U.S. patent application number 09/757009 was filed with the patent office on 2001-07-19 for device for transplanting trees or bushes.
Invention is credited to Opitz, Dieter.
Application Number | 20010008112 09/757009 |
Document ID | / |
Family ID | 7627341 |
Filed Date | 2001-07-19 |
United States Patent
Application |
20010008112 |
Kind Code |
A1 |
Opitz, Dieter |
July 19, 2001 |
Device for transplanting trees or bushes
Abstract
A device for transplanting trees or bushes having at least two
spades that can be adjusted against each other. These spades can be
set between an open and closed position by means of a pair of
attached servo-drives. When in the open position, the spades are
removed from each other by a space corresponding at least with a
diameter of the tree or the bush to be transplanted. When the
spades are in their closed position, they complement each other,
forming a partial spherical cup. To reduce the resistance of the
spades as they penetrate the soil, the cutting blade of the spade
has the shape of a corrugated ground edging. These corrugated
ground edges have alternating elevations and recesses, whereby the
elevations of the cutting blade provide sufficient stability and
safety against breakage. The ground surfaces that oppose each other
on these spades are disposed on alternating sides to allow the
cutting blades to overlap.
Inventors: |
Opitz, Dieter; (Heideck,
DE) |
Correspondence
Address: |
COLLARD & ROE, P.C.
1077 Northern Boulevard
Roslyn
NY
11576
US
|
Family ID: |
7627341 |
Appl. No.: |
09/757009 |
Filed: |
January 8, 2001 |
Current U.S.
Class: |
111/101 ;
111/100; 294/68.23; 37/302; 414/618 |
Current CPC
Class: |
A01G 23/046
20130101 |
Class at
Publication: |
111/101 ;
111/100; 37/302; 414/618; 294/68.23 |
International
Class: |
A01C 011/00 |
Foreign Application Data
Date |
Code |
Application Number |
Jan 13, 2000 |
DE |
100 01 078.4 |
Claims
What is claimed is:
1. A device for transplanting trees or bushes comprising: a) at
least two spades being adjustable against each other and being
driveable into an open position in which said at least two spades
are spaced apart from each other by at least a diameter of a tree
trunk or bush; b) at least two cutting blades wherein at least one
of said at least two cutting blades is disposed on each of said at
least two spades, wherein each of said at least two cutting blades
has a ground surface having alternating corrugated ground recesses
formed by a series of concave conical limiting surfaces and
adjacent elevations forming edges; and c) at least one servo drive
connected to said at least two spades for driving said at least two
spades together or apart wherein said at least two spades are
designed to substantially compliment each other when said at least
two spades are driven together.
2. The device as in claim 1, wherein said ground surfaces are
disposed either on an inside edge surface of said at least two
spades or on an outside edge surface of said at least two
spades.
3. The device as in claim 1, wherein said cutting blade elevations
have a counter ground edging disposed on their sides.
4. The device as in claim 1, wherein said cutting blade elevations
on a pair of opposite facing spades are disposed offset from each
other.
5. The device as in claim 1, wherein said cutting blade elevations
are spaced apart from each other at a distance of 15 mm to 60
mm.
6. The device as in claim 1, wherein said spacing of said cutting
blade elevations is 30 mm.
7. The device as in claim 1, further comprising at least two
separate edges each of which having at least one of said cutting
blades, wherein at least one of said at least two separate edges is
coupled to each of said at least two spades and said at least two
separate edges have a greater hardness than that of said at least
two spades.
8. The device as in claim 7, wherein said separate edge is welded
to said face side of each of said at least two spades.
9. The device as in claim 7, further comprising a holding means for
connecting said separate edge to each of said at least two
spades.
10. The device as in claim 7, wherein said separate edge has a
surface that is formed in a step-like manner, and each of said at
least two spades have a surface that is shaped complimentary to
said surface on said separate edge.
11. The device as in claim 7 wherein said separate edge is formed
so that a plurality of said separate edges can be coupled to each
of said at least two spades.
