|
Patent Abstract
The solenoid valve has a fuel supply conduit, and a ball shutter
controlled by an electromagnet and cooperating with a conical seat
in the conduit. The conduit has fuel filtration means having a cylindrical
wall with a number of openings for preventing particles of dirt
from infiltrating between the seat and the shutter, without producing
an excessive fall in fuel pressure. The thickness of the cylindrical
wall is less than 1 mm, and the width of the openings is less than
0.25 mm.
Patent Claims
1. A solenoid valve for regulating the fuel supply pressure of an
internal combustion engine, and which comprises a fuel supply conduit
(7a, 7b, 7c), and a shutter (12) controlled by an electromagnet
and cooperating with a seat (13) in said conduit (7a, 7b, 7c), and
is characterized by fuel filtration means (22, 24; 29, 31; 36, 38)
located in said conduit (7a, 7b, 7c) and comprising a wall (22,
29, 36) having a number of openings (24, 32, 38) for preventing
particles of dirt from infiltrating between said seat (13) and said
shutter (12), without producing an excessive fall in fuel pressure;
the thickness of said wall (22, 29, 36) being less than 1 mm; and
the width of said openings (24, 32, 38) being less than 0.25 mm.
2. A solenoid valve as claimed in claim 1, characterized in that
said wall (22, 29, 36) is cylindrical; said openings (24, 32, 38)
being 0.05 to 0.08 mm in width.
3. A solenoid valve as claimed in claim 2, characterized in that
said wall (22, 29, 36) is 0.5 to 0.8 mm in thickness; said openings
being defined by circular holes (24, 32); said holes (24, 32) being
formed using a laser drilling device; and said holes (24, 32) being
over 500 in number.
4. A solenoid valve as claimed in claim 3, characterized in that
the diameter of said circular holes (24, 32) is about 0.06 mm; and
said holes (24, 32) being about 2000 in number.
5. A solenoid valve as claimed in claim 4, characterized in that
said cylindrical wall (22) has one end (23) integral with one end
of said conduit (7a); said conduit (7a) having another end (26)
closed by a plug (27) inserted inside said other end (26).
6. A solenoid valve as claimed in claim 4, characterized in that
said cylindrical wall (29) is separate from said conduit (7b) and
integral with a bottom wall (31) of a cup-shaped body (28); said
cylindrical wall (29) comprising a portion (33) which fits on to
a shoulder (34) of said conduit (7b).
7. A solenoid valve as claimed in claim 1, characterized in that
said cylindrical wall is made of netting (36) having meshes (38)
of 0.05 to 0.08 mm square; said netting (36) being supported by
a frame (37) which fits on to said conduit (7c).
8. A solenoid valve as claimed in claim 7, characterized in that
said frame (37) comprises a bottom wall (39), a ring (41) which
fits on to said conduit (7c), and at least two cylindrical sectors
(42) integral with said bottom wall (39) and with said ring (41);
said cylindrical sectors (42) supporting said netting (36).
9. A solenoid valve as claimed in claim 8, characterized in that
said netting (36) is made of metal and has two supporting rings
(45); said frame (37) being made of plastic material and being molded
on to said netting (36) so that said supporting rings (45) are embedded
in the ring (41) and in the bottom wall (39) of said frame (37),
and so that two sectors (43) of said netting (36) are embedded in
the cylindrical sectors (42) of said frame (37).
10. A solenoid valve as claimed in claim 9, characterized in that
the ring (41) of said frame (37) comprises an annular projection
(47) which clicks into a groove (46) on said conduit (7c).
11. A solenoid valve as claimed in claim 1, characterized in that
said seat (13) is conical and located at one end of said conduit
(7a, 7b, 7c); said shutter comprising a ball (12) cooperating with
said conical seat (13); and said wall (22, 29, 36) having such a
ratio between the length of said openings (24, 32, 38) and the total
passage section as to prevent an excessive fall in pressure.
Patent Description
[0001] The present invention relates to an improved solenoid valve
for regulating the fuel supply pressure of an internal combustion
engine.
