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 | 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 |
||||||
3 | JPS5638971B2 - | JP5378074 | 1974-05-14 | JPS5638971B2 | 1981-09-10 | |
4 | Throttle pedal | US15321582 | 2015-07-28 | US10112484B2 | 2018-10-30 | Alan Chapman; Michael Lindsay; Jeffrey Pendleton; Matthew Nevels; Wayne Lawrence Soucie |
A throttle pedal assembly comprises a housing having a first and second side, top, bottom, front and back walls; a main chamber open to the front and bottom of the housing and a sensor cavity. A pedal assembly comprises a pedal, a pedal arm, and a head at an end of the pedal arm rotatable a pivot axis. A magnet is operatively connected to the pedal assembly to rotate on the pivot axis as the pedal assembly rotates about the pivot axis. A Hall effect sensor assembly mounted in the sensor cavity to be proximate the magnet yet separated from the magnet. The cavity and Hall effect sensor assembly are respectively shaped and sized such that the Hall chip and the magnet lay on a common axis such that the Hall chip and the magnet are coaxially aligned. The sensor cavity is sealed to prevent contaminants from entering the cavity. | ||||||
5 | Input device | US15422521 | 2017-02-02 | US09920831B2 | 2018-03-20 | Seigo Yamanaka; Masamine Yasui; Masahiro Mizukami |
A pattern of a rotational operation force is changed by a state of a device of an input object. An input device includes a knob, a rotation shaft body that rotates together with the knob, a rotation controller that is capable of changing a rotational operation force, a detector that detects a rotational position, a controller, and a storage that stores a plurality of patterns. The controller reads a pattern from the storage according to a pattern signal input from an outside and controls the rotation controller when the knob is operated to be rotated according to a rotational position detected by the detector and the read pattern. | ||||||
6 | INPUT DEVICE | US15422521 | 2017-02-02 | US20170261097A1 | 2017-09-14 | SEIGO YAMANAKA; MASAMINE YASUI; MASAHIRO MIZUKAMI |
A pattern of a rotational operation force is changed by a state of a device of an input object. An input device includes a knob, a rotation shaft body that rotates together with the knob, a rotation controller that is capable of changing a rotational operation force, a detector that detects a rotational position, a controller, and a storage that stores a plurality of patterns. The controller reads a pattern from the storage according to a pattern signal input from an outside and controls the rotation controller when the knob is operated to be rotated according to a rotational position detected by the detector and the read pattern. | ||||||
7 | Control device manipulator means | US3543594D | 1968-09-30 | US3543594A | 1970-12-01 | BERLEYOUNG WALTER J; MUELLER KLAUS P |
8 | Two-speed drive | US33913364 | 1964-01-21 | US3292440A | 1966-12-20 | KARR JOHN W; MA JOHN Y |
9 | Control aid | US44484054 | 1954-07-21 | US2836986A | 1958-06-03 | MARCEL KRETZ |
10 | Microscope manipulators or dissection manipulators | US22855651 | 1951-05-28 | US2815697A | 1957-12-10 | EDWARD SAUNDERS-SINGER ARTHUR |
11 | スロットルペダル | JP2017504435 | 2015-07-28 | JP2017523080A | 2017-08-17 | チャプマン、アラン; リンドセイ、マイケル; ペンドレトン、ジェフリー; ネベルズ、マトゥー; ロウレンス ソウシエ、ウェイン |
スロットルペダル組立体は、第1側壁、第2側壁、上壁、底壁、前壁、及び後壁を有するハウジングと;前記ハウジングの前面及び底面に開口するメインチャンバと;センサキャビティとを含む。ペダル、ペダルアーム、及び前記ペダルアームの端部にヘッドを有するペダル組立体は、ピボット軸に対して回転可能に前記メインチャンバ内に装着される。磁石は、前記ペダル組立体が前記ピボット軸に対して回転しながら前記ピボット軸上で回転するように前記ペダル組立体に動作可能に接続される。ホール効果センサ組立体は、前記磁石に近接しているが、前記磁石から離れるように前記センサキャビティ内に装着される。キャビティ及びホール効果センサ組立体は、ホールチップ及び磁石が同軸に整列するように前記ホールチップと前記磁石とが共通軸上に位置するような形状及び大きさで成形される。前記センサキャビティは、汚染物質が前記キャビティに流入するのを防止するために密封される。 | ||||||
12 | JPS5018856A - | JP5378074 | 1974-05-14 | JPS5018856A | 1975-02-27 | |
13 | THROTTLE PEDAL | EP15827171 | 2015-07-28 | EP3189392A4 | 2018-06-20 | CHAPMAN ALAN; LINDSAY MICHAEL; PENDLETON JEFFREY; NEVELS MATTHEW; SOUCIE WAYNE LAWRENCE |
