Class / Patent application number | Description | Number of patent applications / Date published |
0561002A0 | Pre-programmed or remotely controlled | 40 |
20080209877 | Modular vehicle system having engine unit and mower unit for communication therewith - A modular vehicle system comprises an engine unit and an engine management controller associated with the engine unit. A throttle actuator is associated with the engine management controller to control a throttle setting of an engine unit. A mower unit is associated with mower electronics. A blade clutch actuator activates or deactivates a cutting blade of the mower unit. A transmission line supports communications between the engine management controller and the mower electronics to support remote control mowing or unmanned mowing activities. | 09-04-2008 |
20090126327 | Self-propelled agricultural working machine - In a self-propelled agricultural working machine having working units whose working parameters are adjustable, moving at a ground speed that is regulated automatically as a function of at least one crop-material parameter and/or one working parameter of the working machine using a forward-travel regulator, and having at least one control, operating, and display unit, with which the crop-material parameters and/or the working parameters of the working machine may be adjusted and displayed, the operator of the working machine has access to information regarding the state of the forward-travel regulator when the ground speed is being regulated using a forward-travel regulator. For this purpose, the crop-material parameter and/or working parameter of the working machine that currently limits the ground-speed control via the forward-travel regulator is displayed directly to the operator of the working machine in the control, operating, and display unit. | 05-21-2009 |
20090183478 | LAWN-MOWER - A lawn-mower ( | 07-23-2009 |
20100050584 | In-Ground Lawn Mowing Apparatus - An in-ground lawn cutting device is disclosed that uses a rotating cord to trim and mulch grass much faster than conventional means. A spool rotates at high speed and extends a weighted cord that cuts grass within a circle. The spool height can be slowly lowered to mulch grass as it cuts. When finished, the cord is retracted and the spool can be lowered at least partly below grade. The device can detect the height of surrounding vegetation and/or the presence of nearby obstructions through reflection or transmission between devices of LASER or other light. The device can issue an audible and/or visual alarm when an obstruction is detected, and/or immediately before and during the cutting. In some embodiments the device can be tilted, the cutting cord can be adjusted in length, and/or a controller is included. The controller can be wireless, hand-held, and/or controlled by a hand-held wireless remote. | 03-04-2010 |
20100223896 | Agricultural Harvester With Accelerated Draper Belt Unload - An agricultural harvester includes a base unit and a header coupled with the base unit. The header includes a frame; at least one draper belt; a header lift detector providing an output signal indicating a lift state of the header; and a draper belt accelerator receiving the output signal from the header lift detector and accelerating each of the draper belts upon receipt of the output signal. | 09-09-2010 |
20100326030 | LAWN MOWER - A lawn mower comprising: a frame ( | 12-30-2010 |
20110252760 | MACHINE FOR AUTOMATICALLY HARVESTING FRUIT CULTIVATED IN ROWS - The invention relates to a machine for the automatic harvesting of fruits cultivated in rows, comprising an autonomous vehicle, with a tubular structure ( | 10-20-2011 |
20120151891 | Agricultural Machine with Variable RPM Control - The present invention relates to a self-propelled agricultural machine, comprising: | 06-21-2012 |
20120159916 | CONTROL SYSYTEM FOR MOTOR-DRIVEN LAWNMOWER VEHICLE - A control system for an engineless, motor-driven lawnmower vehicle includes electric motors and controllers. At least one of the electric motors is an electric drive motor connected to a drive wheel of the lawnmower vehicle to enable transmission of motive power. At least one other electric motor is a mower-related electric motor connected to a lawnmower rotary tool to enable transmission of motive power. At least one of the controllers is a drive wheel controller which includes a drive wheel driver and which controls operation of the electric drive motor in response to a signal from at least one operator sensor for detecting an operation amount of at least one operator. At least one controller controls to activate or stop the mower-related electric motor. At least one controller is connected to the drive wheel controller and transmits a control signal thereto in response to a signal from the operator sensor. | 06-28-2012 |
20120227368 | WORKING VEHICLE - The present invention provides a riding work vehicle that includes a running electric motor unit running and driving a driving wheel unit; a speed setting operation unit operated by a driver to set a target running speed; a working electric motor driving a work device that performs work on a worked object around a vehicle body corresponding to running of the vehicle body; and an exceptional speed controller that performs exceptional speed control to control the running electric motor unit at an exceptional speed lower than the target running speed in a case where load of the working electric motor evaluated by a work load evaluator that evaluates load of the working electric motor is abnormal load higher than a threshold value. | 09-13-2012 |
