SE534047C2 - Pipe or cable penetration with part indicating compression - Google Patents

Abstract

Compressible seal or lead-through for cables, wires or pipes, with twin or fl your compressible base parts (102, 104, 202, 300, 400, 500) surrounding each cable, wire or pipe. The seal or bushing is arranged either directly in a single opening through a wall or structural divider forming the wall or other divider or in a frame, whereby a barrier is formed by the two or two base parts and at least one compression unit either in the opening or the frame. Each compressible base part has at least one peelable sheet (10, 508) for adapting to the diameter of a cable, single wire or a tube, said at least one peelable layer being arranged in an axial groove of each compressible base part. At least one end surface of two cooperating compressible base parts has a concave shape such that a flat end surface is obtained at correct compression. Published with fi g. 3.

Description

25 30 35 534 04? against liquid, gas, fire, rodents, ternites, dust, moisture, etc. and can receive cables or wires for electricity, communication, computers, etc., pipes for various gases or liquids such as water, compressed air, hydraulic fluid and household gas or wires for kra fl relief.

The parts that receive an individual cable etc. for both types discussed above often have a set of peelable layers or layers on the inside. The bearings or layers are peeled off one at a time until the inner diameter of the part is adapted to the outer diameter of the cable received in the part. The layers stick together strongly enough to hold together and at the same time loose enough for it to be possible to peel the layers from the stack, either one at a time or a number of layers together. In some embodiments, there are also peelable layers or layers on the outside, which makes it possible to adapt the outer dimensions of, for example, a circular seal to a specific opening or sleeve.

One skilled in the art will appreciate that the exact shape and appearance of the various parts, including the bearings, may vary without departing from the present inventive concept.

For example, the bearing stack may have a different cross-sectional shape than circular.

When using a compressible seal or bushing in a sealing system, the problem of providing appropriate compression can arise.

Applicant has solved the problem of providing appropriate compression when a certain type of device is used for the compression using a compression indicator.

The compression indicator is described in detail in WO 2007/097706. Although it is suitable for its purpose, there is a need for an even more flexible compression indicator and to provide one is an object of the present invention.

Summary The above object is achieved by means of a compressible seal or bushing according to claim 1, which within its scope also includes a second advantageous object, which is described in the detailed description. Preferred embodiments are described in the subclaims.

For this purpose, the present invention provides a compressible seal or bushing for cables, wires or tubes having two or two compressible base members surrounding each cable, wire or pipe, which seal or bushing is located either directly in an opening in a wall or other divider. constituting the wall or other divider, or in a frame, whereby a barrier is formed by the two or more base parts and at least one compression unit in either the opening or the frame. Each compressible base part has at least one peelable layer for adapting to the diameter of a cable, a wire or a pipe, which at least one peelable layer is arranged in an axial groove of each compressible base part. At least one end surface of two cooperating base parts has a curved shape. Within the scope of the present invention, the curved shape results in one of the following two technical effects: l) If the end surface has a convex shape, in two or three dimensions, it will achieve the effect of an increased mass of the compressible base parts, which in turn will, for example, to increase the resistance of the base parts to fire. 2) If the end surface has a concave shape, in two or three dimensions, the shape of the end surface can easily be used as a compression indicator. For example, it can be dimensioned in such a way that it results in a flat end surface once the base parts are compressed to the right degree.

In one or more embodiments, the compressible base members may have both a convex end face and a concave end face, in which case a compression indicator is obtained without significant loss of fire protection properties.

According to one or more embodiments, the end face is only curved in two dimensions, which means a resulting planar configuration along a line when compressed is an appropriate degree (rather than resulting in a completely flat end face). This embodiment can have an advantage in that the production is somewhat simplified.

The present invention also relates to a sealing system comprising such a compressible module.

Brief Description of the Drawings Fig. 1 is an end view of a compressible module according to a first embodiment of the present application.

Fig. 2 is a perspective view of a base member used for the compressible module of Fig. 1.

Fig. 3 is a perspective view of a base member used for a compressible module according to a second embodiment of the present invention.

Fig. 4 is a plan view of the base part of Fig. 3.

Fig. 5 is a perspective view of a base member used for a compressible module according to a fourth embodiment of the present invention.

Fig. 6 is a perspective view of a base member used for a compressible module according to a fifth embodiment of the present invention. 10 15 20 25 30 53-4 041? Fig. 7 is a front view of a sealing or overflow system comprising at least one module according to the invention.

Fig. 8 is a perspective view of a cylindrical seal according to a further embodiment of the present invention.

