Brush uprooting attachment

An attachment for a front lift of a farm tractor comprises an elongated tool bar extending forward and supporting at its far end a large claw having three spaced downwardly curved, sharpened tines. The end of the tool bar nearest the lift is welded both directly and through braces to the front side of a rectangular hitch-and-tool-supporting frame, and drilled plates welded to the back side have properly spaced holes for coupling to the front lift.

BACKGROUND OF THE INVENTION 
This invention relates to brush clearing equipment and particularly to 
equipment to be attached to a front power lift of a tractor for pulling 
brush such as multiflora rose. 
Undesired multiflora rose and other brush often spread quite rapidly over 
farm land and particularly over pastures. To clear the land for restoring 
it for its intended use, various implements have been proposed for 
attachment to the front of a tractor. Some of these proposed implements 
have cutting blades to be either reciprocated or rotated, their operation 
requiring much power from the tractor. Another has fixed transverse blades 
between forward extending tines on which brush can be carried. 
SUMMARY OF THE INVENTION 
A preferred attachment of the present invention has three tines spaced and 
curved like a great claw. The claw is forced down into the center of brush 
that is to be eradicated and is also pulled horizontally to be drawn into 
the ground among the roots of the brush. The brush is then uprooted as the 
claw continues to be drawn and gradually raised out of the ground. 
Regrowth of the brush is either eliminated or greatly retarded; the roots 
are mostly removed to prevent rapid regrowth that occurs where brush is 
merely cut. 
The claw is fastened to the distal end of an elongated tool bar, and the 
proximal end of the bar is rigidly secured to a frame for connection to a 
front power lift of a farm tractor. The claw when in use is positioned by 
the tool bar at a sufficient distance in front of the tractor to 
facilitate forcing the claw within brush to be pulled and then is lowered 
to mesh with the roots of the brush. The tractor is run slowly for a short 
distance in a reverse direction to draw the claw among or behind the roots 
while the lift forces the claw downward, and then the lift is gradually 
raised to facilitate raising the roots from the ground as the tractor is 
operated in a reverse direction.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
In FIG. 1, a hitch-and-tool-supporting frame 11 is shown connected to a 
farm tractor 13 by usual front lift 12 of the type used with bulldozers. 
An elongated tool bar 14 extends from a center of the lower portion of the 
hitch-and-tool-supporting frame 11 to extend straight forward from the 
tractor 13 on a central longitudinal line. A tool that is herein called a 
claw 15 is connected to the front end of the tool bar 14 for meshing with 
the roots of brush to be uprooted. 
With reference to FIG. 2, the hitch-and-tool-supporting frame 11 may be 
fabricated from a 48-inch (1.2 m) length of 4-inch (101-mm) by 14-inch 
(355.6-mm) I-beam. The parallel flanges of the beam function as respective 
top 16 and bottom 17 of the frame 11, and a plate may be welded to each 
end of the beam for respective sides 18 and 19. The I-beam functions as a 
blade for pushing uprooted bushes out of the way and into piles. Should 
individual plates be used for the sides of the frame 11, a vertical plate 
positioned within the frame 11 would be desirable. A 7-foot (2.1-m) length 
of 3-inch (76.2-mm) by 3-inch (76.2-mm) box steel tubing is conveniently 
used for the tool bar 14. A rear end of the beam for the tool bar 14 is 
welded inside the central portion of the lower flange of the 
hitch-and-tool-supporting frame 11 perpendicular to the frame. When the 
hitch-and-tool-supporting frame 11 is hitched to the front lift 12, the 
tool bar extends forward. Braces for holding the tool bar 14 firmly to the 
frame 11 include lower pieces of a rectangular tubing 20 and 21, each 
having an end welded to the tool bar 14 at a point spaced from the frame 
11 and the other end welded to a respective lower corner of the frame 11, 
and upper pieces of rectangular tubing 22 and 23, each having an end 
welded to the tool bar 14 and the other end welded to the upper part of 
the frame 11 at points spaced from respective upper corners of the frame 
11. 
Four separate, rectangular plates are supplied for making the two pairs of 
connecting plates 24-25 and 26-27 for a particular lift 12 of the user's 
tractor 13. A user drills a pair of holes in each plate, as required for 
coupling pins, and welds the plates vertically between the upper and lower 
flanges of the hitch-and-tool-supporting frame 11 at spacings required for 
the particular lift 12. 
Preferably, the claw 15 has three tines 28-30 spaced apart horizontally and 
diverging slightly. A proximal end of each of the tines 28-30 is either 
welded directly to the lower surface of the tool bar 14 at a point spaced 
a short distance from the front end of the tool bar or is preferably 
welded to a separate piece of rectangular steel tubing 31 functioning as a 
socket of a coupling to be slid over a smaller piece of tubing 32 welded 
to the front end of the main portion of the tool bar 14. Mating holes are 
drilled through the coupling portions 31 and 32 for receiving a connecting 
bolt 33 in a usual manner. Each of the tines 28-30 extend through a 
respective opening in a plate 34 welded across the front end of the tool 
bar 14 or the end of the socket 31 when it is used. The middle tine 29 of 
the claw 15 extends longitudinally with respect to the tool bar 14, and 
the outer tines 28 and 30 spread out at moderate angles with respect to 
the center tine 29 for making a claw suitable for meshing with roots of 
brush. Each of the tines 28-30 extend from the plate 34 forward about 16 
inches (406 mm) to the front surface of a downwardly curved portion. The 
least inside radius of each of the tines is about 3 inches (76.2 mm), and 
the tines are curved to such an extent that sharpened lower portions 
extend slightly rearward and downward. Suitable material for the tines is 
1-inch (25.4 mm) round hot-rolled carbon spring steel.