JPH10159618A - Stratified air supplying engine - Google Patents
Stratified air supplying engineInfo
- Publication number
- JPH10159618A JPH10159618A JP8321915A JP32191596A JPH10159618A JP H10159618 A JPH10159618 A JP H10159618A JP 8321915 A JP8321915 A JP 8321915A JP 32191596 A JP32191596 A JP 32191596A JP H10159618 A JPH10159618 A JP H10159618A
- Authority
- JP
- Japan
- Prior art keywords
- fuel
- load
- fuel injection
- combustion
- region
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/12—Improving ICE efficiencies
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/40—Engine management systems
Landscapes
- Combustion Methods Of Internal-Combustion Engines (AREA)
- Electrical Control Of Air Or Fuel Supplied To Internal-Combustion Engine (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、層状給気エンジン
に関するものである。TECHNICAL FIELD The present invention relates to a stratified charge engine.
【0002】[0002]
【従来の技術】従来より、エンジンの燃費性、エミッシ
ョン性を改善する目的から、負荷に応じて燃焼室に供給
する燃料のうち着火に必要な燃料だけを着火装置の近傍
に偏在させて、この部分のみの空燃比を濃くして着火性
を向上した層状燃焼を行うようにして、全体として希薄
燃焼が実現できる層状給気エンジンが、例えば特開昭4
9−62807号、特開昭49−128109号、特開
昭51−1816号に見られるように公知である。2. Description of the Related Art Conventionally, for the purpose of improving fuel efficiency and emission of an engine, only fuel necessary for ignition among fuels supplied to a combustion chamber according to a load is unevenly distributed near an ignition device. A stratified charge engine capable of realizing a lean burn as a whole by performing a stratified combustion with an improved ignitability by enriching the air-fuel ratio of only a portion thereof is disclosed in
As described in JP-A-9-62807, JP-A-49-128109 and JP-A-51-1816.
【0003】[0003]
【発明が解決しようとする課題】しかして、上記層状給
気エンジンにおいては、低負荷時に層状燃焼を行うもの
であり、この層状燃焼においては、吸気通路の絞り量を
少なくして吸入空気量を多くし、混合気を着火装置まわ
りに偏在させて希薄混合気による安定燃焼の実現によっ
て燃費性を向上するようにしているが、この層状燃焼を
高負荷域まで行うと、燃料量が多くなって過濃混合気が
存在して空気利用率が低下しスモークが発生することに
なる。However, in the stratified charge engine, stratified combustion is performed at a low load. In the stratified charge combustion engine, the throttle amount of the intake passage is reduced to reduce the intake air amount. More and more, the air-fuel mixture is unevenly distributed around the ignition device to improve fuel efficiency by realizing stable combustion with the lean air-fuel mixture.However, when this stratified combustion is performed up to a high load region, the fuel amount increases. The presence of the rich air-fuel mixture lowers the air utilization rate and causes smoke.
【0004】この点、高負荷状態では燃焼室全体に燃料
を分散供給した均一燃焼を行うことで空気利用率も向上
し、全体として大きな出力を得ることができることにな
るが、低負荷時の層状燃焼と高負荷時の均一燃焼との燃
焼形態の移行を運転性能を損なうことなく滑らかに行う
必要がある。[0004] In this respect, in a high load state, uniform combustion in which fuel is dispersed and supplied to the entire combustion chamber improves the air utilization rate, so that a large output can be obtained as a whole. It is necessary to smoothly shift the combustion mode between the combustion and the uniform combustion under a high load without impairing the operation performance.
【0005】すなわち、均一燃焼を開始する負荷次第で
は、噴射燃料が燃焼室全体に分散するため、空燃比から
見れば希薄化し過ぎて、均一混合気に対し、着火性、燃
焼性を損なうこととなる。In other words, depending on the load at which uniform combustion is started, the injected fuel is dispersed throughout the combustion chamber, so that it is too lean in view of the air-fuel ratio, impairing the ignitability and combustibility of the homogeneous mixture. Become.
【0006】特に、燃費性向上の観点で、理論空燃比
(空気過剰率λ=1)より希薄な空燃比を低・中負荷域
に設定したエンジンでは、ポンピングロス低減による燃
費効果も兼ねて、燃料噴射量によって出力制御を行うこ
ととなるため、均一燃焼用の燃料供給を開始するに当た
って失火の発生が問題となる。In particular, in the case of an engine in which an air-fuel ratio leaner than the stoichiometric air-fuel ratio (excess air ratio λ = 1) is set to a low / medium load region from the viewpoint of improving fuel efficiency, the fuel efficiency is also reduced by reducing the pumping loss. Since the output control is performed based on the fuel injection amount, the occurrence of misfire becomes a problem when starting the fuel supply for uniform combustion.
【0007】そこで、本発明は上記事情に鑑み、燃料噴
射量によりエンジン出力を制御し、希薄燃焼とポンピン
グロスの低減を広い運転領域で行いつつ、スモークの発
生と失火の発生の双方を防止して、全運転領域で滑らか
にエンジン出力を変化させ、良好な運転性能が得られる
ようにした層状吸気エンジンを提供せんとするものであ
る。In view of the above circumstances, the present invention controls both the generation of smoke and the occurrence of misfire while controlling the engine output by the fuel injection amount to reduce lean combustion and pumping loss in a wide operating range. Accordingly, it is an object of the present invention to provide a stratified intake engine in which the engine output is smoothly changed in the entire operation range to obtain good operation performance.
