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FIELD OF THE INVENTION  
         [0001]    The present invention relates to a personal loader device, essentially a compact self-propelled personal construction vehicle for performing construction and landscape tasks. The personal loader, which may be controlled by an individual operator in either a walk behind or ride along mode, can push, lift, move, load and unload, in both horizontal and vertical directions, hundreds of pounds of materials as necessary. For instance, heavy snow, dirt and other landscape and construction materials can be handled and maneuvered through tight work spaces. The loader is extremely manipulatable and dexterous with heavy material in small areas and can be quickly and radically changed through numerous attachment accessories such as dozer blades, sweepers, rakes, buckets, grapples and pallet forks.  
         BACKGROUND OF THE INVENTION  
         [0002]    Skid-steer loaders, well known in the construction industry, are versatile, powerful machines used extensively for material handling purposes. Skid-steer loaders, the term “skid-steer” refers to the loader&#39;s steering, utilize four hydrostatically driven wheels and allow the machine to turn within its own wheel base by breaking or counter-rotating each side-similar to a military tank track control.  
           [0003]    There are known in the industry a number of different types of light-duty, skid steer loaders called mini-loaders. These machines are significantly smaller than typical construction skid-steer loaders but may not be correspondingly less expensive. Attachment products are also available for landscaping, ground maintenance, turf, light industrial, small contracting and small farming industries. These machines are somewhat of a scaled-down version of a skid-steer device designed to work in confined constructions areas.  
           [0004]    The known mini-skid-steer devices accommodates the small contractor and rental market and although these light-duty, skid-steer loaders are smaller, they are still too large and expensive for personal home use, storage or easy transportation. The skid-steer wheel control acts in general like a tank track, i.e. one side is locked up, or skidded, while the others continue to rotate. This steering control tends to tear up the turf or ground on which the skid-steer vehicle is operating making such vehicles impracticable for personal home use in a garden, lawn or anywhere that the surface or ground should remain relatively undisturbed. Additionally, skid-steer drive and steering systems are expensive to service and repair must be performed generally by skilled experts.  
           [0005]    Garden tractors are also well known in the art and can be designed for use with a front blade for light dozing work, for instance with snow and/or a snow thrower for the same purpose. Larger garden tractors have substantial horsepower and sturdy frames for such ground engaging attachments as tillers, dozer blades, small backhoes and other useful accessories. While garden tractors offer substantial abilities to mow and do light garden work, they do not have any vertical lifting capability and are not useful as a loader, or a digger and have poor ground clearance, large turning radiuses and cumbersome attachment methods.  
           [0006]    OBJECT AND SUMMARY OF THE INVENTION  
           [0007]    Wherefore, it is an object of the present invention to overcome the above mentioned shortcomings and drawbacks associated with the prior art.  
           [0008]    An object of the present invention is to provide an efficient and economical device for personal and home landscape and construction use which augments the operator&#39;s ability to perform relatively heavy earth and materials moving projects around the home or workplace.  
           [0009]    Another object of the present invention is to provide such device at substantially lower cost than the products currently available on the market.  
           [0010]    A further object of the invention is to provide an easily controllable and maneuverable loader work device which enables a operator to maneuver in tight spaces and perform intricate maneuvers with heavy material handling capability.  
           [0011]    An even further object of the present invention is to provide extreme maneuverability with loads without significantly disturbing the surface or ground over which the loader device is operating for instance during turning and maneuverability operations.  
           [0012]    Yet another object of the present invention is to provide a plurality of attachments which can be easily removed or attached to the personal loader in order to facilitate the undertaking of numerous projects.  
           [0013]    A still further object of the present invention is to provide a personal contracting or home gardening device which is capable of not only horizontally moving material, but also vertical material handling specifically for loading or dumping purposes.  
           [0014]    The present invention also relates to a personal loader for assisting an operator in materials handling tasks comprising a frame supported by at least three wheels, at least one of the wheels being a powered drive wheel and at least one of said other wheels being a steerable wheel, an engine supported on the frame for driving a hydraulic pump and the at least one powered drive wheel, a hydraulic control regulating the hydraulic pump actuation of at least a first hydraulic circuit powering a vertically moveable primary accessory control means and a second hydraulic circuit providing angular rotational capability to a secondary accessory control means, and a control handle for steering the loader, the control handle having manual actuatable inputs for operation of the hydraulic control and the at least one powered drive wheel.  
