FR2848279A1 - Exhaust pipe gasket made from stamped metal has edge that acts as gas deflector and hooks for attaching to one flange - Google Patents

Abstract

The gasket (10) has an aperture (14) surrounded by two opposite thrust surfaces (15), and an outer edge (16) with a first section (18) inclined at an angle to the gasket's surface and a second section (20) bent in the opposite direction to form a deflector for any escaping gas. The second section of the edge is extended to form three tongues (22, 24, 26) with hook-shaped ends (28) to engage with one of the flanges.

Description

Gasket for exhaust gas pipes

  The present invention relates to a seal for exhaust gas conduits which is adapted to be mounted between two opposite tubular ends of two conduits.

  In general, the seals have two opposite bearing surfaces which are compressed towards one another by the contact faces of the two tubular ends. The latter are not very deformable relative to the joint and the force-driving of the two ends towards one another tends 1o to deform it and it thus follows the shape of the space defined by two opposite contact faces.

  Maintaining the two ends by force against one another makes it possible, in this way, to maintain the deformed joint in this space and to ensure sealing between the conduits.

  Although the tightness is normally preserved as long as this force retention persists and the internal pressure of the conduits does not exceed a determined threshold, it is not however excluded that a seal may deteriorate with wear and that a leak appears between the two ends.

  Leakage of exhaust gases, which are generally at high temperature, is likely to ignite or at least burn nearby fuel parts, for example plastic parts.

  In order to prevent this eventuality, it has been imagined to have protective screens between the connected ends of the exhaust gas conduits and said combustible parts.

  A problem which arises and which the present invention aims to solve is then to provide seals which make it possible to eliminate the relatively expensive protective screens and whose arrangement around the connected ends of the exhaust gas conduits must be studied. and determined before mounting, taking into account the different angles of gas jets possible in the event of the seal breaking.

  To this end, the present invention provides a seal for the exhaust gas conduits, adapted to be mounted between two tubular ends opposite two conduits, said seal having two opposite bearing surfaces against which said ends tubular support respectively and said seal comprising a peripheral portion which extends away from the bearing surfaces in the periphery of said joint substantially perpendicular to the mean plane defined by said bearing surfaces, said peripheral portion intersecting said mean plane . Thus, a characteristic of the invention resides in the shape of the seal, the peripheral part of which which extends away from the bearing surfaces has a surface which intersects said mean plane. The deterioration of the seal generally causing a jet of gas in a 1o direction included in said mean plane, said peripheral part forms a deflector which brakes the gas and directs it substantially parallel to the conduits. In this way, the fragile parts located in the vicinity of the connected tubular ends are preserved.

  In addition, according to a particularly advantageous embodiment of the invention, said peripheral part comprises connecting lugs intended to be connected to one or the other of said tubular ends in order to secure said joint and said tubular end.

  Thus, while the prior systems making it possible to obtain a captive seal held against one end of one of the conduits 20 are complex and expensive, the connecting lugs which extend said peripheral part of said seal form means allowing to simply and economically secure the seal at the end of one of the conduits.

  Preferably, the connecting lugs have free curved ends forming hooks, adapted to bear against a support zone of said tubular end.

  In this way, without the need for any particular fixing means, before mounting, the seal can be connected to the end of one of the conduits which has a generally support zone 30 formed by a shoulder located upstream of said end and on which the curved free ends are engaged. Thanks to this characteristic, the adjustment of the seal can be done easily, before the assembly of the two conduits.

  In a particularly advantageous embodiment of the invention, according to a radial section of said seal, said peripheral part has a first inclined portion projecting from one of said bearing surfaces, said first portion being extended by a second curved portion which extends in a direction opposite to said first portion by cutting said mean plane.

  Thus, thanks to this characteristic, said peripheral part of said seal is perfectly integral with the entire seal and it is adapted to be made in one piece with said seal.

  Advantageously, the seal is made in one piece by stamping a metal plate. In this way, a 1o seal is obtained provided with its peripheral part forming a deflector, at a very advantageous cost. Other particularities and advantages of the invention will emerge on reading the description given below of a particular embodiment of the invention, given by way of indication but not limitation, with reference to the 15 attached drawings in which: - Figure 1 is a schematic perspective view showing a seal according to one embodiment; and, - Figure 2 is a schematic sectional view illustrating the seal shown in Figure 1 after mounting.

  Figure 1 illustrates a seal 10 according to the invention, having a substantially planar and triangular central portion 12 which is pierced with a circular orifice 14. The central portion 12 has two bearing surfaces, one 15 appearing in Figure 1, the other, opposite, located behind the plane of the Figure and which does not appear. As will be explained in more detail in the following description, the central part 12 is intended to be interposed between two bearing faces to create a seal between said two bearing faces.

  The seal 10 has a peripheral part 16 which extends around the periphery of the central part 12. This peripheral part 30 16 has a first portion 18 inclined relative to the plane defined by said central part 12 and bent towards the surface support opposite to the support surface 15 which appears in FIG. 1. The peripheral part 16 entirely borders the central part 12.

