CZ2000388A3 - Piping with reflecting shield for protection of built-in equipment - Google Patents

Abstract

The invention relates to a method for protecting built-in components against the jet of a medium arising from a leak in a line (1). In a first embodiment, a deflecting plate (4) is arranged to plug a possible leak (2) and at least two interspaced line positioning elements (6) are placed above the possible leak (2). The positioning elements (6) are connected to each other by the deflecting plate in non-positive fit. In a second embodiment, positioning elements (6) are placed on the line on both sides of the possible leak (2) and a deflecting plate is arranged to plug the possible leak (2). The deflecting plate (4) is connected to the line by a retaining device to prevent an increase in the distance between the line positioning elements (6) deviating from normal operational mode or exceeding a value which can be predetermined.

Description

Technical field

The invention relates to a pipe having a pipe wall having a possible leak location and a reflective shield positioned so as to bridge the leak location to protect the installations from the flow of media emerging from the leak location.

BACKGROUND OF THE INVENTION

In an industrial plant, such as a power plant, there are pipelines through which the medium under high pressure flows. If we imagine that a leak could occur in such a pipeline, the medium would flow out at high speed. If the emerging media stream hits other tubes or components, damage to these tubes or components could not be excluded.

DE 32 13 821 A1 discloses a pipeline for the transport of environmentally hazardous media having an inner metal tube and an outer protective tube. The outer protective tube is used to check the metal tube. A control line leads from the protective pipe leading to a pressure signaling device.

DE 32 45-548 0-2 discloses a protective device for a pressure conduit in which the conduit in the area of the object to be protected is surrounded by a casing tube, the casing tube being held on the conduit by means of adjusting screws which also serve as spacers.

By means of the casing tube, the flow forces as well as any lateral lateral deflection of the pipeline are reduced or prevented.

A disadvantage of the known protective devices is that a part of the rupture of the ruptured pipeline may be displaced in the axial direction along the pipeline unless the pipeline is fixed in another way. This axial deflection may result in either immediate damage to the assemblies and / or lateral deflection leading to damage if part of the duct runs out of the casing tube.

The invention has the task _x UVE-st pipe or duct, wherein after rupture of the duct is prevented? This means that the assemblies (ducts, components) in the vicinity of the duct are damaged due to the axial deflection of a part of the duct).

SUMMARY OF THE INVENTION

This object is solved by a pipe with a wall of a pipe having a possible leak point and a reflective shield positioned so that it bridges the leak point to protect the installations from the flow of media emerging from the leak point,

(a) pipe positioning devices located above a possible point of leakage in the pipe direction at a certain distance, fixed to the pipe wall;

(b) a holding device mounted on the reflective shield, acting in positive engagement on the positioning duct members in such a way as to prevent an increase in the distance of the positioning ducts deviating from normal operation.

A magnification that deviates from normal operation means a substantial magnification, i. magnification deviating from the condition of the pipeline in normal operation. In the piping according to the first embodiment, slight variations in distance are possible on the one hand, eg due to a temperature change or due to a flexible sealing element, on the other hand undesirable variations in distances are prevented.

The emerging stream of medium impinges on the reflective shield, thus not only returning, but also dispersing and braking. The kinetic energy of the medium after reflection on the reflective shield is no longer sufficient to cause damage to the installations.

In the case in which the described leak increases to the breakage of the conduit, it is largely prevented from breaking or skewing one of the two portions of the interrupted conduit, since the now separated conduit portions are held relative to one another in a positionally stable position. Preferably, not only the movement of the pipeline parts in the axial direction from each other is prevented, but also the lateral movement of the pipeline parts apart which would lead to an axial offset is prevented. Collectively, this improves the protection of the installation relative to the known protective device.

A further advantage of the pipe according to the invention, in which the holding device acts positively on the positioning pipe members, is also that the force connection of the positioning pipe members does not necessarily have to be produced by welding, soldering, gluing, etc. , e.g., by the outer shape of the holding device, which lies in positive engagement on the positioning duct members.

According to a second embodiment, the invention solves the object of the guide mentioned initially, by positioning pipes distant from a possible leak location fixed on the pipe wall, and by a retaining device which is mounted in such a way on a reflective shield that members for positioning above a predetermined value, by positive engagement with the retaining device.

The second embodiment has the same advantages as the first embodiment. The second embodiment is also versatile and easy to manufacture because the force connection of the duct members to define the distance across the reflective shield is not necessarily required. More often, for example, it is sufficient that only in the case of a fracture on the conduit - associated with the movement of the separated portions of the pipe apart - the coupling force acts between the conduit members to define the conduit distance. This coupling force can be generated, in particular, by means of the external shape of the holding device, which then lies by force contact or, as the case may be. acting on the duct members to define the distance.

The term reflective shield ”describes in a suitable x ^ύ both embodiments generally an element that is suitable x to bounce, deflect, disperse or braked, and thus represents a representative for an arbitrarily shaped flat reflector. For example, the reflective shield may have a flat surface or a curved surface, in particular a cylindrical shape. '

The protective device consisting of a reflective shield, positioning ducts and a holding device is generally not gas- or liquid-tight in both embodiments of the invention. Wetting of the installation with leakage-free media must not be prevented. More often, the protective device acts in such a way that the emerging medium does not impact directly and thus - if at all - impinges only at a slight speed on the installation, and this low speed does not cause any damage.

In each of the two embodiments, the positioning duct members may be fixed to the wall of the pipe, for example in the form of a projection. For example, it may be a protrusion on the pipe, which has been created in particular by shaping the outer wall of the conduit. This variant achieves, from a safety-relevant point of view, the advantage that the positioning duct members are fixed to the duct particularly tightly.

