| 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 | METHOD FOR INCREASING THE OPERATING STABILITY OF AN INDUSTRIAL TRUCK | US15719931 | 2017-09-29 | US20180086614A1 | 2018-03-29 | Hendrik Geilsdorf; Jörn Sellentin |
| A method for operating an industrial truck having an operating element comprising at least one operating lever and a resetting apparatus configured to interact with the at least one operating lever comprises generating resetting force that is dependent on a deflection of the least one operating lever. Determining a vehicle variable indicating a tipping moment and changing the resetting force when a critical value of the vehicle variable exists for a tipping moment of the industrial truck, wherein the resetting force increases as the tipping moment increases. | ||||||
| 42 | 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. | ||||||
| 43 | MULTI-MODE GIMBAL TRANSMITTER | US15698119 | 2017-09-07 | US20180067514A1 | 2018-03-08 | Danny Snyder |
| A wireless transmitter includes a pair of control sticks, circuitry coupled to control sticks, and an antenna coupled to the circuitry. The circuitry is configured to process signals produced by the control sticks to provide control inputs for the speed, direction, and other flight characteristics of the model aircraft being controlled by the transmitter. The transmitter is configured for multiple operational modes in which the pair of control sticks engage or disengage functionality, such as return-to-center functionality, vertical or horizontal position limiting functionality, or position select functionality. | ||||||
| 44 | Modular Non-Linear Spring System | US15665872 | 2017-08-01 | US20180039298A1 | 2018-02-08 | Jack Adoline; Joaquin Davis; Jason Sicotte |
| A modular non-linear spring system capable of simulating traditional brake pedal feel when incorporated into a hydraulic and/or electro-hydraulic vehicle braking system. The system can include a first spacer having a top surface and a bottom surface and an optional second spacer having a top surface and a bottom surface. In one arrangement, a first mechanical spring is in abutting engagement with the top surface of said first spacer, a second mechanical spring is in abutting engagement with the bottom surface of said first spacer and the top surface of said second spacer, and an optional third mechanical spring is in abutting engagement with the bottom surface of said second spacer. The springs are arranged to be progressively compressed using a brake pedal of the braking system. | ||||||
| 45 | Power Transmission Device | US15543089 | 2016-03-02 | US20180010683A1 | 2018-01-11 | Hiroyuki KOUZUMA; Kohei HIROTANI |
| This power transmission device includes a motor, a worm connected to a rotating shaft of the motor, and a worm wheel engaged with the worm and disposed at an operation pedal side with respect to the worm, wherein a biasing member which biases the motor in a direction in which the worm and the worm wheel come in contact with each other when the motor is driven is disposed between the motor and a housing. | ||||||
| 46 | 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. | ||||||
| 47 | Hydraulic Control System | US15341298 | 2016-11-02 | US20170123447A1 | 2017-05-04 | Brant Douglas Kukuk; Cody L. Sewell |
| A hydraulic control for an attachment on a work vehicle. Power is provided to the attachment by manually actuating a control lever that is biased toward a first position. This first position corresponds to a deactuated mode of the attachment. By unlocking a lock mechanism, the lever may be maintained in a second position under hand pressure. This second position corresponds to an actuated mode of the attachment. The lock mechanism may be actuated by an operator platform-actuated release mechanism. While an operator is on a platform on the vehicle, the loch mechanism remains unlocked, and the lever may be maintained, without hand pressure, in its second position. The release mechanism actuates the lock mechanism when an operator is not on the platform. As a result, the bias of the control lever returns it to its first position, and the attachment is deactuated. A filter may be utilized to prevent premature actuation of the release mechanism. | ||||||
| 48 | RETAINING DEVICE, AND PIN TO BE PLACED IN A RETAINING DEVICE OF SAID TYPE | US15312356 | 2015-05-20 | US20170089458A1 | 2017-03-30 | Heiko SCHIRMER |
| 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). | ||||||
| 49 | JOYSTICK DEVICE AND REMOTE CONTROLLER HAVING THE JOYSTICK DEVICE | EP18788988.6 | 2018-04-19 | EP3476451A1 | 2019-05-01 | LIANG, Zhiying; ZHANG, Huihua |
