FR3112378A1 - Bending stiffener comprising at least two body parts - Google Patents

Abstract

The invention relates to a bending stiffener (1) intended to cooperate locally with a flexible cable and configured to limit the curvature of said flexible cable, the bending stiffener (1) comprising a body (20, 30) comprising at least a first part body (20) and at least a second body part (30), the body (20, 30) being able to occupy a separate configuration in which the body parts (20, 30) are disjointed and an assembled configuration in which the parts bodies (20, 30) are mounted axially around the axis of the flexible cable. The first body part (20) comprises a first cooperation surface (S1) comprising a male interlocking member (22, 23), and the second body part (30) comprises a second cooperation surface (S2) comprising a female interlocking device (32,33). The at least one male interlocking member (22, 23) cooperates by interlocking with the female interlocking member (32, 33) so as to oppose relative movement between the first cooperation surface (S1) and the second cooperation surface (S2). Figure 1

Description

Bending stiffener comprising at least two body parts

Technical field of the invention

The present invention relates to a bending stiffener comprising at least one body comprising two body parts.

State of the art

The use of flexible tubular pipes frequently requires the use of devices to limit the curvature of the flexible pipes. This is particularly the case for the oil industry, in particular to prevent the extreme curvature of pipes when they are subjected to external stresses such as sea currents, or more simply when they are connected from one side to one fixed end and the other side at a free end.

It is known from the state of the art to use bending stiffeners to limit the curvature of flexible pipes. Generally these devices are manufactured in one piece. Indeed, some state-of-the-art solutions offer one-piece bending stiffeners with a variable section along their longitudinal axis. In this way, it is possible to guarantee a variable stiffness along the axis of the cable around which the bending stiffener is mounted. In most of the existing solutions, for practical reasons, the bending stiffener is installed on the flexible pipe directly, then the end piece of the pipe is fixed on the end of the line. The assembly is then rolled up before being sent to sea to be installed. These solutions are satisfactory in that they make it possible to control the curvature of the flexible pipe and in particular in areas where it is highly stressed.

However, these solutions do not make it possible to modify the position of the bending stiffener, or to install the bending stiffener on the flexible pipe in a simple manner. For example when it is damaged, it is necessary to have access to a free end of the flexible cable in order to be able to slide the bending stiffener, and said free end generally has a diameter greater than the internal diameter of the bending stiffener. Thus, such an operation is difficult, if not impossible, especially when the bending stiffener has large dimensions. Moreover, these solutions do not make it possible to completely separate the manufacture of the bending stiffener and that of the flexible pipe.

To solve this problem, it is known from the state of the art to use bending stiffeners in several parts secured by screws, or straps. However, these solutions imply that the shearing movements between the parts generate enormous stresses at the level of the screws or the straps, which can lead to their breaking.

Object of the invention

The purpose of the present invention is to propose a solution which responds to all or part of the aforementioned problems:

This object can be achieved thanks to the implementation of a bending stiffener intended to cooperate locally with a flexible cable and configured to limit the curvature of said flexible cable, the bending stiffener comprising a body comprising at least a first body part and at least one second body part distinct from the first body part, the body being capable of occupying a separate configuration in which the body parts are disjointed and an assembled configuration in which the body parts are mounted axially around the axis of the flexible cable, and cooperate so as to define a passage of the flexible cable between them; the first body part comprising a first engagement surface comprising a first base surface and at least one male interlocking member, said first engagement surface being configured to cooperate with a second engagement surface included on the adjacent second body part to the first body part, said second cooperating surface comprising a second base surface and a female interlocking member, the at least one male interlocking member being configured to interlock with the female interlocking member so as to oppose relative movement between the first cooperation surface and the second cooperation surface.

The arrangements previously described make it possible to propose a bending stiffener that can be mounted around a flexible cable in the assembled configuration, and dismantled from the flexible cable in the separate configuration. Furthermore, the presence of male and female interlocking members makes it possible to secure the different body parts together in the assembled configuration.

The bending stiffener may also have one or more of the following characteristics, taken alone or in combination.

According to one embodiment, the interlocking of the male and female interlocking members blocks the movements in a direction tangent to the first base surface or tangent to the second base surface.

In other words, the male and female interlocking members are configured to oppose movement of the two body parts along the axial direction and the radial direction of the body in the assembled configuration. According to this embodiment, the body parts are in flat contact with each other, and the male and female interlocking members are configured to block two degrees of mobility.

According to one embodiment, the at least one first body part, and/or the at least one second body part can comprise at least one male interlocking member and at least one female interlocking member on the first cooperation surface and/or on the second cooperation surface.

