Arrangement for supplying fuel fuel-air mixture to i.c. engine manifold

专利摘要:
The device substantially comprises an upper body (1) in which is formed a first perforation (2) in communication with an air intake opening (27) and delimited by a first conical surface (3) and a support element for a fuel atomisation and metering valve (7) having a tubular form and connected to the said first conical surface (3) by means of a pair of ribs (13) disposed substantially in the plane which contains the axis of the first conical surface (13), the device further includes a lower body (22) in which is formed a second perforation (23) delimited by a second conical surface (24) coaxial with the first (3) and which is in communication with a mixture supply opening (25), the cone angle of the said second conical surface (24) being greater than that of the first conical surface (3).
公开号:SU1516016A3
申请号:SU864028400
申请日:1986-10-10
公开日:1989-10-15
发明作者:Бонфиглиоли Сильверио；Гарделлини Джованни；Дзачерини Клаудио
申请人:Вебер С.П.А. (Фирма)；
IPC主号:

专利说明:

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23. The lower part 22 of the housing is conical, the angle of taper of the channel 23 of the lower part 22 of the housing is larger than the angle of the channel of the upper part 1 of the housing; the axial length of the valve support 7 is equal to the axial length of channel 2 of the upper part 1 of the housing; / flow area in the place of communication channels of the upper 1 and lower 22 parts of the body more
The invention relates to mechanical engineering and can be used in internal combustion engines for supplying a combustible mixture of air and fuel to an internal combustion engine manifold.
The aim of the invention is to simplify the design.
Figure 1 shows schematically the proposed device, a plan view; figure 2 - section aa in figure 1; on fig.Z - section bb In figure 1; figure 4 - section CC of figure 1.
The device contains the upper part 1 of the housing, having an external surface of almost cylindrical shape. Inside the upper part of the housing there is a cavity 2 bounded by a conical surface 3 converging downstream. The tapering surface defines from the inside a cone-shaped wall 4, which forms the basis of the upper housing part 1. Several thickenings radially radiate from this wall - around 5.
In addition, the upper part 1 of the housing is provided with a support insert 6 of a hollow cylindrical shape for installing the fuel-spraying metering valve 7. A corresponding seat 8 is filled inside the support insert, in which a control valve is fixed, which is fastened with the upper pulling sleeve 9 with an intermediate gasket 10 and an elastic seal 11 of the appropriate form. The listed elements form an air channel 12 in the upper part 1 of the housing. The insert 6 is connected to the conical surface 3 by means of two stop ribs or protrusions 13 located in one plane
than 1.5 times the cross-sectional area of the mixing chamber. During operation, the flow of sprayed fuel from valve 7 passes freely along the forward path, which prevents the impact interaction of aerosol particles with the surfaces of the flow channel and with the throttle valve 26 and the formation of large drops fuel. 6 hp f-ly, 4 ill.
five
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bones, in which the axis of the conical surface 3 is located and, respectively, the axis of the spraying and dispensing valve 7. The ribs protrude Outward from diametrically opposite sides of the supporting insert 6, each of which has a rectangular cross-section in plan and is bounded from above by a cylindrical the surface 14. The support liner 6 is bounded externally by the first cylindrical forming surface 15 and the second cone-shaped surface 16, whose height is suffloro less than the height of the cylindrical part 15. Said conical The surface 16 diverges in diameter in the direction of the lower end of the housing part 1. In the insert 6, within its cone-shaped surface 16 there is an annular cavity 17, which is located between the annular ending 18 and the stub ending 19, from which the nozzle 20 comes out with the jet 21 of the valve 7.
The device also comprises a lower portion 22 of the housing, within which there is a working cavity 23, bounded by a conical surface 24, which converges in the direction of flow, forming a channel of the fuel-air mixture.
The cavity 23 communicates with the mixing chamber 25, made in the form of a channel, the passage through which it is controlled by the throttle valve 26. The external channel of this channel is equal to or exceeds its radius. The maximum diameter of the conical surface 24 is equal to the diameter of the conical surface 3. Under this condition, a continuous, stepless channel is formed. Through which the air inlet 27 communicates with said chamber 25.
3
The angle of taper of the surface 24 exceeds the angle of the CONDITION of the conical surface 3, and the axial length of the bearing pad 6 is equal to the longitudinal length of the through hole of the cavity 2 The supporting liner 6 forms, together with the conical surface 3 inside the upper part 1 of the housing, a channel passage extending into the lower part 22 of the housing, moreover, the cross-sectional area of this passage is more than 50% greater than the cross-sectional area of the mixing feed channel of the mixing chamber 25,
