NL2017019B1 - Mower - Google Patents

Abstract

A mower having a plurality of mowing members, each mowing member mounted rotatably about a vertical rotation axis to a support, and each mowing member having an electric drive motor couplable thereto and arranged to drive the mowing member to rotate along a circular trajectory coaxial to the vertical rotation axis and the mower further having at least one control device arranged to control at least one of the electric drive motors move the mowing member to a pre-defined position on its circular trajectory.

Description

Patent center

The Netherlands

(21) Application number: 2017019 © Application submitted: 21/06/2016

Θ 2017019

BI PATENT (g) Int. CL:

A01D 34/66 (2016.01) A01D 34/78 (2017.01) A01D 34/82 (2017.01)

(g) Application registered: (73) Patent holder (s): 04/01/2018 Forage Company B.V. in Maassluis. (g) Request published: - (g) Inventor (s): Willem Jacobus Reijersen van Buuren (g) Patent granted: in Maasluis. 04/01/2018 (g) Patent issued: (g) Authorized representative: 01/02/2018 ir. C.M. Jansen et al. In The Hague.

© Mower (g) A mower having a variety of mowing members, each mowing member mounted rotatably about a vertical rotation axis to a support, and each mowing member having an electric drive motorcyclist thereto and arranged to drive the mowing member to rotate along a circular trajectory coaxial to the vertical rotation axis and the mower further having at least one control device arranged to control at least one of the electric drive motors move the mowing member to a pre-defined position on its circular trajectory.

NL BI 2017019

This patent has been granted regardless of the attached result of the research into the state of the art and written opinion. The patent corresponds to the documents originally submitted.

Mower

The invention relates to a mower including a support to which a variety of mowing members are mounted rotatably about vertical rotation axes and each mowing member defining a rotation area surrounding its vertical rotation axis.

Such mowers are known in the art, as eg from EP0126518 or US8327612, in which the mowing members include a series of knife holders with mowing knives which are mounted by side on a frame and which knife holders are rotated about vertical center lines by means of a drive mechanism couple to a power take-off or another external drive device. The knife holders are fastened in rotationally fixed manner on associated hubs or output shafts which are driven by the drive mechanism. Known drive arrangements include a common drive shaft with suitable (conical) gears to drive each knife holder. Alternatively it is known to use a gear train.

Rotation of the knives severs the crop (such as e.g. grass) by the impact on it. Typically the mower is also moved in a general forward direction, over a field containing the crop by being pulled by a tractor or is self-driven or is a part of an autonomous vehicle.

Alternatively, mowing member may have a blade carrier to which the mowing blades are integrally formed. For example the member may be in the form of an elongated member mounted to the support, and including mowing blades in the form of sharpened edges at end positions with respect to the center of the member. Such blades are generally used in mulching mowers.

Mowing a crop is done by the combined action of moving the mower forward e.g. by pulling it by a tractor and the mowing members rotating. During mowing it is possible that the mowing members encounter obstacles, such as e.g. rocks or tree stumps or waste or the like. This may cause blockage of the rotational movement of the mowing member, which in turn causes an overload of the drive mechanism. The mower is pulled forward past the obstacle. Such a collision may cause damage to multiple parts of the mower, e.g. to one or more mowing members, to the central drive system, to the mowing knives and may lead to expensive and difficult repairs.

Solutions to prevent or reduce damage to the mower caused by such encounters with foreign or obstacles have been found in providing means which disconnect the mowing member from the central drive e.g. by a one way clutch as described in US5581985. Or by mowing member or part to break off the frame as described in US4497161 or EP0774202. These solutions prevent expensive and difficult repairs of the central drive.

It is an object of the invention to provide an alternative and improved solution to prevent or reduce damage caused by collisions or a mowing member with an object or obstacle without disconnecting or breaking-off mowing members from the drive mechanism.

This object has been realized by providing a mower including

- a variety of mowing members, each mowing member mounted rotatably about a vertical rotation axis to a support,

- each mowing member including an electric drive motor couplable thereto and arranged to drive the mowing member to rotate along a circular trajectory coaxial to the vertical axis and to the mower electric drive motors move the mowing member to a pre-defined position on its circular trajectory.

By providing a control device arranged to control the motor move the mowing member to a pre-defined position on its circular trajectory.

The rotation of the mowing element and thus also the stopping of the mowing member may be done in a controlled. In the event of a mower member hitting an obstacle it may be arrested by the obstacle, and the invention than provides a means to move the mowing member to a pre-defined position. Preventing further damage to the mowing member. Also by controlling movement of the mowing member to a pre-defined position, a series of pre-defined positions may be defined on the circular trajectory allowing for complete control of the movement of the mowing element.

According to an aspect of the invention the control device includes a position location device to determine the current position of the mowing member on the circular trajectory and the control device is arranged to control the motor to move the mowing member from the current location to the pre -defined position.

By providing in combination with the electric motor, the control device including a position location and arranging the control device to control the motor to move the mowing member from the current location to the pre-defined position, an efficient manner to control where the mowing member is provided.

