• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to an annular seal intended to ensure a tight connection between a first and a second pipe after crimping, comprising an axis of revolution, a section parallel to said axis is a curve formed of a succession of an odd number of segments. of circle Ci connected by vertices Si forming a regular polygon, i varying from 1 to 2 * n + 1, n being a positive integer greater than or equal to 1, the vertex Si being the center of the circle passing through the vertices Si + n and Si + n + i modulo 2 * n + 1. Such a curve is said to be of constant width. The vertices Si advantageously form a polygon.
    公开号:FR3042250A1
    申请号:FR1559667
    申请日:2015-10-12
    公开日:2017-04-14
    发明作者:Ludovic Duval-Arnould
    申请人:Joint Francais SNC;
    IPC主号:
    专利说明:

    The invention relates to a seal, in particular a seal for providing sealing after two pipes, for example drinking water pipes.
    The. The water supply circuit of a building usually consists of connected pipes: between them · by means of press fittings fitted with. Rubber seals A squeezing fitting is a coupling having a groove in which · s. There is a seal, installed to form a network, and then deformed by pressing, using a pliers adapted to perform one. crimping and make the fitting unmountable before pressurizing water. Such an assembly therefore consists of inserting a pipe either around the fitting or inside the fitting. In the first case, the groove is turned towards the outside of the coupling and the seal is mounted in the. throat, on its inside diameter on the fitting. In the second case. the groove is turned towards the inside of the fitting and the seal is mounted on its outer diameter in the fitting. The network may be made of metal pipes such as copper, PE crosslinked or not, monolayer or multilayer, optionally with metal layer ...
    In all cases, the tightness of the connection is essential. Indeed, a multi-storey building can contain hundreds or even thousands of connections and water damage can be very penalizing for the building site or the building in service, these connections are often placed in the walls or partitions and therefore inaccessible .
    Now it can happen that the insertion of the pipe rotates the seal on itself, or even makes it out of the groove. The state of the art proposes means for stabilizing the seal in the groove, for example a seal whose axial section, which is then non-circular, has a portion of greater radius of curvature, or even rectilinear, this section being intended to take place in the back of the throat. In this way, the seal is "stabilized" at the bottom of the groove.
    A disadvantage of this solution is that if the seal is still rotating in the groove, it may have either a larger section and make the assembly harder or a smaller section and compromise the seal. The invention aims to solve this problem. For this purpose, it proposes an annular seal designed to ensure a tight connection between a first and a second pipe after crimping, comprising an axis of revolution, a section parallel to said axis is a curve formed of a succession of an odd number. of segments of circle Cj connected by vertices Sj forming a regular polygon, i varying from 1 to 2 * n + 1, n being a positive integer greater than or equal to 1, the vertex Si being the center of the circle passing through the vertices If + n and Si + n + 1 modulo 2% + l.
    The vertex is the angular point that connects two segments of a circle. Indeed, at this point, there is a discontinuity of slope. Each vertex Sj is the center of the circle segment Q passing through the two vertices furthest from this vertex. There is an odd number of vertices S; and segments Q. By modulo 2 * n + l we mean that if the number obtained, for example n + 1, is greater than 2 * n + 1, we remove 2 * n + 1 to obtain a result between 1 and 2 * 11 + 1. For example if n = 2 and i = 4, n + i - 6 or 1 modulo 5.
    The curve that forms this section is by construction a constant section curve, or curve of constant width. Compared to a circular section of the same diameter, it is formed of segment of circle of greater radius of curvature than the circle,
    Such a seal is advantageously but not necessarily of circular section transverse to the axis, it may for example have an oval cross section.
    Such a seal therefore has two advantages:
    Being of constant section, it does not risk causing the aforementioned problems if it rolls to the insertion of a pipe in the connection, - It has segments of great radius of curvature which stabilize it at the bottom of throat.
    Advantageously, the regular polygon may be a pentagon.
    The curve obtained in the case η = 1 is the triangle of Reuleaux. In the application to a joint however, we prefer the case n = 2, the vertices S; then being spread over a regular pentagon.
    Advantageously, the seal may comprise a plane of symmetry.
    In this case, the number of vertices being odd, a vertex S, is necessarily in this plane of symmetry. Therefore, the joint, the surface of which has an "inner" portion facing the axis of revolution and an "outer" portion opposite the axis of revolution, may have two embodiments: the "inner" portion comprises the vertex found in the plane of symmetry; in this case, the segment of circle opposite this vertex is on the outer portion of the seal and this seal is suitable for use; in which the. The channel is inserted in the interior of the joint, the "outer" portion has the vertex in the plane of symmetry; in this case, the segment of circle opposite this vertex is on the inner portion of the seal, and this seal is suitable for use in which the pipe is inserted outside the seal.