It is therefore clearly understood that each body part can comprise one or more male interlocking members and one or more female interlocking members distributed randomly on the first cooperation surface and/or on the second cooperation surface, so as to cooperating by interlocking with female and male interlocking members included on the second body part, facing the first body part.

According to one embodiment, the body is made of a single material, and in which each body part is in one piece.

According to one embodiment, each body part is obtained by a molding process. Thus, the male and female interlocking members are molded with the body parts. In this way, it is possible to limit stress concentrations.

According to one embodiment, the at least one male interlocking member projects in relation to the first base surface, the at least one female interlocking member having a shape complementary to the at least one male interlocking organ.

Generally, the male interlocking member extends orthogonally projecting from the first base surface, and the height of the protrusion of the male interlocking member counted, orthogonally to the base surface, is greater than 10 mm.

According to one embodiment, the male and female interlocking members have a circular or oblong section. For example, the male and female interlocking members can have a circular section in an area close to the first end, and an oblong shape in an area close to the second end.

According to one embodiment, a distal end of the at least one male interlocking member comprises a reduction in section so as to facilitate the interlocking of the male and female interlocking members.

According to one embodiment, the section reduction may comprise a bevel.

According to one embodiment, the bending stiffener comprises securing means configured to secure the body parts in a securing configuration.

According to one embodiment, the securing means are configured so as to block the relative movement of the body parts along a direction orthogonal to each of the cooperation surfaces.

Advantageously, the male and female interlocking members make it possible to spare the axial and radial forces that may be applied to the securing means. Shear forces on the securing means are therefore avoided.

According to one embodiment, the body comprises at least one groove provided in the body on a surface of the body radially opposite to the flexible cable, the at least one groove being capable of receiving the securing means.

According to one embodiment, the securing means may comprise straps.

In this way, the groove makes it possible to oppose a displacement of the securing means along the axial direction of the body.

According to one embodiment, the male and female interlocking members are arranged axially at the level of at least one groove.

According to one embodiment, the body has sufficient stiffness to maintain the radius of curvature of the flexible cable at a value greater than a threshold value.

According to one embodiment, the threshold value can be between 1 m and 15 m and in particular and more particularly between 1 m and 4 m.

According to one embodiment, the body is elastic so as to allow the flexible cable to return to a dimension of curvature that is substantially zero when it is not subjected to any force. By substantially zero is meant a curvature dimension of less than 0.1 m ^-1 .

According to one embodiment, the body comprises axially a first end and a second end, the first end having greater stiffness than the second end.

In other words, the stiffness of the bending stiffener is variable along the axial direction of the body.

According to one embodiment, the thickness of the shell parts counted radially decreases between the first end and the second end.

According to one embodiment, the bending stiffener includes a base configured to hold the first end in a fixed position.

According to one embodiment, the bending stiffener is intended to cooperate with a flexible cable, or a flexible pipe containing in particular oil or gas.

According to one embodiment, the bending stiffener is intended for an anchoring cable or for a connection between several flexible cables or flexible pipes.

According to one embodiment, the body is made of an elastomeric material.

The measures previously described make it possible to prevent corrosion of the bending stiffener.

In general, the body of the bending stiffener is made of a material having a Young's modulus less than 1000 MPa.

According to one embodiment, the bending stiffener is made of polyurethane.

Brief description of the drawings

Other aspects, objects, advantages and characteristics of the invention will appear better on reading the following detailed description of preferred embodiments thereof, given by way of non-limiting example, and made with reference to the appended drawings. on which ones :

is a schematic perspective view of a bending stiffener according to a particular embodiment of the invention in the separated configuration.

is a schematic perspective view of the bending stiffener of the in the connection configuration.

is a schematic side view of the bending stiffener of the in the connection configuration.

is a schematic side view of a first body part according to a particular embodiment of the invention.

is a schematic bottom view of a body part according to a particular embodiment of the invention.

is a schematic perspective view of an area of a body part according to one embodiment of the invention.

is a schematic view of a section of the bending stiffener according to a particular embodiment of the invention.

detailed description

In the figures and in the remainder of the description, the same references represent identical or similar elements. In addition, the various elements are not represented to scale so as to favor the clarity of the figures. Furthermore, the different embodiments and variants are not mutually exclusive and can be combined with one another.

As illustrated in Figures 1 to 3, the invention relates to a bending stiffener 1 intended to cooperate locally with a flexible cable (not shown), and configured to limit the curvature of said flexible cable. The bending stiffener 1 comprising a body 20, 30 comprising at least a first body part 20 and at least a second body part 30 separate from the first body part. The body 20, 30 may in particular consist of a single material, and each body part 20, 30 may be in one piece. In particular the body 20, 30 can be made of a material having a Young's modulus of less than 1000 MPa, for example an elastomeric material.

