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公开(公告)号:US20090241328A1
公开(公告)日:2009-10-01
申请号:US12094882
申请日:2006-11-22
申请人: Akihiko Saitoh , Shigeru Dohno , Ken Yamamoto
发明人: Akihiko Saitoh , Shigeru Dohno , Ken Yamamoto
CPC分类号: H01R43/16 , H01R4/01 , H01R11/11 , H01R43/0214 , H01R43/04 , Y10T29/53204 , Y10T29/5327
摘要: An electrode calking apparatus that enables to fix electrodes 2 at positions distant a predetermined distance on a shape memory alloy wire 1 in a condition that the shape memory alloy wire 1 is heated to a temperature recovering an original shape is provided. The electrode calking apparatus 101 comprises: a loading mechanism 20 for applying a predetermined tension to the shape memory alloy wire 1 in an axial direction thereof; a pair of supporting units 4 that supports the shape memory alloy wire 1 at two supporting points distant a predetermined distance in the axial direction, and holds a pair of electrodes each having a portion to be calked; a pair of energization contacting units 5 that contacts the shape memory alloy wire 1 at two contacting points between which a pair of the supporting units 4 are disposed, and supplies electric current between the two contacting points; and a pair of pressing units 6 that fixes the electrodes 2 to the shape memory alloy wire 1 by calking by plastically deforming the portions to be calked of the electrodes 2 held on the supporting units 4.
摘要翻译: 提供了一种能够在使形状记忆合金丝1被加热到回收原始形状的温度的条件下将电极2固定在形状记忆合金丝1上的预定距离的位置的电极加压装置。 电极压盖装置101包括:用于在形状记忆合金丝1的轴向上施加预定张力的装载机构20; 一对支撑单元4,其将形状记忆合金丝1支撑在距离轴向预定距离的两个支撑点处,并且保持一对电极,每对电极具有要被加压的部分; 一对通电接触单元5,其在设置有一对支撑单元4的两个接触点处与形状记忆合金丝1接触,并且在两个接触点之间提供电流; 以及一对按压单元6,其通过使保持在支撑单元4上的电极2的要被压住的部分塑性变形而通过铆接将电极2固定到形状记忆合金丝1。
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公开(公告)号:US07815161B2
公开(公告)日:2010-10-19
申请号:US11996826
申请日:2006-07-26
申请人: Akihiko Saitoh , Shigeru Dohno , Takao Goto , Ken Yamamoto
发明人: Akihiko Saitoh , Shigeru Dohno , Takao Goto , Ken Yamamoto
IPC分类号: F16K31/02
CPC分类号: F16K31/025 , C08L2201/12 , F16K99/0001 , F16K99/0007 , F16K99/0034 , F16K99/0038 , F16K99/0044 , Y10T137/7737
摘要: A compact valve using a shape memory alloy comprises: a moving valve body that contacts an inner periphery of a guide pipe having an built-in orifice, is freely movable and has a sealing portion to seal the orifice; a biasing coil provided between the orifice and the moving valve body; and a wire formed of a shape memory alloy and held between a stationary electrode of the guide pipe and a moving electrode of the moving valve body. The orifice is sealed by moving the moving valve body due to transformation of the shape memory alloy by heating the wire. The moving valve body is enabled to be elastically deformable by providing a coil spring to reduce a stress, so that an overload to the moving valve body due to contraction of the wire is absorbed by elastic deformation of the moving valve body. Thereby, the overload to the shape memory alloy is reduced to prevent deterioration of repeatability of memorized shape, to increase durability and reliability of the valve.