【0008】[0008]
【課題を解決するための手段】本発明の層状給気エンジ
ンは、エンジンの負荷を検出する負荷検出手段と、燃焼
室内へ燃料を供給する燃料供給手段と、燃焼室内に配設
された着火装置とを備え、低負荷時には燃料供給手段か
ら着火装置のまわりに可燃混合気が偏在するよう後期に
燃料を供給し着火することにより層状燃焼を行う一方、
高負荷時には燃焼室全体に可燃混合気が分散するよう早
期に燃料を供給し着火することにより均一燃焼を行うよ
うにしたものであって、燃焼室内へ供給する燃料噴射量
を負荷増大に応じて徐々に増加させ、エンジン出力を制
御するとともに、前記低負荷時の後期燃料噴射による層
状燃焼領域と前記高負荷時の早期燃料噴射による均一燃
焼領域との間に、早期燃料噴射と後期燃料噴射の両燃料
噴射を行う移行領域を設け、上記移行領域の全域にわた
って空気過剰率λが1よりも大きくなるよう設定すると
ともに、この移行領域では負荷の増大とともに空気過剰
率λが小さくなるように設定し、さらに、上記移行領域
における負荷の増大に伴った早期燃料噴射の増量割合を
全燃料噴射の増量割合以上として増量させ、かつ、負荷
増大に伴う移行領域の終了時において後期燃料噴射量を
早期燃料噴射量に対して少なくなるよう前記燃料供給手
段を制御する制御手段を備えたことを特徴とするもので
ある。SUMMARY OF THE INVENTION A stratified charge engine according to the present invention has a load detecting means for detecting a load on the engine, a fuel supply means for supplying fuel to a combustion chamber, and an ignition device disposed in the combustion chamber. At the time of low load, while performing stratified combustion by supplying fuel and igniting so that a combustible mixture is unevenly distributed around the ignition device from the fuel supply means at the time of low load,
When the load is high, the fuel is supplied and ignited early so that the combustible air-fuel mixture is dispersed throughout the combustion chamber to perform uniform combustion, and the fuel injection amount supplied to the combustion chamber is increased according to the load increase. While gradually increasing and controlling the engine output, between the stratified combustion region by the late fuel injection at the low load and the uniform combustion region by the early fuel injection at the high load, the early fuel injection and the late fuel injection A transition region for performing both fuel injections is provided, and the excess air ratio λ is set so as to be greater than 1 over the entire transition region. In this transition region, the excess air ratio λ is set so as to decrease as the load increases. Further, the increase rate of the early fuel injection accompanying the increase in the load in the transition area is increased to be equal to or more than the increase rate of the entire fuel injection, and the transition area accompanying the load increase is increased. And control means for controlling the fuel supply means so that the late fuel injection amount becomes smaller than the early fuel injection amount at the end of the process.
【0009】本発明の他の層状給気エンジンは、エンジ
ンの負荷を検出する負荷検出手段と、燃焼室内へ燃料を
供給する燃料供給手段と、燃焼室内に配設された着火装
置とを備え、低負荷時には燃料供給手段から着火装置の
まわりに可燃混合気が偏在するよう後期に燃料を供給し
着火することにより層状燃焼を行う一方、高負荷時には
燃焼室全体に可燃混合気が分散するよう早期に燃料を供
給し着火することにより均一燃焼を行うようにしたもの
であって、前記低負荷時の後期燃料噴射による層状燃焼
領域と前記高負荷時の早期燃料噴射による均一燃焼領域
との間に、早期燃料噴射と後期燃料噴射の両燃料噴射を
行う移行領域を設け、上記層状燃焼領域の全域にわたっ
て空気過剰率λが1よりも大きくなるよう設定し、移行
領域では負荷の増大とともに空気過剰率λが小さくなる
ように設定する一方、前記移行領域においては、燃焼室
内へ供給される全燃料噴射量に対する後期の燃料噴射量
の割合を、空気過剰率λが小さくなる程減少するように
前記燃料供給手段を制御する制御手段を備えたことを特
徴とするものである。[0009] Another stratified charge engine of the present invention includes load detecting means for detecting a load on the engine, fuel supply means for supplying fuel to the combustion chamber, and an ignition device disposed in the combustion chamber. At low load, fuel is supplied and ignited in a later stage so that the combustible mixture is unevenly distributed around the ignition device from the fuel supply means, and stratified combustion is performed. Between the stratified combustion region by the late fuel injection at the time of low load and the uniform combustion region by the early fuel injection at the time of high load. A transition region for performing both early fuel injection and late fuel injection is provided, and the excess air ratio λ is set to be larger than 1 over the entire stratified combustion region. At the same time, the ratio of the late fuel injection amount to the total fuel injection amount supplied into the combustion chamber decreases in the transition region as the excess air ratio λ decreases. In this manner, a control means for controlling the fuel supply means is provided.
【0010】[0010]
【発明の効果】上記のような本発明の層状給気エンジン
によれば、低負荷域においては、後期燃料噴射により燃
焼室内の着火装置まわりに可燃混合気が偏在するように
燃料を供給した層状燃焼を行うことで、希薄燃焼によっ
て燃費性を向上する一方、高負荷運転域においては、早
期燃料噴射により燃焼室の全体に可燃混合気が分散する
ように燃料を供給した均一燃焼を行ってスモークの発生
を伴うことなく良好な高出力運転を確保することができ
る。さらに、上記低負荷域の層状燃焼から高負荷域の均
一燃焼への移行領域においては、層状燃焼用の後期燃料
噴射と均一燃焼用の早期燃料噴射の両燃料噴射を行うと
ともに、この移行領域では空気過剰率λが1よりも大き
くかつ負荷の増大とともに空気過剰率λが小さくなるよ
うに設定したことにより、均一燃焼を開始する領域にお
いて、後期燃料噴射を継続させて着火装置まわりに火種
となる混合気を偏在させ、かつ、早期燃料噴射により着
火までの時間を確保して燃料の気化、霧化を促進するこ
とで、希薄空燃比下の均一混合気への着火性、燃焼性を
確保することができる。According to the stratified charge engine of the present invention as described above, in the low load range, the stratified charge is supplied by the late fuel injection so that the combustible mixture is unevenly distributed around the ignition device in the combustion chamber. By performing combustion, fuel efficiency is improved by lean combustion, but in the high-load operation range, smoke is supplied by performing uniform combustion by supplying fuel so that the combustible mixture is dispersed throughout the combustion chamber by early fuel injection. And good high-output operation can be ensured without causing occurrence of the above. Furthermore, in the transition region from the stratified combustion in the low load region to the uniform combustion in the high load region, both late fuel injection for stratified combustion and early fuel injection for uniform combustion are performed, and in this transition region, By setting the excess air ratio λ to be greater than 1 and to decrease the excess air ratio λ with an increase in the load, in the region where uniform combustion is started, the latter-stage fuel injection is continued to become a fire around the ignition device. By diversifying the air-fuel mixture and securing the time until ignition by early fuel injection to promote the vaporization and atomization of the fuel, the ignitability and combustibility of a uniform air-fuel mixture with a lean air-fuel ratio are ensured. be able to.
