柴油發動機燃油噴射與燃燒系統

 

  （1）噴射延遲階段

噴油器向氣缸噴油的時刻比油泵內壓力開始上升的時刻要落后一段時間。造成這種現象的主要原因，首先是由于出油閥上的卸荷容積作用，當油泵壓力開始上升時，必須等到卸荷容積與高壓油管相同后，燃油方能進入高壓油管；其次，是在高壓下因燃燒和高壓油管的彈性作用，燃油被壓縮而高壓油管內的容積增大，故壓力上升較緩慢。

所以在噴油泵供油開始后，高壓系統中的油壓升高，直到噴油器內壓力升到針閥的啟閥壓力時，針閥才能開啟上升，使燃油噴入汽缸。

   （2）主要噴射階段

噴油器內的壓力較高，大部分燃油在此階段噴入汽缸，而且是在不斷增高的壓力下噴入的，其霧化效果比較理想。次階段取決于柴油機的負荷，負荷越大，此階段越長。

   （3）滴漏階段

在這階段中，噴油器的壓力從最高噴油壓力一直下降到針閥的落座壓力。

3、噴油規律及其要求

Fuel injection and combustion system for diesel generator engine
First, diesel engine fuel injection
1, the composition of the fuel injection system
Role of the fuel injection system, is at a very high pressure at a certain moment will quickly a certain number of fuel injected into the cylinder, make it spray. Injection system is composed of the main device is fuel injection pumps, injectors and high-pressure tubing.
2, injection process
Characteristics of injection process can be divided into Jet delayed, spray and drip three main stages.
(1) blast delayed phase
Fuel injector cylinder pressure began to rise within the moment of injection pump always lagged behind those for some time. Caused this phenomenon of main causes, first is due to out valve Shang of unloading Dutch volume role, dang pump pressure began rose Shi, must until unloading Dutch volume and high pressure tubing same Hou, fuel party can entered high pressure tubing; second, is in high pressure Xia due to combustion and high pressure tubing of elastic role, fuel was compression and high pressure tubing within of volume increases, so pressure rose more slow.
So after the start of injection pump oil, hydraulic high pressure system rises, until the needle valve of injector pressure rise when Kai valve, needle valve can be opened up, fuel injected into the cylinder.
(2) the main injection phase
Higher pressure in the injector, and most of the fuel injected into the cylinders at this stage, but is under pressure from the rising spray into, ideally its fog effects. Second phase depending on the load of diesel engine, large loads this phase longer.
(3) the dripping phase
In this phase, the injector pressure maximum injection pressure has been down to needle valve seat pressure.
3, injection and its requirements
(1) fuel injection rate
The so-called injection, is a cyclic injection quantity distribution throughout the injection duration, that is, each ' participation in distribution curve of the handle angle spray oil.
(2) injection delays
Fuel injection delay was mainly due to fuel can be compressed, high pressure oil pipe caused by fluctuation phenomena in elastic and high pressure tubing.
4, the factors affecting fuel injection rate
(1) cam curve and effective work
Fuel pump cam determines the plunger motion law, and rapid variation of the plunger pump decision for law, thus affecting the injection. Effectively in the piston stroke and starting point for oil under the same circumstances, cam shape more steep, oil rise faster, larger oil supply speed, fuel injection delays and injection angles the smaller.
(2) the piston diameter and orifice diameter
Without changing the piston stroke increases when the piston diameter, speed increases for oil, fuel injection delays and continuous angles are reduced, in favour of combustion in the previous check point near the end, diesel economy getting better. But the initial injection rate to increase, will participate in the burning oil increased when the fire started, running rough.
When the injector fuel injection hole diameter hole does not change the number of hours, due to the resistance increase of sprayed oil injection angle increases, and each cam rotating angle of injection quantity decreases. At this point, due to the increasing pressures of high pressure tubing and are prone to repeated injection.
(3) high pressure oil pipe size
Long high pressure tubing, oil spraying large delay angle and Jet Yau continued basically unchanged. That is as high pressure tubing length increases, its actual fuel injection advance angle is smaller. If does not equal the length of each cylinder of high pressure tubing, you will make each cylinder injection vary, this is the effect of multi-cylinder diesel engine is not working even one reason. In order to make consistent cylinder injection, each cylinder of high pressure tubing length the same as much as possible.
Smaller tubing inner diameter, greater fuel flow resistance, oil spraying large delay angle.
