| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 油门踏板 | CN201580041234.3 | 2015-07-28 | CN106716290A | 2017-05-24 | 艾伦·查普曼; 迈克尔·林赛; 杰弗里·彭德尔顿; 马修·内韦尔斯; 韦恩·劳伦斯·舒西 |
| 本发明公开的油门踏板组件包括:具有第一侧壁和第二侧壁、顶壁、底壁、前壁与后壁的壳体;敞开到壳体的前部与底部的主室;以及传感器腔体。踏板组件包括踏板、踏板臂、以及在围绕枢转轴线可枢转的踏板臂的端部处的头部。磁体可操作地连接到踏板组件以当踏板组件围绕枢转轴线旋转时在枢转轴线上旋转。安装在传感器腔体中的霍尔效应传感器组件邻近磁体然而与磁体分开。腔体与霍尔效应传感器组件的形状与尺寸相应地设计为使得霍尔芯片与磁体放置在共同轴线上使得霍尔芯片与磁体共轴地对准。传感器腔体被密封以防止污染物进入腔体。 | ||||||
| 2 | 用于飞行器的飞行控制装置 | CN201680015797.X | 2016-03-03 | CN107406138A | 2017-11-28 | B·克里麦尔; C·巴拉; D·贝扎内尔; M·阿马拉尔; O·高莫科; P·科皮 |
| 本发明涉及一种用于飞行器的飞行控制装置,该飞行控制装置包括连接杆件、用于限制连接杆件的角向行程的机械装置、第一装置(4)以及第二装置(16),该第一装置用于绕所述转动轴线在连接杆件上产生力反馈,而该第二装置用于在该连接杆件上产生力反馈,并且该第二装置设置成与第一装置平行,第二装置和连接杆件的至少一个构件包括用于其临时连接的机械装置,该机械装置设置成当连接杆件运动超出角向范围中的预定角向位置时起作用,以使得第二装置连接于连接杆件。 | ||||||
| 3 | 带弹簧防脱及开关防失效保护的脚踏板总成 | CN201710437382.8 | 2017-06-09 | CN107132873A | 2017-09-05 | 应灵敏; 罗恩 |
| 本发明涉及汽车配件的技术领域,具体为带弹簧防脱及开关防失效保护的脚踏板总成,包括支架和铰链连接在支架上的脚踏板,所述的支架上设有类龙门架,所述的脚踏板穿过类龙门架且部分伸出类龙门架之外,且脚踏板与支架通过拉簧相连,所述的类龙门架上设有限定脚踏板上行运动极限位置的上定位件,当脚踏板与上定位件抵触时,拉簧处于拉伸状态,本发明结构简单,实用性强。 | ||||||
| 4 | 作業車 | JP2015192058 | 2015-09-29 | JP2017065403A | 2017-04-06 | 安延 大輔 |
| 【課題】操作レバー類の配置の自由度を高める上において好適な有段階位置保持型のレバーユニットを提供する。 【解決手段】作業車において、複数の操作位置にわたって有段階に前後揺動する操作レバー25と、操作レバー25をそれぞれの操作位置に保持するデテント式の保持機構47とを備え、保持機構47は、操作レバー25と連動する連動部材48と、連動部材48を介して操作レバー25を保持する保持部材49とを備え、操作レバー25と保持機構47とが、操作レバー25の揺動支軸54と交差する方向に並ぶ状態で分散配備され、操作レバー25と連動部材48とが連係機構55を介して連動連結されている。 【選択図】図7 |
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| 5 | 保持装置およびこのような保持装置に配置するためのピン | JP2016568638 | 2015-05-20 | JP6438050B2 | 2018-12-12 | シルマー、ハイコ |
| 6 | フェーダ | JP2017529205 | 2015-07-21 | JP6412652B2 | 2018-10-24 | ▲高▼城 七生; 鏑木 桂太郎; 遠藤 博之 |
| 7 | シートアジャスタ | JP2017567168 | 2016-06-03 | JP2018522772A | 2018-08-16 | シュヴァルツビッチ,ヨルグ |
| 固定部(10)と調整可能部(12)との間に作用するブレーキ(16)であって、前記調整可能部は、当該ブレーキにより前記固定部の上の異なる位置においてその動きが阻止され、解除要素(28)により解除され得るブレーキと、異なる2つの方向に前記調整可能部(12)を選択的に調整するために前記解除要素に作用する調整要素(22)と、前記調整要素(22)が作動しない場合には前記調整可能部を前記固定部に自動的に連結するとともに連動してロックし、前記調整要素が作動している場合には自動的に非連結とするロック要素(14)と、を備え、前記ロック要素の解除と前記調整可能部の調整は、前記調整要素を2つの方向のうちの一方の中立位置から外すことによって達成することができ、前記ロック要素(14)は、前記調整可能部(12)に連結された歯付きリング(46)と噛み合うための歯付きセグメント(48)を有し、前記固定部(10)の上を案内されて、前記ロック要素が前記歯付きリングと噛み合うロック位置と、前記ロック要素が前記歯付きリングから離れるように動く解除位置との間で、前記歯付きリング(46)の半径方向に移動するシートアジャスタ。 | ||||||
| 8 | 入力装置 | JP2016046308 | 2016-03-09 | JP2017159802A | 2017-09-14 | 山中 正剛; 安井 正峰; 水上 雅博 |
| 【課題】入力対象の装置の状態によって回転操作力のパターンを変更する。 【解決手段】つまみ101と、つまみ101と共に回転する回転軸体102と、回転操作力を変更することができる回転制御手段105と、回転位置を検出する検出器106と、制御部200と、複数のパターンが記憶される記憶部210とを備え、制御部200は、外部から入力されるパターン信号に応じて、記憶部210からパターンを読み出し、検出器106で検出された回転位置と読み出されたパターンに応じて、つまみ101が回転操作された際に回転制御手段105を制御する入力装置。 【選択図】図10 |
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| 9 | 유지 장치 및 상기 유형의 유지 장치에 배치되는 핀 | KR1020167035433 | 2015-05-20 | KR1020170019369A | 2017-02-21 | 쉬르머,하이코 |
| 본발명은 a) 시트(1)를구비하는장착브래킷(2)과, b) 장착브래킷(2)의시트(1)에서길이방향으로변위가능하게안내되고, 스프링부하가가해지고, 장착브래킷(2)의시트(1)로부터외부로연장되는핀 헤드(3)를구비하는핀(4)과, c) 센터링장치(5)를포함하는유지장치(10)에관한것으로서, 센터링장치(5)는핀(4) 상에서움직이지않게배치되고, 장착브래킷(2)에대항하여향하는장착브래킷(2)의시트(1) 내에서의복원력이제공된다. | ||||||
| 10 | 스로틀 페달 | KR1020177001443 | 2015-07-28 | KR1020170039652A | 2017-04-11 | 채프먼,앨런; 린지,마이클; 펜들턴,제프리; 네벨스,매튜; 수시,웨인로렌스 |
