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How it works and part names (Pre-Monobloc)
- Mixing Chamber
- Throttle Valve
- Jet Needle and Clip above
- Air Valve
- Mixing Chamber Union Nut
- Jet Block
- Cable Adjuster (Throttle)
- Cable Adjuster (Air)
- Jet Block Barrel
- Pilot Hole (see sheet 6)
- Passage to Pilot
- Pilot Air Passage
- Pilot Mixture Outlet
- Pilot By-Pass
- Needle Jet
- Mani Jet (see sheet 6)
- Float Chamber Holding Bolt
- Float Chamber
- Needle Valve Seating
- Float
- Float Needle Valve
- Float Needle Clip
- Float Chamber Cover
- Float Chamber Lock Screw
Tickler 9to left of W.)
- Mixing Chamber Top Cap
- Mixing Chamber Lock Ring
- Security Spring for above
The carburetter proportions and atomises the right amount of petrol with the air that is sucked in by the engine because of the correct proportions of jet sizes and the main choke bore. The float chamber maintains a constant level of fuel at the jets and cuts off supply when the engine stops. The throttle control from the handlebar controls the volume of mixture and therefore the power, and at all positions of the throttle the mixture is automatically correct. The opening of the throttle brings first into action the mixture supply from the pilot jet system for idling, then as it progressively opens, via the pilot by-pass, the mixture is augmented from the main jet, the earlier stages of which action is controlled by the needle in the needle jet. The main jet does not spray directly into the mixing chamber, but discharges through the needle jet into the primary air chamber, and goes from there as as a rich petrol-air mixture through the primary air choke into the main air choke. This primary air choke has a compensating action. The carburetters usually have a seperately-operated mixture control called an air valve, for use when starting from cold, and until the engine is warm; this control partially blocks the passage of air through the main choke.
This design of carburetter offers perfectly simple and effective tuning facilities.
Fig 3.
This section view does NOT apply if your carburetter has FOUR EXTERNAL primary air holes at the base of the mixing chamber. It is for carburetters with the primary air inlet in the main air intake
Diagrammatic section of carburetter showing only the lower half of the throttle chamber with the throttle a little open and the internal primary air passages to the main jet and pilot system.
If the carburetter should flood whilst the engine is not running, the overflow from the main jet will run into the primary air passages and trickle out from there through a small hole seen at the side of the carburetter body
How it works and part names
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