THUNDERMINGO 4 Barrel Carburetor for 1904R 1906R Rochester Quadrajet Carb 4MV Replace for GM Chevrolet Chevy Cadillac 1980-1989 with 305-350 c.i Engine Vacuum Secondary 600 650 750 CFM Electric Choke

FITMENTS:

Fitment: Carburetor Fits For 1980 Chevy cars, use #1904R 17066422 17066425 17066432 17066493 17066553 17066556 17066563 17066605 17080202 17080204 17080207 17080228 17080274 17080282 17080284 17081282 17081283 17081284 17081285 17082280 17082281 17082282 17082283 17082284 17083282 17083283 17084284 17084285 17084288 17084289 Carburetor Fits For 1981-86 Chevy/GMC trucks with electric choke, use #1904R or #1906R 17065524 17067254 17067256 17067258 17067266 17067268 17067280 17067284 17067336 17068501 17068503 17068505 17068587 17068590 17068596 17078230 17078237 17078249 17078254 17078263 17078267 17078282 17078283 17078284 17078297 17079283 17079284 17079287 17079288 17079289 17079290 17079293 17079322 17079898 17079901 17079902 17079906 17079910 17079915 17081200 17081201 17081204 17081205 17081220 17081226 17081227 17081285 17081290 17081291 17081292 17082220 17082221 17082222 17082223 17082224 17082225 17082226 17082227 17082230 17082231 17082234 17082235 17082280 17082290 17082291 17082292 17082293 17083220 17083221 17083222 17083223 17083224 17083225 17083226 17083227 17083231 17084220 17084221 17084226 17084227 17084228 17084229 17084230 17084231 17084239 17086045 17086047 17086053 17086055 17110107 17110110

GENERAL DESCRIPTION

The Quadrajet is a 4-barrel two stage carburetor of down-draft design.Its simplicity in construction makes it easy toservice, yet its versatility and principles of operation make itadaptable from small to very large engines，without majorcasting changes.

There are three separate basic carburetor models. They aredesignated as 4M,4MV, and 4MC. The 4M is the basic car-buretor equipped for manual choke operation.The 4MV isan automatic choke model designed for use with a manifoldmounted thermostatic choke coil.The 4MC model is an auto-matic choke carburetor which has the choke housing and coilmounted at the side of the float bowl. Except for chokesystems,all models have basically the same principles ofoperation.

FLOAT SYSTEM

The Quadrajet carburetor is unique in that it has a cen-trally located fuel reservoir (fuel bowl). The fuel bowl iscentered between the primary bores and is adjacent to thesecondary bores. This type design assures an adequate fuelsupply to all carburetor bores, which results in excellent per-formance with respect to car inclination or severity of turns.

The float pontoon is solid and is made of a light closedcell plastic material. This feature gives added bouyancywhich allows the use of a single float to maintain constantfuel levels.

There are two types of float needle valves used in theQuadrajet carburetor. One type is diaphragm assisted and theother is the standard needle and brass seat.

The diaphragm assisted float needle is primarily used witha smaller float and on engines equipped with high pressurefuel pumps. The needle seat is a brass insert and is pressed into the bowl fuel inlet channel below the diaphragm needletip. The seat is not removable, as the needle valve tip is of amaterial which makes seat wear negligible. Care should beused during servicing so that the seat is not nicked, scored ormoved.The float valve is factory staked and tested andshould not be re-staked in the field.

On most models, a fuel inlet filter is an integral part of thefloat bowl and is located behind the fuel inlet nut. Shouldthe filter become plugged due to excessive dirt or improperservice, a pressure relief spring located behind the filter element allows fuel pump pressure to force the element off itsseat. This allows fuel to by-pass the filter and enter the car-buretor so the engine will run until the filter can be serviced.It is very important that the filter be serviced periodically toprevent dirt from entering the carburetor metering orifices.

The float system (Figure 2) consists of a fuel chamber(float bowl), a single pontoon float, float hinge pin and re-tainer combination, float valve and seat and a float valve pullclip. A plastic filler block is located in the top of the floatchamber over the float valve to prevent fuel slosh into thisarea.

The float system operates in the following manner: Fuel

from the engine fuel pump enters the carburetor fuel inletpassage. It passes through the filter element, fuel inlet valve

and on into the float bowl chamber. As the incoming fuelfills the float bowl to the prescribed leve1, the float pontoonrises and forces the fuel inlet valve closed, shutting off fuelflow. As fuel is used from the float bowl, the float dropsallowing the float needle valve to open, allowing more fuel toagain fill the bowl. This cycle continues, maintaining a con-stant fuel level in the float bowl.

