DEVICE FOR PROTECTING MECHANICAL PARTS

Abstract

A device (10) for protecting a mechanical part (20) against damage, in particular corrosion. The mechanical part bears on a support (22), or is under pressure as a result of weight. A flexible area (12) is designed to be in direct contact with the mechanical part and at least one row of rectilinear pads (14) designed to be in direct contact with the support. The row includes a plurality of pads (14-1, 14-2, 14-3) rigidly connected to the flexible area. The pads are more rigid than the flexible area, and are preferably rectangular in shape.

Claims

1-11. (canceled)

12. A system for bearing a pipeline, comprising a support (20) for a pipe, and a protective device (10) adapted to be placed between said support (20) and a pipe, wherein said protective device (10) comprises a flexible area (12) including at least one woven layer, and at least one row of rectilinear pads (14) designed to be in direct contact with said support, said row comprising a plurality of pads (14-1, 14-2, 14-3) made of a plastic material, which are rigidly connected to said flexible area and which are more rigid than said flexible area.

13. The system of claim 12, wherein said pads (14-1, 14-2, 14-3) are rectangular in shape.

14. The system of claim 13, wherein said pads (14-1, 14-2, 14-3) have a width between 20 mm and 30 mm and a length between 10 mm and 30 mm.

15. The system of claim 13, wherein an interval between two of said pads (14-1, 14-2, 14-3) is between one-half of their length and one times their width.

16. The system of claim 12, wherein said plastic material is polyphenylene sulfide (P.P.S.).

17. The system of claim 12, wherein at least a part of said flexible area (12) and said pads (14-1, 14-2, 14-3) are formed from the same homogeneous material.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0023] The advantages, objects and features of the present invention will become apparent from the following description, provided for explanatory purposes and in a non-exhaustive manner, when taken in conjunction with the accompanying drawings wherein:

[0024] FIG. 1 represents, schematically and in cross-section, the embodiment of the device of the present invention placed between a pipe to be protected and a support;

[0025] FIG. 2 represents, schematically and in perspective, the preferred embodiment of the device of the present invention; and

[0026] FIGS. 3, 4 and 5 represent cross sections of pads of various embodiments of the device of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0027] As illustrated in FIG. 1, the protection device 10 according to the invention is positioned between two parts 20 and 22 for which it is desired to limit corrosion, wear or vibration. For example, part 20 is a support placed in a platform or on the seabed and part 22 is a pipe.

[0028] The device 10 comprises a flexible zone 12 and, rigidly connected to the flexible area 12, a plurality of rows of pads 14 more rigid than the flexible area.

[0029] As seen in FIG. 1, the part 22, here shown as piping such a pipeline, is supported on a single row of pads, such that the bearing surface of the piping on the support 20 is as large as possible. However, the other rows of pads on either side are necessary to the extent that, in case of deterioration of the bearing row, these rows will be useful in always ensuring that the pipe is supported.

[0030] FIG. 2 illustrates an embodiment 10 of the device for protecting mechanical parts of the present invention having a flexible zone 12 and several rows of pads 14 more rigid than the flexible area, each row of pads being comprised of several pads, such as pads 14-1, 14-2 and 14-3, for example.

[0031] Although a one-piece pad may be used within the scope of the invention, dividing each row of pads into several pads is very useful. The surface of the piping 22 degrades over time. Consequently, recesses form on the outer surface of the piping where the metal has left and bumps form as a result of oxidation. As the piping is no longer rectilinear, having a plurality of pads allows the row to compensate for the surface irregularities of the piping over time.

[0032] According to particular embodiments of the invention, the pads, such as pads 14-1, 14-2, 14-3 illustrated in FIG. 2, are rectangular and particularly square in shape. Preferably, the pads are between 5 mm and 10 mm thick, 20 mm to 30 mm wide and 10 mm to 30 mm long. The interval between two pads may be between one-half of their length and one times their width. Thus, with pads measuring 30 mm in length, the interval between two pads will be between 15 mm and 30 mm.

[0033] It should be noted that the height of the pads and the spacing between each pad are such that the piping 22 shall in no case touch the support through the flexible area.

[0034] The flexibility of the flexible area allows relative movement between the pads and permits the entire device 10 to run along the surface of a mechanical part to be protected.

[0035] The flexible area 12 can be made of elastic material. Preferably, the flexible area 12 comprises at least one woven layer. A woven layer has the advantage of possessing a high degree of homogeneity and fabric-specific resistance.