A throttle pedal assembly comprises a housing having a first and second side, top, bottom, front and back walls; a main chamber open to the front and bottom of the housing and a sensor cavity. A pedal assembly comprises a pedal, a pedal arm, and a head at an end of the pedal arm rotatable a pivot axis. A magnet is operatively connected to the pedal assembly to rotate on the pivot axis as the pedal assembly rotates about the pivot axis. A Hall effect sensor assembly mounted in the sensor cavity to be proximate the magnet yet separated from the magnet. The cavity and Hall effect sensor assembly are respectively shaped and sized such that the Hall chip and the magnet lay on a common axis such that the Hall chip and the magnet are coaxially aligned. The sensor cavity is sealed to prevent contaminants from entering the cavity. | ||||||
14 | ELECTRONIC BRAKE VALVE CONTROLLER WITH ADJUSTABLE FRICTION AND DETENT TORQUE | US15285673 | 2016-10-05 | US20180093649A1 | 2018-04-05 | Erich Leonard; Peter Greetham; Steve Newton |
A brake controller having independently adjustable friction and detent torque to allow for easy adjustment of handle feel without changing or replacing components. The brake handle is coupled to a cam that rotates with the handle and has a series of divots in its outer circumference corresponding to established brake handle positions. A detent roller is biased by an adjustable spring into engagement with the outer circumference of the cam and thus into the divots when the handle is moved. A separately adjustable spring biases a lateral surface of the cam into engagement with a frictional surface. Independent adjustment of the two spring can adjust both detent and friction torque, thus allowing a user to easily adjust handle feel without having to change or replace handle components | ||||||
15 | THROTTLE PEDAL | US15321582 | 2015-07-28 | US20170210227A1 | 2017-07-27 | Alan Chapman; Michael Lindsay; Jeffrey Pendleton; Matthew Nevels; Wayne Lawrence Soucie |
A throttle pedal assembly comprises a housing having a first and second side, top, bottom, front and back walls; a main chamber open to the front and bottom of the housing and a sensor cavity. A pedal assembly comprises a pedal, a pedal arm, and a head at an end of the pedal arm rotatable a pivot axis. A magnet is operatively connected to the pedal assembly to rotate on the pivot axis as the pedal assembly rotates about the pivot axis. A Hall effect sensor assembly mounted in the sensor cavity to be proximate the magnet yet separated from the magnet. The cavity and Hall effect sensor assembly are respectively shaped and sized such that the Hall chip and the magnet lay on a common axis such that the Hall chip and the magnet are coaxially aligned. The sensor cavity is sealed to prevent contaminants from entering the cavity. | ||||||
16 | Micromanipulator utilizing a constant velocity universal joint | US3768331D | 1972-11-17 | US3768331A | 1973-10-30 | CHRISTY H |
A precision alignment fixture which linearly translates lateral and angular motion of a single control member to a rotatable transfer shaft. A main spherical bearing has a cylindrical hole therein, and a bushing having a flange is fitted within the hole. A spherical pivot bearing having a mounting shaft affixed thereto is captured within the bushing by the flange and by a control member shaft also fitted within said bushing. The main spherical bearing pivots on the firmly mounted pivot bearing and fits snugly within a second bushing so that a swiveling motion of the control member is directly transmitted by the second bushing to a housing member which supports a rotatable transfer shaft and associated mounting bearings. The control member is directly coupled from the main spherical bearing to the second bushing by pins affixed to the main spherical bearing and extending into the second bushing, which engages a first sprocket, coupled by a chain to a second large sprocket on the same shaft as a small third sprocket, which is coupled by a chain to a large fourth sprocket attached to the transfer shaft. A centralizer mechanism which includes a scissors-like apparatus having an aligned groove in each blade thereof may be actuated by an attached air cylinder apparatus so that the aligned grooves close upon the transfer shaft.
|
||||||
17 | Actuating mechanism | US8486061 | 1961-01-25 | US3148748A | 1964-09-15 | YOUNG PETER H |
18 | Adjustable actuator | US58083556 | 1956-04-26 | US2951383A | 1960-09-06 | HERIDER ELMER A; FRIESEN HERBERT A |
19 | Separable connection for linkage mechanisms extending between two separatble bodies | US50191755 | 1955-04-18 | US2823554A | 1958-02-18 | ENYEART RAYMOND J |
20 | Checking mechanism for controllers | US28673852 | 1952-05-08 | US2689486A | 1954-09-21 | ROBBINS CLYDE F; WILLIAMS LLOYD D |