子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 우산식 원격제어 어셈블리(Snap in umbrella) | KR1019890009648 | 1989-07-07 | KR1019900003713A | 1990-03-26 | 아더엘스피즈 |
| 내용 없음 | ||||||
| 42 | 원격 조정 콘센트 회로 | KR2019860016581 | 1986-10-29 | KR2019880008412U | 1988-06-29 | 김태식 |
| 43 | 무인 크레인용 원격조정장치 | KR2019840007652 | 1984-08-06 | KR2019860003075U | 1986-03-31 | 박은홍 |
| 44 | 휠터를 사용하지 않은 원격 조정기 | KR2019840005745 | 1984-06-19 | KR2019860000901U | 1986-02-15 | 김현 |
| 45 | COMMUNICATION DEVICE AND METHODS | PCT/US2017/042634 | 2017-07-18 | WO2018017591A9 | 2018-01-25 | YOUNGSAM, Bae |
An implantable device for sensing data includes a subcutaneous sensor configured to couple with an implant. The implantable device is operably configured to wirelessly and transcutaneously transmit data sensed by the subcutaneous sensor. The sensor may be powered wirelessly and transcutaneously. Transmission of data and/or power may be provided by ultrasound sound waves. The sensor may be in electrical communication with a piezoelectric transducer configured to receive the ultrasound sound waves. |
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| 46 | MULTIPLE AXIS HANDLE AND MECHANISM | PCT/IL2012050305 | 2012-08-09 | WO2013021388A8 | 2014-03-20 | BEN-DOR ERAN |
| A control mechanism for manually adjusting a plurality of control parameters, the control mechanism including a mechanical multiple axis handle movable about a plurality of axes of rotation for operating an operated device, wherein each of the axes of rotation pass through the handle, and a movement transformation assembly to transform rotational movements of the handle to control commands to the operated device. | ||||||
| 47 | STELLVORRICHTUNG UND GELENK | PCT/EP2013/063631 | 2013-06-28 | WO2014005941A1 | 2014-01-09 | REINISCH, Peter |
Die vorliegende Erfindung betrifft eine Stellvorrichtung (1) zum bidirektionalen Verstellen eines Stellglieds (2), insbesondere einer Brennkraftmaschine, mit einem Stellantrieb (4), und mit einer mit dem Stellantrieb (4) und dem Stellglied (2) verbundenen Kopplungseinrichtung (5), die einerstes Kopplungsglied (7), ein zweites Kopplungsglied (8) und ein Gelenk (9) aufweist, das die beiden Kopplungsglieder (7, 8) gelenkig miteinander verbindet. Bei kompakter Bauform lassen sich relativ große Druckkräfte übertragen, wenn das Gelenk (9) ein mit dem ersten Kopplungsglied (7) fest verbundenes Gehäuse (15) aufweist, das einen zum zweiten Kopplungsglied (8) offenen Lagerraum (16) mit einer vom ersten Kopplungsglied (7) abgewandten kugelsegmentförmigen ersten Lagerfläche (19) aufweist, deren Drehpunkt (20) auf der Längsmittelachse (21) des Gehäuses (15) liegt, und wenn das Gelenk (9) eine mit einem Schaft (18) des zweiten Kopplungsglieds (8) fest verbundene Lagerschale (22) aufweist, die im Lagerraum (16) angeordnet ist und die eine dem ersten Kopplungsglied (7) zugewandte, komplementär zur ersten Lagerfläche (19) geformte, kugelsegmentförmige, daran flächig anliegende erste Gegenlagerfläche (23) aufweist. |
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| 48 | COUPLING APPARATUS AND METHOD FOR TWO MOVEMENTS | PCT/EP2004005872 | 2004-06-01 | WO2004107080B1 | 2005-01-27 | PRAT TERRADES JAUME; JORNET VIDAL JORDI; PARDO ALOY DAVID; JONES POPPESCOU ERNESTO ALEJAN; BARRIOS VILLA JOSEP; VIDAL FERRER GUILLEM; MONEDERO URIBE-ECHEBARRIA DANI; PEREZ NAVARRO ENRRIQUE |
