CN205013178U - Diesel oil / natural gas dual -fuel engine nozzle valve assembly body - Google Patents

Abstract

The utility model discloses a diesel oil / natural gas dual -fuel engine nozzle valve assembly body aims at overcoming among present diesel oil / natural gas dual -fuel engine because diesel oil skewness in the combustion chamber, results in CH4 to discharge too high problem, diesel oil / natural gas dual -fuel engine nozzle valve assembly body's head processing have 9 nozzle openings, 9 individual nozzle opening all sets up on the semicircular hollow spheroid of nozzle valve assembly body head, 9 individual nozzle opening includes circumference nozzle opening (5) and 1 axial nozzle opening (6) that the axial distributes of 8 circumference evenly distributed, the axis of rotation collineation with diesel oil / natural gas dual -fuel engine nozzle valve assembly body is perhaps said to the axis of rotation of axial nozzle opening (6) and the axis of rotation of nozzle valve assembly body head. 8 the axis of rotation of individual circumference nozzle opening (5) is crossing to intersect on axial nozzle opening (6) axis of rotation with on a bit. The diameter of axial nozzle opening (6) is 0.1mm to 0.12mm.

Description

Diesel/natural gas dual-fuel engine fuel injector needle valve body

Technical field

The utility model relates to an a kind of part on diesel/natural gas dual-fuel engine oil sprayer, and or rather, the utility model relates to the needle-valve body on a kind of diesel/natural gas dual-fuel engine hole nozzle.

Background technique

Along with the continuous minimizing of petroleum resources and the constantly strict of various countries' Abgasgesetz, engine replacing fuel is all being sought by various countries, and rock gas as an alternative fuel obtains extensive research with its aboundresources and discharge close friend.Diesel/natural gas dual-fuel engine is one of natural gas engine application form, greatly can reduce carbon smoke exhaust, alleviates petroleum resource consumption.But, diesel/natural gas dual-fuel engine run low-load time, CH ₄discharge amount is higher.By carrying out simulation analysis discovery to the combustion process of bavin oil and gas in diesel/natural gas dual-fuel engine, this is mainly just directly emitted because the rock gas in bottom of combustion chamber and central axis region, firing chamber has neither part nor lot in ignition, therefore, and CH ₄discharge amount is higher.

In diesel/natural gas dual-fuel engine, when piston movement is near top dead center, oil sprayer by diesel injection in firing chamber, diesel oil is under the environment of High Temperature High Pressure, naturally catch fire through a series of physical and chemical reaction, and continuous rock gas ignition around diesel pilot, therefore diesel oil is as the ignition source of rock gas, and the atomizing effect of diesel oil in firing chamber and distributing position have material impact to catching fire of rock gas.

Needle-valve body on oil sprayer and needle-valve form a pair precision pair, among course of working, need pairing grinding, can not exchange in using process.General needle-valve is by the high speed steel manufacture of good thermal stability, and needle-valve body then adopts impact-resistant superior alloy steel.The precision pair that needle-valve body and needle-valve are formed is called oil nozzle, oil nozzle is tightened together with oil injector body by locking nut, form oil sprayer, in order to ensure the sealing of junction plane, the upper-end surface of needle-valve body and the lower end surface of oil injector body all need through fine gtinding.Oil sprayer is the vitals on diesel/natural gas dual-fuel engine, during engine operation, the fuel oil that oil pump is confessed enters the pressure chamber on needle-valve body by oil input channel, and the thrust pressure-bearing conical surface being applied to needle-valve produced upwards, when oil pressure is greater than certain value, needle-valve rises and is opened by nozzle opening, and high pressure fuel is injected to firing chamber through nozzle opening.

Near the position of firing chamber on needle-valve body, i.e. fuel injector needle valve body head, be processed with the nozzle opening that multiple position is different, fuel oil is ejected into firing chamber by nozzle opening, and therefore, the position of nozzle opening processing and the quantity of nozzle opening have material impact to the distribution of diesel oil in firing chamber, by the nozzle opening at the multiple different injection direction of fuel injector needle valve body head processing, different diesel oil distributions can be obtained, and then promote rock gas ignition, reduce CH ₄discharge.Therefore be necessary to design the fuel injector needle valve body being applicable to diesel/natural gas dual-fuel engine.

Summary of the invention

Technical problem to be solved in the utility model to overcome in existing diesel/natural gas dual-fuel engine due to diesel oil skewness in firing chamber, causes CH ₄discharge too high problem, provide a kind of fuel injector needle valve body for diesel/natural gas dual-fuel engine.

For solving the problems of the technologies described above, the utility model adopts following technological scheme to realize: the head of described diesel/natural gas dual-fuel engine fuel injector needle valve body is processed with 9 nozzle openings, 9 nozzle openings are all arranged on the semicircular hollow spheroid of fuel injector needle valve body head, 9 nozzle openings comprise the axial nozzle opening of 8 equally distributed circumferential nozzle openings of circumference and 1 axial distribution, the axial rotational axis of nozzle opening and the rotational axis rotational axis of axial nozzle opening and the rotational axis conllinear of diesel/natural gas dual-fuel engine fuel injector needle valve body in other words of fuel injector needle valve body head.