| 스로틀페달어셈블리는제1 측벽, 제2 측벽, 상부벽, 바닥벽, 전방벽 및후방벽을구비하는하우징; 상기하우징의전방및 바닥에개방된주된챔버및 센서캐비티를포함한다. 페달, 페달암 및상기페달암의단부에있는헤드를포함하는페달어셈블리는피봇축에대해회전가능하도록상기메인챔버내에장착된다. 자석은상기페달어셈블리가상기피봇축에대해회전함에따라상기피봇축 상에서회전하도록상기페달어셈블리에작동가능하게연결된다. 홀효과센서어셈블리는상기자석에근접하나상기자석으로부터분리되도록상기센서캐비티내에장착된다. 캐비티및 홀효과센서어셈블리는각각홀 칩및 자석이공통축 상에놓여져상기홀 칩및 상기자석이동축으로정렬되는형상및 크기로된다. 상기센서캐비티는이물질들이상기캐비티에유입되는것을방지하기위해밀봉된다. | ||||||
| 11 | SELF-LOCKING ROTORY HANDWHEEL ASSEMLY FOR A ROBOTIC PARALLEL GRIPPER ASSEMBLY | US15700789 | 2017-09-11 | US20190077025A1 | 2019-03-14 | Timothy M. Strang; Stefan Casey |
| A handwheel assembly includes a housing. A shaft having a central axis is rotatably supported by the housing. A locking device is rigidly attached to the housing. A rotary gear is circumferentially disposed over the shaft. A handwheel is circumferentially disposed over the shaft. The rotary gear and handwheel are operable to slide along the shaft from a first locked position to a second unlocked position. In the first locked position, the rotary gear is engaged with the locking device to rotationally lock the shaft. In the second unlocked position, the rotary gear is disengaged from the locking device to allow the shaft to rotate. | ||||||
| 12 | STRADDLED VEHICLE | US15994146 | 2018-05-31 | US20180346070A1 | 2018-12-06 | Tomokazu TAKAYANAGI; Joji SAWAOKA; Kazuyuki MAEDA; Kosuke HIRATA; Naoki KITAMURA |
| A rider operates a driving source switching lever to switch an operation mode to a normal traveling mode or an auxiliary moving mode. During the normal traveling mode, a motorcycle travels by a driving force generated by an engine. During the auxiliary moving mode, the motorcycle moves at a low speed by a driving force generated by a vehicle driving motor. When the rider operates a forward-backward movement operator during the auxiliary moving mode to put the forward-backward movement operator in a forward movement instruction state, the vehicle driving motor is controlled such that the motorcycle moves forward. When the rider operates the forward-backward movement operator during the auxiliary moving mode to put the forward-backward movement operator in a backward movement instruction state, the vehicle driving motor is controlled such that the motorcycle moves backward. | ||||||
| 13 | TRIGGER GUARD AND PENDANT FOR A PORTABLE HYDRAULIC POWER UNIT | US15965036 | 2018-04-27 | US20180314288A1 | 2018-11-01 | Charles W. Dawson; Douglas S. Ryder |
| A trigger guard for a pendant for controlling a hydraulic power unit includes a first prong extending from a front side of a handle of the pendant; a second prong extending from the front side of the handle; a groove disposed between the first prong and the second prong, the groove defined by the first prong, the second prong, and the handle; a first gap disposed between the first prong and a head of the pendant; and a second gap disposed between the second prong and the head. The trigger is disposed between the first prong and the second prong such that the trigger is accessible through the groove, the first gap, and the second gap. | ||||||
| 14 | PORTABLE HYDRAULIC POWER UNIT | US15965005 | 2018-04-27 | US20180313344A1 | 2018-11-01 | Charles W. Dawson; Mariusz J. Luczak; Barry W. Mattson; Douglas S. Ryder; Bret A. Deneson; Christopher A. Lins |
