FR3137735A1 - Improved tubular assembly intended to be connected to a second tube - Google Patents

Abstract

Improved tubular assembly intended to be connected to a second tube One aspect of the invention relates to tubular assembly E comprising a tube 3 of revolution comprising at least a first axial stop 3440, a second axial stop 3444 intended to abut against a second tube to be connected, a sealing wall 36 comprising an internal surface 3460 formed by a recess 3060 making it possible to elastically deform the sealing wall 36 by a compression having at least one axial component on an external sealing deformation surface 3464 opposite radially to the internal surface. The assembly further comprising a fixing member 32 mounted and movable axially around the tube 3 between a free position and a stop position, comprising an axial fixing means 324 for fixing to the second tube and an axial stop 321 abutting against the first axial stop 3440 of the tube 3 in the stop position. Figure to be published with the abstract: Figure 5

Description

Improved tubular assembly intended to be connected to a second tube TECHNICAL FIELD OF THE INVENTION

The technical field of the invention is that of tube fittings.

The present invention relates to an assembly comprising a tube and an axial fixing member for fixing the tube to another tube in a sealed manner.

TECHNOLOGICAL BACKGROUND OF THE INVENTION

Metal tubes are known for transporting fluid from one zone to a second zone. It is often necessary to connect different tubes to each other. A problem is to ensure the seal between each tube connections.

One of the solutions is the connection by welding, however for multiple reasons, for example risk of fire during welding or even access behind the tubes, this connection is not possible in different uses. Removable connections between two tubes are then known. The two tubes can be manufactured by different suppliers, thus requiring fittings that adapt to the manufacturing constraints of the different manufacturers.

There represents a first set of tubes 1 connected to a second tube 2 according to a proposed implementation by the applicant.

The tube assembly 1 comprises a tube 10 and a nut 12 comprising a thread for fixing by screwing to the thread of the second tube 2. The first tube 10 comprises an internal surface surrounding a volume in which the fluid circulates to an open end . The internal surface is a regular cylindrical surface (same diameter) to reduce pressure losses.

The first tube 10 comprises a connection part 100 comprising a part of the cylindrical internal surface up to the open end and a conical external surface. The second tube comprises at its open end a conical internal surface corresponding to the external conical surface of the first tube each forming a sealing and abutment contact surface.

The first tube 10 further comprises a stop 112 against a rod 121 inserted in a bore of the nut to abut against the stop 112.

When the nut 12 is screwed onto the second tube 2, the ring 121 abuts against the stop 112 of the first tube 10 and brings the sealing and abutment contact surfaces of the two tubes together axially. Tightening the nut with the second tube 2 results in constraint of the external conical surface of the connection part 100 with the internal conical surface of the second tube. However, as the two sealing and abutment contact surfaces may have different sizing constraints, caused by the dimensional tolerances of the tubes, rod and nut which are linked to manufacturing and as this connection is made to the blind, it is necessary to “break-in”, that is to say a step of measuring and checking the connection to then ensure the blind connection of the two tubes. Indeed, in practice, the operator can, before mounting on a machine, tighten the nut on the second tube for the first time, measure the tightening torque, carry out a tightness test between the two tubes, loosen the nut and disconnect the two tubes then when connecting the two tubes on the machine make the connection by applying a tightening torque corresponding to the tightening torque achieved. In addition, this double step allows for running-in of the connection and makes it possible to verify that the two tubes have not undergone plastic deformation by this tightening.

This double step carried out by the operator is restrictive in terms of time and is therefore expensive. In addition, during multiple connection operations, the tightening torque may change due to wear between the thread and tapping or between the two conical surfaces.

There is therefore a need for a removable connector which ensures a good seal between the two tubes without the need for two operations for the user without modifying the second tube.

The invention offers a solution to the problems mentioned above, by allowing a removable connection for two tubes, which ensures a level of sealing by metal/lubricant/metal contact and by an axial stop between the two tubes.

