US3861475A - Combined leveling and compacting earth working machine - Google Patents

Combined leveling and compacting earth working machine Download PDF

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US3861475A
US3861475A US393917A US39391773A US3861475A US 3861475 A US3861475 A US 3861475A US 393917 A US393917 A US 393917A US 39391773 A US39391773 A US 39391773A US 3861475 A US3861475 A US 3861475A
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auger
chassis
mold board
invention defined
implement
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Witold Kuncewicz
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    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02FDREDGING; SOIL-SHIFTING
    • E02F3/00Dredgers; Soil-shifting machines
    • E02F3/04Dredgers; Soil-shifting machines mechanically-driven
    • E02F3/76Graders, bulldozers, or the like with scraper plates or ploughshare-like elements; Levelling scarifying devices
    • E02F3/78Graders, bulldozers, or the like with scraper plates or ploughshare-like elements; Levelling scarifying devices with rotating digging elements
    • E02F3/783Graders, bulldozers, or the like with scraper plates or ploughshare-like elements; Levelling scarifying devices with rotating digging elements having a horizontal axis of rotation

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  • An earth leveling implement employs a transverse horizontal auger type excavator backed up by a vertically 172/71 i d i j g adjustable mold board mounted on the front of a vehi- Fie'ld 170 C16 for controlled vertical positioning and tilting; a "180/20f94/g9 2 2 ditcher can be attached at one side of the grader, and the vehicle can include a compactor to enable a single operator to perform the earth grading and compacting [56] g g z t jzf operations in a single operation.
  • This invention relates to earth working equipment, and more particularly to machinery capable of oneman operation which can excavate and level, or grade an expanse of ground either in its natural state, or after preliminary grading has been done, while practically simultaneously performing the additional operation of compacting the soil to form a solid base for later treatment.
  • the present invention is also useful in the construction of level surfaces intended for extensive use by heavy vehicles such as express highways, parking lots and aircraft runways, where the soil is leveled off below grade and filled with crushed stone to provide a base for a surface layer of material such as asphalt, or concrete.
  • authorities such as the National Crushed Stone Association, indicate in their published construction guidelines that compaction of the crushed stone base for street pavements should be started immediately upon completion of the grading of the stone.
  • the applicants apparatus eliminates the necessity for both the spreader and the grader.
  • the crushed stone can be deposited from the rear of a moving dump truck after which the present apparatus can be employed to distribute the stone in a level layer and then compact it with a roller (which may be static or vibratory) all in one operation and under the immediate control of a single worker.
  • a horizontal auger type rotary device having a continuous helical surface, which is mounted transversely to the front of a moving vehicle so as to be visible to the vehicle driver.
  • This may be a truck, or tractor, whether rubberwheeled or cleated, and in the preferred embodiment comprises a compaction roller having traction wheels in addition to the roller.
  • the use of the described method for excavating and grading minimizes the power requirement of the prime mover as compared to the use of a conventional device such as a bulldozer or grader blade.
  • the operation of the helically surfaced element is assisted by the provision of an adjustable horizontal rearwardly positioned mold board which can be coordinated with operation of the rotary element to level off high spots, fill in low areas and deposit any excess at either side or underneath of the moving vehicle in the form of a berm.
  • another helically surfaced horizontal rotary element can be mounted at one, or both sides, of the main element, and arranged for pivotal adjustment with respect to the main excavator, so as to enable a single operator to grade and compact a roadway and at the same time form a drainage ditch at one, or both, sides of the roadway.
  • the implement can be constructed so as to be completely self-contained for attachment to an existing ma chine, and is provided by hydraulically operated motors and actuator to enable the functions of the machine to be fully controlled by valves placed within reach of the vehicle operator.
  • FIG. I is a plan view of a preferred form of earth working machine constructed in accordance with the present invention.
  • FIG. 2 is a front view of the machine showing the helicoidal excavator and ditcher means, and;
  • FIG. 3 is a side elevation, on an enlarged scale, of a portion of the chassis means carrying the excavator means.
  • the machine comprises an overall chassis means, indicated generally by numeral 10, composed of a main frame means, indicated generally by numeral 11 and a grader leveler frame means, indicated generally by numeral 12.
