Self mounting ballast weight system

The invention claimed is: 1. A working vehicle having a vehicle frame and a ballast weight system mounted on a front end region of the vehicle frame, the ballast weight system comprising: a fulcrum mounted on the vehicle frame; a ballast weight configured to pivot between a mounting configuration in which the ballast weight is resting on the ground in a condition to be mounted on the working vehicle and an operational configuration in which the ballast weight is carried by the vehicle frame, wherein the ballast weight has a body portion with a ground interfacing surface that is downward facing when the ballast weight is resting on the ground and forward facing when the ballast weight is pivoted to the operational configuration, wherein the ballast weight has a mounting arm and a lower corner portion, the upper mounting arm having a recess formed therein configured to interact with the fulcrum, wherein in the mounting configuration, the recess faces sideways such that the work vehicle can be driven towards the ballast weight until the fulcrum interfaces with the recess; a catch mechanism configured to secure the ballast weight to the fulcrum; a lift mechanism comprising a hydraulic cylinder attached between the ballast weight and a cylinder bracket on the vehicle frame such that the lift mechanism pushes on the corner portion to pivot the ballast weight about the fulcrum between the mounting position to the operational position wherein the hydraulic cylinder has a rod end mounted to the cylinder bracket on the vehicle frame and a piston end mounted to the corner portion of the ballast weight; and a latch mechanism used to secure the ballast weight in the operational position. 2. The working vehicle of claim 1 wherein sides of the recess slope inward toward an apex, thereby allowing interfacing of the ballast weight on the fulcrum if there are slight differences in the height of the fulcrum and the apex of the recess. 3. The working vehicle of claim 1 wherein the lift mechanism is used to pivot the ballast weight from the operation configuration to the mounting configuration while lowering the ballast weight to the ground. 4. The working vehicle of claim 1 wherein the latch mechanism comprises at least one latch portion with an eye thereon on the vehicle frame and a latch portion with an eye on the ballast weight, the eye on the ballast weight aligning with the eye of the latch portion on the vehicle frame when the ballast weight is in the operational position, the latch mechanism further comprising a pin passing through the eyes in the latch portions to hold the ballast weight in the operational position. 5. A working vehicle having a vehicle frame and a ballast weight system mounted on a front end region of the vehicle frame, the ballast weight system comprising: a fulcrum mounted on the vehicle frame; a ballast weight configured to pivot between a mounting configuration in which the ballast weight is resting on the ground in a condition to be mounted on the working vehicle and an operational configuration in which the ballast weight is carried by the vehicle frame, wherein the ballast weight has a body portion with a ground interfacing surface that is downward facing when the ballast weight is resting on the ground and forward facing when the ballast weight is pivoted to the operational configuration, wherein the ballast weight has a mounting arm and a lower corner portion, the upper mounting arm having a recess formed therein configured to interact with the fulcrum, wherein in the mounting configuration, the recess faces sideways such that the work vehicle can be driven towards the ballast weight until the fulcrum interfaces with the recess; a catch mechanism configured to secure the ballast weight to the fulcrum, wherein the catch mechanism is a U-bolt securing the mounting arm to the fulcrum, the U-bolt having legs that pass through bores in the mounting arm; a lift mechanism attached between the ballast weight and the vehicle frame such that the lift mechanism pushes on the corner portion to pivot the ballast weight about the fulcrum between the mounting position to the operational position; and a latch mechanism used to secure the ballast weight in the operational position. 6. The working vehicle of claim 5 wherein sides of the recess slope inward toward an apex, thereby allowing interfacing of the ballast weight on the fulcrum if there are slight differences in the height of the fulcrum and the apex of the recess. 7. The working vehicle of claim 5 wherein the lift mechanism is used to pivot the ballast weight from the operation configuration to the mounting configuration while lowering the ballast weight to the ground. 8. The working vehicle of claim 5 wherein the latch mechanism comprises at least one latch portion with an eye thereon on the vehicle frame and a latch portion with an eye on the ballast weight, the eye on the ballast weight aligning with the eye of the latch portion on the vehicle frame when the ballast weight is in the operational position, the latch mechanism further comprising a pin passing through the eyes in the latch portions to hold the ballast weight in the operational position.