(4) diesel engine load and speed
When the speed of diesel engine and fuel injection timing does not change, if the increased load, its fuel injection fuel injection end change starting point is essentially the same, and increased during the second half of the injection quantity.
When the load of diesel engine and fuel injection timing does not change when you change the speed, as the speed increases, the corresponding time shortening of each cam rotating angle, so fuel injection delays and injection angles are increasing, and each cam rotating angle of injection quantity reduction.
1, exception, Jet
(1) repeat injection (secondary injection)
When the end of the injection pump and oil, again after the injector needle valve seat was lifted by hydraulic spray phenomenon known as repeat injection, also known as secondary injection. This phenomenon in diesel engines under high speed loading condition most likely to occur. Disadvantages of repeated injection is on the one hand will make the injection angle larger, on the one hand because of late under low pressure fuel injection, resulting in deterioration of the reduced quality of atomization, combustion and smoke rise, parts overheating, such as bonded carbon in combustion chamber and exhaust black smoke, thereby reducing the reliability and economy of the diesel engine.
(2) intermittent injection
During the oil supply in fuel injection pump, injector needle valve intermittent opening and closing (frequent ups and downs), inadequate and insufficient lift, Jet, a phenomenon known as intermittent spraying. Its easy to occur under conditions of low speed.
(3) unstable Jet and alternate Jet
Unstable injection refers to the injection pump can continue working, but the oil circulating spray in spray changing circumstances. Their extreme lapse of time Jet, spray only twice in every oil fuel injector for fuel injection pump oil. This situation is occurring in diesel engines at low speed under low load conditions. When there were intervals when, a loop is not firing, so the gallop.
Second, diesel engine fuel injection pump and injectors
Requirements for fuel injection device
(1) fuel atomization
Good atomization of fuel, is the foundation of good combustion process, mainly by providing some fuel injection pressure of injection pump and injectors sprayed, and to guarantee. Higher fuel injection pressure, fog effects are better.
(2) to correct injection timing
To ensure the realization of good combustion process, to correct injection timing is also an important factor. For efficient combustion process, generally before the TDC will fuel injected into the cylinder. Fuel injected into the cylinders crank angle between the point and the ending point on, known as the "fuel injection advance angle", and pumps on the start point for oil and crank angle between the points. Known as the "fuel supply advance angle". Fuel injection device must to correct injection advance angle of fuel injected into the cylinder.
Fuel injection fuel supply advance angle of advance angle mainly by decision, and fuel supply advance angle is determined by the fuel injection pump cam to the installation location. Calibration conditions fuel supply advance angle of experimental determination by the factory. But Dang using of fuel quality change Shi, fuel of delay burning period occurs changes, above by requirements of for oil ahead of corner to again adjustment; also, more cylinder diesel engine due to spray pump and cam manufacturing Shang of difference and using in the of wear different, despite the spray pump cam of installed angle same, but the cylinder of actual for oil ahead of corner still has difference, so requirements the cylinder of spray oil timing can separate regulation. Adjust injection timing is mostly achieved through changing the installation position of cams on the camshaft.
(3) fuel delivery adjustments
Each cycle of the diesel engine in the amount of fuel injected into the cylinder size determines the power of diesel engine, in order to adapt to changes in engine load, fuel injection pumps should be able to adjust according to the load injection quantity, this kind of adjustment is known as "general tone". Multi-cylinder diesel engine, each cylinder injection quantity should be equal, or high load, some cylinders may overload due to fuel injection too much; and at low load, some less cylinder injection quantity might stop working. In theory, each cylinder fuel injection pump for oil should be the same, but due to differences in manufacturing and use of injection pump wear in different, and when installed improperly adjusted and other reasons, virtually impossible to uniform. Therefore, in addition to requests by the General call, also can be adjusted independently.