           [0015]    The present invention also relates to the personal loader as set forth above wherein the at least one powered drive wheel is a pair of fixed position drive wheels, each of the pair of drive wheels being driven by an associated first and second wheel motor which may be one of individually braked and driven relative to the other wheel motor.  
           [0016]    The personal loader is generally a three or four wheeled device driven by an engine or motor and provided with a 2-wheel drive unit having a simplified hydrostatic differential transmission which allows the device to turn quickly within its own wheel base without the inherent high cost of skid-steer technology. Other drive trains for instance individual wheel motors which can be driven or braked individually relative to one another may also be used. The personal loader can be provided with a front pair of drive wheels and a pair of rear steerable wheels or a single rear steerable wheel. The loader may also be provided with the rear wheel or wheels being directly steered via known steering linkages and power assist steering mechanisms or in the alternative either a single or pair of castor type wheels which are not directly steered but are indirectly steerable by the operators maneuvering of the loader. The loader includes a frame supported by the wheels and a control handle for providing operational control over the loader. The control handle is located within easy reach of an operator riding or walking substantially directly behind the loader.  
           [0017]    The engine is separately connected to the differential transmission unit for drive and a hydraulic pump for providing appropriate pressurization and de-pressurization to a hydraulic system operating the hydraulically controlled loader mechanism system. An operator walking or standing behind the machine and within reach of the control handle may cooperatively control the vehicle speed and steering as well as the hydraulic system mechanism manipulation via a series of manual controls on the control handle. Alternatively, or in combination therewith, a series of pedals can also be provided for the operator to utilize.  
           [0018]    A number of different work tool attachments, for example a bucket loader, may be readily attached to the front end of the loader. Specifically a desired work tool attachment is connected with a pair of hydraulically controlled loader arms, and the work tool attachment is controlled in both a vertical and horizontal direction, as well as in a leveling function via the operators actuation of the hydraulically controlled loader arms. Balancing of the work tool attachment and any load therein is provided with respect to the loader about a rotational axis of the front drive wheels. In essence a fulcrum point is established substantially about the front drive wheels to ensure that maximum traction is provided to the drive wheels at all times and an appropriate balance point is provided for safely and effectively balancing the loader and any load applied through operation of the attachment. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0019]    The invention will now be described, by way of example, with reference to the accompanying drawings in which:  
         [0020]    [0020]FIG. 1 is a side elevational view of the personal loader showing the loader mechanism in an upper and an alternative lower positions;  
         [0021]    [0021]FIG. 2 is a block diagram of the hydraulic control system;  
         [0022]    [0022]FIG. 3 is a side elevational view of another embodiment of the personal loader device;  
         [0023]    [0023]FIG. 4 is a top planar view of the 4-wheel personal loader device;  
         [0024]    [0024]FIG. 5 is a top planar view of the 3-wheel personal loader device;  
         [0025]    [0025]FIG. 6 is a top planar view of a bucket attachment for the personal loader device;  
         [0026]    [0026]FIG. 7 is a rear view of the bucket attachment disclosing the attachment mechanism;  
         [0027]    [0027]FIG. 8 is a close up view of the accessory attachment mechanism connected to the hydraulically operated loader arm; and  
         [0028]    [0028]FIG. 9 is a side cross-sectional view of the accessory attachment matingly engaged with the attachment mechanism. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0029]    Turning now to FIG. 1, a brief description concerning the various components of the present invention will now be briefly discussed. As can be seen in this embodiment, the personal loader  1  is described in general.  
         [0030]    The personal loader  1  is comprised generally of a frame  10  supported by a pair of front drive wheels  2  and, as will be discussed in further detail below, either a single or a pair of rear steerable wheels  8 . The loader  1  is guided via a control handle  12  by the operator for purposes of steering, drive and hydraulic control over the personal loader  1 . The operator may stand on a support platform if provided in certain embodiments, or may walk behind the personal loader  1  as shown to provide guidance for the loader  1 .  
         [0031]    The frame  10  supports an engine  50  connected to a differential transmission  54  and a hydraulic pump  52 . The differential transmission  54  is connected to a main power take off of the engine  50  to provide a power drive to the front wheels  2  of the personal loader  1 . The engine  50  powers the hydraulic pump  52  through a secondary power take off which operates the mechanical hydraulic system  60  to be described in further detail below.  
