CN107250628A - Multilayer static gasket, its include the wall and its construction method of barrier zones - Google Patents

Abstract

This application provides a kind of multilayer static gasket, the construction method for the wall for including barrier zones of the pad, and the pad.The pad includes at least one metal function layer, and the wall comprising barrier zones.The functional layer has the seal bead around at least one passage to be sealed.The wall has the thickness extended between generally flat opposite flank, and each of the opposite flank of wall is respectively provided with the multiple projections stretched out from it and extends inward into multiple depressions therein sideways, and its protrusions and depression form barrier zones.Each depression extends into single projection, so as to form the downside of associated protrusion.The distance of the opposite flank for extending into wall that is recessed is equal to or more than the 1/2 of space layer.

Description

Multilayer static gasket, its include the wall and its construction method of barrier zones

The cross reference of related application

The US provisional patent Shen for the Serial No. 62/094,706 that patent application claims are submitted on December 19th, 2014 Please, and the priority of the U.S. patent Nos application of Serial No. 14/975,263 submitted on December 18th, 2015, it is described Application is integrally incorporated herein by reference herein.

Background technology

1. technical field

The invention mainly relates to in the static state by airtight/liquid-tight seal is set up between be clamped together two components Pad, more specifically to the multilayer static gasket comprising the functional layer with seal bead and single wall.

2. correlation technique

In such as cylinder head and engine cylinder-body, or exhaust manifold and cylinder head by be clamped together two components it Between when setting up airtight/liquid-tight seal, usually using the static gasket with multilayer.Generally, at least one layer of multi-layer gasket is (sometimes It is referred to as functional layer) there is seal bead, to set up airtight/liquid-tight seal.Sometimes referred to as wall or barrier layer is another One layer is configured to abut functional layer, to prevent the seal bead of functional layer from flattening completely.If will be clamped together in fastening Component while, seal bead is overly compressed and flattened substantially, except seal bead lose its apply high compression sealing pressure Outside the ability of power, such as during clamping or during use, fatigue crack can be formed in the region of seal bead.Fatigue Crackle eventually reduces static gasket and sets up airtight and/or liquid-tight seal ability, so as to potentially reduce the use of engine Life-span and performance.Therefore, it is critically important that wall, which performs its expectation function, while being also economical in the mill.

The content of the invention

The invention provides a kind of multilayer static gasket, for gas will to be provided between be clamped together two components Close/liquid-tight seal.Pad includes at least one metal function layer, and the metal function layer has at least one functional layer opening. Each functional layer opening is configured around passage to be sealed.At least one described functional layer is included from least one described work( Ergosphere opening is radially outward and generally surround the seal bead of at least one functional layer opening.The pad also includes having The metal spacing layer of the thickness extended between generally flat opposite flank.Wall, which has, extends through opposite flank extremely A few wall opening, each wall opening is configured to and single One function layer opening and passage pair to be sealed It is accurate.Each side in the opposite flank of wall has from its stretch out multiple raised and extended inward into therein many Individual depression, its protrusions and depression form the barrier zones of the wall.Each depression on opposite sides is extended into It is individually raised, so as to form the downside of associated protrusion.The depression extends into distance of opposite flank of wall etc. In or more than space layer 1/2 so that it is described be recessed extend to barrier zones opposite flank distance be equal to or More than the 1/2 of the thickness of barrier zones.

According to another aspect of the present invention, each raised annular having around the corresponding one depression extension Wall, the wall thickness of the annular wall is less than the thickness of the metal spacing layer, while enough intensity is kept, to prevent functional layer Seal bead flattens completely.

According to another aspect of the present invention, the wall thickness of the raised annular wall can be less than in generally flat opposite flank Between extend the 1/2 of the final thickness of the wall.

According to another aspect of the present invention, the wall thickness of the raised annular wall can be generally flat opposite flank it Between extend about the 1/3 of the final thickness of the wall.

According to another aspect of the present invention, the wall thickness of the raised annular wall can be equal to or more than the wall Thickness.

According to another aspect of the present invention, each raised annular wall can be corresponding one from the opposite flank Side is extended with tilt relationship, to further enhance the compression strength of projection.

