BE1025548B1 - SHUT-DOWN ELEMENT FOR TESTING LEAKAGES - Google Patents

Abstract

The present invention describes a closure element for testing leaks in an asymmetrical tube, consisting of a circular or non-circular closure element surrounded by one or more sealing elements.

Description

CLOSING ELEMENT FOR. TESTING OF LEAKS

TECHNICAL FIELD OF THE INVENTION

The present invention describes a closure element for testing leaks in an asymmetrical tube, consisting of a circular or non-circular closure element surrounded by one or more sealing elements.

BACKGROUND OF THE INVENTION

To check the tightness of pipes or pipe systems, a test chamber is typically formed along a test section of a pipe or pipe system, such as a sewer pipe, by sealing two points in the pipe system with cuffs or inflatable plugs of various materials, such as for example in GB 1506035 which describes a plug with bolts, CN2058489 which describes a pneumatic rubber plug and CN2392067 which describes a rubber ball. The test chamber thus formed is subjected to an under or over pressure which is checked during a test period. A problem with these systems is that any pressure losses can not only be due to a leaking pipe or pipe system, but can also occur due to a poor seal on the pipe wall by the sealing units used in building up the measuring chamber.

There are closure systems such as in the invention of US5741014A, but these differ from the present invention for the following reasons; A) in its application as it is used for laying cables, in contrast to the present invention, where the application is more focused on detecting leaks. B) the present invention is applicable in various sizes and shapes of tubes where, in our understanding, the system of US574104A is only for closing with clamps in a symmetrical tube. If it can be used in an asymmetrical tube, then there will remain open spots or holes and therefore the system of US574I0I4A is not efficient for leak testing. C) It uses clamps and rods with sealing elements to hold the concentric inflatable band in place for cables to be inserted. D) There is no measuring system in US574I0I4A to detect leaks in subsurface pipes. The present invention is designed differently from our perspective and in comparison and also has a different application. There is also the use of gel as a sealing element.

A similar invention is described in DE 102004023175 B3 and consists of A) an inflatable sealing element, which consists of two inflatable tubes separated by a spacer to place a scanning element to detect leaks, and an additional sealing element

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- 2 to be used in the case of a cross connection. B) For this invention, it is clear that the distance between the sensor surfaces and between the sealing elements, which are not properly sealed, leads to incorrect leak detection. C) In addition, this may not work in an asymmetrical tube. D) The volume of the test chamber is large in contrast to our invention, which is more flexible, uses little space and allows detecting a leak at small corners. Finally, the invention of US 3667640 is A) designed differently in the sandwich form of an inflatable tube between two metal plates and compression plug B) as well as in applications where it is used for laying telephone or high voltage power supply cables and C) furthermore does not contain any sensor system.

It is known that the inflatable plugs do not close properly in symmetrical tubes, and that the problem even increases in asymmetrical tubes. It is an objective of the present inventions to provide a solution to this by providing a sealing element specially designed for asymmetrical tubes, the sealing element consisting of a non-circular sealing element surrounded by one or more sealing elements. Using such closure elements, the present invention also provides a method for testing leaks in an asymmetrical tube.

SUMMARY OF THE INVENTION

The present invention provides a circular or a non-circular sealing element for testing leaks in an asymmetrical tube, consisting of a concentric sealing element, ie concentrically with respect to the inner wall of the asymmetrical tube, which is surrounded by one or more sealing elements, characterized in that these one or more sealing elements are formed towards the space between the inflatable band on the closing element and the inner wall of the asymmetrical tube.

In one embodiment, the one or more sealing elements consist of an elastic and airtight material, preferably with a Shore A hardness ranging from 40 to 70, even more particularly a 2-component product.

In a first embodiment as shown in Figures 1, 2 and 4, the closing element consists of a closed chassis (3), which can be circular (Figures I & 2) or non-circular (Figure 4), and which is provided with guiding elements (4) for an inflatable tire (5), and wherein the chassis (3) is provided with a connection point for a pressure line (I0) and with a pressure measurement point (12).