  In addition, the peripheral portion 16 has a second skirt portion 20 35 which extends from the edge of the first portion 18, in an opposite direction, substantially perpendicular to said plane defined by the central portion 12 and which intersects said plane for protrude from it.

  The second portion 20 of the peripheral portion 16 also extends entirely around said central portion 12, in the extension of the first portion 18.

  In addition, the peripheral part 16 has three connecting lugs 22, 24, 26, one in each side of the seal which is substantially triangular in shape.

  These connecting tabs extend in the extension of the free edge 10 of the second portion 20 of the peripheral part 16 substantially perpendicular to said plane defined by the central part 12 and terminate in free ends 28 curved towards the bearing surface 15 which appears on Figure 1 by overhanging it.

  The seal 10 shown in Figure 1 is advantageously made in one piece by stamping in a single step a precut metal plate. In a second step, the free ends 28 are capable of being bent, possibly manually. The metallic materials suitable for constituting the seal 20 10 are metal alloys of great elasticity. Steels are preferably used, for example of the spring steel type.

  Reference will be made to FIG. 2 to describe the mode of positioning of the seal 10 and its functional characteristics.

  This FIG. 2 shows the seal 10 seen in section and 25 interposed between two tubular ends 30, 32 of two exhaust gas conduits, respectively 34, 36. Obviously, the circular orifice 14 of the seal d sealing 10 coincides with the respective openings of the two conduits.

  In addition, the plane defined by the central part 12 of the gasket 30 10 is substantially coincident with the gasket plane A-A.

  Also found in this Figure 2, the peripheral portion 16 with its first portion 18 which is inclined relative to the joint plane A A and its second portion 20 which extends it perpendicularly to the joint plane A-A and which passes through it.

  Although in FIG. 2 in section, this configuration appears only at the two ends of the seal 10, it is understood that it is identical in the entire periphery of the tubular ends 30, 32.

  Thus, it clearly appears that a jet of exhaust gas d to 5 leaking and oriented between one of the tubular ends 32 and the first portion 18 of the peripheral part 16 would be deflected by the first portion 18 in a direction understood between this first portion 18 and the external surface of the tubular end 32.

  Furthermore, a gas jet which would occur between the other tubular end 30 and the first portion 18, would be deflected by the second portion 20, which extends the first portion 18, between the free end of the second portion 20 and the outer surface of the tubular end 30.

  In this way, it is understood that the larger the angle of the first portion 18 with the joint plane A-A, the more the jet of exhaust gas is likely to be directed substantially towards the external surface of the duct 36.

  Furthermore, the more the free end of the second portion 20 extends beyond the joint plane A-A, the more the jet of exhaust gas is likely to be directed towards the duct 34.

  Consequently, the direct environment of the two tubular ends 30, 32 is preserved from any leakage of exhaust gas, the jet of which it causes is generally substantially parallel to the joint plane A-A.

  Also found in this Figure 2 two connecting tabs 22 and 24, the third, located in front of the cutting plane, does not appear in the Figure. 25 The free ends 28 being curved and pressing against a shoulder 38 of one of the tubular ends 30, the seal 10 is perfectly integral with this tubular end 34.

  It is understood that when the seal is compressed between the tubular ends 30, 32, as is the case in Figure 2, the connecting tabs 22 no longer play any role.

  On the other hand, before the assembly of the two tubular ends 30, 32, the seal 10 is adapted to be adjusted on one of the tubular ends 30 and to be joined thereto by means of the connecting lugs 22. It is indeed easier to manually align the circular opening 14 of the seal 10 with the lumen of the tubular end 30 when the other tubular end 32 does not mask it. In addition, the tubular end 30, provided with the seal 10 can be driven in movement without leaving its position relative to it.

  Obviously, the metallic material from which the seal 10 is made is flexible enough that the fixing lugs 22, 24, 26 can be moved apart manually and then tightened so that the free ends 28 come to bear against the shoulder 38.

Claims (5)

  1. Gasket for the exhaust gas conduits, suitable for being mounted between the two tubular ends (30, 32) opposite two conduits, said gasket (10) having two bearing surfaces opposite against which said tubular ends (30, 32) bear respectively, characterized in that it comprises a peripheral part (16) which extends away from the bearing surfaces (15) in the periphery of said joint (10) substantially perpendicular to the mean plane 10 defined by said bearing surfaces (15), said peripheral part (16) intersecting said mean plane.   2. A seal according to claim 1, characterized in that said peripheral portion (16) comprises connecting lugs (22, 24, 26) intended to be connected to one or the other of said tubular ends 15 ( 30, 32) to secure said seal (10) and said tubular end (30, 32). 3. Seal according to claim 2, characterized in that the connecting lugs (22, 24, 26) have free ends (28) curved forming hooks, adapted to bear against a support area (38 ) of said tubular end (30).   4. Seal according to claim 1 or 2, characterized in that, in a radial section, said peripheral portion (16) has a first portion (18) inclined projecting from one of said bearing surfaces, said first portion (18) being extended by a second curved portion (20) which extends in a direction opposite to said first portion (18) by cutting said mean plane.   5. A seal according to any one of claims 1 to 4, characterized in that it is made in one piece by stamping a metal plate.