【0011】また、前記移行領域における負荷の増大に
伴った早期燃料噴射の増量割合を全燃料噴射の増量割合
以上として増量させ、かつ、負荷増大に伴う移行領域の
終了時において後期燃料噴射量を早期燃料噴射量に対し
て少なくなるようにしたことにより、負荷増大に伴って
早期燃料噴射量が増加し、燃焼室全体の空気利用率が高
まって、エンジン出力が増大する。そして、燃焼室全体
に分散する均一混合気の空燃比が次第に濃くなって行く
結果、着火装置まわりにおける後期燃料噴射によって偏
在した成層混合気と均一混合気との重なった局所的空燃
比が濃くなる傾向にあるものの、全燃料噴射量に対する
後期燃料噴射量の占める割合が少なく、かつ、全燃料噴
射量が供給された燃焼室全体の空気過剰率λが1以上の
希薄空燃比域で、均一燃焼へ完全に切り換えるため、ス
モークの発生を伴うことなく高出力運転へスムーズに移
行でき、良好な運転性能を得ることができる。Further, the increase rate of the early fuel injection accompanying the increase in the load in the transition region is increased to be equal to or more than the increase ratio of the entire fuel injection, and the late fuel injection amount is reduced at the end of the transition region accompanying the load increase. By reducing the amount of early fuel injection, the amount of early fuel injection increases with an increase in load, the air utilization rate of the entire combustion chamber increases, and the engine output increases. As a result, the air-fuel ratio of the homogeneous air-fuel mixture dispersed throughout the combustion chamber gradually increases, and as a result, the local air-fuel ratio where the stratified air-fuel mixture unevenly distributed by the late fuel injection around the igniter and the uniform air-fuel mixture overlaps increases. In the lean air-fuel ratio region where the ratio of the late fuel injection amount to the total fuel injection amount is small and the excess air ratio λ of the entire combustion chamber to which the entire fuel injection amount is supplied is 1 or more, there is a tendency. Therefore, the operation can be smoothly shifted to high-power operation without generating smoke, and good operation performance can be obtained.
【0012】さらに、本発明の他の層状給気エンジンに
よれば、空気過剰率λが1よりも大きい層状燃焼領域と
高負荷時の均一燃焼領域との間で、早期燃料噴射と後期
燃料噴射の両燃料噴射を行う移行領域では、負荷の増大
とともに空気過剰率λが小さくなるように設定し、全燃
料噴射量に対する後期の燃料噴射量の割合を空気過剰率
λが小さくなる程減少するようにしたことにより、低負
荷域からの負荷の増大に対応して燃料量を増大する場合
に、層状燃焼用の後期燃料噴射量をそのまま増大すると
燃焼室の一部に過濃混合気が存在して空気利用率が低下
してスモークが発生するのを、その後期噴射燃料量を空
気過剰率λが小さくなるほど低減して早期燃料噴射量を
増大して均一分散化を促進して空気利用率を向上し、ス
モークの発生を抑制しつつ燃焼形態の変更を行うことが
できる。Further, according to another stratified charge engine of the present invention, the early fuel injection and the late fuel injection are performed between a stratified combustion region in which the excess air ratio λ is greater than 1 and a uniform combustion region under a high load. In the transition region where both fuel injections are performed, the excess air ratio λ is set to decrease as the load increases, and the ratio of the late fuel injection amount to the total fuel injection amount decreases as the excess air ratio λ decreases. As a result, when the fuel amount is increased in response to the increase in the load from the low load region, if the late fuel injection amount for the stratified combustion is directly increased, the rich mixture exists in a part of the combustion chamber. In order to reduce the air usage rate and generate smoke, the later-stage fuel injection quantity is reduced as the excess air rate λ is reduced, the early fuel injection quantity is increased and uniform dispersion is promoted to increase the air usage rate. Improve and reduce smoke While it is possible to change the combustion mode.
【0013】[0013]
【実施例】以下、本発明の実施例を図面に沿って説明す
る。この実施例は図1ないし図5に示し、燃料供給手段
を、成層用の第1燃料供給手段と分散用の第2燃料供給
手段とにより構成した例を示すものである。Embodiments of the present invention will be described below with reference to the drawings. This embodiment is shown in FIGS. 1 to 5 and shows an example in which the fuel supply means is constituted by a first fuel supply means for stratification and a second fuel supply means for dispersion.
