Lateral tilt control system for an agricultural harvester

What is claimed is: 1. A lateral tilt control system for an agricultural harvester including a support structure and an implement pivotally coupled to the support structure, the system comprising: a first tilt cylinder coupled between the support structure and the implement, the first tilt cylinder including a first cap-side chamber and a first rod-side chamber; a second tilt cylinder coupled between the support structure and the implement, the second tilt cylinder including a second cap-side chamber and a second rod-side chamber; a first fluid line providing a flow path between the first cap-side chamber of the first tilt cylinder and the second rod-side chamber of the second tilt cylinder to fluidly couple the first cap-side chamber to the second rod-side chamber; a second fluid line providing a flow path between the first rod-side chamber of the first tilt cylinder and the second cap-side chamber of the second tilt cylinder to fluidly couple the first rod-side chamber to the second cap-side chamber; and a pressure relief valve coupled between the first and second fluid lines, the pressure relief valve being configured to be opened to allow fluid to be transferred between the first and second fluid lines when a fluid pressure within one of the first fluid line and the second fluid line exceeds a relief pressure setting associated with the pressure relief valve. 2. The system of claim 1 , wherein, when the fluid pressure within the first fluid line exceeds the relief pressure setting, fluid contained within the first fluid line is transferred through the relief pressure valve to the second fluid line to allow the implement to pivot relative to the support structure in a first direction. 3. The system of claim 2 , wherein, when the fluid pressure within the second fluid line exceeds the relief pressure setting, fluid contained within the second fluid line is transferred through the relief pressure valve to the first fluid line to allow the implement to pivot relative to the support structure in a second direction opposite the first direction. 4. The system of claim 1 , further comprising a controller communicatively coupled to the pressure relief valve, the controller being configured to electronically control operation of the pressure relief valve based on the relief pressure setting. 5. The system of claim 4 , wherein the controller is configured to adjust the relief pressure setting associated with the pressure relief valve based on inputs received from an operator of the agricultural harvester. 6. The system of claim 4 , further comprising at least one pressure sensor provided in flow communication with each of the first and second fluid lines, the controller being further configured to monitor the fluid pressure within the first and second fluid lines based on sensor measurements provided by the at least one pressure sensor and compare the monitored fluid pressure to the relief pressure setting associated with the pressure relief valve. 7. The system of claim 1 , further comprising at least one control valve provided in flow communication with the first and second fluid lines, the at least one control valve being configured to regulate a supply of fluid from a pressurized fluid source to the first and second fluid lines. 8. The system of claim 7 , wherein the at least one control valve is configured to cut-off the supply of fluid from the pressurized fluid source when the first and second tilt cylinders are operating in a passive control mode to form a closed-loop fluid circuit between the first and second fluid lines across the pressure relief valve. 9. The system of claim 1 , wherein the implement is configured to pivot relative to the support structure about a pivot point, the first and second tilt cylinders being positioned on opposite lateral sides of the pivot point. 10. The system of claim 1 , wherein the implement comprises a header of the agricultural harvester and the support structure comprises a feeder of the agricultural harvester. 11. An agricultural harvester, comprising: a feeder; a header pivotally coupled to the feeder; and a lateral tilt control system configured to allow the header to pivot relative to the feeder to adjust a lateral orientation of the header, the lateral tilt control system comprising: a first tilt cylinder coupled between the header and the feeder, the first tilt cylinder including a first cap-side chamber and a first rod-side chamber; a second tilt cylinder coupled between the header and the feeder, the second tilt cylinder including a second cap-side chamber and a second rod-side chamber; a first fluid line providing a flow path between the first cap-side chamber of the first tilt cylinder and the second rod-side chamber of the second tilt cylinder to fluidly couple the first cap-side chamber to the second rod-side chamber; a second fluid line providing a flow path between the first rod-side chamber of the first tilt cylinder and the second cap-side chamber of the second tilt cylinder to fluidly couple the first rod-side chamber to the second cap-side chamber; and a pressure relief valve coupled between the first and second fluid lines, the pressure relief valve being configured to be opened to allow fluid to be transferred between the first and second fluid lines when a fluid pressure within one of the first fluid line and the second fluid line exceeds a relief pressure setting associated with the pressure relief valve. 12. The agricultural harvester of claim 11 , wherein, when the fluid pressure within the first fluid line exceeds the relief pressure setting, fluid contained within the first fluid line is transferred through the relief pressure valve to the second fluid line to allow the header to pivot relative to the feeder in a first direction. 13. The agricultural harvester of claim 12 , wherein, when the fluid pressure within the second fluid line exceeds the relief pressure setting, fluid contained within the second fluid line is transferred through the relief pressure valve to the first fluid line to allow the header to pivot relative to the feeder in a second direction opposite the first direction. 14. The agricultural harvester of claim 11 , further comprising a controller communicatively coupled to the pressure relief valve, the controller being configured to electronically control operation of the pressure relief valve based on the relief pressure setting. 15. The agricultural harvester of claim 14 , wherein the controller is configured to adjust the relief pressure setting associated with the pressure relief valve based on inputs received from an operator of the agricultural harvester. 16. The agricultural harvester of claim 14 , further comprising at least one pressure sensor provided in flow communication with each of the first and second fluid lines, the controller being further configured to monitor the fluid pressure within the first and second fluid lines based on sensor measurements provided by the at least one pressure sensor and compare the monitored fluid pressure to the relief pressure setting associated with the pressure relief valve. 17. The agricultural harvester of claim 11 , further comprising at least one control valve provided in flow communication with the first and second fluid lines, the at least one control valve being configured to regulate a supply of fluid from a pressurized fluid source to the first and second fluid lines. 18. The agricultural harvester of claim 17 , wherein the at least one control valve is configured to cut-off the supply of fluid from the pressurized flui