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公开(公告)号:US08430794B2
公开(公告)日:2013-04-30
申请号:US13023723
申请日:2011-02-09
CPC分类号: F16H61/12 , F16H61/0206 , F16H61/686 , F16H2061/1232 , F16H2061/1292 , Y10T477/69363
摘要: A hydraulic control apparatus of an automatic transmission which can supply a hydraulic oil pressure to one or more hydraulic servos of frictional engagement elements at a failure time when a de-energized condition is attained. The apparatus includes a normally closed type first solenoid valve for generating the hydraulic oil pressure, and a normally open type second solenoid valve for outputting a first signal pressure for adjusting and controlling an oil pressure to a line pressure; a signal output device for outputting the line pressure or a modulator pressure. The line pressure is reduced to a certain pressure, as a second signal pressure at a normal time, and causes the second signal pressure not to be output at the failure time; and an oil pressure switching device switchable between a normal time position in which the hydraulic oil pressure from the first solenoid valve can be supplied to the hydraulic servo, and a failure time position in which the input line pressure is supplied to the hydraulic servo, is switched to the normal time position by the first signal pressure and second signal pressure, which are input opposed to each other, being input, and switched to the failure time position by the first signal pressure being input and the second signal pressure not being input.
摘要翻译: 一种自动变速器的液压控制装置,其能够在达到断电状态的失效时间向一个或多个摩擦接合元件的液压伺服系统提供液压油压力。 该装置包括用于产生液压油压的常闭型第一电磁阀和用于输出用于调节和控制油压至管路压力的第一信号压力的常开型第二电磁阀; 用于输出管路压力或调制器压力的信号输出装置。 线路压力在正常时间作为第二信号压力降低到一定压力,并且在故障时间引起第二信号压力不被输出; 以及可以在可以向液压伺服器供给来自第一电磁阀的液压油的正常时间位置和向液压伺服机构输入输入管路压力的故障时间位置之间切换的油压切换装置, 通过输入相对输入的第一信号压力和第二信号压力切换到正常时间位置,并且被输入的第一信号压力并且不输入第二信号压力而被切换到故障时间位置。
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公开(公告)号:US08425810B2
公开(公告)日:2013-04-23
申请号:US13146702
申请日:2010-01-19
IPC分类号: D04H1/72
CPC分类号: D01D5/18 , D01D5/0061 , D01D5/0069 , D04H1/4291 , D04H1/4382 , D04H1/728
摘要: A nanofiber production device produces nanofibers by stretching, in a space, a solution. The nanofiber production device includes: an effusing body which effuses the solution into the space by centrifugal force; a driving source which rotates the effusing body; a supplying electrode which is placed at a predetermined distance from the effusing body and supplies charge to the solution via the effusing body; a charging electrode to which a potential of reverse polarity to a polarity of the effusing body is applied, with the charging electrode being placed at a predetermined distance from the effusing body; and a charging power source which applies a predetermined voltage between the supplying electrode and the charging electrode.
摘要翻译: 纳米纤维生产设备通过在空间中拉伸溶液来生产纳米纤维。 纳米纤维生产装置包括:通过离心力将溶液喷射到空间中的流出体; 使排出体旋转的驱动源; 供给电极,其设置在与所述排出体相距预定距离处,并且经由所述排出体向所述溶液供给电荷; 充电电极,其中施加与所述汲取体的极性相反极性的电位,所述充电电极被放置在距所述汲取体的预定距离处; 以及在供电电极和充电电极之间施加预定电压的充电电源。
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公开(公告)号:US08308612B2
公开(公告)日:2012-11-13
申请号:US12461073
申请日:2009-07-30
CPC分类号: F04B17/044 , F04B35/045 , F04B49/06 , F16H61/0031 , F16H2312/14 , Y10T477/69398
摘要: A drive unit that includes a solenoid device that includes: a solenoid section having a movable portion that abuts on a case to arrive at an initial state when de-energized; a pump section axially sliding in association with a movement of the movable portion by an electromagnetic force of the solenoid section and pumping a hydraulic fluid by reciprocation; and an elastic member biasing the pump section in a direction counter to the electromagnetic force of the solenoid section; and a control unit that controls the solenoid device so that a current applied to the solenoid section is repeatedly increased and decreased between an upper limit value and a lower limit value that is greater than 0.
