前苏联专利SU721013A3 Internal combustion engine

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专利摘要:
Overheating of a catalytic converter receiving exhaust gases from an internal combustion engine is minimized by providing an air-fuel mixture leaner than the stoichiometric ratio for combustion in the engine, maintaining the exhaust gases in an exhaust reaction chamber at relatively high temperature for a relatively long time period before conveying them to the catalytic converter, sensing deceleration conditions in the engine as a function of increase in intake vacuum intensity, and retarding the spark ignition timing and introducing supplemental air for combustion upon increase in vacuum intensity.
公开号:SU721013A3
申请号:SU762356856
申请日:1976-05-07
公开日:1980-03-05
发明作者:Когуре Хироси；Симада Дзюничи
申请人:Хонда Гикен Когио Кабусики Кайся (Фирма)；
IPC主号:

专利说明:

(54) INTERNAL COMBUSTION ENGINE
There is a corresponding spark ignition delay. In addition, this pressure signal NaTiiiHKa simultaneously enters the valve in the pipeline for additional air intake to improve the combustion process,
With this design, the magnitude of the increase in enrichment of the inlet mixture during engine deceleration is reduced by introducing an additional amount of air and a more complete combustion is achieved due to the ignition delay. Hot exhaust gas enters the reaction chamber, which is maintained there at a relatively high temperature for a relatively long period of time. Excess oxygen is used to oxidize the main part of the pollutant components of the exhaust gases produced during engine slowdown. As a result, the load of the catalytic converter is reduced and the possibility of its overheating is excluded. This increases its service life.
The drawing shows the internal combustion engine, a general view.
The internal combustion engine 1 comprises a combustion chamber 2, an inlet pipe 3 for supplying the depleted fuel / air mixture. Pipeline 3 is equipped with throttle valves 4. Engine 1 has pipe 5 with valve 6 for supplying additional air downstream of throttle valves 4. The engine is also equipped with pressure sensor 7, catalytic converter 8, interrupter limiter 9. Camera Crop en and connected with a catalytic converter 8 through the reaction chambers 10. The engine is also equipped with a device 11 for ignition delay.
In addition to the main combustion chamber 2, the engine may have a prechamber 12, a pipeline 13 for feeding into the prechamber. enriched fuel mix equipped with a throttle 14.
Chamber 4 is connected to chamber 2 via flame channel 15. Main carburetor 16 forms a relatively lean working mixture and is connected through inlet pipe 3 to combustion chamber 2. Auxiliary carburetor 17 forms a relatively God-shaped mixture and connects through pipe 13 to prechamber 12.
The engine is equipped with an air cleaner 18. Spark plug 19 is connected to the pre-chamber 12 and connected to the device. 11 for the delay ignition and with the ignition system 20.
The exhaust gas reaction chamber 10 is located as close as possible to the engine and receives the exhaust gases of the main combustion chamber 2. The catalytic converter is located downstream of the gas relative to the reaction chimers. 10 and connected to the latter by an exhaust pipe 21, and a silencer 22 is installed downstream of the gas relative to the catalytic converter 8.
The pressure sensor 7 comprises a housing 23 fixed to the engine 1. in an appropriate place. The elastic diaphragm 24 interacts with the housing 23, forming a vacuum chamber 25, which is connected to the inlet pipe 3 downstream along the gas relative to the main carburetor 16 with channel 26. The spaces under the elastic diaphragm 24 are connected to the atmosphere. The pin 27 connects the central part of the diaphragm 24 to the electric switch 28. The switch 28 is located in the electrical signal circuit 29. Spring
30, located in the vacuum chamber, creates a force directed
in the direction corresponding to the opening of the electric switch 28 The circuit 29 of the electric signal is branched from the electric circuit
31, which connects the ignition system of the engine 20 to the power source 32 via the main ignition switch 33.
An additional amount of air is supplied through pipeline 5, which is connected to inlet pipe 3, downstream of the main carburetor 16. A normally closed solenoid valve 6 is installed in pipe 5, and valve actuator 34 is connected to electrical signal circuit 29 in such a way that receives power in that state if switch 28 is closed.
Distributor interrupter 9 contains a vacuum corrector 35 connected to a regulating element 36, which the ignition delay device 11 is equipped with. The system 37 also includes a channel 37 connecting the pressure sensor 7 and the vacuum chamber 38 of the vacuum corrector 35. Channel 37 from the channel 26 connecting the inlet pipe 3 and the pressure sensor 7,