(4) other requirements
From the perspective of maintaining stable performance of diesel engines, ask the fuel injection device will succeed in making repeated injection, intermittent Jet injection, instability and isolation exceptions such as Jet spray.
From a trading perspective, requirements of fuel injection equipment reliable, convenient adjustment, can quickly stop oil.
Third, the diesel engine mixture formation and combustion
1, the main factors affecting fuel atomization
(1) fuel injection pressure
When the fuel injection pressure increases, improve atomization fineness and uniformity, fuel spray cone angle and range increased, improved quality of atomization.
(2) number of orifice hole
Nozzle total circulation area in the same case, the more many nozzle holes, its smaller diameter, atomization fineness and uniformity increase fuel spray cone angle increased, but declining range. Number and diameter of orifice hole is determined by the fuel spray and combustion chamber for the best match to.
(3) spray the hole diameter
When the orifice diameter increases, atomizing fineness and evenness are declining, but increases the range of fuel spray cone angle decreases. Instead, when the orifice diameter decreases, atomizing improve fineness and uniformity, reduce the range of fuel spray cone angle increases.
(4) fuel viscosity
When the oil viscosity increases, due to its poor mobility, divided more difficult, atomization from malnutrition.
(5) the Jet back pressure
When the Jet back pressure increases, the density of compressed air in the cylinder increases, when fuel injection was the resistance increases, improved quality of atomization, cone angle is larger, but shorten the range.
2, on the combustion process of diesel engine requirements
General requirements for diesel engine combustion process are: combustion totally smooth, speedy and timely, not gross, air a high utilization rate.
Four, diesel engine fault inspection
1, fuel pump main failure
Injection pump plunger sleeve are the main parts, valve and valve seat two precision coupling, so most of the major faults of injection pump occurs in two parts.
(1) the cavitation
In the fuel injection system, when a fuel pressure drops below or equal to the temperature of vaporization of fuel pressure, started the fuel gasification and bubble, followed by rupture of bubbles under positive pressure wave, and inspire very strong impact, effect on the metal surface. This repeated erosion, cavitation damage will cause a metal surface, making fuel injection system parts damaged. System locations most susceptible to cavitation in fuel injection pump valve and valve seat seal, pump body corresponding to the oil return holes, inner wall of high pressure oil pipe and injector needle valve seal.
Cavitation high pressure system can be resolved by selecting Uninstall volume of delivery valve, low-voltage system of cavitation, accessible through the increasing pressures of fuel oil or oil recovery setting in the system buffer solutions.
(2) excessive wear and tear, napping, piston and sleeve garter and bitten to death
Excessive wear of the piston and sleeve will degrade sealing, resulting in poor atomization of fuel injection pressure is reduced, non-uniform, the amount of each cylinder's injection and combustion issues of deterioration.
Piston clamping and bitten to death would cause the cylinder oil pump is not available for stopping work. Caused reason for clamping or bitten to death, mostly fuel cleaning bad quality, impurity particles in oil. In the particular case, or may be installed incorrectly or too small a gap, or excessive working temperatures, temperature changes caused by too fast.
(3) wear of valve and valve seat, valve stem stuck or killed
After the valve and valve seat wear, seal decline, caused decline in the residual pressure or high pressure pipeline injection quantity decrease, affecting the quality of atomization and combustion processes. Valve and valve seat wear caused by reasons, mainly oil impurities in fuel, acid corrosion, impact or valve distortion, and so on.
