Abstract:
A backhoe or other similar earth working apparatus has a frame that mounts on a vehicle, such as a skid steer loader or tractor. A pair of stabilizer arms mounted to the frame member and pivotable along an arcuate path between raised and lowered positions, each have a stabilizer locking device. The stabilizer locking device comprises a hook member mounted on an exterior surface of an outer end of each stabilizer arm, and a latch member mounted to the frame member for releasably engaging each hook member such that when the hook member is engaged, the stabilizer arm is retained in the raised position.

Description:
BACKGROUND OF THE INVENTION 
     The present invention relates generally to stabilizers for use with backhoes or other similar vehicle mounted excavating devices, and more particularly, to a locking mechanism for the stabilizers while in a raised position. 
     Backhoe frames typically include stabilizers on their outboard sides generally perpendicular to the longitudinal axis of the backhoe boom to support the backhoe and the mounting vehicle during use. Stabilizers which pivot between raised and lowered or working positions are individually driven by hydraulic cylinders in response to operator actuation. When lowered during excavation, the stabilizers stabilize the vehicle to avoid lateral and/or forward movement when working the backhoe. A hydraulic circuit lock-out is often used in the hydraulic drive circuit for the stabilizer hydraulic cylinders to prevent fluid from leaking from the hydraulic cylinders after the stabilizers have been positioned. The hydraulic locks work with the stabilizers in their retracted position when the vehicle is traveling or being stored, and in their extended position during excavation. 
     However, a problem has arisen with the lock-out in the hydraulic circuit, even those with pilot operated check valves, in that when the stabilizers reach the raised or stored position a substantial amount of downward pivoting of the stabilizer occurs with little movement of the rod of the hydraulic cylinders permitted by any small hydraulic fluid leaks from the hydraulic cylinders. 
     SUMMARY OF THE INVENTION 
     The present invention relates to locks for pivoting stabilizer arms of a backhoe frame. In the disclosed embodiment, a pair of stabilizer arms are mounted to the rear exterior portion of a backhoe frame on opposite sides of the backhoe. The stabilizer arms are pivotable along an arcuate path from a lowered position where the stabilizer arms engage the ground and lift the wheels of the vehicle mounting the backhoe during working of the backhoe, to a raised position where the stabilizer arms extend upwardly are positioned and close to the backhoe frame for storage and transport of the backhoe and/or vehicle. A locking mechanism retains each stabilizer arm in the retracted position. 
     In one embodiment, each locking mechanism includes a hook member mounted to the stabilizer arm and a latch member mounted to the backhoe vehicle frame, which slides into locking engagement with the hook member as the stabilizer arm is raised. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a partial side elevational view of a portion of a backhoe mounting frame employing the present invention; 
     FIG. 2 is an enlarged fragmentary view of the present invention showing the latch member contacting the hook member as the stabilizer arm is being pivoted to the raised position; and 
     FIG. 3 is a top plan view of a portion of the backhoe frame employing the present invention. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     One side of a conventional backhoe mounting generally upright frame member 14 is shown in FIG. 1. A frame 14 pivotally mounts at least one stabilizer arm 12 on the side of the generally upright frame member 14 and on a fore and aft extending first pin 16. A hydraulic cylinder 26 is operated to cause the stabilizer arm 12 mounted to upright frame member 14 to be pivotable along an arcuate path between a raised position extending uprightly and adjacent the upright frame member 14 and a lowered position. A separate lock mechanism 10, one for each stabilizer arm 12, prevents undesired downward pivoting movement of the stabilizer arm 12 from its raised position. As mentioned above, when the stabilizer arm is in the raised position a substantial amount of pivoting of the stabilizer arm 12 occurs due to any small leakage of hydraulic fluid from hydraulic cylinder 26, and the stabilizers tend to pivot out of their stored position. 
     First pin 16 mounts an inner end 18 of the stabilizer arm 12 to the backhoe frame 14, which is in turn mounted on a vehicle (not shown). In the raised position, the stabilizer arm 12 extends upward from the first pin 16 and gravity tends to load it downwardly. The first pin 16 permits the stabilizer arm 12 to pivot along an arcuate path from a lowered or extended, working position shown in broken lines in FIG. 1 to a raised or retracted, storage or transport position shown in solid lines in FIG. 1. A stabilizer foot 20, located at an outer end 22 of the stabilizer arm 12, engages the ground surface when the stabilizer arm 12 is lowered. A second pin 24 pivotally mounts the stabilizer foot 20 to the stabilizer arm and permits the foot to self-level itself on the ground surface when the stabilizer arm 12 is in the lowered position. The precise shape, size and location of the stabilizer arm 12 and stabilizer foot 20 can vary according to particular design specifications. 