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- 3 In another embodiment (Figure 3, the closing element consists of a career-like open chassis (3), which can be circular or non-circular again (Figure 3), and which is provided with comprising guiding elements (4) for an inflatable tire (5), and wherein the chassis (3) is provided with a connection point for a pressure line (10) and with a pressure measurement point (12).

In addition, in each of the aforementioned embodiments, the closing element can also be provided with (optionally detachable) provisions for the one or more sealing elements which are placed in the space between the inflatable band on the closing element and the inner wall of the asymmetrical tube. These provisions, hereinafter also referred to as holder (s), prevent the one or more sealing elements from being pushed out of the space between the sealing element and the inner wall of the asymmetrical tube when the sealing element is placed under pressure.

It is also an objective of the present invention to provide a method for testing leaks in an asymmetrical tube, characterized in the use of one or more sealing elements according to one of the preceding claims.

Furthermore, the present invention provides for the use of an elastic and airtight material, preferably a 2-component product, such as a two-component silicone rubber, in a method for testing leaks in an asymmetric tube, more particularly in a method for testing of leaks in an asymmetrical tube where a non-circular sealing element is used.

The present invention thus relates to a closing element (I) for testing leaks in an asymmetrical tube (2), consisting of a circular, non-circular or runner-like chassis (3) for an efficient airtight seal, comprising leading elements ( 4) for an inflatable tire (5), and provisions (I0) for one or more sealing elements (6), characterized in that these one or more sealing elements are formed towards the space between the inflatable tire on the circular, non-circular or running track shape-like chassis and the inner wall of the more asymmetrical tube (I).

In the closing element (I) as described herein, the one or more sealing elements (4) preferably consist of an elastic and airtight material; in particular from an elastic and airtight material, for example a type of material with properties with a Shore A hardness ranging from 40 to 70; more in particular from a 2-component product.

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- 4 In a further embodiment of the closing element (I) as described herein, the chassis (3) is provided with a connection point for a pressure line (10).

In a further embodiment of the closing element (I) as described herein, the closing element (I), in particular the chassis, is provided with a pressure measuring point (I2).

In a preferred form, the closing element (I) as described herein also comprises provisions (holders) (I3) for the one or more sealing elements, in particular for the silicone sealing elements. In order not to impede access to the space between the inflatable band on the closing element and the inner wall of the asymmetrical tube too much, in a preferred form according to the invention one or more of these silicone holders (I3) will be removable. As already described above, these provisions (I3) prevent the one or more sealing elements (6) from being pushed out of the space between the inflatable tire on the closing element (I) and the inner wall of the asymmetrical tube (2).

It is also an objective of the present application to provide a method for efficiently testing leaks in an asymmetrical tube (2), using one sealing element (I) according to one of the embodiments as shown and described herein. This also includes the use of an elastic and airtight material, preferably a two-component product, for example a two-component silicone rubber in a method for testing leaks in an asymmetrical tube (2), more particularly in a method for testing leaks in an asymmetrical tube with the aid of a sealing element (I) according to one of the embodiments as shown and described herein.

The invention encompasses further embodiments, which can be described on the basis of the following numbered embodiments and combinations thereof.

I. A closing element (I) for testing leaks in an asymmetrical tube (2), consisting of a circular, non-circular or career-like chassis (3) for an efficient airtight seal, comprising guiding elements (4) for an inflatable tire (5), and provisions (I3) for one or more sealing elements (6), characterized in that these one or more sealing elements are formed towards the space between the inflatable tire on the circular, non-circular or career-shaped chassis and the inner wall of the more asymmetrical tube (I).

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The closing element (I) as described in claim I, wherein the circular, non-circular or track-like chassis (3) is made up of mountable components (8).

The closure element (I) as described in claim 2, wherein the mountable components (8) are provided with guide elements (4) for the inflatable tire (5), and with elastic sealing elements (9) between the components (8).

