序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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161 | Mechanical remote control arrangement | EP81100054.6 | 1981-01-07 | EP0032378B1 | 1984-09-12 | Mochida, Haruo |
162 | Push-pull cable arrangement for transmitting longitudinal motion | EP83106736.8 | 1983-07-08 | EP0102481A2 | 1984-03-14 | Mochida, Haruo |
A push-pull cable arrangement for selectively transmitting longitudinal motion to two separate destinations has an inner wire having a front end, a rear end and an intermediate node between the front and the rear ends. The inner wire is enclosed with a first outer casing between the front end and the intermediate node, and with a second outer casing between the intermediate node and the rear end. Front and rear ends of the first outer casing are held stationary. A front end of the second outer casing facing the intermediate node of the inner wire is movable, and a rear end of the second outer casing facing the rear end of the inner wire is held stationary. When the front end of the inner wire is pulled, a longitudinal motion of the inner wire is transmitted to the rear end of the inner wire, by which a first receiving unit is moved. When the front end of the inner wire is pushed, the intermediate node of the inner wire pushes the front end of the second outer casing, by which a second receiving unit is moved. |
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163 | X-Y controller | EP79303033.9 | 1979-12-21 | EP0016886B1 | 1983-08-10 | Asher, James Craig |
164 | X-Y controller | EP79303033.9 | 1979-12-21 | EP0016886A1 | 1980-10-15 | Asher, James Craig |
An electrical control device has a joystick or lever (40) manually movable in the X and Y directions to actuate a pair of electrical components (22, 24) having respective rotatable shafts (26). The controller (10) includes a housing (12) having a top cover (14) provided with an opening (16) through which the lever (40) extends. The lower end of the lever (40) is pivotally mounted in a socket (20) on the bottom (18) of the housing (12) and a ball joint (42) is carried by the lever (40) intermediate its ends. The ball joint (42) is pivotally coupled to a control plate (30) shiftable in the housing (12) beneath the top cover (14), the plate (30) being biased into an equilibrium position by a number of leaf springs (36) normally engaging respective side margins of the plate (30). The plate (30) has a pair of slots (58, 60) in its lower surface, the slots (58, 60) being mutually perpendicular, and vertical projections (56) on the outer ends of a pair of bell cranks (50) are shiftably received within respective slots (58, 60) in the plate (30). The bell cranks (50) are coupled to the rotatable shafts (26) of respective electrical components (22, 24) so that, when the plate (30) is moved in any one of a number of different directions upon manual movement of the lever (40), one or both of the rotatable shafts (26) of the electrical components (22.24) are rotated to actuate the components (22, 24). |
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165 | 氣壓操作裝置 | TW106101847 | 2017-01-19 | TWI635381B | 2018-09-11 | 左天喬 |
A pneumatic operating device includes a base, a pressure plate, a guiding structure, an operating rod and a limiting member. When the limiting member is in the locking position, the operating rod is restricted by the limiting member and cannot enter the guiding groove of the guiding structure, so as to prevent the user from accidentally touching the operating rod and causing the hydraulic power tool to suddenly operate. When the limiting member is in the unlocked position, the guiding structure can assist the operating rod to accurately control the pressing plate to press and open only one of the piston valves at a time, thereby driving the pneumatic power device to control the hydraulic power tool to start only one operation at a time. The mode avoids the hydraulic power tool to start multiple operating modes and lose control, thereby improving the handling precision and safety of the present invention. | ||||||
166 | 氣壓操作裝置 | TW106200981 | 2017-01-19 | TWM544652U | 2017-07-01 | 左天喬 |
167 | STEERING WHEEL | US18349371 | 2023-07-10 | US20240025466A1 | 2024-01-25 | Bunpei MORITA; Motoya FUNATSU |
A steering wheel includes: a steering portion which is gripped and steered by a driver; a boss portion which is disposed inside the steering portion and is coupled to a steering center shaft of the steering portion; and an operation portion which is disposed adjacent to the steering portion, and is configured to be swingable with respect to the steering portion, to input an accelerator operation by being operated to swing in a first direction with respect to the steering portion, and to input a brake operation by being operated to swing in a second direction opposite to the first direction. | ||||||
168 | Throttle operating device | US17541402 | 2021-12-03 | US11668254B2 | 2023-06-06 | Yukio Oshiro; Keisuke Tsukamoto |
