Device for securing an element on a pipe, securing system, installation and implementation method

Abstract

This invention relates to a device (1) for securing an element (2) to a pipe (4), the device (1) comprising: a compensating member (10) made of an elastic material, extensible when the device (1) is tensioned around the pipe (4) with a strap (6), and progressively shrinkable over time to keep the device (1) and the strap (6) in tension when the pipe (4) shrinks; two clamping buckles (20, 30) each designed to receive a free end (62, 63) of the strap (6); and two strands (40, 50) made of a material less elastic than the compensating member (10), and each extending between a first end (41, 51) integral with the compensating member (10) and a second end (42, 52) integral with one of the clamping buckles (20, 30). The invention also relates to a system (1, 6) comprising such a device (1) and a strap (6); an installation (1, 2, 3, 4, 6) comprising such a system (1, 6); and a method for operating such a system (1).

Claims

1. A method of implementing a securing system (1, 6); a) providing the securing system (1, 6); wherein the securing system comprises: a device (1) for securing an element (2) on a pipe (4), said device (1) comprises: a compensating member (10) made of an elastic material, extensible when said device (1) is tensioned around said pipe (4) with a strap (6), and progressively shrinkable over time to keep said device (1) and said strap (6) in tension when said pipe (4) shrinks; two clamping buckles (20; 30) each designed to receive a free end (62, 63) of said strap (6); and two strands (40, 50) made of a material less elastic than said compensating member (10), each extending between a first end (41, 51) integral with said compensating member (10) and a second end (42, 52) integral with one of clamping buckles (20, 30), and said strap (6) is designed to cooperate with said device (1) for securing said element (2) to said pipe (4), b) assembling said securing system (1, 6) around said pipe (4), by placing said free ends (62, 63) of said strap (6) in said clamping buckles (20, 30) of said device (1); c) tightening said device (1) and said strap (6) around said pipe (4), thereby stretching said compensating member (10); and d) when said pipe (4) gradually shrinks over time, said compensating member (10) also shrinks, so that said device (1) and said strap (6) are held in tension around said pipe (4).

2. A method of implementing a securing system (1, 6); a) providing the securing system (1, 6), wherein the securing system comprises: a plurality of a device (1) for securing an element (2) on a pipe (4), said device (1) comprises: a compensating member (10) made of an elastic material, extensible when said device (1) is tensioned around said pipe (4) with a strap (6), and progressively shrinkable over time to keep said device (1) and said strap (6) in tension when said pipe (4) shrinks; two clamping buckles (20, 30) each designed to receive a free end (62, 63) of said strap (6); and two strands (40, 50) made of a material less elastic than said compensating member (10), each extending between a first end (41, 51) integral with said compensating member (10) and a second end (42, 52) integral with one of clamping buckles (20, 30), said strap (6) is designed to cooperate with said device (1) for securing said element (2) to said pipe (4), and said strap (6) is part of a strap roll, b) assembling said securing system (1, 6) around said pipe (4), by placing each one of said free ends (62, 63) of said strap (6) in one of said clamping buckles (20, 30); c) tightening said device (1) and said strap (6) around said pipe (4), thereby stretching said compensating member (10); then d) when said pipe (4) gradually shrinks over time, said compensating member (10) also shrinks, so that said device (1) and said strap (6) are held in tension around said pipe (4).

3. The method of claim 1, further comprising: providing a plurality of said device (1); wherein said strap (6) is part of a strap roll.

4. The method of claim 1, wherein the compensating member (10) is overmolded on said first ends (41, 51) of the strands (40, 50).

5. The method of claim 1, wherein said strands (40; 50) have recesses (57, 58) receiving material from said compensating member (10) during overmolding.

6. The method of claim 1, wherein each of said clamping buckles (20, 30) and an associated one of said two strands (40, 50) form a single piece.

7. The method of claim 1, wherein said device (1) solely comprises said compensating member (10), said two clamping buckles (20, 30) designed to receive said strap (6), and said two strands (40, 50).

8. The method of claim 1, wherein in a longitudinal direction of said device (1) at rest, each of said two strands (40, 50) is shorter than said compensating member (10).

9. The method of claim 2, wherein the compensating member (10) is overmolded on said first ends (41, 51) of said strands (40, 50).

10. The method of claim 2, wherein said strands (40; 50) have recesses (57, 58) receiving material from said compensating member (10) during overmolding.

