NL1006313C2 - Pipe connection. - Google Patents

Description

Short designation: Tube connection.

The invention relates to a pipe connection for sealingly connecting two pipe parts of a pipe for transporting a first medium through an environment with a second medium, comprising two spaced apart resilient sealing elements.

Such a pipe connection is known from US-A-3 990 730. It shows a pipe connection which sealingly connects a pipe part with a spigot end and a pipe part with a socket end. Inside the socket end, two axially spaced grooves are provided in which two flexible sealing elements are incorporated.

Such connections, when using permeation-tight pipes per se over the conventional, with only one sealing element, have the advantage that contamination from one medium to another is less easy to pass through the pipe connection itself. After all, if only one sealing element is used, even if it is in itself well resistant to the undesired medium, it will become saturated with that medium in a more or less short time and then deliver that medium to the other medium. Calculations for various media in combination with different materials for the seals (rubbers, resilient plastics) have shown that such compounds can also penetrate through such amounts of medium that the pollution (for example drinking water in permeation-tight pipes lying in soil contaminated with liquid hydrocarbons) can exceed the limit values after just a few months. The use of two sealing elements some distance apart can already greatly reduce this problem. However, if both sealing elements are of the same material, problems may arise with the compatibility of that material 1006313-2 - with the media. For example, not all materials are permitted for use with drinking water. And the types that are are usually not very resistant to many unwanted media, so that the use of two sealing elements of the same material is not possible. Another problem may be that only very expensive sealing materials, such as certain fluorinated rubbers, are suitable for use with certain polluting media. If, for precaution, such a resistant material is chosen for both seals, the cost of a pipeline can become unnecessarily high.

The object of the present invention is to provide a pipe connection which is permeation-tight and obviates the aforementioned drawbacks.

According to the invention, this object is achieved in that the two resilient sealing elements consist of chemically different materials, each material being suitable for use with the medium with which it comes into contact, and that the two resilient sealing elements are separated from each other by a permeation or diffusion inhibiting layer. By using two sealing elements of different material, which are furthermore separated from each other by a permeation or diffusion-inhibiting layer, contamination from one medium to the other medium is sufficiently reduced to cause no more problems. This provides a simple and inexpensive pipe connection which is suitable for use with permeation-tight pipes. Examples of such pipes, which do not in themselves allow permeation of media, are: metal pipes such as steel, cast iron and aluminum, furthermore vitrified clay pipes, and plastic pipes with a metal intermediate layer such as PEX (cross-linked polyethylene) with an aluminum layer. However, compounds according to the invention can also be used for other house types.

It is noted that US-A-4 153 261 discloses a pipe connection with two annular elements of chemically different material. However, only one of the two elements is resilient and has a sealing function. The other element is a polyurethane foam body with a basic substance incorporated therein. The foam body has no sealing function, but is placed only to protect exposed metal surfaces of the pipe joint. The protection results from hydration of the basic substance by surrounding water, whereby the basic substance is gradually released from the polyurethane foam. For proper operation it is important that the foam body is slightly permeable to water in order for the basic substance to react with the water. Over time, the water causes degradation of the polyurethane foam body, gradually exposing additional amounts of basic substance contained therein. The hydration causes the basic substance, for example Portland cement, to form a stony mass. This takes away the entire resilience of the foam body and makes it impossible to disassemble the pipe joint without damaging the foam body. In particular, the permeation or diffusion-inhibiting layer is formed by an air layer or metal layer enclosed between the two sealing elements. The stationary air layer will delay the diffusion of a contaminating medium from one of the sealing elements sufficiently so that the contaminating medium will hardly diffuse into the next sealing element. The metal layer will ensure that no transport of the unwanted medium is to be expected at all.

Further preferred embodiments of the invention are set out in claims 4 and 5.

The invention will be explained in more detail with reference to the appended drawing, in which: fig. 1 shows a first embodiment of the pipe connection according to the invention; and Fig. 2 shows a second embodiment of the pipe connection according to the invention.