【0014】図1に示すエンジンにおいて、1はピスト
ン2の上方に形成された副室を持たない一般のオープン
チャンバ形状の燃焼室、3は該燃焼室1に吸入空気を導
入する吸気通路、4は燃焼室1から排気ガスを導出する
排気通路、5は吸気弁、6は排気弁、7は排気通路4に
介装された触媒装置をそれぞれ示している。In the engine shown in FIG. 1, reference numeral 1 denotes a general open-chamber combustion chamber having no sub-chamber formed above a piston 2; 3 denotes an intake passage for introducing intake air into the combustion chamber 1; Denotes an exhaust passage for discharging exhaust gas from the combustion chamber 1, 5 denotes an intake valve, 6 denotes an exhaust valve, and 7 denotes a catalyst device provided in the exhaust passage 4.
【0015】上記燃焼室1には、点火プラグによる着火
装置8が配設されるとともに、この着火装置8のまわり
に燃料を供給する成層用燃料噴射ノズル9が配設され、
この成層用燃料噴射ノズル9には燃料噴射ポンプ10が
接続されて第1燃料供給手段11が構成されている。The combustion chamber 1 is provided with an ignition device 8 using a spark plug, and a stratification fuel injection nozzle 9 for supplying fuel around the ignition device 8.
A fuel injection pump 10 is connected to the stratification fuel injection nozzle 9 to form a first fuel supply means 11.
【0016】一方、上記吸気通路3には、燃焼室1内に
燃料を分散供給する分散用燃料噴射ノズル12による第
2燃料供給手段13が介装されている。さらに、この分
散用燃料噴射ノズル12の下流には絞り弁14が配設さ
れ、この絞り弁14にはその開閉作動を電気的に行うア
クチュエータ15(アクセル操作には連動していない)
が設けられて吸気通路3の開口面積を制御して吸入空気
量を規制する吸気絞り手段20が構成されている。On the other hand, the intake passage 3 is provided with a second fuel supply means 13 including a dispersing fuel injection nozzle 12 for dispersing and supplying fuel into the combustion chamber 1. Further, a throttle valve 14 is provided downstream of the dispersion fuel injection nozzle 12, and an actuator 15 for electrically opening and closing the throttle valve 14 (not linked to the accelerator operation).
Are provided to form intake throttle means 20 for controlling the opening area of the intake passage 3 to regulate the amount of intake air.
【0017】上記吸気通路3の下流側部分は図2に示す
ように、湾曲形成されて吸入空気を燃焼室1の接線方向
から導入し、燃焼室1内にその周方向に沿ったスワール
Sを生成するスワールポートに形成され、このスワール
により、第1燃料供給手段11の成層用燃料噴射ノズル
9から供給され着火装置8にて着火された着火燃料を空
気と十分に混合させるとともに、火炎を燃焼室1全体に
伝播させて、噴射燃料全体を十分に燃焼させるものであ
る。As shown in FIG. 2, the downstream portion of the intake passage 3 is curved to introduce intake air from a tangential direction of the combustion chamber 1 and to form a swirl S in the combustion chamber 1 along its circumferential direction. The swirl port is formed, and the swirl causes the ignition fuel supplied from the stratification fuel injection nozzle 9 of the first fuel supply means 11 and ignited by the ignition device 8 to be sufficiently mixed with air, and the flame is burned. The fuel is propagated to the entire chamber 1 to sufficiently burn the entire injected fuel.
【0018】上記第1燃料供給手段11の燃料噴射ポン
プ10、第2燃料供給手段13の分散用燃料噴射ノズル
12および吸気絞り手段20のアクチュエータ15の作
動は、制御手段16によって制御される。The operation of the fuel injection pump 10 of the first fuel supply means 11, the dispersing fuel injection nozzle 12 of the second fuel supply means 13, and the operation of the actuator 15 of the intake throttle means 20 are controlled by control means 16.
【0019】上記制御手段16は、エンジンの要求負荷
を例えばアクセルセンサーによって検出する負荷検出手
段17からの負荷信号、およびエンジン冷機時を例えば
冷却水温度によって検出する水温センサー18からの検
出信号を受けるとともに、エンジン回転センサー19か
らのエンジン回転信号等を受け、成層用燃料噴射ノズル
9からの燃料噴射量および燃料噴射時期、分散用燃料噴
射ノズル12からの燃料噴射量をそれぞれ制御するとと
もに、絞り弁14の閉作動時期を制御するものである。The control means 16 receives a load signal from a load detection means 17 for detecting a required load of the engine by, for example, an accelerator sensor, and a detection signal from a water temperature sensor 18 for detecting when the engine is cold, for example, by a cooling water temperature. At the same time, it receives the engine rotation signal from the engine rotation sensor 19 and controls the fuel injection amount and the fuel injection timing from the stratification fuel injection nozzle 9 and the fuel injection amount from the dispersion fuel injection nozzle 12, respectively. 14 to control the closing operation timing.
【0020】上記制御手段16は、水温センサー18の
検出信号に応じ、冷却水温度が設定値以下のエンジン冷
機時には吸気絞り手段20を作動して絞り弁14を閉
じ、吸入空気量を減少するとともに、第2燃料供給手段
13によって所定量の分散燃料を供給するものである。The control means 16 operates the intake throttle means 20 to close the throttle valve 14 in response to the detection signal of the water temperature sensor 18 when the cooling water temperature is equal to or lower than the set value to reduce the intake air amount. The second fuel supply means 13 supplies a predetermined amount of dispersed fuel.