Channel 37 has a three-way solenoid selector valve 39, which is connected to electrical signal circuit 29 in such a way that its actuator is in parallel with actuator 34 of solenoid selector valve 6, i.e. the signal goes simultaneously to (Both valves 6 and 39.
The opening 40 of the valve 39 is connected to the valve 4 for the entry of air through the wadded filter 42. The valve 39 has an actuator 43,
The device works as follows.
During the suction stroke, the relatively poor mixture is supplied to the main, combustion chamber 2, and the relatively rich mixture enters the prechamber 12 from air cleaner 18 through carburetors 16 and 17, throttle valves 4 and 14, and pipelines 3 and 1, respectively. At the end of the next compression stroke, the relatively rich mixture in the prechamber 12 is ignited using spark plug 19 to form a flame that passes through the flame channel 15 and sets off the relatively poor mixture in the main combustion chamber. This allows the engine 1 to operate on an air-fuel mixture whose composition is poorer than the corresponding stoichiometric ratio.
During normal engine operation, exhaust gases released from the main combustion chamber 2 remain at a relatively high temperature for a relatively long period of time in the reaction chamber 10. Uncombusted components of the exhaust gas are oxidized at a high temperature by excess oxygen in the exhaust gases.
The number of unburned components is particularly high immediately after the engine start, when the reaction chamber 10 has not yet reached its operating temperature. Any unburned components that pass through chamber 10 are oxidized in a catalytic converter 8, after which the gases are released into the atmosphere through a silencer 22.
Under such normal operating conditions, the diaphragm 24 of the pressure sensor 7 is in the neutral position, since the pressure above the diaphragm and diaphragm is equal and the electric switch 28 remains in the open state, the solenoid valve 6 remains in the closed position and additional air is supplied through the channel 5 not happening . The solenoid valve 39 is also closed, therefore, an additional amount of air also does not flow into the channel 37. Air enters through the valve 41, so that the vacuum corrector 35 remains inoperative.
during the engine slowdown period when closing throttle valves 4 and 14, the vacuum increases downstream relative to throttle valves, resulting in droplets of liquid fuel deposited on the inner walls of pipes 3 and 13, are introduced into the main combustion chamber 2 and prechamber 12. In addition In addition, the amount of fuel injected through the no-load injection of the main 16 and auxiliary 17 carburetors increases.
Thus, the air-fuel ratio in each combustion chamber becomes such that it corresponds to an excessively rich mixture of c, 0. This increased vacuum detects the pressure sensor 7, the signal enters the vacuum chamber 25, causing the diaphragm 24 to move, overcoming the force of the spring 30. The area of receiving the pressure of the elastic diaphragm 24 and the force of the spring 30 is chosen so that. moved upward, overcoming the force of the spring 30. Switch
0 28 is closed, as a result of which it receives power to the electrical signal circuit 29. The signal is applied to the solenoid valves 6 and 39, which causes the respective movements of their actuators 34 and 43.
Thus, the valve 6 opens the channel 5 for supplying an additional amount of air to the inlet pipe 3, and the valve 39 causes
0 an increase in pressure in the vacuum equalizer 35, which drives the rod 36, the movement of which. causes a delay in the ignition in the device, 11 to delay the ignition.
S
All these actions lead to the fact that an additional amount of air is supplied to the inlet pipe 3, in order to dilute the excess rich mixture and thereby prevent ignition failure. The ignition delay causes combustion to be on the exhaust stroke. This leads to a decrease in the temperature of the exhaust gases by reducing the suction efficiency after closing both throttle valves 4 and 14. The oxidation of the exhaust gases in the reaction chamber 8 continues with high efficiency, and the number of unburned components reaching the catalytic converter 8 decreases significantly, so that the latter does not overheat.
As a result of the presence of the reaction chamber, the connections between the sensor
5, with additional air supply, as well as a pressure sensor and a distribution distributor, increases the service life of the catalytic converter.
0