摘要翻译: 使用形状记忆合金的紧凑型阀包括:移动阀体,其与具有内置孔的导向管的内周接触,可自由移动并具有密封部分以密封孔; 设置在所述孔和所述移动阀体之间的偏压线圈; 以及由形状记忆合金形成并且保持在导向管的固定电极和移动阀体的移动电极之间的线。 通过加热导线,由于形状记忆合金的转变,通过移动阀体来密封孔。 通过设置螺旋弹簧来减小应力,能够使移动阀体弹性变形,从而通过活塞阀体的弹性变形来吸收由于钢丝收缩导致的移动阀体过载。 因此,形状记忆合金的过载减少,以防止存储形状的重复性的劣化,从而提高阀的耐久性和可靠性。
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公开(公告)号:US20100139785A1
公开(公告)日:2010-06-10
申请号:US11996826
申请日:2006-07-26
申请人: Akihiko Saitoh , Shigeru Dohno , Takao Goto , Ken Yamamoto
发明人: Akihiko Saitoh , Shigeru Dohno , Takao Goto , Ken Yamamoto
IPC分类号: F16K17/38
CPC分类号: F16K31/025 , C08L2201/12 , F16K99/0001 , F16K99/0007 , F16K99/0034 , F16K99/0038 , F16K99/0044 , Y10T137/7737
摘要: A compact valve using a shape memory alloy comprises: a moving valve body that contacts an inner periphery of a guide pipe having an built-in orifice, is freely movable and has a sealing portion to seal the orifice; a biasing coil provided between the orifice and the moving valve body; and a wire formed of a shape memory alloy and held between a stationary electrode of the guide pipe and a moving electrode of the moving valve body. The orifice is sealed by moving the moving valve body due to transformation of the shape memory alloy by heating the wire. The moving valve body is enabled to be elastically deformable by providing a coil spring to reduce a stress, so that an overload to the moving valve body due to contraction of the wire is absorbed by elastic deformation of the moving valve body. Thereby, the overload to the shape memory alloy is reduced to prevent deterioration of repeatability of memorized shape, to increase durability and reliability of the valve.
摘要翻译: 使用形状记忆合金的紧凑型阀包括:移动阀体,其与具有内置孔的导向管的内周接触,可自由移动并具有密封部分以密封孔; 设置在所述孔和所述移动阀体之间的偏压线圈; 以及由形状记忆合金形成并且保持在导向管的固定电极和移动阀体的移动电极之间的线。 通过加热导线,由于形状记忆合金的转变,通过移动阀体来密封孔。 通过设置螺旋弹簧来减小应力,能够使移动阀体弹性变形,从而通过活塞阀体的弹性变形来吸收由于钢丝收缩而导致的移动阀体过载。 因此,形状记忆合金的过载减少,以防止存储形状的重复性的劣化,从而提高阀的耐久性和可靠性。
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公开(公告)号:US07056297B2
公开(公告)日:2006-06-06
申请号:US10298933
申请日:2002-11-19
申请人: Shigeru Dohno , Shingo Yuasa , Akihiko Saito
发明人: Shigeru Dohno , Shingo Yuasa , Akihiko Saito
CPC分类号: G06F3/016 , A63B21/00181 , A63B23/00 , A63B24/00 , A63B2230/60 , H01L41/0986
摘要: An improved human motion applicator assures a quick and sufficient amount of displacement given to a part of a human body. The applicator includes a support adapted to be fitted on the part of the human body. The support carries at least one electro-active elastic actuator in a force-transmitting relation to the human part. The actuator includes a dielectric core and a pair of electrodes on opposite of the core for receiving a driving DC voltage thereacross. The elastic actuator has a length and elastically deforms in the lengthwise direction to exert a stretching force to the human part to a greater extent as the driving DC voltage increase. The applicator also includes a controller which applies the driving DC voltage of varying levels to the elastic actuator, thereby generating a varying motion-inducing force to be applied to the part of the human body.
摘要翻译: 改进的人体运动施加器确保给予人体的一部分的快速和足够的位移量。 敷贴器包括适于安装在人体部分上的支撑件。 该支撑件携带至少一个与人体的力传递关系的电动弹性致动器。 致动器包括介质芯和在芯的相对上的一对电极,用于接收跨越的驱动DC电压。 弹性致动器具有长度并且沿着长度方向弹性变形,以在驱动DC电压增加时向人体施加更大的拉伸力。 施加器还包括控制器,该控制器将具有不同等级的驱动DC电压施加到弹性致动器,由此产生施加到人体部分的变化的运动诱导力。
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