Stem clamping or bitten to death may be due to poor lubrication, unevenly, could also be valve rods and bushings resulting from deformation. Corresponding failures occurred because the valve does not properly. For example: stem valve open position stuck, then the return valve cannot be closed, making stops for fuel injection pump for oil.
2, checking and adjustment of fuel injection pump
Function of the injection pump is scheduled to fuel injector with a certain pressure, quantitative, so it should also be focused on sealing, check and adjust the timing and amount of oil for these three aspects.
(1) fuel pump seal check
Main check piston injection pump sealing sleeve parts, valve and inlet and outlet valves.
① comprehensive inspection
Fitted with pressure gauge at the exhaust tubing connector, shake the lever with your hand pump, when the oil reaches manual stop when under pressure
Pump oil, keep the piston position, watch the pressure gauge pressure. If the time specified in the instructions (usually a 30s) pressure remains unchanged, fuel injection pump sealing is considered good, otherwise, seal the bad.
When injection pump seals are found when bad, should be based on the construction of injection pump, outlet valve and inlet and back separately check valve and piston parts.
② outlet valve check
Outlet valve seal check procedures and comprehensive inspection of the same, but when under pressure in the hydraulic achieve statement,
Let the plunger naturally downward in order to specifically check out valve seal.
③ remove the outlet valve check
Valve is removed, check the comprehensive inspection procedure, mainly check the piston and intake, return valve seal
Sexual.
When totally worn out parts are found, should be renewed. Coupling grinding recovery.
(2) checking and adjustment of oil supply timing
Under optimal fuel supply advance angle of calibration experiment to determine and indicate the diesel engine by the factory manual, oil supply cam installed in order to ensure that most perspective prevails. However, when use of the fuel quality changes, fuel supply advance angle should be readjusted; in addition, each cylinder firing when not in uniform, to adjust the cylinder alone advance angle.
① oil supply timing of checks
Oil a, risking method
Bleed method in check when the injection timing should be removed on the injection pump high pressure oil pipe. Put on dedicated check oil
Tube. The throttle to the calibration oil supply position, several oil pump, tubing run after oil, will erase the flowlines surface. Then press the cars slowly turning, while complying with the outlet surface. When the liquid level began to rise this time scale the cylinder on the flywheel fuel supply advance angle.
This law only applies to small and medium diesel engines, larger piston diameter of diesel engine, fuel injection time shorter, due to this law room for larger errors, inappropriate use.
B, illumination method
Regulation of big oil return hole end type fuel injection pump, if the sleeve on the same high, oil return holes available illumination method for measuring time. Disassemble the pump body corresponding to the oil return holes on the screw slowly turning, with torch lighting from the oil hole. When the column just north of the Great Wall line oil hole covers back to see when the light, to stop turning, this time on the flywheel pointer indicates the scale of the oil pump and oil starting point, that is, fuel supply advance angle.
C, mark law
Some starting points for oil pump of diesel engine injection pump body equipped with fixed and sliding tag. When turning, from gap (Windows) see tags moment of coincidence, is the starting point of injection pump for oil.
② oil supply timing adjustment
Adjustment of oil supply timing achieved mainly through two channels: one way is to change the relative position of the cam and camshaft, changing the relationship between cam and crankshaft timing, so as to achieve change timing adjustment of oil supply; another way is to change the chute and plunger sleeve relative location oil return holes, change cam to work effectively to achieve oil supply timing adjustments. To change the relative positions of the chute and plunger sleeve, there are two ways to achieve: move the plunger up and down and up and down the sleeve. Adjustment of oil supply timing by rotating cams law

