| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | Flight control device for an aircraft | US15552778 | 2016-03-03 | US10005542B2 | 2018-06-26 | Benoit Cremiere; Cedric Bara; Daniel Bezanere; Manuel Amaral; Oleg Gomolko; Pascal Coppee |
| The invention relates to a flight control device for an aircraft, including a connection lever, mechanical means for limiting an angular stroke of the connection lever, first means for generating force feedback on the connection lever about said pivot axis, second means for generating force feedback on the connection lever, which means are arranged in parallel with the first means, at least one element selected from the second means and the connection lever comprising mechanical means for connecting them together temporarily, which means are arranged to be active when the connection lever is moved beyond a predetermined angular position in the angular range so that the second means are connected to the connection lever. | ||||||
| 62 | DAMPING ASSEMBLY | US15816147 | 2017-11-17 | US20180142757A1 | 2018-05-24 | Jean-Paul CARRIE; Julian SERIEYS |
| A damping assembly comprises a connecting rod for connection to a moving part to be damped, a damper comprising a piston, a mechanical fuse coupling the connecting rod to the damper, the mechanical fuse configured such that when a force between the connecting rod and damper reaches a threshold value the connecting rod becomes uncoupled from the piston. The damping assembly further comprises a biasing member that biases the piston towards a central position such that the connecting rod may be re-coupled to the piston. | ||||||
| 63 | SPRING DAMPER AND ACCELERATOR DEVICE USING THE SPRING DAMPER | US15567728 | 2016-04-26 | US20180135726A1 | 2018-05-17 | Takuto KITA; Yoshinori INUZUKA |
| A spring damper disposed inside a coil spring includes: a main body having an outside diameter smaller than an inside diameter of a spring wire of the coil spring; and an outward convex part having a distal end located on an outer side of a cylindrical virtual plane in the radial direction, the cylindrical virtual plane passing through a center of the spring wire. When the coil spring is compressed by pressing an accelerator pedal by a driver, the outward convex part located between the adjacent spring wires prevents collision between the spring wires. | ||||||
| 64 | LOCK STRUCTURE FOR OPERATING LEVER | US15572233 | 2016-05-16 | US20180107234A1 | 2018-04-19 | Takayuki NAGAKI; Tamotsu IWAMA |
| A lock structure is constituted of a gear and an engagement/disengagement switching section. The gear is disposed concentric with a turning center of an operating lever. The engagement/disengagement switching section is provided with an engagement pawl such that the engagement pawl can move toward and away from the gear. The engagement pawl is connected to a switching lever to form a substantially T-like shape, and the switching lever is pivotally supported by a body section of the engagement/disengagement switching section. A locking operation of the switching lever switches between the locked state and unlocked state of the operating lever. In an engaged state, a gap having an opening angle of α in a direction in which the operating lever loosens is formed between a tooth groove of the gear and the engagement pawl. | ||||||
| 65 | Fluid haptic interface with improved haptic rendering using a torque or load sensor | US15514568 | 2015-09-29 | US09898032B2 | 2018-02-20 | Moustapha Hafez; Jose Lozada; Laurent Eck; Gwenael Changeon |
| A haptic interface, including: a button which can be rotated by a user; an interaction element interacting with a magnetorheological fluid, secured to the button; a mechanism measuring a current position of the button; a brake including a magnetorheological fluid and a generation system to generate a magnetic field in the fluid; a controller configured to generate orders for the system to generate a magnetic fluid to modify a value of the magnetic field; and a mechanism to detect torque exerted by a user on the button to know direction of the torque and whether the torque is greater than a given value for a given direction, the controller controlling generation of a magnetic field based on obtained information about the torque at least when the button indicates zero or low speed. | ||||||
| 66 | FLIGHT CONTROL DEVICE FOR AN AIRCRAFT | US15552778 | 2016-03-03 | US20180043993A1 | 2018-02-15 | Benoit CREMIERE; Cedric BARA; Daniel BEZANERE; Manuel AMARAL; Oleg GOMOLKO; Pascal COPPEE |
| The invention relates to a flight control device for an aircraft, including a connection lever, mechanical means for limiting an angular stroke of the connection lever, first means for generating force feedback on the connection lever about said pivot axis, second means for generating force feedback on the connection lever, which means are arranged in parallel with the first means, at least one element selected from the second means and the connection lever comprising mechanical means for connecting them together temporarily, which means are arranged to be active when the connection lever is moved beyond a predetermined angular position in the angular range so that the second means are connected to the connection lever. | ||||||