According to an aspect of the invention the pre-defined position is the position in which the mowing member may be stopped on its circular trajectory.

By pre-defining the stop position of a mowing member, the mowing member may be brought to a stop in a controlled manner.

According to an aspect of the invention each mowing member including at least one mowing blade having a free outer end, which blade in normal operating circumstances projects radially outwardly including a radial center line which radial center line extends from the rotation axis outward and the free outer end following a circular blade trajectory, and each mowing member is mounted to the frame adjacent to another mowing member such that the respective blade trajectories define an overlap area between them, and a pre-defined stop position is chosen such is such that the radial line of the blade or the stopped mowing member does not intersect the overlap area.

Normal operating conditions are when the mower is in operation and there are no collisions or foreign objects with the mowing members and / or with the mowing blades. Under these circumstances the blade projects outwardly along a radial line which extends from the vertical axis outwardly and the tip of the blade is at the maximum distance from the vertical axis about which the mowing member rotates.

In order to achieve a clean mowing without gaps or unmowed crop, it is important that the mowing circles overlap. A mowing circle is the area covered by a rotating mowing blade. In order for the mowing circles to overlap, the mowing members are mounted to the frame adjacent each other creating an overlap of the blade trajectories.

In order to prevent collision between a rotating blade and a stationary blade or neighboring mowing members, it is necessary to park the stationary blade outside the overlap area. Otherwise a moving blade or a neighboring mowing member will collide with the stationary blade. The invention solves this by selecting a so-called 'safe position' for the blade that was stopped. The safe position is the pre-defined stop position in which the radial line of the blade or the stopped mowing member does not intersect the overlap area.

According to an aspect of the invention the position location device comprises an encoder. Encoders can convert the angular position or motion of a shaft or axle to an analog or digital code. The encoder can be used to determine this for the shaft driving the mowing member.

According to an aspect of the invention the mower includes at least one capacitor electrically connected to the motor and the control device is arranged to stop rotation or the least one mowing member by controlling the capacitor to inject DC current into the motor to be stopped.

An effective method of stopping the rotation of an electric motor is by DC injection which involves injection DC current into the rotor of the motor. The DC current creates a stationary magnetic field which applies a static torque to the rotor slowing it down to a stop. Injecting the DC current in relation to the rotation position of the mowing member may be used to effectuate stopping or the mowing member in the pre-defined stop position.

The invention will now be further explained using the drawing figures which show exemplary and non-limiting, in which:

Figures 1 is a diagrammatic top view of an embodiment of the mower according to the invention.

Figure 1 shows mower 1 having a variety of mowing members 2, each mowing member 2 mounted rotatably about a vertical rotation axis 3 to a support 4, and each mowing member 2 having an electric drive motor 5 drive the mowing member to rotate along circular trajectory 6. The circular trajectory 6 is coaxial to the vertical rotation axis 3. The mowing member as shown is a general oblong shape. Alternatively the mowing member could be circular. The mower 1 is equipped with at least one control device 7 arranged to control at least one of the electric drive motors 5 to control rotation of the mowing member to rotate the mowing member into a pre-defined position with respect to its circular trajectory. The motor can rotate the mowing member, and put the member in a position. When mowing members are driven to rotate, according to the invention the positions of the blades or all the mowing members can be controlled. In one rotation the knives will pass 360 degrees of a circle. Thus the positions of the blades or each mowing member can also be controlled relative to each other. In a conventional mower this is done by a mechanically by using a gear train. In the mower of the invention this is achieved by motor control and the control device controlling the positions of all the mowing members / blades by controlling each engine. In this manner the position and speed as well as the direction of rotation of the mowing members / blades may be controlled. Also synchronization of the mowing members by controlling the motors or each mowing member is possible.

The control device 7 is shown to be present on the frame 4 of the mower 1, near the coupling member 16 which will allow the motor to be coupled to a vehicle (not shown) and power to be lead onto the mower. The vehicle is usually a tractor and the mower 1 is in the form of a cutter bar which is coupled to a three-point hitch to be pulled by the tractor across a field or crop to be mowed. Alternative the mower may be a part of a self-driving vehicle with a person driving the vehicle, or equally an autonomously moving vehicle for which no person operating / driving it is necessary. Power to drive the motors and feed the control device may be provided by battery 17 provided on the mower or by power cables (not shown) passing through coupling member 16 from a battery on the vehicle or from a so-called power take-off ( PTO) generator.

The control device is provided with suitable electronics to be connected to the motors or the mower in order to control their rotation. E.g. the control device may receive and send sensor and / or control signals to and from each engine.

