EP1654483A1

EP1654483A1 - Metal flat gasket

Info

Publication number: EP1654483A1
Application number: EP04762488A
Authority: EP
Inventors: Christoph Hilgert; Daniel J. Vialard
Original assignee: Federal Mogul Sealing Systems GmbH
Current assignee: Federal Mogul Sealing Systems GmbH
Priority date: 2003-08-16
Filing date: 2004-07-22
Publication date: 2006-05-10
Also published as: US20060232016A1; JP2007502943A; DE10337677A1; WO2005017395A1

Abstract

The invention relates to a metal flat gasket, especially cylinder head gasket, for an internal combustion engine. Said gasket comprises at least one functional layer (4) having at least one through-opening (2), and at least one leveling (5) and/or cover layer (8) covering the functional layer (4) at least partially. When the gasket is not yet mounted, the functional layer (4) is configured as a planar sheet metal element which is associated, at least in the area of the through-opening (2), with at least one profiled element (7, 9, 12). When the gasket (1) is mounted, said profiled element deforms the functional layer (4), thereby producing at least one elastically sealing area (15).

Description

Metallic flat gasket

description

The invention relates to a metallic flat gasket, in particular cylinder head gasket, for internal combustion engines.

In cylinder head gaskets made of steel, the sealing capacity is generally achieved by linear areas of increased pressure. Usually, functional elements such as Nollsicken, half beads, stoppers, plastic stoppers, etc. create the pressure lines. To achieve the sealing function, the functional elements require a certain projection beyond the thickness of the sealing residual surface. Furthermore, a certain resilience is required in order to be able to follow any suspensions of the sealing gap. The introduction of these beads requires a lot of tooling, which often brings long waiting times to the creation of the seal with it.

From EP-B 0 369 033 a metallic flat gasket has become known. The same includes a single base plate provided with at least one opening and having two parallel flat faces. In the area of Durchgangsoffnung sealing materials of different shapes are applied to both faces. These can be assigned through openings opening side, which have a lower axial height than that of the sealing materials. By means of these sealing materials, it is now intended to bring about a deformation of the base plate during the tensioning in the installed state between the sealing regions. Here, only a single-layered metal gasket is described, wherein ^' the applied sealing materials are rather softer than the used Metalb so that it is questionable to what extent the desired effect of the deformation of the metal layer in the region of the sealing elements actually sets itself. The invention has the object of providing a metallic gasket, in particular cylinder head gaskets for internal combustion engines, to the effect that the production cost can be reduced, at the same time in the deformation range in addition to the given elasticity and a specifiable resilience is to be given.

This object is achieved by a metallic flat gasket, in particular cylinder head gasket for internal combustion engines, consisting of at least one at least one passage opening functional position and at least one functional layer at least partially overlapping compensation and / or cover layer, the functional position in the non-installed state of the seal as a flat sheet metal part is formed, at least in the region of the passage opening at least one profile body is assigned, through which in the installed state of the seal by deformation of the functional position at least one sealing region can be generated.

Advantageous developments of the subject invention can be found in the dependent claims.

The profile body consists, according to a further idea of the invention, of an incompressible material. Here you can use metal or plastic.

By the subject invention, a multi-layer gasket, in particular cylinder head gasket produced, which in the production of the otherwise usual introduction of beads in the functional position is unnecessary, therefore, the tooling and the production time can be significantly reduced. With the subject invention, it is now possible to achieve in multi-layer metallic gaskets, in particular cylinder head gaskets, a variety of structural structures, which comes almost every practical application to good.

One or more functional layers, which are flat prior to installation, for example, provided on both sides with a leveling position. The compensation layers do not completely cover the functional layers, but only on one side of the desired pressure line. As a result of this arrangement, the functional layers are pressed by the assembly process in a bead-like shape (half bead / Nollsicke). In this case, however, the bead has a tendency to return to its original flat state, ie it shows elasticity and resilience.

This measure can be further increased by the fact that a spring steel is used for the functional position.

The leveling layers can be of different thicknesses, wherein, for example, a leveling layer can also assume the function of a stopper. In addition, a plurality of compensating layers may be arranged on one side of the functional layer, wherein an offset to the compensating layers of the other side or possibly existing further functional layers is to be maintained.

Instead of applied compensating layers also cover layers can be provided, which are provided in a suitable manner with a profile. Combinations of leveling and covering layers are also conceivable.

