Title of Invention

A FUEL INEJCTOR ASSEMBLY MOUNTABLE WITHIN AN INJECTOR BORE DEFINED BY A CYLINDER HEAD ASSEMBLY

Abstract A fuel injector assembly sufficiently configured to be mountable within an injector bore defined by a cylinder head assembly is provided. The fuel injector assembly includes an injector body having an injector tip portion and a generally annular combustion seal mounted with respect to the injector tip portion. A secondary combustion seal is mounted with respect to the injector tip portion and is substantially adjacent to the generally annular combustion seal. A cylinder head assembly incorporating the disclosed fuel injector assembly is also provided.
Full Text GP-309009-PTE-JEK
1
FUEL INJECTOR WITH SECONDARY COMBUSTION SEAL
TECHNICAL FIELD
[0001] The present invention relates to a fuel injector having a secondary
combustion seal.
BACKGROUND OF THE INVENTION
[0002] Recent advances in fuel delivery and combustion research have allowed
direct injection, or DI, fuel delivery systems to increase in popularity. The DI fuel
delivery system provides a fuel injector within a cylinder head of an internal
combustion engine. The fuel injector operates to inject a predetermined amount of fuel
directly into the combustion chamber. The DI fuel delivery system enables higher
power levels, improved fuel economy, and lower emissions. These beneficial aspects
of the DI fuel delivery system are a result of the precise metering of the fuel injected
into the combustion chamber as well as improved intake airflow into the combustion
chamber.
[0003] Since the fuel injector assembly is in direct communication with the
combustion chamber, the fuel injector is subject to high pressure loads and
temperatures of the combustion process. Therefore, the fuel injector must be sealed
with respect to the cylinder head to prevent combustion gases from leaking past the fuel
injector.
SUMMARY OF THE INVENTION
[0004] A fuel injector assembly sufficiently configured to be mountable within
an injector bore defined by a cylinder head assembly is provided. The fuel injector
assembly includes an injector body having an injector tip portion and a generally
annular combustion seal mounted with respect to the injector tip portion. A secondary
combustion seal is mounted with respect to the injector tip portion and is substantially

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adjacent to the generally annular combustion seal. The secondary combustion seal is
preferably an o-ring type seal. The injector bore may include a tapering portion and a
generally cylindrical portion. The generally annular combustion seal and the secondary
combustion seal are preferably configured to sealingly engage the generally cylindrical
portion. A cylinder head assembly incorporating the disclosed fuel injector assembly is
also provided.
[0005] The above features and advantages and other features and advantages of
the present invention are readily apparent from the following detailed description of the
best modes for carrying out the invention when taken in connection with the
accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0006] Figure 1 is a sectional view of a portion of a cylinder head assembly with
a fuel injector assembly mounted thereto and illustrating a secondary combustion seal;
and
[0007] Figure 2 is a sectional view of a portion of a cylinder head assembly with
a fuel injector assembly mounted thereto and illustrating an alternate embodiment of the
secondary combustion seal of Figure 1.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0008] Referring to the drawings wherein like reference numbers correspond to
like or similar components throughout the several figures, there is shown in figure I a
portion of a cylinder head assembly 10 for a direct injection internal combustion engine.
not shown. The cylinder head assembly 10 includes a cylinder head 12, formed from a
cast metal such as aluminum, iron, magnesium, etc., and a fuel injector assembly 14
mounted thereto. The cylinder head 12 defines an injector bore 16 and a partially defines
a combustion chamber 18. The injector bore 16 is in communication with the
combustion chamber 18. The fuel injector assembly 14 includes an injector body 20
having an injector tip portion 22. The injector bore 16 is configured to receive the

GP-309009-PTF-JEK
injector tip portion 22 such that the injector tip portion 22 is in communication with the
combustion chamber 18.
[0009] A fuel rail 24 is mounted with respect to the fuel injector assembly 14 and
is operable to provide a source of pressurized fuel 26 to the fuel injector assembly 14.
The fuel injector assembly 14 is operable to communicate metered and timed amounts of
pressurized fuel 26 from the fuel rail 24 directly into the combustion chamber 18 for
subsequent combustion therein. As such, the fuel injector assembly 14 may be
characterized as a direct injection fuel injector assembly. An isolator member 28 is
disposed between the cylinder head 12 and the fuel injector assembly 14 and is operable
to provide a measure of compliance to reduce or eliminate hard contact or grounding
between the fuel injector assembly 14 and the cylinder head 12. In so doing, the
transmission of noise producing vibrations between the fuel injector assembly 14 and the
cylinder head 12 is reduced.
[0010] The injector bore includes first and second generally cylindrical portions
30 and 32, respectively, having a generally tapering bore portion 34 therebetween. The
generally tapering bore portion 34 is operable to guide or pilot the injector tip portion 22
into the second generally cylindrical portion 32 during insertion of the fuel injector
assembly 14. The injector tip portion 22 defines an annular groove 36 configured to
receive a portion of a combustion seal 38. The combustion seal 38 is generally annular
and sleeve-like in shape and is operable to sealingly engage the second generally
cylindrical portion 32 of the injector bore 16 thereby preventing combustion gases from
within the combustion chamber 18 from traversing the injector bore 16 during operation
of the engine. The combustion seal 38 is preferably formed from a glass or carbon filled
polytetrafluoroethylene material; however, those skilled in the art will recognize that
other materials may be employed possessing the requisite thermal and chemical
resistance while remaining within the scope of that which is claimed.
[0011] An annular groove 40 is defined by the injector tip portion 22 and is
configured to contain a portion of a secondary combustion seal 42. The secondary
combustion seal 42 is mounted substantially adjacent to the combustion seal 38 and is
operable to sealingly engage the second generally cylindrical portion 32 of the injector

