Re: The WRD. affectionately dubbed the Willnot Run Device.
A few thoughts on the recent rehab of three Willnot Run Devices. First, the WRM does two things. It opens and closes an air control valve admitting air into the vacuum of the intake manifold and it affects the fuel flow regulation in the injection pump. It does this in response by a heat feeler (in the radiator coolant flow) to the coolant temperature. The air valve is full open at low temp and full closed at high temp. The fuel is likewise affected.
But, if it is not working properly, you've got trouble. If it is frozen open(the most likely), you have a 10 mm diameter vacuum leak. This is many times the idle air flow. Therefore, there is no way ever to get a correct idle via the idle fuel screw and the idle air screw with a 10 mm vacuum leak.
So, you gotta take it apart. (Remembering and noting the positions of all parts) Disconnect and plug the two coolant lines. Disconnect the vacuum line. Unscrew(impact tool) the two screws holding the heat feeler. The heat feeler should come loose, hopefully. Unscrew(impact tool) the two screws holding the control valve housing. The control valve(piston) is probably at the top of the cylinder. Spray some PB Blaster on it. Tap it gently downward with a wood dowel. The piston will go down and the guide pin will extend further out the bottom. Put the housing in a vise(cardboard on face) and gently force the piston back up the cylinder from the pressure on the guide pin. Repeat taping and pressing until piston can be pulled out the top. Remove the guide pin with its captive spring. Make sure the guide pin moves up and down its cylinder against the spring force.
Clean and lubricate everything and make sure all move easily. Reassemble(with a little anti-seize lube on screws). Seal heat feeler to heat feeler housing. Make sure the heat feeler screws are tightened to get even spacing between faces. Some washer and spacers may be necessary to get correct responses. The air valve should be open with cold coolant and closed with hot coolant. See your manual for the temp it closes at. Unscrew the air filter to check open and closed. With cold coolant it sucks air like crazy. With hot coolant it is closed. With the heat feeler housing attached to the control valve housing you can dip the heat feeler in boiling water and observe the pin extend out the bottom. Put the hose back on the air/vacuum side and blow-no flow should result. Reinstall on the pump with the oval washers. Now you can do a correct idle fuel/idle air adjustment at engine operating temp conditions.
A few observations. 1. None of the three coolant flows were the same. The coolant came from the head thru the heat feeler and out. Then it went to 1, the venturi housing, 2, to pipe around the venturi housing, 3, back to the water pump. The heat feeler housings were cloggled and nipple eroded. The heat feeler would not come out.
2. The control valves were frozen from soot(blow back) or dirt.
3. The guide pin/spring were frozen. The captive piston/spring on the pin must slide freely to open/close
the valve.
4. Needed an impact tool to loosen screw blade heads.
5. Control valve housings were different.
6. Heat feelers were different.
7. One WRM was designed with a 'turn off' knob in the control valve housing. Shows MB's confidence in their engine fuel management system.
8. The pin on the later WRD moves about 10 mm. At -25 degrees C in the Schwartz Wald the pin is fully withdrawn and the temperature compensation is 100% of range inside the pump. As the coolant heats to 75 degrees C(or so) the pin extends out the 10 mm(or so) closing the WRM air valve and reducing the temperature compensation to 0% of range.
So, it is another example of 'No two identical Mercedes were ever built'.
Most important--- Correct 'Idle adjustment' cannot be done if the WRD is frozen open (and you've got a massive vacuum leak).
(If this is redundant to everybody............)
