Coating processes – Solid particles or fibers applied – Localized different areas produced
Reexamination Certificate
1997-06-23
2001-01-30
Parker, Fred J. (Department: 1762)
Coating processes
Solid particles or fibers applied
Localized different areas produced
C427S199000, C427S357000, C427S383700
Reexamination Certificate
active
06180167
ABSTRACT:
CROSS REFERENCE TO RELATED APPLICATION
This application claims the priority of German Application No. 196 25 491.4 filed Jun. 26, 1996, which is incorporated herein by reference.
BACKGROUND OF THE INVENTION
This invention relates to a single or multiple-plate flat metal sealing gasket, particularly a cylinder head gasket or a sealing gasket for a flange of an exhaust pipe in internal-combustion engines. The sealing gasket has at least one beaded spring steel plate as a sealing layer as well as overlays of pressure-resistant material provided on at least one of the metal plates for obtaining a high sealing pressure in the region of the gasket apertures.
It is known to make cylinder head gaskets for internal-combustion engines using a single-layer sheet metal or multi-layer sheet metal laminates. For increasing the sealing effect particularly around the gasket apertures which surround the combustion chambers, but also around gasket apertures which surround the liquid passages for the lubricant and coolant as well as apertures for the passage of bolts, it is known to provide the metal plates with embossed beads which surround the gasket apertures. In gaskets formed of sheet metal laminates either all or only some of the metal plates (laminae) may be provided with beads. For obtaining an improved elastic deformation resistance of the beads, at least one of the sheet metal plates is formed of a spring steel while for the other sheet metal plates other types of steel or metal alloys may be used which, if required, may have different mechanical properties.
European Patent No. 0 486 817 discloses a cylinder head gasket formed of a beaded sealing plate having an annular metal compensating disk which is situated on the upper face of the sealing plate and is welded thereto. The beads of the sealing plate are made of spring steel to ensure that they have a substantial elastic resistance to deformation.
When the overlays are welded to the sealing plates according to the prior art, risks are high that the elastic properties of the beads are adversely affected by temperatures prevailing during welding.
SUMMARY OF THE INVENTION
It is an object of the invention to provide an improved flat sealing gasket of the above-outlined type in which the sealing behavior is optimized while, at the same time, the manufacturing costs are lowered.
This object and others to become apparent as the specification progresses, are accomplished by the invention, according to which, briefly stated, the flat metal sealing gasket is made as follows: on an unhardened spring steel plate having an aperture and a bead surrounding the aperture, a sinterable powder is deposited along the bead in a desired shape and thickness. Thereafter a sufficiently high temperature is applied to the deposited sinterable powder to effect sintering or melting of the powder to provide a pressure-resistant overlay on the plate and to simultaneously effect a hardening of the plate.
The material for the spring steel plates is a heat-treatable steel, such as a high grade steel. It may be, for example, a class 1.4021 spring steel. Initially, the sealing plate is in a soft condition, obtainable by cold rolling. The sinterable material which is preferably applied to the sealing plate by a screen printing process and which may be, for example, a powder composition of copper, silicon and manganese, may be deposited on the sealing plate in any desired thickness or configuration. The temperatures required for the sintering or fusion (melting) process are used to simultaneously temper (harden) the soft spring steel plate. Thus, a conventional, separate process step for hardening the sealing plate may be dispensed with. Subsequent to the hardening, the plate may be submitted to annealing. It is also feasible to provide the bead in the plate by an embossing step subsequent to the sintering or melting step.
While the sinter overlays are mostly applied in an annular configuration about gasket apertures which surround the combustion chambers to augment the sealing pressure in those locations, it is feasible to apply the sinter overlays to other regions of the metal plate. Dependent upon the mode of application, the pressure-resistant overlays are combined with beads or elastomer overlays and synthetic resin overlays on the metal plate. In case of multi-plate metal seals the pressure-resistant overlays may be applied to one or more metal plates.
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patent: 5205566 (1993-04-01), Ueta et al.
patent: 5302462 (1994-04-01), Shah et al.
patent: 5354578 (1994-10-01), Beyer et al.
patent: 5420191 (1995-05-01), Howard, Jr. et al.
patent: 5593726 (1997-01-01), Nicholls et al.
patent: 42 39 944 (1994-06-01), None
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patent: 0 757 195 (1997-02-01), None
Heike Matthias
Heilig Markus
Lonne Klaus
Majewski Klaus-Peter
Schmitt Klaus
Goetze Payen GmbH
Kelemen Gabor J.
Parker Fred J.
Venable
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