    Advantageously, the seal may comprise on its surface a bead which extends radially and formed portions, said portions being separated by discontinuities forming leakage channels before crimping.
    Most fittings are designed to be tight when assembled, that is, before crimping. However the seal obtained without crimping is not perfect nor durable. Means have therefore been developed: to detect the defects of crimping.
    There are solutions to make a connection that is not leaking. crimped, allowing a test action: before commissioning to discover any unsecured fittings (Leak Before Press or LBP systems). : or puts the network under air pressure and a drop in pressure, indicates the. presence of one or more fittings not. crimped.,. If the installation allows it, the circuit can also be pressurized with water and look for a fu.ite.se declares.
    These solutions are visual (the fitting has a plastic ring which is destroyed by the crimping action); either by virtue of a particular geometry of the connection (the connection comprises grooves in the groove, which are crushed during crimping), or rest on one. particular geometry of the joint.
    For example, seals are used which have a local reduction in the section of the O-ring or of special shape (oval, lip-shaped, triangle-shaped, etc.), rendering the seal unsealed until the seal is not crimped, for lack of crushing of said section and therefore of contact The reduction of the section is sometimes surrounded by bulges or blisters to accentuate the effect of loss of contact. A disadvantage of this solution by local reduction of the section lies in the fact that once the crimped connection, the tightness is achieved in places of reductions by a reduced section, it is therefore much less robust and durable.
    Another solution is to create a local increase in the joint section. In this case, this extra thickness creates the leak on its sides before pressing.
    In the proposed solution, the seal comprises a bead which extends radially from its surface, the radial direction being counted from the center O of the curve that forms the section of the seal, that is to say the center of the circumscribed circle. This bead is intended to separate the seal surface from that of the first or the second pipe and to create leaks as the seal is not crimped. As this bead has · segments · separated by discontinuities, they create channels, leak, well individualized before. assembly crimping. The bead segments occupy a substantial part of the circumference on which it is located.
    Such a joint with bead can have two embodiments: the bead can extend from a circle segment, for example the cutting circle segment, the plane of symmetry and therefore intended to be placed in the bottom of throat - the bead may extend from a vertex. Advantageously, the bead may extend in the plane of symmetry, the seal.
    Advantageously, the height of the bead relative to the surface of the joint is less than 20% of the radius of the circle circumscribed in the section of the joint, preferably less than 10% of the radius of the circumscribed circle.
    Advantageously, the bead may comprise from 2 to 10 portions.
    Embodiments and variants will be described hereinafter, by way of non-limiting examples, with reference to the accompanying drawings in which:
    Figure 1 illustrates a curve with constant section (or constant width).
    FIGS. 2A and 2B show joints whose section is a constant section curve resting on a regular pentagon,
    Figure 3 illustrates a seal in place in a crimp fitting groove,
    FIG. 4 represents the variation of compression force as a function of the displacement of a tool for two annular seals, a seal with a circular section and a seal according to the invention,
    Figure 5 shows the seal of Figure 2A further comprising an interrupted bead.
    The closed curve 10 of FIG. 1 is constructed based on the vertices Sj to S5 of a regular pentagon, so we are in the case n = 2. Between the vertices extend segments in a circular arc Cj at C5, radius R. Each vertex S; is the center of the circle segment Q furthest from the vertex Sj on this curve, between the vertices Si + n and Si + n + j. For example, the segment Cj opposite the vertex Sj extends between the vertices S3 and S4. A curve of constant width is called a closed plane curve whose width, measured by the distance between two opposite parallel lines which are tangential to it, is 1a. even regardless of the orientation of these lines. As illustrated in Figure 1, in the; In the case of parallel lines D1, D1 or D2, D2, Tune will always pass through a vertex Sj and the other tangent to the opposite circle segment Cj. The distance between two such lines will always be equal to R, whatever their orientation.
    The pentagon is inscribed in a circle C of center O and radius, r (partially drawn). We see that the radius R of the segments Cj is much larger than the radius r of the circumscribed circle.
    FIGS. 2A and 2B illustrate joints 100, 200 having an axis of revolution X-X 'and whose section parallel to this axis is a curve similar to that of FIG. 1.
    The joints illustrated in FIGS. 2A and 2B comprise a plane of symmetry P.
    As illustrated, in FIG. 2A, one. can define an inner portion SI of. the surface of the gasket 1.00, facing the X-X 'axis, here comprising the C2 and C3 segments, and an outer portion SE of the surface. .S of the opposite F gasket. Tax X-X ', here including the. The vertex S5 is in the plane of symmetry P of the seal 100 'and on the inner portion .SI of the seal 100. Inversely, the segment C $ intersects. plane of symmetry · .and is located on the outer portion SE of the seal C5 is intended to fit into a crimp connection groove, therefore the seal 100 is adapted for insertion from the inside. of the seal.