According to another aspect of the present invention, different raised at least some annular walls can relative to each other at different angles Tilt, so that when being clamped between component to be sealed, adjustment is distributed across the smooth load of pad.

According to another aspect of the present invention, at least some projections can have different height relative to each other, and extremely Some few depressions can have different depth relative to each other, so as to adjusted when being clamped between component to be sealed across The more smooth load distribution of pad.

According to another aspect of the present invention, at least some annular walls can have different rigidity or pressure resistance relative to each other Degree, so that adjustment is distributed across the smooth load of pad when being clamped between component to be sealed.

There is provided a kind of wall for multilayer static gasket according to another aspect of the present invention.Wall has The metal level of the thickness extended between generally flat opposite flank, and extend through at least one wall of opposite flank Opening, wherein each wall opening is configured to and channel alignment to be sealed.Each side in the opposite flank has There are the multiple projections extended out from and extend inward into the institute on each side in multiple depressions therein, opposite flank Multiple depressions are stated described raised directly relative with relative side, so as to form its downside.Wherein described depression extension Distance into the opposite flank is equal to or more than the 1/2 of the thickness.

Built according to another aspect of the present invention there is provided a kind of for will built between be clamped together two components The method for founding the multiple layer metal static gasket of airtight/liquid-tight seal.This method includes forming the metal with least one opening Functional layer, at least one opening is configured around passage to be sealed, and the metal function layer has from described Opening is radially outward and generally surround the seal bead of the opening.This method also includes providing having in generally flat phase To the metal spacing layer of the original thickness extended between side, and formed and opened by least one wall of opposite flank Mouthful, each wall opening is configured to be aligned with single functional layer opening.In addition, methods described includes a pair of moulds of compression Between multiple depressions for extending into each side in the opposite flank of wall and formation and by the opposite side Each multiple projections stretched out sideways in face, wherein the distance that the depression extends into opposite flank is equal to or more than The 1/2 of wall original thickness.

According to another aspect of the present invention, methods described, which is additionally included in, causes the material of metal spacing layer cold in compression process Stream and synchro-draw.

According to another aspect of the present invention, methods described includes convexing to form each as with recessed around corresponding one Fall into the annular wall of extension, and the material including the stretching annular wall with the thickness that makes it have from the thickness of metal spacing layer Reduce, and this method also include by the thickness of the wall be reduced to the metal spacing layer thickness about 1/2 to 1/3 it Between.

According to another aspect of the present invention, methods described can include being formed as the raised wall thickness relative to metal The original thickness of wall is essentially identical or increases.

According to another aspect of the present invention, methods described can include being formed as each annular wall relative to metal interval The opposite flank of layer is tilted.

According to another aspect of the present invention, methods described can include being formed as at least some annular walls relative to substantially Flat opposite flank has inclination angle different from each other, to adjust the smooth load applied in use across pad point Cloth.

According to another aspect of the present invention, methods described can include convexing to form at least some as relative to substantially flat Smooth opposite flank has height different from each other, and at least some concave shapes are turned into the opposite flank relative to substantially flat With depth different from each other, it is distributed with adjusting the smooth load applied in use across pad.

According to another aspect of the present invention, methods described can include being formed as at least some annular walls relative to each other With different rigidity, it is distributed with adjusting the smooth load applied in use across pad.

Brief description of the drawings

Currently preferred embodiment and the detailed description of optimal mode, appended claims and accompanying drawing are considered below when combining When, these and other aspects, the feature and advantage of multi-layer gasket constructed according to the invention will be better understood, wherein：

Fig. 1 is the local top view disconnected of the multilayer static gasket constructed according to an aspect of the present invention；

Fig. 2 is the side cross-sectional view substantially along the multilayer static gaskets intercepted of the line 2-2 in Fig. 1；

Fig. 2A is the part side cross-sectional of the wall of the multilayer static gasket constructed according to another aspect of the present invention Figure；

Fig. 2 B are the part side cross-sectionals of the wall of the multilayer static gasket constructed according to another aspect of the present invention Figure；