The closing element (I) as described in claim I or 2, wherein the one or more sealing elements (6) consist of an elastic and airtight material

The closing element (I) as described in claim I, wherein the one or more sealing elements (6) consist of an elastic and airtight material, for example a type of material with properties with a Shore A hardness ranging from 40 to 70.

The closing element (I) as described in any one of the preceding claims, wherein the one or more sealing elements (6) consist of a 2-component product.

The closing element (I) as described in any one of the preceding claims, wherein the chassis (3) is provided with a connection point for a pressure line (I0).

The closing element (I) as described in claim 7, wherein one or more of the mountable components (8) are provided with a connection point for a pressure line (I0).

The closing element (I) as described in any one of the preceding claims, wherein the closing element (I) is provided with a pressure measuring point (I2).

The closing element (I) as described in claim 9, wherein one or more of the mountable components (8) are provided with a pressure measuring point (I2).

The closing element (I) as described in any one of the preceding claims, wherein the closing element (I) is provided with silicone holders (I3) that can be used as more symmetrically for the one or more sealing elements (6).

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The closing element (I) as described in claim 11, wherein one or more of the mountable components (8) is provided with asymmetrically applicable silicone holders (I3) for the one or more sealing elements (6).

The closure element (I) as described in claim 7, wherein the silicone holder (13) is removable.

The closure element (I) as described in claim 7 or 8 wherein the holder (I3) prevents the one or more sealing elements (6) from the space between the inflatable band on the closure element (I) and the inner wall of the asymmetrical tube (2) are pushed away.

A method for efficiently testing leaks in an asymmetrical tube (2), using one sealing element (I) according to any one of the preceding claims.

16. The use of an elastic and airtight material, preferably a two-component product, for example a two-component silicone rubber in a method for testing leaks in an asymmetrical tube (2), more particularly in a method for testing leaking into an asymmetrical tube with the help of at least one closing element (I) according to one of the preceding claims.

BRIEF DESCRIPTION OF THE FIGURES

With specific reference to the figures, it is emphasized that the details shown are for exemplary purposes only and only for the illustrative discussion of the various embodiments of the present invention. They are presented with the aim of providing what is seen as the most useful and straightforward description of the principles and conceptual aspects of the invention. In this regard, no attempt is made to show more structural details of the invention than is necessary for a fundamental understanding of the invention. The description in combination with the figures makes it clear to those skilled in the art how the various forms of the invention can be practiced.

REFERENCES FIGURES LIST

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1. Sealing element (circular or non-circular)

2. Tube (Symmetrical or Asymmetrical)

3. chassis (mountable or non-mountable)

4. Guiding elements

5. Inflatable tire

6. Multiple sealing elements, e.g. Silicone, elastic rubber

7. Measurement space e.g. for pressure gauge or other sensor

8. Mountable components

9. Rubber elastic sealing element between the components

10. Connection point for a pressure line

I I. Connection point for a pressure measurement point

12. Connection point for inflating the tire

13. Provisions for the sealing elements (mountable or non-mountable)

FIG. I: Specific embodiment of a shut-off element for testing leaks in a symmetrical tube (2), consisting of a circular shut-off element (I), which is surrounded by a plurality of sealing elements (6), characterized in that said plurality of sealing elements are formed towards the space between the circular closing element (I) and the inner wall of the symmetrical tube (2). Furthermore, the closing element (I) is provided with an inflatable tire (5) with a connection point for inflating the tire (I2), a connection point for a pressure line (I0) and a pressure measurement point (I I). In this embodiment, the inflatable band (5) touches the inner wall of the symmetrical tube (2) in some places.

FIG. 2: Specific embodiment of a closure element for testing leaks in a symmetrical tube (2), consisting of a circular closure element (I), which is surrounded by a plurality of sealing elements (6), characterized in that these plurality of sealing elements are formed towards the space between the circular closing element (I) and the inner wall of the symmetrical tube (2). Furthermore, the closing element (I) is provided with an inflatable tire (5) with a connection point for inflating the tire (I2), a connection point for a pressure line (I0) and a pressure measurement point (II). In this embodiment, the inflatable band (5) does not touch the inner wall of the symmetrical tube (2), but is completely surrounded by the sealing element formed towards the space between the sealing element and the inner wall of the tube.

