SU953242A1 - I.c. engine carburettor - Google Patents

Description

(54) CARBURETTOR FOR INTERNAL ENGINE

Combustion

one

FIELD OF THE INVENTION The invention relates to engine construction, in particular to carburetors for internal combustion engines.

Known carburetors for an internal combustion engine, comprising a housing with a flow channel and a diffuser and throttle valve placed in it, an idle system with fuel and air jets, emulsion and bypass channels 1.

The disadvantage of this carburetor is that in the idle system, the fuel-air mixture that is poorly mixed with air and which is poorly controlled with a wide range of rotational speeds of the crankshaft enters the emulsion jet and leads to an increase in exhaust gas toxicity.

Also known carburetor, comprising a housing with a flow channel and a diffuser and throttle valve placed in it, an idling system with fuel, air and emulsion nozzles 2.

The disadvantage of this carburetor is the incomplete quality of the mixture formation and a high degree of uneven distribution of the combustible mixture in the cylinders in idle mode.

The aim of the invention is to reduce the toxicity of exhaust gases by improving the mixing at idle conditions.

The goal is achieved by the fact that an additional mixing chamber is made between the output channel of the idling system and the output adjustable openings of the bypass and emulsion channels, and that the output channel of the idling system is made in the form of a flat slot, and the axis of the emulsion outlets and bypass channels 15 intersect.

FIG. 1 is a schematic diagram of the proposed carburetor; in fig. 2 cross-section of the additional mixing chamber and the outlet openings of the emulsion and bypass channels.

The carburetor includes a housing 1 with a main air channel 2, a main metering system with a fuel 3 and air 4 jets and an emulsion well 5. It is installed in the air channel

Throttle valve 6. Air bypass channel 7 has an inlet 8 to throttle 6 and an outlet with an adjustable screw 10. Emulsion channel 11 has an additional air jet 12, a mixer 13, an adjustable outlet 14 with an adjusting screw 15. The idle system also includes fuel 16 and air 17 jets, output channel 18, made in the form of a flat shell in the wall of the mixing chamber 19 of the carburetor, and an additional mixing chamber 20.

In addition, in FIG. Figure 1 shows the channel 21 of the Kapfepa ventilation system, made in the form of a slit and the channel 22 for supplying crankcase gases intersecting with the channel 21.

The carburetor works as follows.

When the throttle position is in accordance with the idle mode, a vacuum in the throttle space is sufficient for the critical air channel 7. In the emulsion channel, critical conditions are created by selecting the flow sections of the fuel 16 and air 12 and 17 nozzles. The fuel-air mixture in the mixer 13 is dissected by a tapered needle and spreads through the holes radially located by the air flow from the additional air nozzle 12. The outflow of the air-fuel mixture from the mixer occurs at small pressure drops, therefore in the mixing chamber 20 two supersonic flows intersect the formation of a fine combustible mixture, which ensures an even distribution of fuel in the cylinders and, as a result, stable engine operation in a wide range of crankshaft rotations and exhaust emissions are reduced.

The additional atomization of the combustible mixture in intersecting supersonic streams to a lesser extent depends on the operating mode of the engine, which makes it possible to control the composition of the combustible mixture over a wide range without degrading the quality of atomization.

When the load increases by opening the throttle valve 6 to discharge 200-250 mm Hg. Art. in the intake manifold the idle system continues to operate at high flow rates

in parallel with the main dosing system. With a significant opening of the throttle, the idling system begins to work in conjunction with the main dosing system, the fuel mixture is lean. The depletion of the combustible mixture occurs automatically due to the greater compensation of the increased flow areas of the air nozzles 12 and 17.

Improving the mixture formation reduces exhaust emissions by improving the quality of the atomization of the combustible mixture in the additional mixing chamber and increases the fuel efficiency of the engine. At the same time, stable engine operation is ensured, the concentration of carbon monoxide in exhaust gases is reduced by 0.15-0.23% by volume and the concentration of hydrocarbons to 50-70 ppm.

Claims (3)

1. A carburetor for an internal combustion engine, comprising a housing with a flow channel and a diffuser and throttle valve placed in it, an idling system with fuel, air and emulsion jets, bypass and emulsion channels with adjustable outlet openings and an output channel of the idling system in the mixing carburetor chamber, characterized in that, in order to reduce the toxicity of exhaust gases by improving the mixing at idling conditions, between the output channel of the idle system An additional mixing chamber is made by the stroke and the output adjustable holes of the bypass and emulsion channels. 2. Carburetor according to claim 1, characterized in that the output channel of the idle system is made in the form of a flat slot. 3.Karbyurator on PP. 1 and 2, characterized in that the axes of the outlet openings of the emulsion and bypass channels intersect. Sources of information taken into account in the examination 1. USSR author's certificate number 552413, cl. F 02 M, 1/00, 1977. 2.Avtohaus. 1970, No. 23, s. 1746-1747.