| A portable hydraulic power unit includes a frame, a fluid tank supported by the frame, and a manifold supported by the frame. The fluid tank is configured to store a supply of hydraulic fluid for powering a hydraulically-driven tool. A reciprocating pump is mounted on the exterior of the fluid tank and on the exterior of the manifold. The reciprocating pump is secured to the fluid tank and the manifold with fasteners extending through a cylinder body of the reciprocating pump. | ||||||
| 15 | Joystick assembly | US15224942 | 2016-08-01 | US10048718B2 | 2018-08-14 | Ali Husain Yusuf Sirohiwala; William P. Taylor; Katherine Shamberger |
| A joystick assembly for use with a device including a joystick surface and a first magnet having north and south magnetic poles includes a second magnet having north and south magnetic poles and a movable elongated shaft having first and second opposing ends arranged along a major axis of the shaft. The first end of the shaft is coupled to the second magnet such that movement of the shaft results in movement of the second magnet relative to the first magnet such that a line between centers of the north and south magnetic poles of the second magnet is movable relative to a line between the north and south magnetic poles of the first magnet. An attraction of the second magnet to the first magnet results in a restoring force upon the shaft, and the shaft and the second magnet are removable from the joystick surface. | ||||||
| 16 | OPERATION DEVICE | US15745517 | 2015-07-21 | US20180216710A1 | 2018-08-02 | Nao Takagi; Keitaro Kaburagi; Hiroyuki Endo |
| An operation device includes a stationary portion, a movable portion configured to move in a predetermined direction within a predetermined range, and a load adjuster configured to adjust a movement load of the movable portion. An elastic portion that is elastically deformable is provided to the movable portion. The load adjuster is provided to the stationary portion and provided with a press portion configured to press the elastic portion in a direction intersecting with the moving direction of the movable portion. | ||||||
| 17 | MANEUVER ELEMENT INCORPORATING LOCKING MEANS | US15722723 | 2017-10-02 | US20180101191A1 | 2018-04-12 | Alberto Bertani |
| Maneuver element of the type composed by an element provided, on each end, with a protruding grip and centrally with safety means which can be activated under pressure and controlled from outside, apt to engage the structure on which it is mounted and to prevent the rotation, said pressure activated means, being composed of a button system having a central hole, housed within a depression of said maneuver element, and partially protruding from it, from the base of said button system abutting engaging and retaining plugs, housed free to move longitudinally within the holes obtained in said maneuver element, characterized in that fast remote identification means of the functionality of said maneuver and pressure fast activation means of said engaging and retaining plugs are associated with said button system, said pressure fast activation means of said plugs being composed by the association of engaging elements mounted on a rotor with driving and retaining elements provided on a stator complementary to said rotor. | ||||||