FIG. 3 (front) and Figure 3a (side): Specific embodiment of a non-circular

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- 8 shut-off element (I) for testing leaks in an asymmetrical tube (2), consisting of a chassis-like chassis (3) that can be mounted on a career, built up of various components (8) for an efficient airtight seal, comprising leading elements (4) for an inflatable tire (5), and provided with rubber-elastic sealing elements (9) between the components (8), with forms of and a measuring space, for example for pressure gauge or other sensor (7) between the mountable components (8), and furthermore a plurality of sealing elements (6) formed to and placed in the space between the inflatable band (5) on the non-circular sealing element (I) and the inner wall of the asymmetrical tube (2).

FIG. 4 Shows another embodiment of a non-circular closing element (I) for testing leaks in an asymmetrical tube (2), consisting of a mountable chassis-like chassis (3) for an efficient airtight seal, composed of various components (8) ), comprising guiding elements (4) for an inflatable tire (5), and provided with rubber elastic sealing elements (9) between the mountable components (8), further characterized in that one or more of the components (8) are provided with a connection point to inflate the tire (I2), a connection point for a pressure line (I0) and a pressure measurement point (II), furthermore having a plurality of sealing elements (6) formed to and placed in the space between the inflatable tire (5) on the non-circular sealing element (I) and the inner wall of the asymmetrical tube (2), and wherein one or more of the components (8) are provided with removable holders (I3) for holding the sealing element elements (6) in the space between the inflatable tire (5) on the non-circular sealing element (I) and the inner wall of the asymmetrical tube (2).

DETAILED DESCRIPTION OF THE INVENTION

The present invention provides a closure element (I) for testing leaks in an asymmetrical tube (2) consisting of a circular or a non-circular closure element (3), which is surrounded by one or more sealing elements (6), characterized in that these one or more sealing elements (6) are formed towards the space between the non-circular sealing element (I) and the inner wall of the asymmetrical tube (2), ie towards the space between the inflatable band (5) on the non-circular sealing element (I) and the inner wall of the asymmetrical tube (2)

In one embodiment, the one or more sealing elements (6) consist of an elastic and airtight material, such as, for example, a liquid natural rubber that forms an elastic layer after hardening, but preferably a 2-component product, such as a two

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- 9 component polycondensation silicone rubber with a specific weight between 0.1 and 2 g / cm ³ . In a special embodiment, the material from which the one or more sealing elements are made has an elasticity with a Shore A hardness ranging from 40 to 70; in particular ranging from 45 to 65. Within this range of medium soft to medium hard material, the material has sufficient hardness to withstand working pressures in the sealing system and yet still has the necessary elasticity to guarantee the seal even on a rougher surface . This ensures at all times that the sealing element (I) realizes a sealing gasket, irrespective of the shape of the inner wall of the asymmetrical tube (2), whereby measurements are not disturbed by any losses at the height of the space between the circular or not -circular sealing element (I) and the inner wall of the asymmetrical tube (2). By making use of a two-component product, the sealing elements (6) can be made to measure in function of the circular or non-circular sealing element (I) and the asymmetrical tube (2) in which one wishes to use the sealing element (I). As shown in figures 1 and 2, the closing element (I) is placed for this purpose in a section of the asymmetrical tube (2) and the space between the inner wall of the asymmetrical tube and the non-circular closing element is filled with the two-component product, at preferably a two-component silicone rubber which can be poured into the aforementioned space prior to curing. The current application therefore also comprises the use of an elastic and airtight material, preferably a 2-component product, such as a two-component silicone rubber, in sealing the space between a circular or a non-circular sealing element (I) and the inner wall of an asymmetrical tube (2). It therefore comprises the use of an elastic and airtight material, preferably a 2-component product, such as a two-component silicone rubber in a method for testing leaks in an asymmetrical tube (2), more particularly in a method for testing of leaks in an asymmetrical tube (2) where a circular or a non-circular sealing element (I) is used.