The rotational axis of the circumferential nozzle opening of 8 described in technological scheme intersects, and intersects at the same point on axial nozzle opening rotational axis.

Angular range between the rotational axis of the circumferential nozzle opening of 8 described in technological scheme and the rotational axis of axial nozzle opening is 45 ° to 60 °.

The equal diameters of the circumferential nozzle opening of 8 described in technological scheme, the diameter of 8 circumferential nozzle openings is greater than the diameter of axial nozzle opening.

The diameter of the circumferential nozzle opening of 8 described in technological scheme is 0.15mm to 0.17mm.

Axial nozzle opening diameter described in technological scheme is 0.1mm to 0.12mm.

Compared with prior art the beneficial effects of the utility model are:

1. diesel/natural gas dual-fuel engine oil-fuel injector needle-valve body described in the utility model changes the atomizing effect of diesel oil in firing chamber.

2. diesel/natural gas dual-fuel engine oil-fuel injector needle-valve body described in the utility model changes the point of ignition distribution of rock gas.

3. diesel/natural gas dual-fuel engine fuel injector needle valve body described in the utility model is only different from former fuel injector needle valve body with processed nozzle opening diameter in the position of fuel injector needle valve body head nozzle opening processing, other positions all need not change, therefore without the need to changing the needle-valve body manufacturing process of current maturation.Only slightly do when offering nozzle opening and change, therefore, cost fluctuation is relatively little, and it is relatively convenient to process.

4. diesel/natural gas dual-fuel engine fuel injector needle valve body described in the utility model is under engine speed is 1335r/min, 25% load condition, has carried out simplation verification when 50% substitution rate and 70% substitution rate.Analog result shows, uses designed fuel injector needle valve body under 50% substitution rate and 70% substitution rate, CH ₄discharge amount is all lower than the result that former fuel injector needle valve body simulates.

Accompanying drawing explanation

Fig. 1 is the whole-cutaway view on former fuel injector needle valve body structure composition plan view;

Fig. 2 is former fuel injector needle valve body head, i.e. the partial enlarged view at position, nozzle opening place;

Fig. 3 is the whole-cutaway view on diesel/natural gas dual-fuel engine fuel injector needle valve body structure described in the utility model composition plan view;

Fig. 4 is diesel/natural gas dual-fuel engine fuel injector needle valve body head described in the utility model, i.e. the partial enlarged view at position, nozzle opening place;

Fig. 5 is the worm's eye view of diesel/natural gas dual-fuel engine fuel injector needle valve body described in the utility model;

Fig. 6 is diesel/natural gas dual-fuel engine fuel injector needle valve body described in the utility model and former fuel injector needle valve body, is 1335r/min, 25% load in engine speed, under 50% substitution rate, when carrying out simulation test, and the CH drawn ₄the comparison diagram of discharge amount;

Fig. 7 is diesel/natural gas dual-fuel engine fuel injector needle valve body described in the utility model and former fuel injector needle valve body, is 1335r/min, 25% load in engine speed, under 70% substitution rate, when carrying out simulation test, and the CH drawn ₄the comparison diagram of discharge amount;

When it is pointed out that the analog result shown in Fig. 6 and Fig. 7 is analog computation terminal 430 DEG C of A, the CH that the single cylinder obtained often circulates ₄discharge amount;

In figure: 1. oil input channel, 2. needle-valve body, 3. needle-valve pilot hole, 4. pressure chamber, 5. circumferential nozzle opening, 6. axial nozzle opening.

Embodiment

Below will be described in further detail the utility model.

Consult Fig. 1 and Fig. 2, Fig. 1 is the whole-cutaway view on former fuel injector needle valve body structure composition plan view; Fig. 2 is Fig. 1 Central Plains fuel injector needle valve body head, i.e. the partial enlarged view at position, nozzle opening place; Former fuel injector needle valve body head is processed with 8 equally distributed nozzle openings of circumference, and former fuel injector needle valve body does not have the axial nozzle opening 6 of axial distribution compared with diesel/natural gas dual-fuel engine fuel injector needle valve body described in the utility model.

Consult Fig. 3 to Fig. 5, diesel/natural gas dual-fuel engine fuel injector needle valve body head described in the utility model is processed with 9 nozzle openings, 9 nozzle openings are all arranged on the semicircular hollow spheroid of fuel injector needle valve body head, and 9 nozzle openings comprise the axial nozzle opening 6 of the identical equally distributed circumferential nozzle opening 5 of circumference of 8 structures and 1 axial distribution.

At the head of fuel injector needle valve body, the rotational axis of the circumferential nozzle opening 5 of 8 circumference distributions intersects, and intersection point is positioned at the same point on the rotational axis of axial nozzle opening 6.