         [0032]    The frame  10  is provided with a pivot axis P about which loader arm or arms  30  are controlled. The loader arms  30 , of which there are usually provided a pair, although a single loader arm is also a viable option, each have a pivot end  32  which are each attached to the main pivot axis P of the frame  10  and controlled in their rotation about the pivot axis P via the hydraulic system  60  as demanded by the operator through the control handle  12 . Each loader arm  30  also has a free end  34  which is provided with a universal attachment mechanism  20 . The attachment mechanism  20  is pivotally attached to the loader arms  30  and pivots about a rotational axis PA defined by the relative alignment of the separate free ends  34  of the pair of loader arms  30 .  
         [0033]    It is to be appreciated that the hydraulic system  60  can be provided with a self balancing or leveling feature which automatically controls the free ends  34  of the loader arms in order to provide relative leveling of a load supported by the arms  30  with respect to the ground upon which the loader  1  is operating. In other words, rotational axis PA is adjusted relative to the ground to remain substantially parallel with respect to a constant horizon line. In embodiments without such a automatic self leveling feature, in some instances the operator may have to provide leveling of the attachment load by separately controlling the loader arms  30 . As the necessity for leveling and mechanics of performing such operations are well known in the art, no further discussion is provided.  
         [0034]    The elevation control of the free end  34  of the loader arms  30  and the relative rotation of the attachment mechanism  20  are both controlled via the hydraulic system  60  through the operator&#39;s operation of the control handle  12 . In combination with the steering and drive control, such vertical and horizontal control is necessary over any attachment  80  to the loader  1  to provide for balancing, dumping, scooping, cutting, drilling, sweeping or scraping and other tasks as required in small loader and light construction use.  
         [0035]    The critical function of balancing the loader  1  with respect to a variable load being applied to the work tool attachment accessory  80  at the free ends  34  of the loader arms  30  is accomplished by providing a fulcrum or balance point about the front drive wheels  2  of the loader  1 . With the fulcrum or balance point being substantially co-linear with the front wheel rotational axis  4 , the center of mass of the loader  1  is thus provided between the front and rear wheels. This fulcrum or balance point is accomplished by the relative rearward locating of the center of mass of the loader  1  with respect to the rotational axis  4  of the front wheels  2 , and the relative frontwards application of any load applied through the accessory  80  relative to the rotational axis  4  of the front wheels  2 .  
         [0036]    With the balancing effect of the loaders rearward center of mass and any frontwards applied load to the attachment  80  about the balancing point or fulcrum, as can be appreciated, the front wheels  2  are thus provided with a maximum amount of traction due to both the frontward load and rearward center of mass having a vertical force component acting relatively downwards through the fulcrum balance point and via the front wheels  2  provides such a maximum traction force to the front wheels  2 .  
         [0037]    Certain attachment tools  80 , such as the bucket loader attachment  80  shown, may be directly controlled through hydraulic control of the loader arms  30  and the relative rotation of the attachment mechanism  20 . Certain other attachment tools, for instance a rotating sweeper or an auger must be provided with an auxiliary hydraulic line from the loader  1  for powering an attachment tool motor which is generally integral with the attachment tool to provide for instance such rotational capability to the attachment as necessary. A further description of such an auxiliary attachment control is provided below.  
         [0038]    A first embodiment of the present invention will now be discussed in greater detail. The steering and maneuverability of the personal loader  1  is of critical importance, and therefore, the loader  1  must be capable of substantially turning within a particularly tight radius of curvature. The front wheels  2  are, as discussed above, driven via a simplified hydrostatic differential transmission. This type of transmission allows for relative rotational speed differences between the front drive wheels to facilitate turning of the loader  1 . This type of transmission can also allow different relative rotational directions between the front drive wheels to provide even further facilitation of reduced turning radius.  
         [0039]    The rear wheels  8  are the steering wheels for the loader and capable of rotation about a vertical axis VA relative to the front drive wheels  2 . These wheels  8  may be essentially what are known as turf wheels having a less aggressive tread so that in combination with the steerable rear wheel feature significantly minimize damage to the ground from steering operations.  
