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US-12622338-B2 - Ground following harrow

US12622338B2US 12622338 B2US12622338 B2US 12622338B2US-12622338-B2

Abstract

A harrow apparatus comprising an implement frame and a harrow section attached to a mounting assembly extending rearward from the implement frame such that the harrow section engages the ground surface. The mounting assembly is movable upward and downward to move the harrow section down and up. The mounting assembly comprises a beam extending rearward above the harrow frame, and front and rear arms pivotally attached at upper ends thereof to corresponding front and rear beam pivot axes located on the beam. The front arm slopes downward and rearward to a lower end thereof that is pivotally attached to the harrow frame at a front frame pivot axis, and the rear arm slopes downward and forward to a lower end thereof that is pivotally attached to the harrow frame at a rear frame pivot axis located rearward of the front frame pivot axis.

Inventors

  • Todd Hofmann
  • Miit Nimish
  • Bruno Jacobo

Assignees

  • SCHULTE INDUSTRIES LTD.

Dates

Publication Date
20260512
Application Date
20230308
Priority Date
20220308

Claims (19)

  1. 1 . A harrow apparatus comprising: an implement frame mounted on wheels for travel along a ground surface in an operating travel direction; a harrow section comprising a plurality of rows of tines, the rows of tines spaced rearward from a front row of tines to a rear row of tines, and oriented substantially perpendicular to the operating travel direction; wherein the tines are attached to a harrow frame and extend downward substantially an equal distance from the harrow frame; wherein the harrow section is attached to a mounting assembly extending rearward from the implement frame such that the harrow section engages the ground surface when in an operating position; wherein the mounting assembly is selectively movable upward and downward with respect to the implement frame to move the harrow section down into the operating position and up out of the operating position; wherein the mounting assembly comprises a beam extending rearward above the harrow frame; wherein the mounting assembly comprises front and rear arms pivotally attached at upper ends thereof to corresponding front and rear beam pivot axes located on the beam; wherein the front arm slopes downward and rearward to a lower end thereof that is pivotally attached to the harrow frame at a front frame pivot axis; wherein the rear arm slopes downward and forward to a lower end thereof that is pivotally attached to the harrow frame at a rear frame pivot axis located rearward of the front frame pivot axis; wherein the front and rear arms are substantially equal in length; wherein when the implement frame and harrow section are located on a substantially horizontal ground surface the beam is maintained in a position where an upper line joining the front and rear beam pivot axes is in a substantially horizontal orientation as the mounting assembly moves upward and downward with respect to the implement frame; wherein the mounting assembly is configured such that when the front arm slopes rearward and the rear arm slopes forward at substantially the same angle with respect to a vertical line, a lower line joining the front and rear frame pivot axes is also substantially horizontal; and wherein a front line joining the front beam pivot axis and the front frame pivot axis extends to a ground location on the ground surface when the harrow section is in the operating position engaged in the ground surface, and a rear line joining the rear beam pivot axis and the rear frame pivot axis extends to the same ground location when the harrow section is in the operating position, and wherein the ground location is in a middle portion of the harrow section between the front row of tines and the rear row of tines.
  2. 2 . The apparatus of claim 1 wherein the mounting assembly comprises a parallel linkage comprising: upper and lower links pivotally attached to the implement frame at front ends thereof about corresponding upper and lower implement pivot axes, and pivotally attached to the beam at rear ends thereof about corresponding upper and lower harrow pivot axes; an extendable actuator pivotally attached to the upper link at an upper actuator location, and pivotally attached to the lower link at a lower actuator location that is offset from the upper actuator location toward the front or to the rear of the parallel linkage.
  3. 3 . The apparatus of claim 2 wherein the upper actuator location is a distance from the upper implement pivot axis that is equal to the distance from the lower actuator location to the lower harrow axis.
  4. 4 . The apparatus of claim 1 wherein the mounting assembly comprises a parallel linkage comprising: upper and lower links pivotally attached to the implement frame at front ends thereof about corresponding upper and lower implement pivot axes, and pivotally attached to the beam at rear ends thereof about corresponding upper and lower harrow pivot axes; an extendable actuator pivotally attached to one of the upper link and the lower link at a front actuator location, and pivotally attached to the beam at a rear actuator location.
  5. 5 . The apparatus of claim 2 wherein the extendable actuator is provided by a hydraulic cylinder operative to exert a selectable bias force on the upper and lower links.
  6. 6 . The apparatus of claim 3 wherein the bias force is operative in a first mode to force the upper actuator location away from the lower actuator location and is operative in a second mode to force the upper actuator location toward the lower actuator location.
  7. 7 . The apparatus of claim 2 wherein the extendable actuator is provided by an electric actuator.
  8. 8 . A harrow apparatus comprising: an implement frame mounted on wheel for travel along a ground surface in an operating travel direction; a harrow section comprising a plurality of rows of tines, the rows of tines spaced rearward from a front row of tines to a rear row of tines, and oriented substantially perpendicular to the operating travel direction; wherein the tines are attached to a harrow frame and extend downward substantially an equal distance from the harrow frame; wherein the harrow section is attached to a mounting assembly by a beam extending rearward from the implement frame such that the harrow section engages the ground surface when in an operating position; wherein the mounting assembly comprises a parallel linkage comprising: an upper link; and a lower link; wherein the upper link and the lower link are pivotally attached to the implement frame at front ends thereof about corresponding upper and lower implement pivot axes, and pivotally attached to the beam at rear ends thereof about corresponding upper and lower harrow pivot axes; wherein the mounting assembly comprises an extendable actuator pivotally attached directly to the upper link at an upper actuator location, and pivotally attached directly to the lower link at a lower actuator location location that is offset from the upper location toward the front or to the rear of the parallel linkage; and wherein the extendable actuator is operative to move the mounting assembly upward and downward.