One aspect of the invention relates to claim 1

Thanks to the invention, the sealing wall of revolution has the role of sealing and the radial surface abutting against the first stop makes it possible to determine the end of stroke. In fact, the operator can use a torque wrench to target the nut and during contact between the two stops (second stop against a stop of the second corresponding tube).

The sealing wall of revolution is in fact adapted to deform elastically during connection with the second tube by having the external sealed deformation surface bearing against an inclined surface of the second tube to be connected forming a seal between them. The nut in the abutment position on the first tube, when screwed onto the second tube moves the two tubes towards each other, such that the inclined surface of the second tube presses and slides (by friction which can be reduced thanks to a lubricant for example dry) on the external sealed deformation surface of the inclined part which elastically deforms the wall of sealing revolution until the second surface forming the second axial abutment of the first tube abuts against a stop of the second tube to be connected. In other words, the external sealed deformation surface is intended to come to bear and slide against an inclined surface (between radial and axial, for example at X° relative to the axis of the tubes such that the angle is measured on the side of the second tube) of a sealing wall of the second tube to be connected to elastically deform the wall of sealing revolution and thus form a seal against this sealing wall of the second tube.

During the first fixing of the fixing member to the second tube, the sealing wall will deform mainly elastically and can be locally plastically deformed, but during the various dismantling and assembly operations, the sealing wall only deforms. elastically.

• Selon un mode de réalisation, la surface externe de déformation étanche est inclinée par rapport à un axe du tube en ayant un angle moyen entre 1° et 45° compris. Un angle moyen dans le cas d’une surface externe de déformation étanche courbée est une moyenne des angles entre les tangentes d’une section de la surface et l’axe X. L’angle moyen dans le cas d’une surface externe de déformation étanche tronconique est l’angle entre la droite d’une section de la surface et l’axe X.
• Selon un mode de réalisation, le collet est formé tel que la deuxième surface est à l’extrémité axiale du tube. Dans cet exemple, la paroi d’étanchéité comprend uniquement la partie inclinée qui s’étend directement de la deuxième surface.
• Selon un mode de réalisation, la partie inclinée de la paroi d’étanchéité a une forme de rondelle élastique conique.
• Selon un autre mode de réalisation, la paroi d’étanchéité comprend en outre une partie de révolution cylindrique s’étendant de la partie inclinée à la deuxième surface du collet.
• Selon un exemple du mode comprenant un indicateur visuel, l’indicateur visuel est un marquage indiquant que le serrage n’est pas terminé.
• Selon un mode de réalisation, l’extrémité du collet au niveau de la première surface formant une première butée axiale est un congé.
• Selon un mode de réalisation la paroi de raccord comprend une partie interne ayant un premier diamètre et une zone de restriction entre la partie interne et la paroi d’étanchéité, la zone de restriction ayant le plus petit diamètres de la zone de connexion.

In addition to the characteristics which have just been mentioned in the previous paragraph, the tubular assembly according to one aspect of the invention may have one or more complementary characteristics among the following, considered individually or in all technically possible combinations:

• According to one embodiment, the external sealed deformation surface is inclined relative to an axis of the tube with an average angle between 1° and 45° inclusive. An average angle in the case of a curved external deformation surface is an average of the angles between the tangents of a section of the surface and the X axis. The average angle in the case of an external deformation surface watertight frustoconical is the angle between the line of a section of the surface and the X axis.
• According to one embodiment, the collar is formed such that the second surface is at the axial end of the tube. In this example, the sealing wall includes only the inclined portion which extends directly from the second surface.
• According to one embodiment, the inclined part of the sealing wall has the shape of a conical elastic washer.
• According to another embodiment, the sealing wall further comprises a cylindrical part of revolution extending from the inclined part to the second surface of the collar.
• According to an example of the mode comprising a visual indicator, the visual indicator is a marking indicating that the tightening is not completed.
• According to one embodiment, the end of the collar at the level of the first surface forming a first axial stop is a fillet.
• According to one embodiment, the connecting wall comprises an internal part having a first diameter and a restriction zone between the internal part and the sealing wall, the restriction zone having the smallest diameter of the connection zone.

