公开(公告)号：US4726524A

公开(公告)日：1988-02-23

申请号：US861479

申请日：1986-05-09

Applicant: Kiyoe Ishikawa ,  Hiromi Nakamura

Inventor： Kiyoe Ishikawa ,  Hiromi Nakamura

IPC: B06B1/02 ,  B05B17/06 ,  F02M69/04 ,  F23D11/34 ,  F02M61/04

CPC classification number: B05B17/063 ,  B05B17/0623 ,  F02M69/041 ,  F23D11/345

Abstract: The present invention consists of an ultrasonic atomizing vibratory element having a multi-stepped edged portion formed around the outer periphery thereof. The edged portion has at least two steps each defining an edge and being adapted to be supplied with liquid to be atomized. The vibratory element is provided with a liquid supply groove extending generally longitudinally to supply the liquid to the edge portion in a consistent and stable manner.

Abstract translation: 本发明由超声波雾化振动元件组成，其具有围绕其外周形成的多阶边缘部分。 边缘部分具有至少两个步骤，每个步骤限定边缘并且适于被供应待被雾化的液体。 振动元件设置有大致纵向延伸的液体供应槽，以一致且稳定的方式将液体供应到边缘部分。

公开(公告)号：US4653268A

公开(公告)日：1987-03-31

申请号：US741729

申请日：1985-06-06

Applicant: Hiromi Nakamura ,  Takehiko Takahashi ,  Norio Narazaki ,  Kazuo Yamamoto ,  Norio Sayama

Inventor： Hiromi Nakamura ,  Takehiko Takahashi ,  Norio Narazaki ,  Kazuo Yamamoto ,  Norio Sayama

IPC: F01K21/04 ,  F02C7/143 ,  F02C3/30

CPC classification number: F02C7/143 ,  F01K21/047 ,  Y02E20/16

Abstract: In a regenerative gas turbine cycle in which heat recovery is carried out by multi-phase and multi-component mixture of compressed air/liquid phase water/steam (hereinafter referred to as MPC mixture), said mixture being obtained by injection of liquid phase water (hereinafter referred to simply as water) into a part of or the whole of compressed gas using air or air based gas (hereinafter referred to as air) as a combustion supporting/working medium gas; the improvement comprising(a) intercooling of said compressor, and/or(b) precooling of the compressed air for producing the MPC mixtureby a part of the MPC mixture.

Abstract translation: 在通过压缩空气/液相水/蒸汽的多相和多组分混合物（以下称为MPC混合物）进行热回收的再生燃气轮机循环中，所述混合物通过注入液相水 （以下简称为水）成为使用空气或空气的气体（以下称为空气）作为燃烧支撑/作业介质气体的压缩气体的一部分或全部; 所述改进包括（a）所述压缩机的中间冷却和/或（b）用于由MPC混合物的一部分产生MPC混合物的压缩空气的预冷却。

公开(公告)号：US4610137A

公开(公告)日：1986-09-09

申请号：US744238

申请日：1985-06-13

Applicant: Hiromi Nakamura ,  Takehiko Takahashi ,  Norio Narazaki ,  Kazuo Yamamoto ,  Norio Sayama

Inventor： Hiromi Nakamura ,  Takehiko Takahashi ,  Norio Narazaki ,  Kazuo Yamamoto ,  Norio Sayama

IPC: F01K21/04 ,  F02C7/143 ,  F02C7/16 ,  F02C3/30

CPC classification number: F02C7/143 ,  F01K21/047 ,  F02C7/16 ,  F05D2260/211 ,  Y02E20/16

Abstract: A regenerative gas turbine cycle wherein heat recovery is carried out by a mixture of air/steam which is obtained by contact between water and compressed air, the compressed air being compressed by a compressor for compressing gas using air or air based gas as a combustion supporting/working medium gas. The cycle includes the improvement whereby mixture of air/steam and liquid phase cooled water is obtained through contact between the compressed air and heated water which is used as heat recovering medium; the cooled water being used as heat recovering medium not only for heat recovery of turbine exhaust gas but also, for(a) intercooling of the compressor, and/or(b) precooling of compressed air for the contact operation.Water corresponding to the amount of water which contacts the compressed air and is lost by evaporation is added to the liquid phase water for contact or heat recovery as it is or after use as a heat recovering medium.