         [0040]    The rear wheels  8  of the first embodiment are castor wheels. Each rear wheel  8 , whether a single wheel or a pair is utilized, is provided with an individual horizontal rear axle which is connected to and supports the frame  10  about a vertical axis VA. The horizontal axle of course provides for conventional horizontal wheel rotation thereabout to permit loader movement along the ground. The vertical axis VA to which the horizontal axle is attached permits a full 360 degree vertical rotation of the wheel or wheels about the vertical axis VA, independent from one another where a pair of wheels  8  are provided, thus allowing the rear wheels  8  to rotate into any angular position relative to the front drive wheels  2 . The castor wheels design provides extreme maneuverability in tight spaces and difficult locations as is often found in construction sites and personal residences.  
         [0041]    In the present embodiment where castor wheel or wheels  8  are provided it is to be appreciated that in order to provide steering control the loader  1 , the operator must walk on the ground behind the loader and steer the loader through a fixed position control handle  12 . The control handle  12  is rigidly affixed to the frame and no direct steering mechanism or linkage is provided between the rear castor wheel(s)  8  and the control handle  12 . Thus, an operator in the walk behind embodiment could manipulate and manually steer the loader  1 , including the frame, hydraulic system and attachments via the relative positioning attained by appropriate maneuvering of the loader  1  via the rear castor wheel(s)  8  and the front wheels  2 , well within the loader&#39;s own wheel base. This maneuvering is made easier due to the fulcrum or balance point of the loader  1  being about the front wheels  2  and thus the castor wheel or wheels can be more easily aligned to maneuver the loader  1 .  
         [0042]    [0042]FIG. 2 diagrammatically shows the control handle  12  which in addition to providing steering control may also provide a series of inputs for instance a manual throttle  3  for controlling the speed and drive of the front wheels  2 ; and a series of loader arm controls including at least an elevational control  5 , and an attachment accessory mechanism angle control  7  which through the hydraulic control  60  operates the mechanical loader arms  30  and the attachment mechanism  20  for the cutting, pushing, dumping, loading and unloading operations as required by the operator. An automatic self leveling feature may be provided or a manual control  9 , and an auxiliary attachment control  13  may also be provided on the control handle  12  for such a feature.  
         [0043]    Thus, as is readily apparent to those of ordinary skill in the art, in either the walk behind mode or the operator supported mode embodiment, the operator can thus provide via the control handle  12  directional control of the loader  1  and mechanical hydraulic control, i.e. vertical and angular control over the loader arms  30  and accessory attachment control via the auxiliary work tool attachment control  13  as well as horizontal control via the loader speed control throttle  3 . All these operator inputs may be provided through conventional control mechanisms such as twist throttles, knobs, buttons or levers associated with the control handle  12 .  
         [0044]    Turning to FIG. 3 the hydraulic control system  60  of the present invention is generally described. Each loader arm  30  is controlled by the hydraulic system  60  which comprises, for each loader arm  30 , an elevation control hydraulic cylinder  62  and an attachment mechanism control cylinder  72 . The elevation control hydraulic cylinder  62  is pivotally attached at a first end  63  to the frame  10  and at a second end  64  to a pivot point on the loader arm  30 . The operator controls the pressure to the elevation control hydraulic cylinder  62  through the corresponding input  5  of the control handle  12  where an increase in pressure to the elevation control hydraulic cylinder  62  extends the hydraulic cylinder  62  thus elevating the loader arm  30 .  
         [0045]    The attachment mechanism  20  rotatably connected to the free ends  34  of the loader arms  30  is controlled in its rotation relative to the loader arm  30  via an angle linkage  70  which is controlled by the attachment angle control hydraulic cylinder  72  having a first end  73  connected to the linkage  70  and a second end  74  attached to a portion of the loader arm  30  substantially adjacent the connection of the elevation control hydraulic cylinder  62  first end  64 . The attachment angle control hydraulic cylinder  72  is also controlled via input  7  by the operator at the control handle  12  where the increase or decrease in pressure as demanded by the operator and applied via the hydraulic pump  52  varies the angle A of the attachment mechanism  20  and thus the attachment  80  on the personal loader  1  relative to the loader arms  30 .  
         [0046]    As set forth above angular control over the accessory attachment  20  is provided via the accessory attachment hydraulic cylinder  72  acting through the accessory attachment linkage  70 . The linkage  70  includes a second pivot point PA2 on the accessory attachment  20  which is spaced from the pivot point PA. A double link  75  having a first end connected to the second pivot point PA2 and a second end connected to the control arm  30  are connected at a middle joint  77  to the first end  73  of the attachment hydraulic cylinder  72  which when actuated provides substantial mechanical advantage to control the rotation of the accessory attachment  20  about the pivot point PA.  
