Head gasket with a check valve

Information

  • Patent Grant
  • 6305420
  • Patent Number
    6,305,420
  • Date Filed
    Monday, November 29, 1999
    25 years ago
  • Date Issued
    Tuesday, October 23, 2001
    23 years ago
Abstract
A head gasket which acts, when clamped between a head and a cylinder block of an internal combustion engine, to form a seal around at least one lubricant or hydraulic fluid passage which extends between the head and the block. The gasket also comprises a non-return valve which extends across said passage and allows flow of liquid in said passage towards the head but prevents flow of liquid in said passage towards the block.
Description




This invention is concerned with gaskets, in particular head gaskets of internal combustion engines.




Head gaskets act, when clamped between the head and the block of an engine, to form seals around the cylinders of the engine and also around lubricant and coolant passages which extend between the head and the block. Conventionally, head gaskets perform no more than a sealing function but it has been proposed (see U.S. Pat. No. 5,022,662) that such a gasket should incorporate a thermostatically-operated valve mounted in one of the coolant passages to control flow of coolant in dependence on local temperature conditions.




Internal combustion engines often suffer from poor lubrication in the period immediately after the engine has been started. This is due to the lubricant draining to the sump while the engine is stopped and the time delay before lubricant is pumped by the operation of the engine into the upper parts of the engine. The lack of lubricant on starting of the engine can lead to metal-to-metal contact with consequential damage. A related problem can arise in engines which utilize hydraulic tappets in that the oil drains out of the line which feeds the tappet during a period when the engine is stopped. This leads to the tappets being deficient in oil on start-up so that, for a few seconds, the tappets are unable to maintain a small enough clearance with the cam etc. This results in a short period of unacceptable noise, known as “tappet rattle”.




It is an object of the present invention to provide a gasket which enables the lubrication of an internal combustion engine to be improved in the period immediately after the engine has been started, and/or, where hydraulic tappets are used, enables the problem of tappet rattle to be prevented or reduced.




The invention provides a head gasket which acts, when clamped between a head and a cylinder block of an internal combustion engine, to form a seal around at least one lubricant or hydraulic fluid passage which extends between the head and the block, characterized in that the gasket also comprises a non-return valve which extends across said passage and allows flow of liquid in said passage towards the head but prevents flow of liquid in said passage towards the block.




In a gasket according to the invention, the non-return valve can act to prevent lubricant from draining out of the head through said passage or can act to prevent hydraulic fluid from draining away from a hydraulic tappet. Accordingly, liquid lubricant or hydraulic fluid is retained on top of the valve while the engine is stopped so that it is available in the head as soon as the engine is started. Clearly, a gasket according to the invention may have a plurality of non-return valves in a plurality of passages to thereby make more liquid available on starting of the engine.




In a gasket according to the invention, the non-return valve make take any suitable form. For example, in one form which is preferred for its simplicity, the valve comprises a nozzle formed from resilient material, the nozzle being designed to be closed by fluid pressure acting towards the block but to be opened by fluid pressure acting towards the head. Conveniently, the nozzle is formed integrally with sealing means of the gasket, ie either with a sheet of resilient material, eg silicone rubber, extending across the area of the gasket, or with a gasket bead, eg of silicone rubber, adhered to a core sheet of the gasket and extending around a closed path around the passage.




In another preferred form of a gasket according to the invention, the non-return valve is a ball or a movable disc valve. Such a valve, conveniently, comprises a cage which is formed integrally with sealing means of the gasket, ie with a resilient sheet or bead as referred to in the last preceding paragraph. The cage retains the ball or disc but allows it to move between sealing and open positions.




It is also possible for the non-return valve to comprise a resilient disc mounted on top of a sheet of the gasket and covering a hole therethrough, the disc being deformable by fluid pressure to allow passage of liquid.




There now follow detailed descriptions, to be read with reference to the accompanying drawings, of three gaskets which are illustrative of the invention.











In the drawings;





FIG. 1

is a diagrammatic enlarged cross-sectional view of the first illustrative gasket;





FIG. 2

is a diagrammatic perspective view, on a smaller scale than

FIG. 1

of a non-return valve of the first illustrative gasket;





FIG. 3

is a view similar to

FIG. 1

but of the second illustrative gasket;





FIG. 4

is a partial plan view of a non-return valve of the second illustrative gasket;





FIG. 5

is a perspective view of a non-return valve of the third illustrative gasket;





FIG. 6

is a side view of the valve shown in

FIG. 5

; and





FIG. 7

is a plan view of the valve shown in FIGS.