12. A device for transplanting trees or bushes comprising: a) at
least two spades being adjustable against each other and being
driveable into an open position in which said at least two spades
are spaced apart from each other by at least a diameter of a tree
trunk or bush; b) at least two cutting blades wherein at least one
of said at least two cutting blades is disposed on each of said at
least two spades, wherein each of said at least two cutting blades
has a ground surface having alternating corrugated ground recesses
formed by a series of concave cylindrical limiting surfaces and
adjacent elevations forming edges; and c) at least one servo drive
connected to said at least two spades for driving said at least two
spades together or apart wherein said at least two spades are
designed to substantially compliment each other when said at least
two spades are driven together.
13. The device as in claim 12, wherein said ground surfaces are
disposed either on an inside edge surface of said at least two
spades or on an outside edge surface of said at least two
spades.
14. The device as in claim 12, wherein said cutting blade
elevations have a counter ground edging disposed on their
sides.
15. The device as in claim 12, wherein said cutting blade
elevations on a pair of opposite facing spades are disposed offset
from each other.
16. The device as in claim 12, wherein said cutting blade
elevations are spaced apart from each other at a distance of 15 mm
to 60 mm.
17. The device as in claim 12, wherein said spacing of said cutting
blade elevations is 30 mm.
18. The device as in claim 12, further comprising at least two
separate edges each of which having at least one of said cutting
blades, wherein at least one of said at least two separate edges is
coupled to each of said at least two spades and said at least two
separate edges have a greater hardness than that of said at least
two spades.
19. The device as in claim 18, wherein said separate edge is welded
to said face side of each of said at least two spades.
20. The device as in claim 18, further comprising a holding means
for connecting said separate edge to each of said at least two
spades.
21. The device as in claim 18, wherein said separate edge has a
surface that is formed in a step-like manner, and each of said at
least two spades have a surface that is shaped complimentary to
said surface on said separate edge.
22. The device as in claim 18 wherein said separate edge is formed
so that a plurality of said separate edges can be coupled to each
of said at least two spades.
23. A device for transplanting trees or bushes comprising: a) at
least two spades being adjustable against each other and being
driveable into an open position in which said at least two spades
are spaced apart from each other by at least a diameter of a tree
trunk or bush; b) at least two cutting blades wherein at least one
of said at least two cutting blades is disposed on each of said at
least two spades, wherein each of said at least two cutting blades
has a ground surface wherein said ground surfaces are disposed
either on an inside edge surface of said at least two spades or on
an outside edge surface of said at least two spades; and c) at
least one servo drive connected to said at least two spades for
driving said at least two spades together or apart wherein said at
least two spades are designed to substantially compliment each
other when said at least two spades are driven together.
24. The device as in claim 23, wherein said spacing of said cutting
blade elevations is 30 mm.
25. The device as in claim 24, further comprising at least two
separate edges each of which having at least one of said cutting
blades, wherein at least one of said at least two separate edges is
coupled to each of said at least two spades and said at least two
separate edges have a greater hardness than that of said at least
two spades.
26. The device as in claim 24, wherein said separate edge is welded
to said face side of each of said at least two spades.
27. The device as in claim 24, further comprising a holding means
for connecting said separate edge to each of said at least two
spades.
28. The device as in claim 24, wherein said separate edge has a
surface that is formed in a step-like manner, and each of said at
least two spades have a surface that is shaped complimentary to
said surface on said separate edge.
29. The device as in claim 24 wherein said separate edge is formed
so that a plurality of said separate edges can be coupled to each
of said at least two spades.
Description
BACKGROUND OF THE INVENTION
[0001] 1. Field of the Invention
[0002] The invention relates to a device for transplanting trees or
bushes. The device contains a series of digging spades having
corrugated edges.
