DE4011136C1 - Sleeve for sealing leaking pipe - has rings of shape retaining alloy spaced along periphery of sleeve - Google Patents

Abstract

The metal sleeve (6) for bridging a leakage point (5) in a pipe (2) is placed against the inner surface of a pipe. The peripheral side of the sleeve has rings (7) made of a shape-retaining alloy arranged at set distances apart. The outer surface of the sleeve between the rings possesses a surface roughness with depth of between 0.02 and 0.05 millimetres. The annular components and roughened outer surface have the same outer dia. The surface hardness of the roughened outer surface is higher than that of the pipe. USE/ADVANTAGE - The metal sleeve is inserted into the pipe through which a fluid flows and avoids weakening the pipes and causing crevice corrosion.

Description

The invention relates to a metallic sleeve for over bridging a leakage point of a pipe using the expansion technology on the inner circumferential surface of the pipe can be created.

Such a sleeve is known from EP-A-00 47 407. There the sleeve faces near its top and bottom Ren a section with teeth on. Having these areas in a first step penetrated into the pipe wall by hydraulic expansion are in a second step the between the Teething area also hydraulically raised expands. The one that occurs in the axial direction Shrinking process is said to be the connection between heat buildup Support the shear tube and sleeve in the area of the teeth.

The toothing must be in the direction of the toothless sleeve sen range be inclined to reinforce Digging the teeth after the  to achieve toothless sleeve part. Through the ent standing notches is a weakening of the pipe not be ruled out. Furthermore arises due to the un Different elastic springback of the deformed Materials a gap of approx. 5 to 10 µm between the no toothed sleeve part and the inner wall of the pipe. Because usually through the sleeve too bridging leakage point of the pipe in the area of none Toothed sleeve part is in the area due to leakage entering the gap dium the risk of crevice corrosion.

Furthermore, from the German magazine gwf-Gas / Erdgas (1975), No. 10, pages 412 to 417 a device for Reconstruction of socket pipes known. In the area the stem sleeve becomes the leak with the help of a Sealed adhesive-coated aluminum carrier film. With the aluminum foil up to an inflatable membrane Achievement of the adhesive connection on the inner pipe wall Plant brought. The use of adhesive allows the Use of the known method only where the Adhesive through the medium flowing in the pipeline is not attacked.

It sets itself the task of being independent of that in the medium flowing in the pipeline usable metalli cal sleeve of the type mentioned to specify the a weakening of the pipe and crevice corrosion ver avoids.

This object is achieved in that the sleeve circumferentially at predefinable intervals ring shaped components made of a shape memory alloy arranges that the outer surface of the sleeve between the ring-shaped components have a surface roughness with egg ner profile depth between 0.02 and 0.05 mm has that  the ring-shaped components and the roughened jacket surface che have the same outer diameter and that Surface hardness of the roughened outer surface larger than the surface hardness of the pipe.

Guide the components out of a shape memory alloy the expansion of the sleeve with, so that after Been the expansion process and the feedback that has taken place a gap between the components from the molding memory alloy and the tube is present. Because of The roughened outer surface holds the profile depth Sleeve in position. Reduce the shallow profile depth weakening the pipe. Only when the Operating temperature of the tube will be based on this shape memory alloy due to the shape memory effect expanded to one Create a seal between the sleeve and the pipe. In order to the sleeve / tube connection is completely tight against Leakage.

To achieve a uniform structure of the profile it is provided that the profiling of the lateral surface the sleeve through a layer of a metal coating forms is.

Based on an embodiment, the fiction, moderate metal sleeve described.

It shows

Fig. 1 is a sleeve installed in a tube area and

Fig. 2 shows a sleeve on a larger scale.

Fig. 1 shows the portion of a tube sheet 1 of a heat exchanger, not shown. A multiplicity of tubes 2 ends in the tube sheet, only one of which is shown. The tube 2 is a weld 3 with a plating 4 of the tube sheet 1 verbun the. To bridge a leakage point 5 of the tube 2 , a sleeve 6 is introduced into the tube 2 and connected by widening over its entire longitudinal extent with an area of the tube res 2 located above the tube sheet 1 . In particular, if the sleeve 6 is expanded hydraulically in an area outside the tube sheet 1, for example, a different springback of tube 2 and sleeve 6 occurs, which is expressed in a gap of approximately 5 to 10 μm, which is between the Tube 2 and the sleeve 6 adjusts after the expansion process has ended. The selected profile depth of the sleeve surface area of 0.02 to 0.05 mm ensures that, despite the springback, the structure of the sleeve pressed into the inner wall of the tube 2 during expansion is reliably kept against axial displacement.

Figures shown as a half-section. 2 can be on a larger scale, the fine pore structure of the Profilie tion recognize 8, which may be in the form of a cross-shaped match other current knurling. Due to the relatively small expansion forces per unit area, the connection to the pipe 2 is successful, since, due to the large profile area, a maximum penetration depth of 0.05 mm is sufficient for a reliable connection. The low expansion forces therefore also exclude tube damage if, as shown in FIG. 1, the sleeve 6 is expanded above the tube sheet 1 . The fine-pored structure of the profiling 8 is interrupted by annular components 7 made of a shape memory alloy, which are let into the outer surface of the sleeve 6 at predetermined intervals. The area provided with a profile 8 has the same outer diameter as the components 7 . The thickness of the components 7 is shown larger for better illustration. It is usually about 0.2 mm, so that these components 7 can be formed out of sheet metal. After expansion of the sleeve and after reaching a predetermined temperature, the components 7 will bridge the gap caused by the springback and seal absolutely against leakage.

Claims (2)

1. Metallic sleeve (6) for bridging a leakage point (5) of a tube (2) which can be applied with the aid of Aufweittechnik to the inner wall surface of a pipe (2), characterized in that the sleeve (6) circumferentially annular in predeterminable intervals Construction parts ( 7 ) are assigned from a shape memory alloy that the outer surface of the sleeve ( 6 ) between the annular components ( 7 ) has a surface roughness with a profile depth between 0.02 and 0.05 mm, that the annular components and the roughened man telfläche have the same outer diameter and that the surface hardness of the roughened outer surface is greater than the surface hardness of the tube. 2. Metallic sleeve according to claim 1, characterized in that the profiling of the outer surface of the sleeve ( 6 ) is gebil det by a layer of a metal application.