Rear Suspensions

Vehicle suspension systems are an important factor in the ride quality, stability, and ongoing maintenance of an apparatus.  When developing specifications for the rear suspension on a fire apparatus, consideration should be given to handling, ride quality, chassis/equipment protection, initial cost, capacity, and total cost of ownership.

Ride quality is a function of wheel travel and the spring rate of the suspension.  Ride quality is not only a benefit for vehicle occupants but provides protection for the vehicle and the equipment it carries.  The amount of allowable wheel travel is determined by vehicle packaging and the spring rate of the system.

Roll stiffness is a key consideration for vehicle design due to the high center of gravity that fire apparatus typically exhibits.  There is a balance, and sometimes a tradeoff, between roll stiffness, ride quality, and off-road traction.  Lower roll stiffness results in better off-road mobility but may introduce a feeling of instability in a high center of gravity apparatus. Higher roll stiffness may result in lower ride quality but will offer better stability during high-speed maneuvers.

There are 4 basic rear suspension types:  multi-leaf spring, rubber, air ride, and independent.  This guide will provide a description, pros and cons, operating environment considerations, and capacity ranges for each suspension type.

Rear suspensions can be specified as a single axle or tandem axle configurations.  For custom fire trucks, single axle rear suspensions cover capacities from 20,000lbs up to 35,000lbs. The fire truck industry has been pushing the rear single axle capacities higher to allow for shorter wheelbase to improve maneuverability over what can be achieved with a tandem configuration.  The tandem axle suspensions cover capacities from 40,000lbs up to 70,000lbs. There are some different options for the tandem configurations so this guide will try and cover both.

Higher cost suspensions often result in better operating characteristics such as ride quality and lower cost of maintenance.  This guide will provide a description, pros and cons, and operating environment considerations for the typical types of suspensions used in the fire truck industry.

This system is currently the most common in fire apparatus.  A steel multi-leaf spring suspension is a stack of individual leaf springs between the vehicle frame rails and the axle.  Spring suspensions are available for both single axle and tandem axle applications.  The spring packs are responsible for supporting the vertical load as well as providing roll stability which creates a compromise between ride quality, traction, and roll stability.

Torque Reactive Air ride suspensions are available in both single and tandem axle configurations.  These systems use an air spring to isolate road inputs and height control valves to maintain a constant ride height.  Torque reactive air ride suspensions are considered entry level air rides. Torque reactive air suspensions connect solid to the axle and do not use a longitudinal upper torque rod.  This causes the axle to swing through an arc.  The suspension geometry will cause the trucks body to rise during acceleration and squat during braking events.

Non-Torque Reactive Air Ride Suspensions are available in both single and tandem axle configurations.  These systems use an air spring to isolate road inputs and height control valves to maintain a constant ride height.  Non-Torque Reactive Air Ride Suspensions are considered the premium level air ride. Non-Torque Reactive Air Suspensions have an added pivot point at the axle connection and an added longitudinal upper torque rod(s).  This allows the axle to move almost straight up and down and better controls the acceleration and brake toque, so body does not change height during those events. This keeps the drive line in its optimal geometry.

Independent Rear Drive Suspensions are available in both single and tandem axle configurations.  This system uses steel coil springs to isolate road inputs.

As the name implies, rubber is used to provide the “spring” between the axle and frame to isolate road inputs.  Differing rubber hardness, or durometer, can be used to achieve the desired weight capacity and ride quality.  The rubber springs are responsible for supporting the vertical load as well as providing roll stability which creates a compromise between ride quality and roll stability.

The Air Over Walking Beam Air Ride suspension has a Non-Torque Reactive Air Suspension on top of the walking beam to optimize the relationship of ride quality, roll stability, and off-road mobility and traction.  These systems use an air spring to isolate road inputs and height control valves to maintain a constant ride height.  Air springs have internal rubber up stops that allow the system to become a rubber ride if system air pressure is lost so mission can be completed.