For example, the positioning duct members can be attached to the tube wall in a detachable manner in one of the two embodiments, which is preferably manifested in a variety of possible applications. In this way, it is possible in particular to convert existing pipes or ducts in a simple manner. Such positioning duct members can be realized, for example, as a clamping ring or a collar.

In a further preferred embodiment of the pipeline, in one of the two types of embodiment, a fastening device is provided for connection to the fixed site structure. In the case of a pipeline fracture, this has the particular safety-relevant advantage that the entire protective device does not break out of the proposed position due to the applied weight and / or rebound forces, and thus reliably and efficiently prevents parts of the broken pipeline from moving apart.

In particular, with the pipes according to the invention, the advantage is that the medium emerging from the possible leakage at high speed cannot, or can only at a considerably lower speed, come into contact with assemblies which could be damaged by a strong flow of medium.

BRIEF DESCRIPTION OF THE DRAWINGS

Two exemplary embodiments of the pipeline according to the invention are explained in more detail with reference to two schematic figures. In longitudinal section, FIG. 1 shows a pipe in which the positioning members are connected to each other by force contact via a reflective shield fa, and FIG. 2 shows a pipe in which - in the case of a pipe fracture (not shown) - of the spacing members for positioning apart by a special arrangement of the holding device carrying the reflective shield.

DETAILED DESCRIPTION OF THE INVENTION

Pebbles 1 and 2 illustrate a conduit 7 in which, e.g.

leakage has occurred in the weld seam area. 2 of this leak point, the medium M, which is guided through line X under high pressure, can exit at a high speed in the direction of arrow 3. In order that H this medium flow does not interfere with any installations in the vicinity of the pipe 1, a reflective shield 4 is arranged near the possible leakage point 2 in the form of a cylinder which is connected to the pipe X by the holding device 5. that surrounds a possible leak location 2. Reflecting the current of the medium on the chamber wall or on the reflective shield 4, it loses this kinetic energy and can no longer cause any damage. The chamber may have openings that are positioned so that the current passing through them cannot reach any of the assemblies we want to protect. The chamber can also be without fronts.

There are just two of these on the X-pipe

1, annular positioning duct members 6 mounted on line X to surround them. The two positioning members 8 are located on different sides of the leak location with respect to the shield direction 10.

In the exemplary embodiment of the pebble X, the positioning line members 6 are rigidly and very rigidly connected to each other by the indicated first weld connection 6A to the pipe X and by the indicated second weld connection 7 with the holding device 5 and, moreover, by a reflective shield 4 The holding device 5 has two openings 5Ά for passing through the pipe 1.

If the leakage location 2 is extended to a breakage of the pipe X (not shown), lateral or axial deflection of the parts of the pipe X is prevented since the parts are further held in position by the pipe members 6 for positioning. This reduces at least the maximum possible damage at the fracture of the pipeline i.e., since the separate portions of the pipeline χ remain aligned axially, a direct residual medium flow podle from one to the other part of the conduit is maintained under circumstances. Furthermore, damage to the recessed assemblies by the ejected or dropped portions of the pipe X is prevented or at least reduced.

In order to further increase the safety in case of pipeline fracture, the protective device formed by the reflective shield 4, the positioning piping members 6 and the holding device 5 is connected via a fastening device 8 to a stable, rigid structure 9 in the vicinity of the pipe X.

In the exemplary embodiment of FIG. 2, the positioning duct members 6 are not rigidly connected to each other via a reflector. Conversely, in the case of pipeline fractureJ. The movement of the broken portions of the pipe X is prevented from moving apart, in particular by the fact that, due to the arrangement and shape of the holding device 5, it is prevented from increasing the distance of the positioning pipe members 6 beyond a predetermined limit value. In particular, the diameter of the apertures 5A is chosen such that the positioning ducts 6 fixed to the duct X cannot pass through the apertures 5Ά. The limit value d is influenced by the choice of the distance d of the positioning ducts 6 from the holding device 5.

Claims (5)

PATENT FOR .0 K Y 1. Piping C ± ú with a pipe wall having a possible leak point (2) and a reflective shield (4) positioned so as to bridge the leak point (2) to protect the installations from the flow of medium (M) emerging from the point (2) leaks, characterized by a) duct positioning members (6) located over a possible leak location (2) in the duct direction (10) at a certain distance, fixed to the duct wall (/ Qj); b) a holding device (5) mounted on a reflective shield (4), which engages in a positive manner on the positioning members (6) in such a way as to prevent an increase in the distance of the positioning members (6) deviating from the normal traffic. Piping Qg with a pipe wall having a possible leak location (2) and a reflective shield (4) positioned so as to bridge the leak location (2) to protect the installations from the flow of medium (M) emerging from the location (2) ) Leaks, characterized by a) duct positioning members (6) positioned over (i) a possible leak location (2) in the duct direction (10), at a certain distance, fixed to the pipe wall <L ¹ ja on the reflective shield (4) b) a retaining device (5) which is fixed in such a way that the distances of the duct members in excess of the predetermined with the retaining device (5). (4) to value. prevents the expansion of positioning by positive fit A pipe (> 30) according to one of claims 1 to 2, characterized in that the pipe members (6) k The position limiting positions are located on the wall of the tube in the form of a projection. Pipe 09 according to one of Claims 1 to 2, characterized in that the positioning pipe members (6) can be placed on the pipe wall in a removable manner. Pipe 09 according to one of Claims 1 to 4, characterized by a fastening device (8) for connection to the fixed structure (9).