         [0047]    It is to be appreciated that any number of attachment accessories  80  can be quickly attached to and detached from the personal loader  1  via the attachment mechanism  20 . In particular, a primary attachment accessory  80  could be a bucket as shown for scooping, moving and handling heavy bulk materials. Numerous other attachment accessories are contemplated as well, dozer blades for cutting and scraping, forks for moving pallets or boxes, etc.  
         [0048]    Other work tool attachment accessories, for instance an auger or a rotating sweeper brush (not shown) may also be attached to the loader arms via the attachment mechanism  20 . These attachment accessories are usually provided with a hydraulic motor  63 , see FIG. 2, to supply the necessary rotation or power to the work tool attachment. The hydraulic motor  63  of these work tool accessories is provided with power via an auxiliary hydraulic control line  61  which connects between the hydraulic motor  63  of the work tool accessory and hydraulic pump  52 . This auxiliary control line  61  is diagrammatically shown in FIG. 2 and is controlled via the hydraulic control  60  by the auxiliary attachment control  13  on the control handle  12 . Therefore an operator in coordination with the other series of hydraulic controls on the control handle can also control the auxiliary attachment control when necessary.  
         [0049]    As shown in FIGS. 3 and 4, the rear castor wheel or wheels  8  shown in the first embodiment, may in other embodiments be replaced with directly steerable wheels  8 . The steering and maneuverability of the personal loader  1  is of critical importance, and therefore, the loader  1  must be capable of substantially turning within a particularly tight radius of curvature. Alternatively to the provision of steerable castor wheels which are not directly but indirectly steered, the rear wheels  8  may be directly controlled via a conventional mechanical advantage tie rod steering mechanism  11 . Each rear wheel  8  is provided with an individual rear axle supported on the frame and connected to the control handle  12  via the tie rod mechanism  11 . The tie rod mechanism  11  and the individual axles of each rear wheel  8  provide at least full 180 degree pivot angle for the rear wheels  8 . The full 180 degree rotation allows the rear wheels  8  to rotate to a position perpendicular with respect to the front drive wheels  2 , which provides extreme maneuverability in tight spaces and difficult locations as is often found in construction sites and residences. Additionally, with such a full rotation and pivot angle of the steerable wheel or wheels relative to the drive wheels, no harm is done to the surface upon which the loader  1  is turning.  
         [0050]    The control handle  12  can be made to be rotatable relative to the frame and connected with the steering linkage  11 . As there are many types of steering linkages which could readily directly connect the control handle  12  with the rear wheels  8 , no further description is provided. However, it is also to be appreciated by those skilled in the art that a power assisted steering mechanism could also be provided. For instance, a hydraulic power steering assist can be provided by a conventional rotary pump driven by the loader engine  50 , and through a rotary valve providing the necessary hydraulic power assist to the operator when the appropriate turning force on the control handle  12  is provided. The rotary pump and valve provides an output which assists the operator in rotation of for instance a worm gear of the steering gear communicating with the axles. As such hydraulic power steering systems are also well known in the art, no further discussion is provided herein.  
         [0051]    With such a direct steering method, it is also possible to have an operator ride on a platform  14  as shown in FIG. 4. The operator has the choice of either riding on the platform  14  or walking behind the loader, whichever way the operator can provide the best control over the loader  1 . Furthermore, any size tires may be provided for either the front or the rear wheel or wheels. In some instances for instance for work on grass, smaller, soft tires might be necessary to decrease damage to the grass or turf. At muddy construction sites it might be necessary to have the drive wheels provided with a large aggressive tread design. Such decisions are made by those of ordinary skill in the art based on terrain, weather and required use and as such no further discussion is provided.  
         [0052]    Additionally, it is possible to have different combinations of drive and steerable wheels, for instance the rear wheels  8  could be provided to drive the loader and the front wheels being steerable, or in other cases a 4 wheel drive differential might be provided to supply drive to all wheels, with either the front or the back wheel(s) being steerable.  