【0021】また、この制御手段16による負荷に対応
した燃料供給量制御は、負荷検出手段17の信号を受
け、設定負荷以下の低・中負荷域における常用運転域で
は第2燃料供給手段13による分散燃料の供給は停止
し、第1燃料供給手段11からの後期燃料噴射による成
層燃料を供給して層状燃焼を行い、負荷の増加に応じて
その供給量を増加し、設定負荷を越えた移行領域では成
層燃料の供給量を減少させるものである。一方、第2燃
料供給手段13からの早期燃料噴射による分散燃料は、
上記設定負荷近傍の負荷以上において供給を開始し、第
1燃料供給手段11による成層燃料の減少量を補うよう
に全燃料噴射量の増量割合以上の増量割合で増量し、負
荷の増加に応じて全供給量が増加するよう分散用燃料の
供給量を増加して層状燃焼から均一燃焼に移行するもの
である。その際、各噴射毎の噴射量、噴射回数はエンジ
ン回転数に対応して設定する。The control of the fuel supply amount corresponding to the load by the control means 16 is performed by the second fuel supply means 13 in a normal operation range in a low / medium load range below a set load upon receiving a signal from the load detection means 17. The supply of the dispersed fuel is stopped, the stratified fuel is supplied by the late fuel injection from the first fuel supply means 11 to perform stratified combustion, and the supply amount is increased according to the increase in the load. In the region, the supply amount of the stratified fuel is reduced. On the other hand, the dispersed fuel by the early fuel injection from the second fuel supply means 13 is:
Supply is started at a load equal to or higher than the load in the vicinity of the set load, and the amount is increased at an increase rate equal to or greater than the increase rate of the total fuel injection amount so as to compensate for the decrease amount of the stratified fuel by the first fuel supply means 11. In this case, the supply amount of the dispersing fuel is increased so that the total supply amount is increased, and the stratified combustion is shifted to the uniform combustion. At this time, the injection amount and the number of injections for each injection are set in accordance with the engine speed.
【0022】すなわち、エンジンの負荷に対応した第1
燃料供給手段11、第2燃料供給手段13による燃料供
給量制御は、図3に示すように行う。この図3は負荷の
変動に対する燃料供給量Qの変動を空気過剰率λの変動
とともに示すものであって、前記絞り弁14は基本的に
全開状態で吸入空気量は一定であり、負荷の増加に対し
燃料供給量Qを増加して空気過剰率λを小さくし、すな
わち空燃比を濃くして出力制御を行うように設けられて
いる。燃料供給量Qにおいて、領域Iの燃料を第1燃料
供給手段11からの後期燃料噴射で供給し、領域IIの燃
料を第2燃料供給手段13からの早期燃料噴射で供給す
るものである。第1燃料供給手段11による成層燃料の
供給はA点の設定負荷以下では負荷の増加に応じて増大
する一方、この設定負荷A点を越えると、第1燃料供給
手段11からの燃料供給を減少し、B点を越えた高負荷
時には、成層用燃料噴射ノズル9のカーボンによる目詰
まり防止と加熱防止のために少量噴射を継続する。That is, the first type corresponding to the engine load
The fuel supply amount control by the fuel supply means 11 and the second fuel supply means 13 is performed as shown in FIG. FIG. 3 shows the variation of the fuel supply amount Q with respect to the variation of the load together with the variation of the excess air ratio λ. The throttle valve 14 is basically in the fully opened state, the intake air amount is constant, and the load increases. However, the fuel supply amount Q is increased to reduce the excess air ratio λ, that is, the air-fuel ratio is increased to perform output control. In the fuel supply amount Q, the fuel in the region I is supplied by the late fuel injection from the first fuel supply means 11, and the fuel in the region II is supplied by the early fuel injection from the second fuel supply means 13. The supply of stratified fuel by the first fuel supply means 11 increases as the load increases below the set load at point A, while the fuel supply from the first fuel supply means 11 decreases when the load exceeds point A. When the load is higher than the point B, a small amount of injection is continued to prevent the stratification fuel injection nozzle 9 from being clogged with carbon and from being heated.
【0023】一方、上記第2燃料供給手段13による分
散燃料の供給はA点の設定負荷以上で供給を開始し、こ
れより負荷が増加すると第1燃料供給手段11による成
層燃料の供給減少を補うとともに、全体として負荷の増
加に対応して増加した燃料を供給するものである。On the other hand, the supply of the dispersed fuel by the second fuel supply means 13 starts at a load equal to or higher than the set load at the point A, and when the load increases further, the decrease in the supply of the stratified fuel by the first fuel supply means 11 is compensated for. At the same time, it supplies the increased fuel in response to the increase in the load as a whole.
【0024】上記A点の設定負荷は、その時点における
空気過剰率λが均一混合気でも着火可能な着火限界の空
気過剰率λ以下となるような負荷状態に設定され、ま
た、B点の負荷は、その時点における空気過剰率λが層
状燃焼によっては空気利用率が低下してスモークが発生
し始める空気過剰率λ以上となるような負荷状態に設定
される。空気過剰率λはB点以下で1以上であり、負荷
の増大に対して燃料供給量が増大して空気過剰率λが小
さくなる。The load set at the point A is set so that the excess air ratio λ at that time is equal to or less than the ignition limit excess air ratio λ that can ignite even a homogeneous mixture, and the load at the point B is set. Is set to a load state in which the excess air ratio λ at that time becomes equal to or higher than the excess air ratio λ at which the air utilization rate decreases due to the stratified combustion and smoke starts to be generated. The excess air ratio λ is 1 or more below the point B, and the fuel supply amount increases as the load increases, and the excess air ratio λ decreases.
【0025】よって、上記A点以下においては、燃料は
燃焼室1の着火装置8まわりに偏在して供給される層状
燃焼領域であり、B点以上が燃焼室1全体に燃料が分散
して供給される均一燃焼領域で、A−B間が層状燃焼領
域から均一燃焼領域への移行領域であり、層状燃焼用燃
料と均一燃焼用燃料とが別途に2回噴射される。Therefore, below the point A, the fuel is distributed in a stratified combustion region around the ignition device 8 in the combustion chamber 1, and above point B, the fuel is dispersed and supplied to the entire combustion chamber 1. In the uniform combustion region to be performed, a section between A and B is a transition region from the stratified combustion region to the uniform combustion region, and the stratified combustion fuel and the uniform combustion fuel are separately injected twice.