  • the main frame means supports a prime mover, numeral 13, such as an internal combustion engine, a seat 14 for the vehicle operator mounted on an adjustable support such as a pedestal 15 which enables the opera tor to turn the seat about a vertical axis to maintain a clear view of the operation of the vehicle at all times.
  • the main frame means 11 is supported by a pair of ground engaging traction wheels 16 and a soil compacting roller means 17 mounted for rotation on the frame about a horizontal axis 18.
  • the roller means 17 may comprise a simple weighted roller, or may include power operated means to induce vibratory movement in the roller to increase the soil compacting effect.
  • the roller may consist of either one compactive drum or two compactive drums either static or vibratory or in combination. Such rollers are well known in the art and need not be described in detail.
  • Movement of the machine as a whole may be by con ventional by providing suitable power transmission devices (not shown) to connect the prime mover, or engine 13, with either, or both of the traction wheels 16, or the driving drum of a double drum roller, which can be controlled by the operator by means of conveniently arranged controls, such as a series of levers 19 mounted on a panel adjacent to a steering wheel 20, which actuates a steering mechanism (not shown) to regulate the direction of movement of the chassis.
  • suitable power transmission devices not shown to connect the prime mover, or engine 13, with either, or both of the traction wheels 16, or the driving drum of a double drum roller, which can be controlled by the operator by means of conveniently arranged controls, such as a series of levers 19 mounted on a panel adjacent to a steering wheel 20, which actuates a steering mechanism (not shown) to regulate the direction of movement of the chassis.
  • the main frame means 11 comprises a traction framework 21 and a roller framework 22 connected to each other by means of a heavy coupling means 23 which allows the respective frameworks 21 and 22 to turn with respect to each other about a vertical axis while restraining any relative movement about a transverse horizontal axis.
  • the coupling means also may include power operated devices (not shown) to control the angular orientation between the two frameworks and thus steer the machine by articulation of the chassis 10.
  • Such devices could include electrical, or hydraulic, motors, or hydraulic cylinder and piston actuators or other actuators of well known construction and capable of being supplied with electrical energy, or hydraulic fluid under pressure by suitable generators, or pumps, driven by the engine 13 and controlled by the steering wheel 20.
  • the excavator frame means 12 located at the end of the chassis opposite to that of compactor frame 22 includes a transverse mounting bracket 24 which enables the entire excavator means to be detachably connected to a transverse member 25 forming one end of the main frame 11, as by means of forwarding projecting lugs 26 and bolts 27.
  • the bracket 24, in turn, is connected to a sub-frame, indicated generally by numeral 28, by means of a coupling 29 which permits rotation of the entire sub-frame about a horizontal axis extending generally in the direction of movement of the traction wheels 16.
  • the sub-frame includes a transverse member 30, which is directly secured to the coupling 29, and is provided with a fair of brackets 31 at its outer ends to which the forwardly projecting rails 32 are connected by pivot pins 33 to allow the rails to swing about the member 30 in an are at right angles to the axis of the coupling 29 under the control of a pair of hydraulically operated cylinder-and-piston actuators 34 which are pivotally connected at one of their ends 35 to the forward ends of the rails and also pivotally connected at their outer ends 36 to the brackets 31 at points spaced below the pivots 33.
  • Power for these, and other hydraulically operated devices can be supplied by a fluid pump 37, which is secured to the bracket member 24 in a position so that it can be driven through shaft 38 and pulley 39 by means of a belt connected with a driving pulley 40 off the engine in the usual way.
  • a fluid pump 37 which is secured to the bracket member 24 in a position so that it can be driven through shaft 38 and pulley 39 by means of a belt connected with a driving pulley 40 off the engine in the usual way.
  • the couplings and fluid conduits leading between the pump, the valves, controlled by the control levers l9 and the various hydraulic devices are not shown in the drawings.
  • the pivotally mounted rails 32 support at their forward ends a transverse beam 41, at the extremities of which there are a pair of downwardly depending arms 42 which serve as supports for a horizontally disposed helicoidally surfaced earth leveling and conveying device 43 having a concentric shaft 44 the ends of which are mounted in bearings in the respective arms 42.
  • these arms may comprise hollow box members and the ends of the shaft 44 can extend into the interior thereof for driving connection with a pair of hydraulic motors 45 mounted at the upper ends of the arms.