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bore 16. The secondary combustion seal 42 is operable to prevent combustion gases
that may traverse the combustion seal 38 from flowing further into the injector bore 16.
The secondary combustion seal 42 is preferably an o-ring type seal formed from a
rubber. In a preferred embodiment the secondary combustion seal 42 is formed from a
fluoropolymer elastomer material.
[0012] In operation, the fuel injector assembly 14 will exhibit small axial
displacements or movements, as illustrated by arrow 44, as a result of variations in
pressure within the combustion chamber 18 and the pressurized fuel 26 within the fuel
rail 24. The isolation member 28 may tend to increase the magnitude of this
movement. The axial movements of the fuel injector assembly 14 may tend to
destabilize the combustion seal 38 thereby causing a reduction in the sealing
effectiveness of the combustion seal 38. The secondary combustion seal 42 is operable
to maintain a seal between the injector tip portion 22 and the second generally
cylindrical portion 32 of the injector bore 16 during the axial movement of the fuel
injector assembly since the o-ring shape of the secondary combustion seal 42 will allow
the secondary combustion seal 42 to "roll" within the annular groove 40 while
maintaining engagement with the injector bore 16.
[0013] Referring now to Figure 2, there is shown an alternate embodiment of
the cylinder head assembly 10 of Figure 1, generally indicated at 10A. The cylinder
head assembly 10A includes a fuel injector assembly 14A. The fuel injector assembly
14A includes the injector body 20 having an injector tip portion 22A. The annular
groove 40 defined by injector tip portion 22 of Figure 1 is absent in the injector tip
portion 22A of Figure 2. An injector piloting sleeve 46 is mounted with respect to the
cylinder head 12 and defines the generally tapering bore portion 34 and the generally
cylindrical bore portion 32 of the injector bore 16. The injector piloting sleeve 46 may
be retained within the cylinder head 12 by interference fit, threaded engagement, or
other fastening means known to those skilled in the art. The injector piloting sleeve 46
defines an annular groove 48 configured to receive a portion of the secondary
combustion seal 42. In this configuration, the secondary combustion seal 42 scalingly

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engages the injector tip portion 22A of the fuel injector assembly 14A. The annular
groove 48 is preferably formed in the second generally cylindrical bore portion 32 such
that when the fuel injector assembly 14A is mounted with respect to the cylinder head
12, the secondary combustion seal 42 is substantially adjacent to the combustion seal
38. The secondary combustion seal 42 operates in substantially the same fashion as
described hereinabove with reference to Figure 1. Additionally, the injector piloting
sleeve 46 may be formed from a material having a similar coefficient of thermal
expansion as that of the injector tip portion 22A. In this case, close tolerances may be
maintained between the second generally cylindrical bore portion 32 and the injector tip
portion 22A over a wide range of temperatures. Furthermore, the piloting sleeve 46
may be formed without the annular groove 48 for use with the fuel injector assembly 14
of Figure 1.
[0014] While the best modes for carrying out the invention have been described
in detail, those familiar with the art to which this invention relates will recognize various
alternative designs and embodiments for practicing the invention within the scope of the
appended claims.

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CLAIMS
1. A fuel injector assembly sufficiently configured to be mountable
within an injector bore defined by a cylinder head assembly, the fuel injector assembly
comprising:
an injector body having an injector tip portion;
a generally annular combustion seal mounted with respect to said
injector tip portion; and
a secondary combustion seal mounted with respect to said injector
tip portion and substantially adjacent to said generally annular combustion seal.
2. The fuel injector assembly of claim 1, further comprising an
isolation member operable to isolate said fuel injector body from the cylinder head.
3. The fuel injector assembly of claim 1, wherein said secondary
combustion seal is an o-ring seal.
4. The fuel injector assembly of claim 1, wherein said generally
annular combustion seal is formed from polytetrafluoroethylene.
5. The fuel injector assembly of claim 1. wherein said secondary
combustion seal is formed from rubber.
6. The fuel injector assembly of claim 1, wherein said secondary
combustion seal is formed from a fluoropolymer elastomer material.
7. The fuel injector assembly of claim 1, wherein the fuel injector
assembly is a direct injection fuel injector assembly.