Another aspect of the invention relates to a method of marking a tubular assembly according to the aspect of the previous invention such as that of claim 37.

The invention and its various applications will be better understood on reading the following description and examining the accompanying figures.

BRIEF DESCRIPTION OF THE FIGURES

The figures are presented for information purposes only and in no way limit the invention.

shows a schematic representation of an axial section of a tubular assembly according to the prior art.

shows a schematic representation of an axial section of a tubular assembly according to a first example of a first embodiment in a free position.

shows an enlargement of the .

shows a representation of an axial section of a connected assembly comprising the tubular assembly shown in , in a free position.

shows a representation of an axial section of the connected assembly in a stop position.

shows a representation of an axial section of an assembly connected in an abutment position comprising a tubular assembly according to a second example of the first embodiment.

shows a representation of an axial section of an example of a part of a connected assembly comprising a tubular assembly according to the first embodiment in a first position showing contact of an inclined part of the first tube with a surface of inclined sealing of the second tube.

shows a representation of an axial section of the part of the connected assembly of the showing a deformation of the inclined part of the first tube by the inclined sealing surface of the second tube.

shows a representation of an axial section of the part of the connected assembly of the in a stop position showing a deformation of the inclined part of the first tube by the inclined sealing surface of the second tube.

shows a representation of an axial section of an example of a part of a connected assembly comprising a tubular assembly according to a second embodiment in a position before contact of an inclined part with an inclined sealing surface of the second tube.

shows a representation of an axial section of the part of the assembly connected in a stop position.

shows a representation of different side chains on an axial section of the first example of the tubular assembly according to the first embodiment in the stop position.

shows a representation of an axial section of a connected marking assembly (M) in a stop position, according to an example of the first embodiment.

shows a representation of the connected marking assembly (M) in a free position comprising the tubular assembly according to the first example of the first embodiment.

shows a representation of the connected assembly of the in a stop position.

DETAILED DESCRIPTION

The figures are presented for information purposes only and in no way limit the invention.

shows a schematic representation of an axial section of a tubular assembly according to the prior art.

Unless otherwise specified, the same element appearing in different figures presents a unique reference.

Claims (41)

Tubular assembly (E) intended to be connected to a second tube (4, 4’) characterized in that the assembly (E) comprises:

• a tube (3, 3') of revolution around an axis (X) comprising a connection zone (34) comprising:
  • a connecting wall (342, 342') of revolution comprising at least one collar (344, 344') comprising:
    1. a first surface forming a first axial stop (3440, 3440'), and
    2. a second surface forming a second axial stop (3444, 3444') intended to abut against the second tube (4, 4'),
  • a sealing wall (36, 36') of revolution extending from the connecting wall (342, 342'), the sealing wall (36, 36') comprising:
    1. an inclined part (346, 346') comprising:
       1. a first end (3461, 3461') forming a free edge surrounding an axial opening (30) of the tube (3, 3'),
       2. a second end (3462, 3462') axially opposite the first end (3461, 3461'),
       3. an external sealed deformation surface (3464, 3464') having a diameter gradually and continuously increasing from the first free end (3461, 3461') to the second end (3462 3462'),
    2. an internal surface (3460, 3460') radially opposite the external sealing deformation surface (3464, 3464'), formed by a recess (3060, 3060') making it possible to elastically deform the sealing wall (36) by compression having at least one axial component on the external sealed deformation surface (3464, 3464'),
• a fixing member (32) mounted and movable axially around the connection zone (34) between a free position and a stop position, comprising:
  • an axial fixing means (324) intended to attach to a complementary fixing means (424) of the second tube (4) to be connected, and
  • an axial stop (321) abutting against the first axial stop (3440) of the collar (344) of the tube (3) in the stop position.