5


and


6


.











The first illustrative gasket


10


is a head gasket which acts, when clamped between a head


12


and a cylinder block


14


of an internal combustion engine, to form a seal around a lubricant passage


16


which extends between the head


12


and the block


14


. The passage


16


is generally cylindrical but has an enlarged portion


16




a


opening into the lower surface of the head


12


.




The gasket


10


comprises a sheet metal core


18


and two beads


20


and


22


of resilient material, specifically silicone rubber. The bead


20


is adhered to the upper surface of the core


16


so that it is between the core


18


and the head


12


and acts as sealing means therebetween. The bead


22


is adhered to the lower surface of the core


18


so that it is between the core


18


and the block


14


and acts as sealing means therebetween. The core


18


has a hole


23


therethrough which corresponds the passage


16


, the hole


23


being smaller in diameter than the portion


16




a


of the passage


16


but greater in diameter than the remainder of the passage


16


. The beads


20


and


22


extend along closed paths around the hole


23


so that they can form seals around the passage


16


.




The gasket


10


also comprises a non-return valve


24


which extends across said lubricant passage


16


and allows flow of lubricant in said passage towards the head


12


but prevents flow of lubricant in said passage towards the block


14


. The non-return valve


24


is formed as a nozzle formed from resilient material, specifically the nozzle is formed from silicone rubber integrally with the beads


20


and


22


. The nozzle


24


(see also

FIG. 2

) has a hollow cylindrical base at the level of the core


18


and extends upwardly within the enlarged portion


16




a


of the passage


16


. The nozzle


24


has an elongated slit-like opening


26


at its upper end which is defined between opposite side walls of the nozzle which slope inwardly to engage one another below the opening


26


and then project upwardly to the opening


26


in contact with one another. Thus, the valve


24


is designed to be closed by its inherent resilience and by fluid pressure acting towards the block


14


, since the pressure acting on top of the nozzle presses the sides of the opening


26


together. Also, the valve


24


is designed to be opened, against its inherent resilience, by fluid pressure acting towards the head


12


, since the pressure within the nozzle forces the sides of the opening


26


apart.




When the engine of which the head


12


and the block


14


form part is stopped, lubricant in the head


12


cannot drain down the passage


16


past the valve


24


but, instead, is retained in the head


12


resting on the valve


24


.




In modifications of the first illustrative gasket, the non-return valve


24


may have a different shape to that shown in

FIGS. 1 and 2

. For example, in order to increase the flow area of the valve, the slit in the valve may be cross-shaped or have a wave-like form.




The second illustrative gasket


30


is shown in FIG.


3


. The gasket


30


is similar to the gasket


10


except in the form of its non-return valve so that like reference numerals are used herein for like parts of the gaskets


10


and


30


. The gasket


30


is used between a head


12


and a block


14


and seals around a lubricant passage


16


which has an enlarged portion


16




a


in the head


12


.




The gasket


30


comprises a core


18


and beads


20


and


22


. The gasket


30


also comprises a non-return valve


32


which extends across said lubricant passage


16


and allows flow of lubricant in said passage towards the head


12


but prevents flow of lubricant in said passage towards the block


14


. The valve


32


is in the form of a ball valve comprising a cage


34


and a ball


36


retained in the cage


34


. The cage


34


is contained in the enlarged portion


16




a


of the passage


16


and is formed from silicone rubber integrally with the beads


20


and


22


. At its lower end, the cage


34


defines a frusto-conical seat


38


against which the ball


36


can seal (this position of the ball


36


being shown in solid line in FIG.


3


). Above the seat


38


, the cage


34


extends upwardly as a hollow cylinder enclosing the ball


36


. At its upper end, the cage


34


has four inwards projections


39


(see also

FIG. 4

) which act to retain the ball


36


in the cage


34


and to prevent the ball


36


from sealing the passage


16


at the step at the upper end of the enlarged portion


16




a


. The projections


39


have gaps between them which cannot be sealed by the ball


36


.