   （1）噴油規律

所謂噴油規律，是一個循環的噴油量在整個噴射延續時間內的分配情況，即每度曲柄轉角噴出油量的分配曲線。

   （2）噴油延遲

噴油延遲主要是由于燃油的可壓縮性、高壓油管的彈性以及高壓油管中的波動現象造成的。

4、影響噴油規律的因素

   （1）凸輪曲線和有效工作段

油泵凸輪型線決定了柱塞運動規律，而柱塞的迅速變化規律決定油泵的供油規律，從而影響噴油規律。在柱塞有效行程和供油始點相同的情況下，凸輪外形越陡，油壓上升越快，供油速度越大，噴油延遲角和噴油持續角就越小。

   （2）柱塞直徑和噴孔直徑

在不改變柱塞行程而增大柱塞直徑時，供油速度增大，噴油延遲角和持續角均減小，有利于燃燒在上止點附近結束，柴油機經濟性變好。但初期的噴油速率提高，會使燃燒開始時參加燃燒的油量增多，運轉粗暴。

當噴油器的孔數不變而噴油孔直徑變小時，由于噴油阻力的增加使噴油持續角增大，而每度凸輪轉角的噴油量減小。此時，由于高壓油管中的壓力增高，容易產生重復噴射。

   （3）高壓油管尺寸

高壓油管越長，噴油延遲角越大而噴油持續角基本不變。也就是說隨著高壓油管長度的增加，其實際噴油提前角卻變小了。如果各缸高壓油管的長度不相等，則將使各缸噴油規律有所差別，這也是影響多缸柴油機工作不均勻的原因之一。為了使各缸噴油規律一致，應盡可能使各缸的高壓油管長度相同。

油管內徑越小，燃油流動阻力越大，噴油延遲角越大。

   （4）柴油機負荷與轉速

當柴油機轉速及噴油定時不變時，若增大負荷，其噴油始點基本不變而噴油終點改變，并且增加了后半期的噴油量。

當柴油機負荷及噴油定時不變而改變轉速時，隨著轉速的增加，相應每度凸輪轉角的時間縮短，故噴油延遲角和噴油持續角均增大，而每度凸輪轉角的噴油量減少。

1、  異常噴射

   （1）重復噴射（二次噴射）

當噴油泵供油結束，噴油器針閥落座后有重新被油壓抬起的噴射現象稱為重復噴射，又叫二次噴射。這種現象在柴油機高轉速大負荷的工況下最容易發生。重復噴射的缺點是一方面會使噴油持續角變大，另一方面由于后期在低壓下噴油、致使霧化質量降低、燃燒惡化、排煙升高、機件過熱、燃燒室結碳、排氣冒黑煙等，從而降低了柴油機的可靠性和經濟性。

   （2）斷續噴射

在噴油泵的一次供油期間，噴油器針閥斷續啟閉（頻繁地起落），而且起升不足、噴射不力，這種現象稱為斷續噴射。其容易在低轉速的工況下發生。

   （3）不穩定噴射和隔次噴射

不穩定噴射是指噴油泵雖能持續工作，但各循環噴油量在噴射時不斷變動的情況。其極端的情況時隔次噴射，即噴油泵每供油兩次噴油器才噴一次油。這種情況也是在柴油機低速低負荷的工況下發生的。當發生隔次噴射時，一個循環不發火，故運轉不穩定。

二、柴油發動機噴油泵及噴油器

對噴油設備的要求

   （1）燃油的霧化

燃油的良好霧化，是實現良好燃燒過程的基礎，主要靠噴油泵提供的一定噴油壓力和噴油器噴和來保證。噴油壓力越高，霧化效果越好。

   （2）正確地噴油定時

要保證實現良好的燃燒過程，正確地噴油定時也是一個重要的因素。為實現高效的燃燒過程，一般均在上止點前就將燃油噴入氣缸。燃油噴入氣缸點與上止點之間的曲柄轉角，稱為“噴油提前角”，而油泵開始供油點與上止點之間的曲柄轉角。稱為“供油提前角”。噴油設備必須以正確的噴油提前角將燃油噴入氣缸。

噴油提前角主要由供油提前角決定，而供油提前角則由噴油泵凸輪的安裝位置來決定。在標定工況下的供油提前角由工廠試驗確定。但是當使用的燃油品質變更時，燃油的滯燃期發生變化，上述所要求的供油提前角要重新調整；另外，多缸柴油機由于噴油泵和凸輪制造上的差別和使用中的磨損不同，盡管各噴油泵凸輪的安裝角度相同，但各缸的實際供油提前角仍有差別，故要求各缸的噴油定時能單獨調節。調節噴油定時大多是通過改變凸輪在凸輪軸上的安裝位置來實現的。

   （3）供油量的調節

在柴油機每循環中噴入汽缸的燃油量決定著柴油機的功率大小，為適應柴油機負荷的變化，噴油泵應能根據負荷來調節噴油量，此種調節稱為“總調”。在多缸柴油機中，各缸噴油量應該均等，否則在高負荷時，某些氣缸可能因噴油量過多而超負荷；而在低負荷時，某些氣缸可能因噴油量少而停止工作。理論上，各缸噴油泵的供油量應該是一樣的，但由于噴油泵制造上的差別和使用中磨損的不同，以及安裝時調節不當等原因，實際上不可能均勻。因此，除了要求由總調外，還應可以進行單獨調節。