The sprayed jet leaving the spray-metering valve-injector 7 has a cone shape, the angular display of which is shown by dotted generators 28, which are directed to the conical surface bounding the said sonus cavity and intersect with airflow jets 29. The maximum diameter of the conical surface 16, limiting outside the annular tip 18 of the support sleeve bush 6, is equal to the diameter of the forming circle resulting from the intersection of the conical surface bounding the output jet of the sprayed fuel with the conical surface 24 of the bore section 23, made in the lower part 22 of the housing . Thus, the entire conical jet of fuel leaving the annular tip 18 will not be blown away by a direct flow of air passing along the channel.
From the wall 4 of the upper part 1 of the housing outwards annular flange
30, which is located below the butt
31, which bounds the top of the air inlet bore 27. The annular protruding portion extends upward from the annular flange 30
32, the diameter of the outer surface 33 of which is equal to the diameter of the inner surface of the air filter used in this device having an annular shape. Thus, the maximum diameter of the conical surface of the top 3, bounding the cavity I 2 of the air channel 12 of the upper part
1 shell, smaller than inside diameter
air lilter that matches. on the profile with the outer surface
33 annular protruding portion 32.
Between the annular protruding part 3
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20
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and a semi-conical ending 34, which bounds the wall 4 on top of the upper part I of the body, is formed by a channel 35 of circular shape.
Through this annular channel, the axes of the vertical holes 36, formed in the upper part 1 and the lower part 22 of the housing, pass.
Through these holes, threaded rods 37 are passed, which serve to fasten the upper part 1 and the lower part 22 of the housing in the form of a common assembly on the mounting plate 38. The ends of said hairpins are threaded and screwed into the corresponding threaded holes of the plate 38.
The axis of the studs 39 coincide with the longitudinal axis of the annular channel 35, the heads of these studs should protrude beyond the cut of the specified channel and, accordingly, the end of the upper part 1 of the device body.
The device works as follows.
During the operation of the engine, air is drawn in through the air inlet port 27 and moves along the air channel 12 of the upper part 1 of the housing. When the spray-metering valve 7 is activated, fuel is introduced into the cavity 23 in the form of aerosol particles. The particles of the sprayed fuel are distributed in the form of a cone-shaped jet, shown by dashed generators 28. At the same time, the intake air passes continuously through the annular channel formed between the conical surface 3 of the cavity 2 and the cylindrical surface 15 of the bearing pad 6. As the air flow passes, interacting with the conical surface 24 of the lower e part 22 of the housing and with the surface 16 of the bearing pad 6, it decelerates and deflects in the direction of the axis of the cavity 23 to form a vortex sheet. The formation of such vortices is also facilitated by the presence of an annular cavity from above 17. In this cavity, pressure is maintained, which considerably exceeds the pressure in cavity 23. The numerous air vortices generated in this way interact with the flow of fuel exiting in the form of a conical jet 28, mixing with it intensively. Thus, in the lower part of the cavity
thirty
35
40
50
23, a uniform mixture of air and fuel particles is formed directly above the mixing chamber 25, which, while still being stirred, enters the mixing chamber 25 in the form of a homogeneous mixture.
Due to the presence of an annular lug 18, the maximum diameter of which practically corresponds to g: a meter of the circumference of the outer surface of the conical jet of fuel shown by dashed generators 28 with the conical surface 2A of cavity 23, the sprayed fuel stream exiting the valve 7 is not disturbed, and therefore, it can freely travel along a straight path without being deflected, which prevents the flow of the atomized fuel from blowing away from the calculated motion path and prevents impact interaction. its aerosol particles with the surfaces of the flow channel, and in particular with the throttle valve 26, that i leads to the formation of droplets on these surfaces. The ring end 18 forms a kind of reflecting screen which diverts the flow of air from the spirit, which enters the cavity 23 of, -; stuffy channel. In the absence of such a screen, the air, interacting with the flow of fuel, would deviate the latter from the intended trajectory of motion, thus disrupting the original fuel film. when valve 7 overlaps, because in some phases of valve overlap, fuel particles of a very small size can form in relatively large quantities, which are able to escape from the conical The jet of fuel aerosol in the transverse direction relative to the axis of the valve 7, which has a negative effect on the engine's idling To the diameter of the conical surface, this cavity acts on 4acTHLij i of fuel coming out of valve 7, at those points in time when the valve gives fuel aerosol, particles are deposited on the surface of the chamber, and then arises under the action of the air flow washing this surface when the valve is not functioning, which facilitates a smoother transition between supply phases
fuel and phases of stopping this supply.
Thus, the proposed device, due to symmetry and the use of strictly symmetric round ribs 13 and the absence of any obstacles, projections or heterogeneity of forms, has a low aerodynamic resistance to flow, which also contributes to the uniformity of the dosage of the fuel mixture in various engine cylinders. since the flow of the mixture of air and fuel passing through the channel of the mixing chamber 25 is kept
5 strictly homogeneous at each point of the flow area of this channel.