    In the seal 200 illustrated in FIG. 2B, on the other hand, the vertex S5 is this time situated on the outer portion SE of the surface S of the gasket which comprises the segments C2 and C3, the inner portion SI of the surface S of the gasket comprising the C1 segments; C4 and C5. As previously, the C5 segment is intended to take place in a crimp connection groove but this time is on the inner portion SI of the seal. As a result, the seal 200 is adapted for insertion through the outside of the seal.
    Like 1! has been seen in, the frame of Figure 1, the segments Q 011t. a curvature ray R greater than that of a circular section seal .circuit.written.to the polygon, so that such a seal 100, 200 is more stable than a seal · of circular section when a segmentC ; is in the back of the throat.
    Figure 3 illustrates this situation: the seal 100 is in a groove 300 of crimping seal, the segmentCs being at the bottom of the groove and stabilizing the seal. The examination of FIG. 1 shows, moreover, that at identical width, as defined in connection with FIG. such seal 100, 200 has less material than a circular seal.
    Thereafter we will call a pentagonal joint such a joint.
    Finite element calculations have. were performed to compare the behavior of two joints composed of the same material (Shore hardness: 65 ShA), a seal: circular section and a pentagonal joint, of the same width as defined in relation to Figure 1. The joints are placed in a groove of substantially square or rectangular cross-section; a wall of this groove forming tool is movable and compresses the seal radially. Peffort is measured according to the movement of the tool.
    FIG. 4 is a graph comprising curves of variation of the force in Newton as a function of the displacement of the tool in mm for such joints, curve 50 for the pentagonal seal and curve 60 for the seal of circular section. that the pentagonal seal is more resistant to containment than the circular section seal: - For example, the line segment 70 shows that at a displacement of the tool of 0.55 mm corresponds a force of about 1000 N for the seal with circular section and only about 500 N for the pentagonal joint; - The line segment 80 shows that a force of 1400 N provides a displacement of about 0.57 mm for the seal circular section and 0.7 mm for the pentagonal seal.
    The pentagonal seal has a better containment resistance, defined as the stress applied by the walls of the groove in the axial direction for the seal. The casing can be produced by an unfavorable set of tolerances. The pentagonal seal offers a better tolerance. This is a significant advantage by providing the seal with: circular section. Indeed, crimping the joints are mechanically stressed and if this stress is too strong, there is a risk of total or partial rupture and therefore risk of leakage,
    FIG. 5 illustrates a cross-section of another embodiment of joint 100. In this embodiment, the seal has on its surface S a discontinuous bead formed of segments. They are separated by channels 121. As shown in FIG. 5, the bead is on the inner portion S1 of the surface S of the gasket 100 and in the plane P of symmetry of the gasket 100. height h above the top Sj of the pentagonal joint. It could of course extend from the outer portion SE of the surface S of the joint and / or from a circle segment Ci (not shown),
    The cross-section of the bead illustrated in FIG. 5 has a lunate shape, that is to say that it is delimited by a circle of radius much smaller than the radius R of the circle segments C. The height h of the lunula must be sufficient so that leaks occur in the 1.21 channels before crimping, but not -excessive so that the bead segments fade well by elasticity after creasing. In the case. illustrated, ie, ratio of height h. of the lunula and the diameter (this diameter being equal to 2 * r) of the circle inscribed at the section of the joint is equal to 0.1 / 1 = 1.0%. More generally, it has been established that. I ratio h / 2 * r .est is: preferably between 1: 0% and 20% (to .faciliter · understanding, the lunula, of: Figure 5 is magnified). For example, in absolute value, for joints of section (or diameter) ranging from 1.50 mm. 5 mm, the height h of the. bead can, go from 0.10 mm to 0.30 mm. The invention is not limited by the foregoing description. It relates in particular to: - Other forms of curve of constant width, for example based on a triangle (n - 1) or a heptagon (n = 3), - Asymmetrical joints, that is to say not having no symmetry, - beads which do not extend in the plane of symmetry of the joint but for example in a plane parallel to the plane of symmetry, or which form a helix around the joint, - other forms. the lunula, for example a basket handle, a combination of curves and straight segments, as long as the bead is not continuous.