[0036] The pads 14-1, 14-2, 14-3 are rigid without being brittle. Preferably, the pads comprise a plastic material, and/or a non-ferrous metal, such as bronze for example. Their rigidity is thus very high. The plastic material provides electrical, and even thermal insulation and absorbs various vibrations between the parts. Non-ferrous metal, such as bronze for example, is not subject to corrosion.

[0037] Advantageously, each pad comprises a plastic or resinous material loaded with material designed to limit abrasion. Thus, the friction resistance of the pad is improved by the material filler adapted to limit abrasion. The pads are progressively polished, which promotes the sliding of the pipe on the support. Advantageously, each pad is obtained through pultrusion, extrusion, multi-extrusion or injection. The pads are thus easily produced, notably with a wall cross-section of various thicknesses so as to create various cross-sections and it is possible to use, in the same cross-section, different materials that are, for example, rigid to prevent abrasion and flexible to absorb vibrations.

[0038] To manufacture the device 10, the flexible area 12 may comprise a mesh, braid or weave, which is placed into contact with each pad 14 during a moulding step of each pad 14. In other manufacturing methods, each pad 14 is secured to the flexible area while still liquid so that the flexible area 12 penetrates the material of the pad 14. The pad 14 and the flexible area 12 are thus particularly well-bonded.

[0039] In some embodiments, the flexible area 12 and the pads 14 are made of the same material, as illustrated in FIG. 3. This block, made of a single material, may be shaped to form the flexible zone and the pads by machining, moulding, injection or extrusion, for example. These embodiments have the advantage of being very inexpensive to manufacture, owing to their manufacturing method, notably when extrusion or pultrusion methods are used.

[0040] In some embodiments, each pad 14 is bonded or welded to the flexible area 12.

[0041] In some embodiments, as illustrated in FIGS. 4 and 5, the pad is made of two materials, one of which encompasses the other to ensure better contact with the parts to be protected and to improve the vibration and shock absorbing capacity. Preferably, the more flexible material 30, such as rubber for example, is encased in the more rigid material 32, such as polyphenylene sulfide (P.P.S.), for example.

[0042] Preferably, during the manufacture of the device 10, a strip of material is produced which is wound into coil. The device 10 is then obtained by cutting off the strip thus manufactured to the dimensions corresponding to the piping and the support to be protected.

[0043] In order to implement the device of the present invention, the following process is applied in order to protect a pipe 22 resting on a support 20: [0044] a step in which a roll of material, described above, is cut between two pads to form a protective device 10. The size of the protective device 10 depends on the parts to be protected. The thickness and the length of the pads 14 depend on the pressure exerted by the piping and expected slippages. Two or three types of pads are considered in order to meet all the requirements for piping ranging in diameter from two to fifty-six inches (approx. 5 to 140 cm). [0045] a step of raising the pipe 22, according to known techniques, [0046] a surface preparation step of at least one said part, of pipe 22 for example, by shotpeening and degreasing for example, [0047] a step of impregnating the prepared surface and/or the flexible area 12 of the device 10, for example with adhesive, of polymerisable resin for example, configured to harden under the effect of radiation, heat or a chemical reaction between components, [0048] a positioning step in a manner such that at least the entire contact surface of one of the pads is parallel to the face of the support intended to receive the pipe, and [0049] a pressing step of the area 12 on the adhesive and on the surface of the prepared part, by banding with at least one tight strap, for example, around the device 10 and pipe 22 that it supports. The adhesive then hardens, thereby bonding the device 10 to the pipe 22.

[0050] Of course, the two surfaces in contact may be subject to separate protection. [0051] a step for installing the pipe 22, according to known techniques

[0052] As can be understood from reading the description above, by joining the flexible area to one of the parts, mechanical protection is achieved between the parts to be protected. The device of the invention also absorbs mechanical vibrations between the protected parts. In addition, the same protective device may be used for different pipe diameters, which thus also reduces the storage and warehousing requirements.

[0053] The flexibility of the device, at least in one direction, limits the need for surface treatment of the parts. The device of the present invention thus limits corrosion between the protected parts. In addition, devices can easily be provided which are adapted to different diameters or sizes of parts to be protected.

[0054] The device of the present invention does not apply only to pipes. It applies in all cases where mechanical parts are in contact and at least one of these parts requires protection from corrosion, vibration, impact, or reaction with a material comprising the other part, for example.