11. The method of claim 2, wherein each of said clamping buckles (20, 30) and an associated one of said two strands (40, 50) form a single piece.

12. The method of claim 2, wherein said device (1) solely comprises said compensating member (10), said two clamping buckles (20, 30) designed to receive said strap (6), and said two strands (40, 50).

13. The method of claim 2, wherein in a longitudinal direction of said device (1) at rest, each of said two strands (40, 50) is shorter than said compensating member (10).

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

(1) The invention will be better understood upon reading the following description, given solely as a non-limiting example, and made with reference to the accompanying figures wherein:

(2) FIG. 1 is a perspective view of a securing system in accordance with the invention, comprising a fastening device and a strap.

(3) FIG. 2 is a front view of the system, according to arrow II in FIG. 1.

(4) FIG. 3 is a top view of the system, according to arrow III in FIG. 1.

(5) FIG. 4 is a larger scale view of the detail IV in FIG. 2.

(6) FIG. 5 is a larger scale view of the detail V in FIG. 3.

(7) FIG. 6 is a front view of an installation according to the invention, comprising the fastening device and the strap constituting the securing system, a cylindrical pipe, a support element secured to the pipe, and a cable fastened to the support element.

(8) FIG. 7 is a side view according to arrow VII from FIG. 6

(9) FIG. 8 is a view similar to that of FIG. 6, showing the pipe and the device which shrunk after several years of use; and

(10) FIG. 9 is a side view according to arrow IX from FIG. 8.

DESCRIPTION OF SPECIFIC EMBODIMENTS OF THE INVENTION

(11) FIGS. 1 to 9 show a securing device 1 according to the invention. The device 1 comprises a compensating member 10, two clamping buckles 20 and 30, and two strands 40 and 50 connecting the member 10 to the buckles 20 and 30.

(12) The device 1 is designed to cooperate with a strap 6, in order to secure an element 2 to a pipe 4. The strap 6 is elongated between two free ends 62 and 63 connected by a running part 61. The device 1 is used to fasten the strap 6 around the pipe 4.

(13) In FIGS. 1 to 5, the device 1 is shown idle, with no mechanical stress exerted on its constituent elements.

(14) In FIGS. 6 to 9, the device 1 and the strap 6 are shown during use, in the context of securing a cable 3 support element 2 on a pipe 4.

(15) The element 2 is in a single piece, formed from a single piece of plastic. The element 2 is secured on the pipe 4 using the device 1 and the strap 6, in particular owing to the passage of the strap 6 through an opening 8 arranged for that purpose in the element 2.

(16) Alternatively, element 2 can be of any other type adapted to the intended application. According to a variant, element 2 can support several cables 3. Instead of a cable 3, element 2 can receive any other type of piece, generally elongated, such as a sheath or a hose.

(17) The cable 3 can be a power cable or a digital data transfer cable.

(18) The pipe 4 is a metal tube, preferably covered with an insulating layer, for example made from polypropylene.

(19) The member 10 is in a single piece, formed from a single piece of plastic. Preferably, the member 10 is a polyurethane elastomer, as known under the brand COURBHANE by the Applicant.

(20) The member 10 comprises a median portion 11, two end portions 12 and 13, and two intermediate portions 14 and 15 formed between the median portion 11 and the end portions 12 and 13, respectively. The member 10 includes a lower surface 16 that extends over its entire length and is intended to come to bear against the outer surface of the pipe 4.

(21) Preferably, the member 10 is symmetrical relative to a transverse central plane. Therefore, portion 12 has the same dimensions as portion 13, and portion 14 has the same dimensions as portion 15.

(22) In a longitudinal direction, portion 11 is more elongated than portions 12 and 13, which are themselves more elongated than portions 14 and 15. In height and width, portion 11 is lower and narrower than portions 12 and 13. Therefore, portion 11 has a smaller cross-section than portions 12 and 13. Portions 14 and 15 have variable heights and widths. The shapes of all of the cross-sections of the portions 11-15 are parallelepipeds.

(23) Due to its smaller dimensions, and therefore its lower mechanical strength, it is primarily the portion 11 that is stretched when the member 10 is subject to tensile stresses on its two end portions 12 and 13.

(24) Clamping buckles 20 and 30 are made from a rigid, inelastic material under normal temperature and pressure conditions (NTPC). Buckles 20 and 30 can be made of metal or plastic, for example a thermoplastic material.

