Shear type tree cutting device
An elongated frame including tree clamping jaw means at one end and a shear-type cutting blade supported from the frame for movement therealong between an inactive position remote from the jaw means and an active position cooperable with the jaw means to shear a tree member clampingly engaged by the jaw means, the frame being pivotally supported from the forward end of a mobile platform for pivotal movement about a horizontal axis extending transversely of the frame and the mobile platform and vertically adjustable relative to the latter.
This invention relates to a novel and useful shear-type tree cutting device and to a device which may be readily attached to various types of mobile vehicles and which may be constructed of substantially any size desired so as to be capable of felling trees of various sizes.
The cutting device of the instant invention includes an elongated guide structure or frame having tree trunk or limb clamping means at one end adapted to clampingly engage an upright portion of a tree when the frame is horizontally disposed and the frame has shear-type cutting blade means supported therefrom for longitudinal reciprocation between an inactive position remote from the jaw means and an active position cooperable with the jaw means to shear the trunk of a tree clampingly engaged by the jaw means. The guide member or frame is pivotally supported from any suitable mobile vehicle for rotation about a horizontal axis extending transversely of the direction of movement of the vehicle and also transversely of the elongated frame, the axis of rotation about which the frame may be angularly displaced also being vertically adjustable relative to the associated mobile vehicle. In this manner, the cutting device of the instant invention may not only be utilized to fell upright trees but to also cut the trunk portions of felled trees as well as the larger limb portions thereof. Still further, the cutting device of the instant invention also includes a pushing member supported from the associated mobile vehicle in a manner so as to engage a tree which is to be felled appreciably above the shear-type cutting blade and the pushing member is supported from the associated vehicle in a manner so as to be shiftable in a direction generally paralleling the reciprocal movement of the shear-type cutting blade whereby the pusher or pushing member may be utilized to push the upper portion of a tree away from the associated vehicle while the lower portion of the trunk of the tree is being sheared by the shear-type cutting blade.
The main object of this invention is to provide a tree cutting device operable to quickly fell trees of a given size.
Another object of this invention, in accordance with the immediately preceding object, is to provide a tree cutting device which will also be operable to quickly cut the trunk portion of a felled tree at a plurality of points spaced longitudinally therealong.
Yet another object of this invention is to provide a tree cutting device which may be readily supported from any suitable mobile vehicle such as a farm tractor or the like.
A further object of this invention is to provide a tree cutting device adapted for support from a conventional farm tractor or the like and which will be operative to fell trees and then cut the trunk portions thereof in short sections without requiring an operator other than the operator of the farm tractor.
A final object of this invention to be specifically enumerated herein is to provide a shear-type tree cutting device in accordance with the preceding objects which will conform to conventional forms of manufacture, be of simple construction and easy to use so as to provide a device that will be economically feasible, long lasting and relatively trouble-free in operation.
These together with other objects and advantages which will become subsequently apparent reside in the details of construction and operation as more fully hereinafter described and claimed, reference being had to the accompanying drawings forming a part hereof, wherein like numerals refer to like parts throughout, and in which:
FIG. 1 is a fragmentary side elevational view of the front portion of a conventional farm tractor or the like upon which the tree cutting device of the instant invention is operatively mounted and illustrating the tree cutting device in position to fell a tree;
FIG. 2 is a fragmentary side elevational view similar to that of FIG. 1 but with the tree cutting device of the instant invention illustrated in position to cut the trunk portion of the felled tree into short sections;
FIG. 3 is a vertical transverse sectional view taken substantially upon the plane indicated by the section line 3--3 of FIG. 2;
FIG. 4 is a fragmentary top plan view of the elongated frame portion of the tree cutting device which supports tree trunk clamping means at one end and includes a longitudinally reciprocal shear-type cutting member, portions of the supporting structure for the frame being illustrated in horizontal section and the jaws of the clamp means being illustrated in their open positions to receive a tree trunk therebetween;
FIG. 5 is a view similar to FIG. 4 but illustrating the jaw members of the clamp means in closed position about a tree trunk which is being cut by the reciprocal cutting blade of the device; and
FIG. 6 is fragmentary transverse vertical sectional view taken substantially upon the plane indicated by the section line 6--6 of FIG. 4.