  9. 9 . The apparatus of claim 8 wherein the upper location is a distance from the upper implement pivot axis that is equal to the distance from the lower location to the lower harrow axis.
  10. 10 . The apparatus of claim 8 wherein the extendable actuator is provided by a hydraulic cylinder operative to exert a selectable bias force on the parallel linkage.
  11. 11 . The apparatus of claim 8 wherein the bias force is operative in a first mode to force the upper actuator location away from the lower actuator location and is operative in a second mode to force the upper actuator location toward the lower actuator location.
  12. 12 . The apparatus of claim 8 wherein the beam extends rearward from the implement frame and front and rear arms are pivotally attached at upper ends thereof to corresponding front and rear beam pivot axes located on the beam, and wherein the front arm slopes downward and rearward to a lower end thereof that is pivotally attached to the harrow frame at a front frame pivot axis, and wherein the rear arm slopes downward and forward to a lower end thereof that is pivotally attached to the harrow frame at a rear frame pivot axis located rearward of the front frame pivot axis.
  13. 13 . The apparatus of claim 12 wherein when the implement frame and harrow section are located on a substantially horizontal ground surface the beam is maintained in a position where an upper line joining the front and rear beam pivot axes is in a substantially horizontal orientation as the mounting assembly moves upward and downward with respect to the implement frame.
  14. 14 . The apparatus of claim 13 wherein the mounting assembly is configured such that when the front arm slopes rearward and the rear arm slopes forward at substantially the same angle with respect to a vertical line, a lower line joining the front and rear frame pivot axes is also substantially horizontal.
  15. 15 . The apparatus of claim 14 wherein a front line joining the front beam pivot axis and the front frame pivot axis extends to the a ground location on the ground surface when the harrow section is in the operating position engaged in the ground surface, and a rear line joining the rear beam pivot axis and the rear frame pivot axis extends to the same ground location when the harrow section is in the operating position, and wherein the ground location is in a middle portion of the harrow section between the front row of tines and the rear row of tines.
  16. 16 . The apparatus of claim 12 wherein the front and rear arms are substantially equal in length.
  17. 17 . A method of mounting a harrow section to an implement frame operative to move along a ground surface in an operating travel direction, the method comprising: providing a harrow section comprising a plurality of rows of tines, the rows of tines spaced rearward from a front row of tines to a rear row of tines, and oriented substantially perpendicular to the operating travel direction; wherein the tines are attached to a harrow frame and extend downward substantially an equal distance from the harrow frame; attaching a beam extending rearward from the implement frame and operative to move upward and downward with respect to the implement frame; attaching the harrow section under the beam by pivotally attaching front and rear arms at upper ends thereof to corresponding front and rear beam pivot axes located on the beam, and attaching the front and rear arms at lower ends thereof to corresponding front and rear frame pivot axes located on the harrow frame; configuring the front and rear arms such that the front arm slopes downward and rearward to the lower end thereof and the rear arm slopes downward and forward to the lower end thereof; wherein the front and rear arms are substantially equal in length; wherein, when the implement frame and harrow section are located on a substantially horizontal ground surface, maintaining the beam to be in a position where an upper line joining the front and rear beam pivot axes is in a substantially horizontal orientation as the beam moves upward and downward; wherein when the implement frame and harrow section are located on a substantially horizontal ground surface, configuring the front arm to slope rearward and the rear arm to slope forward at substantially the same angle with respect to a vertical line, such that a lower line joining the front and rear frame pivot axes is also substantially horizontal; and wherein a front line joining the front beam pivot axis and the front frame pivot axis extends to a ground location on the ground surface when the harrow section is in an operating position engaged in the ground surface, and a rear line joining the rear beam pivot axis and the rear frame pivot axis extends to the same ground location when the harrow section is in the operating position, and wherein the ground location is in a middle portion of the harrow section between the front row of tines and the rear row of tines.
  18. 18 . A harrow apparatus comprising: an implement frame mounted on wheel for travel along a ground surface in an operating travel direction; a harrow section comprising a plurality of rows of tines, the rows of tines spaced rearward from a front row of tines to a rear row of tines, and oriented substantially perpendicular to the operating travel direction; wherein the tines are attached to a harrow frame and extend downward substantially an equal distance from the harrow frame; wherein the harrow section is attached to a mounting assembly by a beam extending rearward from the implement frame such that the harrow section engages the ground surface when in an operating position; wherein the mounting assembly comprises a parallel linkage comprising: an upper link; and a lower link; wherein the upper link and the lower link are pivotally attached to the implement frame at front ends thereof about corresponding upper and lower implement pivot axes, and pivotally attached to the beam at rear ends thereof about corresponding upper and lower harrow pivot axes; and wherein the mounting assembly comprises an extendable actuator pivotally attached directly to one of the upper link and the lower link at a front actuator location, and pivotally attached directly to the beam at a rear actuator location and operative to move the mounting assembly upward and downward.
  19. 19 . The apparatus of claim 18 wherein the extendable actuator is provided by a hydraulic cylinder operative to exert a selectable bias force on the parallel linkage.