         [0053]    [0053]FIG. 5 depicts another embodiment of the present invention namely a personal loader  100  comprised generally of a frame  110  supported by a pair of front wheels  102  connected via front axle  104  and a single rear wheel  108 . The frame  110  includes an operator support platform  114 . The operator may stand on the platform  114  or in some instances may walk behind the personal loader  100  with the platform  114  folded up out of the way or removed from the frame  110 . Also, alternatively to the differential transmission  54 , the front wheels  102  may be driven by individual wheel motors  154  connected with each front wheel  102  as shown in FIG. 5. The individual wheel motors  154  can be each individually controlled, i.e. braked and/or driven, either forward or reverse by the operator to facilitate turning of the loader.  
         [0054]    The frame supports an engine  150  connected to a hydraulic pump  152  and the individual wheel motors  154 . The engine  150  powers the hydraulic pump  152  which operates the mechanical hydraulic system  160  to be described in further detail below. The individual wheel motors  154  may be hydraulically driven and are connected between hydraulic pump  152  and the front wheels  102  to provide an individual wheel power drive to the front wheels  102  of the personal loader  100 .  
         [0055]    [0055]FIGS. 6 and 7 show one type of accessory attachment  80 , namely a bucket loader, having a back plate  71  designed to matchingly engage with and being supported by the attachment mechanism  20 ,  120  at the free end  34 ,  134  of the loader arms  30 ,  130 . A further description of the back plate  71  will be provided below.  
         [0056]    Turning to FIG. 7, the attachment mechanism  20 , 120  attached to the loader arms  30 , 130  is provided with a face plate  21  having a front side  22  and a back side  23 , the back side  23  supporting a pair of manually actuated levers  24 , although it is conceivable that a single lever could be utilized as well. The levers  24  operate via a common mechanical link pin mechanism having an adjustment link  25  and an engagement pin  26 . Engagement pin  26  is operable in an engaged and a disengaged position via actuation of the levers.  
         [0057]    In the engaged position an attachment accessory having the back plate  71  is mounted to the front side  22  of the face plate  21  as will be described below, and an operator, during engagement and disengagement operations, rotates the handles or the levers  24  and thus moves the engagement pins either into or out of holes  27  provided in the face plate  21  to engage respective holes in the back plate  71 . The face plate  21  is provided with the hole or passage  27  therethrough which the engagement pin  23  is moved via actuation of the levers. In the disengaged position, the pin  23  is removed from the hole  27  and in the engaged position extends all the way therethrough to affix the attachment accessory  80  to the face plate  21 .  
         [0058]    Observing FIG. 8, each attachment accessory  80  is provided with the matching back plate  71  designed to matchingly engage with the front side  22  of the face plate  21  of the attachment mechanism  20 . The back plate  71  is provided with an upper lip  73  which is intended to engage an upper edge  28  of the face plate  21 . A matching hole or orifice  77  is provided in a matching lower portion of the back plate  71  through which the engagement pin  26  extends when the lever is rotated into the engaged position. Thus, as can be readily observed by one of ordinary skill in the art, the attachment accessory  80  is held in both vertical and horizontal privity with the face plate  21 . Such attachment mechanisms are well known and capable of being constructed in numerous ways. The importance of the present invention being that it is simple and may be manufactured to be readily compatible with any number of different accessories to be used in conjunction with the personal loader  1 .  
         [0059]    Since certain changes may be made in the above described improved personal loader device, without departing from the spirit and scope of the invention herein involved, it is intended that all of the subject matter of the above description or shown in the accompanying drawings shall be interpreted merely as examples illustrating the inventive concept herein and shall not be construed as limiting the invention.

Summary:
A three or four wheeled miniature personal loader device driven by an engine or motor and provided with a powered drive unit having a simplified hydrostatic differential which allows the device to turn quickly within its own wheel base. The personal loader is provided with a front pair of drive wheels and a pair of rear steerable wheels or a single rear steerable wheel. The loader may be provided with the rear wheel or wheels being directly steered via known steering linkages and power assist steering mechanisms or in the alternative either a single or pair of castor type wheels which are not directly steered but are indirectly steerable by the operators manual maneuvering of the loader. The engine is also connected a hydraulic pump for providing appropriate regulation of a hydraulic system operating the hydraulically controlled loader mechanisms. An operator walking or standing behind the machine and within reach of the control handle may control the vehicle speed and steering as well as the hydraulic system mechanism manipulation via a series of manual controls on a control handle.