  • motors can be supplied with motive fluid, under control of levers 19, from the pump 37 by means of suitable conduits (not shown) and the power transmitted from the motors 45 to the shaft 44 by means of a chain and sprocket drive 46, indicated by dotted lines in FIG. 3, for the purpose of rotating the excavator 43 in either direction and at variable speeds.
  • a chain and sprocket drive 46 for controlling the depth and disposition of earth removed by the helicoidal excavator there is a generally semi-cylindrical mold board device, indicated generally by numeral 47 positioned behind the excavator and having suitable brackets 48 at each end to mount the device on the ends of shaft 44 for limited reciprocatory movement about the axis thereof.
  • the mold board device is divided into two sections 47a and 47b along a vertical dividing line and the two adjacent edges of the sections 47a and 47b are provided with interlocking flanges at 49 to permit the two sections to be elevated or lowered independently of each other, or in unison, under control of the two cylinder and piston actuator 50a and 50b, pivotally connected between a respective section of mold board and one of the rails 32.
  • power can be supplied by pump 37 under control of levers 19, or by another pump which may form a part of the hydraulic system of the prime mover means.
  • the leveler frame means 12 may also include a subisdiary edger means, indicated generally by numeral 51, which can be used as an extension of the excavator 43 to form adjacent ditches, or to smooth off downwardly or upwardly inclined side embankments.
  • the edger means comprises a generally C-shaped frame 52, having depending arms 53 which rotatably support the shaft ends of a helicoidally shaped excavator 54 which is rotatably driven in either direction and at varying speeds by hydraulic motor 55, connected directly to the excavator 54 or connected to it by a chain and sprocket drive similar to that of the main excavator 43 and also controlled by levers 19.
  • the C-shaped frame is secured to one of the arms 42 by a pivotal mounting 56 which enables the excavator 54 to be angularly positioned with respect to the main excavator about an axis extending generally in the direction of movement of the traction wheels 16, as can be seen in FIG. 2.
  • the relative position of the C-shaped frame is controlled by the cylinder and piston actuator 57 which is pivotally attached at its opposite ends to the C-shaped frame and one of the arms 42.
  • the frame 52 can also support a small, generally semi-cylindrical mold board 58, placed behind the rotary excavator 54 and supported on the ends of the shaft thereof by means of brackets 58 to permit limited reciprocatory rotation about the axis of the shaft.
  • the mold board may be clamped in a fixed position, or can be adjusted to various positions from the operators position by inclusion of an actuator (not shown) similar to the actuator 50a and 50b for the main mold board device.
  • the entire excavator sub-frame means 28 may be tilted to a variety of positions by means of a reversible hydraulic motor 59 secured to a lower midpoint of the transverse mounting bracket 24.
  • the drive shaft of the motor is provided with a sprocket 60 which engages with a length of chain 61, the ends of which are secured to the underside of the transverse member 30 at locations 62 spaced on opposite sides of the coupling 29 (See FIG. 2).
  • chassis means having transversely disposed helically surfaced auger means mounted at the forward end thereof for initially excavating and transversely distributing surface material, transversely disposed mold board means mounted on the chassis means behind said auger means for controlling the depth and distribution of material excavated by said auger means, a pair of ground engaging traction wheels mounted on said chassis means rearwardly of said auger means, transversely disposed ground engaging roller means mounted at rearward portion of said chassis means substantially in alignment with and substantially equal in width as said mold board means for compacting material distributed by said mold board means, prime mover means mounted on said chassis means and means connecting the prime mover means with said traction wheels and said auger means for driving said traction wheels for movement in forward and reverse directions and for rotating said auger means and means on said chassis means for steering said implement, said chassis means also including means connected with the auger means for raising and lowering and tilting said auger means and mold board means with respect to the ground, said mold board means having a transverse lower edge and including means connected
  • chassis means is subdivided into two sections articulatedly joined together for relative movement about a vertical axis, said roller means being mounted on one of said sections, said wheels being mounted on the other of said sections.
  • roller means comprises vibratory roller means.
  • said implement also includes auxiliary surface grading means extending transversely outwardly beyond one of the ends of said auger means and pivotally mounted on said chassis means to be positioned in angular relationship to said auger means with respect to a vertical plane.
  • auxiliary surface grading means comprises an auxiliary transversely dipsosed auger means, and vertically adjustable auxiliary mold board means mounted behind said auxiliary auger means.