Fig. 2 C are the part side cross-sectionals of the wall of the multilayer static gasket constructed according to another aspect of the invention Figure；

Fig. 3 is the part of the barrier zones of the wall of the multilayer static gasket substantially along the line 3-3 interceptions in Fig. 2 Section plan；

Fig. 4 is the partial plan of the barrier zones of the wall constructed according to one embodiment of present invention；

Fig. 5 is the sectional perspective view substantially along the line 5-5 interceptions in Fig. 4；

Fig. 6 is the sectional perspective view substantially along the line 6-6 interceptions in Fig. 4；

Fig. 7-9 is the fragmentary perspective view of the barrier zones of the wall of different embodiment according to the subject invention construction；And

Figure 10 is that the part of the barrier zones of the wall just formed according to another aspect of the present invention by a pair of moulds is regarded Figure.

Embodiment

Referring more particularly to accompanying drawing, Fig. 1 and Fig. 2 show the multilayer static gasket constructed according to an aspect of the present invention 10, hereinafter referred to as pad.Unrestricted as example, pad 10 is particularly useful as cylinder head gasket or exhaust manifold gasket.Pad Piece 10 has at least one functional layer (here shown as a pair of functional layers 12 and 14), and the wall with barrier zones 17 16.Functional layer 12,14 is arranged adjacent to the opposite flank 18,20 of wall 16, so that wall 16 is clipped in the He of functional layer 12 Between 14.Functional layer 12,14 each has opening 22, and opening 22 is sized to stop at least in part with wall 16 Opening 24 in region 17 is aligned, wherein opening 22 and 24 is each arranged to aligned with each other and has phase to be sealed accordingly Answer passage 25 (such as cylinder-bore or exhaust outlet).Functional layer 12,14 each has compression seal convex tendon, and (such as full compression sealing is convex Muscle 26), for example stretch out preset distance from the plane 28 of the general parallel orientation of layer 12,14, in order to set up surround it is sealed The fluid of passage/gas-tight seal.The barrier zones 17 of wall 16 have to stretch out from each in opposite flank 18,20 Multiple raised 30 and extend inward into multiple depressions 32 of opposite flank 18,20.Corresponding projection 30 and depression 32 are straight each other Connect relative so that each depression 32 on a side 18,20 for wall 16 is extended on the relative side of wall 16 Respective protrusions 30 in.There is " being thusly-formed " projection 30 the opposing parallel plane 33 from opposite flank 18,20 to stretch out Height, it is slightly less than the height of " being thusly-formed " seal bead 26, and its protrusions 30 has rigidity, and the rigidity prevents close Convex tendon 26 is sealed at two by (such as cylinder head/engine cylinder-body, or exhaust manifold/engine between the component being clamped together Cylinder body) flatten completely when setting up airtight/liquid-tight seal.Thereby it is ensured that seal bead 26 is kept to the constant of wall 16 High sealing pressure, so as to provide around by airtight/liquid-tight seal of sealed passage 25, further, since be not overly compressed and Flatten, seal bead 26 will not form too early fatigue crack.

For example, functional layer 12,14 is configured to by elastic metallic (such as spring steel), and can have such as about 0.1 to 0.3mm or bigger thickness.Functional layer 12,14 as shown in Figure 2 is configured to mirror image profile relative to each other, each With seal bead as described above, the hermetically sealed convex tendon 26 adjacent with opening 22 is shown as.Full convex tendon 26 is shown as having There is the peak 34 of circumferentially extending relative to each other, for liquid-tight/gas-tight seal adjoining of relative flattened side with barrier layer 16.When When being compressed between the component being clamped together, rigidity and presence due to the adjacent protrusion 30 of wall 16, full convex tendon 26 Only it is partially compressed.Therefore, full convex tendon 26 maintains fexible bias pressure airtight/liquid-tight close to be formed to keep it to set up high sealing pressure The ability of envelope.