20120227369 | RIDING WORK VEHICLE - The present invention provides a riding work vehicle that includes a vehicle body having a driver seat; a driving wheel unit supporting the vehicle body; a working electric motor that drives a work unit having a work device; an electric motor controller controlling an operation of the working electric motor in a steady mode or a power saving mode in which consumed power is smaller than the steady mode; and a work load evaluator that evaluates load of the working electric motor. In the riding work vehicle, the electric motor controller operates the working electric motor in the power saving mode in a case where the load of the working electric motor evaluated by the work load evaluator is low load lower than a threshold value. | 09-13-2012 |
20130014480 | HAYMAKING DEVICE - A haymaking device has a frame movable in a direction of travel and has at least a first and a second crop processing tool which are arranged side to side. The device further includes transfer mechanisms for transferring the first and second crop processing tools from an operative position, in which the crop is engaged, to a standby position, in which the crop is not functionally engaged, and vice versa, respectively. A programmable control unit for the transfer mechanisms independently activates the transfer mechanisms from each other, and processes data indicative of an angle between a direction of travel of a work stroke of the device over the field and a boundary line. The control unit also processes data on the speed of the device in the direction of travel, and activates the transfer mechanisms one after another in dependence on the data upon arrival at the boundary line. | 01-17-2013 |
20130025248 | ROBOTIC MOWER LAUNCH POINT SYSTEM - A robotic mower launch point system includes a user interface for an operator to enter a plurality of launch point locations, durations and frequencies, and a vehicle control unit that stores the locations, durations and frequencies, determines a sequence of launches based on the launch point frequencies, and commands the robotic mower to exit a charging station and follow a boundary wire to each launch point in the sequence where the robotic mower mows for that launch point's duration before returning to the charging station. The vehicle control determines the sequence based on the frequency of each launch point relative to a total of the launch point frequencies. | 01-31-2013 |
20130042591 | Method and device for the state detection of a cutting device - A method for state detection of a cutting device for agricultural crop is described. The cutting device is formed with a cutting tool set into rotation with respect to a shear bar operates such that a clearance position of the shear bar is changeable with respect to the cutting too. The method includes assigning at least two interspaced sensors for detecting vibrations to the shear bar caused by the cutting tool upon contact with the shear bar, transmitting signals generated by the sensors to a common signal analysis device and, the common signal analysis device comparing the signals and determining a state of the cutting device. | 02-21-2013 |
20130192183 | LAWN MOWER ROBOT SYSTEM AND METHOD OF CONTROLLING THE SAME - The present embodiment relates to a lawn mower robot. A lawn mower robot system, comprising: a lawn mower robot disposed with a moving device; a mowing device disposed in the lawn mower robot and mowing lawns; a first communication device disposed in the lawn mower robot and transmitting an inquiry signal for state information; a plurality of boundary display apparatuses, arranged in a lawn presence region, disposed with a second communication device for receiving the inquiry signal for the state information from the first communication device and for transmitting an acknowledge signal for the state information to the first communication device; a controller for recognizing a plurality of absolute coordinates from the lawn presence region based on the acknowledge signal for the state information received from the second communication device and for controlling the mowing device within the limit of the plurality of absolute coordinates. | 08-01-2013 |
20130192184 | LAWN MOWER ROBOT AND METHOD OF CONTROLLING THE SAME - The present embodiment relates to a lawn mower robot. A lawn mower robot includes a body having a moving device; a mowing device disposed in the body and mowing lawns; a sensor disposed in the body and receiving light signal from the outside; and a controller controlling the moving device and mowing device, wherein, when the sensor senses the light signal, the controller allows the mowing device to be operated, and when the sensor does not sense the light signal, the controller allows the mowing device to be stopped. | 08-01-2013 |
20130192185 | LAWN MOWER ROBOT AND METHOD OF CONTROLLING THE SAME - The present embodiment relates to a lawn mower robot. The lawn mower robot includes a body including a mowing device; a sensor disposed in the body and sensing light signal produced from a signal producing unit in the outside; a moving device disposed in the body; and a controller controlling the moving device based on information sensed from the sensor, wherein the controller controls the moving device so that the lawn mower robot is moved along the light signal. | 08-01-2013 |