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8. The fuel injector assembly of claim 1, wherein the injector bore
includes a tapering portion and a generally cylindrical portion and wherein said generally
annular combustion seal and said secondary combustion are configured to sealingly
engage said generally cylindrical portion.
9. The fuel injector assembly of claim 1, wherein said injector tip
portion defines an annular groove and wherein said secondary combustion seal is
partially disposed within said annular groove.
10. A cylinder head assembly comprising:
a cylinder head at least partially defining a combustion chamber
and an injector bore;
a fuel injector assembly having an injector body and an injector tip
portion;
wherein said injector tip portion is at least partially disposed within
said injector bore and in communication with said combustion chamber;
a generally annular combustion seal mounted with respect to said
injector tip portion and operable to at least partially seal said injector tip with respect to
said injector bore; and
an o-ring seal mounted with respect to said injector tip portion and
substantially adjacent to said generally annular combustion seal, said o-ring seal being
operable to further seal said injector tip with respect to said injector bore.
1 1. The cylinder head assembly of claim 10. further comprising an
isolation member operable to isolate said fuel injector body from said cylinder head.
12. The cylinder head assembly of claim 10, wherein said o-ring seal is
formed from rubber.

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13. The cylinder head assembly of claim 10. wherein said injector bore
includes a tapering portion and a generally cylindrical portion and wherein said generally
annular combustion seal and said o-ring seal engage said generally cylindrical portion.
14. A cylinder head assembly comprising:
a cylinder head at least partially defining a combustion chamber:
an injector piloting sleeve mounted within said cylinder head and
defining an injector bore;
a fuel injector assembly having an injector body and an injector tip
portion;
wherein said injector tip portion is at least partially disposed within
the injector bore and in communication with said combustion chamber;
a generally annular combustion seal mounted with respect to said
injector tip portion and operable to at least partially seal said injector tip with respect to
said injector bore; and
a secondary combustion seal substantially adjacent to said
generally annular combustion seal, said secondary combustion seal being operable to
further seal said injector tip with respect to said injector bore.
15. The cylinder head assembly of claim 14, wherein said secondary
combustion seal is an o-ring seal.
16. The cylinder head assembly of claim 14, wherein said injector tip
portion defines an annular groove and wherein said secondary combustion seal is
partially disposed within said annular groove.
17. The cylinder head assembly of claim 14, wherein said injector
piloting sleeve defines an annular groove and wherein said secondary combustion seal is
partially disposed within said annular groove.

GP-309009-PTE-JEK
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18. The cylinder head assembly of claim 14, wherein said injector bore
includes a tapering portion and a generally cylindrical portion and wherein said generally
annular combustion seal and said secondary combustion seal engage said generally
cylindrical portion.
Dated this 29th day of FEBRUARY 2008

A fuel injector assembly sufficiently configured to be mountable within an
injector bore defined by a cylinder head assembly is provided. The fuel injector
assembly includes an injector body having an injector tip portion and a generally annular
combustion seal mounted with respect to the injector tip portion. A secondary
combustion seal is mounted with respect to the injector tip portion and is substantially
adjacent to the generally annular combustion seal. A cylinder head assembly
incorporating the disclosed fuel injector assembly is also provided.

Documents:

00391-kol-2008-abstract.pdf

00391-kol-2008-claims.pdf

00391-kol-2008-correspondence others.pdf

00391-kol-2008-description complete.pdf

00391-kol-2008-drawings.pdf

00391-kol-2008-form 1.pdf

00391-kol-2008-form 2.pdf

00391-kol-2008-form 3.pdf

00391-kol-2008-form 5.pdf

391-KOL-2008-(30-07-2013)-ABSTRACT.pdf

391-KOL-2008-(30-07-2013)-ANNEXURE TO FORM 3.pdf

391-KOL-2008-(30-07-2013)-CLAIMS.pdf

391-KOL-2008-(30-07-2013)-CORRESPONDENCE.pdf

391-KOL-2008-(30-07-2013)-DESCRIPTION (COMPLETE).pdf

391-KOL-2008-(30-07-2013)-DRAWINGS.pdf

391-KOL-2008-(30-07-2013)-FORM-1.pdf

391-KOL-2008-(30-07-2013)-FORM-2.pdf

391-KOL-2008-(30-07-2013)-OTHERS.pdf

391-KOL-2008-(30-07-2013)-PA.pdf

391-KOL-2008-(30-07-2013)-PETITION UNER RULE 137.pdf

391-KOL-2008-ASSIGNMENT.pdf

391-KOL-2008-CORRESPONDENCE OTHERS 1.1.pdf

391-KOL-2008-CORRESPONDENCE OTHERS 1.2.pdf

391-KOL-2008-OTHERS.pdf

391-KOL-2008-PRIORITY DOCUMENT.pdf


Patent Number 265340
Indian Patent Application Number 391/KOL/2008
PG Journal Number 08/2015
Publication Date 20-Feb-2015
Grant Date 19-Feb-2015
Date of Filing 29-Feb-2008
Name of Patentee GM GLOBAL TECHNOLOGY OPERATIONS, INC.
Applicant Address 300 GM RENAISSANCE CENTER DETROIT, MICHIGAN
Inventors:
# Inventor's Name Inventor's Address
1 JOHN M. BEARDMORE 70000 NORTH FISHER ROAD, HOWELL, MICHIGAN 48855
PCT International Classification Number F02M61/14; F02M61/00
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 11/696201 2007-04-04 U.S.A.