   （4）其它要求

從保持柴油機性能穩定的角度出發，要求噴油設備能根絕重復噴射、斷續噴射、不穩定噴射和隔次噴射等異常噴射現象。

從營運角度出發，要求噴油設備工作可靠、調節方便、能迅速停油。

三、柴油發動機混合氣的形成和燃燒

1、影響燃油的霧化的主要因素

   （1）噴油壓力

當噴油壓力增大時，霧化細度及均勻度提高，油束錐角和射程增大，霧化質量提高。

   （2）噴孔孔數

在噴油嘴總流通面積不變的情況下，噴孔孔數越多，其直徑越小，霧化細度和均勻性提高，油束錐角增大，但射程下降。故噴孔孔數和直徑是是由油束與燃燒室獲得最佳匹配來決定的。

   （3）噴孔直徑

當噴孔直徑增大時，霧化細度和均勻度均下降，但油束射程增大而錐角減小。相反，當噴孔直徑減小時，霧化細度及均勻度提高，油束錐角增大而射程減小。

   （4）燃油粘度

當燃油粘度增加時，由于其流動性差，分裂較困難，故霧化不良。

   （5）噴射背壓

當噴射背壓增加時，即缸內壓縮空氣的密度增加，燃油噴射時受到的阻力增加，因此霧化質量提高，錐角變大，但射程縮短。

2、柴油機對燃燒過程的要求

對柴油機燃燒過程的總要求是：燃燒完全、迅速及時、工作平穩不粗暴、空氣利用率高。

四、柴油發動機故障檢驗

1、噴油泵的主要故障

噴油泵的主要零件是柱塞套筒、閥及閥座兩對精密偶件，因此噴油泵的主要故障大多發生在這兩對零件上。

   （1）穴蝕

在燃油噴射系統中，當某處的燃油壓力下降到低于或等于該溫度下的燃油汽化壓力時，該處燃油就開始氣化而產生氣泡，隨后氣泡在正壓力波的作用下破裂，并激發出很強的沖擊力，作用在金屬壁面上。這樣反復地侵蝕，就會引起金屬表面穴蝕破壞，使噴油系統零件損壞。系統中最易發生穴蝕的地點有噴油泵閥與閥座的密封處、與回油孔相對應的泵體、高壓油管內壁及噴油器針閥密封處。

高壓系統中的穴蝕可通過選擇出油閥的卸載容積來解決，低壓系統中的穴蝕，可通過提高進油腔的燃油壓力或在回油系統中設置緩沖器的方法來解決。

   （2）柱塞和套筒過度磨損、拉毛、卡緊和咬死

柱塞和套筒的過度磨損會使密封性下降，造成噴油壓力降低、霧化不良、各缸噴油量不均勻和燃燒惡化等問題。

柱塞卡緊和咬死會引起油泵不能供油而使氣缸停止工作。造成卡緊或咬死的原因，大多是燃油凈化質量不良，油中應有雜質顆粒。在個別情況下，也可能是安裝不正確或間隙過小，或工作溫度過高，溫度變化過快所致。

   （3）閥和閥座磨損、閥桿卡死或咬死

閥和閥座磨損后，密封性下降，使高壓油管中的剩余壓力下降或造成噴油量減小，影響霧化質量及燃燒過程。造成閥和閥座磨損的原因，主要是油中有雜質、燃油的酸性腐蝕、撞擊或閥面扭曲變形等。

閥桿卡緊或咬死的原因可能是潤滑不良、受熱不均，也可能是閥桿及導套變形而引起。這時將會因閥不能正確動作而發生相應的故障。例如：閥桿在閥開啟位置卡死，則回油閥不能關閉，使噴油泵停止供油。