Wall 16 can be formed by the metal material construction of relative stiffness, the cold-reduced sheet of such as steel or stainless steel.For The metal of construction wall 16 has the substantially uniform thickness extended between relative, general parallel orientation flattened side 18 and 20 Spend (t).During constructing, metallic plate is compressed between a pair of moulds 36 and 38 (Figure 10), wherein each mould 36,38 has Space 42 between the projection 40 and projection 40 of predetermined shape.Projection 40 ultimately forms depression 32, and space 42 ultimately form it is convex Play 30.Mould 36,38 is constructed relative to each other so that the space that the projection 40 on a mould 36 is extended on opposing mold 38 In 42, vice versa, therefore, and the projection 40 on a mould 36 is intermeshed with the projection 40 on opposing mold 38, with accurate The final height (T) of ground control barrier zones 17.Therefore, the platform (P) of the projection 40 on a mould 36 is extended beyond relatively The platform (P) of projection 40 on mould 38, while deforming the metallic plate of wall 16.Therefore, during projection 30 is formed, The metal material of interlayer 16 causes some materials to shift completely by cold forming and stretching, wherein cold forming, and stretches and cause Material extends under tension force and shearing force.In the space 42 that mould 36,38 is contained in due to the projection 40 of mould 36,38 so that The platform (P) of the projection 40 of relative orientation is at least coplanar each other, and preferably extends over and surmount each other, and depression 32 is formed so that it Extend to wall 16 sheet metal opposite flank 18,20 distance be equal to or more than the sheet metal original thickness (t) 1/2, and can be formed as extending to about the 75% of thickness (t) is reached in opposite flank 18,20.Therefore, formed The base portion (B) of depression 32 in one side 18 of interlayer 16 is with forming the depression 32 in the opposite flank 20 of wall 16 Base portion (B) or the coplanar mode of lower surface extend, or extend beyond and to form recessed in the opposite flank 20 of wall 16 Fall into 32 base portion (B) or lower surface, therefore the depth that extend to of depression 32 for barrier zones 17 final height (T) at least 1/2 or more than 1/2.This is in figs. 2 and 3, it is apparent that wherein Fig. 3 shows the thickness (t) substantially along wall 16 Central plane interception cross section, it result in the pattern of the waffle pie of the cross section both sides again, wherein depression 32 portion Dividing still presentation, (shadow region represents the bottom of the depression 32 on a side of barrier zones 17, and non-hatched area is represented The through hole formed on the opposite flank of barrier zones 17 by depression 32.It should be understood that the presence of the through hole is due to relative recessed Caused by sunken base portion B is because of transversal be cut off).As best shown in figure 2, because depression 32 is extended in relative projection 30, It should be realized that depression 32 forms the downside of corresponding projection 30 relatively.

Each projection 30 is formed as with the annular wall 44 around corresponding one extension of depression 32.Annular wall 44 has wall Thick (t1 shown in Fig. 2), it is formed as being equal to, more than or less than the thickness (t) of metal barrier 16.These options be by In caused by forming process, and forming process is engaged with each other and caused because of projection 40.Therefore, when by mould 36 and 38 When compressing completely toward each other, by controlling the mutual relative spacing of mold tabs 40, wall can be accurately controlled as needed 44 thickness (t1).Therefore, in one embodiment, if it is desired, wall thickness (t1) can be reduced relative to original thickness (t), And it is possible if desired to stretched or it is thinning for thickness (t) about 1/3 or more than 1/3.Show some not in Fig. 7 to 9 With embodiment, wherein Fig. 7 shows the depression 44 on the relative side of wall 16, its have each other in coplanar relation or The base portion B of general coplanar relation, and with the angle (C) being closely adjacent to each other；Fig. 8 shows recessed on the relative side of wall 16 32 are fallen into, it, which has, extends beyond mutual base portion B and with the angle C being closely adjacent to each other；Fig. 9 is shown in the relative of wall 16 Depression 32 on side, it has the base portion B each other in coplanar relation or general coplanar relation, and with by between The angle C that the material of projection 30 is spaced apart from each other, so that enhanced rigidity is formed, and therefore providing makes the height of projection 30 minimum The ability of change, as shown in the figure.

