Low profile lift arm for small skid steer loader

Information

  • Patent Grant
  • 6695568
  • Patent Number
    6,695,568
  • Date Filed
    Thursday, November 1, 2001
    23 years ago
  • Date Issued
    Tuesday, February 24, 2004
    20 years ago
Abstract
A small loader has a frame, and drive tracks on opposite sides of the frame. The, drive tracks are mounted over drive sprockets and idler wheels to establish lengths of track at upper sides. The frame includes upright members at a rear portion for mounting a lift arm assembly made of two lift arms joined together. Each lift arm has a rear portion pivotally mounted on the upright portion of the frame and extending downwardly and forwardly to join side portions of the lift arms that are substantially parallel to the upper lengths of the respective tracks in a lowered position of the lift arm assembly. Actuators for pivoting the lift arm assembly are mounted on the frame, below the side portions and above the tracks, and extend generally parallel to both the side portions and the upper length of the tracks when the lift arm assembly is in a lowered position.
Description




BACKGROUND OF THE INVENTION




The present invention relates to a small loader that is manually operated by a standing operator at the rear of the loader. The loader has a low lift arm profile, so that an operator standing at the rear of the loader can see the work area. The low profile lift arms aid side-to-side visibility.




Various small self-propelled loaders have been advanced, where an operator will either stand or walk on the ground behind the loader or stand on a platform on the loader frame to manipulate the work element that is attached to the forward ends of pivoting lift arms.




These loaders find utility in small load applications, where loads that are too heavy for a person to lift can be hoisted. The ability of the loaders to be operated in small areas is important. Ease of manipulation of the bucket or work tool, as well as the ability to see the work that is being carried out is also important.




While it is desirable to have the pivot points for the boom near the rear of the small loader, and relatively high so that the reach is adequate for operation, conventional, straight lift arms tend to block vision to the side, as they are raised. Additionally, they will be in the way for access from the side of the loader to components such as the engine or drive components that are nested between the lift arms.




SUMMARY OF THE INVENTION




The present invention relates to a small self-propelled loader that is designed for operation by an operator standing at the rear of the loader, and which has forwardly extending lift arms that have center portions that are formed downwardly to have side portions at a low level, closely adjacent to the top of the components that are used for driving. The dropped or lowered side portions permit easy access to the center of the machine frame when the arms are lowered, and also keeps a low profile of the side portions of the arms they raise to insure good side-to-side visibility for the operator.




The lift arms are pivoted at the uppermost, rear portion of the frame, and extend forwardly to support a bucket, or other work implement at the forward ends of the arms. Hydraulic actuators are utilized for raising and lowering the lift arms, in a normal manner.




The far rear pivot of the lift arms permits using a longer arm on the same length machine. This increases the lift capacity for the same size actuator and there is a longer arc of movement. This means that the bucket or tool moves more vertically as it initially raises, rather that having a pronounced arcuate path that causes the bucket to move forward a significant amount as it starts to lift.




The lift arms taper downwardly from the pivot points to a position along the sides of the machine, and in the form shown extend forwardly substantially parallel to the top lengths of the tracks used for driving the machine. The forward ends of the lift arms then are recessed on the lower side so that they curve downwardly around the rounded forward ends of the tracks, where the tracks go over a front sprocket or guide wheel. When in a lowered position, the forward ends of the lift arms will support a bucket on the ground or support surface over which the tracks are moving.




Controls for the lift arms are all at the rear of the machine, and accessible by an operator standing on the ground or standing on a support platform at the rear of the machine. The lift arm pivots are generally a little higher than waist high on an operator, so that the operator can see over the highest portions of the machine, for visibility. The operating control levers are just to the rear of the pivots for accessibility of the operator.




The lift arms are made into a rigid lift arm assembly with a cross member at the front end of the lift arms that also supports an upright strut for mounting a cylinder or actuator that is used for tilting the bucket or work implement.




The low profile lift arms thus provide an adequate lift reach or height, and are dropped in the center portions for accessibility to components and also for side to side visibility.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a side elevational view of a loader having lift arms made according to the present invention;





FIG. 2

is a perspective view of the loader of

FIG. 1

;





FIG. 3

is a view similar to

FIG. 1

with a series of positions of the lift arm assembly shown in dotted lines;





FIG. 4

is a side elevational view of the lift arm assembly removed from the loader;





FIG. 5

is a front perspective view of the lift arm assembly removed from the loader; and





FIG. 6

is an enlarged side view of the assembly of the rear and side portions of a lift arm.











DETAILED DESCRIPTION OF THE ILLUSTRATIVE EMBODIMENTS




Referring to

FIG. 1

, a small loader indicated generally at


10


is a walk behind powered loader that has a body or frame


12


. The frame


12


supports a track assembly


14


on each side of the loader, for propelling the loader in a forward or reverse direction through the use of drive hydraulic motors indicated generally at


16


. Each track assembly includes a track frame


14


A, a drive sprocket


14


B and a front idler wheel


14


C over which a track


14


D is mounted. Bogie wheels


14


E are also provided on the track frame for support. The drive motors


16


are operated through a pump


19


and individual valve arrangement


18


shown schematically for one motor. The valves for the motor and for the other hydraulic components are controlled by valve controls


20


at the upper end of a control panel for the loader. The pump


19


is driven by an internal combustion engine


45


mounted on the frame


12


in a housing


17


that has a cover


17


A. The engine


45


is in the center portions of the loader, as shown.