The present application relates to the field of remote control technologies and provides a joystick device and a remote control. The joystick device includes an operating rod assembly, a magnetic component, a circuit board and a reset assembly. The magnetic component is mounted to the operating rod assembly. The circuit board includes a magnetic sensor. The magnetic sensor faces the magnetic component. The magnetic component is capable of moving from an initial position relative to the magnetic sensor along a first direction or a second direction when driven by the operating rod assembly. The first direction is opposite to the second direction. The reset assembly is connected to the operating rod assembly. The reset assembly is configured to reset the operating rod assembly along the second direction or the first direction, so that the magnetic component is reset to the initial position. In the joystick device of the present application, the reset assembly is configured to reset the operating rod assembly along the second direction or the first direction, so that the magnetic component is reset to the initial position, thereby simplifying operations of the joystick device. |
||||||
| 50 | VERFAHREN ZUR BEDIENUNG EINES FLURFÖRDERZEUGS MIT EINEM BEDIENELEMENT SOWIE EIN FLURFÖRDERZEUG | EP17193223.9 | 2017-09-26 | EP3301065B1 | 2018-10-17 | Geilsdorf Dr., Hendrik; Sellentin, Jörn |
| 51 | LICHTSTELLBEDIENEINHEIT MIT DOPPELWELLENENCODER | EP17822617.1 | 2017-12-13 | EP3369293A1 | 2018-09-05 | ADENAU, Michael |
| The invention relates to a light control operating unit (01) for a lighting system, wherein digital control commands are produced in the light control operating unit (01), which digital control commands can be transferred to a computer unit (20) via a data connection, and wherein the light control operating unit (01) comprises a plurality of operating elements, in particular keys (03), slide controls (04), and/or rotary controls (05), which are arranged on the top side of the housing (02) and by means of which operating commands can be input, wherein at least one double-shaft encoder (07) is provided on the operating panel (08) of the light control operating unit (01), at which double-shaft encoder input values can be input by the user, wherein the double-shaft encoder (07) has a first shaft (09) rotatably mounted in a housing (16), and wherein a first rotary signaling device for producing a data signal is provided on the first shaft, and wherein a second shaft (10), which is coaxially rotatably mounted in the housing (16), is provided on the double-shaft encoder (07), and wherein a second rotary signaling device for producing a data signal is provided on the second shaft (10), and wherein both shafts (09, 10) have actuating elements (11, 12), at which control movements can be manually transferred to the shafts (09, 10), and wherein the actuating elements for the manual adjustment of the shafts (09, 10) are designed in the manner of a dial (12) and/or a rotary ring (11), which are arranged on the operating panel (08) of the light control operating unit (01) and can be rotated coaxially relative to each other. | ||||||
| 52 | VERFAHREN ZUR BEDIENUNG EINES FLURFÖRDERZEUGS MIT EINEM BEDIENELEMENT SOWIE EIN FLURFÖRDERZEUG | EP17193223.9 | 2017-09-26 | EP3301065A1 | 2018-04-04 | Geilsdorf Dr., Hendrik; Sellentin, Jörn |
Verfahren zur Bedienung eines Flurförderzeugs mit einem Bedienelement, das: |
||||||
| 53 | REACTION FORCE OUTPUT DEVICE | EP16758950.6 | 2016-03-02 | EP3266637A1 | 2018-01-10 | KOUZUMA Hiroyuki |
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. |
||||||
| 54 | ELECTRIC LEVER DEVICE | US16308708 | 2017-06-08 | US20190146544A1 | 2019-05-16 | Hiroaki SHIMIZU; Yasuaki KIDA; Yousuke HIRATA |
| An electric lever device includes: a casing including a base portion attached to a machine main body; a cam supported by a support shaft at the casing and configured to swing in a plane intersecting with a center axis of the support shaft; and an operating lever fixed to the cam and configured to be tilted integrally with the cam in the same plane, wherein: a tilt detecting switch configured to detect tilt of the operating lever is attached to the casing so as to be located higher than the base portion; and the cam includes a tilt detection engaging portion configured to move an acting portion of the tilt detecting switch when the operating lever is tilted from a neutral position. | ||||||
| 55 | Lighting control console having a dual encoder | US15870086 | 2018-01-12 | US10149373B2 | 2018-12-04 | Michael Adenau |
