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公开(公告)号:KR1020070043348A
公开(公告)日:2007-04-25
申请号:KR1020050099535
申请日:2005-10-21
Applicant: 인하대학교 산학협력단
IPC: B60N3/02
CPC classification number: B60N3/026 , B60N3/023 , B60Y2200/11
Abstract: 본 발명은 차량용 어시스트 그립 핸들에 관한 것으로서, 차량의 주행 또는 코너링 시 차량의 급동작 또는 원심력에 의하여 탑승자의 신체가 일측으로 기우는 현상을 방지하기 위하여 차량 내부의 보조석 및 리어 시트의 측면 상부 적소에 설치되어 탑승자가 파지하도록 이루어지는 어시스트 그립 핸들에 스틸판재와 영구자석 형태의 감쇠기로 이루어지는 감속부재가 일체로 구비되어 자기력을 감쇠력으로 작용시킴으로써 어시스트 그립 핸들의 사용 후 리턴될 때 발생되는 급동작을 방지할 수 있으며, 판 스프링을 적용함으로써 조립의 편의성을 제공할 뿐만 아니라, 영구자석 형태의 감쇠기를 적용함으로써 온도 변화에 따른 성능 변화가 없어 반영구적인 사용이 가능하고, 부품의 갯수를 감소시켜 구조 및 구성을 간단히 함으로써 제작비 및 원가를 절감시킬 수 있는 차량용 어시스트 그립 핸들을 제공하기 위한 것으로, 그 기술적 구성은 차량의 내부 측면 적소에 고정가능하게 연결되는 고정부; 상기 고정부의 내측 양 측단과 회동축에 의해 회동가능하게 연결되되, 그 외주연에 탄성을 갖는 판체형상의 판 스프링이 구비되고, 그 내부에 감속부재를 갖는 회동부; 상기 회동부의 단부에 연결되되, 탑승자가 파지하기 위한 손잡이부; 를 포함하여 구성되는 것을 특징으로 한다.
어시스트 그립 핸들, 고정부, 회동부, 손잡이부, 감속부재, 감쇠기, 자성체-
公开(公告)号:KR100657549B1
公开(公告)日:2006-12-13
申请号:KR1020050001260
申请日:2005-01-06
Applicant: 인하대학교 산학협력단
IPC: A63B69/36
Abstract: 본 발명은 골프 연습용 받침대에 관한 것으로서, 더욱 상세하게는 골퍼가 골프연습장에서 골프연습을 할 때, 실제 골프장에서 골프를 치는 조건과 유사한 조건, 예를 들면 굴곡진 경사지를 만들기 위하여 골퍼가 서 있는 골퍼받침대와 골프공이 위치한 골프공받침대를 독립적으로 움직일 수 있도록 한 골프 연습용 받침대에 관한 것이다.
상기 골프연습용 받침대는 골퍼가 서 있는 골퍼받침대와 골프공이 위치한 골프공받침대와 상기 골퍼받침대를 상하이동시키는 골퍼받침대 작동수단과 상기 골프공받침대를 상하이동시키는 골프공받침대 작동수단과 골프공을 상하로 이동시키는 골프공작동수단과 상기 골퍼받침대 작동수단, 골프공받침대 작동수단 및 골프공 작동수단을 조작하는 조작반으로 구성되어 있다.
골프공받침대, 골퍼받침대, 공압실린더-
公开(公告)号:KR1020150133925A
公开(公告)日:2015-12-01
申请号:KR1020140060440
申请日:2014-05-20
Applicant: 인하대학교 산학협력단
Abstract: 본발명은회전축의토크측정장치에관한것으로, 회전축의원주면상에네오듐영구자석을일정간격으로부착고정시키되이에대응하여이격설치되는자기저항센서를통해네오듐영구자석의위치를감지함으로써회전축의토크(Torque) 측정에따른오차를현저히줄일수 있도록함에그 목적이있다. 이를위해구성되는본 발명은회전축의원주면둘레동일선상에등간격으로부착고정되는다수의제 1 네오듐영구자석; 제 1 네오듐영구자석으로부터일정간격이격된회전축의원주면둘레에부착고정되는다수의제 2 네오듐영구자석; 제 1 네오듐영구자석에대응하여일정간격이격설치되어지되회전축의회전에따른제 1 네오듐영구자석의위치를감지하여회전축의토크와회전속도를측정하는제 1 자기저항센서가구비된제 1 토크측정회로; 제 2 네오듐영구자석에대응하여일정간격이격설치되어지되회전축의회전에따른제 2 네오듐영구자석의위치를감지하여회전축의토크와회전속도를측정하는제 2 자기저항센서가구비된제 2 토크측정회로; 및제 1 토크측정회로와제 2 토크측정회로를지지하여제 1 자기저항센서와제 2 자기저항센서가제 1 네오듐영구자석과제 2 네오듐영구자석의배열라인상에유지되도록하는측정회로지지수단을포함한구성으로이루어진다.