A float needle pull clip, fastened to the float needle valve,hooks over the edge of the float arm at the center as shownin Figure 2. Its purpose is to assist in lifting the float valveoff its seat whenever fuel level in the float bowl is low.

Fuel flow through the diaphragm assisted float needle

valve varies from the standard float needle. With the standardtype as shown in Figure 2 fuel flows from the inlet filter andinlet channel up through the needle seat orifice past the float

needle valve and spills over into the float bowl. With thediaphragm type float needle valve (see inset) Figure 2 fuelfrom the inlet filter enters the channel above the float valvetip. When fuel level is low in the bowl the neeale vaive 1s onits seat and fuel flows down past the float valve tip into a

fuel channel which leads upwara tnrougn ule ouw itas theto a point above normal liquid level ana sps oyei nnn ufloat bowl.

The diaphragm type needle valve has some advantagesover the standard float needle in that a larger needle seat

orifice can be used to provide greater fuel rlow to tne 1oatchamber and yet allow the use of a small float. This is accom-

plished through a balance of forces acting on the float needlevalve and diaphragm against fuel pump pressure. Fuel pres-

sure entering the float needle valve chamber tends to forcethe needle valve closed. However, the same pressure is alsoacting on the float needle diaphragm. The diaphragm has aslightly larger area than the float needle valve head, there-fore,the greater pressure acting on the diaphragm tends topush the needle valve off its seat.The force of the float armacting on the needle stem, as the float bowl fills, overcomesthis pressure difference and closes the needle valve.There-fore, the float's function is to overcome the pressure difference and does not have to force the needle valve closedagainst direct fuel pump pressure.

The carburetor float chamber is internally vented on allmodels through two vent tubes located in the air horn.Theinternal vent tubes lead from beneath the air cleaner to thefloat bowl chamber.Their purpose is to balance air pressureacting on the fuel in the bowl with air flow through thecarburetor bores.In this way, balanced air/fuel mixture ratioscan be maintained throughout all carburetor ranges of opera-tion.

Some engine applications require an external vent into thefloat bowl during hot engine operation. The Quadrajet floatbowl is externally vented through an idle vent valve.Its pur-pose is to vent fuel vapors which may form in the float bowlduring periods of hot engine idle and "hot soak”.

In operation the idle vent valve is closed except when thethrottle valves are in the idle position, When the throttles areclosed a wire lever on the pump lever pushes upward on thespring steel vent valve arm and opens the vent valve. Thus,fuel vapors are allowed to vent externally,thereby pre-venting them from entering the carburetor bores and beingdrawn into the engine.This prevents rough engine idle andexcessively long hot engine starting.

When the throttle valves are opened to the off-idle andpart throttle position, the idle vent valve closes, returning thecarburetor to internally balanced venting.

IDLE SYSTEM

The Quadrajet carburetor has an idle system on the pri-mary side (fuel inlet side) of the carburetor to supply thecorrect air/fuel mixture ratios during idle and off-idle opera-tion. The idle system is used during this period because airflow through the carburetor venturi is not great enough toobtain efficient metering from the main discharge nozzles.

The idle system is only used in the two primary bores ofthe carburetor. Each bore has a separate and independentidle system. They consist of idle tubes, idle passages, idle airbleeds,idle channel restrictions,idle mixture adjustmentneedles and idle discharge holes.

During curb idle the throttle valve is held slightly open bythe idle speed adjusting screw. The small amount of air whichpasses between the primary throttle valve and bore is regu-lated by this screw to give the engine the desired idle speed.Since the engine requires very little air for idle and lowspeeds, fuel is added to the air to produce a combustiblemixture by the direct application of vacuum (low pressure)from the engine manifold to the idle discharge hole belowthe throttle valve. With the idle discharge holes in a very low pressure area and the fuel in the float bowl vented to atmo-sphere (high pressure), the idle system operates as follows:Fuel flows from the float bowl down through the mainmetering jets into the main fuel wells. It is picked up in themain wells by the two idle tubes (one for each primary bore)which extend into the wells.The fuel is metered at the lowertip of the idle tube and passes up through the tubes. On somemodels, where needed, the fuel is mixed with air at the topof each idle tube through an idle air bleed. The fuel mixturecrosses over to the idle down channels where it is mixed withair at the side idle bleed located just above the idle channelrestriction. The mixture continues down through the cali-brated idle channel restrictions past the lower idle air bleedsand off-idle discharge ports where it is further mixed withair.The air/fuel mixture moves down to the adjustable idlemixture needle discharge holes where it enters the carburetorbores and blends with the air passing the slightly open throt-tle valves. The combustible air/fuel mixture then passesthrough the intake manifold to the engine cylinders.