公开(公告)号：US20100308574A1

公开(公告)日：2010-12-09

申请号：US12746842

申请日：2009-03-27

Applicant: Noriyuki Takeda ,  Shoichi Doi

Inventor： Noriyuki Takeda ,  Shoichi Doi

IPC: F16L17/00

CPC classification number: F16K41/10 ,  F17D5/04 ,  Y10T137/5762

Abstract: To provide a double pipe apparatus which prevents gas flowing through an outer pipe and an inner pipe from leaking outside the outer pipe. The double pipe apparatus (10) according to an embodiment includes an outer pipe (11) and an inner pipe (12) inserted into the outer pipe (11), and regulates a flow of a gas (A) flowing through the double pipe apparatus. The double pipe apparatus (10) includes a flow regulating valve (13) which regulates the flow of the gas (A) flowing through the inner pipe (12), a valve stem (14) which supports the flow regulating valve (13) and which penetrates the outer pipe (11) and the inner pipe (12), and fluid leakage preventing parts (16) including a bellows (15) which is provided between the outer pipe (11) and the inner pipe (12) and which prevents the gas (A) from leaking outside the outer pipe (11). One end of the bellows (15) is attached to an inner wall (11a) of the outer pipe (11), and the other end of the bellows (15) is attached to a flange (14a) formed on the valve stem (14), so that the gas (A) flowing through the inner pipe (12) is prevented from leaking outside the outer pipe (11).

Abstract translation: 提供一种防止气体流过外管和内管的泄漏在外管外的双管装置。 根据实施例的双管装置（10）包括插入外管（11）中的外管（11）和内管（12），并且调节流经双管装置的气体（A）的流动 。 双管装置（10）包括调节流过内管（12）的气体（A）流动的流量调节阀（13），支撑流量调节阀（13）的阀杆（14）和 穿过外管（11）和内管（12）的流体泄漏防止部（16）和设置在外管（11）与内管（12）之间的波纹管（15）的防漏液部件 气体（A）从外管（11）外部泄漏。 波纹管（15）的一端安装在外管（11）的内壁（11a）上，波纹管（15）的另一端安装在形成在阀杆（14）上的凸缘（14a） ），从而防止流过内管（12）的气体（A）泄漏到外管（11）的外侧。

公开(公告)号：US20100282031A1

公开(公告)日：2010-11-11

申请号：US12811111

申请日：2009-01-06

Applicant: Noriyuki Takeda ,  Shoichi Doi

Inventor： Noriyuki Takeda ,  Shoichi Doi

IPC: B25B13/48 ,  B25B13/06

CPC classification number: B25B13/488 ,  B25B13/06 ,  B25B13/48

Abstract: A socket 10 for a socket wrench according to the present embodiment is a socket for a socket wrench having a double structure made up of an outer cylinder 11 and an inner cylinder 12, and has slits 13A and 13B extending over the entire length along the axial direction of respective side surfaces of bodies 11a and 12a of the outer cylinder 11 and the inner cylinder 12, respectively. The outer cylinder 11 includes, at the leading end thereof, a leading-end fitting section 11c that corresponds to the shape of a head 16a of a fixing bolt of a member 16 to be fastened. The inner cylinder 12 includes a leading-end fitting section 12c that corresponds to the shape of a head 16b of a fastening bolt of the member 16 to be fastened. The leading-end fitting section 11c and the head 16a of the fixing bolt are fitted to fix the member 16 to be fastened, and the leading-end fitting section 12c and the head 16b of the fastening bolt are fitted to fasten the member 16 to be fastened, whereby a wire 17 is brought out from the inner cylinder 12 through the slits 13A and 13B.

Abstract translation: 根据本实施例的用于套筒扳手的插座10是具有由外筒11和内筒12组成的双重结构的套筒扳手的插座，并且具有沿着轴向在整个长度上延伸的狭缝13A和13B 外筒11和内筒12的主体11a，12a的各侧面的方向。 外筒11的前端包括与被固定的构件16的固定螺栓的头部16a的形状对应的前端嵌合部11c。 内筒12包括与要紧固的构件16的紧固螺栓的头部16b的形状对应的前端配合部12​​c。 前端装配部分11c和固定螺栓的头部16a被装配以固定待紧固的构件16，并且紧固螺栓的前端装配部分12c和头部16b被装配以将构件16紧固到 被紧固，由此通过狭缝13A和13B将线17从内筒12中取出。