权利要求:
Claims (3)
[1]
Invention Formula
0 A device for supplying a combustible mixture of air and fuel to the manifold of an internal combustion engine, comprising a composite housing with upper and lower parts, in the upper part
- the body is made of an air channel, and in the lower part - a channel of the air-fuel mixture, the inlet port communicates with the air channel, and the outlet - with a mixing chamber,
Q performed in the form of a channel with a throttle valve installed in it; a liquid spraying metering valve located along the narrowed in the direction of air flow
5 of the air duct; the device is attached to the fasteners by the collector plate and: an air filter of an annular mold for cleaning the air, characterized in that
Q in order to simplify the design,
The inner surface of the channel of the upper part of the housing is made conical with the tubular valve support coaxially mounted in it, fixed to the inner surface when the two ribs are flush, the inner surface of the lower channel, the housing h is also conical, with the angle of taper of the lower channel
parts of the body are made larger than the taper angle of the channel of the upper part of the body; the axial length of the channel support is equal to the axial length of the channel of the upper part of the body; and the outer surface of the support forms an annular channel with the inner side of the channel of the upper part of the body. the cross section of which is more than 1.5 times greater than the cross-sectional area of the channel of the mixing chamber.
2. The device according to claim 1, about tl and the fact that the valve support consists of cylindrical and conical parts oriented sequentially in the direction of flow, with the diameter of the conical part increasing in the direction of flow.
[2]
3. A device according to Claim 1 or 2, characterized in that the valve support is provided with a cavity of an annular shape made from the end facing the mixing chamber on the conical part, and is located
[3]
59
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around the spray hole and in the fuel scout,
A. A device according to claims 1-3, characterized in that each of the ribs connecting the valve support to the conical surface of the channel of the upper part of the housing has a rectangular shape in cross section and in the upper part is connected to the cylindrical surface of the valve support.
5. A device according to claim 1-4, characterized in that the maximum diameter of the cross section of the channel of the upper part of the housing is less than the diameter of the air filter,
6. A device according to claims, 1-5, characterized in that the length of the channel of the mixing chamber is equal to or greater than the radius of this channel.
7. A device as claimed in Claims 1 to 6, characterized in that through holes in the upper and lower parts of the housing are bolt holes for fastening the device to the base plate.
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同族专利:

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公开号 | 公开日

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DE3670127D1|1990-05-10|

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IT1182605B|1987-10-05|

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US4751905A|1988-06-21|

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EP0218948A1|1987-04-22|

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BR8605049A|1987-07-14|

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IT8567861D0|1985-10-11|

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ES2002838A6|1988-10-01|

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JPH04128567A|1990-09-20|1992-04-30|Mazda Motor Corp|Intake device for engine|

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US8746214B2|2010-02-17|2014-06-10|Turn And Bank Holdings, Inc.|Fuel control apparatus|

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US10215140B2|2015-04-14|2019-02-26|Turn And Bank Holdings, Llc|Fuel control valve assembly|

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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IT67861/85A|IT1182605B|1985-10-11|1985-10-11|DEVICE FOR THE SUPPLY OF A MIXTURE OF AIR AND FUEL TO A CELLECTOR OF AN INTERNAL COMBUSTION ENGINE|

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