The subject invention is illustrated by an exemplary embodiment in the drawing and will be described as follows. Show it:

Figure 1 is a plan view of a cylinder head gasket;

Figures 2 to 10 Various structural constructions of a cylinder head gasket, taken along line A-A of Figure 1;

Figures 2a to 10a installation situation of the various structural structures of a cylinder head gasket according to Figures 2 to 10 in the compressed state between the cylinder block and cylinder head Figure 1 shows a cylinder head gasket 1, in this example including two through holes 2 and a plurality of screw through holes 3. The cylinder head gasket 1 is - as shown in the following figures - constructed multi-layered, with a variety of structures can be given.

Figures 2 to 10 show such different types of construction, the sections are respectively laid according to the line A-A of Figure 1.

FIG. 2 shows a functional layer 4, a leveling layer 5 and a metallic ring element 6 provided in the region of the passage opening 2, which is provided with a beaded stopper element 7 forming a profile body. The functional layer 4 is made of spring steel. The compensating layer 5 is provided on the surface 4 'facing away from the stopper element 7 of the functional layer 4.

Figure 2a shows the compressed state of the cylinder head gasket 1 between the cylinder block 13 and cylinder head 14 according to Figure 2. Due to the compression of the layers 4,5,6 causes the stopper 7 with the compensation layer 5 a deformation in the functional layer 4, through which an elastically acting sealing area 15 is formed in the form of a half bead.

FIG. 3 shows an alternative, namely a functional layer 4, a leveling layer 5 and a stopper element 7 made of plastic forming a profiled body on the functional layer 4. Here, too, the compensating layer 5 is arranged on the surface 4 'of the functional layer 4 facing away from the stopper element 7 ,

3a shows the compressed state of the cylinder head gasket 1 between the cylinder block 13 and the cylinder head 14 according to FIG. 3. As a result of the compression of the layers 4 and 5, the stopper element 7 with the compensating layer 5 causes a deformation in the functional layer 4, by which an elastically acting sealing region 15, also as half bead, is formed. FIG. 4 shows two functional layers 4, the annular element 6 together with the stopper element 7 and two compensating layers 5 arranged in the region outside the stopper element 7 forming a profile.

FIG. 4a shows the compressed state of the cylinder head gasket 1 between cylinder block 13 and cylinder head 14 according to FIG. 4. As a result of the compression of the two functional layers 4 and the two compensating layers 5, the stopper element 7 with the two compensating layers 5 causes a deformation in the functional layer 4, through which a elastically acting sealing region 15 is formed.

FIG. 5 likewise shows two functional layers 4, including compensating layers 5, and the stopper element 7 forming a profile body between the functional layers 4.

Figure 5a shows the compressed state of the cylinder head gasket 1 between the cylinder block 13 and cylinder head 14 according to Figure 5. Due to the compression of the two functional layers 4 and the two compensation layers 5 causes the profile body forming stopper element 7 with the two compensation layers 5 deformation in the functional layer 4, by the elastically acting sealing region 15 is formed.

FIG. 6 shows a further alternative. Provided is a functional layer 4, a leveling layer 5, a cover layer 8 and the already mentioned in Figures 2 and 4 metallic ring element 6 together with stopper element 7. In this example, the cover layer 8 functional layers on a profile body 9, the between stopper element 7 and leveling position 5 provided recess 10 is opposite.

Figure 6a shows the compressed state of the cylinder head gasket 1 between the cylinder block 13 and cylinder head 14 according to FIG 6. When pressing the functional layer 4, the leveling layer 5, the top layer 8 with profile body 9 and the ring member 6 with stopper 7, the existing spring steel functional layer 4 below Formation of a sickle-like elastic acting Sealing region 15, which is formed in this case as a bead, pressed in the direction of the ring member 6.

FIG. 7 includes a functional layer 4, a leveling layer 5, a cover layer 8 and a stopper element 7. Furthermore, a profile body 9 is introduced into the cover layer 8.

7a shows the compressed state of the cylinder head gasket 1 between cylinder block 13 and cylinder head 14 according to FIG. 7. As a result of the compression of functional layer 4, leveling layer 5 and cover layer 8, the profile body 9 introduced into the cover layer, the stopper element 7 and the leveling layer 5 cause a deformation in the functional layer 4, by which an elastically acting sealing region 15 is formed.

Figure 8 includes a functional layer 4, a leveling layer 5, a cover layer 8 and a stopper element 7. In contrast to Figure 7, the profile body 9 is here connected as a separate part with the cover layer 8.

8a shows the compressed state of the cylinder head gasket 1 between cylinder block 13 and cylinder head 14 according to FIG. 8. As a result of the compression of functional layer 4, leveling layer 5, and top layer 8, profile body 9, stopper element 7 and compensating layer 5 cause a deformation in the functional layer 4 the elastically acting sealing region 15 is formed.