摘要翻译: 一种驱动单元,其包括螺线管装置,所述螺线管装置包括:螺线管部,其具有与断开时达到初始状态的壳体抵接的可动部; 泵部分通过螺线管部分的电磁力与可移动部分的运动相关联地轴向滑动并且通过往复运动来泵送液压流体; 以及弹性构件,其沿与所述螺线管部的电磁力相反的方向偏压所述泵部; 以及控制单元,其控制螺线管装置,使得施加到螺线管部分的电流在大于0的上限值和下限值之间重复地增加和减小。
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公开(公告)号:US08304489B2
公开(公告)日:2012-11-06
申请号:US13321748
申请日:2010-06-08
IPC分类号: C09J183/04 , C08G77/04
CPC分类号: C08F299/08 , C08G77/16 , C08G77/20 , C08L83/04 , C08L83/06
摘要: A curable silicone resin composition has excellent closed-system curability, adhesiveness, heat-resistant coloration stability, and balance between transparency and adhesive strength. The curable silicone resin composition is a curable silicone resin composition comprising 100 parts by mass of a silicone A, the weight-average molecular weight of which is 20,000 to 200,000, and which has 2 or more (meth)acryloyl groups per molecule; 10 parts by mass or more of a silicone B, the weight-average molecular weight of which is 1,000 or greater but less than 20,000, and which has 2 or more (meth)acryloyl groups per molecule; 2 parts by mass or more of a silicone C, the weight-average molecular weight of which is 300 or more but less than 1,000, the (meth)acrylic equivalent of which is less than 450 g/mol, and which has 2 or more (meth)acryloyl groups per molecule; and a radical initiator.
摘要翻译: 可固化有机硅树脂组合物具有优异的封闭系统固化性,粘合性,耐热着色稳定性,以及透明性和粘合强度之间的平衡。 可固化有机硅树脂组合物是一种可固化的有机硅树脂组合物,其包含100质量份的硅氧烷A,其重均分子量为20,000至200,000,每分子具有2个或更多个(甲基)丙烯酰基; 10质量份以上的硅酮B,重均分子量为1000以上且小于20,000,并且每分子具有2个以上的(甲基)丙烯酰基; 2重量份以上的硅氧烷C,其重均分子量为300以上且小于1000,(甲基)丙烯酸当量小于450g / mol,并且具有2个或更多个 (甲基)丙烯酰基; 和自由基引发剂。
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公开(公告)号:US08255128B2
公开(公告)日:2012-08-28
申请号:US12314814
申请日:2008-12-17
申请人: Tetsuya Shimizu , Masamichi Yamaguchi , Satoshi Nishio , Kenichi Tsuchida , Akitomo Suzuki , Kazunori Ishikawa , Shin-ichirou Murakami
发明人: Tetsuya Shimizu , Masamichi Yamaguchi , Satoshi Nishio , Kenichi Tsuchida , Akitomo Suzuki , Kazunori Ishikawa , Shin-ichirou Murakami
IPC分类号: G06F7/00
CPC分类号: F16H61/12 , F16H61/686 , F16H2061/1204 , F16H2061/1224 , F16H2061/1264 , Y10T477/62429 , Y10T477/638 , Y10T477/6414 , Y10T477/648 , Y10T477/693762
摘要: An exemplary control device includes an input torque detection unit that detects an input torque input to the input shaft; and a controller that: determines torque distribution of two of the friction engagement elements that form the shift speeds; and calculates a transmission torque of the two friction engagement elements based on the input torque and the torque distribution and sets the engagement pressure to obtain a torque capacity that can transmit the transmission torque, wherein the controller sets the engagement pressure such that slippage does not occur in the two friction engagement elements in a state where engagement of the two friction engagement elements forms the shift speeds and such that, even if an additional friction engagement element engages based on the line pressure while the two friction engagement elements are engaged, one of the three friction engagement elements is caused to slip.