The frame


12


has integral upright supports


22


at the rear of the frame, and the supports


22


extend upwardly a little higher than waist level of an operator standing on the ground. The upright supports


22


in turn pivotally mount rear ends of a lift arm assembly


24


on pivots


21


at the upper ends of the supports


22


. As shown, the pivots


21


are at or near the uppermost part of the loader.




The lift arm assembly


24


includes individual lift arms


24


A and


24


B, on opposite sides of the frame, and each lift arm has a base end or rear plate portion


25


that inclines downwardly from the pivot


21


at an angle essentially parallel to the rear portions of the frame and engine cover. The base end portion


25


of each arm


24


A and


24


B has a bend


60


forming a forward end that is joined to a side lift arm portion


32


, the side lift arm portions extend parallel to the upper lengths of the respective track of the track assembly on the respective sides of the loader. The side arm portions


32


join forward lift arm plate portions


34


that fit around the front of the tracks, respectively.




The lift arm assembly


24


is raised and lowered with extendible and retractable double acting hydraulic cylinders or actuators


26


operating under hydraulic pressure from the pump


19


and controlled by valves forming part of the controls


20


.




The cylinders


26


(there is one on each side, and only one is shown) have base ends pivotally mounted as at


28


to portions of the frame


12


, and the cylinders have extendible and retractable rods


29


that have rod ends that are pivotally mounted with pins


30


to each of the lift arms


24


A and


24


B of the lift arm assembly


24


. The lift arms include the side arms


32


, and forwardly extending lift arm plate portions


34


that curve forwardly over the forward ends


36


of the drive track


14


D. There are side flanges


35


spaced from the plate portions


34


to provide support for the outer end pivot pins. The forward ends of the lift arms curve down and pivot pins


38


are used for mounting a quick attachment plate


40


to the lower ends of the forward plates of conventional design. The quick attachment plate


40


is the type normally used with the BOBCAT® skid steer loaders made by Bobcat Company Business Unit of Ingersoll-Rand Company.




The pins


38


permit the attachment plate


40


to be pivoted about a horizontal axis by a bucket control cylinder


41


that has its base end connected as at


42


to an upright strut


44


mounted on a cross member


70


that holds the lift arms


24


A and


24


B together to form the lift arm assembly


24


. The rod end of the actuator or cylinder


41


is connected as at


46


to a bracket on the attachment plate


40


. A bucket


48


is shown in position on the attachment plate


40


, and this, too, is supported on the attachment plate


40


in a known manner.




When the lift arm actuators or cylinders


26


are fully extended, as shown fragmentarily in dotted lines in

FIG. 3

, the lift arms


24


A and


24


B are at a substantial upward angle. The upright


44


that is used for the bucket cylinder


41


, is provided with an upwardly projecting backstop wall


46


. If the bucket


48


is heaped with objects


52


, and anything tends to roll out, the upright


46


will stop the material from rolling back along the lift arm assembly


24


toward the operator.




As can be seen in

FIGS. 4

,


5


and


6


, perhaps best, the base portion


25


of each of the lift arms


24


A and


24


B is made as a separate member that has a radius portion


60


at a lower end thereof, with a forwardly extending portion indicated generally in dotted lines at


62


that extends into a tubular interior of the tubular side arms portions


32


. The rear portions can be plates of steel, or can be tubes, if desired. The forward lift arm portions


34


are plates, as can be seen perhaps best in FIG.


5


. There are contoured recesses formed with a radiused surface


66


that is spaced from the forward ends of the tracks.




The lift arms


24


A and


24


B are joined together with a cross member


70


which is welded to the plates


34


, and which is braced with gusset plates


72


. The gusset plates


72


reinforce the forward lift arm plates


34


, which hold pivot sleeves


38


A for the pins


38


. The upright


44


is suitable reinforced and gusseted back to the cross member


70


for additional strength. The plates


72


close the ends of the side arm tubes


32


of the lift arm assembly.




As can be seen in

FIGS. 1 and 2

, the side arm portions


32


are substantially parallel to and spaced upwardly from an upper length or reach


76


of the track


140


that forms part of the track assembly


14


. The base portions


25


of the lift arms extend so that the side arm portions


32


are parallel to the longitudinal axis of the hydraulic actuators or cylinders


26


. This geometry forms a compact assembly. The cylinder rod is attached to the plates


34


, forming part of the forward lift arm portions so when the lift arms are lowered the cylinders


26


are in the position shown in FIG.


1


. There is a substantial mechanical advantage even in this lowered position between the pivot point


21


and the base of the cylinders


26


, where they join the frame shown at


28


.