Detailed Description of Embodiments Figs. 1 and 2 show a compressible module 100 according to a first embodiment of the present invention. The compressible module 100 has two base parts 102 and 104. Each base portion 102, 104 has a semicircular groove 106, 108 extending in an axial direction from one end of the base portion 102, 104 to the other. In each groove 106, 108, peelable layers or sheets of material 110 are provided. The purpose of the sheets is to adjust the diameter of a through hole of the compressible module 100 to a certain diameter of a cable or tube. This part of the design has been described in a large number of applications by the present applicant and is considered to be well known to those skilled in the art. Prior to the insertion of a cable or pipe into the center, the compressible module is occupied by a blind part 112, which has also been described in previous applications.

The sheets can be arranged in different ways and have different properties, as shown by the co-pending applications entitled "A Pipe or Cable Lead-Through having Interconnected Layers", "A Pipe or Cable Lead-Through having Layers of Different Thickness", " Cohering Between Layers of a Pipe or Cable Lead-Throug ”and“ Identification of Layers of a Pipe or Cable Lead-Through ”submitted by the applicant for the present application. These applications are hereby incorporated by reference.

In the embodiment shown, each end surface 14, 116 of the composite module is curved inwards and has a concave shape, which is obvious from the drawings. In use, the compressible module will be compressed and begin to bend, more in the middle than at the edges of the compressible module. This results in the end surface having a more planar shape. It is thus possible to determine the curvature in such a way that, for example, the end surfaces are completely flat when a suitable compression is achieved. This allows the person responsible for performing the installation, or anyone inspecting the installation, to easily determine that a correct compression has been achieved. 10 15 20 25 30 534 84? This first inventive aspect thus enables a user to determine a correct compression, regardless of which compression unit is used, which is a significant improvement over prior art.

It should be noted that such a compression-indicating compressible module per installation is generally sufficient, and that only one of the two end faces of the module needs to be provided with a curvature.

The curvature required to achieve the above purposes can be calculated and modeled, but in a low-tech application, a commonly compressible module can be subjected to proper compression. The module will then, as described earlier, begin to bend outwards, which enables removal of the bulging part. When the compression disappears, the end surface of the compressible module can be used as a template for other modules. It is probable that the curvature of the end surface varies between different module sizes and also between different materials.

The first embodiment generally requires removal of material. In some cases, this may be undesirable, for example because a reduced amount of material can result in faster fire penetration. A solution to this is provided by a compressible module according to a second embodiment of the present invention, as shown in Figs. 3 and 4. The base part 202 has a concave end surface 214 and a convex end surface 216.

Thus, to compensate for the material loss caused by the concave end face 214, the second end face is imparted a convex shape and is curved outward. In this way, the amount of material in the compressible module can be maintained, and thus also its fire penetration properties.

In a third embodiment (not shown), both end surfaces are given a convex curvature, which increases the amount of material in the module compared to a regular module, with associated advantages.

In the embodiments described above, the end surfaces have a three-dimensional curvature. Figs. 5 and 6 show a fourth resp. fifth embodiment where the curvature is instead two-dimensional. This design can ensure a simplified manufacturing process and although the compression indicator will be functional along a line rather than in a plane, this may enable control function. In Fig. 6, a dashed line shows the line towards which the center of a compressible base part 100 will strive when it is compressed. The compressible base part 300 in Fig. 5 will strive towards a line which is perpendicular to the line in Fig. 6. The design of the base parts according to Figs. 5 and 6 is obvious from the previous description, which makes reference numerals superfluous. 10 15 20 25 30 534 047 Furthermore, it should be noted that these illustrations are for explanatory purposes only, and the curvature is not drawn to scale. This applies to all drawings in the demia application.

The modules according to the third embodiment can be provided with a corresponding two-dimensional curvature.

When using the compressible module which has two convex end surfaces, it is advantageous if all modules or at least one number in a frame are of the same type.

When the purpose of the module is to control the compression, ie. however, a module according to the first or second embodiment may suffice with a compressible module of this type in each frame, since the compression can be considered even.

Alternative embodiments are given in the co-pending applications entitled “A Module of a Pipe or Cable Lead-Through having Grooves on Opposite Sides”, “Pipe or Cable Lead-Through Blocks”, “Modules of a Pipe or Cable Lead-Through having Altemating Geometry ”,“ A Pipe or Cable Lead-Through having Modularized Modules ”,“ A Pipe or Cable Lead-Through having Penetratable Modules ”,“ A Pipe or Cable Lead-Through having Modules with a Dimensioning Function ”and“ A Pipe or Cable Lead-Through having Layers of Altemating Geometry ”, submitted by the applicant for the present application. In one embodiment, the modules are divided from a stack of modular halves that are joined together, as described in the co-pending application entitled "Modules of Pipe or Cable Lead-Through Sticking Together", submitted by the applicant for the present application. These applications are hereby incorporated by reference.