A throttle operating device includes a fixing member, a throttle lever, and a detection sensor. A drive source of the transport is configured to be controlled based on the rotational operation angle of the throttle lever detected by the detection sensor. The throttle lever is configured to be rotated in a forward direction and a reverse direction. When the throttle lever is rotated in the forward direction, the drive source of the transport can be controlled. When the throttle lever is rotated in the reverse direction, a predetermined device mounted on the transport can be operated or an operation of the predetermined device can be stopped. | ||||||
169 | HAND-MANIPULATED INPUT DEVICE FOR ROBOTIC SYSTEM | US17552518 | 2021-12-16 | US20220175483A1 | 2022-06-09 | Joseph L. DIAMOND; Qingbin ZHENG; Adam Richard HEARD; Nathan B.J. MOORE; Cory B. MCBRIDE; Colin Allen WILSON |
Certain aspects relate to systems and techniques for an input device for controlling a robotic surgical tool. The input device can include a first pair of opposing links and a second pair of opposing links. The first pair of opposing links and second pair of opposing links can be arranged radially symmetrically. The input device can be configured to control operation of the robotic surgical tool. | ||||||
170 | Device for controlling the flight of an aircraft | US17278029 | 2019-09-20 | US11269370B2 | 2022-03-08 | Rémi-Louis Lawniczak; Louis Julien |
The invention provides a device comprising a control lever associated with a body carrying a first plate connected to the body, a second plate connected to the first plate with the control lever being connected to the second plate, a first transmission shaft pivotally mounted relative to the body, a first connection mechanism connecting the control lever to the first transmission shaft in such a manner that pivoting of the control lever about the first axis causes the first shaft to pivot about the fourth axis, a second transmission shaft pivotally mounted relative to the body, a second connection mechanism connecting the control lever to the second transmission shaft in such a manner that pivoting of the control lever about the second axis causes the second shaft to pivot about the sixth axis, and a platform connected to the body, the second connection mechanism being pivotally mounted on the platform and being pivotally mounted on the control lever. | ||||||
171 | OPERATOR CONTROL DEVICE | US17295544 | 2019-11-18 | US20220019255A1 | 2022-01-20 | Philipp Doenz; Stefan Battlogg |
An operator control device has an actuation unit on a console unit. The actuation unit movable between an idle position and one or more actuation positions. The actuation unit is fixable in the idle position by a retaining device. In order to leave the idle position, it is necessary to overcome a retaining force provided by the retaining device. The retaining device has a coupling device with a coupling element that is magnetically couplable to the actuation unit and to the console unit in order to magnetically fix the actuation unit in at least the idle position. | ||||||
172 | Lever input device | US16542301 | 2019-08-16 | US11124065B2 | 2021-09-21 | Masahiro Mizukami; Ryosuke Fukumoto |
A lever input device includes: a lever which is tiltable in a first direction orthogonal to an axis of the lever about the axis due to an operation by a user; a swing arm which engages with the lever and swings along with the tilting of the lever in the first direction and amplifies a displacement amount of the lever at the time of tilting; and a magnet body mounted on the swing arm, wherein the swing arm is elongated along a second direction which is a direction along the axis, is configured such that distance (D13) between a swing fulcrum and a mounting portion of the magnet body becomes larger than distance (D12) between the swing fulcrum of the swing arm and an engaging portion of the swing arm with the lever. | ||||||
173 | Cruise control on a work machine | US16518072 | 2019-07-22 | US10941541B2 | 2021-03-09 | Brant D. Kukuk; Christopher Trimble |
A cruise control system for work machines. The system comprises one or more levers for controlling the velocity of the work machine and one or more magnet assemblies. The magnet assemblies comprise means of overcoming the neutral bias of a control lever so that the velocity of the work machine may be maintained without manual input from the operator. The magnets may act directly upon a control lever or a surface adjacent a control lever. Additional controls may be employed to set a maximum cruising speed for the work machine when cruise control is engaged. | ||||||
174 | Multi-function vehicle input apparatuses with rotatable dials for vehicle systems control and methods incorporating the same | US16264223 | 2019-01-31 | US10759461B2 | 2020-09-01 | John Charles Rafferty; Lou M. Pope; Clinton J. Williams |
A multi-function input apparatus of a steering wheel that includes an outer dial having a planar surface and a center dial having a capacitive surface such that the center dial is responsive to capacitive touch along the capacitive surface. The center dial being disposed within the outer dial and the outer dial is rotatable about a rotation axis independent of the center dial such that the center dial is rotatably fixed when the outer dial rotates. The outer dial including a recessed portion positioned along the planar surface such that the recessed portion is rotatable about the center dial. The recessed portion of the outer dial is translatable along the rotation axis. | ||||||