In a specific embodiment, the closing element (I) is provided with an inflatable tire (5), which is inflated until the tire exerts sufficient pressure against the wall of the asymmetrical tube (2). The space between the asymmetrical tube (2) and the tire (5) is closed by one or more sealing elements (6) formed to the space between the circular or non-circular sealing element (I) with inflatable tire (5) in the non-inflated state and the inner wall of the asymmetrical tube (2). When inflating the tire (5) in the circular or non-circular sealing element (I), the one or more sealing elements (6) are pressed against the inner wall of the asymmetrical tube (2). Since they are preformed to the space between the closing element (I) with inflatable band (5) in not inflated

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- condition and the inner wall of the asymmetrical tube (2), and consisting of an elastic and airtight material, they guarantee a sealing gasket between the inner wall of the asymmetrical tube and the non-circular sealing element (I). To inflate the tire (5), it can be provided with a connection point (12).

By making use of the closing elements according to the present invention, a measuring chamber is created in the asymmetrical one that one wishes to test. Either this chamber is created by using two closed closing elements as shown, for example, in Figs. 1, 2 and 4, the measuring chamber being formed between the closing elements, or the measuring chamber forms part of the closing element as shown, for example, in Figure 3.

As indicated above, the measuring chamber is placed under or under pressure during testing. This is preferably done by air. In comparison with existing test systems that use a liquid (water), the saturation times of the materials are much shorter. As a result, a measurement can be carried out faster and it becomes affordable to perform multiple measurements along the entire length of the piping system. In order to realize these measurements by means of air pressure, the measuring chamber is therefore preferably provided with a connection point for a pressure line (10). In principle, the measurement of pressure changes in the measuring chamber can take place via the same line as the one with which the test chamber was brought under pressure or over pressure, and therefore no additional pressure measuring point is required in the measuring chamber. However, the sensitivity of the system increases if the pressure measurement is via a separate line. Thus in a specific embodiment the closing element is (also) provided with a pressure measuring point (II).

Moreover, the closing element (I) can be provided with an (optionally mountable or removable) holder (13) for the one or more sealing elements (6) .This holder (13) prevents the one or more sealing elements (6) from leaving the space between the The closing element (I) and the inner wall of the asymmetrical tube (2) are pushed away when the closing element is placed under pressure (under or over pressure), so that the risk of pressure losses during a measurement becomes virtually non-existent. may be made of various materials, preferably metal In a possible embodiment, the holder (13) consists of one or more plate-shaped elements which may or may not be detachably present on the non-circular closing element (I), thus forming an upstanding edge against which the one or more sealing elements (6) are placed in. Such plate-shaped elements are present at least on the underpressure side, preferably on both sides of the locking element (I).

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It is also an objective of the present invention to provide a method for testing leaks in an asymmetrical tube (2), characterized in the use of one or more sealing elements (I) according to one of the preceding claims. During testing, the inflatable rubber tires, from the closing element (s) are connected to an filling system with an air hose. Both tires are inflated, the measuring space (7) between the circular or non-circular closing element (I) and the inner wall of the asymmetrical tube (2) being sealed with the tire and the sealing elements (6) as described above. A hose is also provided to supply the measuring space (7) in or between the one or more closing elements (I) with over or under pressure, the measuring space being filled with over pressure or under pressure between through a pressure line (10) and I mbar respectively and 8 bar; and I mbar and I bar; in particular with an overpressure between 1 mbar and 5 bar; or an underpressure between I mbar and I bar; more in particular, an overpressure or underpressure between Ibarbarians and Ibar.

Before proceeding to the actual measurement, a short equalization period (ranging up to a 30 minutes, to a 15 minutes, to a 10 minutes, to a 5 minutes) is provided after realization of the overpressure or underpressure. Due to the use of air, the saturation times for the typical pipe materials have already been reached after 5 minutes, which gives rise to very short equalization times. By means of the connection for a pressure measuring point (II), the software's own losses, such as those described in BE 1014255, measure any losses that occur. This is preferably done by a separate hose which is / is connected to a pressure measuring point (I I) on the closing element (s).