The electric drive motors may be the brushless motor type, e.g. an AC motor with a stator having wound coils and being supplied with an AC current and a rotor rotatably positioned inside the stator. The rotor driving an output shaft which in turn drives the mowing member. The rotor may be in the form of permanent magnets or electrical windings. The rotation of such a motor may be controlled by using a Variable Frequency Drive (VFD) which uses motor input frequency or the AC current and voltage to control the AC motor speed and torque. Different types of VFD control exist, or which the so-called vector control is the most common. Types of vector control are Direct Torque Control (DTC) and Field Oriented Control (FOC). The frequency of the current determined how fast the magnetic field will change and thus how fast the rotor (and output shaft) will rotate. This involves calculating the motor's magnetic flux and torque based on the measured voltage and current of the motor.

Significant aspects of vector control application are that speed or position must be determined, and that torque and flux can be changed reasonably fast, i.e. generally in less than 5-10 milliseconds. Typically the control algorithm is calculated at least every millisecond.

Defining a pre-defined position on the circular trajectory may be done by defining a point on the mower member, which upon rotation or the member describing a circular trajectory. After all the mowing member rotates about a central axis causing any point on the mowing member to follow a circle. The trajectory can be seen as a collection of coordinate points (P) on the circumference of the circle. These coordinates can be calculated because for any point P on the circle at distance from the origin the formula x ² + y ² = r ² holds.

The mower 1 further includes a position location device 8 which is part of the control device to determine the actual position of the mowing member on the circular trajectory 6 and the control device 7 is arranged to control the motor to move the mowing member from the actual location to the pre-defined position.

As shown in figure 1 the position location device 8 is provided on the motor 5 or each mowing member. Suitable data transmission hardware and software are provided for the data gathered by the location location devices 8 to the control device 7, received by the control device and used to control the engine.

As shown in figure 1 the mower the position location device 8 is an encoder 14, mounted onto the motor. The encoder when mounted onto the motor as shown in figure 1 is typically an add-on encoder which once mounted can detect the angular position or motion of a shaft or axle and convert it into an analog or digital signal code, which is then transmitted to the control device. In the embodiment as shown, the encoder can be used to determine this for the shaft driving the mowing member.

Alternatively the encoder may be used to determine angular position or motion of the rotor or an electric motor relative to the stator and may be a position sensor inside the motor. These values can be used to determine the position of a mowing blade, after all the position of the mowing blade relative to the motor is known or may be derived from the dimensions form the mower, blade, mowing member and motor. Position encoders are available in a large variety and may operate mechanically, optically, magnetically or capacitively. According to the invention the term encoder must also be seen using Field Oriented Control instead of a position sensor, in which the magnitude and position of the rotor flux are determined in order to control the motor.

The pre-defined position may be chosen to be the position in which the mowing member is stopped on its circular trajectory.

Each mowing member 2 has at least one mowing blade 9 having a free outer end 10, which blade 9 in normal operating circumstances projects radially outwardly including a radial center line 11 which radial center line 11 extends from the rotation axis 3 outward and the free outer end 10 following a circular blade trajectory 12, and each mowing member 2 is mounted to the frame 4 adjacent to another mowing member 4 such that the respective blade trajectories 12 define an overlap area 13 between them, and is a pre-defined stop position chosen such is such that the radial line of the blade of the stopped mowing member does not intersect the overlap area.

In figure 1 the mowing members are shown in a manner in which the blades 9, 10 will never hit each other.

In order to stop the electric motor 5, a capacitor 15 is provided with suitable connections to each motor. These connections may be the same as the ones that provided the motors with electricity. The control device is arranged to stop rotation or the least one mowing member by controlling the capacitor 15 to inject DC current into the motor to be stopped.

Claims (6)

CONCLUSIONS A mower, comprising: a plurality of mowing members, each mowing member being rotatably mounted about a vertical axis of rotation on a carrier, each mowing member being provided with an electric drive motor connectable thereto and being designed to drive the mowing member to rotate along a circular path coaxial to of the vertical axis of rotation, and wherein, the mower is further provided with at least one control device configured to control at least one of the electric drive motors to move the mower to a predetermined position on its circular path. A mower as claimed in claim 1, wherein the control device is provided with a position determining device for determining the actual position of the mowing member on the circular path, and wherein the control device is designed for controlling the motor to move the mowing member from the actual position to the predetermined position. A mower according to any of claims 1 or 2, wherein the predetermined position is the position in which the mowing member can be stopped on its circular path. 4. Mower as claimed in claim 3, wherein each mowing member is provided with at least one cutter with a free outer end, wherein the knife protrudes radially outwards during normal operating conditions and comprises a radial axis extending outwards from the axis of rotation, and wherein the free outer circle follows a circular blade path, and wherein each mowing member is disposed adjacent to another mowing member on the frame such that the respective knife paths define an overlap region therebetween, and wherein a predetermined stop position is selected such that the radial axis of the halted cutting member blade does not intersect the overlap area. Mower according to any of the preceding claims 2-4, wherein the position-determining device comprises an encoder. Mower according to any one of the preceding claims, wherein the mower is provided with at least one capacitor which is electrically connected to the motor, and the control device is designed for stopping rotation of the at least one mower by controlling the capacitor to supply direct current to the motor to be stopped. 1/1 (D