Referring now more specifically to the drawings in the numeral 10 generally designates any suitable form of mobile vehicle such as a farm tractor including a main frame 12 and an operator's position 14 adjacent the steering wheel 16 of the tractor 10. The tractor 10 includes dirigible front wheels 18 controlled by the steering wheel 16 and rear driving wheels (not shown). Further, the tractor 10 also includes an engine 20 suitably drivingly connected to the rear wheels in any convenient manner and which is operable to drive a hydraulic pump of a fluid pressure system (not shown).
The shear-type tree cutting device of the instant invention is generally designated by the reference numeral 22 and includes a forwardly and upwardly projecting support frame generally referred to by the reference numeral 24. The frame 24 includes a pair of similar opposite side skeleton frame members 26 suitably secured to corresponding side portions of the frame 12 at their lower ends in any convenient manner such as by fasteners 28. The forward upper ends of the frame members 26 are suitably rigidly interconnected in any convenient manner including an elevated sleeve-type guide 30. An elongated pushing arm 32 is longitudinally slidably received through the tubular guide 30 and has the free end of the piston rod portion 34 of a hydraulic cylinder 36 secured thereto as at 38. The cylinder portion 40 of the hydraulic cylinder 36 is pivotally supported from a standard assembly generally referred to by the reference numeral 42 carried by the support frame 24 as at 44. Accordingly, upon extension and retraction of the hydraulic cylinder 36 the pushing arm 34 will be reciprocated through the tubular guide 30, the forward end of the pushing arm 32 including a horizontally disposed and transversely extending crosshead 46 for engagement with an upper portion 48 of the trunk portion 50 of a tree generally referred to by the reference numeral 52 which is to be felled by the cutting device 22.
A vertically swingable arm assembly referred to in general by the reference numeral 54 includes a pair of arm members 56 having corresponding ends pivotally secured to opposite side portions of the frame 12 as at 58. The forward ends of the arm members 56 project forwardly of the front end of the frame 12 and rotatably journal therethrough a pair of opposite side oppositely and outwardly projecting stub axle portions 60 carried by an elongated frame referred to in general by the reference numeral 62. Accordingly, the frame 62 is oscillatable about the axis defined by the coaxial stub axle portions 60.
Each of the arm members 56 includes a depending portion or leg 64 intermediate its opposite ends which terminates downwardly in an inturned abutment flange 66 engageable by the undersurface portions of the rear end of the frame 62 when the latter is positioned as illustrated in FIGS. 1, 4, 5 and 6 of the drawings. Further, one of the legs 64 has an aperture 68 formed therethrough through which a locking pin 70 carried by the armature 71 of an electric solenoid 72 supported from the one leg 64 is removably received, the locking pin 70 overlying the adjacent portion of the frame 62 when in position as illustrated in FIGS. 1 and 4-6 of the drawings to retain the frame 62 in a substantially horizontally disposed position.
The frame 62 includes a pair of tubular opposite side members 76 rigidly interconnected at their rear ends by means of a heavy transverse member 78 and the confronting sides of the forward ends of the opposite side members 76 include pairs of vertically spaced ribs 80 defining opposing generally parallel channels in which the reduced thickness portions 82 extending along opposite side portions of a shear-type cutting blade 84 are slidably received.
The forward end portions of the outer side walls of the tubular members 76 are cut away and a pair of arcuate jaw members 86 slotted as at 88 are pivotally secured between the forward end extremities of the upper and lower wall portions of the forward ends of the opposire side members 76 as at 90. Each of the jaw members 86 includes an outwardly projecting arm portion 92 having the free end of the piston rod portion 94 of a hydraulic cylinder 96 pivotally secured thereto as at 98, the end of the cylinder portion 100 of each fluid motor 96 remote from the piston rod portion 94 thereof being pivotally secured to the corresponding frame members 76 as at 102. Further, a very powerful hydraulic motor 104 has the free end of its piston rod portion 106 pivotally secured to the rear end of the shear-type cutting blade 84 as at 108 and the end of its cylinder portion 110 remote from the piston rod portion 106 pivotally secured to the transverse brace member 78 as at 112.
A fifth hydraulic cylinder 114 has the base end of its cylinder portion 116 pivotally supported from a cross brace 118 extending between the frame members 26 intermediate their opposite ends as at 120 and the free end of the piston rod portion 122 of the hydraulic cylinder 114 carries a sheave assembly referred to in general by the reference numeral 124 and including a plurality of rotatable pulley wheels 126. A second sheave assembly generally referred to by the reference numeral 128 and including a plurality of rotatable pulley wheels 130 is carried by the upper end of the support frame 24 adjacent the tubular guide 30 and a third sheave assembly 132 including a single rotatable pulley wheel 134 is carried by the forward end of the pushing arm 132.