With reference to Figures 3 and 4, an additional feature of the embodiments shown therein is the modularity of the closure element to the dimensions of the asymmetrical tube by the construction of the closure elements from different components (8), which are each provided with elastic sealing elements ( 9) between the components to ensure an efficient airtight seal. By being composed of several components it is possible to get the closing elements through the manholes in the sewer system and to mount them in the sewer. Moreover, a narrower tube can for instance be closed by only two instead of the three straight pieces shown in figures 3 and 4, which exemplifies the modularity of these closing elements. Thus, in a further embodiment, the chassis (3) of the closing element according to the present invention is composed of different components (8), comprising leading elements (4) for an inflatable tire (5), and provided with (preferably rubber) elastic sealing elements (9) between the mountable components (8), further characterized in that one or more of the

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- 12 components (8) are provided with a connection point for inflating the tire (12), a connection point for a pressure line (10) and / or a pressure measurement point (II).

With the aid of the invention described above, a very adequate sealing element is provided which, in contrast to the existing plugs, provides an excellent seal in non-concentric tubes.

Claims (15)

CONCLUSIONS A closure element (I) for testing leaks in an asymmetrical tube (2), consisting of a circular, non-circular or career-like chassis (3) for an efficient airtight closure, comprising an inflatable tire (5) leading elements (4) for the inflatable tire (5), and provisions (I3) for one or more sealing elements (6), characterized in that these one or more sealing elements are formed towards the space between the inflatable tire on the circular, non-circular or career-shaped chassis and the inner wall of the more asymmetrical tube (I). The closing element (I) as described in claim I, wherein the circular, non-circular or track-like chassis (3) is made up of mountable components (8). The closure element (I) as described in claim 2, wherein the mountable components (8) are provided with guide elements (4) for the inflatable tire (5), and with elastic sealing elements (9) between the components (8). The closing element (I) as described in claim I or 2, wherein the one or more sealing elements (6) consist of an elastic and airtight material The closing element (I) as described in claim I, wherein the one or more sealing elements (6) consist of an elastic and airtight material, for example a type of material with properties with a Shore A hardness ranging from 40 to 70. The closing element (I) as described in any one of the preceding claims, wherein the one or more sealing elements (6) consist of a 2-component product. The closing element (I) as described in any one of the preceding claims, wherein the chassis (3) is provided with a connection point for a pressure line (I0). The closing element (I) as described in claim 7, wherein one or more of the mountable components (8) are provided with a connection point for a - 14 BE2018 / 5262 pressure line (ΙΟ). The closing element (I) as described in any one of the preceding claims, wherein the closing element (I) is provided with a pressure measuring point (I2). The closing element (I) as described in claim 9, wherein one or more of the mountable components (8) are provided with a pressure measuring point (I2). The closing element (I) as described in any one of the preceding claims, wherein the closing element (I) is provided with silicone holders (I3) that can be used as more symmetrically for the one or more sealing elements (6). The closing element (I) as described in claim 11, wherein one or more of the mountable components (8) is provided with asymmetrically applicable silicone holders (I3) for the one or more sealing elements (6). The closure element (I) as described in claim 7, wherein the silicone holder (13) is removable. The closure element (I) as described in claim 7 or 8 wherein the holder (I3) prevents the one or more sealing elements (6) from the space between the inflatable band on the closure element (I) and the inner wall of the asymmetrical tube (2) are pushed away. A method for efficiently testing leaks in an asymmetrical tube (2), using one sealing element (I) according to any one of the preceding claims. 16. The use of an elastic and airtight material, preferably a two-component product, for example a two-component silicone rubber in a method for testing leaks in an asymmetrical tube (2), more particularly in a method for testing leaking into an asymmetrical tube with the help of at least one closing element (I) according to one of the preceding claims.