  • chassis means includes hydraulic actuator means for said raising and lowering of said auger means and mold board means.
  • chassis means also includes hydraulic actuator means for said tilting of said auger means and mold board means.
  • chassis means includes a station for an operator of said implement, said station including control means for a single operator to steer said implement, reversibly rotate said auger means, raise and lower and tilt said mold board means, and drive said implement in forward and reverse directions while at said station.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Mining & Mineral Resources (AREA)
  • Civil Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Road Paving Machines (AREA)
  • Operation Control Of Excavators (AREA)

Abstract

An earth leveling implement employs a transverse horizontal auger type excavator backed up by a vertically adjustable mold board mounted on the front of a vehicle for controlled vertical positioning and tilting; a ditcher can be attached at one side of the grader, and the vehicle can include a compactor to enable a single operator to perform the earth grading and compacting operations in a single operation.

Description

United States Patent Kuncewicz Jan. 21, 1975 [54] COMBINED LEVELING AND COMPACTING 3,119,193 1/1964 Herschberger 172/71 X EARTH WORKING MACHINE 3,375,878 4/1968 Dom 172/119 X 3,503,450 3/1970 Day 1 1 172/71 [76] Invent r: Witold Kuncewicz, 01d Kennel, 3,605,583 9 1971 Kepper 404/117 Flint Hill, Va. 22627 3,683,763 7/1970 Keppler et a1. 404/117 [22] Filed: Sept. 4, 1973 Primary Examiner-Stephen C. Pellegrmo PP NOJ 393,917 Attorney, Agent, or Firm-George H. Mitchell, Jr.
Related U.S. Application Data [63] Continuation of Ser. No, 201,922, Nov. 24, 1971, [57] ABSTRACT abandoned An earth leveling implement employs a transverse horizontal auger type excavator backed up by a vertically 172/71 i d i j g adjustable mold board mounted on the front of a vehi- Fie'ld 170 C16 for controlled vertical positioning and tilting; a "180/20f94/g9 2 2 ditcher can be attached at one side of the grader, and the vehicle can include a compactor to enable a single operator to perform the earth grading and compacting [56] g g z t jzf operations in a single operation. 1,807,489 5/1931 Middleton et a1. 172/71 x 9 Claims, 3 Drawing Figures COMBINED LEVELING AND COMPACTING EARTH WORKING MACHINE This application is a continuation of my copending application Ser. No. 201,922, filed Nov. 24, 1971, now abandoned.
This invention relates to earth working equipment, and more particularly to machinery capable of oneman operation which can excavate and level, or grade an expanse of ground either in its natural state, or after preliminary grading has been done, while practically simultaneously performing the additional operation of compacting the soil to form a solid base for later treatment.
As an example of the former, it is often desireable to create trails or roads through unimproved land to provide access to the interior portions of the land. Where there are no heavy stands of timber this may simply comprise the removal of surface vegetation, or merely filling in low spots and cutting down high spots to provide a dirt base over which ordinary road vehicles can be driven.
The present invention is also useful in the construction of level surfaces intended for extensive use by heavy vehicles such as express highways, parking lots and aircraft runways, where the soil is leveled off below grade and filled with crushed stone to provide a base for a surface layer of material such as asphalt, or concrete. In this connection, it is noted that authorities, such as the National Crushed Stone Association, indicate in their published construction guidelines that compaction of the crushed stone base for street pavements should be started immediately upon completion of the grading of the stone.
However, as far as is known to the applicant, the equipment now available requires that this can only be done in several operations, namely, by using a spreader, followed by a grader and followed by a roller.
On the other hand, the applicants apparatus eliminates the necessity for both the spreader and the grader. The crushed stone can be deposited from the rear of a moving dump truck after which the present apparatus can be employed to distribute the stone in a level layer and then compact it with a roller (which may be static or vibratory) all in one operation and under the immediate control of a single worker.
Additionally, by virtue of combining the grading and compacting operations, it is possible for the one operator to obtain instant viewing of the compacted surface and to institute immediate corrective grading action. To date it is the common practice in preparation of earth surfaces for the roller operator to follow the grader operator at a distance in space and time. It is only after the loose, graded surface is compacted that the compacted contour of land reveals itself. It is often necessary to recall the grader to correct the compacted earth contour. With the use of the present invention an improved operating procedure and effect is made possible.
