Agricultural toolbar apparatus, systems, and methods

The invention claimed is: 1. An agricultural implement comprising: (a) a center section comprising (i) a center bar coupled to a first inner wing section and a second inner wing section and (ii) a first and second center wheel assembly; (b) a first and second outer wing section, with each outer wing section comprising an outer wing wheel assembly and an outer wing fold actuator; and (c) a control system comprising: (i) a fluid control system comprising a pressurized oil port and tank port that are in fluid communication with a control valve; wherein the control valve is in fluid communication with the first and second outer wing fold actuator and is configured to fold the first and second outer wings when the control valve is opened; and (ii) a monitor in electrical communication with the control valve; wherein the monitor is configured to adjust the pressure in the control valve associated with the first and second outer wing fold actuators; and wherein the monitor is configured to receive a signal from a first and second outer wing wheel load sensor, each of which is associated with the first outer wing wheel assembly and the second outer wing wheel assembly, respectively; wherein the first outer wing fold actuator is pivotally mounted to a first end of the first inner wing section and a second end of the first outer wing section, and the second outer wing fold actuator is pivotally mounted to a first end of the second inner wing section and a second end of the second outer wing section. 2. The implement of claim 1 , wherein the monitor of the control system enables wing folding by opening the control valve, and the fluid control system of the control system is configured to extend or retract the first and second outer wing wheel actuators between several operative positions. 3. The agricultural implement of claim 1 , wherein the monitor of the control system is configured to compare a signal from at least one of the first or second outer wing wheel load sensor and adjust the pressure of the first or second outer wing actuator. 4. An agricultural implement comprising: (a) a center section comprising (i) a center bar coupled to a first inner wing section and (ii) a first center wheel assembly; (b) a first outer wing section, the first outer wing section comprising a first outer wing wheel assembly and a first outer wing fold actuator; and (c) a control system comprising: (i) a fluid control system comprising a pressurized oil port and tank port that are in fluid communication with a control valve, wherein the control valve is in fluid communication with the first outer wing fold actuator and is configured to fold the first outer wing when the control valve is opened; and (ii) a monitor in electrical communication with the control valve; wherein the monitor is configured to adjust the pressure in the control valve associated with the first outer wing fold actuator, and wherein the monitor is configured to receive a signal from a first outer wing wheel load sensor that is associated with the first outer wing wheel assembly; wherein the first outer wing fold actuator is pivotally mounted to a first end of the first inner wing section and a second end of the first outer wing section; and wherein the monitor of the control system enables wing folding by opening the control valve, and the fluid control system of the control system is configured to extend or retract the first outer wing wheel actuator between several operative positions. 5. The agricultural implement of claim 4 , wherein the monitor of the control system is configured to compare a signal from a wing wheel load sensor and adjust the pressure of the outer wing actuator. 6. The agricultural implement of claim 5 , wherein the monitor is configured to increase the pressure of the outer wing actuator if the wing wheel load signal is below a pre-set range, and to decrease the pressure of the outer wing actuator if the wing wheel load signal is above a pre-set range. 7. The agricultural implement of claim 4 , further comprising: a second outer wing wheel section coupled to the center section, wherein the center section further comprises a second inner wing section coupled to the center bar and a second inner wing wheel assembly, and wherein the second outer wing section is coupled to the second inner wing section; and a second outer wing fold actuator, wherein the first outer wing fold actuator is pivotally mounted to a first end of the first inner wing section and a second end of the first outer wing section, and the second outer wing fold actuator is pivotally mounted to a first end of the second inner wing section and a second end of the second outer wing section; wherein the first and second outer wing fold actuators are configured to fold the first and second outer wings, respectively, when the control valve is opened. 8. The agricultural implement of claim 7 , wherein the monitor of the control system enables wing folding by opening the control valve, and the fluid control system of the control system is configured to extend or retract the second outer wing wheel actuator between several operative positions. 9. The agricultural implement of claim 8 , wherein: the control valve is in fluid communication with the second outer wing fold actuator and is configured to fold the second outer wing when the control valve is opened; and the fluid control system of the control system is configured to extend or retract the second outer wing wheel actuator between several operative positions. 10. The agricultural implement of claim 9 , wherein the monitor is configured to distribute weight to the first and second center wheel assemblies and the first and second based on a pre-determined division of between the center wheel assemblies and the wing wheel assemblies. 11. A method of operating the agricultural implement of claim 4 , the method comprising: entering a command into the monitor, wherein the fluid control system extends or retracts the wing wheel actuators and the center wheel actuators; comparing a wing wheel load signal from the wing wheel load sensor to a pre-determined desired range of the wing wheel load; and adjusting the pressure of the outer wing actuator when the wing wheel load signal is above or below the desired wing wheel load. 12. The method of claim 11 , wherein: the monitor is configured to control the control valve to reduce the pressure of the outer wing actuator when the wing wheel load signal is above the desired range; and the monitor is configured to control the control valve to increase the pressure of the outer wing actuator when the wing wheel load signal is below the desired range. 13. The method of claim 11 , further comprising actuating the wing wheel actuator to adjust the amount of pressure on the wing wheel assembly. 14. The method of claim 11 , further comprising extending or retracting the outer wing section actuators.