In addition to making the ability thinning relative to space layer (t) of annular wall 44, wall 44 can be tilted with angle [alpha], So that wall 44 is extended from corresponding relative side 18,20 with tilt relationship.Therefore, wall 44 is usually cone or pyramid Shape, extends to truncation platform or generally flat peak 46.In addition, in order to adapt to the different clamping loads across pad 10, and And in order to adjust the smooth load being applied in seal bead 26 distribution, at least some annular walls 44 may be formed to have each other not Same compression stiffness.In order to provide the wall 44 of the compression stiffness relative to each other with change, the same side in side 18,20 At least some walls 44 on face can be tilted with different angle [alpha]s relative to each other, unrestricted as example, such as institute in Fig. 2A Show, wherein angle [alpha] 1, α 2 and α 3 are gradually reduced with close to passage 25 so that α 1>α2>α3.In order to further adjust leap The smooth load distribution of seal bead 26, at least some raised 30 it is so structured that have from the relative of opposite flank 18,20 The different height that parallel plane 33 stretches out, it is unrestricted as example, as shown in Figure 2 B, wherein with close to passage 25 Highly it is gradually reduced.In addition, unrestricted as example, as shown in FIG. 2 C, at least some wall thickness can be in side 18,20 Same side on change each other, such as shown in thickness t1, t2 and t3, thickness reduces towards passage 25 so that t1>t2>t3.This Outside, if it is desired, peak 46 can be further handled in secondary operation, also referred to as tap, set up using flat drift again The profile and height at peak 46.Therefore, by the height of density, projection 30 and depression 32 that projection 30 and depression 32 is varied and controlled With depth and the angle [alpha] of wall 44, can subtly control interval layer 16 barrier zones 17.Shown in Fig. 6 cross section Another feature of raised 30 intensity of raising.As can be seen that the configuration at inclined wall 44 and peak 46, so as to provide along adjacent peak A plurality of continuous material 48.

Therefore, it is readily apparent that in view of to presently preferred real for the those skilled in the art in static gasket field The foregoing description of example and its alternative solution is applied, many modifications and variations of the present invention are possible.Of course, it should be recognized that This is contemplated that the barrier zones as discussed above independently formed, wherein the barrier zones independently formed in itself can be with one Or multiple functional layers are applied in combination, or it can be associated with single wall, for example, be fixed thereon or be arranged in it On.It will thus be appreciated that within the scope of the appended claims, the mode that the present invention can be differently configured from specific descriptions is implemented.

Claims (26)

1. a kind of multiple layer metal static gasket, for will set up airtight/liquid-tight seal between the component being clamped together, it is special Levy and be, the multiple layer metal static gasket includes：

There is metal function layer, the metal function layer at least one functional layer for being configured about respective channel to be sealed to open Mouthful, and with from least one described functional layer opening radially outward and generally surround at least one described functional layer opening Seal bead, the plane of the seal bead from the metal function layer extends the first predetermined distance；With

Metal spacing layer, the metal spacing layer has the thickness extended between generally flat opposite flank, and has At least one is configured to each in the wall opening being aligned with least one described functional layer opening, the opposite flank Side has the multiple projections extended out from, and extends inward into multiple depressions therein, the opposite flank The multiple depression on each side is described raised directly relative with relative side, wherein the depression is extended into The distance for entering the opposite flank is equal to or more than the 1/2 of the thickness.

2. multiple layer metal static gasket according to claim 1, it is characterised in that each described raised with around corresponding A depression extension annular wall, the wall thickness of the annular wall is less than the thickness of the metal spacing layer.

3. multiple layer metal static gasket according to claim 2, it is characterised in that the wall thickness is less than the metal interval The 1/2 of the thickness of layer.

4. multiple layer metal static gasket according to claim 3, it is characterised in that the wall thickness is about between the metal The 1/3 of the thickness of interlayer.

5. multiple layer metal static gasket according to claim 1, it is characterised in that each described raised with around corresponding A depression extension annular wall, the wall thickness of each annular wall is equal to or more than the thickness of the metal spacing layer Degree.

6. multiple layer metal static gasket according to claim 2, it is characterised in that each annular wall is from described relative A corresponding side in side is extended with tilt relationship.

7. multiple layer metal static gasket according to claim 2, it is characterised in that same in the opposite flank At least some annular walls on side have different compression stiffness relative to each other.