[0003] 2. Prior Art
[0004] A device for transplanting trees is known from German Patent
31 09 727 A1 that comprises two digging spades in the shape of one
quarter sphere. These digging spades can be displaced and pivoted
against each other, whereby they complement one another in a closed
position, forming a semispherical cup. The edge surfaces of these
digging spades, are directed downwards in an open starting
position. These edges have a zigzag shape, so that these digging
spades have a row of teeth. These teeth have ground surfaces whose
outer edges are shaped into cutting blades. The cutting blades help
the digging spades penetrate into the ground especially when
severing the roots of the tree to be transplanted. While this
device has been successfully used in practical applications, it was
found that there is a need for further improvements. In particular,
it was found that the teeth may break off if they are pressed
against stones embedded in the soil.
[0005] A single-ball undercutting and lifting device is known from
German Patent 39 43 053 A1. This device is substantially formed by
two slim blades, which are pivotally-mounted, and swing about a
common axle. These cutting blades have ground or finished surfaces
shaped in a sinusoidal manner.
[0006] A device for digging out plants is known from German Patent
30 08 009 A1. This device has spades with cutting blades that are
smooth in front. These spades can be pivoted against each other and
partially overlap one another in a closed position. The smooth
cutting blades are exposed to the risk of becoming blunt and
getting bent by the stones embedded in the soil.
SUMMARY OF THE INVENTION
[0007] Therefore, the invention provides a device capable of
cutting through the roots when a tree or shrub is lifted out, while
the design of this device requires fewer repairs.
[0008] The device of the invention has two spades that can be
adjusted against each other for digging and transplanting trees or
bushes. These open spades are spaced apart from each other by at
least the diameter of a tree trunk. Thus these spades can be moved
past the trunk of the tree into a position where they embrace the
tree or bush to be transplanted. The spades have cutting blades
that are directed downwards when opened. Furthermore, these spades
are actively connected with a servo-drive, or hydraulic drive,
which adjusts and swivels the spades in relation to each other.
[0009] In this adjustment process, the spades are first set so that
the cutting blades complement each other to form a substantially
circular shape embracing the tree or bush to be transplanted on all
sides.
[0010] The spades are pivoted in relation to each other about an
axis approximately extending through a common center point, so that
they penetrate the soil surrounding the tree to be transplanted.
Two or more spades can be used, however, the individual spades
should substantially complement each other in a closed position to
form a semi-spherical cup. Because of the special form of the
spades, their surfaces always extend in the zone of the cut
produced by the cutting blades. This design assures that the spades
can be driven through the soil with relatively little use of
force.
[0011] However, often when trees or bushes are transplanted, the
spades are pressed against rocks embedded in the soil. To reduce
the damage to the spades caused by rocks, the cutting blades have
edges that are ground in a corrugated manner. The corrugated edges
have alternating elevations and concave recesses, so that the
cutting blade, as viewed in the cross section, has acute angles.
With this design the cutting blade has sufficient stability when
the soil is penetrated because of the elevations. These edges could
also have a chamfer or rounding without impairing the function of
the corrugated ground edges. These corrugated ground edges of the
cutting blade are only corrugated to a minor extent.
[0012] Thus, while cutting blades are normally susceptible to
fracture, the projecting sections are disposed in an area of
material thickenings to reduce the rate of fracture. The cutting
blade can consequently be highly stressed, while the soil
nonetheless exerts only minor resistance to the blade. Therefore,
this spade is far tougher than previous designs and provides an
easy penetration of the soil.
[0013] In another embodiment of the invention, the spades have
cutting blades disposed on either side. When only two spades are
used, the cutting blade is disposed on the inside of one of the
spades, and on the outside of the other spade. However, if the
number of spades is increased, it is necessary to provide
approximately half of these spades with cutting blades located on
the inside face, and the other half with cutting blades located on
the outside face. The transition between two cutting blades is
disposed on the lower points of the spades. In the closed position,
the ground surfaces of the cutting blades partially overlap one
another so that the ground surfaces of the spades come to rest
against each other. Thus the cutting blades can correctly sever the
thicker roots such as the tap root of the tree to be replaced,
especially when these roots are located in where the cutting blades
meet in their closed position.