公开(公告)号：US08534713B2

公开(公告)日：2013-09-17

申请号：US12808878

申请日：2009-03-27

Applicant: Noriyuki Takeda ,  Shoichi Doi

Inventor： Noriyuki Takeda ,  Shoichi Doi

IPC: F16L7/02 ,  F16L23/036

CPC classification number: F16L39/005 ,  F16L23/003 ,  F16L39/04 ,  F16L45/00

Abstract: To provide a connecting structure of a double tube and an assembling or disassembling method of the double tube capable of disassembling or repairing an inner tube without cutting an outer tube. A connecting structure (10A) includes an outer tube (11) and an inner tube (12). The outer tube (11) is provided at a location corresponding to a connection flange portion (13) of the inner tube (12) with an outer tube short cylinder (15) including openings (14) each having a lid (14a). The outer tube short cylinder (15) is provided at respective ends with outer tube connection flange portions (16A and 16B). There are provided push-up bolts (21) capable of adjusting gaps respectively between an outer tube connection flange portions (17A-1 and 17A-2) which are opposed to each other, and between an outer tube connection flange portions (17B-1 and 17B-2).

Abstract translation: 提供双管的连接结构和双管的组装或拆卸方法，其能够在不切割外管的情况下拆卸或修理内管。 连接结构（10A）包括外管（11）和内管（12）。 外管（11）设置在与内管（12）的连接凸缘部（13）相对应的位置，外管短筒（15）包括各自具有盖（14a）的开口（14）。 外筒短筒（15）在各端部设置有外筒连接凸缘部（16A，16B）。 设置有能够分别在彼此相对的外管连接凸缘部分（17A-1和17A-2）之间以及在外管连接凸缘部分（17B-1）之间调节间隙的上推螺栓（21） 和17B-2）。

公开(公告)号：US08511333B2

公开(公告)日：2013-08-20

申请号：US12746842

申请日：2009-03-27

Applicant: Noriyuki Takeda ,  Shoichi Doi

Inventor： Noriyuki Takeda ,  Shoichi Doi

IPC: F16K31/00 ,  F16K23/00

CPC classification number: F16K41/10 ,  F17D5/04 ,  Y10T137/5762

Abstract: A double pipe apparatus that includes an outer pipe and an inner pipe inserted into the outer pipe, and regulates a flow of a gas flowing through the double pipe apparatus. The double pipe apparatus includes a flow regulating valve, a valve stem which which penetrates the outer pipe and the inner pipe, and fluid leakage preventing parts including a bellows which is provided between the outer pipe and the inner pipe and which prevents the gas from leaking outside the outer pipe. One end of the bellows is attached to an inner wall of the outer pipe, and the other end of the bellows is attached to a flange formed on the valve stem, so that the gas flowing through the inner pipe is prevented from leaking outside the outer pipe.

Abstract translation: 一种双管装置，其包括插入到外管中的外管和内管，并且调节流经双管装置的气体的流动。 双管装置包括流量调节阀，穿过外管和内管的阀杆，以及包括设置在外管和内管之间并且防止气体泄漏的波纹管的防漏液部分 外管外。 波纹管的一端安装在外管的内壁上，波纹管的另一端安装在形成在阀杆上的凸缘上，从而防止流过内管的气体泄漏到外管外部 管。

公开(公告)号：US20100270788A1

公开(公告)日：2010-10-28

申请号：US12808878

申请日：2009-03-27

Applicant: Noriyuki Takeda ,  Shoichi Doi

Inventor： Noriyuki Takeda ,  Shoichi Doi

IPC: F16L55/00 ,  F16L19/00

CPC classification number: F16L39/005 ,  F16L23/003 ,  F16L39/04 ,  F16L45/00

Abstract: To provide a connecting structure of a double tube and an assembling or disassembling method of the double tube capable of disassembling or repairing an inner tube without cutting an outer tube. A connecting structure (10A) includes an outer tube (11) and an inner tube (12). The outer tube (11) is provided at a location corresponding to a connection flange portion (13) of the inner tube (12) with an outer tube short cylinder (15) including openings (14) each having a lid (14a). The outer tube short cylinder (15) is provided at respective ends with outer tube connection flange portions (16A and 16B). There are provided push-up bolts (21) capable of adjusting gaps respectively between an outer tube connection flange portions (17A-1 and 17A-2) which are opposed to each other, and between an outer tube connection flange portions (17B-1 and 17B-2).