This is accomplished by the employment of a horizontal auger type rotary device having a continuous helical surface, which is mounted transversely to the front of a moving vehicle so as to be visible to the vehicle driver. This may be a truck, or tractor, whether rubberwheeled or cleated, and in the preferred embodiment comprises a compaction roller having traction wheels in addition to the roller. In any and all events the use of the described method for excavating and grading minimizes the power requirement of the prime mover as compared to the use of a conventional device such as a bulldozer or grader blade.
The operation of the helically surfaced element is assisted by the provision of an adjustable horizontal rearwardly positioned mold board which can be coordinated with operation of the rotary element to level off high spots, fill in low areas and deposit any excess at either side or underneath of the moving vehicle in the form of a berm.
Additionally, another helically surfaced horizontal rotary element can be mounted at one, or both sides, of the main element, and arranged for pivotal adjustment with respect to the main excavator, so as to enable a single operator to grade and compact a roadway and at the same time form a drainage ditch at one, or both, sides of the roadway.
The implement can be constructed so as to be completely self-contained for attachment to an existing ma chine, and is provided by hydraulically operated motors and actuator to enable the functions of the machine to be fully controlled by valves placed within reach of the vehicle operator.
In the drawings,
FIG. I is a plan view of a preferred form of earth working machine constructed in accordance with the present invention;
FIG. 2 is a front view of the machine showing the helicoidal excavator and ditcher means, and;
FIG. 3 is a side elevation, on an enlarged scale, of a portion of the chassis means carrying the excavator means.
Turning now to FIG. 1 it will be seen that the machine comprises an overall chassis means, indicated generally by numeral 10, composed of a main frame means, indicated generally by numeral 11 and a grader leveler frame means, indicated generally by numeral 12. The main frame means supports a prime mover, numeral 13, such as an internal combustion engine, a seat 14 for the vehicle operator mounted on an adjustable support such as a pedestal 15 which enables the opera tor to turn the seat about a vertical axis to maintain a clear view of the operation of the vehicle at all times.
The main frame means 11 is supported by a pair of ground engaging traction wheels 16 and a soil compacting roller means 17 mounted for rotation on the frame about a horizontal axis 18. The roller means 17 may comprise a simple weighted roller, or may include power operated means to induce vibratory movement in the roller to increase the soil compacting effect. The roller may consist of either one compactive drum or two compactive drums either static or vibratory or in combination. Such rollers are well known in the art and need not be described in detail.
Movement of the machine as a whole may be by con ventional by providing suitable power transmission devices (not shown) to connect the prime mover, or engine 13, with either, or both of the traction wheels 16, or the driving drum of a double drum roller, which can be controlled by the operator by means of conveniently arranged controls, such as a series of levers 19 mounted on a panel adjacent to a steering wheel 20, which actuates a steering mechanism (not shown) to regulate the direction of movement of the chassis. Steering can be accomplished by mounting each of the wheels on individual stub axles mounted on vertical axes, and connected conventional steering linkages, but in the present embodiment of the invention the main frame means 11 comprises a traction framework 21 and a roller framework 22 connected to each other by means of a heavy coupling means 23 which allows the respective frameworks 21 and 22 to turn with respect to each other about a vertical axis while restraining any relative movement about a transverse horizontal axis. The coupling means also may include power operated devices (not shown) to control the angular orientation between the two frameworks and thus steer the machine by articulation of the chassis 10. Such devices could include electrical, or hydraulic, motors, or hydraulic cylinder and piston actuators or other actuators of well known construction and capable of being supplied with electrical energy, or hydraulic fluid under pressure by suitable generators, or pumps, driven by the engine 13 and controlled by the steering wheel 20.