175 | MULTI-FUNCTION VEHICLE INPUT APPARATUSES WITH ROTATABLE DIALS FOR VEHICLE SYSTEMS CONTROL AND METHODS INCORPORATING THE SAME | US16264223 | 2019-01-31 | US20200247456A1 | 2020-08-06 | John Charles Rafferty; Lou M. Pope; Clinton J. Williams |
A multi-function input apparatus of a steering wheel that includes an outer dial having a planar surface and a center dial having a capacitive surface such that the center dial is responsive to capacitive touch along the capacitive surface. The center dial being disposed within the outer dial and the outer dial is rotatable about a rotation axis independent of the center dial such that the center dial is rotatably fixed when the outer dial rotates. The outer dial including a recessed portion positioned along the planar surface such that the recessed portion is rotatable about the center dial. The recessed portion of the outer dial is translatable along the rotation axis. | ||||||
176 | Transmission mechanism, lever mechanism, and contactless lever switch | US15774315 | 2016-11-21 | US10703258B2 | 2020-07-07 | Hideki Nishinakama; Hideki Tsukaoka; Masashi Ikeura |
The first transmission mechanism of the present invention includes a first permanent magnet, a first rocking member with a rod-like shape that includes one end at which the first permanent magnet is disposed and is extended in Z-axis direction, and two supporting bodies that rockably support the first rocking member at two different positions in Z-axis direction of the first rocking member. The first rocking member is rocked to move the first permanent magnet by an amount of displacement smaller than an amount of displacement inputted to the first supporting body, which is located on a side of the other end of the first rocking member in the two supporting bodies. | ||||||
177 | Multi-function vehicle input devices with convex dials for vehicle systems control and methods incorporating the same | US16264179 | 2019-01-31 | US10647344B1 | 2020-05-12 | John Charles Rafferty; Lou M. Pope; Clinton J. Williams |
A multi-function input apparatus of a steering wheel that includes an outer dial having a planar surface, and a center dial having a convex surface such that the center dial extends outwardly from the steering wheel. The center dial being disposed within the outer dial. The outer dial is rotatable about a rotation axis independent of the center dial such that the center dial is rotatably fixed when the outer dial rotates. The center dial is translatable on the steering wheel in a lateral direction and a longitudinal direction such that the outer dial translates simultaneously with the center dial such that the rotation axis is movable relative to the steering wheel. | ||||||
178 | Dial structure, remote controller employing the same, and controlling method | US15478341 | 2017-04-04 | US10635097B2 | 2020-04-28 | Tao Peng; Yin Tang |
A dial structure, a remote controller employing the dial structure, and a controlling method are provided. The dial structure comprises a carrying member and a dial movably connected with the carrying member. The dial is slidable with respect to the dial structure along a sliding direction and rotatable around a rotation shaft. An axial direction of the rotation shaft intersects with the sliding direction. The dial structure further comprises a rotation sensor configured to obtain rotating state information of the dial and a sliding sensor configured to obtain sliding state information of the dial. | ||||||
179 | Multi-operational music hardware controller | US15194534 | 2016-06-27 | US10281948B2 | 2019-05-07 | Giordano P. Jacuzzi |
Disclosed is a hardware controller that may interact with audio, lighting, or other computer componentry to control various digital parameters of the same. The presently disclosed controller allows for button presses, knob twisting, and slider engagement, but does so in a manner that remains intuitive without the need for partitioning a mixer into separate sections for independent devices. In this manner, the present invention avoids the need for a large physical footprint that would otherwise require a large amount of space and the use of multiple hands over a period of time by the user. | ||||||
180 | LEVER DEVICE | US15856016 | 2017-12-27 | US20180181160A1 | 2018-06-28 | Masahiro Itokawa; Yo Aoki |
A lever device may include a movable component including a pair of support arm portions and an operable knob including a base end portion arranged between the pair of support arm portions, the base end portion supported by the pair of support arm portions such that the base end portion is rotatable about a first axis line. The lever device may also include a fixed component including a polar board and a cover arranged in a direction of a second axis line perpendicular to the first axis line, the movable component supported by the fixed component such that the movable component is rotatable about the second axis line within the fixed component. The lever device may further include arc-shaped guide grooves. The pair of support arm portions may respectively include projections that engage the guide grooves. |