[0014] To further reduce the risk of breaking the cutting blade,
the elevations of the corrugated, ground edging should be capped on
their end sides. This will further reduce the waviness of the
contour of the cutting blade, so that the protruding parts of the
ground surface are formed substantially parallel with the contour
of the cutting blade. The contour of the cutting blade has no
projecting corners exposed to any increased risk of fracture. The
blade contour, formed by the counter edges, is thus acutely angular
as viewed in the direction of movement of the spades, so that the
thicker roots can be easily severed.
[0015] Furthermore, the elevations of the cutting blades should be
offset in relation to each other. In this way, the elevations of
one cutting blade engage the recesses of the opposite cutting
blade, so that the blades will not mutually obstruct each other.
The two cutting blades can be extensively overlapped when the
spades are in the closed position, so that downward extending roots
of the tree can be reliably severed.
[0016] If the spacing between the elevations of the corrugated,
ground edges of the cutting blades is too large in relation to the
thickness of the spade, the cutting blade will no longer have the
required stability within the zone of the recesses. Thus, this
blade may be damaged by rocks embedded in the soil. However, if the
spacing between the elevations is too small, these elevations will
offer excessive resistance to the soil as the spade penetrates the
soil. With a spade thickness of about 10 mm, a spacing of between
15 and 60 mm between the elevations was found to be successful,
whereby a spacing of about 30 mm is preferred.
[0017] In one embodiment, the cutting blade basically could be
joined with the spade as one single piece. However, in a second
embodiment, the cutting blade should have a separate edge that is
retained on the spade. This separate edge has a greater hardness
than the spade, so that the blade has a particularly long life.
This spade also has sufficient elasticity, so that it is capable of
giving way to any rocks embedded in the soil, without excessively
stressing the cutting blade. To fix the separate edge on the spade,
the spades and the separate edge should be welded to each other.
Thus, the joint between the separate edge and the spade can be
highly stressed, with no fastening means projecting beyond the
spade on the inner or outer sides. This protruding fastening means
would have the drawback of exerting additional resistance to the
spade as the spade penetrates the soil, and consequently would be
subjected to increased stress as well.
[0018] The separate edge could be placed on the face of the spade
in a butt-jointed manner. However, it is better if the surface of
the cutting blade is tapered in the form of steps, and the end of
the spade is shaped to conform to this stepped tapering. The
separate edge is preferably retained on the spade by means of a
tongue and groove profile capable of absorbing lateral forces. The
pressure forces exerted on the separate edge are directly absorbed
by the face of the spade, so that there is no need for an
additional holding means. These holding means therefore could be
used in a weaker form and thus in a space-saving manner, so that no
components protrude beyond the spade. For example, the separate
edge could be retained on the spade by spot-welded points or
countersunk screws.
[0019] If the separate edge is joined with the spade by detachable
holding means, the replacement of these separate edges is
simplified when the cutting blade shows too much wear. Countersunk
screws that do not project beyond the spade are preferably used as
a holding means.
[0020] Finally, in another improvement of the invention a plurality
of parts is provided with cutting blades and are retained on the
spade, so that only the segment that was damaged during use need be
replaced. This reduces the costs for maintaining the device.
BRIEF DESCRIPTION OF THE DRAWINGS
[0021] Other objects and features of the present invention will
become apparent from the following detailed description considered
in connection with the accompanying drawing. It is to be
understood, however, that the drawing is designed as an
illustration only and not as a definition of the limits of the
invention.