8. multiple layer metal static gasket according to claim 2, it is characterised in that same in the opposite flank It is at least some described raised with height different from each other on side.

9. multiple layer metal static gasket according to claim 2, it is characterised in that same in the opposite flank At least some depressions on side have depth different from each other.

10. multiple layer metal static gasket according to claim 2, it is characterised in that same in the opposite flank At least some walls on individual side have inclination angle different from each other relative to a side in the side.

11. multiple layer metal static gasket according to claim 2, it is characterised in that same in the opposite flank At least some walls on individual side have wall thickness different from each other.

12. a kind of wall for multilayer static gasket, it is characterised in that the wall includes：

Metal level, the metal level has the thickness extended between generally flat opposite flank, and with least one Each being configured in the wall opening with channel alignment to be sealed, the opposite flank has from it to extension sideways Stretch multiple raised and extend inward into the multiple on each side in multiple depressions therein, the opposite flank It is recessed described raised directly relative with relative side, wherein the depression extends into distance of the opposite flank etc. In or more than the thickness 1/2.

13. wall according to claim 12, it is characterised in that each described raised with around a corresponding institute The annular wall of depression extension is stated, each annular wall is prolonged from the corresponding side in the opposite flank with tilt relationship Stretch.

14. wall according to claim 12, it is characterised in that each described raised with around a corresponding institute The annular wall of depression extension is stated, wherein at least some annular walls on the same side in the opposite flank are relative In each other with different compression stiffness.

15. wall according to claim 12, it is characterised in that on the same side in the opposite flank It is at least some described raised with height different from each other.

16. wall according to claim 12, it is characterised in that on the same side in the opposite flank At least some depressions have depth different from each other.

17. wall according to claim 12, it is characterised in that each described raised with around a corresponding institute The annular wall of depression extension is stated, wherein at least some walls on the same side in the opposite flank are relative to institute Stating in side side has inclination angle different from each other.

18. wall according to claim 12, it is characterised in that each described raised with around a corresponding institute The annular wall of depression extension is stated, wherein at least some walls on the same side in the opposite flank have each other Different wall thickness.

19. a kind of build for quiet in the multiple layer metal for airtight/liquid-tight seal being set up between be clamped together two components The method of state pad, it is characterised in that methods described includes：

Metal function layer is formed, the metal function layer has at least one opening, and the opening is configured about to be sealed Passage, and the metal function layer is with from the opening radially outward and generally surround the seal bead of the opening；

Metal spacing layer with the thickness extended between opposite flank is provided；

At least one wall opening through the opposite flank is formed, each wall opening is configured to and single function Layer opening alignment；And

The wall and formation being compressed between a pair of moulds extend into many in each side in the opposite flank Individual depression and the multiple projections stretched out by each side in the opposite flank, wherein the depression extends into institute The distance for stating opposite flank is equal to or more than the 1/2 of the space layer.

20. method according to claim 19, it is characterised in that methods described causes institute during being additionally included in compression process State cold flow and the stretching of metal barrier.

21. method according to claim 19, it is characterised in that methods described also include by it is each it is described convex to form for With the annular wall around the corresponding one depression extension, and the material of the annular wall is stretched so that the annular wall The thickness having reduces from the thickness of metal spacing layer.

22. method according to claim 21, it is characterised in that methods described also includes the thickness of the wall being reduced to Between about the 1/2 to 1/3 of the thickness of the metal spacing layer.

23. method according to claim 19, it is characterised in that methods described also include by it is each it is described convex to form for With the annular wall around the corresponding one depression extension, and each annular wall is set to incline relative to the opposite flank Tiltedly.

24. method according to claim 23, it is characterised in that methods described also includes forming at least some with each other The annular wall at different angles of inclination.

25. method according to claim 19, it is characterised in that methods described is also included at least some convex shapeds As with height different from each other, and at least some concave shapes are turned into there is depth different from each other.

26. method according to claim 19, it is characterised in that methods described also include by it is each it is described convex to form for With the annular wall around the corresponding one depression extension, and at least some annular walls are formed as relative to each other to have There are different rigidity.