Information
-
Patent Grant
-
6540233
-
Patent Number
6,540,233
-
Date Filed
Friday, April 20, 200123 years ago
-
Date Issued
Tuesday, April 1, 200321 years ago
-
Inventors
-
Original Assignees
-
Examiners
- Knight; Anthony
- Kyle; Michael J.
Agents
- Rader, Fishman & Grauer, PLLC
-
CPC
-
US Classifications
Field of Search
US
- 277 591
- 277 594
- 277 595
- 277 597
- 277 598
-
International Classifications
-
Abstract
An improved exhaust manifold gasket for sealing between cylinder head port and flanged exhaust manifold of an internal combustion engine. The gasket includes an integral heat insulating sleeve for reducing thermal stresses on cylinder head port and gasket body, and is comprised of first and second metal layers fixedly secured together along a unitary plane. An aperture through the gasket provides for passage of high-temperature exhaust gases, wherein the first and second layers define at least one full sealing bead disposed about the circumference of the aperture. The second layer includes a plurality of circumferentially disposed leg portions symmetrically disposed about the exhaust aperture. The leg portions are adapted to receive the attached sleeve, which is positioned orthogonally to the unitary plane and adapted to extend into the exhaust port. The sleeve forms an insulating air gap between its exterior circumference and the interior circumference of the exhaust port.
Description
BACKGROUND OF THE INVENTION
1. Field of Invention
The present invention relates to improved bolted-on automotive exhaust manifold gasket assemblies for internal combustion engines, and more particularly to such gaskets having improved heat insulating characteristics as compared to commonly known prior art exhaust manifold gaskets.
2. Description of the Prior Art
Those skilled in the art will appreciate the difficulty of maintaining a high quality seal between the cylinder head exhaust port of an internal combustion engine and the exhaust manifold normally secured thereto via flange. Typically, an exhaust manifold gasket interfaces with, i.e. is affixed between, the cylinder head exhaust port of the engine and the engine exhaust manifold, indeed one of the hottest areas of an exterior engine environment. As a result of widely varying thermal cycles and significant vibration, an exhaust gasket is subject to rapid deterioration if its design is inferior.
One means of enhancing longevity of such gaskets in recent years has been to bracket together the exhaust manifold gasket with an insulating sleeve installed into the cylinder head exhaust port for reducing thermal stresses on both the cylinder head port and the exhaust gasket body. The associated structure, however, has been formed in several pieces, and is thus relatively cumbersome to install on the assembly line, in addition to being costly as result of the necessity of manufacturing extra parts. A consolidation of parts would be an attractive solution to resolve the issue.
SUMMARY OF THE INVENTION
The present invention is an improved exhaust manifold gasket for sealing between a cylinder head exhaust port and a flanged exhaust manifold of an internal combustion engine. In a preferred form, the exhaust manifold gasket of this invention contains an integral heat-insulating sleeve for reducing thermal stresses on cylinder head port and gasket body. The gasket is comprised of first and second metal layers fixedly secured together along a unitary plane. The gasket includes one medially positioned aperture for the passage of high-temperature exhaust gases, wherein the first and second layers define at least one full sealing bead disposed about the circumference of the aperture. Bolthole apertures are spaced radially outwardly of the exhaust gas aperture, and the second layer includes a plurality of circumferentially disposed leg portions symmetrically disposed about the exhaust aperture. The leg portions are positioned orthogonally to the unitary plane, and adapted to receive the attached sleeve designed to extend into the exhaust port. The sleeve is laterally positioned so as to form an air gap between its exterior circumference and the interior circumference of the exhaust port.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1
is a plan view of one preferred embodiment of an exhaust manifold gasket that incorporates an insulating heat sleeve of the present invention.
FIG. 2
is a cross-sectional view of a fragmentary portion of the same embodiment of the exhaust manifold gasket, along lines
2
—
2
of FIG.
1
.
FIG. 3
is a view of the same preferred embodiment of the exhaust manifold gasket in its intended engine environment, interposed between a cylinder head exhaust port and an exhaust manifold flange, bolted into place as shown.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring initially to
FIGS. 1 and 3
, a preferred embodiment of an exhaust manifold gasket
10
has an aperture
12
in a medial portion of the gasket for passage of engine exhaust gases. The gasket
10
includes a pair of bolt apertures
14
and
16
at spaced apart edges thereof for securement of the gasket
10
between an exhaust port
36
of an internal combustion engine
40
and an exhaust manifold flange
44
of an exhaust manifold
42
attached to the port
36
.
Referring now to
FIG. 2
, the gasket
10
includes an upper sealing bead
18
in an upper metal layer
22
. The bead
18
is symmetrically aligned with and overlies a lower mating sealing bead
20
in a lower metal layer
26
. The layers
22
and
26
are fixedly secured together e.g. via spot welds
50
(
FIG. 1
) along a unitary plane
28
. Depending downwardly from the planar metal layer
26
is a plurality of circumferentially spaced orthogonal leg portions
24
, positioned symmetrically with respect to the aperture
12
. The portions
24
collectively define a circumferential retainer adapted to secure a cylindrical sleeve
30
, which provides the gasket
10
with an integrally attached insulating heat sleeve. In the described preferred embodiment, the outside diameter
32
of the sleeve
30
is spot welded at locations
34
to the orthogonal legs
24
. In one embodiment eight legs
24
are circumferentially spaced about the sleeve
32
and retain the sleeve to the described lower metal layer
26
.