20130199144 | APPARATUS FOR CUTTING GRASS - An apparatus for cutting grass comprising: a lawn mower equipped with movement means and one or more blades for cutting grass; a perimeter cable, delimiting a cutting area; a management device for generating an electrical signal (ES) in the cable; a recharging base. The lawn mower further comprises a control unit equipped with: sensor means to detect the electrical signal (ES); a memory to store a maximum value (Vmax) and a minimum value (Vmin); a calculation module to determine, for said intensity of detection, a target value (Tv) that is non-null and comprised between the maximum (Vmax) and minimum value (Vmin), the target value (Tv) being different from a preceding target value; an operative module to command the movement means so as to move the lawn mower in such a manner that the sensor means detects the electrical signal (ES) at an intensity equal to the target value (Tv). | 08-08-2013 |
20130199145 | LAWN MOWER ROBOT AND METHOD OF CONTROLLING THE SAME - The present embodiment relates to a lawn mower robot. A lawn mower robot system, comprising: a lawn mower robot disposed with a moving device; a mowing device disposed in the lawn mower robot and mowing lawns; a first communication device disposed in the lawn mower robot and transmitting an inquiry signal for state information; a plurality of boundary display apparatuses, arranged in a lawn presence region, disposed with a second communication device for receiving the inquiry signal for the state information from the first communication device and for transmitting an acknowledge signal for the state information to the first communication device; a controller for recognizing a plurality of absolute coordinates from the lawn presence region based on the acknowledge signal for the state information received from the second communication device and for controlling the mowing device within the limit of the plurality of absolute coordinates. | 08-08-2013 |
20130212994 | LAWN MOWER ROBOT AND METHOD OF CONTROLLING THE SAME - The present embodiment relates to a lawn mower robot. The lawn mower robot includes a body disposed with a moving device; a mowing device disposed in the bottom of the body and mowing lawns; a sensor disposed in the body and outputting data by sensing colors; and a controller determining a lawn presence region based on data output from the sensor. | 08-22-2013 |
20130283745 | AUTOMATIC ROLL-BACK AND RETURN-TO-POSITION FOR HEADER TILT ON AN AGRICULTURAL MACHINE - A windrower with a harvesting header with a crop cutting assembly for severing crop from the ground windrower has a header pitch sensor for measuring a fore/aft pitch angle and a hydraulic system. The hydraulic system moves the header between an operating height and a raised position, and also controls a fore/aft pitch angle. An electronics control module provides an output to activate solenoid valves in the hydraulic system to move the header between the operating height and the raised position and to select a desired pitch angle. When the header moves from the operating height to the raised position, the electronics control module operates the header hydraulic system to move the header to the zero-tilt condition, and upon lowering the header back the operating height, the electronics control module automatically returns the header to the selected pitch angle it was in at the start of the cycle. | 10-31-2013 |
20130305674 | Crop Harvesting Machine with Calibration of the Header Float Springs - A tractor has hydraulically driven wheels at a cab end and castor wheels at an engine end. It can be driven cab forward in a working mode with a header on the forward end. It is rotated to engine forward in the transport position for more stable higher speed travel. There is provided a float module with adjustable and calibrated springs on the header which allows the header to float relative to the lift system on the tractor. The float force is adjusted by raising and lowering the lift system in dependence on an angle measurement of the lift position. The lift system includes a lift cylinder and tilt cylinder controlled to change cutter angle while maintaining a sight line to the cutter bar for the operator. | 11-21-2013 |
20130333342 | LAWN MAINTENANCE METHOD, SYSTEM AND APPARATUS - A method, system and apparatus for a lawn or turf care maintenance machine, including at least one of fully electric operation; multi-purpose operation; and overnight, silent operation. The machine can be configured for at least one of golf course maintenance, turf care, landscaping, outdoor work, and transportation. | 12-19-2013 |
20130340401 | MODULAR ELECTRIC DISC CUTTERBAR AND CONTROLLER - An electric motor-driven rotary disc cutter module for use in a cutterbar in an agricultural harvester. In one embodiment, each rotary disc module includes an electric motor driver for the rotary cutterhead. Individual cutterhead modules are staggered fore and aft along the cutterbar to provide continuous cutting across the lateral width of the cutterbar without requiring synchronized rotation of the cutterheads to prevent contact of the knives. This configuration allows for individual speed and/or rotational direction adjustment for each cutterhead to optimize crop cutting performance and/or crop movement within the header. A control system may be included to monitor performance and manage individual operation of the cutterhead modules. | 12-26-2013 |
20140013721 | ADVERSE TERRAIN REMOTE CONTROL VEGETATION CUTTER SYSTEM AND METHOD - Systems and methods are provided herein that provide for remote vegetation cutting, trimming and yard maintenance on adverse terrain. The adverse terrain vegetation cutting apparatus articulates to conform to adverse surface conditions and improve stability. Upon detecting instability the apparatus may automatically rotate to a more stable position. | 01-16-2014 |