| 18 | Motion Coupling of Multiple Electronic Control Inputs | US15250226 | 2016-08-29 | US20180058039A1 | 2018-03-01 | Andrew Arnold Fredrickson; Christopher M. Elliott |
| An electronic control system for controlling movement of a work machine is disclosed. The control system may include a first and a second joystick, each of the first and second joysticks configured to move between a neutral and an operational position. Moreover a first and second resistive device may be operatively coupled to the first and second joysticks respectively. The first and second resistive devices may be configured to generate a resistive force to selectively retain the first and second joysticks in the operational position. Additionally, the control system may include a controller in communication with the first and second joysticks and the first and second resistive devices. The controller may transmit a first and second resistive force signal to activate one of the first and second resistive devices to generate the resistive force such that one of the first and second joysticks is retained in the operational position. | ||||||
| 19 | Reaction Force Output Device | US15543823 | 2016-03-02 | US20170368935A1 | 2017-12-28 | Hiroyuki KOUZUMA |
| A reaction force output device includes a driving part configured to transmit a driving force of a motor to a driving member through a gear mechanism to drive the driving member, thereby outputting a force in a direction opposite to an operating direction of an operation element to the operation element operated by a driver; and a controller configured to determine a control amount applied to the driving part based on an input value supplied from an outside, wherein the controller gradually increases the control amount, maintains the control amount at a constant value and then increases the control amount stepwise when increasing the control amount according to the input value. | ||||||
| 20 | ROTARY CONTROL SYSTEM FOR A DEVICE | US15400493 | 2017-01-06 | US20170242453A1 | 2017-08-24 | Daniel SINTHOMEZ; Florent PITIS |
| This rotary control system for a device includes a rotary control member, rotationally mobile about a first fixed axis, between first and second positions, and a rotary control handle, intended to be secured in rotation with the rotary member about the first axis. It also includes a blocking device, that can be selectively moved, when the rotary member is in its first position, between a blocking configuration, in which it prevents the movement of the rotary member to its second position, and a release configuration, wherein the movement of the rotary member to its second position. This system further includes a locking plate, rotationally mobile about the first axis relative to the rotary member, when the rotary member is in its first position, between a locking position, in which a first orifice passing through the rotary member is superposed with a second orifice passing through the locking plate. | ||||||
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