NL8301472A - Sealant for sealing pipe joints - comprises curable elastomer esp. polyurethane and pulverulent filler e.g. rubber crumb - Google Patents

Abstract

A sealant comprises a curable elastomer and a granulated or pulverulent filler. Pref. the elastomer sets to the same hardness as the filler and is compatible with it. It is pref. a two part polyurethane elastomer which includes a curing catalyst in its polyol component. The sealant is useful in sealing leaking pipe joints, partic. bell and spigot pipe joints. The sealing can be carried out quickly and simply and can restore sealing gaskets to their original condition. The joint will still be able to flex and conform to ground settlement.

Description

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Sealant for leaking pipe connections.

The invention relates to a sealant intended to be used in sealing leaky pipe connections, in particular pipe sleeve connections.

Normally, leaks in pipe sleeve joints are closed by encapsulating the entire joint with a suitable resin. The encapsulation method requires the compound to be completely excavated, cleaned by air spraying, primed and protected from adverse weather conditions before applying the resin. This method can therefore be inconvenient, difficult and time consuming in terms of its implementation, especially when the pipe is in use, ie "hot".

In another applicant application, a method of sealing a leaking pipe joint is proposed, wherein sealant is injected directly into the joint such that it flows around the joint to provide an effective seal.

The choice of sealant used in this method is important because, if it does not have a suitable viscosity, it will either flow around the joint or not be retained in the joint.

The object of the invention is to provide a sealant which can be used to seal leaky pipe connections.

According to the invention, there is provided a sealant consisting of a hard hair elastomer and a granular or powdered filler material.

Preferably, the elastomer cures substantially to the same hardness as the filler material, while being compatible therewith. A suitable elastomer is a two-part polyurethane elasto-30 more, while a suitable compatible filler material is rubber crumbs.

A curing catalyst can be introduced into the polyol portion of the polyurethane elastomer to allow curing to take place at a temperature lower than the ambient temperature.

The elastomer preferably has a viscosity of 1900 to 2800 cps (Brookfield RVE4 at 24 ° C), a cure time of 100 g from 4 to 5 minutes (24eC), and a cure hardness of 90 to 96 ° Shore A.

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The amount of filler material required in the sealant will depend to some extent on the severity of the leak. The filler material is mainly present to prevent the elastomer from being blown out of the leaking joint and therefore more filler material will be needed the more severe the leakage. A filler material content of 10 wt% or more, preferably from 18 to 27 wt%, may be suitable, and in fact a filler material content of about 22% has been found to be suitable for most leaks. The particle size of the filler material is also important and it is preferably below 2 mm mesh, in particular below 1 mm mesh.

The sealant can be manufactured by mixing the ingredients in the correct amounts. For a two-part curable elastomer, the filler material is preferably added to only one component, the other component being mixed just before used wort, for example, the crumb material for a polyurethane elastomer is introduced into the polyol component.

The sealant according to the invention can be used in the following method for sealing a leak in a joint of the sleeve type.

First, a portion of the leaking joint is exposed while an injection site is drilled and tapped into the receptacle portion of the joint, which injection site coincides with the joint cavity. A hot tapping connector is attached in the injection site, a hot tapping tool attached to the connector while the injection plate is pierced into the connection cavity. Then the valve union is closed and the hot tapping tool is replaced with a spray gun filled with sealant. The valve connector is then opened while the sealant is injected into the connection cavity. After injecting a sufficient amount of sealant, the valve union is closed and the sealant is allowed to cure. When sufficient time has elapsed for the sealant to cure, the valve union is removed and the connection is leak tested. When the joint 35 is sealed, the injection site is plugged closed, for example with a self-tapping screw.

This method and the inventive sealant are particularly suitable for sealing gas pipe connections because the sealant will be introduced into the leakage sites by means of the escaping gas stream. The process can be done quickly and easily. 8301472 3 * -.

and can restore sealing gaskets to their original condition. Also, the joint will still be able to bend and adapt to subsidence.

Examples of compounds where the sealant can be used include the following:

Snodland connection,

Stanton Wllson connection, connection with a screwed stuffing box, bolt connection with OBT hook according to Stavely, 10 connection with a transverse adjusting screw of Clay, stuffing box connection according to Stanton Bolton,

Stanlock connection,

Lead / yarn connections. f

The invention will now be described by following the example.

Example.

A sealant intended for use in sealing pipe joints is prepared by first mixing together 3.5 parts of polyol, 1 part of rubber crumbs with a particle size less than 2 mm and 0.14 parts of a heavy metal catalyst . 1 part of isocyanate is added locally to this mixture.