公开(公告)号：US4537023A

公开(公告)日：1985-08-27

申请号：US448322

申请日：1982-12-09

Applicant: Hiromi Nakamura ,  Takehiko Takahashi ,  Norio Narazaki ,  Kazuo Yamamoto ,  Norio Sayama

Inventor： Hiromi Nakamura ,  Takehiko Takahashi ,  Norio Narazaki ,  Kazuo Yamamoto ,  Norio Sayama

IPC: F01K21/04 ,  F02C7/143 ,  F02C7/16 ,  F02C7/00

CPC classification number: F02C7/143 ,  F01K21/047 ,  F02C7/16 ,  F05D2260/211 ,  Y02E20/16

Abstract: In a regenerative gas turbine cycle in which heat recovery is carried out by a mixture of air/steam which is obtained by contact between water and a part of or the whole of compressed air, said compressed air being compressed by a compressor for compressing gas using air or air based gas as a combustion supporting/working medium gas; the improvement comprising: the mixture of air/steam and liquid phase cooled water being obtained through the contact between the compressed air and heated water which is used as heat recovering medium; said cooled water being used as heat recovering medium not only for heat recovery of turbine exhaust gas but also, for(a) intercooling of the compressor, and/or(b) precooling of compressed air for the contact operation;supplying water corresponding to the amount of water which contacts the compressed air and is lost by evaporation to the liquid phase water for contact or heat recovery as it is or after using as a heat recovering medium.

Abstract translation: 在通过水与一部分或全部压缩空气接触获得的空气/蒸汽的混合物进行热回收的再生式燃气轮机循环中，所述压缩空气被压缩机压缩，用于压缩气体，使用 空气或空气基气体作为燃烧支持/工作介质气体; 该改进包括：通过压缩空气和用作热回收介质的加热水之间的接触获得空气/蒸汽和液相冷却水的混合物; 所述冷却水不仅用于热回收涡轮废气，而且还用于（a）压缩机的中间冷却和/或（b）用于接触操作的压缩空气的预冷却; 将与压缩空气接触的水量相应地蒸发的水相当于作为热回收介质的使用时或作为热回收介质使用后，向蒸发的液相水供给接触或热回收。

公开(公告)号：US4029000A

公开(公告)日：1977-06-14

申请号：US586283

申请日：1975-06-12

Applicant: Hiromi Nakamura ,  Yosizo Komiyama ,  Mitsuo Yamashita ,  Masaji Ishii

Inventor： Hiromi Nakamura ,  Yosizo Komiyama ,  Mitsuo Yamashita ,  Masaji Ishii

IPC: B22D17/20 ,  F04B15/04 ,  F04B53/14 ,  F04B53/16 ,  F01B11/02 ,  C04B35/56 ,  C04B35/58

CPC classification number: F04B15/04 ,  B22D17/2015 ,  F04B53/14 ,  F04B53/162 ,  F05C2201/025 ,  F05C2201/0466 ,  F05C2201/0475 ,  F05C2203/083 ,  F05C2253/12

Abstract: The cylinder and piston of an injection pump which are severely corroded by molten aluminum or the like are made of a composite sintered body containing two or more of the compounds selected from the group consisting of boron carbide, titanium diboride, zirconium diboride and boron nitride, and having excellent corrosion resistant, wear resistant and heat shock properties and high mechanical strength. One or more of the compounds selected from the group consisting of borides of tantalum, molybdenum and tungsten; carbides of silicon, zirconium, tantalum, vanadium,chromium, tungsten and molybdenum; nitrides of titanium, aluminum, silicon and zirconium; and oxides of aluminum and beryllium may be incorporated.

Abstract translation: 由熔融铝等严重腐蚀的注射泵的气缸和活塞由包含选自碳化硼，二硼化钛，二硼化锆和氮化硼中的两种或更多种化合物的复合烧结体制成， 具有优异的耐腐蚀，耐磨，耐热冲击性能和高机械强度。 一种或多种选自钽，钼和钨的硼化物的化合物; 硅，锆，钽，钒，铬，钨和钼的碳化物; 钛，铝，硅和锆的氮化物; 并且可以掺入铝和铍的氧化物。

公开(公告)号：US20090231876A1

公开(公告)日：2009-09-17

申请号：US12401991

申请日：2009-03-11

Applicant: Hiromi Nakamura ,  Hironori Tsukamoto

Inventor： Hiromi Nakamura ,  Hironori Tsukamoto

IPC: F21S8/10 ,  B60Q1/00

CPC classification number: B60Q1/1407 ,  B60Q11/00 ,  B60Q2400/30

Abstract: A vehicular headlamp is provided. The vehicular headlamp includes a headlamp which emits light; an indication lamp comprising semiconductor light-emitting elements as light sources; and an electric circuit which supplies a current to the indication lamp. The indication lamp is divided into at least two light source sections comprising respective sets of light sources, and at least one of the light source sections is disposed in a high-temperature region whose temperature is made higher than in a remainder of the light source sections while the headlamp unit is lit. The electric circuit controls the light source sections individually so that a current supplied to the light source section disposed in the high-temperature region is made smaller than a current supplied to the remainder of the light source sections.