| The present invention discloses a coupling apparatus for at least two movements in motor vehicles for the achievement of a deflection, in particular of bowden cables, levers or the like, comprising: A) A first component 10 having a first guiding 20, wherein the first component 10 is pivotably mounted on a first pivot point 60; B) a second component 30 having a second guiding 40, wherein the first guiding 20 and the second guiding 40 run parallel to each other and wherein the second component 30 is pivotably mounted on a second pivot point 60; and C) a connecting means 50 connecting the first guiding 20 and the second guiding 40 to each other and being moveable within the first guiding 20 and second guiding 40 in such a way that by the movement of the connecting means 50 the second component 30 is relatively rotated to the first component 10 around the second pivot point 60. Furthermore, the present invention comprises a method for coupling of at least two movements. | ||||||
| 49 | CONTROL DEVICE | PCT/FI2001/000779 | 2001-09-07 | WO02020297A1 | 2002-03-14 | |
| The invention relates to a control device (HC) for operating one or more foot pedal control devices (26; 26) in a vehicle. According to the invention, the control device (HC) comprises means (11, 20, 22; 11, 21 23) for transmitting the movement and force, exerted by the driver by his/her own muscular strength on the actuator (13) of the control device (HC), hydrostatically to the foot pedal control device/devices (26; 27) of the vehicle. In a preferred embodiment of the invention, the actuator (13) is arranged to act on the brake pedal (16) by means of an independent hydraulic circuit (18, 20, 22) when the driver moves/turns said actuator (13) in a first direction (B), and the actuator (13) is arranged to act on a second independent hydraulic circuit (19, 21, 23) when the driver turns/moves the actuator (13) in the opposite direction (C). | ||||||
| 50 | ACTUATING DEVICE | PCT/EP2001/005158 | 2001-05-07 | WO01086371A1 | 2001-11-15 | |
| The invention relates to an actuating device (1) for displacing a control device (3), against a force in the opposing direction (2) to the displacement, comprising an operating element (7) in a device housing (4), which may be axially displaced, at least in the direction of displacement by means of a feed mechanism (6). In order to improve said actuating device such that it may be simply operated without any impairment in emergency, when, for example the energy supply fails, or other problems occur, said actuating device comprises an emergency actuator, which may be externally operated and which may be connected to the feed mechanism (5) by means of a directional coupling device. | ||||||
| 51 | ACTUATING DEVICE | PCT/EP2001/005156 | 2001-05-07 | WO01086370A1 | 2001-11-15 | |