Abstract translation: 提供双管的连接结构和双管的组装或拆卸方法，其能够在不切割外管的情况下拆卸或修理内管。 连接结构（10A）包括外管（11）和内管（12）。 外管（11）设置在与内管（12）的连接凸缘部（13）相对应的位置，外管短筒（15）包括各自具有盖（14a）的开口（14）。 外筒短筒（15）在各端部设置有外筒连接凸缘部（16A，16B）。 设置有能够分别在彼此相对的外管连接凸缘部分（17A-1和17A-2）之间以及在外管连接凸缘部分（17B-1）之间调节间隙的上推螺栓（21） 和17B-2）。

公开(公告)号：US5301646A

公开(公告)日：1994-04-12

申请号：US994319

申请日：1992-12-21

Applicant: Shoichi Doi ,  Masaru Shimizu ,  Mitsuo Kikkawa ,  Shinichiro Tanaka ,  Keiji Aoki

Inventor： Shoichi Doi ,  Masaru Shimizu ,  Mitsuo Kikkawa ,  Shinichiro Tanaka ,  Keiji Aoki

IPC: F02D9/02 ,  F02D11/10

CPC classification number: F02D11/10 ,  F02D9/02 ,  F02D2009/0264 ,  F02D2009/0267 ,  F02D2011/103

Abstract: The invention is directed to a throttle control apparatus for use in an internal combustion engine. The apparatus includes an accelerator operating mechanism, a driving source, and a supporting member secured to an end portion of a throttle shaft extending out of a housing. A rotor is rotatably mounted on the throttle shaft, and connected with the driving source to be rotated thereby. A movable member is mounted on the throttle shaft between the rotor and the supporting member to be axially movable. A connecting member is disposed for connecting the movable member with the supporting member, and biasing the former toward the latter. An electromagnetic coil is disposed to face the rotor. There is provided an engaging member which has a base end mounted on the movable member for supporting the engaging member rotatably within a predetermined angle range. A driving member having an end face engageable with the engaging member is mounted rotatably about an axis parallel with the axis of the throttle shaft, and connected with the accelerator operating mechanism. The engaging member has an axial length engageable with the end face of the driving member only when the movable member is positioned at the side of the supporting member.

Abstract translation: 本发明涉及一种用于内燃机的节气门控制装置。 该装置包括加速器操作机构，驱动源和固定到延伸出壳体的节流轴的端部的支撑构件。 转子可旋转地安装在节流轴上，并与驱动源连接，由此旋转。 可动构件安装在转子和支撑构件之间的节流轴上以可轴向移动。 连接构件被设置用于将可动构件与支撑构件连接起来，并且朝向后者偏置前者。 设置电磁线圈以面对转子。 提供了一种接合构件，其具有安装在可动构件上的基端，用于将接合构件可旋转地支撑在预定角度范围内。 具有与接合构件接合的端面的驱动构件围绕与节流轴的轴线平行的轴线可旋转地安装，并与加速器操作机构连接。 只有当可动构件位于支撑构件的侧面时，接合构件具有可与驱动构件的端面接合的轴向长度。

公开(公告)号：US5064866A

公开(公告)日：1991-11-12

申请号：US363939

申请日：1989-06-09

Applicant: Kazuo Toyomoto ,  Shoichi Doi ,  Noboru Kubota

Inventor： Kazuo Toyomoto ,  Shoichi Doi ,  Noboru Kubota

IPC: B01D67/00 ,  C08J5/22 ,  C08J7/18

CPC classification number: B01D67/0093 ,  C08J5/2243 ,  C08J7/18 ,  B01D2323/385 ,  C08J2333/12

Abstract: A selectively ion-adsorptive, porous membrane comprising a membranous, porous resin matrix of a hydrophobic polyolefin or a hydrophobic copolymer of an olefin and a halogenated olefin and a plurality of side chains chemically bonded to both surfaces, which in turn are inclusive of pore wall surfaces, of the membranous porous resin matrix is disclosed. The side chains collectively contain both neutral hydroxyl groups and ion exchange groups. The selectively ion-adsorptive, porous membrane is suitable for use in selective purification or selective removal of desired ionic substances including not only ionic inorganic substances but also an ionic organic substances, such as a protein and an amino acid, on a commercial scale. Further, the selectively ion-adsorptive, porous membrane has not only excellent heat resistance, but also excellent mechanical strength. Therefore, the porous membrane of the present invention can advantageously be used for industrial applications, such as pharmacy, fermentation and the like.

公开(公告)号：US09034151B2

公开(公告)日：2015-05-19

申请号：US12174897

申请日：2008-07-17

Applicant: Shoichi Doi ,  Tatsuya Nishiwaki

Inventor： Shoichi Doi ,  Tatsuya Nishiwaki

IPC: C23C14/00 ,  C23C14/32 ,  C25B9/00 ,  C25B11/00 ,  C25B13/00 ,  C23C14/34 ,  C23C14/06 ,  H01J37/34 ,  C23C14/04 ,  C23C14/46 ,  G02F1/1337 ,  C23C14/22

CPC classification number: C23C14/221 ,  C23C14/042 ,  C23C14/0605 ,  C23C14/225 ,  C23C14/3442 ,  C23C14/46 ,  G02F1/133734 ,  G02F1/13378 ,  H01J37/3411 ,  H01J37/3426 ,  H01J2237/3146

