I.c. engine with forced ignition

专利摘要:
1466589 Stratified charge IC engines REGIE NATIONALE DES USINES RENAULT and - AUTOMOBILES PEUGEOT 5 July 1974 [6 July 1973] 29818/74 Heading F1B An I.C. engine of the stratified charge and spark ignition type comprises a combustion chamber 2 to which fuel-air mixture is fed, there being either a region of the chamber 2 or an auxiliary chamber 10 remote from the spark ignition device 5 and in communication with the chamber 2 to which air is supplied prior to ignition through an aperture associated with the exhaust valve 4 via a passage 8 directed towards the exhaust aperture. In Fig. 1, air is admitted from the passage 8 when the exhaust valve 4 is open. For this purpose the closure of the exhaust valve may be delayed or it may be reopened towards the end of the induction stroke (E 2 , E 1 in Fig. 3 (not shown)).
公开号:SU743590A3
申请号:SU752170404
申请日:1975-09-15
公开日:1980-06-25
发明作者:Эно Клод
申请人:Режи Насьональ Дез Юзин；Отомобиль Пежо (Фирма)；
IPC主号:

专利说明:

The invention relates to mechanical engineering and, in particular, to engine building and can be used in engines with positive ignition and layered distribution of the fuel-air mixture in the combustion chamber. ₅
Known internal combustion engines with positive ignition, containing a combustion chamber equipped with spark plugs and connected through the inlet and outlet valves with inlet and outlet pipelines, respectively, a channel connected through an outlet to the combustion chamber in the area of the opposite zone of the spark plug and the drive mechanism exhaust valves [11.
However, in this embodiment, a layered charge distribution of the mixture is carried out by attaching a previously stratified charge to the air stream in the inlet pipe, in which the jet with the most jq rich mixture is directed to the candle. Pre-separation before the inlet, although it is a very economical solution, but has a limited scope due to the complexity of the design of the engine with a layered distribution of the mixture.
The purpose of the invention is to simplify the design of the engine by providing stratification of the charge directly in the combustion chamber.
To do this, in the proposed engine, the outlet of the channel is located in the exhaust pipe and is made in the form of a gap.
In FIG. 1 shows the described engine; in FIG. 2 - the same, top view; in FIG. 3 - version of the engine with a precamera; in FIG. 4 - same, top view; in FIG. 5 is an embodiment of an engine with air supply through an exhaust valve and a lateral arrangement of the exhaust valve; in FIG. 6 is an embodiment of an engine with an intake valve disposed in the pre-chamber; in FIG. 7 is an embodiment of an engine with an exhaust valve disposed in a pre-chamber.
Engine 1 (Fig. 1, 2) contains a combustion chamber 2, equipped with spark plugs 3 and connected through inlet 4 and outlet 5 valves, respectively, with corresponding inlet 6 and outlet 7 pipelines, channel 8 connected to a compressed air source (shown in the drawings) through the manifold 9 and communicated through the outlet 10 with the combustion chamber 2 in zone 11, the opposite region 12 of the location of the spark plug 3 and the drive mechanism 13 (Fig. 3) of the exhaust valves 5. The outlet 10 of the channel 8 is located in the exhaust pipe 7 and is made in the form of a slit.
In the embodiment of engine 1 shown in FIG. 3, 4, the manifold 9 communicates via a valve 14 with a pre-chamber 15, and the latter through an outlet 10 with a combustion chamber 2.
In the embodiment of engine 1 shown in FIG. 5, the inlet valve 4 is located in the stub cavity 16 of the combustion chamber 2. Candle 3 is also placed in the cavity 16.
In the embodiment of engine 1 shown in FIG. 6, the intake valve 4 and the candle 3 are placed in the pre-chamber 17.
In the exemplary embodiment of the engine 1 shown in FIG. 7, the exhaust valve 5 is located in the pre-chamber 18.
When the engine 1 is operating (Fig. 1), air from the manifold 9 from a source of compressed air (not shown in the drawings) is supplied to the exhaust valve 5 through channel 8. During the delayed closing of valve 5 during exhaust, at the beginning of the intake, air channel 8 and through valve 5 will be fed into the combustion chamber 2, in which it is distributed approximately the same as shown by the arrows in FIG. 2, contributing to the formation of accumulation of the fuel mixture supplied simultaneously through the valve 4 and indicated by dots around the candle 3.
This distribution can be enhanced by the secondary opening of the valve 5 at the end of the outlet simultaneously with the closing of the intake valve 4.
All this leads to the fact that the additional introduction of air enhances the effect of layer-by-layer distribution and combining 40 of the mixture around the candle 3. Blowing the combustion chamber 2 with additional air weakens the condensation of the fuel, which causes incomplete combustion.
The pre-chamber 15 (Fig. 3) provides the formation of an additional reserve of clean air, which (due to the lack of mixing with fuel during ignition) fully retains its oxidizing properties. During the expansion and exhaust period, this air, already heated in the pre-chamber 15, is sucked into the combustion chamber 2, which contributes to a more complete combustion. The orientation of the outlet 10 (Fig. 4) in the direction of the exhaust valve-5 favors the removal of this air into the exhaust pipe 7 (Fig. 3), where the afterburning of gases occurs.
The optimal volume of the pre-chamber 15, at which an acceptable compression ratio is maintained, is 25-50% of the volume of the combustion chamber 2. As a result, a higher efficiency is provided and the engine design is simplified, while realizing all the advantages of layer-by-layer mixing.