(25) Buckle 20 comprises a base 21 attached to strand 40 and an opening 22 designed to receive end 62 of strap 60. Buckle 30 comprises a base 31 which is fixed to strand 50 and an opening 32 designed to receive end 63 of strap 60.

(26) Each buckle 20 and 30 is designed to allow strap 60 to be moved through opening 22 or 32 towards member 10, and to prevent strap 60 from moving in a direction opposite to member 10. As a result, strap 60 is tightened in buckles 20 and 30, which prevent it from relaxing.

(27) Each strand 40 and 50 is made from a rigid, inelastic material under normal temperature and pressure conditions (NTPC). The material of strands 40 and 50 is chosen based on a compromise between strength and flexibility. Strands 40 and 50 can be made from a plastic, metal, composite or woven material, or any other material suitable for the targeted application.

(28) According to a preferred embodiment, buckle 20 and strand 40 form a single piece, and buckle 30 and strand 50 also form a single piece. For example, these pieces are made of a thermoplastic material.

(29) Strand 40 extends between two ends 41 and 42 connected by a running part 43. Likewise, strand 50 extends between two ends 51 and 52, connected by a running part 53. Ends 41 and 51 are secured to member 10, more specifically, sections 12 and 13, respectively. Ends 42 and 52 are attached to buckles 20 and 30, more specifically, to bases 21 and 22, respectively.

(30) Preferably, ends 41 and 51 are fixed to component 10 by overmolding. In other words, member 10 is overmolded on ends 41 and 51 of the strands 40 and 50.

(31) Also preferably, ends 42 and 52 are integrated with bases 21 and 31 of the buckles 20 and 30, as mentioned above. Alternatively, buckles 20 and 30 can be attached to strands 40 and 50 by any other means, for example, overmolded on ends 42 and 52.

(32) As depicted in FIGS. 4 and 5, for strand 50, end 51 comprises a smooth surface 54 and a crenellated face 55. Face 55 comprises a relief made up of alternating protruding slots 56 and hollow recesses 57 between slots 56. Recesses 57 receive the material of the member 10 during overmolding, which makes it possible to create a rigid link between member 10 and strand 20.

(33) Alternatively, or in addition, end 51 may comprise other means of attachment to component 10. For example, end 51 may have one or more holes 58 crossing between faces 56 and 57, which may be smooth or raised. The material of member 10 is then received in these orifices 58 during overmolding. Other securing means can be implemented without departing from the scope of the invention.

(34) The explanations provided above for end 51 are also valid for end 41.

(35) FIGS. 6 and 7 show the securing of element 2 to the pipe 4, which initially has a diameter of D4a. Strap 6 is first passed through the opening 8 formed in element 2. The device 1 and the strap 6 are positioned around pipe 4, then ends 62 and 63 of strap 6 are housed in buckles 20 and 30. The device 1 and the strap 6 are then tensioned around the pipe 4, by tightening strap 6 in buckles 20 and 30. Element 2 is then pressed by strap 6 against pipe 4. The tensile strength exerted by the strands 40 and 50 on portions 12 and 13 causes the elongation of the member 10. At this stage, the member 10 has a length L10a greater than its length L10 at rest.

(36) FIGS. 8 and 9 show the shrinking of pipe 4 over time. Its diameter D4a decreases to a diameter D4b. As an example, after 25 years submerged, the diameter D4b may reach 90% of the diameter D4a. Due to its elasticity properties, the member 10 gradually shrinks while accompanying the shrinkage of the pipe 4. Therefore, device 1 and strap 6 remain under tension, and element 2 remains pressed against pipe 4. The member 10 then has a length L10b smaller than its initial length L10a, but greater than its length L10 at rest.

(37) Thus, the invention makes it possible to compensate for the loss of tension in strap 6 due to the shrinkage of pipe 4, and to keep element 2 secured on pipe 4. Compensating member 10 makes it possible to provide flexibility and elasticity to the 1+6 securing system compared with a securing system consisting only of a rigid strap.

(38) In addition, device 1, system 1+6 and installation 1+2+3+4+6 may be arranged differently from FIGS. 1 to 9 without compromising the scope of the invention, as defined by the Claims. Moreover, the technical characteristics of the various embodiments mentioned above can, as a whole or in part, be combined with each other. Thus, the device 1 may be adapted in terms of cost, functionalities and performance.