BENDIX R-7 MODULATING VALVE Manual - Page 2

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SECONDARY SERVICE CIRCUIT

CONTROL

PORT

SPRING

BRAKE

ACTUATOR

INLET/EXHAUST

VALVE

PRIMARY -

SECONDARY -

PARK -

FIGURE 3 - CHARGING

SECONDARY

SERVICE

CONTROL

CIRCUIT

PORT

SPRING

BRAKE

ACTUATOR

INLET/EXHAUST

VALVE

PRIMARY -

SECONDARY -

PARK -

FIGURE 4 - NORMAL SERVICE APPLICATION

NOTE: The force of the spring below the balance piston is

adjustable by an external screw on the modulating

valve. This adjustment is normally made so that

the inlet valve will close at a slightly greater pressure

than the hold-off pressure of the spring brake

actuator, but below maximum system pressure.

OPERATION - NORMAL SERVICE APPLICATION

(FIGURE 4)

When a service application is made by actuating the dual

brake valve, air from the primary circuit is delivered to the

lower side of the control piston through the balance port,

and air from the secondary circuit is delivered to the top of

the control piston through the control port. Because air

pressure from the primary and secondary circuits are not

equal, there will be a slight movement of the control piston.

#1 RES.

#2 RES.

EXHAUST

PORT

DUAL BRAKE

CONTROL

VALVE

PISTON

PRIMARY

SERVICE

CIRCUIT

BALANCE

PORT

DOUBLE

CHECK VALVE

SUPPLY

PORT

SINGLE

PARK

CHECK

CONTROL

VALVE

BALANCE PISTON

+ SPRING BRAKE HOLD-OFF PRESSURE

- SERVICE AIR PRESSURE

o ATMOSPHERE PRESSURE

#1 RES.

EXHAUST

#2 RES.

CONTROL

PORT

PISTON

DUAL BRAKE

VALVE

PRIMARY SERVICE

CIRCUIT

BALANCE

PORT

DOUBLE

CHECK VALVE

SUPPLY

PORT

SINGLE

PARK

CHECK

CONTROL

VALVE

BALANCE PISTON

+ SPRING BRAKE HOLD-OFF PRESSURE

- SERVICE AIR PRESSURE

o ATMOSPHERE PRESSURE

SECONDARY SERVICE CIRCUIT

CONTROL

PORT

SPRING

BRAKE

ACTUATOR

INLET/EXHAUST

VALVE

PRIMARY -

SECONDARY -

PARK -

FIGURE 5 - SERVICE APPLICATION LOSS OF PRIMARY

CIRCUIT

OPERATION - SERVICE APPLICATION WITH LOSS OF

AIR IN PRIMARY CIRCUIT (FIGURE 5)

A service application made with a loss of air in the primary

circuit would result in reduced air pressure delivered to the

lower area of the control piston. Air pressure from the

secondary circuit on top of the control piston would force

the piston down, opening the exhaust valve and allowing air

pressure in the spring cavity of the spring brake actuator to

release and the spring brake actuator to apply the brakes.

The pressure differential between the primary and secondary

circuits regulates the amount of air pressure released from

the spring cavity of the spring brake actuator. This results

in a total brake application on the rear axle which is

proportionate to the braking on the other axles.

SECONDARY

SERVICE

CIRCUIT

CONTROL

PORT

SPRING

BRAKE

ACTUATOR

INLET/EXHAUST

VALVE

PRIMARY -

SECONDARY -

PARK -

FIGURE 6 - SERVICE APPLICATION LOSS OF SECONDARY

CIRCUIT

#1 RES.

#2 RES.

EXHAUST

PORT

CONTROL

DUAL BRAKE

PISTON

VALVE

PRIMARY SERVICE

CIRCUIT

BALANCE

PORT

DOUBLE

CHECK

VALVE

SUPPLY

PORT

PARK

SINGLE

CONTROL

CHECK

VALVE

BALANCE PISTON

+ SPRING BRAKE HOLD-OFF PRESSURE

- SERVICE AIR PRESSURE

o ATMOSPHERE PRESSURE

#1 RES.

#2 RES.

EXHAUST

PORT

CONTROL

DUAL BRAKE

PISTON

VALVE

PRIMARY SERVICE

CIRCUIT

BALANCE PORT

DOUBLE

CHECK VALVE

SUPPLY

PORT

SINGLE

CONTROL

CHECK

VALVE

BALANCE PISTON

+ SPRING BRAKE HOLD-OFF PRESSURE

- SERVICE AIR PRESSURE

o ATMOSPHERE PRESSURE

PARK