At the head of fuel injector needle valve body, the angular range between the rotational axis of circumferential nozzle opening 5 and axial nozzle opening 6 rotational axis is 45 ° to 60 °.

At the head of fuel injector needle valve body, the nozzle opening diameter of 8 circumference distributions is identical.

At the head of fuel injector needle valve body, the diameter of the circumferential nozzle opening 5 of circumference distribution is greater than the diameter of the axial nozzle opening 6 of axial distribution.

At the head of fuel injector needle valve body, the diameter range of the circumferential nozzle opening 5 of 8 circumference distributions is 0.15mm to 0.17mm.

At the head of fuel injector needle valve body, axial nozzle opening 6 diameter is 0.1mm to 0.12mm.

Simulation test:

By to diesel/natural gas dual-fuel engine research experiment, be 1335r/min to former fuel injector needle valve body and diesel/natural gas dual-fuel engine fuel injector needle valve body described in the utility model in engine speed, 25% load, carries out simulation test research under 50% substitution rate and 70% substitution rate.Analyze find, when adopting former fuel injector needle valve body, burning latter stage firing chamber bottom and cylinder central axis region remain a large amount of rock gases.This is mainly caused by following two aspects, and on the one hand, diesel oil cannot be ejected into bottom and the central axis region, firing chamber of firing chamber, makes this region not have diesel oil to distribute.On the other hand, due to bottom of combustion chamber and cylinder central axis regional gas stream speed and tubulence energy more weak, flame to the bottom of firing chamber and cylinder central axis regional spread speed comparatively slow, make the rock gas in this region also non-ignition just discharge outside cylinder, both make CH at acting in conjunction ₄discharge amount is relatively high.

Diesel/natural gas dual-fuel engine fuel injector needle valve body described in the utility model, by to a small amount of diesel oil of firing chamber central axis area spray, improve bavin oil atomization, add the distribution of rock gas point of ignition in bottom of combustion chamber and cylinder central axis region, the rock gas in this region is made to take part in ignition, therefore CH ₄discharge amount relatively low.

Analog reslt:

Consult Fig. 6 and Fig. 7, adopt diesel/natural gas dual-fuel engine fuel injector needle valve body described in the utility model to compare with the former fuel injector needle valve body of employing, when analog computation terminal 430 DEG C of A, under 50% substitution rate, CH ₄discharge amount decreases 35.01%.Under 70% substitution rate, CH ₄discharge amount decreases 48.81%.

By analyzing analog result, find under 50% substitution rate and 70% substitution rate, adopt diesel/natural gas dual-fuel engine fuel injector needle valve body described in the utility model compared with the former fuel injector needle valve body of employing, when adopting former fuel injector needle valve body, all there is a large amount of rock gas residues in the bottom of firing chamber and cylinder central axis region; During diesel/natural gas dual-fuel engine fuel injector needle valve body designed by employing, cylinder axis axis region combustion of natural gas quality is better, does not almost have rock gas remain, near cylinder wall, only have a small amount of rock gas to remain.

Claims (6)

1. a diesel/natural gas dual-fuel engine fuel injector needle valve body, it is characterized in that, the head of described diesel/natural gas dual-fuel engine fuel injector needle valve body is processed with 9 nozzle openings, 9 nozzle openings are all arranged on the semicircular hollow spheroid of fuel injector needle valve body head, 9 nozzle openings comprise the axial nozzle opening (6) of 8 equally distributed circumferential nozzle openings (5) of circumference and 1 axial distribution, the axial rotational axis of nozzle opening (6) and the rotational axis rotational axis of axial nozzle opening (6) and the rotational axis conllinear of diesel/natural gas dual-fuel engine fuel injector needle valve body in other words of fuel injector needle valve body head.

2. according to diesel/natural gas dual-fuel engine fuel injector needle valve body according to claim 1, it is characterized in that, the rotational axis of 8 described circumferential nozzle openings (5) intersects, and intersects at the same point on axial nozzle opening (6) rotational axis.

3. according to diesel/natural gas dual-fuel engine fuel injector needle valve body according to claim 1, it is characterized in that, the angular range between the rotational axis of 8 described circumferential nozzle openings (5) and the rotational axis of axial nozzle opening (6) is 45 ° to 60 °.

4. according to diesel/natural gas dual-fuel engine fuel injector needle valve body according to claim 1, it is characterized in that, the equal diameters of 8 described circumferential nozzle openings (5), the diameter of 8 circumferential nozzle openings (5) is greater than the diameter of axial nozzle opening (6).

5. according to diesel/natural gas dual-fuel engine fuel injector needle valve body according to claim 1, it is characterized in that, the diameter of 8 described circumferential nozzle openings (5) is 0.15mm to 0.17mm.

6. according to diesel/natural gas dual-fuel engine fuel injector needle valve body according to claim 1, it is characterized in that, the diameter of described axial nozzle opening (6) is 0.1mm to 0.12mm.