• Power Steering Fluid
    Most power steering unit suppliers will recommend the use of fluid that the vehicle manufacturer recommends. What do you do on a specialty vehicle with a GM pump and a Ford rack? Classic Performance Products recommends the purchase of power steering fluid supplied by a high quality oil company. The label will state if it is compatible with Ford/ GM/Chrysler, etc. Most systems require 2-3 quarts of fluid.
     
  • New vs Used vs Rebuilt
    Purchasing used is gambling, especially when you don't know the history of the source vehicle. When you connect a power steering pump to a rack or gear, you are instantly contaminating one with the other. The fluid can flow 8 to 10 quarts a minute and at that volume, it doesn't take long for the contaminated fluid from one unit to infect the other. So, now your choices are new or rebuilt. In many cases, new is no longer available and in some case a new unit may never have been tested. The advantage of a Classic Performance Products unit is that most of the older units are still available and CPP test every unit that we sell. CPP can also custom build a unit to your requirement.
     
  • Noise Through the Column
    Unless a vibration dampener or isolator is used in the column shafting, you can expect to hear a hissing noise traveling up through the column. Sometimes this can be quite irritating, so we recommend you plan ahead an incorporate one into your shafting/U-joint measurements.
     
  • Speaking of the Column
    As a reminder, when designing your column make certain the input shaft or the rack or gear is taking no forces except rotational. Any downward, upward or side forces will cause erratic steering and premature failure of the unit.
     
  • Fasteners
    All bolt and nut fasteners are important attaching parts in that they can affect the performance of vital components. If replacement of these fasteners becomes necessary, style, type, quality and grade MUST be equivalent to OEM. DO NOT use a lesser substitute. Torque values must be maintained during assembly to assure proper retention of vital
    components.
  • Pressure Reduction
    It is commonly thought that a GM/Saginaw style pump will not mate well with a Ford rack. In fact Ford uses Saginaw pumps on some rack & pinion equipped vehicles. Most all passenger car steering systems utilize pressure between 1000 and 1200 PSI. Classic Performance Products recommends the following procedures when building your specialty vehicle:
    1. Initially, utilize stock pressures on the power steering pump.
    2 Caster setting should be between 4-6 degrees positive.
    3. After a few test drives, reduce pump pressure ONLY when the vehicle has too much power steering assist at a parallel park situation.
     
  • Lowering pump pressure reduces assist at all speeds and power steering is needed most at low speeds. The high positive caster setting will tend to tone down the effects of power steering at high speeds and will give the vehicle good returnability from a turn. A pressure reduction kit can be purchased from Classic Performance Products that will reduce pressure on all FM style pumps. 
  • Remote Reservoir Set-ups
    When using the small GM/Saginaw pump with a remote reservoir, we recommend locating the reservoir as close to directly overhead the pump as possible. An example of too far away would be locating the reservoir at the firewall when the pump is near the front of the motor. The feed hose connecting the two should be a minimum of 5/8 hose firm wall and if an AN style fitting is to be used on the pump intake it must be a #10 and no less. These pumps can mount in any position with the shaft facing forward. There are three styles of this pump.
  • Getting It Up
    Building a street rod or other specialty vehicle requires a different set-up procedure than just replacing a worn out unit. Power steering systems are self bleeding, but we must help them a little along the way. It is preferred that the power steering system be the last engine. After everything is working fine and all your adjustments are complete, now is the time to hook up the power steering pump belt.
     
  • V-Belt System
    1. Fill the steering system with your high quality fluid and let it set undisturbed for a few minutes while you recheck your work. Leave the reservoir cap off. Use this time to wipe the components off in preparation for leak check and visually inspect the hose routing, belt alignment and attaching hardware.

2. After your inspection, raise the front wheels off the found and support the vehicle. Without starting the engine    slowly begin to cycle the steering wheel. The key here is "slowly"; about 1 revolution per 8-10 seconds. Continue to top off the fluid level at the reservoir. When the level remains steady, inspect for leaks and start the engine.

3. Check the fluid level and inspect for leaks. Some vane type pumps require 1000 RPM or more to take the fluid down. Slowly cycle the steering wheel in both directions, lightly contacting the wheel stops. Continue to check the fluid level and add if necessary. If the pump begins to get noisy, turn the engine off and let the system set for 15 minutes. Air in the system will cause the pump to growl and the fluid level may rise when the engine is turned off.

