141 |
Spring balancer |
US28137039 |
1939-06-27 |
US2342020A |
1944-02-15 |
STEVENS EDWARD W |
|
142 |
Friction clutch |
US14978837 |
1937-06-22 |
US2191846A |
1940-02-27 |
GEORGE CARWARDINE |
|
143 |
Vehicle body element |
US6742336 |
1936-03-06 |
US2127323A |
1938-08-16 |
CARL BREER |
|
144 |
Friction clutch |
US5998336 |
1936-01-20 |
US2110265A |
1938-03-08 |
CECIL GILLETT EDWARD HENRY JAM |
|
145 |
Clutch pedal return spring |
US9494536 |
1936-08-08 |
US2096151A |
1937-10-19 |
WATT ANDREW K |
|
146 |
Clutch operating mechanism |
US26599728 |
1928-03-30 |
US1860636A |
1932-05-31 |
MILTON TIBBETTS |
|
147 |
Clutch control device |
US32936028 |
1928-12-31 |
US1810103A |
1931-06-16 |
CORNELL FLAGSTAD |
|
148 |
Control mechanism |
US39244320 |
1920-06-28 |
US1428460A |
1922-09-05 |
VON SODEN-FRAUNHOFEN GRAF ALFR |
|
149 |
Adding and recording machine. |
US1912674755 |
1912-02-01 |
US1138875A |
1915-05-11 |
LANDSIEDEL HARRY |
|
150 |
Operating-handle for adding-machines. |
US1913762186 |
1913-04-19 |
US1130463A |
1915-03-02 |
BARRETT GLENN J |
|
151 |
Elevator safety device |
US591210D |
|
US591210A |
1897-10-05 |
|
|
152 |
Improvement in hand-spring poe machinery |
US64318D |
|
US64318A |
1867-04-30 |
|
|
153 |
OPERATING DEVICE AND VEHICULAR SHIFT DEVICE USING OPERATING DEVICE |
US16053021 |
2018-08-02 |
US20180340607A1 |
2018-11-29 |
Takashi UENOMACHI |
An operating device includes a tiltable operating member, a support supporting the operating member, a first movable member and a second movable member configured to move together with the operating member, a first magnetic body provided on the first movable member, a second magnetic body provided on a second movable member, and a permanent magnet supported by the support. When the operating member is in a reference position, the permanent magnet and the first and second magnetic bodies attract each other. When the operating member is tilted in a first direction from the reference position to be positioned in multiple positions, first, the first magnetic body moves away from the permanent magnet with the tilting of the first movable member, and next, the second magnetic body moves away from the permanent magnet with the tilting of the second movable member. |
154 |
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. |
155 |
ROTATING OPERATION INPUT DEVICE, AND SHIFTING OPERATION DEVICE USING SAME |
US15724302 |
2017-10-04 |
US20180038478A1 |
2018-02-08 |
TORU ARAKAWA; MASAHIRO MIZUKAMI; MASAMINE YASUI |
The rotating operation input device has the structure in which the click section applies a clicking force to the shaft at a predetermined rotation angle, and the first controller controls the actuator, based on the control signal received from the second controller, so as to apply a desired external force to the shaft. A shifting operation device is structured by connecting the rotating operation input device to the second controller for controlling the shifting device. |
156 |
Grip Heater Apparatus for Construction Machine |
US15554853 |
2016-02-23 |
US20180038077A1 |
2018-02-08 |
Takuya NOMURA; Tatsuo TAKISHITA; Masayuki YUNOUE; Takeyuki OMIYA; Wataru TAKAGI |
Provided is a grip heater apparatus for a construction machine that can improve operability by heating the grip portions of left and right operating levers and maintaining a favorable operating environment for the left and right operating levers when work is carried out in a cold region and the operator's hands get cold. The grip heater apparatus includes: left and right grip heaters 31 and 32 provided in grip portions of left and right operation levers 26 and 28, respectively; a battery supplying electric power to the left and right grip heaters; a heater switch 34 for instructing the left and right grip heaters to be turned on or off; and a control device supplying the electric power from the battery to the left and right grip heaters only when the engine is running, the gate lock lever 27 is at a getting-on/off prevention position, and the heater switch instructs the left and right grip heaters to be turned on. |
157 |
INPUT/OUTPUT OPERATION DEVICE |
US15526583 |
2015-11-18 |
US20170322586A1 |
2017-11-09 |
Hideki SHIRANE; Teruyuki TAKIZAWA; Hironori TOMITA; Jiro SEKI; Takeshi NAKAZAWA |
Provided is an input/output operation device including: an operation unit, which is operated by an operator; a detection unit, which detects a position of the operation unit to generate a position signal corresponding to the position of the operation unit; a control circuit, which receives the position signal to generate a speed control signal; and a drive circuit, which receives the speed control signal to drive the operation unit, in which the control circuit: (a) causes the position signal to pass through a first filter circuit to generate a speed signal; (b) causes the position signal to pass through a second filter circuit, which has a frequency transmission characteristic that is different from that of the first filter circuit, to generate a correction signal; and (c) adds at least the speed signal and the correction signal together to generate the speed control signal. |
158 |
OPERATION DEVICE |
US15480166 |
2017-04-05 |
US20170212548A1 |
2017-07-27 |
Kunio SATO; Shun MIYAZAKI; Yasuji HAGIWARA; Keigo WAKANA; Shoji SAKURAI |
A movement member which reciprocates includes a thick portion and a thin portion, a bearing portion formed in the thick portion is slidingly supported by the guide shaft, and a sliding portion formed in the thin portion is slidingly guided by the sliding guide portion. Power of the motor is transmitted to a pinion gear via a speed reduction gear and a speed reduction mechanism inside a gear box, and a movement reaction force is applied from the pinion gear to the rack portion. Since the rack portion is positioned on an axis Os, a force is effectively applied to the movement member by the power from the motor. |
159 |
JOYSTICK CONTROLLER FOR POWER MACHINE |
US15227344 |
2016-08-03 |
US20170037599A1 |
2017-02-09 |
Mark W. Binstock; Scott J. LaCoe |
Joystick controllers having one or both of a reference bar and a throat plate. The reference bar substantially surrounds the joystick and is mounted to a control panel, and provides a hand rest surface for an operator while operating the joystick. A top curved surface of the reference bar extends substantially parallel to the path of movement of the joystick in the fore and aft direction of travel. The throat plate has a shape oriented with tapered surfaces and vertices at the furthest fore and aft points to limit turning, caused by movement of the joystick in a side-to-side direction, at higher forward and aft speeds. The joystick can be biased such that, in the neutral position, it is oriented aft of center to allow for a full forward stroke, while limiting rearward stroke. |
160 |
MULTI-FUNCTION CONTROLLER AND METHOD OF USING SAME |
US15183233 |
2016-06-15 |
US20160370821A1 |
2016-12-22 |
Matthew R. RANDLE; Kenneth L. Markowski; Andrea Burke; David J. Fassett |
A multi-function controller, comprising a control element, a support element, at least a first light emitter and at least a first light receiver. A multi-function controller, comprising a control element, at least a first magnet and at least a first sensor. In some aspects, one or more occluders is provided. In some aspects, a control element is rotatable and/or tiltable, and/or the control element can be pushed or pulled, and movement of the control element is detected optically or by Hall effect sensors. In some aspects, an icon cap is not rotatable. A method comprising rotating and/or tilting a control element on a multi-function controller, and detecting a position of the control element. |