Abstract: An alignment film forming apparatus and a method are provided to form an alignment film for a liquid crystal in a single process of simultaneously executing a film deposition process of ion beam sputtering and an alignment process. The method greatly restricts the size of a substrate. An alignment film forming apparatus includes a target disposed on a top surface side of a substrate and having a sputtering surface defining a sharp angle to the top surface of the substrate, a transfer table that transfers the substrate in a predetermined direction, and an ion source disposed on the top surface side of the substrate in such a way that an ion beam is irradiated on the sputtering surface of the target. An ion beam reflected at the sputtering surface is irradiated on a sputtering film formed on the substrate. The apparatus includes a mask disposed in such a way as to cover a part of the top surface of the substrate on an upstream side of a position where the sputtering film is formed, and a temperature regulator which regulates the temperature of the target.

Abstract translation: 提供了一种取向膜形成装置和方法，以在同时执行离子束溅射的成膜工艺和对准工艺的单个工艺中形成用于液晶的取向膜。 该方法大大限制了基板的尺寸。 取向膜形成装置包括：设置在基板的顶面侧的靶，具有与基板的上表面形成锐角的溅射面;将基板沿预定方向转印的转印台;离子源 设置在基板的顶面侧，使得离子束照射在靶的溅射表面上。 在溅射表面反射的离子束照射在形成在基板上的溅射膜上。 该装置包括掩模，其设置成覆盖形成溅射膜的位置的上游侧的基板顶表面的一部分，以及调节靶的温度的温度调节器。

公开(公告)号：US6148503A

公开(公告)日：2000-11-21

申请号：US282390

申请日：1999-03-31

Applicant: Frank M. Delnick ,  Shoichi Doi ,  Shigenobu Denzumi

Inventor： Frank M. Delnick ,  Shoichi Doi ,  Shigenobu Denzumi

IPC: H01M2/16 ,  H01M10/0525 ,  H01M6/00

CPC classification number: H01M2/1673 ,  H01M4/02 ,  H01M10/0525 ,  H01M2/164 ,  Y10T29/49108 ,  Y10T29/49114

Abstract: A method of forming a porous composite separator layer for an electrochemical cell comprising the steps of printing a thin layer of a separator precursor solution on the surface of one of the electrochemical cell electrodes, curing the thin layer of separator precursor solution so that it transforms into a microporous composite separator structure. In the preferred embodiment, the separator precursor solution is formulated as an ink comprising a silica aerogel filler material dispersed in a solution of chlorinated polyolefin binder which is dissolved in a suitable solvent. The process allows the manufacture of thin and flexible composite separators which are conformally bonded to the underlying electrodes.

Abstract translation: 一种形成用于电化学电池的多孔复合隔离层的方法，包括以下步骤：在一个电化学电池电极的表面上印刷隔板前体溶液的薄层，固化隔膜前体溶液的薄层，使其转变成 微孔复合隔板结构。 在优选的实施方案中，分离器前体溶液配制成包含分散在溶解在合适溶剂中的氯化聚烯烃粘合剂溶液中的二氧化硅气凝胶填料的油墨。 该方法允许制造薄且柔性的复合分离器，其被共形结合到下面的电极。

公开(公告)号：US5435284A

公开(公告)日：1995-07-25

申请号：US144433

申请日：1993-11-02

Applicant: Masaru Shimizu ,  Masaharu Hayashi ,  Mitsuo Kikkawa ,  Shoichi Doi ,  Yoshifumi Yamada ,  Shinichiro Tanaka ,  Ichiro Hosotani

Inventor： Masaru Shimizu ,  Masaharu Hayashi ,  Mitsuo Kikkawa ,  Shoichi Doi ,  Yoshifumi Yamada ,  Shinichiro Tanaka ,  Ichiro Hosotani

IPC: B60K31/00 ,  F02D9/02 ,  F02D11/10 ,  F02D7/00

CPC classification number: F02D9/02 ,  F02D11/107 ,  F02D2009/025 ,  F02D2009/0277

Abstract: A throttle control apparatus includes a throttle opening adjusting device for regulating the throttle valve opening in such a manner that the throttle valve is located in a first position for assuring sufficient opening of the throttle valve upon ignition, with the throttle valve being rotatable after establishment of ignition or combustion. The throttle valve is then moved to a second position located between the first position and a fully closed position upon an electric failure.

Abstract translation: 节气门控制装置包括：节气门开度调节装置，用于调节节气门开度，使得节气门位于第一位置，用于确保节气门在点火时足够的打开，节气门可在成立之后旋转 点燃或燃烧。 然后，当电气故障时，节流阀被移动到位于第一位置和完全关闭位置之间的第二位置。