| A lighting control console for controlling a lighting system, wherein digital adjusting commands are generated in the lighting control console that can be transmitted to the lighting system via data links. At least one dual encoder is provided in the control panel of the lighting control console which allows users to enter input values. The dual encoder includes a first shaft and a second shaft rotatably mounted in a housing, first and second locking mechanisms for locking different rotational positions of the first and second shafts, and at least one first and at least one second rotation signal generator for generating a data signal showing a switchover between two locking positions. Both shafts include actuating elements at which adjusting movements can be transmitted onto the shafts by hand. | ||||||
| 56 | Seat Adjuster | US15574422 | 2016-06-03 | US20180290576A1 | 2018-10-11 | Jörg SCHWARZBICH |
| A seat adjuster, includes a brake acting between fixed and adjustable parts so the adjustable part is blockable in positions on the fixed part and releasable by a release element, an adjustment element acting on the release element, selectively adjusting the adjustable part in two opposite directions, and a locking element automatically engaging and interlockingly locking the adjustable part to the fixed part when the adjustment element is not actuated and automatically disengaging when the adjustment element is actuated, disengagement of the locking element and adjustment of the adjustable part being effected by moving the adjustment element out of neutral position, the locking element having a toothed segment for meshing with a toothed ring coupled to the adjustable part so the locking element is movable in the radial direction of the toothed ring between locking and release positions, in which the locking element meshes with or moves away from the toothed ring | ||||||
| 57 | Pedal Apparatus and Manufacturing Method Thereof | US15913103 | 2018-03-06 | US20180253120A1 | 2018-09-06 | Jun Woo Kim; Gap Pyo Hong; Young Woon Kim; Jung Min Lee; Wi Sang Park; Dong Hwan Kim |
| A pedal apparatus comprises a pedal housing including an inner space, a pedal pad configured to rotate relative to the pedal housing, a pedal arm connected to the pedal pad, a magnet installed in the pedal arm, and a sensing board. The pedal arm includes a hollow and is configured to rotate based on a rotation of the pedal pad. The sensing board has at least a portion inserted into the hollow and includes a hole sensor configured to sense a magnetic force generated by the magnet. | ||||||
| 58 | Motion coupling of multiple electronic control inputs | US15250226 | 2016-08-29 | US10061343B2 | 2018-08-28 | 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. | ||||||
| 59 | Lighting Control Console Having A Dual Encoder | US15870086 | 2018-01-12 | US20180206310A1 | 2018-07-19 | Michael Adenau |
| A lighting control console for controlling a lighting system, wherein digital adjusting commands are generated in the lighting control console that can be transmitted to the lighting system via data links. At least one dual encoder is provided in the control panel of the lighting control console which allows users to enter input values. The dual encoder includes a first shaft and a second shaft rotatably mounted in a housing, first and second locking mechanisms for locking different rotational positions of the first and second shafts, and at least one first and at least one second rotation signal generator for generating a data signal showing a switchover between two locking positions. Both shafts include actuating elements at which adjusting movements can be transmitted onto the shafts by hand. | ||||||
| 60 | METHOD FOR CAREFUL OPERATION OF AN ACTUATOR FOR A FORCE CONTROLLER OF AN ACCELERATOR PEDAL | US15741650 | 2016-07-07 | US20180201130A1 | 2018-07-19 | Daniel LEPCZYK; Maximilian DIETRICH; Daria MAKHORTOVA |
| A method for the operation of at least one actuator for a force controller of a device, for which a user of the device is provided with a haptic feedback message about at least one operating state of the device by a force, which is predetermined in its strength and acts by way of at least one actuator on the force controller, when the force controller is brought by the user to at least one predetermined point on a track of movement of the force controller. The at least one actuator is controlled in such a way that the strength of the force acting by way of the at least one actuator on the force controller is reduced after another predetermined period of time. | ||||||
QQ群二维码
意见反馈
意见反馈