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Home >> Ford >> 2012 >> Explorer Base, 2.0 9 >> Repair and Diagnosis >> External Pages >> Different car >> Section 231 (Driveline System - General System) >> General Procedures >> Driveline Angle Measurement >> General Procedure

General Procedure

WARNING: This page is about a different car, the 2013 Ford Explorer. However, it is still accessible from the selected car via links, so may be relevant.
NOTE: This procedure does not apply to CV  joints, flex couplers or double cardan joints that are used in some driveshafts. This check is for single cross and roller style joints found in the driveshafts.
NOTE: Prior to checking driveline angularity, inspect the U-joints for correct operation.
NOTE: An incorrect driveline angle can cause a vibration or shudder. REFER to NOISE, VIBRATION & HARSHNESS .
NOTE: Driveline angularity is the angular relationship between the engine crankshaft, the driveshaft and the rear axle pinion. Factors determining driveline angularity include ride height, rear spring and engine mounts.
  1. Carry out the following preliminary setup steps:
    • Inspect the U-joints for correct operation.
    • Park the vehicle on a level surface such as a drive on hoist, or back onto a front end alignment rack.
    • Verify the curb position ride height is within specifications with the vehicle unloaded and all of the tires are inflated to their normal operating pressures.
    • Calibrate the Anglemaster II Driveline Inclinometer/Protractor by placing it on a clean, flat level section of the frame rail and press the ALT-ZERO button.
  2. Using the Anglemaster II Driveline Inclinometer/Protractor, measure the slope of the components in front and behind the center support bearing U-joint in the area indicated. Record the front component as angle A and the rear component as angle B.
    Fig 1: Locating Center Support Bearing U-Joint Slope Measurement Position
    G09084643Courtesy of FORD MOTOR CO.
  3. NOTE: When 2 connected components slope in the same direction, subtract the smallest number from the larger number to find the U-joint operating angle. When 2 connected components slope in the opposite direction, add the measurements to find the U-joint operating angle.

    Calculate the difference in the slope of the components to determine the U-joint operating angle.

    • The U-joint operating angle is the angle formed by 2 yokes connected by a cross and bearing kit. Ideally, the operating angles on each connection of the driveshaft must:
  4. If the angle is not within specifications, repair or adjust to obtain the correct angle. Inspect the engine mounts, transmission mounts, center support bearing mounting, rear suspension, rear axle, rear axle mounting or the frame for wear or damage.
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