[0022] In the drawing wherein similar reference characters denote
similar elements throughout the several views:
[0023] FIG. 1 shows a front view of a device for transplanting
trees or bushes;
[0024] FIG. 2 is a spatial view of an alternative embodiment of the
cutting blade of the device according to FIG. 1;
[0025] FIG. 3 is a cross-sectional view showing a section through a
spade of the device according to FIG. 1 taken along line III-III of
FIG. 1 of the cutting blade of FIG. 2; and
[0026] FIG. 4 is a cross-sectional view of another alternative
embodiment.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
[0027] Referring in detail to the drawings, FIG. 1 shows a device 1
for transplanting trees or bushes 2 having a frame 3. A guide 4 is
retained in frame 3, and two sliding carriages 5 are displaceably
retained on guide 4, sliding along guide 4. Sliding carriages 5 are
displaceable by means of servo-drives 6 in the form of hydraulic
cylinders. These hydraulic cylinders 6 are supported on a central
holding means 7 of frame 3, and are controlled so that the two
sliding carriages can be driven toward or away from each other.
[0028] A support tube 8 is retained on each of the sliding
carriages 5, and an angle 9 is connected with support tube 8 with
torsional strength. A spade 11 is articulated on end 10 of spade 11
opposing support tube 8. Spade 11 has the shape of a partial
spherical cup, whereby spade 11 embraces about one eighth of a full
spherical cup. To swivel spade 11 about a swivel bearing 12 of
angle 9, spade 11 is engaged by a servo-drive 13 that is supported
pivotally on sliding carriage 5. Servo-drive 13 is shaped in the
form of a hydraulic cylinder.
[0029] A separate edge 15 is retained on free end 14 of spade 11.
This free end is directed downwards in the free position shown in
FIG. 1, and has a cutting blade 16. Separate edge 15 is joined with
spade 11 by welding and has a greater hardness than spade 11. Spade
11 shown on the left side in FIG. 1, has a cutting blade 16 on its
inner side, and spade 11 shown on the right has cutting blade 16
shown on its outer side.
[0030] Cutting blade 16 has recesses 20, which are rounded in a
concave form, and wherein elevations 21 are located between
recesses 20. Recess 20 has a concave, cylindrical limiting surface
22, whereby elevations 21 have straight edges 23. This special
embodiment of cutting blade 16 which is in the form of a corrugated
ground edging, causes spade 11 to have low resistance in soil 17
and high stability when cutting trees.
[0031] The method for transplanting trees 2 or bushes with the help
of device 1 according to FIG. 1 is explained in the following.
First, the sliding carriages 5 and the spades 11 are driven with
the help of servo-drives 6, and 13 into the open position shown in
FIG. 1, whereby spades 11 are removed from each other by a spacing
"a". This spacing at least corresponds with the diameter "D" of the
trunk of tree or bush 2. Subsequently, device 1, which is
preferably mounted on an excavator, a loader or a bobcat, is
maneuvered so that tree or bush 2, is located in the center between
spades 11. This situation is shown in FIG. 1.
[0032] Thereafter, spades 11 are now displaced against each other
by actuating servo-drives 6 until the spacing "a" approaches zero.
In this position, cutting blades 16 of spades 11 complement each
other to form a substantially closed circle, with tree or bush 2
being located in the center of this circle. By actuating the
hydraulics of the excavator, device 1 is now lowered to an extent
such that spades 11 penetrate soil 17 by about 10 cm. This
penetration is facilitated by designing free ends 14 of spades 11
in the form of cutting blades 16, so that the excavator only has to
exert a relatively low force of pressure on device 1. This is
particularly important in cases in which spades 11 have to sever
roots of tree 2.
[0033] Spades 11 are now pivoted about swivel bearings 12 by
actuating servo-drives 13. Cutting blades 16 of spades 11 will now
penetrate the soil deeper and produce a substantially
semi-spherically shaped cut 18. Spades 11 have a partly spherical
shape, whereby their spherical center point is located on the pivot
axis of swivel bearing 12. This assures that the spade will follow
a section line 18 created by cutting blades 16 in soil 17 as it is
performing its pivoting motion. Spades 11 therefore do not exert
any lateral pressure or tensile forces on soil 17, which helps
spades 11 penetrate into soil 17.