The excavator frame means 12 located at the end of the chassis opposite to that of compactor frame 22 includes a transverse mounting bracket 24 which enables the entire excavator means to be detachably connected to a transverse member 25 forming one end of the main frame 11, as by means of forwarding projecting lugs 26 and bolts 27. The bracket 24, in turn, is connected to a sub-frame, indicated generally by numeral 28, by means of a coupling 29 which permits rotation of the entire sub-frame about a horizontal axis extending generally in the direction of movement of the traction wheels 16. The sub-frame includes a transverse member 30, which is directly secured to the coupling 29, and is provided with a fair of brackets 31 at its outer ends to which the forwardly projecting rails 32 are connected by pivot pins 33 to allow the rails to swing about the member 30 in an are at right angles to the axis of the coupling 29 under the control of a pair of hydraulically operated cylinder-and-piston actuators 34 which are pivotally connected at one of their ends 35 to the forward ends of the rails and also pivotally connected at their outer ends 36 to the brackets 31 at points spaced below the pivots 33. Power for these, and other hydraulically operated devices, can be supplied by a fluid pump 37, which is secured to the bracket member 24 in a position so that it can be driven through shaft 38 and pulley 39 by means of a belt connected with a driving pulley 40 off the engine in the usual way. For the sake of clarity, the couplings and fluid conduits leading between the pump, the valves, controlled by the control levers l9 and the various hydraulic devices are not shown in the drawings.
The pivotally mounted rails 32 support at their forward ends a transverse beam 41, at the extremities of which there are a pair of downwardly depending arms 42 which serve as supports for a horizontally disposed helicoidally surfaced earth leveling and conveying device 43 having a concentric shaft 44 the ends of which are mounted in bearings in the respective arms 42. In order to protect the operating parts against dirt and shock damage these arms may comprise hollow box members and the ends of the shaft 44 can extend into the interior thereof for driving connection with a pair of hydraulic motors 45 mounted at the upper ends of the arms. These motors can be supplied with motive fluid, under control of levers 19, from the pump 37 by means of suitable conduits (not shown) and the power transmitted from the motors 45 to the shaft 44 by means of a chain and sprocket drive 46, indicated by dotted lines in FIG. 3, for the purpose of rotating the excavator 43 in either direction and at variable speeds. In addition, for controlling the depth and disposition of earth removed by the helicoidal excavator there is a generally semi-cylindrical mold board device, indicated generally by numeral 47 positioned behind the excavator and having suitable brackets 48 at each end to mount the device on the ends of shaft 44 for limited reciprocatory movement about the axis thereof. In the example shown, the mold board device is divided into two sections 47a and 47b along a vertical dividing line and the two adjacent edges of the sections 47a and 47b are provided with interlocking flanges at 49 to permit the two sections to be elevated or lowered independently of each other, or in unison, under control of the two cylinder and piston actuator 50a and 50b, pivotally connected between a respective section of mold board and one of the rails 32. As with other hydraulic mechanisms, power can be supplied by pump 37 under control of levers 19, or by another pump which may form a part of the hydraulic system of the prime mover means.
The leveler frame means 12 may also include a subisdiary edger means, indicated generally by numeral 51, which can be used as an extension of the excavator 43 to form adjacent ditches, or to smooth off downwardly or upwardly inclined side embankments. The edger means comprises a generally C-shaped frame 52, having depending arms 53 which rotatably support the shaft ends of a helicoidally shaped excavator 54 which is rotatably driven in either direction and at varying speeds by hydraulic motor 55, connected directly to the excavator 54 or connected to it by a chain and sprocket drive similar to that of the main excavator 43 and also controlled by levers 19. The C-shaped frame is secured to one of the arms 42 by a pivotal mounting 56 which enables the excavator 54 to be angularly positioned with respect to the main excavator about an axis extending generally in the direction of movement of the traction wheels 16, as can be seen in FIG. 2. The relative position of the C-shaped frame is controlled by the cylinder and piston actuator 57 which is pivotally attached at its opposite ends to the C-shaped frame and one of the arms 42. As in the case of other devices, the
position of the frame is regulated by selective admission of hydraulic fluid supplied by pump 37 or by another pump under control of levers 19. The frame 52 can also support a small, generally semi-cylindrical mold board 58, placed behind the rotary excavator 54 and supported on the ends of the shaft thereof by means of brackets 58 to permit limited reciprocatory rotation about the axis of the shaft. The mold board may be clamped in a fixed position, or can be adjusted to various positions from the operators position by inclusion of an actuator (not shown) similar to the actuator 50a and 50b for the main mold board device.
Finally, the entire excavator sub-frame means 28 may be tilted to a variety of positions by means of a reversible hydraulic motor 59 secured to a lower midpoint of the transverse mounting bracket 24. The drive shaft of the motor is provided with a sprocket 60 which engages with a length of chain 61, the ends of which are secured to the underside of the transverse member 30 at locations 62 spaced on opposite sides of the coupling 29 (See FIG. 2).