Referring now particularly to
FIG. 3
, a port
36
of an internal combustion engine
40
is shown in particular detail to demonstrate a preferred installation of the exhaust manifold gasket
10
. Thus, an exhaust manifold
42
incorporates a flange
44
which mates with the port
36
via bolts (not shown) that extend through bolt centerlines
46
and
48
respectively. Those skilled in the art will appreciate that the bolts extend through bolt apertures
14
and
16
of the gasket
10
, respectively, and that the positioning of the bolts will assure a symmetrical positioning of the sleeve
30
within the port aperature
36
. In the example shown, the sleeve
30
is approximately 2.4 inches long and has an outside diameter of approximately 1⅞ in. Each of the legs
24
is approximately five millimeters or 0.2 inch wide. Also in the preferred embodiment, the sleeve is sized relative to the port
36
so as to define an insulating circumferential air gap
52
between the outside diameter of the sleeve
32
(
FIG. 2
) and the interior diameter of the port
36
of approximately 60 thousands of an inch.
With respect to other design parameters, the diameter of the aperture
12
will be controlled by the internal diameter
31
of the sleeve
30
. Thus in the described embodiment, a radially inwardly extending flange portion
23
of the upper metal layer
22
, situated at the boundary of the aperture
12
, conveniently overlies the top
33
of the sleeve to provide an insertion limit of the sleeve
30
during assembly. Obviously, the sleeve
30
must be inserted between the retainer leg portions
24
prior to the spot welding thereof to the legs
24
as described. It will thus be apparent that the aperture
12
and the sleeve
30
will each necessarily be smaller in overall diameter than the diameter of the port
36
.
It will be appreciated by those skilled in the art that sealing beads
18
and
20
are full beads as are used in metallic gaskets, and depending on the application only one circumferential bead may be necessary for a particular gasket design and installation and yet be within the scope of this invention.
Finally, the preferred metal to be used for both of the gasket metal layers
22
and
26
, as well as for the sleeve
30
, is stainless steel. This is because of the high temperature ranges to which the manifold exhaust system is normally subjected. Otherwise, the gasket
10
will have a short useful life due to the corrosive effects of oxidation. A preferred choice of a robust material for the intended environment is SAE 301 stainless steel for both layers and sleeve.
It is to be understood that the above description is intended to be illustrative and not limiting. Many embodiments will be apparent to those skilled in the art upon reading the above description. The scope of the invention should be determined, however, not with reference to the above description, but with reference to the appended claims with full scope of equivalents to which such claims are entitled.
Claims
- 1. An exhaust manifold gasket adapted for interposition between a cylinder head exhaust port defined by an interior wall and an exhaust manifold; said gasket comprising first and second metal layers fixedly secured together in a plane and having one medially positioned aperture therethrough, said first and second layers defining at least one full sealing bead about said aperture, said second layer including a plurality of circumferentially depending leg portions symmetrical with said aperture and orthogonal to said plane, wherein said gasket further comprises a cylindrical sleeve portion circumferentially attached to said leg portions, said sleeve extending orthogonally with respect to the said plane and parallel to said leg portions such that said leg portions are positioned between said sleeve and the wall of said exhaust port, said sleeve comprising a heat insulating medium adapted to extend into said cylinder head exhaust port, said sleeve being sized to define a circumferential air gap clearance between said cylindrical head exhaust port and said sleeve.
- 2. The exhaust manifold gasket of claim 1 further comprising said first and second metal layers secured together via welding, and wherein said aperture diameter is less than a diameter of said cylinder head exhaust port.
- 3. The exhaust manifold gasket of claim 1 wherein said gasket is adapted for being bolted into place between the cylinder head exhaust port and a flange of the exhaust manifold, wherein said first and second metal layers are welded via spot welding, and wherein said sleeve is attached to said leg portions via spot welding.
- 4. The exhaust manifold gasket of claim 3 wherein said plurality of circumferentially depending leg portions of said second metal layer define an internal diameter substantially equal to the external diameter of said sleeve, and wherein said sleeve is integrally fixed to said depending leg portions via welding.
- 5. The exhaust manifold gasket of claim 4 wherein said aperture and sleeve are adapted for symmetrical alignment with said cylinder head exhaust port.
- 6. The exhaust manifold gasket of claim 5 wherein said sleeve is adapted to extend into said external circumference of said cylinder head exhaust port, wherein said spacing is established via said bolted attachment.
- 7. The exhaust manifold gasket of claim 6 wherein said first metal layer defines an opening adapted to align with said internal diameter of said sleeve and is co-terminous therewith, wherein said diameter of said sleeve is smaller than said cylinder head exhaust port diameter.
- 8. The exhaust manifold gasket of claim 7 wherein said first layer comprises a radially inwardly extending flange portion that engages the top surface of said sleeve.
- 9. The exhaust manifold gasket of claim 8 wherein each of said metal layers comprises a sealing bead, the beads mated together symmetrically in said gasket.
- 10. The exhaust manifold gasket of claim 9 wherein said first and second metal layers comprise stainless steel.
- 11. The exhaust manifold gasket of claim 10 wherein said leg portions are attached to the outside diameter of said sleeve by spot welding.
- 12. The exhaust manifold gasket of claim 10 wherein said sleeve comprises a stainless-steel material.
US Referenced Citations (14)
Foreign Referenced Citations (3)
Number |
Date |
Country |
2001-50043 |
Feb 2001 |
JP |
2001-235033 |
Aug 2001 |
JP |
2001-289325 |
Oct 2001 |
JP |