U.S. patent application number 12/102264 was filed with the patent office on 2008-08-21 for height of cut adjustment system for reel mower.
Invention is credited to Truluck Tillman Ammons, Kenneth Edward Hunt, David Lawrence Phillips, Ronald Lee Reichen, Brent Gordon Rinholm, Carl Steven Silbernagel, Richard David Thier.
Application Number | 20080196377 12/102264 |
Document ID | / |
Family ID | 34423392 |
Filed Date | 2008-08-21 |
United States Patent
Application |
20080196377 |
Kind Code |
A1 |
Silbernagel; Carl Steven ;
et al. |
August 21, 2008 |
HEIGHT OF CUT ADJUSTMENT SYSTEM FOR REEL MOWER
Abstract
A height of cut adjustment system for a reel type grass cutting
unit includes adjustment screw mechanisms mounted at each corner of
the cutting unit. Linkages between the adjustment screw mechanisms
permit driving all of the adjustment screw mechanisms synchronously
from a single adjustment point to change the cutting height. The
linkages may be worm gear drives or other mechanical linkages.
Inventors: |
Silbernagel; Carl Steven;
(Fort Mill, SC) ; Phillips; David Lawrence;
(Willow Springs, NC) ; Ammons; Truluck Tillman;
(Clover, SC) ; Thier; Richard David; (Juneau,
WI) ; Hunt; Kenneth Edward; (Rock Hill, SC) ;
Reichen; Ronald Lee; (Raleigh, NC) ; Rinholm; Brent
Gordon; (Fuquay Varina, NC) |
Correspondence
Address: |
DEERE & COMPANY
ONE JOHN DEERE PLACE
MOLINE
IL
61265
US
|
Family ID: |
34423392 |
Appl. No.: |
12/102264 |
Filed: |
April 14, 2008 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
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10697345 |
Oct 30, 2003 |
6988583 |
|
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12102264 |
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Current U.S.
Class: |
56/249 |
Current CPC
Class: |
B62D 1/286 20130101 |
Class at
Publication: |
56/249 |
International
Class: |
A01D 34/54 20060101
A01D034/54 |
Claims
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21. A height of cut adjustment system for a reel type grass cutting
unit, comprising: a plurality of adjustment screw mechanisms to
support the cutting unit at a cutting height; and a mechanical
linkage between the adjustment screw mechanisms to permit driving
all of the plurality of adjustment screw mechanisms synchronously
from a single adjustment point to change the cutting height.
22. The height of cut adjustment system of claim 1 wherein the
mechanical linkage is a drive shaft.
23. The height of cut adjustment system of claim 2 further
comprising a worm gear drive between the drive shaft and each
adjustment screw mechanism.
24. The height of cut adjustment system of claim 1 wherein the
mechanical linkage is a synchronous belt.
25. The height of cut adjustment system of claim 1 wherein the
mechanical linkage is a chain drive.
26. The height of cut adjustment system of claim 1 wherein the
single adjustment point is a hex head that may be driven by a hand
wrench.
27. The height of cut adjustment system of claim 1 further
comprising a dedicated electric motor mounted to the cutting unit
to drive the plurality of adjustment screw mechanisms from the
single adjustment point.
28. A height of cut adjustment system for a reel type grass cutting
unit, comprising: a plurality of adjustment screw mechanisms
mounted to the cutting unit; each adjustment screw mechanism having
a vertical post and a worm gear drive connected to each vertical
post; and a linkage between each worm gear drive so that the worm
gear drives can turn synchronously.
29. The height of cut adjustment system of claim 8 further
comprising an electric motor mounted to the cutting unit to turn
the worm gear drives synchronously.
30. The height of cut adjustment system of claim 8 wherein the
linkage is at least one drive shaft between the adjustment screw
mechanisms.
31. The height of cut adjustment system of claim 10 wherein the at
least one drive shaft is horizontally aligned.
32. The height of cut adjustment system of claim 8 further
comprising at least one adjustment point from which all of the worm
gear drives may be turned synchronously.
33. A height of cut adjustment system for a reel type grass cutting
unit, comprising: a plurality of independent adjustment mechanisms
mounted to a frame of the cutting unit; each independent adjustment
mechanism operating to raise and lower a vertical post supporting
the cutting unit; an electric motor mounted to the frame of the
cutting unit; and linkages between the electric motor and each
independent adjustment mechanism to raise and lower the posts
synchronously to set a cutting height of the cutting unit.
34. The height of cut adjustment system of claim 13 wherein each
independent adjustment mechanism is an adjustment screw
mechanism.
35. The height of cut adjustment system of claim 13 wherein the
linkages are drive shafts and worm gear drives.
36. The height of cut adjustment system of claim 15 wherein at
least two of the worm gear drives are concentric.
37. The height of cut adjustment system of claim 13 further
comprising a ground roller rotatably mounted to the vertical
posts.
38. The height of cut adjustment system of claim 13 wherein the
linkages are synchronous belts.
39. The height of cut adjustment system of claim 13 wherein the
linkages are chain drives.