Abstract translation: 提供车辆前照灯。 车辆前照灯包括发光的前照灯; 指示灯，其包括作为光源的半导体发光元件; 以及向指示灯提供电流的电路。 指示灯被分成至少两个包括各组光源的光源部分，并且光源部分中的至少一个设置在高温区域中，所述高温区域的温度高于光源部分的其余部分 而大灯单元点亮。 电路分别控制光源部分，使得提供给设置在高温区域中的光源部分的电流小于提供给光源部分的其余部分的电流。

公开(公告)号：US20080158897A1

公开(公告)日：2008-07-03

申请号：US11999298

申请日：2007-12-04

Applicant: Hiromi Nakamura ,  Kazuma Mochizuki ,  Yoshinao Daicho ,  Hiromi Umehara ,  Yasuo Teranishi

Inventor： Hiromi Nakamura ,  Kazuma Mochizuki ,  Yoshinao Daicho ,  Hiromi Umehara ,  Yasuo Teranishi

IPC: B60Q1/00 ,  G01S13/00

CPC classification number: G01S17/936 ,  B60Q1/0023 ,  B60Q1/076 ,  G01S7/4026 ,  G01S7/4972 ,  G01S13/931 ,  G01S2007/403 ,  G01S2007/4034 ,  G01S2013/9396 ,  H01Q1/3233 ,  H01Q1/3291

Abstract: A vehicular lamp 1 including a lamp chamber 7, which is formed with a lamp body 3 and a transparent front cover 5 attached to the front opening of the lamp body, and a lamp unit 13, which includes a reflector 9 and a light source 11 and is provided in the lamp chamber 7 so that the optical axis direction of the lamp unit is adjusted by a tilting movement adjustment mechanism 15, wherein a millimeter wave radar device 25 is attached to the lamp body, and a reflection mirror 31 that reflects, toward the front of the lamp, a millimeter wave signal 29 emitted by the millimeter wave radar device is attached to a supporting frame 21 which is a part of the tilting movement adjustment mechanism.

Abstract translation: 包括形成有灯体3的灯室7和安装在灯体的前开口的透明前盖5的灯室1和灯单元13，灯单元13包括反射器9和光源11 并且设置在灯室7中，使得通过倾斜运动调节机构15来调节灯单元的光轴方向，其中，毫米波雷达装置25附接到灯体，反射镜31， 朝向灯的前部，由毫米波雷达装置发射的毫米波信号29附接到作为倾斜运动调节机构的一部分的支撑框架21。

公开(公告)号：US06251208B1

公开(公告)日：2001-06-26

申请号：US08960230

申请日：1997-10-29

Applicant: Shogo Serizawa ,  Haruji Hosoi ,  Hiromi Nakamura ,  Yutaka Hasegawa

Inventor： Shogo Serizawa ,  Haruji Hosoi ,  Hiromi Nakamura ,  Yutaka Hasegawa

IPC: B32B3104

CPC classification number: H01J9/242 ,  C03B19/06 ,  H01J2211/36

Abstract: A structure having fine ribs with a high dimensional precision is used as the rear panel of a plasma display or as a micro organism carrier for use in a chemical device. The present invention aims to provide a method for manufacturing such a structure at low cost. According to the invention, a composite sheet comprises a surface layer of silicone rubber and a base layer of a steel sheet. Grooves are formed in the surface layer, and filled with a paste material. The paste material is cured to form ribs. After a substrate is placed on the surface layer of the composite sheet, the composite sheet is pressed against the substrate from the base layer side, thereby compressing the ribs and adhering them to the substrate. Thereafter, the ribs and the substrate are removed from the composite sheet. As a result, a structure with fine ribs is obtained.

