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Chapter 26

Chapter 26. Suspension Systems. Objectives (1 of 2). Identify and describe the types of suspension systems used on current trucks. List the components used on leaf and multi-leaf spring suspension systems and explain how they work. Describe a fiber composite spring.

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Chapter 26

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  1. Chapter 26 Suspension Systems

  2. Objectives (1 of 2) • Identify and describe the types of suspension systems used on current trucks. • List the components used on leaf and multi-leaf spring suspension systems and explain how they work. • Describe a fiber composite spring. • Identify equalizing beam suspension system components and explain how they function. • Identify torsion bar suspension system components and explain how they function.

  3. Objectives (2 of 2) • Identify air spring suspension system components and explain how they function. • Troubleshoot suspensions and locate defective suspension system components. • Outline suspension system repair and replacement procedures. • Explain the relationship between axle alignment and suspension system alignment. • Perform full chassis suspension system alignments. • Describe the operation of the cab air suspension system.

  4. Suspension Systems (1 of 2) • A suspension system plays a number of roles. • It stabilizes the truck when traveling over smooth highway as well as over rough terrain. • It cushions the chassis from road shock and enables the driver to steer the truck. • It maintains the proper axle spacing and alignment. • It provides a smooth ride when both loaded and unloaded.

  5. Suspension Systems (2 of 2) • Leaf spring • Equalizer beam • Leaf spring and solid rubber spring • Torsion bar • Air spring • Pneumatic-only and combination air/leaf spring

  6. Suspension Terms • Jounce literally means “bump.” • In suspension terminology, it means the most compressed condition of a spring. For instance, many suspensions use jounce blocks to prevent frame-to-axle contact known as suspension slam. • Rebound is the reactive response of a spring after being jounced; it kicks back. • Unsprung weight, an important factor in a suspension, means the weight of any chassis components not supported by the suspension, for instance, the axles. • Ideally it is kept as low as possible because of the reaction effect, which is one of the reasons for spec’ing aluminum wheels. • Oscillation is either rhythmic or irregular vibrations or movements in a suspension. • For instance, a good suspension will minimize jounce/rebound oscillations by using dampening devices such as shock absorbers and multi leaf spring packs.

  7. Leaf-spring Suspensions • A leaf spring is a steel plate or stack of clamped steel plates. • Most leaf springs used in trucks today are manufactured from spring steel. • Spring steel is middle-alloy steel that has been tempered, that is, heat-treated. • The result is to provide a leaf spring plate with considerable ability to flex without permanently deforming. • Leaf springs may consist of a single leaf or a series of leaves clamped together, known as a spring pack.

  8. Spring Pack Principles

  9. Self-dampening • The reason for using multiple leaves clamped together rather than a single piece of metal cut to the same shape has to do with what happens when a load is applied to the spring. • Interleaf friction • Interleaf friction provides a self-dampening characteristic to the spring pack. Two factors ensure a spring pack retains its self dampening. • First, when a spring pack is assembled, the individual leaves must never be lubricated or painted. This would reduce interleaf contact friction. • Second, the function of the center-bolt that clamps the leaves is critical. The tension it loads the leaves under helps define the self-dampening ability of the spring assembly. In the event of a broken center-bolt, much of the self- dampening properties of a spring pack are lost. • Shock absorbers not necessary • The advantage of the multi-leaf spring pack is that shock absorbers can be eliminated.

  10. Shop Talk • When assembling multi-leaf spring packs, never paint or lubricate the contact surfaces of the individual leaves. • The result would limit the self-dampening characteristics of the spring.