| The invention relates to an actuating device (1) for displacing a control device (3), which is subjected to the action of force counter to the direction of displacement (2). Said actuating device comprises an actuating element, which, inside a device housing (4), can be axially displaced in a direction of displacement by a turning spindle (5) of an advancing device (6). The turning spindle is connected in a rotationally fixed manner to a turning sleeve (8), which is rotatably mounted in the device housing (4) and which surrounds the turning spindle. Said turning sleeve is fixed, in relation to an annular flange (9) that is connected to the device housing in a rotationally fixed manner, counter to an advance turning direction (11) of the turning spindle by means of a spiral spring (10). An emergency disengagement device for resetting the actuating element counter to the direction of displacement is assigned to the spiral spring. The aim of the invention is to improve the actuating device by providing it with a compact and simple design and, at the same time, by enabling the winding of the spiral spring to be easily and precisely adjusted with regard to the torsional strength of the connection of the turning sleeve and the annular flange. To this end, the emergency disengagement device comprises a tension sleeve (13) for the spiral spring that is detachably held in a tensioning position. Said tension sleeve can be torsioned between a tensioning position and a final tensioning position and is subjected to the action of force toward its final tensioning position. | ||||||
| 52 | SAW ASSEMBLY WITH HANDLE-ACTUATED GUIDE MECHANISM SAW ASSEMBLY WITH HANDLE-ACTUATED GUIDE MECHANISM | PCT/US9601162 | 1996-01-25 | WO9622865A3 | 1996-10-17 | HOLMES WILLIAM K; JONEIKIS ALBERT E; WONG KWOK WAH |
| A wall saw for cutting concrete or similar materials includes a track (T), mounting brackets to affix the track to a wall (W), and a movable saw carriage (C). The saw carriage (C) is mounted to the track (T) by a guide mechanism (G), which may include a plurality of rollers (10), mounted to the carriage (C) for pivotal movement between an engaged position, in guiding contact with the track (T), and a retracted position, out of contact with the track, by movement of a carrying handle (4) of the carriage (C). In one embodiment, the rollers (10) are mounted for pivotal camming motion and are retracted sufficiently in their retracted positions to permit mounting and dismounting of the carriage (C) relative to the track (T) by movement of the carriage (C) perpendicular to the wall (W). | ||||||
| 53 | 차량의 공기조화장치용 메인레버와 액츄에이터의 결합 구조체 | KR1020150032995 | 2015-03-10 | KR102336351B1 | 2021-12-10 | |
| 54 | 콤바인의 스로틀레버 조정장치 | KR1020130154082 | 2013-12-11 | KR101577116B1 | 2015-12-17 | 김수경; 남요상; 이병용; 김동화; 강영선 |
| 본발명은콤바인에서탈곡작업에서필요로하는정격회전수를가지도록자동으로엔진회전수를조절하는조절장치를제공한다. 본발명에의하면운전석에서조작가능하게설치되는스로틀레버에의하여스로틀케이블이조작되면서엔진의출력을조절할수 있는콤바인에있어서; 상기스로틀레버의회동중심이되는지지축(12)과; 상기지지축에결합되는종동기어(30); 상기종동기어의회전을상기스로틀레버에전달하는연동수단; 엔진의현재회전수를감지하는센서(62)와; 정역회전이가능한제어모터(40); 상기제어모터에서의출력을상기종동기어에전달하는전달수단; 그리고상기센서에서감지되는현재엔진의회전수를기설정된정격회전수와비교하여, 엔진이정격회전수를가지고출력할수 있도록상기제어모터를제어하는제어부(60)를포함한다. 제어부(60)의제어하에제어모터(40)는종동기어(30)를조절하여탈곡작업시기 설정된정격회전수를유지할수 있다. | ||||||
| 55 | 중장비 원격 제어 시스템 | KR1020140013257 | 2014-02-05 | KR1020150092818A | 2015-08-17 | 한창수; 이승훈; 강민성; 문시환; 길명수 |
| 본 발명은 중장비 원격 제어 시스템에 관한 것으로, 무선 통신채널이 형성되고, 상기 무선 통신채널을 통하여 수신된 작동신호로 작동되는 복수의 중장비와, 상기 복수의 중장비를 동기화시키고, 상기 복수의 중장비에 작동신호를 상기 무선 통신채널을 통해 송신하여 동시에 작동되는 상기 복수의 중장비를 제어하는 원격제어부를 포함하여 이루어진다. | ||||||
| 56 | 콤바인의 스로틀레버 조정장치 | KR1020130154082 | 2013-12-11 | KR1020150068546A | 2015-06-22 | 김수경; 남요상; 이병용; 김동화; 강영선 |