| 67 | DETENT ALIGNMENT MECHANISM ASSEMBLY | US15209186 | 2016-07-13 | US20180017987A1 | 2018-01-18 | Cory M. Crandall-Seibert; Jeffrey Paul Jacobs |
| A detent alignment mechanism assembly is provided and includes a shaft, a lock mechanism configured to selectively occupy an unlocked position at which the shaft is movable and a locked position at which the shaft is immovable, a detent mechanism coupled to the shaft and formed to define detent positions for the shaft to assume and move between and a detent alignment mechanism configured to provide to an operator of the shaft feedback and assistance corresponding to assumptions of the detent positions by the shaft during movements thereof by the operator. | ||||||
| 68 | INCEPTOR APPARATUS | US15313638 | 2015-05-19 | US20170212514A1 | 2017-07-27 | ADAM TAYLOR; JASON HOWARD BEAN |
| An active inceptor apparatus and method for operating a machine. The apparatus comprises a stick member having a grip portion, the stick member being pivotably mounted relative to a housing. It further comprises a position sensor responsive to, and for generating signals indicative of, stick member position. A force sensor is provided on the stick member responsive to, and for generating signals indicative of, force applied to the stick by a user. The apparatus also includes a control unit operable to receive the position and force signals from the position and force sensors respectively. The control unit is operable to process the signals according to a predetermined relationship to determine a value FD indicative of force applied to the stick member relative to displacement of the stick member. The control unit is also operable to generate machine control signals as a function of position signals and force signals in dependence upon the value FD, for communication to the machine. | ||||||
| 69 | WORK VEHICLE | US15277174 | 2016-09-27 | US20170088202A1 | 2017-03-30 | Daisuke YASUNOBE |
| Work vehicle includes an operation lever pivoting forward and backward stepwise through a plurality of operation positions; and a detent type retention mechanism holding the operation lever in each of the operation positions. The retention mechanism includes a coupling member coupled to the operation lever; and a retention member holding the operation lever via the coupling member. The operation lever and the retention mechanism are provided separately from each other, aligned in a direction intersecting with a pivot support shaft of the operation lever. The operation lever and the coupling member are reciprocally connected via a linking mechanism. | ||||||
| 70 | Actuating Element and a Pair of Rocker Units for an Actuating Element | US14231160 | 2014-03-31 | US20140311272A1 | 2014-10-23 | Franz JAKOUBEK |
| An actuating element for actuating an instrument for performing minimally invasive interventions comprises a first handle half-shell and a second handle half-shell movable relative to each other and connected with each other at one end by a biasing mechanism; a tube arranged substantially centrally between the handle half-shells; a linkage mechanism arranged between the handle half-shells and the tube in order to transmit an actuating movement of the handle half-shells; a locking mechanism with a latching rocker arranged on the first handle half-shell and a locking rocker arranged on the second handle half-shell, wherein the two rockers enter into locking connection with each other through an opening provided therefor in the tube when the handle half-shells are moved together, and wherein the rockers are mounted around a pivot axis such that a swiveling or pivoting movement of the rockers lies within a plane defined by the handle half-shells. | ||||||
| 71 | SYSTÈME DE COMMANDE ROTATIVE POUR UN APPAREIL | EP17156599.7 | 2017-02-17 | EP3208820B1 | 2018-11-21 | SINTHOMEZ, Daniel; PITIS, Florent |
| 72 | PEDAL APPARATUS AND MANUFACTURING METHOD THEREOF | EP18160080.0 | 2018-03-06 | EP3376333A1 | 2018-09-19 | Kim, Jun Woo; Hong, Gap Pyo; Kim, Young Woon; Lee, Jung Min; Park, Wi Sang; Kim, Dong Hwan |
A pedal apparatus (1) including a pedal housing (11) including an inner space (111), a pedal pad (12) configured to rotate relative to the pedal housing (11), a pedal arm (15) connected directly or indirectly to the pedal pad (12) to rotate based on an angle of rotation of the pedal pad (12), the pedal arm (15) including a hollow (152), a magnet (M) installed in the pedal arm (15), and a sensing board (17) including a Hall sensor (171) configured to sense a magnetic force generated by the magnet (M), at least a portion of the sensing board (17) being inserted into the hollow (152).