20140020352 | INITIATING TRACTOR STOP AND BALE WRAP FUNCTION - A combination tractor and baler is provided to automate tractor stopping and baler wrapping while incorporating operator interaction to improve the efficiency of the tractor and baler combination in operation. Automated control systems and manual operator devices are utilized to improve the timing of the tractor stop and baler wrapping time sequences. Various methods to improve efficiency, including methods to synchronize tractor stop with wrapping activation are provided. | 01-23-2014 |
20140059988 | Harvesting machine having crop feed regulation - A self-propelled harvesting machine includes an intake assembly configured to pick up crop from a field and conveying the crop, a processing assembly for receiving the conveyed by the intake assembly, means for estimating the crop throughput of the intake assembly and a ground drive. The forward speed (V) of the ground drive and a drive speed (C) of the intake assembly can vary depending on the crop throughput. | 03-06-2014 |
20140059989 | RIDING LAWN MOWER - A riding lawnmower includes left and right wheels, at least one caster wheel, a lawnmower blade or reel, and a control section. The left and right wheels are independently driven by electric rotary machines to travel. The lawnmower blade or reel is driven for mowing. The control section, in response to turn instruction input by a turn operator, controls the left and right wheels according to preset standard setting conditions, or according to deceleration setting conditions which differ from the standard setting conditions, under which at least one of a vehicle movement speed and vehicle turning speed is decelerated more than under standard setting conditions. The riding lawnmower includes a section designating either standard setting conditions or deceleration setting conditions. In a riding lawnmower, left and right wheels are caused to turn around a turn center position corresponding to a turn instruction according to designated setting conditions. | 03-06-2014 |
20140069072 | OUTDOOR POWER EQUIPMENT UNIT WITH CONDITION RESPONSIVE ELECTRONIC CONTROL OF TRACTION DRIVE SYSTEM - An outdoor power equipment unit comprises a self-propelled mower having a hydraulic traction drive system. When engine load exceeds a predetermined percentage of full load, a controller automatically reduces the stroke of a variable displacement pump in the traction drive system to reduce the ground speed of the mower without the operator having to change the position of the traction pedal. This reduces engine load to enhance continued good cutting performance. At any time, the controller can take the same actions to reduce ground speed if an excessively high temperature in a fluid used in a cooling system on the mower is detected, or if excessive loads on the mower decks of the mower are detected, or both. | 03-13-2014 |
20140102061 | Lawn Care Robot - A robot lawnmower includes a body and a drive system carried by the body and configured to maneuver the robot across a lawn. The robot also includes a grass cutter and a swath edge detector, both carried by the body. The swath edge detector is configured to detect a swath edge between cut and uncut grass while the drive system maneuvers the robot across the lawn while following a detected swath edge. The swath edge detector includes a calibrator that monitors uncut grass for calibration of the swath edge detector. In some examples, the calibrator comprises a second swath edge detector. | 04-17-2014 |
20140102062 | Lawn Care Robot - A robot lawnmower includes a body and a drive system carried by the body and configured to maneuver the robot across a lawn. The robot also includes a grass cutter and a swath edge detector, both carried by the body. The swath edge detector is configured to detect a swath edge between cut and uncut grass while the drive system maneuvers the robot across the lawn while following a detected swath edge. The swath edge detector includes a calibrator that monitors uncut grass for calibration of the swath edge detector. In some examples, the calibrator comprises a second swath edge detector. | 04-17-2014 |
20140137526 | ADVERSE TERRAIN REMOTE CONTROL VEGETATION CUTTER SYSTEM AND METHOD - Systems and methods are provided herein that provide for remote vegetation cutting, trimming and yard maintenance on adverse terrain. The adverse terrain vegetation cutting apparatus articulates to conform to adverse surface conditions and improve stability. Upon detecting instability the apparatus may automatically rotate to a more stable position. | 05-22-2014 |
20140150390 | BATTERY POWERED LAWN CARE VEHICLE WITH EFFICIENT DRIVE CONTROLLER - A riding lawn care vehicle may include a battery power source, an electric drive motor, at least one blade drive motor, a current sensor, and a drive controller. The electric drive motor may be powered by the battery power source. The electric drive motor may be operably coupled to a wheel of the riding lawn care vehicle to provide drive power for the riding lawn care vehicle. The at least one blade drive motor may be powered by the battery power source. The at least one blade drive motor may be operably coupled to at least one cutting blade of the riding lawn care vehicle. The current sensor may be disposed to monitor total current drawn from the battery power source. The drive controller may receive total current data from the current sensor and provide a drive control signal related to operation of the electric drive motor based on the total current data. | 06-05-2014 |