40. The height of cut adjustment system of claim 13 further
comprising a single adjustment point drivable by a hand wrench.
Description
FIELD OF THE INVENTION
[0001] This invention relates generally to a height of cut
adjustment system for a reel type grass cutting unit.
BACKGROUND OF THE INVENTION
[0002] Reel type grass cutting units typically used on golf courses
and athletic fields are designed so the height at which the grass
is cut can be adjusted to various levels as desired. This is an
important adjustment because the appearance and health of the turf,
and the quality of the athletic activity may be affected by the cut
height. Throughout the growing season, the cut height may need to
be changed to suit the growing conditions. Additionally, the cut
height may need to be changed for different areas. On a golf
course, for example, areas such as fairways are usually cut at
different heights than roughs or approaches.
[0003] On a manually adjusted reel type grass cutting unit, the
height of cut adjustment is labor intensive, time consuming, and
requires a high level of skill. Turf managers may not change the
cut height as frequently as may be needed because of the time and
work involved in the adjustment process. Many facilities will have
multiple mowers, each dedicated to a specific cut height, instead
of re-adjusting the height of cut of a machine.
[0004] A self-adjusting reel type grass cutting unit has been
developed that sets the cut height automatically when commanded
through a user interface. This adjustment system has two separate
frameworks: the cutting unit frame and the ground contacting frame.
A pair of adjusting screws actuated by dc electric motors may raise
and lower the cutting unit frame with respect to the ground
contacting frame. A four bar linkage on each end of the cutting
unit frame sets the attitude of the cutting unit frame and keeps
the cutting unit frame approximately parallel with the ground as
the cut height is adjusted. A self adjusting reel is shown in U.S.
Pat. No. 7,114,318 assigned to Deere & Company of Moline,
Ill.
[0005] The self adjusting reel described above has many advantages
over manually adjusting the height of cut, including savings in
time, skill and effort required to make the adjustment, and high
accuracy. It would be desirable to further reduce the work required
to set or change the height of cut of a reel type grass cutting
unit.
SUMMARY OF THE INVENTION
[0006] A height of cut adjustment system for a reel type grass
cutting unit includes independent adjustment mechanisms mounted to
each corner of a frame of the cutting unit. Each independent
adjustment mechanism operates to raise and lower a vertical post
supporting a corner of the cutting unit. Linkages between the
independent adjustment mechanisms allow the posts to be raised or
lowered synchronously to set the cutting height. The height of cut
can be set or changed from a single adjustment point.
BRIEF DESCRIPTION OF THE DRAWINGS
[0007] FIG. 1 is a front perspective view of a reel type grass
cutting unit having a height of cut adjustment system according to
a first embodiment.
[0008] FIG. 2 is a partially exploded perspective view of a reel
type grass cutting unit having a height of cut adjustment system
according to a first embodiment.
[0009] FIG. 3 is a partially exploded perspective view of an
adjustment screw mechanism of the height of cut adjustment system
according to a first embodiment.
DESCRIPTION OF A PREFERRED EMBODIMENT
[0010] FIGS. 1-3 show a height of cut adjustment system 101 for a
reel type grass cutting unit according to a first embodiment of the
invention. The reel type grass cutting unit has a horizontal shaft
102 that rotates to turn cutting reel 103, to cut grass between the
cutting reel and bedknife 104. Motor 105 may be used to rotate
shaft 102, and may be electric or hydraulic.
[0011] In one embodiment, height of cut adjustment system 101
includes four independent adjustment mechanisms, each of which may
be rigidly attached to and support a corner of cutting unit frame
106. The independent adjustment mechanisms may be adjustment screw
mechanisms 108-11. Front ground roller 112 may be attached to the
lower portion of a pair of front adjustment screw mechanisms
108-09, and rear ground roller 113 may be attached to the lower
portion of a pair of rear adjustment screw mechanisms 110-11. The
opposing ends of the front and rear ground rollers may be rotatably
mounted to the lower portions of the adjustment screw mechanisms so
that the ground rollers may rotate as they roll across the turf and
support the cutting unit at a desired cutting height.
[0012] In one embodiment, each adjustment screw mechanism 108-11
can change the position of a vertical post 121-24 mounted to the
end of a ground roller. Each post 121-24 can move vertically up or
down within a sleeve 116-19 rigidly mounted to a corner of the
cutting unit frame.
[0013] In one embodiment, each post 121-24 can move vertically up
or down within a sleeve 116-19 by turning an adjustment screw
126-29. Each adjustment screw 126-29 includes externally threaded
screw shaft 175-78 and worm gear 164-67. Externally threaded screw
shaft 175-78 engages internal threads in an axial bore through post
121-24. Worm gears 164-67, at the top end of adjustment screws
126-29, are concentric to the screw shafts. Each sleeve may be
covered by a cap 171-74.
[0014] In one embodiment, each adjustment screw 126-29 may be
turned by rotating worm shaft 144-47 that engages worm gear 164-67.