2、噴油泵的檢查與調整

噴油泵的功能是定時、定量地向噴油器提供一定壓力的燃油，所以對它的檢查和調整也應著重在密封性、定時及供油量這三個方面。

   （1）噴油泵密封性檢查

噴油泵密封性主要檢查柱塞套筒偶件、出油閥偶件及進、出油閥。

①     綜合檢查

在排油管接頭處裝上壓力表，用手搖動杠桿油泵，當油壓達到說明書規定的壓力時停

止泵油，保持柱塞位置，觀看壓力表的壓力。如果在說明書規定的時間（一般為30s）內壓力保持不變，則認為噴油泵密封良好，否則密封不良。

當發現噴油泵密封不良時，應根據噴油泵的構造，分別對出油閥和進、回油閥以及柱塞偶件進行檢查。

②     出油閥檢查

出油閥的密封性檢查的步驟與綜合檢查相同，只是在油壓達到說明書規定的壓力時，

讓柱塞自然下行，以便專門檢查出油閥的密封性。

③     取出出油閥檢查

取出出油閥后，按綜合檢查的步驟進行檢查，主要檢查柱塞偶件及進、回油閥的密封

性。

    當發現磨損過度的零件時，應予換新。偶件應研磨恢復。

   （2）供油定時的檢查與調整

標定工況下的最佳供油提前角由工廠試驗確定并注明在柴油機的說明書上，供油凸輪的安裝以保證這個最擠角度為準。但是，當使用的燃油品質變更時，供油提前角應重新調節；另外，各缸發火不均勻時，要單獨調整各缸提前角。

①     供油定時的檢查

A、冒油法

在采用冒油法檢查噴油定時的時候，應拆去噴油泵上的高壓油管。換上專用的檢查油

管。將油門置于標定供油位置，先使油泵供幾次油，待油管冒油后，將出油管液面抹平。然后按正車方向慢慢盤車，同時注意出油口液面。當液面開始上升這一時刻飛輪上的刻度即為該缸的供油提前角。

此法只適用于中小型柴油機，對于柱塞直徑較大、噴油時間較短的柴油機，由于此法容易出現較大的誤差而不宜采用。

B、照光法

對大型回油孔終點調節式噴油泵，若套筒上有同樣高的進、回油孔，可用照光法測量定時。拆下泵體上與進回油孔相對應的螺釘，緩緩盤車，從油孔處用手電筒照明。當柱塞上行剛好將回油孔遮住而看不到光線時，馬上停止盤車，此時飛輪上指針所指示的刻度即為該油泵的供油始點，亦即供油提前角。

C、標記法

有些柴油機噴油泵的供油始點在泵體上裝有固定和滑動標記。盤車時，當從缺口（窗口）處看標記重合的瞬間，即為噴油泵的供油始點。

② 供油定時的調節

供油定時的調節主要通過兩條途徑來實現：一條途徑是改變凸輪與凸輪軸的相對位置，改變凸輪與曲軸的定時關系，從而達到改變定時供油的調節；另一條途徑是改變柱塞斜槽與套筒回油孔的相對位置，改變凸輪的有效工作段來實現供油定時調整。而要改變柱塞斜槽與套筒的相對位置，又有兩種方法可以達到：上下移動柱塞和上下移動套筒。故供油定時的調節有轉動凸輪法、升降柱塞法及升降套筒法等三種。

A、轉動凸輪法

凸輪軸是由曲軸帶動的，兩者之間存在著一定的定時關系，當凸輪與凸輪軸固定時，凸輪與曲軸之間亦有定時關系。而當改變凸輪與凸輪軸的相對位置時，凸輪與曲軸的定時關系也就改變了。轉動凸輪法就是以此為基礎進行供油定時調整的。

大中型柴油機中凸輪在凸輪軸上的固定方法，一般采用錐面齒定位、鎖緊螺母壓緊的方法實現。當調整凸輪與凸輪軸相對位置時，只要松開鎖緊螺母，按需要轉動凸輪后再上緊鎖緊螺母即可。順著凸輪軸旋轉方向轉動凸輪，則供油提前角增大，反之則減小。

B、升降柱塞法

升降柱塞法多用于中小型柴油機回油孔調節式噴油泵。升降柱塞，使得柱塞斜槽封閉回油孔的時刻發生變化，從而實現噴油定時的調整。

C、升降套筒法

升降套筒法與升降柱塞法類似，可用于回油孔調節式噴油泵。

3、噴油器的主要故障

   （1）針閥偶件的磨損、漏油和卡緊

   （2）噴孔磨損、結碳、阻塞和裂紋