BACKGROUND OF THE INVENTION
[0002] In modern engine fuel supply systems, a high-pressure pump
feeds the fuel to a distributor or so-called "common rail",
which supplies the various engine cylinder injectors; and a solenoid
valve controlled by a pressure sensor is normally provided to control
and keep the fuel pressure in the distributor constant and to drain
into the tank any surplus fuel supplied by the high-pressure pump.
The solenoid valve comprises a supply conduit communicating with
the delivery conduit of the high-pressure pump; and a shutter controlled
by an electromagnet and cooperating with a seat in the supply conduit.
[0003] In one known pressure regulating solenoid valve incorporated
in a radial-piston pump, the shutter is defined by a ball controlled
by the end of a stem on the electromagnet armature and cooperating
with a conical sealing seat at one end of the supply conduit.
[0004] On account of dirt, e.g. metal particles, settling between
the ball and the conical sealing seat, the above solenoid valve
is subject to sealing problems resulting in a fall in pressure and,
hence, malfunctioning of the supply system as a whole. And, due
to the extremely high operating pressure involved, e.g. in the region
of 1400 bar, ordinary filtration means in the supply conduit likewise
result in a fall in pressure along the supply conduit.
SUMMARY OF THE INVENTION
[0005] It is an object of the invention to provide a pressure regulating
solenoid valve, which is extremely straightforward and reliable,
and provides for eliminating the aforementioned drawbacks typically
associated with known solenoid valves.
[0006] According to the present invention, there is provided a
solenoid valve for regulating fuel supply pressure, and which comprises
a fuel supply conduit, and a shutter controlled by an electromagnet
and cooperating with a seat in said conduit, and is characterized
by fuel filtration means located in said conduit and comprising
a wall having a number of openings for preventing particles of dirt
from infiltrating between said seat and said shutter, without producing
an excessive fall in fuel pressure; the thickness of said wall being
less than 1 mm; and the width of said openings being less than 0.25
mm.
BRIEF DESCRIPTION OF THE DRAWINGS
[0007] A number of preferred, non-limiting embodiments of the invention
will be described by way of example with reference to the accompanying
drawings, in which:
[0008] FIG. 1 shows a section of a first embodiment of a fuel pressure
regulating solenoid valve in accordance with the invention;
[0009] FIG. 2 shows a section of a further embodiment of a regulating
solenoid valve in accordance with the invention;
[0010] FIG. 3 shows a section of a further embodiment of a solenoid
valve in accordance with the invention;
[0011] FIG. 4 shows a larger-scale section along line IV-IV in
FIG. 3;
[0012] FIG. 5 shows a section along line V-V in FIG. 4.
DETAILED DESCRIPTION OF THE INVENTION
[0013] Number 5 in FIG. 1 indicates as a whole a solenoid valve
for regulating the fuel supply pressure of an internal combustion
engine. Solenoid valve 5 comprises a valve body 6 having a supply
conduit 7a extending axially along a first cylindrical portion 8
of valve body 6; supply conduit 7a comprises a calibrated-diameter
portion 9, and communicates with the delivery side of a high-pressure
fuel supply pump not shown; and cylindrical portion 8 is fitted
in fluid-tight manner to the body of the pump by means of appropriate
seals 10.
[0014] Cylindrical portion 8 has a series of radial holes 11 communicating
with a drain conduit (not shown) in the pump body. Between supply
conduit 7a and radial holes 11, there is provided a shutter in the
form of a ball 12, which engages a conical seat 13, formed at the
end of portion 9, to close conduit 7a; solenoid valve 5 comprises
an electromagnet having a body 15 to which valve body 6 is fitted
in known manner; and the electromagnet controls an armature having
a stem 16 sliding inside a hole 17 in body 15 and for controlling
ball 12.
[0015] The fuel in supply conduit 7a must be kept at an operating
pressure of at least 1000 bar. Preferably, the selected operating
pressure is about 1400 bar; and the inside diameter of conduit 7a
may advantageously be about 2.5 mm.