    权利要求:
    Claims (11)
    [1" id="c-fr-0001]
    claims
    An annular gasket (100, 200) for ensuring a tight connection between a first and a second pipe after crimping, comprising an axis of revolution (X-X '), a section parallel to said axis is a curve formed of a succession of an odd number of segments of circle Q connected by vertices Sj forming a regular polygon, i varying from 1 to 2 * n + 1, n being a positive integer greater than or equal to 1, the vertex S; being the center of the circle passing through the vertices Si + n and Sj + n + i modulo 2 * n + -l.
    [2" id="c-fr-0002]
    2. Joint according to claim 1, characterized in that the regular polygon is a pentagon.
    [3" id="c-fr-0003]
    3. Joint according to one of the preceding claims, characterized in that it comprises a plane of symmetry (P).
    [4" id="c-fr-0004]
    4. Joint according to claim 3, whose surface has an "inner" portion (SI) facing the axis of revolution (X-X ') and an "outer" portion (SE) opposite the axis of revolution, characterized in that the "inner" portion has a vertex Sj which lies in the plane of symmetry (P),
    [5" id="c-fr-0005]
    5. Joint according to claim 3, the surface has an "inner" portion (SI) facing the axis of revolution (X-X5) and an "outer" portion (SE) opposite the axis of revolution, characterized in that the "outer" portion has a vertex which lies in the plane of symmetry (P).
    [6" id="c-fr-0006]
    6. Joint according to one of the preceding claims, characterized in that it comprises on its surface (S) a bead (111) which extends radially and formed portions, said portions being separated by discontinuities (121) forming channels. leakage before crimping.
    [7" id="c-fr-0007]
    7. Joint according to claim 6, characterized in that the bead (111) extends from a circle segment (Cj).
    [8" id="c-fr-0008]
    8. Joint according to claim 6, characterized in that the bead (111) extends from a peak (Si).
    [9" id="c-fr-0009]
    9. Joint according to claims 3 and 6, characterized in that the bead (111) is in the plane of symmetry (P) of the seal (100).
    [10" id="c-fr-0010]
    10. Joint according to one of claims 6 to 9. characterized in that the height (h) of the bead (111) relative to the surface (S) of the seal (100) is less than 20% of the diameter of the circumscribed circle. at the section of the joint preferably less than 10% of the diameter of the circumscribed circle.
    [11" id="c-fr-0011]
    11. Joint according to one of claims 6 to 10, characterized in that the bead (111) comprises from 2 to 10 portions,
    类似技术:
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    同族专利:
    公开号 | 公开日
    FR3042250B1|2017-10-27|
    EP3156698A1|2017-04-19|
    US20170102101A1|2017-04-13|
    EP3156698B1|2018-08-15|
    US9816645B2|2017-11-14|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP1277995A1|2000-04-28|2003-01-22|Nok Corporation|Seal ring|
    EP1637781A1|2003-06-12|2006-03-22|Nok Corporation|Gasket assembling method and gasket|
    EP2151616A2|2008-08-01|2010-02-10|Nibco Inc.|Crimp evident seal|
    DE102012223903A1|2012-12-20|2014-06-26|Schaeffler Technologies Gmbh & Co. Kg|Seal for use in roller bearing for wind-power plant, has sealing region attached to surface of seal surface of bearing rings of rolling bearing, and sealing edge parts formed at corners of polygonal cross-sectional unit and ribs|
    US4305608A|1979-07-13|1981-12-15|The Gates Rubber Company|Ferrule, coupling and process|
    US7401791B2|2005-02-28|2008-07-22|Vertex, Inc.|Gasket with locking lugs|DE102016122889A1|2016-11-28|2018-05-30|Endress+Hauser Conducta Gmbh+Co. Kg|Molded seal and fitting with such|
    DE102020113065A1|2020-05-14|2021-11-18|Carl Freudenberg Kg|Sealing ring and sealing arrangement with sealing ring|
    WO2022026295A1|2020-07-27|2022-02-03|Cummins Filtration Inc.|Filter assembly with reuleaux sealing interface|
    法律状态:
    2016-09-29| PLFP| Fee payment|Year of fee payment: 2 |
    2017-04-14| PLSC| Search report ready|Effective date: 20170414 |
    2017-08-21| PLFP| Fee payment|Year of fee payment: 3 |
    2018-09-25| PLFP| Fee payment|Year of fee payment: 4 |
    2020-10-16| ST| Notification of lapse|Effective date: 20200906 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1559667A|FR3042250B1|2015-10-12|2015-10-12|JOINT A CONSTANT SECTION|FR1559667A| FR3042250B1|2015-10-12|2015-10-12|JOINT A CONSTANT SECTION|
    EP16193378.3A| EP3156698B1|2015-10-12|2016-10-11|Joint with constant cross-section|
    US15/291,885| US9816645B2|2015-10-12|2016-10-12|Gasket with a constant section|
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