Tubular assembly (E) intended to be connected to a second tube (4, 4') according to claim 1, comprising a main tubular zone comprising a regular thickness between an internal and external surface, the connection zone (34) comprising an end junction extending from the main tubular zone having an internal or external diameter different from that of the main tubular zone and in which, the connection zone (34) comprises an internal volume of the tube (3, 3') of the 'joining end to the first end (3461, 3461') forming a free edge surrounding the axial opening (30), the connecting wall (342, 342') comprising an internal surface (3420) surrounding a first part of the volume internal and in which the sealing wall (36, 36') surrounds a second part of the internal volume extending from the first part of the internal volume to the axial opening (30). Tubular assembly (E) intended to be connected to a second tube (4, 4') according to claim 2, in which the internal surface (3420) of the connecting wall (342, 342') comprises different diameters, part of which ( 34200) of the internal surface (3420) between two axial ends has a diameter forming the smallest volume of the first part of the internal volume, the first axial stop (3440, 3440 ') being located axially between the ends of the part (34200 ) of the internal surface (3420). Tubular assembly (E) intended to be connected to a second tube (4, 4') according to claim 2, in which the internal surface (3420) of the connecting wall (342) comprises a constant diameter (D3420), forming the first part of the internal volume of cylindrical shape. Tubular assembly (E) intended to be connected to a second tube (4, 4') according to any one of the preceding claims, in which the connection wall (342, 342') comprises a groove (3421, 3421') s 'extending from the first surface (3440, 3440') of the collar (344, 344') to another abutment surface (3422), the axial abutment (321) of the fixing member (32) being movable in the groove (3421, 3421') between the first axial stop (3440, 3440'), and the other stop surface (3422) delimiting the groove (3421). Tubular assembly (E) intended to be connected to a second tube (4, 4') according to the preceding claim, in which the other abutment surface (3422) delimiting the groove (3421) and a radial surface. Tubular assembly (E) intended to be connected to a second tube according to claim 5, in which the other abutment surface (3422) delimiting the groove (3421) and the first surface of the collar (344) has a corresponding to the abutment have a shape corresponding to the shape of the axial stop (321) of the fixing member (32). Tubular assembly (E) intended to be connected to a second tube (4, 4') according to one of claims 1 to 7, the connection wall (342, 342') comprises an external surface comprising between the first surface forming a first axial stop (3440, 3440'), and one end of the connecting wall (342, 342') axially opposite the sealing wall (36, 36'), a visual indicator (307) corresponding to a covered area at least partially by the fixing member (32) in the free position and uncovered at least partially in the stop position, when the fixing member is coupled to a second tube (4, 4'). Tubular assembly (E) intended to be connected to a second tube (4, 4') according to claim 8, in which the visual indicator (307) is only completely uncovered in the stop position. Tubular assembly (E) intended to be connected to a second tube (4, 4') according to claim 8 or 9, in which the visual indicator (307) is partially uncovered from the free position (307). Tubular assembly (E) intended to be connected to a second tube according to claim 8, in which the visual indicator is at least partially uncovered only in the stop position. Tubular assembly (E) intended to be connected to a second tube (4, 4') according to any one of claims 8 to 11, in which the fixing member (32) comprises an axial end opposite the axial fixing means (324), the fixing member (32) comprising notches (327) at this axial end. Tubular assembly (E) intended to be connected to a second tube (4, 4') according to one of claims 5 to 7 and any one of claims 8 to 11 in which the external surface extends from the other abutment surface (3422) at the end of the connection wall (342, 342'). Tubular assembly (E) intended to be connected to a second tube (4, 4’) according to any one of the preceding claims, in which the axial stop (321) of the fixing member (32) is a rod. Tubular assembly (E) intended to be connected to a second tube according to the preceding claim, in which the fixing member (32) comprises an insertion orifice (3210) of the rod (321) passing