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CHIPS Articles: Navy Designs Mechanized Rear-Door Assist for Mine Resistant Vehicles

Navy Designs Mechanized Rear-Door Assist for Mine Resistant Vehicles
By Alan Canfield and Dan Broadstreet, NSWC Panama City Division - March 13, 2013
PANAMA CITY, FL – The U.S. Marine Corps' Mine Resistant Ambush Protection (MRAP) Buffalo vehicles were designed to protect Marines from improvised explosive devices and the Navy is improving MRAPs this March by upgrading them with a new rear-door assist (RDA) mechanism.

Naval Surface Warfare Center Panama City Division (NSWC PCD) Buffalo Systems Deputy Project Engineer Steven (Tate) Carow said the Buffalo MRAP trucks currently do not have a power system to assist opening its rear door. "Currently, the vehicle's rear door requires a manual effort to open, and it weighs approximately 500 pounds. It is designed so one person can open it on flat ground. However, should there be an emergency situation like a rollover, if the vehicle has to park on uneven terrain, or even if the heat of the environment affects the door frame’s shape, the door can bind and become difficult to open."

The Buffalo program office provided specific requirements for the RDA system to meet. With a critical requirement to improve crew survivability, some specific requirements addressed included time-to-open, reliability, and environmental protection. NSWC PCD engineers designed the RDA solution to meet these requirements, while utilizing modified commercial-off-the-shelf (COTS) hardware to reduce cost and production schedule. Key components of the design include a COTS linear electric actuator that unlatches the door and a modified COTS hydraulic cylinder that pushes and holds the door open. The design uses a ruggedized motor controller to activate the linear actuator and hydraulic cylinder.

According to Carow, the linear actuator unlatches the door by pulling on the same latch-bar used to manually open the door. Once the latch is disengaged by the linear actuator, the integrated hydraulic cylinder pushes the door open. The integrated cylinder also holds the door fully open for emergency egress, until the controls are reset. The integrated hydraulic cylinder is basically an entire hydraulic circuit driven by a compact motor with no external hoses that can leak or be damaged.

The RDA system can be activated from two locations inside the vehicle and one location outside the vehicle. Multiple internal locations are provided to ensure the crew can open the door in the event of a roll-over. The external switch can be activated by first responders in the event the crew is incapacitated.

Carow said that the COTS cylinders for the RDA required only a minimal modification. "We had the manufacturer increase the cylinder stroke length to fully open the door. Specifying a larger cylinder with standard stroke length would have increased the space claim, power requirements and cost – all factors we were trying to minimize."

Another benefit to the team’s modified COTS solution is the system is self-powered.

“The system has its own battery, which is charged from the truck’s alternator, so even if the truck’s batteries become disabled, the system has enough stored energy to open the door many times,” Carow said.

Carow explained that should the RDA battery fail for some reason, there is a backup to the normal battery-powered activation. "If all else fails, we have a manual way to crank out the pump’s hydraulic cylinder. A Marine can pull out a handle, which fits into a slot in the integrated hydraulic cylinder and he or she can then simply use this to jack the door open."

The Marine Corps Systems Command Assistant Program Manager for the Cat III Buffalo MRAP, Albert Shaw, said the collaboration with NSWC PCD was a win-win situation because the partnership is producing effective solutions that in many cases can be shared by several Department of Defense (DoD) entities.

"This partnering for solutions is exemplary of the DoD acting as good stewards of taxpayer’s dollars,” Shaw said. "It’s American ingenuity at its best."

Naval Surface Warfare Center Panama City (NSWC PCD) Buffalo Systems Deputy Project Engineer Steven (Tate) Carow sits near the Rear-Door Assist (RDA) mechanism. The RDA is an upgrade developed to push and hold open the rear door aboard the U.S. Marine Corps Buffalo Mine Resistant Ambush Protected vehicle. For Carow and his team completion of this particular capability insertion helps to fulfill a critical requirement to improve crew survivability. The design uses a ruggedized motor controller, which activates a linear actuator and hydraulic cylinder. (Photo by Dan Broadstreet)
Naval Surface Warfare Center Panama City (NSWC PCD) Buffalo Systems Deputy Project Engineer Steven (Tate) Carow sits near the Rear-Door Assist (RDA) mechanism. The RDA is an upgrade developed to push and hold open the rear door aboard the U.S. Marine Corps Buffalo Mine Resistant Ambush Protected vehicle. For Carow and his team completion of this particular capability insertion helps to fulfill a critical requirement to improve crew survivability. The design uses a ruggedized motor controller, which activates a linear actuator and hydraulic cylinder. (Photo by Dan Broadstreet)

Naval Surface Warfare Center Panama City (NSWC PCD) Buffalo Systems Deputy Project Engineer Steven (Tate) Carow shows the location of the Rear-Door Assist (RDA) mechanism. The RDA is a modified commercial-off-the-shelf (COTS) hydraulic cylinder that pushes and holds open the rear door aboard the U.S. Marine Corps Buffalo Mine Resistant Ambush Protected vehicle. The MRAP’s rear door normally requires a manual effort to open. The RDA mechanism is an upgrade designed to assist opening the vehicle’s door in situations like a roll-over, if the vehicle has to park on uneven terrain or if environmental heat affects the door’s frame. (Photo by Dan Broadstreet)
Naval Surface Warfare Center Panama City (NSWC PCD) Buffalo Systems Deputy Project Engineer Steven (Tate) Carow shows the location of the Rear-Door Assist (RDA) mechanism. The RDA is a modified commercial-off-the-shelf (COTS) hydraulic cylinder that pushes and holds open the rear door aboard the U.S. Marine Corps Buffalo Mine Resistant Ambush Protected vehicle. The MRAP’s rear door normally requires a manual effort to open. The RDA mechanism is an upgrade designed to assist opening the vehicle’s door in situations like a roll-over, if the vehicle has to park on uneven terrain or if environmental heat affects the door’s frame. (Photo by Dan Broadstreet)

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