Service Manual

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Table Of Contents

6.3

CLUTCHING

Driven Clutch Operation

Driven clutches primarily sense torque, opening and closing

according to the forces applied to it from the drive belt and the

transmission input shaft. If the torque resistance at the trans-

mission input shaft is greater than the load from the drive belt,

the drive belt is kept at the outer diameter of the driven clutch

sheaves.

As engine RPM and horsepower increase, the load from the

drive belt increases, resulting in the belt rotating up toward the

outer diameter of the drive clutch sheaves and downward into

the sheaves of the driven clutch. This action, which increases

the driven clutch speed, is called upshifting.

Should the throttle setting remain the same and the vehicle is

subjected to a heavier load, the drive belt rotates back up toward

the outer diameter of the driven clutch and downward into the

sheaves of the drive clutch. This action, which decreases the

driven clutch speed, is called backshifting.

In situations where loads vary (such as uphill and downhill) and

throttle settings are constant, the drive and driven clutches are

continually shifting to maintain optimum engine RPM. At full

throttle a perfectly matched PVT system should hold engine

RPM at the peak of the power curve. This RPM should be

maintained during clutch upshift and backshift. In this respect,

the PVT system is similar to a power governor. Rather than vary

throttle position, as a conventional governor does, the PVT

system changes engine load requirements by either upshifting or

backshifting.

PVT Break-In (Drive Belt / Clutches)

A proper break-in of the clutches and drive belt will ensure a

longer life and better performance. Break in the clutches and

drive belt by operating at slower speeds during the 10 hours as

recommended (see Chapter 3 “Engine Break-In Period” for

break-in example). Pull only light loads. Avoid aggressive

acceleration and high speed operation during the break-in

period.

Maintenance / Inspection

Under normal use the PVT system will provide years of trouble

free operation. Periodic inspection and maintenance is required

to keep the system operating at peak performance. The

following list of items should be inspected and maintained to

ensure maximum performance and service life of PVT

components. Refer to the troubleshooting checklist at the end of

this chapter for more information.

1. Belt Inspection.

2. Drive and Driven Clutch Buttons and Bushings, Drive

Clutch Shift Weights and Pins, Drive Clutch Spider

Rollers and Roller Pins, Drive and Driven Clutch

Springs.

3. Sheave Faces. Clean and inspect for wear.

4. PVT System Sealing. Refer to the appropriate

illustration(s) on the following pages. The PVT system is

air cooled by fins on the drive clutch stationary sheave. The

fins create a low pressure area in the crankcase casting,

drawing air into the system through an intake duct. The

opening for this intake duct is located at a high point on the

vehicle (location varies by model). The intake duct draws

fresh air through a vented cover. All connecting air ducts

(as well as the inner and outer covers) must be properly

sealed to ensure clean air is being used for cooling the PVT

system and also to prevent water and other contaminants

from entering the PVT area. This is especially critical on

units subjected to frequent water forging.