[0016] According to the invention, supply conduit 7a is provided
with fuel filtration means, i.e. a filter comprising a cylindrical
wall 22 having one end 23 integral with conduit 7a. Wall 22 comprises
a number of openings in the form of circular holes 24, only some
of which are shown in FIG. 1 for the sake of clarity, and which
are formed using a laser drilling device. After drilling, the other
end 26 of wall 22 is closed by a plug or plate 27 inserted into
end 26 in known manner.
[0017] Wall 22 is less than 1 mm, e.g. 0.5 to 0.8 mm, thick; holes
24 are less than 0.25 mm, e.g. 0.05 to 0.08 mm, in diameter; and
the surface of wall 22 is such as to house at least 500 holes 24.
Advantageously, the selected hole diameter is about 0.06 mm, and
the selected number of holes 24 is about 2000.
[0018] So drilled, wall 22 prevents particles of dirt, normally
minute metal particles, from infiltrating between conical seat 13
and ball 12, thus preventing sealing problems on solenoid valve
5 which may cause the fuel pressure. in conduit 7a to fall so low
as to impair operation of the fuel supply system as a whole.
[0019] Holes 24, on the other hand, are such as not to cause an
excessive fall in fuel pressure along conduit 7a, and to avoid hydraulic
cavitation erosion phenomena. An excessive fall in pressure, in
fact, is prevented by drilled wall 22 having just the right ratio
between the length of holes 24 and the total passage section.
[0020] In the FIG. 2 embodiment, the filtration means comprise
a cup-shaped body 28 made, for example, of metal; body 28 is separated
from the supply conduit 7b and has a cylindrical wall 29 integral
with a bottom wall 31; with the exception of an end portion 33,
wall 29 is drilled with holes 32 substantially similar to holes
24 in the FIG. 1 wall 22; after drilling, body 28 is inserted with
end 33 resting on a seat defined by an outer shoulder 34 of conduit
7b; and drilled wall 29 has the same filtering effect as wall 22
in FIG. 1.
[0021] In the FIGS. 3-5 embodiment, the filtration means comprise
a cylindrical wall made of netting 36 of wire or other material;
and netting 36 is fixed to the conduit 7c by a frame 37 for supporting
netting 36, and which is made of plastic material molded on to netting
36 as explained clearly below.
[0022] Netting 36 is of maximum 1 mm thickness and has meshes 38
of 0.05 to 0.08 mm in width so as to contain about 2000 meshes 38.
The thickness of netting 36 is therefore also such as to achieve
the right ratio between the length of meshes 38 and the total passage
section and so prevent an excessive fall in pressure.
[0023] Frame 37 comprises a bottom wall 39 (FIGS. 3 and 4); a ring
41 which fits on to conduit 7c of valve body 6; and at least two
cylindrical sectors 42 integral with bottom wall 39 and ring 41.
More specifically, two diametrically opposite cylindrical sectors
42 are provided. Netting 36 is fixed to two rings 45 made of sheet
metal and which are embedded in ring 41 and wall 39 of frame 37,
and two cylindrical sectors 43 of netting 36 are embedded in sectors
42 of frame 37.
[0024] To fit frame 37 on to conduit 7c, one end 44 (FIG. 3) of
conduit 7c has a groove 46, and ring 41 has a projection 47 which
clicks into groove 46. Netting 36 has the same filtering effect
as drilled cylindrical walls 22 and 29.
[0025] The advantages, as compared with known solenoid valves,
of solenoid valve 5 according to the invention will be clear from
the foregoing description. On the one hand, filtering walls 22,
29 and 36 prevent sealing problems arising between ball 12 and conical
seat 13 without producing an excessive fall in pressure, and, on
the other, prevent cavitation erosion phenomena inside conical seat
13.
[0026] Clearly, further changes and improvements can be made to
the solenoid valve as described herein without, however, departing
from the scope of the accompanying claims. For example, the filter
may be formed differently or comprise more than one filtering wall
located in any position along the supply conduit. |