Fluid sprinkling – spraying – and diffusing – Fluid pressure responsive discharge modifier* or flow... – Fuel injector or burner
Reexamination Certificate
2000-04-10
2001-11-27
Morris, Lesley D. (Department: 3752)
Fluid sprinkling, spraying, and diffusing
Fluid pressure responsive discharge modifier* or flow...
Fuel injector or burner
C239S533300
Reexamination Certificate
active
06322007
ABSTRACT:
PRIOR ART
The invention is based on a fuel injection valve for internal combustion engines. In one such fuel injection valve, known from German published, nonexamined patent application DE 42 02 752, a valve member is guided in a blind bore of a valve body, axially displaceably counter to a closing force. The valve member, lower end toward the combustion chamber, has a conical valve sealing face, with which it cooperates with a conical valve seat face on the inward-projecting closed end of the blind bore. Between the valve seat face and the valve sealing face, an opening cross section is formed at which a flow of fuel from a high-pressure fuel chamber into the closed end of the blind bore can be controlled. The conical valve seat face of the known valve is downstream by a further blind bore wall region, from which a plurality of injection openings lead away into the combustion chamber of the engine to be supplied.
The known fuel injection valve has the disadvantage that the wall region of the blind bore adjoining the valve seat face is embodied cylindrically and furthermore in radius form, so that even slight production variations in the axial disposition of the injection openings result in different inlet angles at the injection openings, which alter the inflow behavior, the flow inside the injection opening, and thus the injection stream characteristic at the outlet openings. However, since the stream characteristic at all the injection openings has very great significance in terms of optimal stream preparation and fuel combustion in the combustion chamber of the engine, the known fuel injection valves no longer meet the high demands made of modern fuel injection valves in terms of emissions-optimized stream preparation and combustion inside the engine.
ADVANTAGES OF THE INVENTION
The fuel injection valve according to the invention for internal combustion engines, has an advantage over the known valve that with respect to their placement, the injection openings have a high tolerance for production variation, so that particularly deviations in position in the axial direction of the injection valve initially have no influence whatever on the flow conditions at the injection openings. This relative independence of the axial positional tolerance of the injection openings is attained according to the invention by means of the conical embodiment of the region of the blind bore of the fuel injection valve that receives the injection openings. At their inlet openings, the injection openings have a predetermined minimum spacing from the upper and lower ends of the conical blind bore wall region; the spacing between the upper end of an inlet opening of the injection opening and an upper, upstream boundary edge of the conical blind bore wall region is the size of at least half the diameter of the injection opening. Advantageously, the spacing between the lower end of an inlet opening of the injection opening and a lower, downstream boundary edge of the conical blind bore wall region is the size of at least one-quarter of the diameter of the injection opening. This assures that even if there is a slight offset among the individual injection openings in the axial direction of the fuel injection valve from one another, the inlet angles at all the injection openings will always constantly have the same value, so that the injection streams can be embodied uniformly. It is advantageous that the valve seat face and the conical blind bore wall region following the valve seat face downstream have different cone angles. The conical blind bore wall region and the valve seat face can adjoin one another directly, but it is also possible as an alternative, as shown in the exemplary embodiment, to provided a cylindrical wall segment region between these two faces. The transition from this wall segment face to the conical blind bore wall region that receives the injection openings is advantageously rounded off in a streamlined way with a radius. It is possible to dispose all the injection openings in the same row of injection ports in a single conical face, but it is also possible to embody the conical blind bore wall face with a plurality of successive conical faces; one row of injection ports can then be disposed in each conical face. Once again, certain minimum spacings of the inlet openings of the injection openings from the ends of the conical faces should be provided.
A further advantage of the fuel injection valve of the invention is the disposition of the injection opening, embodied as an injection bore, at an acute angle &bgr; from the wall surface of the conical blind bore wall upstream of the injection opening. This angle of inclination &bgr; between the longitudinal axis of the injection bore and the conical blind bore wall region located upstream of the injection bore should also be embodied as <90°. This angular range makes a sharp deflection inlet angle in the fuel flow possible at the top of the inlet opening of the injection bore; the fuel flow is thus made turbulent and generates cavitation, so that within the injection bore an injection stream forms whose flow profile is embodied such that at the outlet of the injection bore it is atomized as quickly as possible, which results in good stream preparation in the engine combustion chamber and optimal ensuing fuel combustion.
On the assumption that the sum between the cone angle &PSgr;, formed between the longitudinal axis of the fuel injection valve and the longitudinal axis of the injection bore, and the aforementioned inlet angle &bgr; and the angle alpha enclosed between the longitudinal axis of the injection valve and the conical blind bore wall are 180°, it is now possible in designing the fuel injection valve, at a predetermined inlet angle &bgr; and a projected inlet face at the inlet opening of the injection bore, and at a cone angle T predetermined by the desired stream position, to calculate the cone angle &agr; of the conical blind bore wall face at the injection openings in such a way that an optimal velocity profile of the injection stream, or an optimal velocity profile of the injection stream, or an optimal stream characteristic of the injection stream, at the outlet of the injection opening can be attained. Thus compared with the known fuel injection valves at predetermined cone angles &PSgr;, an inlet angle &bgr;<90° is established by way of the constructive design of the cone angle &agr; of the conical blind bore wall face. In this way, very stable inflow conditions for all the injection openings can be established, which also meet the high demands made of new modern fuel injection systems, such as pump-line nozzles, unit fuel injectors, and common rail systems. In addition, compared with rounding of the inlet edges of the injection port, high production tolerances are obtained, so that very stable fuel injection stream geometries at all the injection openings can be attained here.
Further advantages and advantageous features of the subject of the invention can be learned from the specification, drawing and claims.
REFERENCES:
patent: 3836080 (1974-09-01), Butterfield
patent: 4106702 (1978-08-01), Gardner et al.
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patent: 5890660 (1999-04-01), Stevens
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patent: WO-96/19661 (1996-06-01), None
Haug Stefan
Heine Barbara
Maier Ralf
Mennicken Michael
Potz Detlev
Greigg Ronald E.
Morris Lesley D.
Robert & Bosch GmbH
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