I claim:
1. In an earth working implement, the combination including chassis means having transversely disposed helically surfaced auger means mounted at the forward end thereof for initially excavating and transversely distributing surface material, transversely disposed mold board means mounted on the chassis means behind said auger means for controlling the depth and distribution of material excavated by said auger means, a pair of ground engaging traction wheels mounted on said chassis means rearwardly of said auger means, transversely disposed ground engaging roller means mounted at rearward portion of said chassis means substantially in alignment with and substantially equal in width as said mold board means for compacting material distributed by said mold board means, prime mover means mounted on said chassis means and means connecting the prime mover means with said traction wheels and said auger means for driving said traction wheels for movement in forward and reverse directions and for rotating said auger means and means on said chassis means for steering said implement, said chassis means also including means connected with the auger means for raising and lowering and tilting said auger means and mold board means with respect to the ground, said mold board means having a transverse lower edge and including means connected between the auger means and mold board means for raising and lowering said lower edge independently of said auger means.
2. The invention defined in claim 1, wherein said chassis means is subdivided into two sections articulatedly joined together for relative movement about a vertical axis, said roller means being mounted on one of said sections, said wheels being mounted on the other of said sections.
3. The invention defined in claim 1, wherein said roller means comprises vibratory roller means.
4. The invention defined in claim 1, wherein said implement also includes auxiliary surface grading means extending transversely outwardly beyond one of the ends of said auger means and pivotally mounted on said chassis means to be positioned in angular relationship to said auger means with respect to a vertical plane.
5. The invention defined in claim 4, wherein said auxiliary surface grading means comprises an auxiliary transversely dipsosed auger means, and vertically adjustable auxiliary mold board means mounted behind said auxiliary auger means.
6. The invention defined in claim 1, wherein said auger means includes reversible hydraulic motor means for rotating said auger means and said prime mover means includes hydraulic pump means for driving said motor means.
7. The invention defined in claim 6, wherein said chassis means includes hydraulic actuator means for said raising and lowering of said auger means and mold board means.
8. The invention defined in claim 7, wherein said chassis means also includes hydraulic actuator means for said tilting of said auger means and mold board means.
9. The invention defined in claim 7, wherein said chassis means includes a station for an operator of said implement, said station including control means for a single operator to steer said implement, reversibly rotate said auger means, raise and lower and tilt said mold board means, and drive said implement in forward and reverse directions while at said station.

Claims (9)

1. In an earth working implement, the combination including chassis means having transversely disposed helically surfaced auger means mounted at the forward end thereof for initially excavating and transversely distributing surface material, transversely disposed mold board means mounted on the chassis means behind said auger means for controlling the depth and distribution of material excavated by said auger means, a pair of ground engaging traction wheels mounted on said chassis means rearwardly of said auger means, transversely disposed ground engaging roller means mounted at rearward portion of said chassis means substantially in alignment with and substantially equal in width as said mold board means for compacting material distributed by said mold board means, prime mover means mounted on said chassis means and means connecting the prime mover means with said traction wheels and said auger means for driving said traction wheels for movement in forward and reverse directions and for rotating said auger means and means on said chassis means for steering said implement, said chassis means also including means connected with the auger means for raising and lowering and tilting said auger means and mold board means with respect to the ground, said mold board means having a transverse lower edge and including means connected between the auger meAns and mold board means for raising and lowering said lower edge independently of said auger means.
2. The invention defined in claim 1, wherein said chassis means is subdivided into two sections articulatedly joined together for relative movement about a vertical axis, said roller means being mounted on one of said sections, said wheels being mounted on the other of said sections.
3. The invention defined in claim 1, wherein said roller means comprises vibratory roller means.
4. The invention defined in claim 1, wherein said implement also includes auxiliary surface grading means extending transversely outwardly beyond one of the ends of said auger means and pivotally mounted on said chassis means to be positioned in angular relationship to said auger means with respect to a vertical plane.
5. The invention defined in claim 4, wherein said auxiliary surface grading means comprises an auxiliary transversely dipsosed auger means, and vertically adjustable auxiliary mold board means mounted behind said auxiliary auger means.
6. The invention defined in claim 1, wherein said auger means includes reversible hydraulic motor means for rotating said auger means and said prime mover means includes hydraulic pump means for driving said motor means.