摘要翻译: 示例性控制装置包括:输入转矩检测单元,其检测输入到输入轴的输入转矩; 以及控制器,其确定形成所述换档速度的两个摩擦接合元件的扭矩分布; 并基于输入转矩和转矩分配计算两个摩擦接合元件的传递扭矩,并且设定接合压力以获得能够传递传递扭矩的扭矩容量,其中控制器设置接合压力使得不发生滑动 在两个摩擦接合元件中,两个摩擦接合元件的接合形成换挡速度并且使得即使在两个摩擦接合元件接合时基于线压力的另外的摩擦接合元件接合,两个摩擦接合元件中的一个 导致三个摩擦接合元件滑动。
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公开(公告)号:US08251194B2
公开(公告)日:2012-08-28
申请号:US12591600
申请日:2009-11-24
CPC分类号: F16K31/0613 , F16H61/0021 , F16H61/0251 , F16H2061/0253 , F16K11/07 , Y10T477/6403
摘要: A solenoid valve device that includes a solenoid valve; a drive circuit that drives the solenoid section; a current sensor that detects a current applied to the solenoid section; and a control unit that controls, when the solenoid valve is served as the pressure control valve, the drive circuit by performing a feedback control based on the current detected by the current sensor so that a current in accordance with an output pressure command is applied to the solenoid section, and controls, when the solenoid valve is served as the solenoid pump, the drive circuit without performing the feedback control so that a pump current is applied to the solenoid section.
摘要翻译: 一种电磁阀装置,包括电磁阀; 驱动所述螺线管部的驱动电路; 电流传感器,其检测施加到所述螺线管部分的电流; 以及控制单元,其通过基于由所述电流传感器检测到的电流进行反馈控制来控制所述电磁阀作为所述压力控制阀的驱动电路,使得根据输出压力指令的电流被施加到 螺线管部分,并且当电磁阀用作电磁泵时,控制驱动电路,而不进行反馈控制,使得泵电流被施加到螺线管部分。
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67.发明申请NANOFIBER MANUFACTURING APPARATUS AND NANOFIBER MANUFACTURING METHOD 审中-公开NANOFIBER制造设备和NANOFIBER制造方法公开(公告)号:US20120098150A1
公开(公告)日:2012-04-26
申请号:US13379428
申请日:2010-06-21
CPC分类号: D01D5/0069 , D01D5/003 , D04H1/728
摘要: In a nanofiber manufacturing apparatus (1) which produces nanofibers by electrically stretching a solution in space, a hollow supporting unit (32) which is rotated around an axial line AL by a motor (41) supports a cartridge (33) which supplies a solution (20) stored therein, a pressurizing member (38) is pressurized by air introduced through a rotary joint (43) so that the solution (20) flows into an interior space (34a) of an effusing body (34) which is rotated together with the supporting body (32), and the solution (20) is radially effused from effusing holes (34c) by the pressure of the air and centrifugal force due to the rotation of the effusing body (34).
摘要翻译: 在通过电解拉伸空间溶液制造纳米纤维的纳米纤维制造装置(1)中,通过马达(41)围绕轴线AL旋转的中空支撑单元(32)支撑提供溶液的盒(33) (20),通过旋转接头(43)引入的空气对加压构件(38)进行加压,使得溶液(20)流入一起旋转的排放体(34)的内部空间(34a) 与所述支撑体(32)接触,并且所述溶液(20)由于所述空气的压力和由于所述汲取体(34)的旋转引起的离心力而从排出孔(34c)径向地排出。
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68.发明申请METHOD FOR MANUFACTURING FINE POLYMER, AND FINE POLYMER MANUFACTURING APPARATUS 审中-公开制造精细聚合物的方法和精细聚合物制造设备公开(公告)号:US20120091606A1
公开(公告)日:2012-04-19
申请号:US13337609
申请日:2011-12-27
申请人: Mitsuhiro TAKAHASHI , Mikio Takezawa , Yoshiaki Tominaga , Takahiro Kurokawa , Hiroto Sumida , Kazunori Ishikawa
发明人: Mitsuhiro TAKAHASHI , Mikio Takezawa , Yoshiaki Tominaga , Takahiro Kurokawa , Hiroto Sumida , Kazunori Ishikawa
IPC分类号: B29B9/12
CPC分类号: D01D5/0061 , D01D5/0069 , D01D5/0985 , D01D5/14
摘要: A method for manufacturing a fine polymer including: generating superheated steam by a superheated steam generating unit (101); adjusting the pressure of the generated superheated steam by a pressure adjusting unit (102); receiving a polymer by a reception unit (103); heating the received polymer to a predetermined temperature by a heating unit (104); discharging the heated polymer through a first discharge port (111); and discharging the superheated steam through a second discharge port (121) at the same time as the time when the heated polymer is discharged. Here, the second discharge port (121) surrounds the first discharge port (111), and the first discharge port (111) and the second discharge port (121) face the same direction.
