hashimoto ,  Kiyoshi Hasegawa ,  Yasunori Tashiro

IPC: A21C3/06 ,  A21C9/06 ,  A21C9/08 ,  D21C3/00 ,  D21C3/06 ,  D21C9/04

CPC classification number: A21C9/063 ,  A21C3/06

Abstract: A device for charging a filling material (6) with respect to pieces of dough (1) transferred on a transfer conveyor (2) comprising detectors (3) mounted on the transfer conveyor, the detectors being adapted to detect transverse shifts of the pieces of dough on the transfer conveyor and to generate signals representative of the amounts of the shifts; a filling-charging mechanism (4) disposed downstream of the detectors, the filling-charging mechanism having discharging nozzles (48) mounted movably in the transverse direction; and a control device (7) for receiving from the detectors the signals representative of the amounts of the shifts and controlling the discharging nozzles to move transversely amounts equal to the respective amounts of the shift.

Abstract translation: 一种装置，用于相对于转移在转移输送机（2）上的面团（1）充填填充材料（6），包括安装在转移输送机上的检测器（3），所述检测器适于检测 面团，并产生代表班次数量的信号; 填充充电机构（4），设置在所述检测器的下游，所述填充充电机构具有沿横向方向可移动地安装的排出喷嘴（48） 以及控制装置（7），用于从检测器接收表示换档量的信号，并且控制排出喷嘴横向移动等于相应移动量的量。