Figure 9 includes a functional layer 4 and two cover layers 8. The Funlctionslage 4 is formed in the non-installed state as plan spring steel element. The lower cover layer 8 has a groove 11, while the upper cover layer 8 is provided with an integrated profile body 12 lying opposite the groove 11.

Figure 9a shows the compressed state of the cylinder head gasket 1 between the cylinder block 13 and cylinder head 14 according to FIG 9. When pressing the functional layer 4 and the two cover layers 8 is a material deformation of Functional position 4 in the region of the groove 11 and the profile body 12 instead, so that an elastic sealing region 15 is formed.

Another alternative is shown in FIG. Again, a functional layer 4 and two cover layers 8 are given. The lower cover layer 8 is provided with a plurality of recesses 11 lying one behind the other, while the upper cover layer 8 is equipped with an integrated profile body 12 lying opposite the respective recess 11.

FIG. 10a shows the compressed state of the cylinder head gasket 1 between the cylinder block 13 and the cylinder head 14 according to FIG. 10. The deformation of the functional layer 4 made of spring steel takes place analogously to FIG. 9a, so that an elastic sealing region 15 is also formed here.

LIST OF REFERENCE NUMBERS

1. Cylinder head gasket 2. Passage opening 3. Screw through hole 4. Functional position 4 'Surface 5. Compensation layer 6. Ring element 7. Stopper element 8. Cover layer 9. Profile body

10. recess

11. groove

12. Profile body

13. Cylinder block

14. Cylinder head

Claims

1. Metallic flat gasket, in particular cylinder head gasket, for internal combustion engines, consisting of at least one functional layer (4) having at least one passage opening (2) and at least one compensating (5) and / or cover layer (8) at least partially covering the functional layer (4), The functional position (4) in the non-installed state of the seal (1) is designed as a flat sheet metal part, to which at least one profile body (7, 9, 12) is assigned, at least in the area of the passage opening (2), through which the seal is installed (1) at least one elastically acting sealing area (15) can be produced by deforming the functional layer (4).

2. Flat gasket according to claim 1, characterized in that the profile body (7, 9, 12) consists of an incompressible material.

3. Flat gasket according to claim 1 or 2, characterized in that the profile body (7, 9, 12) consists of metal.

4. Flat gasket according to claim 1 or 2, characterized in that the profile body (7, 9, 12) consists of plastic.

5. Flat gasket according to one of claims 1 to 4, characterized in that the profile (7) is formed by a stopper element.

6. Flat gasket according to one of claims 1 to 5, characterized in that the stopper element (7) is formed by a separate ring element (6).

7. Flat gasket according to one of claims 1 to 6, characterized gekermzeiclxnet that the stopper element (7) is produced by flanging a ring element (6).

8. Flat gasket according to one of claims 1 to 7, characterized in that in the area of the stopper element (7) facing away from the surface (4 ') of the functional layer (4) at least one compensating layer (5) is arranged.

9. Flat gasket according to one of claims 1 to 8, characterized in that the stopper element (7) is held between two functional layers (4), wherein in the stopper element (7) facing away from the surface (4 ') of the functional layers (4) in each case at least a compensation layer (5) is arranged.

10. Flat gasket according to one of claims 1 to 9, characterized in that the profile (9, 12) on the functional layer side is introduced in at least one compensating (5) and / or cover layer (8), the gasket (1) being in the installed state. a corresponding elastic sealing area (15) can be produced in the functional layer (4) by deformation of the functional layer (4).

11. Flat gasket according to one of claims 1 to 10, characterized in that the profile (9, 12) has such a contour that in the respective functional position (4) at least one half-bead-shaped area can be generated.

12. Flat gasket according to one of claims 1 to 11, characterized in that the profile (9, 12) has such a contour that in the respective functional position (4) at least one full bead-like area can be generated.

13. Flat gasket according to one of claims 1 to 12, characterized in that in mutually opposite compensation (5) and / or cover layers (8) in each case at least one elevation forming a profile (9, 12) and in each case at least one recess associated therewith ( 10, 11) are provided, the interposed, initially planar functional layer (4) in the installed state being deformable in at least this area to form an elastic sealing area (15).

14. Flat gasket according to one of claims 1 to 13, characterized in that the respective functional layer (4) in the plane of the stopper element (7) has at least one compensating layer (5).

15. Flat gasket according to one of claims 1 to 14, characterized in that the functional layer (4) consists of a spring steel.