摘要翻译: 一种制造精细聚合物的方法,包括:通过过热蒸汽发生单元(101)产生过热蒸汽; 通过压力调节单元(102)调节产生的过热蒸汽的压力; 由接收单元(103)接收聚合物; 通过加热单元(104)将接收到的聚合物加热到预定温度; 通过第一排出口(111)排出加热的聚合物; 并且在与被加热的聚合物排出的时间同时,通过第二排出口(121)排出过热蒸汽。 这里,第二排出口121包围第一排出口111,第一排出口111和第二排出口121朝向同一方向。
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69.发明申请NANOFIBER MANUFACTURING APPARATUS AND METHOD OF MANUFACTURING NANOFIBERS 有权NANOFIBER制造设备和制造NANOFIBERS的方法公开(公告)号:US20120025429A1
公开(公告)日:2012-02-02
申请号:US13260824
申请日:2010-10-27
IPC分类号: D01D5/12
CPC分类号: D04H1/728 , D01D5/0069 , D01D5/0092
摘要: Provided is a nanofiber manufacturing apparatus including an effusing body (115) having an effusing hole (118) which allows the solution (300) to effuse in a given direction, a charging electrode (128) which is conductive and is disposed at a given distance from the effusing body (115), a charging power supply (122) configured to apply a given voltage between the effusing body (115) and the charging electrode (128), and a determining unit (102) configured to determine a flight path of the solution (300) and the nanofibers such that a length of the flight path C is longer than a shortest path length B which is a length of a shortest imaginary path connecting an end opening (119) of the effusing hole (118) and an accumulation part A on which the nanofibers (301) are accumulated.
摘要翻译: 本发明提供一种纳米纤维制造装置,其具备:具有排出孔(118)的排出体(115),该排出孔允许溶液(300)沿给定方向喷射,充电电极(128)为导电性, 从所述流出体(115),配置成在所述汲取体(115)与所述充电电极(128)之间施加给定电压的充电电源(122),以及确定单元(102),其被配置为确定 所述溶液(300)和所述纳米纤维使得所述飞行路径C的长度长于作为连接所述排出孔(118)的端部开口(119)的最短假想路径的长度的最短路径长度B和 累积部分A,纳米纤维(301)在其上聚集。
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公开(公告)号:US20110278751A1
公开(公告)日:2011-11-17
申请号:US13146702
申请日:2010-01-19
CPC分类号: D01D5/18 , D01D5/0061 , D01D5/0069 , D04H1/4291 , D04H1/4382 , D04H1/728
摘要: A nanofiber production device (100) produces nanofibers (301) by stretching, in space, a solution (300). The nanofiber production device (100) includes: an effusing body (115) which effuses the solution (300) into the space by centrifugal force; a driving source (117) which rotates the effusing body (115); a supplying electrode (124) which is placed at a predetermined distance from the effusing body (115) and supplies charge to the solution (300) via the effusing body (115); a charging electrode (121) to which a potential of reverse polarity to a polarity of the effusing body (115) is applied, the charging electrode (121) is placed at a predetermined distance from the effusing body (115); and a charging power source (122) which applies a predetermined voltage between the supplying electrode (124) and the charging electrode (121).
摘要翻译: 纳米纤维生产装置(100)通过在空间中拉伸溶液(300)来生产纳米纤维(301)。 纳米纤维生产装置(100)包括:通过离心力将溶液(300)排出到空间中的流出体(115) 使排气体旋转的驱动源117; 供给电极(124),其经由所述汲取体(115)与所述汲取体(115)隔开规定的距离,并向所述溶液(300)供给电荷; 充电电极(121)与放电体(115)的极性相反极性的充电电极(121)放置在放电体(115)的预定距离处; 以及在供电电极(124)和充电电极(121)之间施加预定电压的充电电源(122)。
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