权利要求:
Claims (1)
[1]
(54) INTERNAL COMBUSTION ENGINE WITH FORCING IGNITION The invention relates to mechanical engineering and, in particular, to engine building and can be used in engines with forced ignition and layer-by-layer distribution of the fuel-air mixture in the combustion chamber. Forced ignition internal combustion engines are known, comprising a combustion chamber fitted with spark plugs and connected through inlet and exhaust valves to inlet and outlet pipes, respectively, a channel connected through an outlet opening to the combustion chamber in the zone opposite to the location of the spark plug and the exhaust actuator mechanism valves 1. However, in this embodiment, the layered distribution of the charge of the mixture is carried out by attaching a pre-stratified charge to flow of air in the intake pipe, wherein the jet with the most rich mixture is directed to the spark plug. Pre-separation before intake, although it is a very economical solution, but has a limited scope due to the complexity of the design of the engine with the stratified distribution of the mixture. The purpose of the invention is to simplify the engine design by providing charge separation directly in the combustion chamber. For this, in the proposed engine, the outlet of the channel is located in the exhaust pipe and is made in the form of a slit. FIG. 1 shows the described engine; in fig. 2 - the same, top view; in fig. 3 - engine variant with prechamber; in fig. 4 - the same, top view; in fig. 5 is a variant of the engine with air supply through the exhaust valve and the lateral arrangement of the exhaust valve; in fig. 6 shows an embodiment of an engine with an intake valve located in the prechamber; in fig. 7 shows an embodiment of an engine with an exhaust valve located in the prechamber. Engine 1 (Fig. 1, 2) contains a combustion chamber 2, fitted with spark plugs 3 and connected via inlet 4 and exhaust 5 valves, respectively, with corresponding inlet 6 and exhaust 7 pipes, channel 8, connected e.L. ".. A and 3 Ts; sr p ---., - r Г “Г ° е реГкл а, а„ 14сТеДК -оро 15 Гпедедм. through the outlet 10 with Тв1р „7Ге ие ™ рт..пред. 1 t п з: 1 ::: Е татг г, г сечеча 3 are placed in the prechamber 17 ::: 1 - FG 4p- - placed in the prechamber 18. Pass the engine 1 (FI. I; s3 Г ™ ;. Е1. S ETlBfib is approximately as follows. ™ PPC Chano arrows in Fig. /, CnuLuu -ioj Gassing of accumulation of the fuel mixture supplied simultaneously through the valve 4 points around the candle o. Such a distribution can be strengthened by secondary opening the valve 5 at the end of the release, simultaneously with the shut-down ™ sGGTIT dGkMu, that the additional introduction of air enhances the effect of the sGGTyear s7hGz oi-combustion additional air spirit reduces condensation of the fuel, which is the cause of incomplete combustion. sr about 1 ± 1 aci of the outlet 10 (4) is afterburning of gases. The optimal volume of the pre-chamber 15 at the outlet remains acceptable Internal combustion engine with the ГGGTGTG "oT- ° G"; „oT & GOGiPolneno in the form of a gap. Sources of information taken into account in the examination of 1 of the German Federal Republic No. 1576027 Cl. F 02 B 17/00, published 19/0.
/ 3
/ J
Fig .. 5
FIG. 6
7

类似技术:

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同族专利:

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公开号 | 公开日

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DE2349928C3|1978-09-21|

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SE418635B|1981-06-15|

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US3976039A|1976-08-24|

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RO69770A|1981-06-26|

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DE2349928A1|1975-01-30|

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IT1014382B|1977-04-20|

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DE2349928B2|1978-01-12|

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NL7407840A|1975-01-08|

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ES428278A1|1976-09-01|

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SE7408780L|1975-01-07|

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FR2236378A5|1975-01-31|

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SU579931A3|1977-11-05|

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JPS5037907A|1975-04-09|

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GB1466589A|1977-03-09|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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FR7324939A|FR2236378A5|1973-07-06|1973-07-06|

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