【0026】なお、第2燃料供給手段13による分散燃
料の供給開始時期は、第1燃料供給手段11による成層
燃料の供給を減少させる設定負荷A点と一致させること
なく、このA点近傍の相前後した負荷状態で供給を開始
するようにすればよい。The start timing of the supply of the dispersed fuel by the second fuel supply means 13 does not coincide with the set load A point at which the supply of the stratified fuel by the first fuel supply means 11 is reduced. The supply may be started under the changed load state.
【0027】次に、図4は負荷変動に対し、第1燃料供
給手段11による成層燃料の噴射時期(噴射開始時期)
と点火時期を示すものであり、前記A点の設定負荷以下
の成層化を行う領域では、噴射時期は圧縮上死点近傍の
点火時期より所定量早い時期(後期)に設定され、噴射
燃料が着火装置8まわりに有効に偏在した状態で着火を
行う。上記A点を越えてB点の分散化を行う領域に移行
するのに従って、噴射時期を進めて早い時期に噴射(少
量噴射)を行い、第1燃料供給手段11から噴射された
燃料の偏在を小さくして燃焼室1全体に分散させるよう
にする。また、アイドル運転時のような極低負荷時には
燃料噴射時期および点火時期は層状燃焼時より若干進め
て安定性を向上している。Next, FIG. 4 shows the injection timing (injection start timing) of the stratified fuel by the first fuel supply means 11 in response to the load fluctuation.
In the region where stratification is performed below the set load at the point A, the injection timing is set to a timing earlier by a predetermined amount (late period) than the ignition timing near the compression top dead center, and the injected fuel is increased. The ignition is performed in a state where the ignition device 8 is effectively unevenly distributed around the ignition device 8. As the shift to the region where the dispersion of the point B is performed beyond the point A is performed, the injection timing is advanced and the injection (small amount injection) is performed at an earlier timing, and the uneven distribution of the fuel injected from the first fuel supply means 11 is reduced. It is made small and dispersed throughout the combustion chamber 1. In addition, when the load is extremely low such as during idling, the fuel injection timing and the ignition timing are slightly advanced from those in the stratified combustion to improve the stability.
【0028】なお、エンジン冷機時において、上記第2
燃料供給手段13による分散燃料の供給を行う代りに、
第1燃料供給手段11による燃料噴射時期を、上記高負
荷時と同様に進角させることにより、吸気行程から圧縮
行程初期までの早い時期に噴射を完了し、その後の燃焼
室1内の吸入空気の流れによって燃料が分散するように
して、均一燃焼を得るようにしてもよい。When the engine is cold, the second
Instead of supplying the dispersed fuel by the fuel supply means 13,
By advancing the fuel injection timing by the first fuel supply means 11 in the same manner as at the time of the high load, the injection is completed at an early timing from the intake stroke to the early stage of the compression stroke, and the intake air in the combustion chamber 1 thereafter is completed. The fuel may be dispersed by the flow of the air to obtain uniform combustion.
【0029】また、図4では点火時期は負荷変動に対し
て略一定に設定しているが、これは負荷の増大に応じて
点火時期を進めるように変化させてもよい。Further, in FIG. 4, the ignition timing is set to be substantially constant with respect to the load fluctuation, but this may be changed so that the ignition timing is advanced in accordance with the increase in the load.
【0030】一方、制御手段16による吸気絞り手段2
0の絞り弁14の開閉制御は、図5に示すように、基本
的には絞り弁14を全開状態としてノンスロットル運転
を行い、エンジン始動時もしくはアイドル時のような極
低負荷時には開度を小さくして吸入空気量を減少するも
のである。On the other hand, the intake throttle means 2 by the control means 16
As shown in FIG. 5, the opening / closing control of the throttle valve 14 of 0 is basically performed with the throttle valve 14 fully opened to perform a non-throttle operation. This is to reduce the intake air amount by making it smaller.
【0031】また、エンジン冷機時には、図5中に鎖線
で示すように、低・中負荷域において広範囲に絞るもの
であり、負荷が低下するほど開度を小さくして吸入空気
量を減少することにより、空気過剰率を小さくし空燃比
をリッチにするものである。When the engine is cold, as shown by the dashed line in FIG. 5, the engine is throttled over a wide range in a low-to-medium load region. Thus, the excess air ratio is reduced and the air-fuel ratio is made rich.
【0032】その他、燃料供給が停止されている減速時
に触媒温度の低下を防止するとともにエンジンブレーキ
性能を向上するために、絞り弁14を閉じるように制御
するものである。In addition, the throttle valve 14 is controlled to close so as to prevent the catalyst temperature from decreasing during deceleration when the fuel supply is stopped and to improve the engine braking performance.
【0033】よって、上記実施例の層状給気エンジンに
よれば、設定負荷A点以下の低・中負荷における常用運
転領域では、後期燃料噴射による層状燃焼を行って良好
な着火性を得るとともに、空気過剰率λが1以上となる
希薄燃焼を可能として燃費性を向上すると同時に、この
成層領域においては、絞り弁14を閉じることなく吸入
空気量を一定として、第1燃料供給手段11による燃料
供給量によって出力制御を行うようにしたことにより、
絞り弁14の絞り作動に伴うポンピングロスを大幅に低
減することができ、燃費性がより一層向上する。Therefore, according to the stratified charge engine of the above-described embodiment, in the normal operation region at a low / medium load below the set load A point, the stratified combustion by the late fuel injection is performed to obtain good ignitability. Fuel efficiency is improved by enabling lean combustion in which the excess air ratio λ is 1 or more, and at the same time, in this stratified region, the amount of intake air is kept constant without closing the throttle valve 14 and fuel supply by the first fuel supply means 11 is performed. By controlling the output by the amount,
Pumping loss associated with the throttle operation of the throttle valve 14 can be significantly reduced, and fuel efficiency is further improved.