     A third pin 28 connects a base end of hydraulic cylinder 26 or other actuator drive between flanges 27 on the backhoe frame 14. A fourth pin 32 connects an extendable and retractable piston rod 30 to a bracket 33 at the inner end 18 of the stabilizer arm 12. A hydraulic pump 31 and control valve 29 (both shown schematically) drive the hydraulic cylinder 26. An operator individually controls the hydraulic cylinders (one on each of the sides of the backhoe frame) to drive each stabilizer arm 12 between the lowered working position and the raised or stored travel position. 
     The piston rod 30 of the hydraulic cylinder 26 can also be attached to the outer end 22 of the stabilizer arm 12. In such an arrangement, the base end of the cylinder and pin 28 are typically located in close proximity to the first pivot pin 16. 
     Referring to FIGS. 1-3, the stabilizer lock mechanism 10 includes a hook member 40 mounted on an exterior surface of the outer end 22 of the stabilizer arm 12, and a latch member 42 mounted to the vehicle frame 14 for releasably engaging the hook member 40 such that when the hook member is engaged, the stabilizer arm 12 is retained in the raised position. 
     The hook member 40 is a bar that has a tapered edge 44 on its outermost surface and a recess 46. The combination of the tapered edge 44, which tapers toward an exterior surface of the stabilizer arm on which it is mounted in a direction toward the outer end 22 of the stabilizer arm 12 on which it is mounted. The recess forms a flange or dog 48 for engaging the latch member 42. As the stabilizer arm 12 is pivoted up and is near its raised position, the latch member 42 will be contacted by and slide along the tapered edge 44 of the hook member 40 until it slides over the flange 48, and sets in the recess 46. The latch member 42 automatically latches to retain the stabilizer arm 12 in the raised position until the latch is released. 
     The latch member 42 has a U-shaped latch frame 50 having a pair of legs 51 each with a hub 53 at the outer end. The legs 51 straddle the base end of cylinder 26 and the hubs 53 fit between the cylinder and the support flanges 27 and are pivotally mounted on pin 28 that is used to support the base end of hydraulic cylinder 26. A closed end 51A of the U-shaped latch frame 50 acts as a contact surface for engaging the hook member 40 when the stabilizer arm 12 is raised. The particular shape of the U-shaped latch frame 50 can vary so long as a contact surface is maintained. The hubs 53 allow the latch member 42 to pivot from a down position, shown in broken lines at 54 in FIG. 1, to an up or released position shown in broken lines at 55, to a locked position shown in solid lines 57. When the latch member 42 is in the down position 54, it rests generally perpendicular to the hydraulic cylinder 26 to automatically engage the hook member 40 as the stabilizer arm 12 moves to the raised position. The U-shaped latch frame 50 rests in the up or released position 55 while the stabilizer arm 12 is in the lowered position. In the locked position 57 the latch member 42 engages the hook member 40 and thereby prevents undesirable pivoting of the stabilizer arm 12. 
     Referring to FIG. 3, a plate member 56 positioned on the legs 51 substantially covers the space between the legs of the U-shaped latch frame 50. The plate member 56 has a notch 58 therein permitting the flange 48 of the hook member 40 to engage the closed end 50A of the U-shaped latch frame 50. 
     In operation with the stabilizer arm 12 up, an operator of the backhoe raises the stabilizer arm 12 using valve 29 to release any load on the latch. The operator manually lifts the latch member 42 from the hook member 40 in order release the lock to permit lowering the stabilizer arm 12. With the latch member 42 disengaged from the hook member 40, the operator activates the hydraulic cylinder 26 so that the piston rod 30 extends. The force on the stabilizer arm 12 at and along an arcuate path about the first pivot pin 16. The stabilizer arm 12 continues to move downward until the stabilizer foot 20 engages the ground surface so as to stabilize the vehicle for using the backhoe or other similar device. 
     Before raising the stabilizer arm 12, the operator manually places the latch member 42 in the down position where it protrudes laterally from pin 28 as shown in broken lines in FIG. 1 at 53. As the stabilizer arm 12 is raised along the arcuate path, the tapered edge 44 of the hook member 40 contacts the closed end 51A of the U-shaped latch frame 50 as seen in FIG. 2. The closed end 51A of the U-shaped latch frame 50 slides along the tapered edge 44 of the hook member 40 as the stabilizer arm 12 pivots upward until the U-shaped latch frame 50 raises over the latch dog 48 and settles into the recess 46 thereby automatically engaging the hook member 40 and retaining the stabilizer arm in the raised position. In this position, the lock mechanism 10 prevents any undesired lateral or downward movement of the stabilizer arm 12, which can result from little movement of the piston rod 30 of the hydraulic cylinder 26 due to any small hydraulic fluid leak from the hydraulic cylinder circuit. 
     The hook 40 and latch member 42 form lock members for the stabilizer 12. Thus, one of the lock members has a guide surface which slides against the other lock member as the stabilizer arm approaches its raised position, and guides the other lock member to a position to automatically engage the one lock member as the stabilizer arm 12 reaches its raised position. 
     Although the present invention has been described with reference to preferred embodiments, workers skilled in the art will recognize that changes can be made in form and detail without departing from the spirit and scope of the invention.