| 본발명은콤바인에서탈곡작업에서필요로하는정격회전수를가지도록자동으로엔진회전수를조절하는조절장치를제공한다. 본발명에의하면운전석에서조작가능하게설치되는스로틀레버에의하여스로틀케이블이조작되면서엔진의출력을조절할수 있는콤바인에있어서; 상기스로틀레버의회동중심이되는지지축(12)과; 상기지지축에결합되는종동기어(30); 상기종동기어의회전을상기스로틀레버에전달하는연동수단; 엔진의현재회전수를감지하는센서(62)와; 정역회전이가능한제어모터(40); 상기제어모터에서의출력을상기종동기어에전달하는전달수단; 그리고상기센서에서감지되는현재엔진의회전수를기설정된정격회전수와비교하여, 엔진이정격회전수를가지고출력할수 있도록상기제어모터를제어하는제어부(60)를포함한다. 제어부(60)의제어하에제어모터(40)는종동기어(30)를조절하여탈곡작업시기 설정된정격회전수를유지할수 있다. | ||||||
| 57 | 굴삭기용 센서 데이터 처리장치 및 그 방법 | KR1020130065956 | 2013-06-10 | KR1020140144034A | 2014-12-18 | 김범철 |
| 본 발명은 굴삭기로 평탄 작업이나 관로 터파기, 법면 작업 등을 진행할 시에, 굴삭기에 설치된 거리센서, 진동센서, 소음센서 진동 측정센서에 의해 감지된 데이터를 수집하여 굴삭기 원격조정자에게 전달함으로써 굴삭기의 원격조정을 용이하게 하기 위한 굴삭기용 센서 데이터 처리장치 및 그 방법에 관한 것으로, 파워(Power)(101), ADC(Analog Digital Converter)(102), 통신유닛(103), 시리얼 드라이브(104), 캔(Can) 드라이브(105), 메모리(106) 및, LCD 유닛(107)을 구비한 PCB(100)와; 상기 PCB(100)의 파워(101) 및 ADC(102)에 연결되어, 붐의 스트로크를 측정하기 위한 포텐셔미터(Potentiometer) 타입의 제1 거리센서(1010)와; 상기 PCB(100)의 파워(101) 및 ADC(102)에 연결되어, 암의 스트로크를 측정하기 위한 포텐셔미터 타입의 제2 거리센서(1020)와; 상기 PCB(100)의 파워(101) 및 ADC(102)에 연결되어, 버킷의 스트로크를 측정하기 위한 포텐셔미터 타입의 제3 거리센서(1030)와; 상기 PCB(100)의 파워(101) 및 ADC(102)에 연결되어, 굴삭기의 진동을 감지하는 아날로그 방식의 진동센서(1040)와; 상기 PCB(100)의 파워(101) 및 ADC(102)에 연결되어, 굴삭기의 소음을 감지하는 아날로그 방식의 소음센서(1050)와; 상기 PCB(100)의 통신유닛(103)에 연결되어, 굴삭기의 운전석 또는 엔진실의 소음을 감지하는 소음측정센서(1060)와; 상기 PCB(100)의 통신유닛(103)에 연결되어, 굴삭기의 운전석 또는 엔진실의 진동을 감지하는 진동측정센서(1070)와; 상기 PCB(100)의 시리얼 드라이브(104)와 무선 통신으로 연결되는 외부기기/컴퓨터(1080)와; 상기 PCB(100)의 캔 드라이브(105)와 무선 통신으로 연결되는 외부기기/무선통신 유닛(1090)과; 상기 PCB(100)의 메모리(106)와 무선으로 연결되는 시뮬레이션 모듈(1100) 및; 상기 PCB(100)의 LCD 유닛(107)과 연결되는 LCD 디스플레이(1110)를 포함하는 것을 특징으로 한다.
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| 58 | 건설기계에서의 원격 계측 시스템 | KR1020100128233 | 2010-12-15 | KR1020120066893A | 2012-06-25 | 임준성; 임종형 |
| PURPOSE: A remote measuring system for a construction machine is provided to prevent incurred expense and the time required for moving to a filed for measurement. CONSTITUTION: A remote measuring system for a construction machine comprises a user interface unit(11), a server(10), a first communication interface unit(12), a measurement unit(21), a remote communication control unit(20), a second communication interface unit(22), and a wireless communication unit(300). The user interface unit comprises a measurement command setting unit(111) and a measurement state and result indicating units(112,113). The server delivers command of users and collects the measured results. The first communication interface unit communicates between the user interface unit and the server through bilateral wire communication. The measurement unit comprises a measurement data saving unit(211), a measurement control unit(212), and a measurement signal detection/measurement unit(213). The remote communication control unit bilaterally communicates between the user server and the measurement unit. The second communication interface unit communicates between the measurement unit and the remote communication control unit through bilateral wire communication. The wireless communication unit smoothly and bilaterally delivers data communication using satellite network or mobile communications network. | ||||||
| 59 | 이단속도구동기를갖는프로그래머/타이머조립체와이의설치방법 | KR1019890013063 | 1989-09-09 | KR1019900005259A | 1990-04-13 | 죠세프존매이혼; 로버트커트에이너어 |
| 내용 없음 | ||||||
| 60 | 무인 크레인용 원격조정장치 | KR2019840007652 | 1984-08-06 | KR200034708Y1 | 1987-07-20 | 박은홍 |
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