Abstract translation: 本发明涉及一种用于旋转轴的扭矩测量装置。 用于旋转轴的扭矩测量装置通过以固定的间隔将钕永磁体附接和固定到旋转轴的圆周上来显着地减小旋转轴的扭矩测量误差,并且通过将钕永磁体的位置感测到 磁阻传感器间隔安装,对应于钕永磁体。 本发明包括:多个第一钕永磁体以恒定的间隔安装并固定在与旋转轴的圆周相同的线上; 多个第二钕永磁体,其以固定的间隔从第一钕永磁体安装并固定到旋转轴的圆周上; 第一扭矩测量电路,以与第一钕磁体相对应的固定间隔安装,并且包括通过根据旋转的旋转感测第一钕永磁体的位置来测量转轴和旋转轴的旋转速度的第一磁阻传感器 轴; 第二扭矩测量电路,以与第二钕永磁体相对应的固定间隔安装,并且包括第二磁阻传感器,该第二磁阻传感器通过根据第二钕永磁体的旋转检测第二钕磁体的位置来测量转矩和转速的转速 旋转轴; 以及测量电路支撑单元,其支撑第一扭矩测量电路和第二扭矩测量电路,并且将第一磁阻传感器和第二磁阻传感器保持在第一钕永磁体和第二钕永磁体的布置线上。
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公开(公告)号:KR101374185B1
公开(公告)日:2014-03-25
申请号:KR1020130002105
申请日:2013-01-08
Applicant: 인하대학교 산학협력단
CPC classification number: A61F2/76 , A61F2002/7635
Abstract: The present invention relates to a measuring equipment for testing an elongation, a bending and a radial compression of a stent. The stent measuring equipment comprises: a test chamber (100); a temperature control chamber (200) accommodating a heating unit (210) and communicating with the test chamber through conduit lines (211, 212); a template (110) including a plurality of guide lines (111) having concentric semicircular shapes formed in a radial direction and a plurality of position holes (112) formed at predetermined intervals in a diametric direction of the guide lines (111); a load cell unit (120) provided above the template (110) including a load cell (121) that detects the load applied to a stent (S); a holder unit (130) for fixing and supporting the stent (S) in the test chamber (100); and a temperature sensor unit (140) for detecting the temperature in the test chamber (100). All tests on elongation, bending and radial compression of the stent can be conducted through a single measuring equipment by replacing only the holder unit for exclusive use, thereby performing efficient tests on the stent.
Abstract translation: 本发明涉及一种用于测试支架的伸长率,弯曲和径向压缩的测量设备。 支架测量设备包括:测试室(100); 容纳加热单元(210)并通过导管(211,212)与测试室连通的温度控制室(200); 包括沿径向形成的具有同心半圆形状的多条引导线(111)的模板(110)和沿着所述引导线(111)的直径方向以规定间隔形成的多个位置孔(112)。 设置在模板(110)上方的测力传感器单元(120),包括检测施加到支架(S)的负载的测力传感器(121); 用于将支架(S)固定并支撑在测试室(100)中的保持器单元(130); 以及用于检测所述测试室(100)中的温度的温度传感器单元(140)。 对支架的伸长率,弯曲和径向压缩进行的所有测试都可以通过单个测量设备进行,只需更换专用的保持器单元,从而对支架进行有效的测试。
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公开(公告)号:KR1020120106328A
公开(公告)日:2012-09-26
申请号:KR1020110024383
申请日:2011-03-18
Applicant: 인하대학교 산학협력단
Abstract: PURPOSE: A micro ray-shaped moving member using magnetostriction is provided to move a moving member like the motion of a ray through AC magnetic field transferred from a remote control part. CONSTITUTION: A micro ray-shaped moving member using magnetostriction is composed of a body unit(100) and a magnetostriction film(200). The body unit is made of a flexible plate shaped like a ray. The plate is made of vinyl materials or polyimide film materials. The magnetostriction films are attached on the top and bottom surface of the body unit to deform the body unit for moving like a ray in target direction.
