Valve module for an air braking system of a heavy vehicle

What is claimed is: 1. A valve module for a vehicle having a compressed air supply, a driver demand device for providing a driver demand pressure indicative of driver intent to apply brakes, one or more brake chambers, and a controller for controlling delivery of air flow through the valve module to the one or more brake chambers to control an autonomous braking event of the vehicle, the valve module comprising: a relay valve having a control port, a supply port, and a delivery port, wherein (i) the supply port of the relay valve is connectable in fluid communication with the compressed air supply, and (ii) the delivery port of the relay valve is connectable in fluid communication with the one or more brake chambers; a first solenoid valve having a first solenoid, a supply port, and a delivery port connected in fluid communication with the control port of the relay valve; and a second solenoid valve having a second solenoid, a supply port, and a delivery port connected in fluid communication with the control port of the relay valve, wherein (i) the first solenoid is responsive to a first electrical signal from the controller to deliver a first control pressure from the driver demand device at the supply port of the first solenoid valve through the first solenoid valve to the control port of the relay valve to control air flow from the supply port of the relay valve through the relay valve to the delivery port of the relay valve to control air flow to the one or more brake chambers and thereby to control the autonomous braking event of the vehicle, and (ii) the second solenoid is responsive to a second electrical signal from the controller to deliver a second control pressure control signal from the compressed air supply delivered through an orifice to the supply port of the second solenoid valve through the second solenoid valve to the control port of the relay valve only when no first control pressure is being delivered from the driver demand device through the first solenoid valve to the control port of the relay valve and (iii) the control port of the relay valve is exhausted through the driver demand device in response to the termination of the first electrical signal at the first solenoid and the termination of the second electrical signal at the second solenoid. 2. The valve module according to claim 1 , further comprising: a one-way check valve having an inlet port connectable in fluid communication with the driver demand device and being operatively connected in fluid communication with the first solenoid valve, wherein: after the first solenoid valve has been activated, the one-way check valve allows for increase of the first control pressure that is being applied to the control port of the relay valve in response to an increase of driver demand pressure at the driver demand device. 3. The valve module according to claim 2 , wherein the first control pressure control signal from the driver demand device is delivered only through the first solenoid valve and not at all through the second solenoid valve to the control port of the relay valve. 4. The valve module according to claim 3 , wherein an output port of the one-way check valve is connected in fluid communication with the first solenoid valve such that the one-way check valve is effectively connected in parallel with the first solenoid valve. 5. The valve module according to claim 1 , wherein the first solenoid valve comprises an activatable 2/2 valve that, when activated in response to the first electrical signal from the controller, moves from a first position in which air is allowed to flow through the first solenoid valve to the control port of the relay valve to a second position in which air is blocked from flowing through the first solenoid valve to the control port of the relay valve. 6. The valve module according to claim 5 , wherein the second solenoid valve comprises an activatable 2/2 valve that, when activated in response to the second electrical signal from the controller, moves from a first position in which air is blocked from flowing through the second solenoid valve to the control port of the relay valve to a second position in which air is allowed to flow through the second solenoid valve to the control port of the relay valve. 7. The valve module according to claim 1 , wherein the relay valve comprises an air-operated, graduating directional control valve. 8. The valve module according to claim 1 , wherein the autonomous braking event comprises hill start assist (HSA). 9. A valve module for a vehicle having a compressed air supply, a driver demand device for providing a driver demand input pressure indicative of driver intent to apply brakes, one or more brake chambers, and a controller for controlling delivery of air flow through the valve module to the one or more brake chambers to control an autonomous braking event of the vehicle, the valve module comprising: a relay valve having a control port, a supply port, and a delivery port, wherein (i) the supply port of the relay valve is connectable in fluid communication with the compressed air supply, and (ii) the delivery port of the relay valve is connectable in fluid communication with the one or more brake chambers; a first solenoid valve having a supply port, a delivery port, and a solenoid that is controllable in response to a first electrical signal from the controller, wherein (i) the supply port of the first solenoid valve is connectable in fluid communication with the driver demand device, and (ii) the delivery port of the first solenoid valve is connected in fluid communication with the control port of the relay valve; a second solenoid valve having a supply port, a delivery port, and a solenoid that is controllable in response to a second electrical signal from the controller, wherein (i) the supply port of the second solenoid valve is connectable in fluid communication through an orifice with the compressed air supply, and (ii) the delivery port of the second solenoid valve is connected in fluid communication with the control port of the relay valve and the delivery port of the first solenoid valve; and a one-way check valve having an inlet port connected in fluid communication with the supply port of the first solenoid valve and an outlet port connected in fluid communication with the control port of the relay valve and the delivery ports of the first and second solenoid valves; wherein (i) the first solenoid valve comprises an activatable 2/2 valve that, when activated in response to the first electrical signal from the controller, moves from a first position in which air is allowed to flow through the first solenoid valve to the control port of the relay valve to a second position in which air is blocked from flowing through the first solenoid valve to the control port of the relay valve; (ii) the second solenoid valve comprises an activatable 2/2 valve that, when activated in response to the second electrical signal from the controller, moves from a first position in which air is blocked from flowing through the second solenoid valve to the control port of the relay valve to a second position in which air is allowed to flow through the second solenoid valve to the control port of the relay valve; and (iii) the relay valve comprises an air-operated, graduating directional control valve; wherein air is exhausted from the control port of the relay valve through the driver demand device in response to the first solenoid valve and the second solenoid valve being deactivated.