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| 73 | LICHTSTELLPULT MIT DOPPELWELLENENCODER | EP17203554.5 | 2017-11-24 | EP3352533A1 | 2018-07-25 | ADENAU, Michael |
Die Erfindung betrifft ein Lichtstellpult (01) zur Steuerung einer Beleuchtungsanlage, wobei im Lichtstellpult (01) digitale Stellbefehle erzeugt werden, die über Datenverbindungen an die Beleuchtungseinrichtungen der Beleuchtungsanlage übertragen werden können, und wobei das Lichtstellpult (01) zumindest einen Digitalprozessor und zumindest einen Digitalspeicher zur Erzeugung, Verwaltung und Speicherung der Stellbefehle umfasst, und wobei das Lichtstellpult (01) zumindest eine Anzeigeeinrichtung umfasst, und wobei an der Anzeigeeinrichtung Grafikelemente für den Benutzer grafisch dargestellt werden können, wobei im Bedienfeld (08) des Lichtstellpults (01) zumindest ein Doppelwellenencoder (07) vorgesehen ist, an dem Eingabewerte vom Benutzer eingegeben werden können, wobei der Doppelwellenencoder (07) eine erste drehbar in einem Gehäuse (16) gelagerte Welle (09) aufweist, und wobei an der ersten Welle (09) ein erstes Rastwerk zur Verrastung unterschiedlicher Drehlagen der ersten Welle (09) und zumindest ein erster Drehsignalgeber (26, 27) zur Erzeugung eines ein Umschalten zwischen zwei Rastlagen anzeigenden Datensignals vorgesehen sind, und wobei am Doppelwellenencoder (07) eine zweite, koaxial drehbar in dem Gehäuse (16) gelagerte Welle (10) vorgesehen ist, und wobei an der zweiten Welle (10) ein zweites Rastwerk zur Verrastung unterschiedlicher Drehlagen der zweiten Welle (10) und zumindest ein zweiter Drehsignalgeber (28, 29) zur Erzeugung eines ein Umschalten zwischen zwei Rastlagen anzeigenden Datensignals vorgesehen sind, und wobei beide Wellen (09, 10) Betätigungselemente (11, 12) aufweisen, an denen Stellbewegungen von Hand auf die Wellen (09, 10) übertragen werden können.
