EP0969958A1

EP0969958A1 - Multi-layer plastic tube

Info

Publication number: EP0969958A1
Application number: EP98913738A
Authority: EP
Inventors: Franz-Josef Riesselmann; Harald Eichner; Josef BRÜNEN; Paul Wolters; Nils Wehmeier
Original assignee: Hewing GmbH
Current assignee: Uponor Innovation AB
Priority date: 1997-03-29
Filing date: 1998-03-27
Publication date: 2000-01-12
Also published as: WO1998043806A1; US6279614B1

Abstract

The invention relates to a multi-layer plastic tube, comprising a base tube (16), a barrier layer (20) coating the base tube, said barrier layer being impenetrable to oxygen, and a protective layer (22) applied on top of the barrier layer, for protecting said barrier layer from damage. This protective layer consists of a material containing a lubricant.

Description

Multi-layer plastic tube

The invention relates to a multi-layer plastic tube that can be used to guide gases and / or fluids and in particular as a drinking water, process water or heating pipe.

In the sanitary and heating sector, in addition to metal pipes, pipes made of plastic, e.g. Polyethylene (PE). The plastics used are permeable to oxygen, which is why they are provided with a (oxygen) diffusion barrier layer, which generally surrounds the base pipe carrying the fluid from the outside.

In practice, EVOH (ethylene vinyl alcohol) has proven to be a material for the barrier layer. The drier it is, the better the diffusion barrier function of this material. Unfortunately, EVOH material is more brittle the drier it is. However, since the increase in brittleness is accompanied by a reduction in the elasticity, there is a risk of cracking and of breaking and crumbling of the material of the barrier layer. This danger arises in particular when the plastic tube is exposed to changes in length, which is the case when the temperature of the fluid in the tube changes.

In order to protect the mostly brittle diffusion barrier layer from damage, DE 296 06 533 U1 specifies a multi-layer plastic tube, the barrier layer of which is enclosed by a protective layer. PE is preferably used as the material for this protective layer. The material of the protective layer is softer than the material of the barrier layer, which in addition to the advantage of mechanical protection of the barrier layer also has the disadvantage that the plastic tube is comparatively blunt on its outer surface. This disadvantage has an effect in particular when the plastic tube is pushed into empty tubes, which are mostly designed as corrugated tubes. Such "tube-in-tube" lines are sometimes prefabricated, with plastic tubes of several tens of meters being inserted into corrugated tubes. Because of the blunt outer surface of the plastic tube, relatively large forces are required for this. There is a risk here that the drive elements of the feed device for inserting the plastic tube into the corrugated tube rub on the plastic tube, which can lead to heating of the plastic tube and thus damage to its protective layer. Slipping of the drive elements of the feed device on the plastic tube also has the disadvantage that it is no longer ensured during automatic pre-assembly that the desired, preset length of plastic tube is inserted into the corrugated tube.

From DE-U-81 04 908 a plastic tube is known which has a base tube made of cross-linked PE, an oxygen diffusion barrier layer made of EVOH and an outer layer made of a linear PE. If such a pipe in a corrugated pipe or the like. Inserted cladding tube, there are also relatively high frictional forces.

From US-A-4,299,256 it is known to add silicone oil to the PVC outer layer of a plastic pipe in order to reduce the friction on the outer surface of the pipe. In summary, the following difficulties arise in connection with PEX ^L pipes to which an adhesion promoter layer and an EVOH layer are applied, the layer thickness of these outer layers each being approximately 100 μm:

Due to the alternating bending stresses in the area of the bends of the pipes laid, cracking can occur due to the brittleness. The consequence of this can be a detachment of the EVOH layer and a crack development in the worst case

Consequence of the breakage of the pipe.

The oxygen barrier property of the EVOH layer material is strongly dependent on the moisture in the vicinity of the pipe. This is because the higher the moisture absorption of the EVOH material, the lower its barrier property. If the pipe is connected to a connector, edges of the connector may damage the EVOH layer if handled improperly. - There are also connection techniques that require expanding the pipe. This type of connection technology is gaining increasing acceptance on the market because its handling and manufacturing costs are simple and cheap. When expanding a plastic pipe provided with an EVOH barrier layer, however, there is a risk that the EVOH layer will tear, since its stretching behavior cannot be reproduced with sufficient reliability.