[0034] When spades 11 are in their final position, cutting blades
16 partially overlap one another, to sever the roots of tree or
bush 2. When spades 11 are in their final position, tree or bush 2
is completely detached from soil 17, and it can then be removed by
lifting device 1 by means of the excavator together with the
surrounding, approximately semi-spherically shaped root bale.
[0035] Thereafter, tree or bush 2, is transported with device 1 to
a location where it is to be planted, where a corresponding
planting pit has already been dug. Spades 11 are lowered into this
planting pit by lowering device 1, whereupon spades 11 are pivoted
away from each other by actuating servo-drives 13. Device 1 is
subsequently lifted by the excavator, and sliding carriages 5 are
driven apart by actuating servo-drives 6, so that spades 11 can be
pulled away on both sides of tree or bush 2. This completes the
transplanting of tree or bush 2.
[0036] FIG. 2 shows a spatial representation of an alternative
embodiment of separate edge 15 with cutting blade 16. Separate edge
15 is made of hardened steel, which extends the useful life of
cutting blade 16.
[0037] Separate edge 15 consists of an elongated strip with a
substantially trapezoidal cross section, whereby only a small
cutout of this strip is shown in FIG. 2. Separate edge 15 is bent
in the form of a circle with the radius of spade 11 for adapting it
to spade 11 (not shown in FIG. 2). Spade 11 has concave-shaped,
rounded recesses 20 on a slanted side of the trapezoidal cross
section of separate edge 15 and elevations 21 are located between
these recesses. Recess 20 has a concave conical limiting surface 22
whose inner radius "R" is greater than the outer radius "r" on the
side of the cutting blade. Elevations 21 each contain curved edges
23. Because cutting blade 16 is in the form of a special
corrugated, ground edging, even less resistance is encountered by
spade 11 in soil 17 as compared to the embodiment according to FIG.
1. In addition, elevations 21 provide sufficient stability for
cutting blade 16.
[0038] FIG. 3 shows a view of a section through spade 11 with
separate edge 15. Both elements are joined with each other by
welding seams 24, whereby welding seams 24 terminate substantially
flush to inner surface 25 and outer surface 26 of spade 11. This
prevents welding seams 24 from exerting increased resistance on
spade 11 as it is penetrating soil 17.
[0039] Furthermore, separate edge 15 of opposite spade 11 is
indicated in FIG. 3 by a dashed line, whereby spades 11 are located
in their closed position. Cutting blades 16 may partially overlap
each other, both on the outer and inner side of spades 11. To
assure as much overlapping of cutting blades 16 as possible,
elevations 21 of cutting blades 16 are offset with respect to each
other, so that elevation 21 of one spade 11 approximately engages
recess 20 of the other spade 11.
[0040] Finally, FIG. 4 shows another alternative way of fastening
separate edge 15 on spade 11. The abutting surfaces 30, and 31 of
separate edge 15 and spade 11 are designed in a step-like manner,
whereby those abutting surfaces 30 and 31 have a tongue and groove
profile 32. This tongue and groove profile 32 provides sufficient
support for separate edge 15 on spade 11 against lateral forces, so
that the holding means for securing separate edge 15 only needs to
satisfy relatively low requirements. In particular, this holding
means has to be capable of withstanding only low tensile forces. In
this embodiment of FIG. 4, a countersunk screw is used as holding
means 33, so that the connection between spade 11 and separate edge
15 defines a detachable joint. Thus, any damaged screws 16 can be
easily replaced, so that the device is reusable after only a short
repair time.
[0041] As opposed to FIG. 3, cutting blade 16 according to FIG. 4
has a series of recesses 20, which have cylindrical limiting
surfaces 22. These surfaces create straight edges inside straight
edges 23 which are set at the same angle as recesses 20.
[0042] Accordingly, while only a few embodiments of the present
invention have been shown and described, it is obvious that many
changes and modifications may be made thereunto without departing
from the spirit and scope of the invention.
* * * * *