Description

This application claims priority to Canadian Patent Application No. 3,151,513 filed on Mar. 8, 2023, the disclosure of which is incorporated herein by reference. This disclosure relates to the field of agricultural implements and in particular a harrow with a variable down force for following changes in the ground surface. BACKGROUND Harrows are typically mounted on quite wide implement frames as the harrows are relatively light to pull. The implement frame is typically a rectangular or cylindrical beam mounted on wheels with the harrow sections extending rearward from the implement frame. The implement frame can rotate to raise the harrows from an operating position to a transport position, or in some cases the mounting assembly for each harrow section is operative to raise the harrow section to a transport position. Outer portions of the implement frame are then typically configured to move rearward to place the implement in the transport position for movement along roadways and the like. It is also known to mount harrow sections at the rear end of an air seeder or like ground working implement to pack and smooth the soil. The harrow sections are attached to the implement frame with each harrow section mounted independently to the frame by a variety of mounting assemblies which allow the harrow section to follow the ground independent of adjacent harrow section, and provide various other features. U.S. Pat. No. 8,657,026 to Friesen discloses a mounting assembly that can adjust the tine angle of the harrows. U.S. Pat. No. 10,194,574 to Knobloch et al. discloses an harrow where the tine angle is adjusted based on the percentage of plant residue at the harrows' present geographic location. U.S. Pat. No. 10,299,421 to Lung et al. and 10,602,653 to Henry discloses mounting assemblies which put an upward or downward force on the barrows. SUMMARY OF THE INVENTION The present disclosure provides a harrow apparatus that overcomes problems in the prior art. In a first embodiment the present disclosure provides a harrow apparatus comprising an implement frame mounted on wheels for travel along a ground surface in an operating travel direction. A harrow section comprises a plurality of rows of tines, the rows of tines spaced rearward from a front row of tines to a rear row of tines, and oriented substantially perpendicular to the operating travel direction, and the tines are attached to a harrow frame and extend downward substantially an equal distance from the harrow frame. The harrow section is attached to a mounting assembly extending rearward from the implement frame such that the harrow section engages the ground surface when in an operating position, and the mounting assembly is selectively movable upward and downward with respect to the implement frame to move the harrow section down into the operating position and up out of the operating position. The mounting assembly comprises a beam extending rearward above the harrow frame, and the mounting assembly comprises front and rear arms pivotally attached at upper ends thereof to corresponding front and rear beam pivot axes located on the beam. The front arm slopes downward and rearward to a lower end thereof that is pivotally attached to the harrow frame at a front frame pivot axis, and the rear arm slopes downward and forward to a lower end thereof that is pivotally attached to the harrow frame at a rear frame pivot axis located rearward of the front frame pivot axis. In a second embodiment the present disclosure provides a harrow apparatus comprising an implement frame mounted on wheel for travel along a ground surface in an operating travel direction, and a harrow section comprising a plurality of rows of tines, the rows of tines spaced rearward from a front row of tines to a rear row of tines, and oriented substantially perpendicular to the operating travel direction. The tines are attached to a harrow frame and extend downward substantially an equal distance from the harrow frame. The harrow section is attached to a mounting assembly comprising a beam extending rearward from the implement frame such that the harrow section engages the ground surface when in an operating position. The mounting assembly comprises a parallel linkage comprising upper and lower links pivotally attached to the implement frame at front ends thereof about corresponding upper and lower implement pivot axes, and pivotally attached to the beam at rear ends thereof about corresponding upper and lower harrow pivot axes. The mounting assembly comprises an extendable actuator pivotally attached to the upper link at an upper actuator location, and pivotally attached to the lower link at a lower actuator location that is offset from the upper location toward the front or to the rear of the parallel linkage. In a third embodiment the present disclosure provides a method of mounting a harrow section to an implement frame operative to move along a ground surface in an operating travel directio