The resulting mixture has a viscosity ranging from 1900 to 2800 cps (Brookfield RVF4 at 24 ° C), a 100 g cure time of about 4-5 minutes, and a cure hardness of about 90 to 96 ° Shore A.

A possibility of using the sealant according to the invention will now be described with reference to the accompanying drawings *

Fig. 1 is a sectional view through a gas pipe sleeve joint drilled and tapped to receive a valve union; FIG. 2 is a section through the joint of FIG. 1 with a valve union and hot tapping tool attached;

Fig. 3 is a sectional view through the joint of FIG. 1 with a spray gun mounted.

FIG. 4 is a section through the joint of FIG. 1 with the seal established.

Referring to the drawings, a gas pipe connection has a receptacle portion 12 at one pipe end into which an insert 14 is screwed onto an adjacent pipe end and between which a gasket 16 is compressed.

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The receptacle 12 is partially drilled and tapped to provide a bore 18 for mounting a hot tap connector 20 therein (see Fig. 2).

The coupling piece 20 has a body 21 with a substantially cylindrical cross section with an axial passage 22 therethrough. An end 23 of the body 21 is narrower and has an external screw thread 24 which is intended to be screwed into the bore 18 in the receptacle 12 of the gas pipe connection. An end portion of the passageway 22 opposite the end 23 of the body has a larger diameter than the remainder of the passageway 22 and is internally threaded to fasten a tool 28 for hot tapping or the spray gun 29. The passage 22 is closed or opened by a rotatable valve member 30 having a transverse hole 31. When the through hole 31 is in line with channel 22, either a drill bit 32 or a sealant can be passed down channel 22.

After the connector 20 is fitted, the hot tapping tool 28 is attached to drill a through hole to the junction cavity 40.

The hot tapping tool 28 (Fig. 2) has a hollow cylindrical body 33 with an externally threaded end portion 34 intended to be attached to the valve coupling 20. At the other end of the body 35 there is a cap 35 which is sealingly attached to the body 33 but through which the bar 36 passes, with the bar 36 attached at its top end to a drill bit 38 and with its other end attached to the drill bit 32. A seal is also provided between the cap 35 and rod 36 so that when the valve union is opened and the bore 18 is pierced into the connecting cavity 40, there is no risk of leakage. 30

After drilling, the drill bit is retracted far enough to allow the valve coupling to be closed, after which the hot tapping tool is replaced with the spray gun 29.

The spray gun 29 has a hollow cylindrical body 42 with a valve portion 43 at one end screwed into the valve coupling 20 and a cap 44 at the other end through which a piston 46 passes for pressing sealant 49 into the connection cavity 40 as well as both the valve member 47 of the valve portion 43 when the valve member 30 of the coupling piece are in the open position.

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The sealant 49 (Fig. 4) enters the cavity 40 and flows around the joint. Pressure of fluid into the tube presses the sealant into the leakage sites to form a new seal. When sufficient time has elapsed for the sealant to cure, the spray gun and valve union are removed and the hole 18 closed with a self-tapping screw 50.

It will be clear that the sealant according to the invention is also suitable for sealing leaks in other than sleeve connections, but in particular is suitable for sealing leaks in gas pipe connections.

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Claims (13)

1. Sealing compound, characterized in that it consists of a hard-hair elastomer and a granular or powdered filling material » Sealant according to claim 1, characterized in that the elastomer cures to substantially the same hardness as the filling material and is compatible therewith. Sealant according to claim 1 or 2, characterized in that the elastomer consists of a two-part polyurethane elastomer. Sealant according to claim 1, 2 or 3, characterized in that the filling material consists of rubber crumbs. Sealant according to claim 3 or 4, characterized in that the polyurethane elastomer contains a curing catalyst in the polyol component thereof. Sealant according to any one of claims 1 to 5, characterized in that it has a viscosity of 1900 to 2800 cps (Brookfield RVF4 at 24 ° C). Sealant according to any one of claims 1 to 6, characterized in that it has a curing time of 100 g of 4 to 5 minutes at 24 ° C. Sealant according to any one of claims 1 to 7, characterized in that it has a hardness after curing of 90 to 96 ° Shore A. Sealant according to any one of claims 1 to 8, characterized in that the filler material has a particle size below 2 Μιί * · Sealant according to claim 9, characterized in that the filling material has a particle size of less than 1 mm. 11. Sealant according to any one of claims 1 to 10, characterized in that it has from 10 wt.% Filler material. Sealant according to claim 11, characterized in that it has 18 to 27% by weight of filler material. Sealant according to claim 12, characterized in that it has about 22% by weight of filler material. 8301472