Abstract translation: 目的:提供一种使用磁致伸缩的微射线状运动部件,以通过从遥控部分传送的交流磁场,像运动一样移动运动部件。 构成:使用磁致伸缩的微射线形移动体由身体单元(100)和磁致伸缩膜(200)构成。 身体单元由像射线一样的柔性板制成。 该板由乙烯基材料或聚酰亚胺薄膜材料制成。 磁致伸缩膜附着在主体单元的顶表面和底表面上,以使身体单元变形以像目标方向上的射线一样移动。
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Patent Agency Ranking
公开(公告)号:KR1020090015509A
公开(公告)日:2009-02-12
申请号:KR1020070079880
申请日:2007-08-09
Applicant: 인하대학교 산학협력단
Abstract: A contactless torque measurement apparatus is provided to achieve precise torque measurement even when vibration is generated while a rotation shaft rotates by fixing an energy radiator to the rotation shaft and locating an energy sensor in parallel with the energy radiator. A contactless torque measurement apparatus includes an energy radiator(101) and an energy sensor(103). The energy radiator is fixed to a rotation shaft(20). The energy radiator radiates energy having linearity. The energy sensor is fixed to the rotation axis having a predetermined distance from the energy radiator. The energy sensor senses energy radiated from the energy radiator.
Abstract translation: 即使在旋转轴通过将能量辐射器固定到旋转轴并且将能量传感器与能量辐射器平行地定位而旋转时,即使产生振动也可以实现精确的转矩测量装置。 非接触式扭矩测量装置包括能量辐射器(101)和能量传感器(103)。 能量辐射器固定在旋转轴(20)上。 能量辐射器辐射具有线性的能量。 能量传感器固定在与能量辐射体有预定距离的旋转轴上。 能量传感器感测从能量辐射器辐射的能量。
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公开(公告)号:KR100825252B1
公开(公告)日:2008-04-25
申请号:KR1020060103454
申请日:2006-10-24
Applicant: 인하대학교 산학협력단
CPC classification number: B60N2/36 , B60N2/04 , B60N2/30 , B60Y2304/03
Abstract: A foldable seat for a vehicle is provided to fold seats easily and to reduce size of folded part of the seat by pushing a side part of a front seat and folding the seat to horizontal direction. A foldable seat for a vehicle comprises a foldable backboard(2), a foldable seat(4), a left and a right side backboard frame, a backboard link, a left and a right seat frame, and a seat link. The back surface of the left and the right part of the backboard are integrally formed each other. The foldable backboard is attached on an outer part of the backboard frame. The lower surfaces of the left and the right parts of the seat are integrally formed. The foldable seat is attached on the outer part of the seat frame and the seat link. The left and the right backboard frames are fixed to the seat frame respectively, and support the backboard. The backboard link horizontally rotates on the upper part and the lower part of the backboard frame respectively. The backboard link is connected with the upper and the lower parts of the backboard frame by a pin to be rotated on a center part of the backboard. The backboard frame is fixed to a rear end of the upper part of the seat frames. The seat frames are used as legs of the seats. The seat link is horizontally rotated on a rear part and a front part of the upper part of the seat frames. The front and the rear parts of the seat link are connected with the seat by a pin to be rotated on a center part.
Abstract translation: 提供用于车辆的可折叠座椅,以容易地折叠座椅,并且通过推动前座椅的侧部并将座椅折叠到水平方向来减小座椅的折叠部分的尺寸。 用于车辆的可折叠座椅包括可折叠背板(2),可折叠座椅(4),左侧和右侧背板框架,背板连杆,左右座椅框架和座椅连杆。 背板的左侧和右侧的后表面彼此一体地形成。 可折叠背板安装在背板框架的外部。 座椅左右部分的下表面整体形成。 可折叠座椅安装在座椅框架和座椅连杆的外部。 左右侧板框架分别固定在座椅框架上,并支撑背板。 背板链接水平地在背板框架的上部和下部旋转。 背板链接通过销与背板框架的上部和下部连接以在背板的中心部分上旋转。 背板框架固定在座椅框架上部的后端。 座椅框架用作座椅的腿部。 座椅连杆在座椅框架的上部的后部和前部上水平地旋转。 座椅连杆的前部和后部通过销与座座连接以在中心部分上旋转。
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公开(公告)号:KR1020070074688A
公开(公告)日:2007-07-18
申请号:KR1020060002519
申请日:2006-01-10
Applicant: 인하대학교 산학협력단
IPC: G01L3/02
Abstract: An apparatus for measuring a torque and an RPM(Revolution Per Minute) of a rotary shaft is provided to more efficiently estimate and control the torque of the rotary shaft by detecting locations of a plurality of magnet to measure a load torque and a rotation speed of the rotary shaft. An apparatus for measuring the torque and RPM(Revolution Per Minute) of a rotary shaft includes first and second magnets(11,15), first and second magnetic resistance sensors(21,25), and a circuit board(30). The first and second magnets are formed on a surface of the rotary shaft adjacent to each other. The first magnetic resistance sensor is installed on a corresponding location to the first magnet having a gap from the first magnet and detects movement and location of the first magnet. The second magnetic resistance sensor is installed on a corresponding location to the second magnet having a gap from the second magnet and detects movement and location of the second magnet. The first and second magnetic resistance sensors are fixed on the circuit board.