According to one embodiment, the bending stiffener 1 is made of polyurethane.

The arrangements previously described make it possible to prevent corrosion of the bending stiffener 1.

There presents the body 20, 30 when occupying a separate configuration. In this configuration, the body parts 20, 30 are separate. There presents the bending stiffener in an assembled configuration in which the body parts 20, 30 can be mounted axially around the axis of the flexible cable, and cooperate so as to define a passage of the flexible cable between them.

Advantageously, the bending stiffener 1 can comprise securing means 40 configured to secure the body parts 20, 30 in a securing configuration. In particular, the securing means 40 can be configured so as to block the relative movement of the body parts 20, 30 along a direction orthogonal to a plane separating the body parts 20,30. The body 20, 30 may comprise at least one groove 42 made in the body 20, 30 on a surface of the body 20, 30 radially opposite the flexible cable, the at least one groove 42 being capable of receiving the securing means 40. In this way, the groove 42 makes it possible to oppose a displacement of the securing means 40 along the axial direction of the body 20, 30. For example, the securing means 40 can comprise straps.

As shown in Figures 3 to 5, the body 20, 30 comprises axially a first end denoted "E1" and a second end denoted "E2", the first end E1 may in particular have a greater stiffness than the second end E2. For this, the thickness of the shell parts counted radially can decrease between the first end E1 and the second end E2. The stiffness of the bending stiffener 1 is then variable along the axial direction of the body 20, 30. Thus, and advantageously, the body 20, 30 has sufficient stiffness to maintain the radius of curvature of the flexible cable at a value greater than a threshold value. According to one embodiment, the threshold value can be between 1 m and 15 m and more particularly between 1 m and 4 m. Furthermore, the body 20, 30 can be configured to be elastic, so as to allow the flexible cable to return to a substantially zero curvature dimension when it is not subjected to any force. By substantially zero is meant a curvature dimension of less than 0.1 m ^-1 . The bending stiffener 1 may be intended to cooperate with a flexible cable, or a flexible pipe containing oil or gas in particular, or be intended to cooperate with an anchor cable or a connection between several flexible cables or flexible pipes. In this case, the bending stiffener 1 can comprise a base 50 configured to maintain the first end E1 in a fixed position.

If we go back to the , the first body part 20 has a first cooperation surface denoted "S1" comprising a first base surface and at least one male interlocking member 22, 23. The second body part 30, adjacent to the first body part 20, comprises a second cooperation surface denoted "S2" comprising a second base surface and a female interlocking member 32,33.

According to the variant represented the , the first body part 20 is axially symmetrical to the second body part 30, it is therefore clearly understood that the first body part 20 and the second body part 30 can be interchanged. Different representatives of the same element may have certain different characteristics. Thus, it is possible for the first body part 20 to comprise a first cooperation surface S1 configured to cooperate with a second cooperation surface S2 included on the second body part 30, and a second cooperation surface S2′ configured to cooperate with a first cooperation surface S1' included on the second body part 30.

There presents an enlarged view of a zone of one of the body parts 20, 30. According to this variant, the at least one first body part 20, and/or the at least one second body part 30 can comprise at least a male fitting member 22, 23 and at least one female fitting member 32, 33 on the first cooperation surface S1 and/or on the second cooperation surface S2.

The at least one male interlocking member 22, 23 may in particular extend orthogonally projecting with respect to the first base surface, for example with a height of protrusion of the male interlocking member 22, 23 greater than 10 mm when counted orthogonally to the base surface.

According to a non-limiting variant, a distal end of the at least one male interlocking member 22, 23 comprises a reduction in section so as to facilitate the interlocking of the male interlocking members 22, 23 and female 32, 33. For example, the section reduction may include a bevel. The at least one female interlocking member 32, 33 may have a shape complementary to the at least one male interlocking member 22, 23.

According to the embodiment illustrated in the , the male 22, 23 and female 32, 33 interlocking members have a circular section 22,32 on part of one of the cooperation surfaces S1, S2', and an oblong section 23, 33 on another part of one of the cooperation surfaces S1, S2'. For example, the male 22, 23 and female 32, 33 interlocking members may have a circular section 22, 32 in an area close to the first end, and an oblong shape 23, 33 in an area close to the second end E2.

As illustrated in FIGS. 2 and 3, provision is made for the first cooperation surface S1 to be able to cooperate with the second cooperation surface S2. The at least one male interlocking member 22, 23 is then configured to cooperate by interlocking with the female interlocking member 32, 33 so as to oppose a relative movement between the first cooperation surface S1 and the second cooperation surface S2.