权利要求:
Claims (1)
[1]
Invention Formula
Internal combustion engine,
65 containing a combustion chamber, an inlet i-k V pipeline for supplying to a non-fuel-air smee equipped with a throttle valve; the intake pipeline for additional air downstream of the throttle valve is equipped with a valve, a dubing sensor, a catalytic converter and an interrupter-distributor, in order to reduce the toxicity of exhaust gases by improving the process of oxidation of the combustion products, the engine additionally contains 2L , 1-1,: 8. : l .., j f Re a and a chamber located at the combustion chamber and a catalytic converter, the distributor distributor is equipped with a vacuum ignition delay corrector, and the pressure sensor I is kinematically connected with the valve and communicated with the distributor distributor through a vacuum ignition delay corrector. 0 Sources of information taken into account in the examination 1. Application of Japan 48-75934, KL.51 EB, publ. 1973.

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同族专利:

公开号 | 公开日

NL7604899A|1976-11-16|

JPS5344968B2|1978-12-02|

GB1541863A|1979-03-14|

BE841599A|1976-11-08|

AR211775A1|1978-03-15|

BR7602966A|1976-11-23|

IT1062579B|1984-10-20|

DD125696A5|1977-05-11|

JPS51130730A|1976-11-13|

DE2620332A1|1976-11-25|

FR2311186A1|1976-12-10|

AU1358376A|1977-11-10|

FR2311186B1|1978-06-30|

CH608274A5|1978-12-29|

SE7605235L|1976-11-13|

SE421647B|1982-01-18|

US4104881A|1978-08-08|

ES447700A1|1977-06-01|

CA1073364A|1980-03-11|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

US1918913A|1932-02-11|1933-07-18|Isdahl Einar|Admission of air to the induction pipes of internal combustion engines|

US3092088A|1959-08-05|1963-06-04|Goossak Lev Abramovich|Carburetor type internal combustion engine with prechamber|

GB1254458A|1968-03-30|1971-11-24|Nissan Motor|Carburetors for internal combustion engines|

US3577727A|1968-10-07|1971-05-04|Ethyl Corp|Method of reducing internal combustion engine emissions|

GB1335382A|1970-03-20|1973-10-24|Lucas Industries Ltd|Apparatus for controlling the air/fuel ration of a supply for an internal combustion engine|

US3768787A|1971-06-28|1973-10-30|Ethyl Corp|High velocity carburetor|

US3826089A|1971-07-07|1974-07-30|Nissan Motor|Air-pollution preventive arrangement|

JPS5232016B2|1972-11-20|1977-08-18|

JPS49135037A|1973-05-07|1974-12-26|

JPS5213577B2|1973-07-18|1977-04-15|

JPS5038767B2|1973-10-15|1975-12-12|

JPS5316850B2|1973-12-11|1978-06-03|JPS62334B2|1982-02-13|1987-01-07|Honda Motor Co Ltd|

US4802902A|1987-06-10|1989-02-07|Colt Industries Inc.|Air cleaner cover and base for dual carburetor assemblies|

US5483946A|1994-11-03|1996-01-16|Ford Motor Company|Engine control system with rapid catalyst warm-up|

JP3348659B2|1998-02-13|2002-11-20|三菱自動車工業株式会社|In-cylinder injection internal combustion engine|

JP2000054880A|1998-08-05|2000-02-22|Honda Motor Co Ltd|Intake a/f controller for outboard engine|

JP5849071B2|2013-07-10|2016-01-27|本田技研工業株式会社|Exhaust structure of small vehicle|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

JP5643375A|JPS5344968B2|1975-05-12|1975-05-12|

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