Abstract translation: 提供了一种用于测量转矩和RPM(旋转转数每分钟转数)的装置,以通过检测多个磁体的位置来更有效地估计和控制转轴的转矩,以测量负载转矩和转速 旋转轴。 用于测量旋转轴的扭矩和RPM(每分钟转数)的装置包括第一和第二磁体(11,15),第一和第二磁阻传感器(21,25)和电路板(30)。 第一和第二磁体形成在彼此相邻的旋转轴的表面上。 第一磁阻传感器安装在与第一磁体相对的第一磁体的相应位置处,并且检测第一磁体的移动和位置。 第二磁阻传感器安装在与第二磁体相对的第二磁体的相应位置上,并且检测第二磁体的移动和位置。 第一和第二磁阻传感器固定在电路板上。
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公开(公告)号:KR1020070064979A
公开(公告)日:2007-06-22
申请号:KR1020050125631
申请日:2005-12-19
Applicant: 인하대학교 산학협력단
CPC classification number: B81B7/02 , B06B1/08 , B81B3/0018 , B81B3/0091 , B81B2203/05
Abstract: A micro actuator using a magnetostrictive thin film is provided to select a frequency of a magnetic field transmitted to the micro actuator to adjust a moving direction of the micro actuator. A micro actuator using a magnetostrictive thin film includes a body(10), a first plate(20), a second plate(30), a first magnetostrictive thin film(40), a second magnetostrictive thin film(50), and a remote controller(60). The body has a streamlined shape to reduce resistance of fluid. The first plate and the second plate are semiconductor substrates or polyimide films. The first magnetostrictive thin film and the second magnetostrictive thin film are deposited on upper and lower surfaces of the first plate and the second plate to be magnetically deformed according to a frequency of a magnetic field transmitted from the external remote controller.
Abstract translation: 提供使用磁致伸缩薄膜的微型致动器来选择传递到微致动器的磁场的频率来调节微型致动器的移动方向。 使用磁致伸缩薄膜的微致动器包括主体(10),第一板(20),第二板(30),第一磁致伸缩薄膜(40),第二磁致伸缩薄膜(50)和远端 控制器(60)。 身体具有流线型的形状,以减少流体的阻力。 第一板和第二板是半导体衬底或聚酰亚胺膜。 第一磁致伸缩薄膜和第二磁致伸缩薄膜沉积在第一板和第二板的上表面和下表面上,以根据从外部遥控器发送的磁场的频率而磁变形。
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公开(公告)号:KR1020070064977A
公开(公告)日:2007-06-22
申请号:KR1020050125629
申请日:2005-12-19
Applicant: 인하대학교 산학협력단
CPC classification number: B81B7/02 , B06B1/08 , B81B3/0018 , B81B3/0091 , B81B2203/05
Abstract: A micro vehicle using magnetostrictive phenomena is provided to select a desired direction of an alternate current magnetic field transmitted from a remote controller. A micro vehicle using magnetostrictive phenomena includes a plate(10), a magnetostrictive thin films(20), and a remote controller(30). The plate is a semiconductor substrate or a polyimide film. The magnetostrictive thin films are deposited on upper and lower surfaces of the plate to be magnetically deformed according to a frequency of a magnetic field emitted from the remote controller. The plate and the magnetostrictive thin films have various shaped such as rectangular, square, circular, and diamond shapes. The remote controller transmits an alternate current magnetic field having a predetermined frequency.
Abstract translation: 提供使用磁致伸缩现象的微型车辆来选择从遥控器发送的交流电场的期望方向。 使用磁致伸缩现象的微型车辆包括板(10),磁致伸缩薄膜(20)和遥控器(30)。 该板是半导体衬底或聚酰亚胺膜。 根据从遥控器发射的磁场的频率,将磁致伸缩薄膜沉积在板的上表面和下表面上以进行磁变形。 板和磁致伸缩薄膜具有各种形状,例如矩形,正方形,圆形和菱形。 遥控器发送具有预定频率的交流电流磁场。
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