【0034】また、上記設定負荷A点を越えたB点まで
の移行領域では早期燃料噴射と後期燃料噴射を行うとと
もに、早期燃料噴射を増大して層状燃焼から均一燃焼に
移行して、B点を越えた高負荷運転域では均一燃焼とし
て空気利用率を増大してスモークの発生を伴うことなく
高出力運転を行うものであり、全領域においてそれぞれ
の燃焼形態での燃焼を行って層状燃焼と均一燃焼との移
行で良好な運転性能と、ポンピングロスの低減による燃
費性の改善が行える。In the transition region from the set load A point to the point B, the early fuel injection and the late fuel injection are performed, and the early fuel injection is increased to shift from stratified combustion to uniform combustion. In the high-load operation region beyond the above, high-output operation is performed without generating smoke by increasing the air utilization rate as uniform combustion, and combustion in each combustion mode is performed in all regions to achieve stratified combustion. Good operation performance can be achieved by transition to uniform combustion, and fuel efficiency can be improved by reducing pumping loss.
【0035】さらに、エンジン冷機時には、燃焼室全体
に燃料を分散供給する第2燃料供給手段13により燃料
を供給するか、第1燃料供給手段11による燃料噴射時
期を進角して燃焼室1内に供給した燃料が分散するよう
にして均一燃焼を行うとともに、吸気絞り手段20によ
り絞り弁14を閉じて吸入空気量を減少して分散燃料の
空燃比をリッチ化し、これにより良好な暖機性を確保し
ている。Further, when the engine is cold, the fuel is supplied by the second fuel supply means 13 for dispersing and supplying the fuel to the entire combustion chamber, or the fuel injection timing by the first fuel supply means 11 is advanced to allow the fuel to be injected into the combustion chamber 1. In addition, uniform combustion is performed so that the fuel supplied to the fuel cell is dispersed, and the throttle valve 14 is closed by the intake throttle means 20 to reduce the amount of intake air to enrich the air-fuel ratio of the dispersed fuel. Is secured.
【0036】なお、上記実施例では分散用燃料噴射ノズ
ル12は吸気通路3の途中に介装するようにしている
が、燃焼室1内に開口するように配設してもよく、その
場合、燃焼室1に直接供給する分散燃料の噴射時期は、
吸気行程から圧縮行程初期の間に噴射を完了するように
設定し、供給燃料が吸入空気との混合によって燃焼室1
内に均一分散するようにして、均一燃焼を得るものであ
る。In the above embodiment, the dispersing fuel injection nozzle 12 is interposed in the middle of the intake passage 3, but may be disposed so as to open into the combustion chamber 1. The injection timing of the dispersed fuel directly supplied to the combustion chamber 1 is
The injection is set to be completed between the intake stroke and the initial stage of the compression stroke.
In this case, uniform combustion is obtained by uniformly dispersing the gas in the chamber.
【0037】さらに、上記実施例において、冷却水温す
なわちエンジン冷機状態の程度に応じて、吸気絞り手段
20による吸入空気量の減少量、もしくは噴射時期の進
角等による均一化傾向度合を変更調整するようにしても
よく、温度が上昇するのに伴って吸入空気量を増加させ
るとともに、層状燃焼に戻すものである。Further, in the above embodiment, the amount of decrease in the amount of intake air by the intake throttle means 20 or the degree of equalization tendency due to advance of the injection timing is changed and adjusted according to the cooling water temperature, that is, the degree of the engine cold state. Alternatively, the amount of intake air may be increased as the temperature rises, and the combustion may return to stratified combustion.
【図1】本発明の一つの実施例による層状給気エンジン
の概略構成図FIG. 1 is a schematic configuration diagram of a stratified charge engine according to one embodiment of the present invention.
【図2】図1の例における燃焼室を模式的に示した平面
図FIG. 2 is a plan view schematically showing a combustion chamber in the example of FIG.
【図3】図1の例における負荷に対する燃料供給量の制
御を空気過剰率とともに示す特性図FIG. 3 is a characteristic diagram showing control of a fuel supply amount with respect to a load in the example of FIG. 1 together with an excess air ratio.
【図4】図1の例における負荷変動に対し第1燃料供給
手段による成層燃料の噴射時期と点火時期を示す特性図FIG. 4 is a characteristic diagram showing stratified fuel injection timing and ignition timing by a first fuel supply unit with respect to a load change in the example of FIG. 1;
【図5】図1の例における負荷変動に対する絞り弁の開
度を示す特性図FIG. 5 is a characteristic diagram showing an opening degree of a throttle valve with respect to a load change in the example of FIG. 1;
1 燃焼室 3 吸気通路 8 着火装置 9 成層用燃料噴射ノズル 10 燃料噴射ポンプ 11 第1燃料供給手段 12 分散用燃料噴射ノズル 13 第2燃料供給手段 14 絞り弁 15 アクチュエータ 16 制御手段 17 負荷検出手段 18 水温センサー 20 吸気絞り手段 DESCRIPTION OF SYMBOLS 1 Combustion chamber 3 Intake passage 8 Ignition device 9 Fuel injection nozzle for stratification 10 Fuel injection pump 11 First fuel supply means 12 Fuel injection nozzle for dispersion 13 Second fuel supply means 14 Throttle valve 15 Actuator 16 Control means 17 Load detection means 18 Water temperature sensor 20 Intake throttling means
───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.6 識別記号 FI F02D 41/34 F02D 41/34 H E (72)発明者 沖本 晴男 広島県安芸郡府中町新地3番1号 マツダ 株式会社内 (72)発明者 河野 誠公 広島県安芸郡府中町新地3番1号 マツダ 株式会社内──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. 6 Identification code FI F02D 41/34 F02D 41/34 HE (72) Inventor Haruo Okimoto 3-1, Fuchu-cho, Shinchi, Aki-gun, Hiroshima Mazda (72) Inventor Makoto Kono 3-1, Shinchi, Fuchu-cho, Aki-gun, Hiroshima Mazda Co., Ltd.