through the fixing member (32). ) from an external surface to an internal surface facing the tube, the insertion orifice comprising a section corresponding to the rod to an internal surface surrounding the tube (3, 3'). Tubular assembly (E) intended to be connected to a second tube (4, 4') according to any one of the preceding claims, in which the fixing member (32) is a nut and the fixing means (324) is a tapping to screw onto a thread of the tube (4). Tubular assembly (E) intended to be connected to a second tube (4, 4') according to any one of the claims in which the fixing member (32) comprises a thread for screwing into a nut of the second tube (4 , 4'). Tubular assembly (E) intended to be connected to a second tube (4) according to any one of the preceding claims, in which the sealing wall (36) further comprises a part of cylindrical revolution (360) extending from the inclined portion (346) to the second surface (3444) of the collar (344). Tubular assembly (E) intended to be connected to a second tube (4') according to any one of claims 1 to 17, in which the sealing wall (36') comprises only the inclined part (346') directly extending the second surface (3444') of the collar (344'). Tubular assembly (E) intended to be connected to a second tube (4, 4’) according to any one of the preceding claims, in which the external sealed deformation surface (3464, 3464’) is curved. Tubular assembly (E) intended to be connected to a second tube (4) according to any one of claims 1 to 17, in which the external sealed deformation surface (3464) is frustoconical. Tubular assembly (E) intended to be connected to a second tube (4') according to any one of the preceding claims, in which the part of the internal surface (3460) forming part of the inclined part (346') of the wall sealing (36) is curved. Tubular assembly (E) intended to be connected to a second tube (4) according to any one of claims 1 to 20, in which the part of the internal surface (3460) forming part of the inclined part (346) of the wall sealing (36) is frustoconical. Tubular assembly (E) intended to be connected to a second tube (4, 4') according to any one of the preceding claims, in which the thickness of the sealing wall (36, 36') between the internal surface ( 3460, 3460') and the external watertight deformation surface (3464, 3464') varies less than 10%. Tubular assembly (E) intended to be connected to a second tube (4, 4') according to the preceding claim, in which the part of the internal surface (3460, 3460') forming part of the inclined part (346, 346') of the sealing wall (36, 36') is concentric with the external sealing deformation surface (3464, 3464'). Tubular assembly (E) intended to be connected to a second tube (4, 4') according to the preceding claim, in which each element is metallic, for example steel, stainless steel, aluminum alloy or titanium alloy. For example, the tube is a stainless steel type steel, the fixing means comprises the axial fixing means (324) made of stainless steel and the stop which is made of stainless steel. Tubular assembly (E) intended to be connected to a second tube (4) according to any one of the preceding claims, in which the external sealed deformation surface (3464) is inclined relative to an axis (x) of the tube (3 ) having an average angle between 1° and 45° inclusive. Tubular assembly (E) intended to be connected to a second tube (4) according to the preceding claim, the part of the internal surface (3460) forming part of the inclined part (346) of the sealing wall (36) is inclined relative to an axis (x) of the tube (3) having an average angle between 1° and 45° inclusive. Tubular assembly (E) intended to be connected to a second tube (4') according to any one of claims 1 to 25, in which the part of the internal surface (3460') forming part of the inclined part (346') of the sealing wall (36') is inclined relative to an axis (x) of the tube (3') having an average angle between 45° and 90°. Tubular assembly (E) intended to be connected to a second tube (4') according to the preceding claim, in which the external sealed deformation surface (3464') is inclined relative to an axis (x) of the tube (3') by having an average angle between 45° and 90°, the recess forming a recess (3060') delimiting the sealing wall (346') forming its internal surface (3460'). Tubular assembly (E) intended to be connected to a second tube (4') according to the preceding claim, in which the external sealed deformation surface (3464') extends in the extension of the second surface forming the second axial stop ( 3444') of the collar (344'). Connected assembly (R) comprising:

• a set (E) according to any one of the preceding claims,
• the second tube (4, 4') comprising an inclined sealing surface (406, 406') relative to the axis (X) in contact and bearing against the external sealing deformation surface (3464, 3464') deforming elastically the sealing wall (36, 36') and an axial stop (404, 404') in axial abutment with the second axial stop (3444, 3444') of the connecting wall (342, 342') and in which the axial fixing means (324) is fixed to the complementary fixing means (424),
• a lubricant layer between the outer sealing deformation surface (3464, 3464') and inclined sealing surface (406, 406').

. Connected assembly (R) according to claim 30, wherein the lubricant layer is a dry lubricant deposited on the external sealed deformation surface (3464, 3464'). Connected assembly (R) according to claim 31 or 32, wherein the assembly (E) is according to claim 26 or 27, wherein the inclined sealing surface (406) of the second tube (4) comprises a first internal end (4060) and a second end (4062) extending from the radial surface forming the axial stop (404) of the connecting wall (342), in which the inclined sealing surface (406) is frustoconical having a diameter at level of the first free end (4061) greater than the largest diameter of the external sealed deformation surface (3464) and a diameter at the second end (4062) less than the largest diameter of the external sealed deformation surface (3464) ). Connected assembly (R) according to claim 30, in which the assembly (E) is according to claim 28 or 29, in which the inclined sealing surface (406') of the second tube (4) extends in the extension from a radial surface forming the axial stop (404), to a first internal end (4060) and a second end (4062) in which the inclined sealing surface (406) is frustoconical having a diameter at of the first free end (4061) greater than the largest diameter of the external sealed deformation surface (3464) and a diameter at the second end (4062) less than the largest diameter of the external sealed deformation surface (3464) . Connected assembly (R) according to any one of claims 31 to 34, in which the elastic deformation of the sealing wall (36') by the inclined sealing surface (406, 406') of the second tube constrains the surface external sealing deformation (3464, 3464') of the first tube to press against the inclined sealing surface (406, 406') of the second tube. Method for marking a tubular assembly (E) according to one of claims 1 to 30, comprising:

• a step of inserting a second test tube (M4) against the second stop (3444, 3444') forming a connected marking assembly (M), the second test tube (M4) comprising fixing means axial corresponding with that of the fixing member (32), the second test tube (M4) being arranged so as not to deform the sealing wall elastically (36, 36'),
• a step of positioning the fixing member (32) in the stop position, and a step of tightening the fixing member (32) to the second test tube (M4) up to a predetermined torque,
• a step of producing a visual indicator (307) on the tube (3, 3').

Method of marking a tubular assembly (E) according to claim 34, in which the step of producing a visual indicator (307) on the tube (3, 3') is a marking carried out by laser, for example any around the tube over an axially delimited area. Method of marking a tubular assembly (E) according to claim 34 or 35, wherein the visual indicator (307) is a zone on a zone to indicate that the tightening is not completed. Method of marking a tubular assembly (E) according to claim 34 or 35, wherein the visual indicator (307) is on an area to indicate that the tightening is complete. Tubular assembly (E) intended to be connected to a second tube (4, 4’) characterized in that the assembly (E) comprises:

• A tube (3, 3') of revolution around an axis (X) comprising a connection zone (34) comprising:
  • a connecting wall (342, 342') of revolution comprising at least one collar (344, 344') comprising:
    1. a first surface forming a first axial stop (3440, 3440'), and
    2. a second surface opposite the first surface, forming a second axial stop (3444, 3444') intended to abut against the second tube (4, 4'),
    3. an external surface comprising, between the first surface forming a first axial stop (3440, 3440') and one end of the connecting wall (342, 342') axially opposite the second axial stop (3444, 3444'), an indicator visual (307),
  • a sealing wall (36, 36') of revolution extending from the connecting wall (342, 342'), the sealing wall (36, 36') comprising:
• a sealed external deformation surface (3464, 3464') having a diameter gradually and continuously increasing from a first free end (3461, 3461') surrounding an opening of the tube to a second end (3462 3462') opposite the first end ,
• an internal surface (3460, 3460') radially opposite the external sealing deformation surface (3464, 3464'), formed by a recess (3060, 3060') making it possible to elastically deform the sealing wall (36) by compression having at least one axial component on the external sealed deformation surface (3464, 3464'),
• a fixing member (32) mounted and movable axially around the connection zone (34) between a free position in which the visual indicator is at least partially covered by the fixing member and a stop position in which the visual indicator is visible, including:
  • an axial fixing means (324) intended to attach to a complementary fixing means (424) of the second tube (4) to be connected, and
  • an axial stop (321) abutting against the first axial stop (3440) of the collar (344) of the tube (3) in the stop position.