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| 74 | THROTTLE PEDAL | EP15827171.8 | 2015-07-28 | EP3189392A1 | 2017-07-12 | 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. | ||||||
| 75 | INCEPTOR APPARATUS | EP15724011.0 | 2015-05-19 | EP3148877A2 | 2017-04-05 | TAYLOR, Adam; BEAN, Jason, Howard |
| An active inceptor apparatus and method for operating a machine. The apparatus comprises a stick member having a grip portion, the stick member being pivotably mounted relative to a housing. It further comprises a position sensor responsive to, and for generating signals indicative of, stick member position. A force sensor is provided on the stick member responsive to, and for generating signals indicative of, force applied to the stick by a user. The apparatus also includes a control unit operable to receive the position and force signals from the position and force sensors respectively. The control unit is operable to process the signals according to a predetermined relationship to determine a value FD indicative of force applied to the stick member relative to displacement of the stick member. The control unit is also operable to generate machine control signals as a function of position signals and force signals in dependence upon the value FD, for communication to the machine. | ||||||
| 76 | RETAINING DEVICE, AND PIN TO BE PLACED IN A RETAINING DEVICE OF SAID TYPE | PCT/EP2015061066 | 2015-05-20 | WO2015177186A3 | 2016-03-03 | SCHIRMER HEIKO |
| The invention relates to a retaining device (10) comprising a) a holder (2) that includes a receptacle (1), b) a spring-biased pin (4) which is guided so as to be longitudinally movable in the receptacle (1) of the holder (2) and which includes a pin head (3) that protrudes from the receptacle (1) of the holder (2), c) a centering mechanism (5) which is stationarily arranged on the pin (4) and is provided with a restoring force within the receptacle (1) of the holder (2), said restoring force being directed against the holder (2). | ||||||
| 77 | INCEPTOR APPARATUS | PCT/GB2015051456 | 2015-05-19 | WO2015181525A2 | 2015-12-03 | TAYLOR ADAM; BEAN JASON HOWARD |
| An active inceptor apparatus and method for operating a machine. The apparatus comprises a stick member having a grip portion, the stick member being pivotably mounted relative to a housing. It further comprises a position sensor responsive to, and for generating signals indicative of, stick member position. A force sensor is provided on the stick member responsive to, and for generating signals indicative of, force applied to the stick by a user. The apparatus also includes a control unit operable to receive the position and force signals from the position and force sensors respectively. The control unit is operable to process the signals according to a predetermined relationship to determine a value FD indicative of force applied to the stick member relative to displacement of the stick member. The control unit is also operable to generate machine control signals as a function of position signals and force signals in dependence upon the value FD, for communication to the machine. | ||||||
| 78 | 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. | ||||||
| 79 | VERFAHREN ZUM SCHONENDEN BETRIEB EINES AKTUATORS FÜR EINEN KRAFTSTELLER EINES GASPEDALS | EP16736796.0 | 2016-07-07 | EP3328674A1 | 2018-06-06 | LEPCZYK, Daniel; DIETRICH, Maximilian; MAKHORTOVA, Daria |
| The invention relates to a method for operating at least one actuator for a force controller of a device, wherein a haptic feedback message concerning at least one operational state of the device is provided to a user of the device by means of a force of predetermined strength and acting via the at least one actuator on the force controller, when the user brings the force controller to at least lone predetermined point on a movement path of the force controller. The at least one actuator is controlled in such a way that, as soon as the user deflects the force controller for a predetermined time period to the at least one predetermined point on the movement path of the force controller and/or holds the force controller at this point, the strength of the force acting via the at least one actuator on the force controller is reduced after a further predetermined time period. The invention further relates to a corresponding device. | ||||||
| 80 | SITZVERSTELLER | EP16726607.1 | 2016-06-03 | EP3313690A1 | 2018-05-02 | Schwarzbich, Jörg |
| The invention relates to a seat adjuster, comprising a brake (16), which acts between a fixed part (10) and an adjustable part (12) and by means of which the adjustable part can be blocked in different positions on the fixed part and which can be released by means of a release element (28), an adjustment element (22), which acts on the release element, for selectively adjusting the adjustable part (12) in two opposite directions, and a locking element (14), which automatically engages and interlockingly locks the adjustable part to the fixed part (10) when the adjustment element (22) is not actuated and automatically disengages when the adjustment element is actuated, wherein the disengagement of the locking element and the adjustment of the adjustable part can be effected by moving the adjustment element out of a neutral position in one of the two directions, characterized in that the locking element (14) has a toothed segment (48) for meshing with a toothed ring (46) coupled to the adjustable part (12) and is guided on the fixed part (10) in such a way that the locking element can be moved in the radial direction of the toothed ring (46) between a locking position, in which the locking element meshes with the toothed ring, and a release position, in which the locking element is moved away from the toothed ring. | ||||||
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