Each worm shaft 144-47 is perpendicular to worm gear 164-67. Each
worm shaft 144-47 may extend through a case 151-54 open to the side
of a sleeve 116-19, so that it can engage each worm gear 164-67.
Additionally, each worm shaft 144-47 may have a hex head extending
out from the end of the case so that it can be gripped and turned
with a wrench or power drill socket, or the worm shaft may be
turned by other devices such as those described in more detail
below. When viewed from above, each worm shaft 144-47 may be
approximately 25 mm to the side of the worm gear axis.
[0015] In one embodiment, worm shafts 144,146 on the left side of
the cutting unit are concentric. The concentricity of worm shafts
144,146 allow the two left adjustment screw mechanisms to be driven
synchronously by connecting the worm shafts together with drive
shafts 131, 133. Similarly, worm shafts 145, 147 on the right side
of the cutting unit are concentric, and are connected together with
drive shafts 132, 134 to allow driving the two right adjustment
screw mechanisms synchronously. Shaft connectors 140 may slide over
the ends of the drive shafts and worm shafts to connect them
together. The shaft connectors may be removed to disconnect the
shafts as necessary, so that an operator can manually preset
parallelism and/or attitude of the cutting units.
[0016] In one embodiment, the adjustment screw mechanisms on the
left side and right side of the cutting unit may be linked together
so that all four mechanisms can be driven synchronously, to change
the cut height, from a single adjustment point. For example, the
mechanical linkage may be drive shaft 135 that connects between the
left and right adjustment screw mechanisms. Worm shafts 148-49 may
be attached to the opposing ends of drive shaft 135 using shaft
connectors. Each worm shaft 148-49 may extend through a case
158-59. Each case 158-59 may be open to the side of sleeve 156-57
so that worm shaft 148-49 can engage screw gear 137-38. Screw gears
137-38 extend through sleeves 156-57 mounted to frame 106. Screw
gear 137 may be connected between drive shafts 132 and 134 using
shaft connectors and spacer 161. A screw gear (not shown) also may
be connected between drive shafts 131 and 133 using shaft
connectors and spacer 162.
[0017] Instead of drive shafts linking the adjustment screw
mechanisms, the mechanical linkage may be a synchronous belt or
chain drive that links the mechanisms together. Driving all four
adjustment screw mechanisms synchronously allows an operator to
adjust the entire cut height at one adjustment point.
Alternatively, each pair of adjustment screw mechanisms (e.g., the
front pair of mechanisms, and the rear pair of mechanisms) may be
linked together so that each pair may be driven synchronously from
one adjustment point, and the cut height may be changed from only
two adjustment points.
[0018] In one embodiment, the adjustment point may be a hex head on
the end of each worm shaft that may be driven by a hand wrench in a
manual adjustment system. Alternatively, the adjustment point may
be a hex head on the end of the worm shaft that may be driven using
a portable power source such as an electric drill unattached from
the cutting unit. Alternatively, as described above, the adjustment
point may be driven by a power source attached to the frame of the
reel cutting unit, such as dedicated electric motor 142 shown in
FIGS. 1-3. The dedicated electric motor may be a DC motor mounted
to cutting unit frame 106 so that it may turn drive shaft 135 and
drive all four adjustment screw mechanisms synchronously.
Additionally, the electric motor may be connected to a control
computer and user interface as part of a self adjusting reel
system.
[0019] In one embodiment, a mechanical counter may be mounted to
one of the drive shafts. The mechanical counter may increment with
each rotation of the drive shaft, and indicate actual cut height.
For example, if adjustment screws 126-29 have a pitch of 20 threads
per inch, each rotation of the adjustment screw will change the cut
height 0.05 inch. If the worm gear drive ratio is 50:1, each
rotation of a drive shaft 131-35 will turn the adjustment screw
1/50.sup.th of a turn. As a result, each turn of the drive shaft
will change the cut height 0.001 inch. The mechanical counter may
indicate the cut height to 0.001 inch resolution.
[0020] In one embodiment, the drive ratio of the linkage that
connects the drive shafts may be arranged such that the attitude of
the cutting mechanism increases with increasing cutting height. For
example, if the front and rear drive shafts are driven at the same
rate, the front of the cutting unit may raise as the adjusting
screws turn at the same rate.
[0021] The height of cut adjustment system of the present invention
provides adjustment flexibility because the ground rollers can be
adjusted to be parallel with each other and the bedknife. A pair of
adjustment screws, or all four adjustment screws, may be linked
together synchronously so that the cut height may be set or changed
at one adjustment point. This reduces the work required to set or
adjust the height of cut. Optionally, each adjustment point may
have a mechanical and/or digital display indicating the cut height.
The adjustment point may be powered by a portable electric tool, so
that the adjustment may be performed quickly. Alternatively, the
adjustment point may be powered by a dedicated actuator as part of
a self adjusting reel system.
[0022] Having described a preferred embodiment, it will become
apparent that various modifications can be made without departing
from the scope of the invention as defined in the accompanying
claims.
* * * * *