7. The invention defined in claim 6, wherein said chassis means includes hydraulic actuator means for said raising and lowering of said auger means and mold board means.
8. The invention defined in claim 7, wherein said chassis means also includes hydraulic actuator means for said tilting of said auger means and mold board means.
9. The invention defined in claim 7, wherein said chassis means includes a station for an operator of said implement, said station including control means for a single operator to steer said implement, reversibly rotate said auger means, raise and lower and tilt said mold board means, and drive said implement in forward and reverse directions while at said station.
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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3958892A (en) * 1973-09-08 1976-05-25 Koehring Gmbh Vibratory ground roller
US4068726A (en) * 1976-05-28 1978-01-17 Leroy Marvin Heitman Ground-moving equipment
US4079791A (en) * 1976-05-17 1978-03-21 Curt Thomas Yoder Adjustable sloper blade for bulldozers
US4268187A (en) * 1977-11-07 1981-05-19 Ulrich Krause Drag-type spreading apparatus for road construction mixtures
EP0242514A1 (en) * 1986-04-25 1987-10-28 O & K ORENSTEIN & KOPPEL AG Device for adjusting and shifting a loading installation for a winning element
US4836295A (en) * 1987-12-04 1989-06-06 Estes Rodger E Baseball infield conditioning apparatus
US5479728A (en) * 1994-03-08 1996-01-02 The Charles Machine Works, Inc. Apparatus for backfilling and tamping a trench
US6708777B1 (en) * 2001-10-04 2004-03-23 Jim Holmes Combination adjustable grader compactor
US20100028080A1 (en) * 2008-07-30 2010-02-04 Wallace Marvin A Vibration enhanced rolling tamper and methods of use

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1807489A (en) * 1930-03-06 1931-05-26 William V Middleton Ditch-filling machine
US3119193A (en) * 1961-09-29 1964-01-28 Eli D Herschberger Earth moving machine
US3375878A (en) * 1965-06-30 1968-04-02 Arrow Mfg Company Tractor auger-type backfiller
US3503450A (en) * 1967-07-17 1970-03-31 Chester B Day Spiral conveyor backfill attachment for bulldozers
US3605583A (en) * 1969-04-01 1971-09-20 Tampo Mfg Co Inc Vibratory roller compacting apparatus and method
US3683763A (en) * 1970-07-27 1972-08-15 Tampo Mfg Co Ground or road surface compacting machine

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1807489A (en) * 1930-03-06 1931-05-26 William V Middleton Ditch-filling machine
US3119193A (en) * 1961-09-29 1964-01-28 Eli D Herschberger Earth moving machine
US3375878A (en) * 1965-06-30 1968-04-02 Arrow Mfg Company Tractor auger-type backfiller
US3503450A (en) * 1967-07-17 1970-03-31 Chester B Day Spiral conveyor backfill attachment for bulldozers
US3605583A (en) * 1969-04-01 1971-09-20 Tampo Mfg Co Inc Vibratory roller compacting apparatus and method
US3683763A (en) * 1970-07-27 1972-08-15 Tampo Mfg Co Ground or road surface compacting machine

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3958892A (en) * 1973-09-08 1976-05-25 Koehring Gmbh Vibratory ground roller
US4079791A (en) * 1976-05-17 1978-03-21 Curt Thomas Yoder Adjustable sloper blade for bulldozers
US4068726A (en) * 1976-05-28 1978-01-17 Leroy Marvin Heitman Ground-moving equipment
US4268187A (en) * 1977-11-07 1981-05-19 Ulrich Krause Drag-type spreading apparatus for road construction mixtures
EP0242514A1 (en) * 1986-04-25 1987-10-28 O & K ORENSTEIN & KOPPEL AG Device for adjusting and shifting a loading installation for a winning element
US4836295A (en) * 1987-12-04 1989-06-06 Estes Rodger E Baseball infield conditioning apparatus
US5479728A (en) * 1994-03-08 1996-01-02 The Charles Machine Works, Inc. Apparatus for backfilling and tamping a trench
US6708777B1 (en) * 2001-10-04 2004-03-23 Jim Holmes Combination adjustable grader compactor
US20100028080A1 (en) * 2008-07-30 2010-02-04 Wallace Marvin A Vibration enhanced rolling tamper and methods of use

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