  11. Types of Leaf Spring Assemblies • Constant rate • Leaf-type spring assemblies that have a constant rate of deflection • Variable rate • Leaf-type spring assemblies with a variable deflection rate obtained by varying the effective length of the spring assembly

  12. Progressive Spring Operation

  13. Multi-leaf Shackle Spring

  14. Single Drive Axle Spring Suspension

  15. Tandem Axle, Equalizer Spring Suspension System

  16. Semi-elliptical Springs with Shocks

  17. Equalizing Beam Suspension System—Leaf Spring-type

  18. Equalizing Beams with Rubber Cushions

  19. Leaf and Air Suspension System(1 of 2)

  20. Leaf and Air Suspension System (2 of 2)

  21. Height Control Valve

  22. Air Springs

  23. Leaf Spring Suspension Troubleshooting Guide • See Table 26–1 on page 810 of the textbook.

  24. Rough Ride Diagnosis • See Table 26–2 on page 811 of the textbook.

  25. Caution • When checking U-bolts, torque to the original specifications. • Rusty U-bolts should be disassembled, cleaned, and lubricated to ensure that the clamping pressure achieved by torquing is accurate.

  26. Caution • Do not operate a vehicle with a shock absorber removed or defective because this places undue stress on other suspension components.

  27. Shop Talk • Some shock absorber mount brackets have a stud welded to the bracket, rather than a nut and bolt. • This does not alter the installation procedure.

  28. Caution • Failure to properly torque suspension fasteners can result in abnormal tire wear and damage to the springs, spring brackets, and frame rail.

  29. Shop Talk • It is common practice to use SAE grade 8 fasteners in suspension systems but not universal. • Grade 5 bolts flex more than grade 8 bolts and that is required in some applications so replacing them with grade 8 fasteners is not appropriate. The body bound bolts with an interference-fit shank used by some OEMs are always grade 5. • When replacing suspension Huck™ fasteners with bolts, it is generally safe to use grade 8 bolts.

  30. Caution • Failure to properly torque suspension fasteners can result in abnormal tire wear and damage to the springs, spring brackets, and frame rail.

  31. Caution • You must apply Alumilastic™ compound, or an equivalent, to areas where aluminum and steel contact each other or the result will be metal corrosion and severely seized components.

  32. Caution • It is not recommended to remove bushings by burning them out. • Once alight, they burn for a long time producing high heat and noxious fumes.

  33. Torque Rod Disassembly

  34. Caution • Most ride height control valves have a reaction delay that can be as long as 15 seconds. • This is used to prevent continuous correction cycling. • Remember this when diagnosing height control valve problems.

  35. Height Control Valve Centering Pin

  36. Air Spring Replacement

  37. Air Plumbing Diagram

  38. Typical Laser Aligner

  39. Using a Tram Bar to Measure Axle Spread

  40. Use of Framing Square, Straight Edge and Plumb Bob

  41. Axle Alignment Dimension A

  42. Axle Alignment Dimension B

  43. Eccentric Bushing to Adjust Dimension “A”

  44. Eccentric Bushing Movement for Dimension “B”

  45. Alignment Shims

  46. Cab Air Suspension

  47. Summary (1 of 8) • A suspension supports the frame on a vehicle and acts as an intermediary between the axles and the frame. With no suspension, road forces would be transferred directly to the truck frame. • A suspension system plays a number of roles. • It stabilizes the vehicle over both smooth and rough terrain. • It cushions the chassis from road shock, enabling the driver to steer. • It maintains the proper axle spacing and alignment.

  48. Summary (2 of 8) • There are four general categories of suspension used on trucks. • Leaf spring • Equalizer beam • Leaf spring and solid rubber spring • Torsion bar • Air spring • Pneumatic-only and combination air/leaf spring • Jounce describes a spring in its most compressed state, whereas rebound is a spring when it extends after reacting to jounce.

  49. Summary (3 of 8) • Unsprung weight is the vehicle weight not supported by the suspension. • It includes the wheel and axle assemblies. Because unsprung weight reacts directly through the suspension to the frame, it is kept as light as possible. • Constant rate and progressive or variable-rate springs are two types of leaf spring suspension used on trucks. • Auxiliary springs are helper springs and only become a factor when a vehicle is fully loaded.

  50. Summary (4 of 8) • Steel springs are often assembled into semi-elliptical spring packs consisting of a stack of sprung steel plates clamped by a center-bolt. Spring packs are self-dampening because of interleaf friction. • Shock absorbers are used in suspension systems to dampen suspension oscillations. • Shock absorbers reduce tire wear, front wheel shimmy, and spring breakage.

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