Bale weight measurement and control system using liftgate

What is claimed is: 1. A baler that generates a bale of material, comprising: a first housing; a lift gate pivotally movable, relative to the first housing, between a closed position and a lifted position; an actuator that is actuatable to move a moveable member to engage the bale, so the bale is lifted with the lift gate as the lift gate moves from the closed position to the lifted position; and a bale weighing system that generates a bale weight metric indicative of a weight of the bale when the bale is lifted by the lift gate. 2. The baler of claim 1 and further comprising: a controllable subsystem; and a control signal generator configured to generate a control signal to control the controllable subsystem based on the weight metric. 3. The baler of claim 1 wherein the bale weighing system comprises: a position sensor configured to sense a position variable indicative of a lift gate position and generate a position signal indicative of a value of the position variable. 4. The baler of claim 3 wherein the bale weighing system comprises: a force detector configured to detect a force variable indicative of a force used to support the lift gate in the lift gate position and to generate a force signal indicative of a value of the force variable. 5. The baler of claim 4 wherein the bale weighing system comprises: bale weight generation logic configured to receive the position signal and the force signal and generate the bale weight metric based on the value of the position variable and the value of the force variable. 6. The baler of claim 5 and further comprising: a lift gate actuator configured to drive movement of the lift gate from the closed position to the lifted position. 7. The baler of claim 6 wherein the force detector is configured to detect a force used by the lift gate actuator to support the lift gate in the lifted position. 8. The baler of claim 7 wherein the lift gate actuator comprises: a hydraulic cylinder and wherein the force detector is configured to detect a hydraulic pressure in the hydraulic cylinder when the lift gate actuator is supporting the lift gate in the lifted position. 9. The baler of claim 3 wherein the lift gate is pivotable relative to the first housing, about a pivot axis, and wherein the position sensor comprises: an angle sensor configured to sense an angle to which the lift gate has pivoted about the pivot axis. 10. The baler of claim 4 wherein the lift gate defines a bale receiving cavity that receives a portion of the bale, and wherein the actuator comprises a first actuator and the moveable member comprises a first moveable member, coupled to the lift gate on a first side of the bale receiving cavity, the first actuator configured to drive movement of the first moveable member to engage the bale. 11. The baler of claim 10 and further comprising: a second actuator; and a second moveable member, coupled to the lift gate on a second side of the bale receiving cavity opposite the first side, the second actuator configured to drive movement of the second moveable member to engage the bale. 12. The baler of claim 11 wherein the force detector comprises: a load pin on at least one of the first and second moveable members to detect a force exerted by the bale on the at least one moveable member. 13. A baler that generates a bale of material, comprising: a first housing; a lift gate pivotally movable, relative to the first housing, between a closed position and a lifted position; a lift gate actuator that is actuated to drive movement of the lift gate from the closed position to the lifted position; a bale retaining mechanism that includes an actuator that is actuatable to move a moveable member to engage the bale, so the bale is lifted with the lift gate as the lift gate moves from the closed position to the lifted position; a position sensor configured to sense a position variable indicative of a lift gate position and generate a position signal indicative of a value of the position variable; a force detector configured to detect a force variable indicative of a force used to support the lift gate in the lift gate position and to generate a force signal indicative of a value of the force variable; and a bale weighing system that receives the force signal and the position signal and generates a bale weight metric indicative of a weight of the bale when the bale is lifted by the lift gate based on the value of the force variable and the value of the position variable. 14. The baler of claim 13 wherein the baler is towed by a towing vehicle and further comprising: a control system; and a communication subsystem, the control system generating a control signal to control the communication subsystem to communicate the weight metric to a user interface mechanism on the towing vehicle. 15. The baler of claim 13 and further comprising a position sensor configured to sense a geographic position of the baler and further comprising: a control system; and a mapping subsystem configured to correlate the weight metric to a corresponding geographic position, the control system generating a control signal to control the mapping subsystem to generate a weight map based on the weight metric and the corresponding geographic position. 16. The baler of claim 13 and further comprising: a control system; and moisture estimation logic, the control system generating a control signal to control the moisture estimation logic to estimate a moisture level of the bale and to generate a moisture metric signal indicative of the estimated moisture. 17. A method of controlling a baler, comprising: generating a bale of material in a chamber defined by a first housing and a lift gate pivotally movable, relative to the first housing, between a closed position and a lifted position; actuating a bale retaining mechanism to engage the bale so the bale is lifted with the lift gate as the lift gate moves from the closed position to the lifted position; actuating a lift gate actuator to drive movement of the lift gate from the closed position to the lifted position; sensing a position variable indicative of lift gate position; generating a position signal indicative of a value of the position variable; detecting a force variable indicative of a force used to support the lift gate in the lift gate position; generating a force signal indicative of a value of the force variable; and generating a bale weight metric indicative of a weight of the bale when the bale is lifted by the lift gate, based on the value of the position variable and the value of the force variable. 18. The method of claim 17 and further comprising: a controllable subsystem; and a control signal generator configured to generate a control signal to control the controllable subsystem based on the weight metric. 19. The method of claim 17 wherein detecting the force variable comprises: detecting a force used by the lift gate actuator to support the lift gate in the lifted position. 20. The method of claim 19 wherein the lift gate is pivotable relative to the first housing, about a pivot axis, and wherein sensing a position variable comprises: sensing an angle to which the lift gate has pivoted about the pivot axis.