Variable hydraulic pressure relief systems and methods for a material handling vehicle

I claim: 1. A hydraulic control system for a material handling vehicle, the material handling vehicle including a pump having a pump outlet, a reservoir, one or more hydraulic actuators, and a controller, the pump outlet is in fluid communication with a supply passage and the reservoir is in fluid communication with a return passage, the one or more hydraulic actuators are configured to raise and lower a fork assembly attached to a mast of the material handling vehicle, and the controller is in communication with a height sensor configured to measure a height of the fork assembly, the hydraulic control system comprising: a high pressure relief valve configured to provide fluid communication from the supply passage to the reservoir when a pressure upstream of the high pressure relief valve exceeds a high pressure threshold; a low pressure relief valve arranged on a low pressure relief line, the low pressure relief line connected between the supply passage and the return passage; and a low pressure control valve arranged on the low pressure relief line upstream of the low pressure relief valve, the low pressure control valve moveable between a control valve open position where fluid communication is provided from the supply passage to the low pressure relief valve and a control valve closed position where fluid communication is inhibited from the supply passage to the low pressure relief valve, wherein the low pressure relief valve is configured to provide fluid communication from the supply passage to the reservoir when the low pressure control valve is in the control valve open position and a pressure upstream of the low pressure relief valve exceeds a low pressure threshold, the low pressure threshold is less than the high pressure threshold, and the low pressure control valve is moveable between the control valve open position and the control valve closed position when the fork assembly reaches a predetermined elevated height sensed by the height sensor. 2. The hydraulic control system of claim 1 , wherein when the fork assembly reaches the predetermined elevated height, the low pressure control valve is moved to the control valve open position. 3. The hydraulic control system of claim 2 , further comprising: a second low pressure relief valve arranged on a second low pressure relief line, the second low pressure relief line connected between the supply passage and the return passage upstream of the low pressure relief valve. 4. The hydraulic control system of claim 3 , further comprising: a second low pressure control valve arranged on the second low pressure relief line upstream of the second low pressure relief valve, the second low pressure control valve moveable between a second control valve open position where fluid communication is provided from the supply passage to the second low pressure relief valve and a second control valve closed position where fluid communication is inhibited from the supply passage to the second low pressure control valve. 5. The hydraulic control system of claim 4 , wherein the second low pressure relief valve is configured to provide fluid communication from the supply passage to the reservoir when the second low pressure control valve is in the second control valve open position and a pressure upstream of the second low pressure relief valve exceeds a second low pressure threshold. 6. The hydraulic control system of claim 5 , wherein the second low pressure threshold is less than the low pressure threshold and the second low pressure control valve is moveable between the second control valve open position and the second control valve closed position when the fork assembly reaches a second predetermined elevated height. 7. The hydraulic control system of claim 6 , wherein when the fork assembly reaches the second predetermined elevated height, the second low pressure control valve is moved to the second control valve open position. 8. A hydraulic control system for a material handling vehicle, the material handling vehicle including a pump having a pump outlet, a reservoir, one or more hydraulic actuators, and a controller, the pump outlet is in fluid communication with a supply passage and the reservoir is in fluid communication with a return passage, the one or more hydraulic actuators are configured to raise and lower a fork assembly attached to a mast of the material handling vehicle, the controller is in communication with a height sensor configured to measure a height of the fork assembly, the hydraulic control system comprising: a variable pressure relief valve configured to provide fluid communication from the supply passage to the reservoir when a pressure upstream of the variable pressure relief valve exceeds a variable pressure threshold; wherein the variable pressure threshold is set by the controller based on the height of the fork assembly. 9. The hydraulic control system of claim 8 , wherein when the height of the fork assembly is below a first elevation threshold, the variable pressure threshold is set to a first pressure threshold. 10. The hydraulic control system of claim 9 , wherein when the height of the fork assembly reaches the first elevation threshold, the variable pressure threshold is set to a second pressure threshold that is lower than the first pressure threshold. 11. The hydraulic control system of claim 10 , wherein when the height of the fork assembly reaches a second elevation threshold, the variable pressure threshold is set to a third pressure threshold. 12. The hydraulic control system of claim 11 , wherein the second elevation threshold is higher than the first elevation threshold and the third pressure threshold is lower than the second pressure threshold. 13. The hydraulic control system of claim 12 , wherein when the height of the fork assembly reaches a third elevation threshold, the variable pressure threshold is set to a fourth pressure threshold. 14. The hydraulic control system of claim 13 , wherein the third elevation threshold is higher than the second elevation threshold and the fourth pressure threshold is lower than the third pressure threshold. 15. The hydraulic control system of claim 14 , wherein when the height of the fork assembly reaches a fourth elevation threshold, the variable pressure threshold is set to a fifth pressure threshold. 16. The hydraulic control system of claim 15 , wherein the fourth elevation threshold is higher than the third elevation threshold and the fifth pressure threshold is lower than the fourth pressure threshold. 17. The hydraulic control system of claim 8 , wherein the controller is in communication with a pressure sensor configured to measure a pressure upstream of the variable pressure relief valve. 18. The hydraulic control system of claim 17 , wherein the variable pressure threshold is set by the controller based on the pressure upstream of the variable pressure relief valve. 19. The hydraulic control system of claim 18 , wherein when the pressure upstream of the variable pressure relief valve is below a corresponding pressure threshold for the height of the fork assembly, the variable pressure threshold is set above the pressure upstream of the variable pressure relief valve. 20. The hydraulic control system of claim 18 , wherein when the pressure upstream of the variable pressure relief valve reaches a corresponding pressure threshold for the height of the fork assembly, the variable pressure threshold is set to the corresponding pressure threshold.