As the lift arms are raised, as shown in the various dotted line positions in

FIG. 3

, the cylinders


26


and the side arm portions remain fairly close to parallel, so that the lifting mechanical advantage remains substantially uniform relative to the pivots


21


. Dotted line lift arm positions are shown at


80


,


82


and


84


. Position


84


is a fully raised position of the lift arms, and it can be seen that the cylinders


26


and the center portions


32


of the lift arms stay relatively close to parallel.




It should also be noted that the frame


12


can have counterweights


86


mounted thereon at the rear, the size and number are selected to be suitable for the type of operation that is being carried out with the loader.




In operation, the operator will stand or walk behind the loader, and operate the controls with the control handles


20


to move the loader through motors


16


and to raise and lower the lift arm assembly


24


as desired. The side-to-side visibility is greatly enhanced by having the offset section at the base end of the lift arm to drop the side portions


32


down along the sides of the housing for the engine and substantially parallel to the top reach or lengths of the tracks. Additionally, the moving of the side portions of the lift arm aids in lowering the center of gravity of the machine, particularly in the lower portions of the lift path. The lower center of gravity aids stability. The small loader that is disclosed has no operator's platform.




The propulsion system for moving the loader is disclosed specifically as a track unit. However, skid steer loaders are commonly mounted on wheels on the sides that are driven simultaneously on each side, from a separate motor on each side. The present loader can be wheel mounted, with the tops of the wheels on a plane parallel to the center portion of the lift arm and close to the top plane just like the top length of the track is positioned. Thus the propulsion system that supports the loader for movement can be sets of wheels mounted in place of the tracks shown.




Although the present invention has been described with reference to preferred embodiments, workers skilled in the art will recognize that changes may be made in form and detail without departing from the spirit and scope of the invention.



Claims
  • 1. A loader having a frame, operator controls at the rear of the frame, accessible to an operator standing or walking at the rear of the frame, a propulsion system for moving the frame along a surface, including drive members on opposite sides of the frame, an engine on the frame mounted between the drive members, the frame having upright members at the rear portions thereof adjacent the controls and positioned at an upper most level of the loader, a lift arm for lifting loads including a base portion pivotally mounted to the upright member of the frame at a pivot above the controls, a center side portion, and a forwardly extending portion extending forwardly of the frame and adapted for supporting a work tool, an actuator for pivoting the lift arm about the pivot, the lift arm base portion inclining downwardly and forwardly from the pivot and joining the center side portion of the lift arm, the center side portion being above and adjacent the drive members in a lowered position of the lift arm and positioned alongside the engine compartment, and the lift arm center side portion joining the forwardly extending portion, the forwardly extending portion inclining downwardly from the center side portion for attachment to a work tool.
  • 2. The loader of claim 1, wherein said lift cylinder is connected to the frame and extends forwardly to a forward end of the lift arm, said lift cylinder and the center side portion of the lift arm being substantially parallel when the lift arm is in a lowered position.
  • 3. The loader of claim 2, wherein the actuator has an extendible and retractable rod connected to the lift arm at a forwardly extending portion of the lift arm about a pivot portioned relative to the pivot of the lift arm to the frame, and relative to the pivot of the base of the actuator to the frame, such that the spacing between the center side portion of the lift arm and the actuator remains substantially the same throughout the travel of the lift arm from a lowered to a raised position.
  • 4. The loader of claim 1, wherein said lift arm comprises one lift arm of a lift arm assembly having two lift arms, one lift arm on each of opposite sides of the engine compartment, a cross member at a forward end of the lift arms for rigidly joining the lift arms in spaced apart relationship.
  • 5. The loader of claim 4, wherein said forward portions of said lift arms comprise plate members joined to the center side portions, and extending downwardly and forwardly from the center side portions.
  • 6. The loader of claim 1, wherein said drive members comprise endless tracks that have front and rear mounting members for the tracks to provide an upper lengths of track, on the opposite sides of the frame, the lift arm comprising a lift arm assembly having lift arms on the opposite sides of the frame above the respective upper lengths of track, and an actuator for each lift arm, the upper length of track, the actuator, and the center side portion of the lift arm on the opposite sides of the frame being substantially parallel with the upper length of track on the respective side of the frame in a lowered position of the lift arm assembly.
  • 7. The loader of claim 6, wherein the rear mounting member of each track comprises a drive sprocket and the front member comprises an idler wheel, said drive sprocket being larger than the idler wheel.
  • 8. The loader of claim 7, wherein said forwardly extending portions of the lift arms are formed concave on the bottom sides thereof to generally follow the contour of the track that is supported around the idler wheel.
  • 9. The loader of claim 4, and gusset members holding the plates for forming the forwardly extending portions of the lift arms relative to the cross member.
  • 10. The loader of claim 1, wherein said base portion of said lift arm comprises a plate having a bend therein, and said center side portion of said lift arm is a tube of larger size than the plate having an interior opening, an end of the base portion slipping into the interior opening of the side portion, said plate having a bend therein to permit the base portion to extend downwardly and forwardly from its pivot to the center side portion.
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