According to one embodiment, the interlocking of the male 22, 23 and female 32, 33 interlocking members blocks movement in a direction tangent to the first base surface or tangent to the second base surface.

In other words, the male 22, 23 and female 32, 33 interlocking members are configured to oppose movement of the two body parts 20, 30 along the axial direction and the radial direction of the body. 20, 30 in assembled configuration. According to this embodiment, the body parts 20, 30 are in flat contact with each other, and the male 22, 23 and female 32, 33 interlocking members are configured to block two degrees of mobility.

According to one embodiment, each body part 20, 30 is obtained by a molding process. Thus, the male 22, 23 and female 32, 33 interlocking members are molded with the body parts 20, 30. In this way, it is possible to limit stress concentrations.

Furthermore, the male 22, 23 and female 32, 33 interlocking members can be arranged axially at the level of the at least one groove 42. Thus, and advantageously, the male 22, 23 and female interlocking members 32, 33 make it possible to spare the axial and radial forces that can be applied to the fastening means 40. The shearing forces on the fastening means 40 are therefore avoided.

All of the arrangements previously described make it possible to propose a bending stiffener 1 which can be mounted around a flexible cable in the assembled configuration, and dismantled from the flexible cable in the separate configuration. Furthermore, the presence of the male 22, 23 and female 32, 33 interlocking members makes it possible to secure the various body parts 20, 30 together in the assembled configuration.

Claims (13)

Bending stiffener (1) intended to cooperate locally with a flexible cable and configured to limit the curvature of said flexible cable, the bending stiffener (1) comprising a body (20, 30) comprising at least a first body part (20) and at least one second body part (30) distinct from the first body part, the body (20, 30) being able to occupy a separated configuration in which the body parts (20, 30) are disjointed and an assembled configuration in which the body parts (20, 30) are mounted axially around the axis of the flexible cable, and cooperate so as to define a passage of the flexible cable between them; the first body part (20) comprising a first cooperation surface (S1) comprising a first base surface and at least one male engagement member (22, 23), said first cooperation surface (S1) being configured to cooperate with a second engagement surface (S2) comprised on the second body part (30) adjacent to the first body part (20), said second engagement surface (S2) comprising a second base surface and an interlocking member female (32, 33), the at least one male interlocking member (22, 23) being configured to cooperate by interlocking with the female interlocking member (32, 33) so as to oppose movement relative between the first cooperation surface (S1) and the second cooperation surface (S2). Bending stiffener (1) according to Claim 1, in which the at least one first body part (20), and/or the at least one second body part (30) can comprise at least one interlocking member male (22, 23) and at least one female interlocking member (32, 33) on the first cooperation surface (S1) and/or on the second cooperation surface (S2). Bending stiffener (1) according to any one of claims 1 to 2, in which the body (20, 30) is made of a single material, and in which each body part (20, 30) is integral. Bending stiffener (1) according to any one of claims 1 to 3, in which the at least one female interlocking member (32, 33) has a shape complementary to the at least one male interlocking member ( 22, 23). Bending stiffener (1) according to any one of Claims 1 to 4, in which a distal end of the at least one male interlocking member (22, 23) comprises a reduction in section so as to facilitate interlocking male (22, 23) and female (32, 33) interlocking members. A bending stiffener (1) according to any one of claims 1 to 5, comprising securing means (40) configured to secure the body parts (20, 30) in a securing configuration. Bending stiffener (1) according to Claim 6, in which the body (20, 30) comprises at least one groove (42) formed in the body (20, 30) on a surface of the body (20, 30) radially opposite the flexible cable, the at least one groove (42) being adapted to receive the securing means (40). Bending stiffener (1) according to Claim 7, in which the male (22, 23) and female (32, 33) interlocking members are arranged axially at the level of the at least one groove (42). Bending stiffener (1) according to any one of claims 1 to 8, in which the body (20, 30) has sufficient stiffness to maintain the radius of curvature of the flexible cable at a value greater than a threshold value. Bending stiffener (1) according to any one of Claims 1 to 9, in which the body (20, 30) comprises axially a first end (E1) and a second end (E2), the first end (E1) having a greater stiffness than the second end (E2). Bending stiffener (1) according to claim 10, wherein the thickness of the shell parts counted radially decreases between the first end (E1) and the second end (E2). Bending stiffener (1) according to any one of claims 10 or 11, comprising a base (50) configured to hold the first end (E1) in a fixed position. Bending stiffener (1) according to any one of Claims 1 to 12, in which the body (20, 30) is made of an elastomeric material.