An elongated flexible tension and pulling member 136 which may conveniently take the form of a cable has one end secured to the bight portion 138 of a bridle assembly 140 as at 144 and the bridle assembly 140 is secured to opposite side portions of the frame 62 as at 146. The other end of the tension and pulling member 136 is trained over the single pulley wheel 134, over one of the wheels 130 and then down under one of the wheels 126 before passing upwardly again and over a second of the wheels 130 and then being secured to the sheave assembly 124. Accordingly, retraction of the piston rod portion 122 of the hydraulic cylinder 114 will raise the rear end of the frame 62 and thus also raise the forward end of the arm assembly 54 if the pin 70 is in position. In this manner, the jaws or jaw members 86 may be raised in elevation relative to the trunk portion 50. Thereafter, the tractor 10 may be advanced toward the trunk portion 50 and the double-acting hydraulic cylinders 96 may be extended to cause the jaw members 86 to encircle and close behind the trunk portion 50. Then, the double-acting hydraulic cylinder 104 may be extended to urge the shear-type cutting blade 84 forwardly along the frame 62 so as to force its forward edge into shear cutting engagement with the trunk portion 50, through the latter and into the slots 88. At the same time, the double-acting hydraulic cylinder 36 may be extended so as to engage the crosshead 46 with the upper portion 48 of the trunk portion 50 and push the top portion of the tree 52 away from the tractor 10. After the trunk portion 50 has been cut by the blade member 84 and felled so as to be disposed upon the ground in a horizontal position such as that illustrated in FIG. 2 of the drawings, the tension on the pulling member 136 may be relaxed and the pin 70 may be withdrawn. Thereafter, the hydraulic cylinder 114 may be retracted so as to swing the frame 62 relative to the arm assembly 54 and to also cause the forward end of the arm assembly 54 to be swung upwardly. In this manner, the frame 62 and the arm assembly 54 may be swung from the positions thereof illustrated in FIG. 1 of the drawings to the position thereof illustrated in FIG. 2 of the drawings whereupon the tractor 10 may be advanced along the horizontally disposed trunk portion 50 and the hydraulic cylinder 114 may be intermittently extended so as to lower the frame 62 into position in which the jaw members 86 may be closed underneath the trunk portion 50. Thereafter, the hydraulic cylinder 104 may again be extended to cause the blade member 84 to cut the trunk portion 50 into short sections thereof by shearing action. Of course, the five hydraulic cylinders or fluid motors 36, 96, 96, 104 and 114 are each of the double-acting type and may be operatively connected to the aforementioned fluid pressure system (not shown) by any suitable manually actuatable control valves (not shown) disposed adjacent the operator's position 14.
The foregoing is considered as illustrative only of the principles of the invention. Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described, and accordingly all suitable modifications and equivalents may be resorted to, falling within the scope of the invention.
Claims
| 2612194 | September 1952 | Ingraham |
| 2748813 | June 1956 | Ford |
| 2876816 | March 1959 | Busch |
| 2882941 | April 1959 | Pope |
| 3074446 | January 1963 | Earl |
| 3102563 | September 1963 | Horncastle |
| 3183953 | May 1965 | MacMillan et al. |
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| 163836 | October 1964 | SUX |
- Mechanizing Timber Thinning, in Traktor Journalen, NR 5, Apr. 20, 1966, pp. 372-373 (Sweden). Will the Garp-Fist Solve the Problem of Thinning Within the Mechanized Forestry? in Skogsa/ garen NR May 5, 1966, p. 155, (Sweden). "Garpenbergs-Fist" New Tool to Forestry, In Falv-Kuriren, Mar. 24, 1966, pp. 8, 9 & 11, (Sweden). Science Fiction in Dala Forest, "The Fist" Like a Monster, In Dala-Demokraten, Mar. 24, 1966, (Sweden). Forest Robot at Garpenberg, A World Novelty, "The Garp-Fist", A New Grip on Thinning, In Avesta-Thinning, Mar. 24, 1966, (Sweden).
Type: Grant
Filed: Oct 1, 1979
Date of Patent: Jan 3, 1984
Inventor: Joseph S. Choat (Odenville, AL)
Primary Examiner: W. D. Bray
Application Number: 6/80,307
International Classification: A01G 2308;
