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Patent Abstract
A solenoid valve having a magnet assembly and an injector body connected
thereto, the magnet assembly and the injector body being joined
together using a crimped retaining ring as the connecting element.
Patent Claims
What is claimed is:
1. A solenoid valve, comprising: a magnet assembly; a crimped retaining
ring; and an injector body connected to the magnet assembly via
the crimped retaining ring.
2. The solenoid valve according to claim 1, wherein the retaining
ring includes two crimped edges cooperating with at least one of
corresponding grooves and corresponding projections of the injector
body and the magnet assembly, respectively.
3. The solenoid valve according to claim 1, wherein the retaining
ring includes an elastic material.
4. The solenoid valve according to claim 3, wherein the elastic
material includes a stainless steel alloy.
5. The solenoid valve according to claim 1, wherein the retaining
ring includes a lateral recess.
Patent Description
FIELD OF THE INVENTION
[0001] The present invention relates to a solenoid valve.
BACKGROUND INFORMATION
[0002] Such a solenoid valve is referred to, for example, in European
Published Patent Application No. 0 690 223, in which the solenoid
valve is used to control an electrically controlled fuel injector.
[0003] Such a solenoid valve is also referred to, for example,
in German Published Patent Application No. 196 50 865, in which
the solenoid valve has an armature having a multi-part construction.
To avoid post-pulse oscillation of an armature plate after the solenoid
valve has closed, a damping device is provided on the armature.
[0004] In solenoid valves, a magnet assembly, for example, maybe
screwed to an injector body or fuel injector housing using a magnet
lock nut. The relatively complex and costly mounting required for
this screw connection may be disadvantageous. In addition, magnet
lock nuts may loosen during operation of the solenoid valve, which
may impair the reliability and effectiveness of the solenoid valve.
Magnet lock nuts should be manufactured from a relatively hard material,
such as steel alloys, for example, ETG 100.
SUMMARY An object of the present invention is to provide an improved
option for connecting the magnet assembly and injector body of a
solenoid valve.
[0005] Using an exemplary approach according to the present invention,
it is believed that an injector body may be mounted on a magnet
assembly more simply and less costly, compared with conventional
approaches. An installation tool, which is required for this operation,
may be easier and more economical to provide, compared to open-end
wrenches (controlled via a screw station having a force transducer)
customarily used for tightening magnet lock nuts. During installation
according to the present invention, the connecting element is uniformly
deformed, whereas with tightened magnet lock nuts, an oval or non-uniform
deformation has been observed. To achieve the connection according
to the present invention, bolts may be used which, in a uniform
manner or in segments of equal size, exert pressure circumferentially
on the retaining ring used as the connecting element. The described
connection according to the present invention may allow the cycle
time to be reduced during the manufacture of solenoid valves, so
that exemplary solenoid valves according to the present invention
may, for example, be suitable for mass production.
[0006] The retaining ring may, for example, include two crimped
edges that cooperate with the corresponding grooves and/or projections
of the injector body or magnet assembly, respectively. The two crimped
edges help assure a firm connection between the magnet assembly
and the injector body, in a robust and reliable manner.
[0007] According to one exemplary solenoid valve of the present
invention, the retaining ring is more elastic than the magnet lock
nuts. The required elasticity is determined by particular circumstances,
and the connecting ring may include, for example, stainless steel
alloys, such as 1.4303 or 1.4301 alloys.
[0008] The retaining ring may include a lateral recess. Such a
recess may, for example, be used as a rupture point or break point,
so that the retaining ring may be easily detached, to loosen the
connection between the magnet assembly and the injector body. This
helps ensure that no contaminations appear when the solenoid valve
is disassembled. For example, the formation of particles or shavings,
which may appear when loosening conventional magnet lock nuts, may
be prevented.
BRIEF DESCRIPTION OF THE DRAWINGS
[0009] FIG. 1 is a side view of a conventional solenoid valve,
in which the magnet assembly and the injector body are joined together
by a magnet lock nut.
[0010] FIG. 2 is a schematic side view of a first exemplary solenoid
valve according to the present invention.
[0011] FIG. 3 is a non-cutaway side view of the solenoid valve
illustrated in FIG. 2.
DETAILED DESCRIPTION
[0012] FIG. 1 shows a conventional solenoid valve 11. Solenoid
valve 11 has a magnet assembly 12 enclosed by a sleeve 12a. The
operating principle of the magnet assembly is not described here
in detail. Magnet assembly 12 is connected to an injector body 13
via magnet lock nut 14, which includes a screw station (not shown)
on which an open-end wrench may be placed to tighten the magnet
lock nut. Magnet lock nut 14 may disadvantageously deform into an
oval shape during tightening. Plastic deformation of sleeve 12a
may also result. In addition, the interaction between the nut and
the wrench may produce particle deposits, thereby creating the risk
of contamination of the solenoid valve and the assembly lines.
[0013] An exemplary solenoid valve 21 according to the present
invention is illustrated in FIGS. 2 and 3. The solenoid valve 21
includes a magnet assembly 22, an injector body 23, and a connecting
part 28 situated on the injector body, for example, to join a pressure
borehole in the solenoid valve to a high pressure accumulator.
[0014] Magnet assembly 22 and injector body 23 are joined together
by a retaining ring 24, which has a first crimped edge 24a and a
second crimped edge 24b. Crimped edge 24a cooperates with a lower
groove 23a in injector body 23, and the retaining ring 24 is crimped
into groove 23a of injector body 23 to form crimped edge 24a.
[0015] Second crimped edge 24b surrounds a shoulder support 22b
of a sleeve 22a on magnet assembly 22. Sleeve 22a may, for example,
be a deep-drawn component.
[0016] The solenoid valve may be installed, for example, by first
placing retaining ring 24 on injector body 23, and then crimping
the retaining ring into lower groove 23a of injector body 23. Magnet
assembly 22 is then mounted or joined to the injector body. For
example, magnet assembly 22 is then pressed tightly against injector
body 23, using a hold-down, while the second crimping procedure
forms second crimped edge 24b. It may be advantageous for shoulder
support 22b to be elastically deformable during the second crimping
procedure, thereby simplifying the creation of second crimped edge
24b. Plastic deformation of shoulder support 22b does not occur.
[0017] The retaining ring thus holds the magnet assembly and the
injector body together. Crimped edges 24a and 24b engage in groove
23a of injector body 23 and around shoulder support 22b of sleeve
22a, respectively.
[0018] Finally, FIG. 3 illustrates a non-cutaway side view of the
solenoid valve illustrated in FIG. 2. The components already described
with reference to FIG. 2 are provided here with the same reference
numbers. In this illustration, a recess 27 is provided on the outside
of retaining ring 24, which may be detached by breaking at the lateral
recess 27. |