Thus, the valve


32


is designed to be closed by fluid pressure acting towards the block


14


, since the pressure acting on top of the ball


36


presses it against the seat


36


, but to be opened by fluid pressure acting towards the head


12


, since the pressure moves the ball


36


upwardly into engagement with the projections


39


(this position of the ball


36


being shown in broken line in FIG.


4


).




When the engine of which the head


12


and the block


14


form part is stopped, lubricant in the head


12


cannot drain down the passage


16


past the valve


32


but, instead, is retained in the head


12


resting on the ball


36


.





FIGS. 5

to


7


illustrate a non-return valve


40


of a third illustrative gasket which comprises a core sheet


42


and resilient sealing beads


44


and


46


(only shown in FIG.


6


). The sheet


42


has a circular hole


48


therein which corresponds to a lubricant passage passing from a block to a head.




The non-return valve


40


comprises a circular resilient disc


50


made of silicone rubber. The disc


50


has a lower flat surface


52


which is positioned on the upper surface of the core sheet


42


and covers the hole


48


. Around its periphery, the disc


50


is reduced in thickness to form a flange


56


having its lower surface flush with the lower surface


52


of the disc


50


. The flange


56


has a greater outer diameter than the diameter of the hole


48


in the sheet


42


and a smaller inner diameter than the diameter of the hole


48


. The disc


50


is mounted on the upper surface


54


of the sheet


42


concentrically of the hole


48


so that the flange


56


of the disc


50


overlaps the edge of the hole


48


, ie the disc extends across the lubricant passage. The disc


50


is mounted by means of a metal strip


58


which extends diametrically across the top of the disc


50


and is adhered thereto. The strip


58


has end portions which are cranked downwardly to the level of the upper surface


54


of the sheet


42


and are secured thereto.




In the operation of the valve


40


, when fluid pressure is directed downwardly from the head to the block, the flange


56


is pressed into sealing engagement with the edge of the hole


48


, ie the valve


40


prevents flow of liquid in the passage towards the block. On the other hand, when fluid pressure is directed upwardly from the block to the head, the pressure deforms the flange


56


, bending it upwardly out of engagement with the edge of the hole


48


and allowing passage of liquid upwardly past the disc


50


, ie the valve


40


allows flow of liquid in said passage towards the head.



Claims
  • 1. A head gasket which acts, when clamped between a head and a cylinder block of an internal combustion engine, to form a seal around at least one lubricant or hydraulic fluid passage which extends between the head and the block, wherein the gasket also comprises a non-return valve which is arranged so that, when the gasket is clamped as aforesaid, the valve extends across said passage and allows flow of liquid in said passage towards the head but prevents flow of liquid in said passage towards the block.
  • 2. A gasket according to claim 1, wherein the valve comprises a nozzle formed from resilient material, the nozzle being designed to be closed by fluid pressure acting towards the block but to be opened by fluid pressure acting towards the head.
  • 3. A gasket according to claim 2, wherein the nozzle is formed integrally with sealing means of the gasket which is arranged to form said seal.
  • 4. A gasket according to claim 1, wherein the non-return valve is a ball or a movable disc valve.
  • 5. A gasket according to claim 4, wherein the valve comprises a cage which is formed integrally with sealing means of the gasket which is arranged to form said seal.
  • 6. A gasket according to claim 1, wherein the non-return valve comprises a resilient disc mounted on top of a sheet of the gasket and covering a hole therethrough, the disc being deformable by fluid pressure to allow passage of liquid.
Priority Claims (1)
Number Date Country Kind
9715291 Jul 1997 GB
PCT Information
Filing Document Filing Date Country Kind 102e Date 371c Date
PCT/GB98/02030 WO 00 11/29/1999 11/29/1999
Publishing Document Publishing Date Country Kind
WO99/05398 2/4/1999 WO A
US Referenced Citations (6)
Number Name Date Kind
3118468 Bochan Jan 1964
3509907 Gannaway May 1970
3648729 Balkany Mar 1972
4776776 Jones Oct 1988
4944265 Davey Jul 1990
5022662 Yasui Jun 1991
Foreign Referenced Citations (1)
Number Date Country
0 503 635 Sep 1992 EP
Non-Patent Literature Citations (1)
Entry
Patent Abstracts of Japan, vol. 017, No. 144 (M-1386), Mar. 23, 1993 & JP 04 318212A (Honda Motor Co. Ltd), Nov. 9, 1992 (see abstract; figure).