A general advantage for all embodiments that have a curved end surface is that it becomes easier for the person performing the installation to grip each peelable layer.

A common type of seals or transmissions for cables and / or pipes is indicated in fi g. 7. It has an outer frame 1 which is received in a wall or other type of divider. Inside the frame 1, a number of modules 2 are arranged to receive a single cable or a single tube each. Furthermore, a compression unit 3 is accommodated inside the frame 1.

The modules 2 are separated by strut washers 4, which strut washers are arranged to position the modules 2 in a secure manner inside the frame 1. The strut washers 4 have beads in the width direction, which hold the modules in place in the axial direction, or the deep direction. The modules 2 are compressible parts of the seal or transfer.

Each module 2 has a central blind part 5, which is removed before the cable or pipe is arranged. 10 15 20 534 047 An alternative system comprising a framework is described in the co-pending application called "Sealing System", submitted by the applicant for the present application.

This application is hereby incorporated by reference.

I fi g. 8 shows an embodiment of a cylindrical seal 800 according to the present invention. The seal 500 is formed by two compressible base members 502. In use, the base members 502 are brought together and define together a central through opening for receiving a cable, a wire, or a tube. On the inside of the opening, a plurality of peelable sheets 508 are provided on each base member 502. The sheets 508 are peeled off to conform the seal to the outer diameter of a cable, tube or wire being received. To provide a sufficient seal, the seal is compressed in an axial direction by means of fittings 504 and screws 506. The screws 506 are received in through openings of the base parts 502. Normally the screws 506 cooperate with fittings on the opposite side (not shown) of the seal 500. The end face of the seal 500 shown and formed by the two base members 502 has a concave shape. In the same way as already described for the modules above, the cylindrical seal in other embodiments can have end surfaces with concave, convex or flat shape, in different variants.

In alternative embodiments, the seal, bushing, or earmuff according to the present invention is provided with means for lubrication, as shown in the co-pending application entitled "Lubrication of a Pipe or Cable Lead-Fhrough", filed by the applicant for the present application. This application is hereby incorporated by reference.

Claims (9)

1. A compressible seal or lead-through for Cables, wires or pipes having two ormore compressible base parts (102, 104, 202, 300, 400, 500) surrounding each cable,wire or pipe, which seal or lead-through is placed either directly in an opening through awall or other structural partition forrning the wall or other partition or in a frame,whereby a barrier is forrned of the two or more base parts and at least one compressionunit in either the opening or the frame, wherein each base part has at least one peelablesheet (110, 508) for adapting to the diameter of a cable, wire or pipe, which at least onepeelable sheet is arranged in an axial groove of each compressible base part, charac-terized in that at least one end surface of two co-operating compressible base parts has a curved shape.

2. The compressible seal or lead-through of claim 1, wherein the at least one end surface has a three-dimensional curvature.

3. The compressible seal or lead-through of claim 1, wherein the at least one end surface has a two-dimensional curvature.

4. The compressible seal or lead-through of any of the previous claims, wherein at least one end surface (216) is curved outwards.

5. The compressible seal or lead-through of any of the previous claims,wherein at least one end surface (114, 116, 214, 508) is curved inwards to provide an indication of pressure applied to the compressible module.

6. The compressible seal or lead-through of any of the claims 1-3, wherein two opposing end surfaces are curved outwards.

7. The compressible seal or lead-through of any of the claims 1-3, wherein two opposing end surfaces are curved inwards.

8. The compressible seal or lead-through of any of the claims 1-3, wherein one end surface is curved inwards and an opposite end surface is curved outwards. 090127 P:\4842 Roxtec International\P\199 ~ Fire protection ~ Compression indicator\P48420199*090127*patenttext.doc 9

9. A sealing system comprising cable entries or pipe penetrations receiving twoor more compressible base parts (102, 104, 202, 300, 400, 500) surrounding each cableor pipe, Which cable entries or pipe penetrations are placed either directly in an openingthrough a Wall or other structural partition forming the Wall or other partition or in aframe (1), Whereby a barrier is forrned of the two or more base parts and at least onecompression unit in either the opening or the frame, Wherein the compressible baseparts have at least one peelable sheet (110, 508) for adapting to the diameter of a cable,Wire or pipe, Which at least one peelable sheet is placed in a profile, Wherein said com- pressible base parts are base parts according to any one of the previous claims.