Claims (2)
と、燃焼室内へ燃料を供給する燃料供給手段と、燃焼室
内に配設された着火装置とを備え、低負荷時には燃料供
給手段から着火装置のまわりに可燃混合気が偏在するよ
う後期に燃料を供給し着火することにより層状燃焼を行
う一方、高負荷時には燃焼室全体に可燃混合気が分散す
るよう早期に燃料を供給し着火することにより均一燃焼
を行うようにした層状給気エンジンであって、 燃焼室内へ供給する燃料噴射量を負荷増大に応じて徐々
に増加させ、エンジン出力を制御するとともに、 前記低負荷時の後期燃料噴射による層状燃焼領域と前記
高負荷時の早期燃料噴射による均一燃焼領域との間に、
早期燃料噴射と後期燃料噴射の両燃料噴射を行う移行領
域を設け、 上記移行領域の全域にわたって空気過剰率λが1よりも
大きくなるよう設定するとともに、この移行領域では負
荷の増大とともに空気過剰率λが小さくなるように設定
し、さらに、 上記移行領域における負荷の増大に伴った早期燃料噴射
の増量割合を全燃料噴射の増量割合以上として増量さ
せ、かつ、負荷増大に伴う移行領域の終了時において後
期燃料噴射量を早期燃料噴射量に対して少なくなるよう
前記燃料供給手段を制御する制御手段を備えたことを特
徴とする層状給気エンジン。A load detecting means for detecting a load on an engine; a fuel supply means for supplying fuel to a combustion chamber; and an ignition device provided in the combustion chamber. The stratified combustion is performed by supplying and igniting the fuel in the latter stage so that the flammable mixture is unevenly distributed around the fuel, while the fuel is supplied and ignited early so that the flammable mixture is dispersed throughout the combustion chamber at a high load. A stratified charge engine configured to perform uniform combustion, wherein a fuel injection amount supplied to a combustion chamber is gradually increased in accordance with an increase in load, and engine output is controlled. Between the stratified combustion region and the uniform combustion region by the early fuel injection at the time of high load,
A transition region for performing both early fuel injection and late fuel injection is provided, and the excess air ratio λ is set to be greater than 1 over the entire transition region. λ is set to be small, and the rate of increase in early fuel injection with an increase in load in the transition area is increased to be equal to or greater than the rate of increase in all fuel injections, and at the end of the transition area with an increase in load. A stratified charge engine, further comprising control means for controlling the fuel supply means such that the late fuel injection amount is smaller than the early fuel injection amount.
と、燃焼室内へ燃料を供給する燃料供給手段と、燃焼室
内に配設された着火装置とを備え、低負荷時には燃料供
給手段から着火装置のまわりに可燃混合気が偏在するよ
う後期に燃料を供給し着火することにより層状燃焼を行
う一方、高負荷時には燃焼室全体に可燃混合気が分散す
るよう早期に燃料を供給し着火することにより均一燃焼
を行うようにした層状給気エンジンであって、 前記低負荷時の後期燃料噴射による層状燃焼領域と前記
高負荷時の早期燃料噴射による均一燃焼領域との間に、
早期燃料噴射と後期燃料噴射の両燃料噴射を行う移行領
域を設け、 上記層状燃焼領域の全域にわたって空気過剰率λが1よ
りも大きくなるよう設定し、移行領域では負荷の増大と
ともに空気過剰率λが小さくなるように設定する一方、 前記移行領域においては、燃焼室内へ供給される全燃料
噴射量に対する後期の燃料噴射量の割合を、空気過剰率
λが小さくなる程減少するように前記燃料供給手段を制
御する制御手段を備えたことを特徴とする層状給気エン
ジン。2. A load detecting means for detecting a load on an engine, a fuel supply means for supplying fuel to a combustion chamber, and an ignition device provided in the combustion chamber, wherein the ignition device is provided by the fuel supply means when the load is low. The stratified combustion is performed by supplying and igniting the fuel in the latter stage so that the flammable mixture is unevenly distributed around the fuel, while the fuel is supplied and ignited early so that the flammable mixture is dispersed throughout the combustion chamber at a high load. A stratified charge engine that performs uniform combustion, between the stratified combustion region by the late fuel injection at the time of low load and the uniform combustion region by early fuel injection at the time of high load,
A transition region for performing both early fuel injection and late fuel injection is provided, and the excess air ratio λ is set to be greater than 1 over the entire stratified combustion region. In the transition region, the ratio of the late fuel injection amount to the total fuel injection amount supplied into the combustion chamber is decreased so that the excess air ratio λ decreases. A stratified charge engine comprising control means for controlling the means.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP8321915A JP2840603B2 (en) | 1996-12-02 | 1996-12-02 | Stratified charge engine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP8321915A JP2840603B2 (en) | 1996-12-02 | 1996-12-02 | Stratified charge engine |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP58138493A Division JPH0639928B2 (en) | 1983-07-28 | 1983-07-28 | Stratified charge engine |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH10159618A true JPH10159618A (en) | 1998-06-16 |
JP2840603B2 JP2840603B2 (en) | 1998-12-24 |
Family
ID=18137835
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP8321915A Expired - Lifetime JP2840603B2 (en) | 1996-12-02 | 1996-12-02 | Stratified charge engine |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2840603B2 (en) |
-
1996
- 1996-12-02 JP JP8321915A patent/JP2840603B2/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
JP2840603B2 (en) | 1998-12-24 |
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