20140245712 | CONTROL SYSTEM FOR A DISC CUTTERBAR USING CUT QUALITY FEEDBACK - A control system for monitoring and managing operation of a rotary disc cutterbar used in an agricultural machine. A controller in the system receives inputs on cutterbar drive power, machine travel speed, and crop cut quality. An operator interface allows suitable operational tolerances to be established. The controller examines crop cut quality, a determination of cut uniformity across the transverse width of the cutting swath, and determines changes in cutterbar drive speed and/or vehicle travel speed, if needed, to maintain crop cut quality within specified tolerances. Controller output may be directed to a display for instructing a machine operator to make necessary adjustments or it may initiate changes in machine subsystems to effect the necessary adjustments automatically. | 09-04-2014 |
20150007541 | Electrical System for Riding Lawn Care Vehicle - A riding lawn mower is provided with an electrical system. The electrical system includes a control module, transceiver modules, and a wiring system. The control module allows for programmably controlling electrical operations of the riding lawn mower. The transceiver modules are operably connected with respective devices of the riding lawn mower so as to communicate data between the respective devices and the control module. The wiring system comprising wires that electrically connect the transceiver modules with the control module/The wiring system includes a power wire that provide electrical power to the transceiver modules from the battery; and a data bus comprising a data wire that transmits data between the control module and the transceiver modules. | 01-08-2015 |
20150096276 | MOWING BOUNDARY AREA AND GRASS LENGTH RECOGNIZING APPARATUS METHOD OF MOWING ROBOT - Provided is a mowing boundary area recognizing apparatus of a mowing robot. The mowing boundary area recognizing apparatus includes a ground state measurer configured to acquire environment data of a ground based on a grass length on the ground, a determiner configured to determine the grass length on the ground on a basis of the ground environment data to recognize a mowing boundary area, and a controller configured to adjust running of the mowing robot to a mowing area for which mowing is needed. | 04-09-2015 |
20150128547 | LAWN MOWER WITH REMOTE CONTROL - The invention proposes an autonomous robot, such as an autonomous lawn mower, comprises at least one camera for obtaining at least one input image, a communication interface for transmitting the input image and receiving a remote control instruction, a control unit for controlling an operation of the autonomous robot, and wherein the control unit is adapted to control the operation at the autonomous robot in response to the received remote control instruction. | 05-14-2015 |
20150351318 | ELECTRONIC CONTROL FOR A GRASS CUTTING REEL ASSEMBLY OF A LAWN-CARE VEHICLE - A system for controlling a grass cutting reel assembly of a turf-care vehicle. The system includes: a reel cylinder motor operable to rotate a reel cylinder of a grass cutting reel assembly of a turf-care vehicle at a desired rotational rate of speed to provide a controllable frequency of clip for the reel assembly; an automated height of cut control system operable to control a position of a front roller of the reel assembly to provide a controllable height of cut for the reel assembly; and a controller system operable to control the reel cylinder motor and the height of cut control system to provide a particular frequency of clip and a particular height of cut stipulated by one of a plurality of cutting scenarios programmed into the controller system and selected via a user interface of the controller system that is accessible by an operator onboard the turf-care vehicle. | 12-10-2015 |
20160014961 | Mobile Platform Biomass Harvester - A mobile platform biomass harvester has a header, a biomass processor, a storage container, a guidance system, an engine, an electric generator, and a guidance system. The header harvests biomass. The biomass processor includes a shredder, a press, a dryer, and a densifier. The densifier compacts the biomass into a multitude of compressed biomass pieces. The storage container receives compressed biomass pieces from the biomass processor. The guidance system guides the mobile platform at a speed determined by the operating capacity of the mobile platform. The engine generates shaft power. The electrical generator converts the shaft power to electricity to power the guidance system. | 01-21-2016 |
20160143216 | ELECTRICAL SYSTEM FOR RIDING LAWN CARE VEHICLE - A riding lawn mower is provided with an electrical system. The electrical system includes a control module, transceiver modules, and a wiring system. The control module allows for programmably controlling electrical operations of the riding lawn mower. The transceiver modules are operably connected with respective devices of the riding lawn mower so as to communicate data between the respective devices and the control module. The wiring system comprising wires that electrically connect the transceiver modules with the control module/The wiring system includes a power wire that provide electrical power to the transceiver modules from the battery; and a data bus comprising a data wire that transmits data between the control module and the transceiver modules. | 05-26-2016 |