4. Repeat the above steps until the system is operating normally. If air is still a problem after several rest periods, it may be that air is entering the system faster than it can be expelled at the reservoir fill. Look for leaks. Even the smallest of fluid leaks can be a source of massive amounts of air entering the system.

5. Always test drive the vehicle, making sure it is safe.
 

  • Serpentine Systems
    Obviously, the serpentine system does not allow for engine startup prior to power steering startup. Therefore, follow all of the above steps and take special precaution on step #2.

Six Easy Steps to Ordering a Steering System

1. Determine whether you will need a two or three U-joint system. This is dictated by the angle, we recommend a 15 degree angle for the optimum system, however up to 30 degrees is acceptable. If using a three U-joint system, a support bearing is necessary. The center U-joint will either be 3/4"00 x 3/4"00 or 3/4"00-36 x 3/4"00-36, depending on whether you are using splined or DD shafts.

2. Use the Application Guide to select the rack and pinion or box spline size you require. If the chart does not list your application, just measure the diameter of the shaft and count the number of splines. If there is a flat, count half the splines and double that.

3. Measure your column (two rounds, two flats), measure the round-it will either be 1"DD or 3/4" DD. If splined, measure the diameter and count the splines i.e. 1"-48 or 3/4"-36.

4. To determine shaft length on a two U-joint system, measure the distance between the rack and pinion or box shaft and the column, then subtract 3.25 inches.

5. If using a three-joint system, we recommend using dowel rods to mock up the system. Just measure the length of the dowel rod and this will be the length of your shaft. Of course, you will need to order U-joints prior to shafts.
 

Important Notes:
Phasing - Keep the forks of the yokes closest to each other In line and center of the shaft to avoid binding.

 

 

Set screws are supplied on all Splined and "Double 0" U-joints. However, it is necessary to indent (by drilling) the shaft to properly secure the set-screw mechanism. Loc-Tite should also be used.

The shaft should be flush with the ends of the U-joint yoke - too short could sacrifice strength and too long will cause the shaft to interfere with the operation of the U-joint.
 
To determine the spline size of a component (rack and pinion, steering column and steering box), measure the outside diameter and count the number of splines. If there is a flat spot on the shaft and some of the splines are missing, count halfway around where there are splines and double that number. We need to know how many teeth are in a theroretical full circle.   
Available U-joint Combinations are:

A) Smooth Bore on both ends

B) Smooth Bore and Spline or Double D

C) Spline and/or: Double D on each end. 

  
 

 

Common Fitting Sizes
Because there is no clear rule of thumb, we list below some of the more common power steering fitting sizes. There are many others not listed and if you have questions about them, please call.

  Pressure  Return 
GM Metric Pump   16mm (M16-1.5) O-ring  Push / Clamp 
GM SAE  3/8 tube size (5/8-18 inv. fl.) Push/Clamp 
GM R&P  18mm (M18-1.5) O-ring   16mm (M16-1.5) O-ring  
GM Metric Gear  18mm (M18-1.5) O-ring    16mm (M16-1.5) O-ring 
GM SAE Gear  7/16 tube size (11/16-18 inv. fI.)  3/8 tube size (5/8-18 inv. fl.) 
Ford Must II R&P 1974 thru 7-5-77   5/16 tube size (1/2-20 inv. fI.)   3/8 tube size (5/8-18 inv. fl.) 
Ford Must II R&P 7-6-77 thru 1978  5/16 tube size (1/2-20 iny. fI.)  3/8 tube size (5/8-18) O-ring 
Ford T -Bird thru 1988  5/16 tube size (9/16-18 inv. fl.)  3/8 tube size (5/8-18) O-ring 

 

Although we encourage the use inverted flare fittings, there are other methods of sealing off hoses. In any case, avoid the use of pipe or thread dope or Teflon tape. These products can get into the hydraulic system and do substantial damage.

Torque settings:
Inverted flare fittings should be torqued to 25-24 foot pounds

A-ring beaded hoses should be torqued to 20 foot pounds

Teflon ringed hoses should be torqued to 14-20 foot pounds

Other common torque settings:
Mustang R&P to cross member: 80-100 foot pounds

Ford R&P to cross member: 41-54 foot pounds

Gear to frame mounting bolts: 60-65 foot pounds

Pitman arm to sector retaing nut: 235-250 foot pounds

Pump keyway style pulley: 60 foot pounds 

  
 

 

Rack & Pinion Pump Diagram: