Replacement pump diaphragm for the Solex 35 PHH series carburetors.
Please note that the Solex PHH can use various different sizes (and shapes) diaphragms and that this diaphragm is specifically for the Solex 35 PHH.
This particular diaphragm is the square version, with two layers of sheets, a guide pin on the back and a convex tip.
As these descriptions can be very confusing, the best references are the photographs that we are showing here.
The key specifics are as follows:
- Diameter of the top dish: 15.7 mm
- Diameter of the bottom dish: 15.7 mm
- Height of the stem, measured from the top dish: 8.1 mm
- Length of the guide pin, measured from the bottom dish: 6.9 mm (can be shortened)
- Total height: 17,75 mm
- Stem type: solid with convex tip
- Bolt pattern, center-to-center, measured diagonally: 33.5 mm
Required quantity per carburetor: 1
This is number 371 in the drawing of the Solex 35 PHH which is NOT the same as the drawing for the 44 PHH.
This is Our Article Number: PM10705
Operating principles of the acceleration pump and the role of the diaphragm in this:
This diaphragm is activated by a lever that is connected to the throttle lever(s).
When releasing the throttle, a spring returns the diaphragm to its initial position and by doing so, it sucks-in fuel into the pump chamber, from the float chamber.
A one-way valve prevents this fuel from leaking back into the float chamber.
When you then activate throttle, that same lever pushes the diaphragm inwards and the pressure that is thus created makes the fuel being squirted downstream with the main airflow through the pump jet.
This extra flow of fuel will prevent "fuel starvation" from occurring when the throttle is suddenly opened which allows large quantities of air being sucked into the engine.
When you then release the throttle again, the diaphragm is again pushed back by the spring, thus priming the pump chamber with a fresh supply of fuel and making it ready to repeat the procedure.
This is an excellent system that has been employed for decades by various makes of carburetors and applied to all kinds of applications.
So, not only Solex but also Weber, Pierburg, Zenith and Mikuni used this system with more or less identical operating principles.
However, to ascertain a flawless operation of this system, the diaphragm need to be in excellent condition.
The original diaphragms are now coming of age and are suffering from the ravages of aggressive modern fuels which causes the "rubberized textile" material to harden or even crack, causing erratic running of the engine and fuel leaks.
Replacing the diaphragm is then the only sensible option which is a rather simple operation.
A complete overview of our pump diaphragms for Solex carburettors can be found HERE.