In Fig. 1, a socket end of a first pipe section 10 and a spigot end of a second pipe section 11 are pushed together. Two spaced circumferential grooves 14, 15 are provided in the spigot end in axial direction 1006313-4. A resilient sealing element 16 and 17 is arranged in each of these grooves 14, 15. The resilient sealing elements 16, 17 are both formed by sealing rings. In the space between the two sealing rings 16, 17, the inner wall of the socket end of the first pipe part 10 and the outer wall of the spigot end of the second pipe part 11, a permeation or diffusion-reducing layer is provided, which in the embodiment shown 10 is formed by a sleeve-shaped aluminum element 19. The sleeve-shaped aluminum element 19 between the two sealing elements 16, 17 can also be omitted, so that instead a stationary air layer is present between the two sealing elements 16, 17.

The conduit formed by the two connected pipe parts 10, 11 serves to transport a first medium 21 through an environment with a second medium 22. Permeation through the walls of the pipe parts 10, 11 as well as through the pipe connection of the one medium to the other medium is undesirable. To this end, the two resilient sealing elements 16, 17 are made of chemically different materials, each of which is suitable for use with the medium with which they come into contact. For example, if the first medium 21 is drinking water, and the second medium 22 is contaminated soil, then the resilient sealing element 16 that comes into contact with the drinking water can consist of drinking water suitable and approved material such as, for example, approved EPDM or SBR. The resilient sealing element 17 that comes into contact with the contaminated soil 22 may consist, for example, of fluorinated rubber, such as Viton®, for the case of aromatics present in the soil, of NBR for the case of chlorinated hydrocarbons present in the soil, or of chloroprene for oils and fats that pollute the soil.

The operation of the pipe connection can be explained as follows. The sealing element 17 which comes into contact with the contaminating agent in the second medium 22 eventually becomes saturated therewith, although the sealing element 1 per se is resistant to the contaminating agent. The contaminating agent will then want to diffuse therefrom on the side of the sealing element 17 facing away from the contaminating medium 22. However, it must do this in a space in which the aluminum element 19 or the stationary air layer is present. This will delay the diffusion of the contaminating agent from the sealing element 17 in such a manner that the contaminating agent will hardly, if at all, end up at the sealing element 10. This strong inhibiting effect of the pipe connection according to the invention is not only important for pipes for drinking water in contaminated soil, but can also be used for industrial sewers through which water containing chemicals is transported. In that case, the chemicals must not enter the surrounding clean soil.

Fig. 2 shows an embodiment of a pipe connection according to the invention in which two pipe parts 30, 31 are both provided with a flange part extending in radial direction. The two flange parts can, for example, be bolted together. Two grooves 34, 35 and 34 ', 35' spaced apart in the radial direction are arranged in the two sides of the flange parts facing each other. Two resilient sealing elements 36, 37 are accommodated in both grooves 25, 34. The space between the two sealing elements 36, 37 and the inner sides of the two flange parts is filled by a metal ring 39. The operation of this embodiment of the pipe connection is the same as that of Fig. 30 1.

Thus, by using two resilient sealing elements of chemically different material, which sealing elements are separated from each other by a permeation or diffusion-inhibiting layer, such as air or a metal layer, a very reliable, simple and inexpensive permeation-tight pipe connection is obtained. Many variants are of course conceivable on the embodiments shown.

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Claims (5)

Pipe connection for sealingly connecting two pipe parts (10, 11) of a pipe for transporting a first medium (21) through an environment with a second medium (22), comprising two spaced resilient sealing elements (16, 17), characterized in that the two resilient sealing elements (16, 17) are made of chemically different materials, each material being suitable for use with the medium (21, 22) it contacts, and the 10 two resilient sealing elements (16, 17) are separated from each other by a permeation or diffusion inhibiting layer (19). Pipe connection according to claim 1, characterized in that the permeation or diffusion-inhibiting layer (19) is formed by an air layer enclosed between the two sealing elements. Pipe connection according to claim 1, characterized in that the permeation or diffusion-inhibiting layer (19) is formed by a metal layer enclosed between the sealing elements (16, 17). Pipe connection according to one of the preceding claims, characterized in that one of the sealing elements consists of EPDM or SBR. Pipe connection according to one of the preceding claims, characterized in that one of the sealing elements 30 consists of fluorine rubber, such as, for example, Viton®, of NBR or of chloroprene. 1006313