Abstract translation: 使用具有高尺寸精度的细肋的结构作为等离子显示器的后面板或用作化学装置中的微生物载体。 本发明旨在提供一种以低成本制造这种结构的方法。 根据本发明，复合片材包括硅橡胶的表面层和钢板的基层。 在表面层中形成槽，并填充糊状材料。 糊料固化以形成肋。 将基板放置在复合片材的表面层上之后，将复合片材从基底层侧压向基板，从而压缩肋条并将其粘附到基板上。 此后，从复合片材中除去肋和基片。 结果，获得具有细肋的结构。

公开(公告)号：US6048380A

公开(公告)日：2000-04-11

申请号：US866435

申请日：1997-05-30

Applicant: Minoru Asanuma ,  Tatsuro Ariyama ,  Yukihiko Asakawa ,  Koichi Tomioka ,  Mitsuhiro Fujii ,  Hiromi Nakamura ,  Tsutomu Shikada

Inventor： Minoru Asanuma ,  Tatsuro Ariyama ,  Yukihiko Asakawa ,  Koichi Tomioka ,  Mitsuhiro Fujii ,  Hiromi Nakamura ,  Tsutomu Shikada

IPC: C10B53/00 ,  C10B53/07 ,  C10L5/48 ,  C10L9/08 ,  C21B7/00

CPC classification number: C10L9/08 ,  C10B53/07 ,  C10L5/48 ,  Y02P20/143

Abstract: A method for disposing synthetic resinous material comprises: dechlorinating a synthetic resinous material by heating the synthetic resinous material and decomposing the same; and supplying the synthetic resinous material into the furnace as a fuel or a reducing agent. An apparatus comprises: a chlorine removing means for dechlorinating the synthetic resinous material by heating the synthetic resinous material; and a pulverizer for pulverizing the dechlorinated synthetic resinous material, a supply means for supplying the processed synthetic resinous material into a furnace.

Abstract translation: 一种处理合成树脂材料的方法包括：通过加热合成树脂材料并分解合成树脂材料进行脱氯; 并将合成树脂材料作为燃料或还原剂供给到炉中。 一种装置包括：通过加热合成树脂材料使合成树脂材料脱氯的氯去除装置; 以及用于粉碎脱氯合成树脂材料的粉碎机，用于将加工的合成树脂材料供应到炉中的供应装置。

公开(公告)号：US5356493A

公开(公告)日：1994-10-18

申请号：US86507

申请日：1993-07-01

Applicant: Seishi Tsuyama ,  Yoshihiro Hosoya ,  Shuji Kanetoh ,  Daijiro Koyanagi ,  Hiromi Nakamura ,  Satoshi Kohira

Inventor： Seishi Tsuyama ,  Yoshihiro Hosoya ,  Shuji Kanetoh ,  Daijiro Koyanagi ,  Hiromi Nakamura ,  Satoshi Kohira

IPC: C22C38/14 ,  C21P8/04 ,  C22C38/06

CPC classification number: C22C38/14

Abstract: Blister-resistant steel sheet consists essentially of 0.0005 to 0.003 wt. % C, 0.10 to 2.2 wt. % Mn, 0.6 wt. % or less Si, 0.07 wt. % or less P, 0.025 wt. % or less S, 0.02 to 0.06 wt. % of sol. Al, 0.0035 wt. % or less N, 0.003 wt. % or less O, [(48/14)N+(48/32)S+4.times.(48/12)C] wt. % or less Ti and the balance being Fe and inevitable impurities; and smaller one of either Ti (wt. %) or [(48/14)N+(48/32)S] (wt. %) being [0.002 t.sup.2 +0.003] or more, where t is a thickness (mm) of the steel sheet. Method for producing blister-resistant steel sheet comprises preparing a cold rolled steel sheet having the composition of described above, and continuously annealing or continuous hot dip galvanizing by heating the steel sheet from room temperature to 650.degree.-720.degree. C. at a rate of 20.degree. C. sec or more and further to the soaking temperature above recrystallization temperature at a rate of 1.degree.-5.degree. C./sec.

Abstract translation: 防水钢板基本上由0.0005〜0.003重量％ ％C，0.10〜2.2重量％ ％Mn，0.6重量％ ％以下Si，0.07重量％ ％以下P，0.025重量％ ％以下S，0.02〜0.06重量％ ％的溶胶。 Al，0.0035wt。 ％以下N，0.003重量％ ％或更少的O，[（48/14）N +（48/32）S + 4x（48/12）C] Ti％以下，余量为Fe和不可避免的杂质; Ti（重量％）或[（48/14）N +（48/32）S]（重量％）中的较小的一个为[0.002t2 + 0.003]或更大，其中t是 钢板。 制造耐泡性钢板的方法包括制备具有上述组成的冷轧钢板，并且通过将钢板从室温加热至650-720℃，连续退火或连续热浸镀锌，速率为 20℃以上，进一步在1℃〜5℃/秒的重结晶温度以上的均热温度。