The invention has for its object to provide a multilayer plastic tube with an oxygen diffusion barrier layer, which is protected against mechanical damage, the plastic can insert material tube comparatively easily and without excessive force in an outer tube.

To achieve this object, the invention proposes a multilayer plastic tube which is provided with a base tube, a barrier layer surrounding the base tube, which is impermeable to oxygen, and - a protective layer applied to the barrier layer to protect the barrier layer from damage, the Material of the protective layer contains a lubricant.

According to the invention, a lubricant is added to the material for the protective layer, which, mixed with the other material of the protective layer, is extruded onto the barrier layer. As the material of the protective layer solidifies, as well as in the solidified state, the lubricant migrates to the surface of the protective layer where it becomes effective, i.e. where it gives the multilayer plastic tube its sliding properties. The lubricant is therefore, in particular, a material based on oleic acid, erucic acid amide. Alternatively, materials based on silicone oil or tetrafluoroethylene can also be used.

Due to the addition of lubricant to the material of the protective layer, which is preferably a

PE-based material, the multilayer plastic tube according to the invention is given not only the mechanical protective function of the barrier layer but also sliding properties which result in the insertion of the multilayer plastic tube in an empty tube simplify. The combination of a plastic material and a sliding material for the production of plastic objects is known, for example, from the packaging industry of sliding films. Surprisingly, it has been found that the lubricants used there can also be used in approximately the same concentrations for the protective layers of plastic tubes. This cannot be expected without further ado because the manufacturing processes of foils and plastic tubes differ significantly and plastic foils in particular have a significantly larger surface area in relation to the volume of material used than is the case with plastic tubes.

When the term "lubricant" is used in the context of this invention, this also means a lubricant in the form of a so-called antiblocking agent which, by changing the surface structure, enables two objects to rub easily against one another. Antiblocking agents of this type are known, for example, from plastic film production and processing.

The base tube is preferably located in an outer tube which is at a distance from the outer protective layer of the base tube. The outer tube is made of plastic and is designed in particular as a corrugated tube.

As an alternative to the embodiment of the multilayer plastic pipe according to the invention described above, in one variant this is provided with a base pipe, a barrier layer surrounding the base tube, which is impermeable to oxygen, a protective layer applied to the barrier layer to protect the barrier layer from damage and an outer tube in which the base tube is arranged and which surrounds the protective layer of the base tube with play, the inside of the outer tube being a Has lubricant.

In this variant of the invention, the lubricant is located on the inside of an outer tube, which is expediently designed as a corrugated tube. In this case, the lubricant can be added to the material of the outer tube. If the lubricant is a material based on oleic acid amide or erucic acid amide, the material migrates to the inside of the outer tube, where it performs its sliding function when the base tube with its blunt outer protective layer is pushed into the outer tube.

In both of the aforementioned variants, depending on the choice of the material of the barrier layer, it is advantageous if an adhesion promoter layer composed of an adhesion promoter is arranged between the latter and the base tube. The material for this coupling agent is preferably modified linear LDPE.

A further variant of the invention relates to a multilayer plastic tube with a base tube made of, in particular, cross-linked PE, an adhesive layer surrounding the base tube made of an adhesive agent, and a intermediate layer surrounding barrier layer, which for

Oxygen is impermeable, and one applied to the barrier layer

Protective layer made of EVOH to protect the barrier layer from damage, wherein the adhesion promoter consists of a modified linear LDPE material with a density less than 926 kg / m ³ and wherein the protective layer consists of a modified linear LDPE material with a density greater than

928 kg / m ³ , the modifications of the two linear

LDPE materials are chosen such that the

Adhesion of the protective layer to the EVOH barrier layer is greater than the adhesion of the EVOH barrier layer to the adhesion promoter layer.

In this variant of the invention, the barrier layer is formed from EVOH, while the adhesion promoter and the protective layer each consist of differently modified linear LDPE materials. The modifications are chosen such that the adhesion of the protective layer to the EVOH barrier layer is greater than to the adhesion promoter layer and thus the base tube. In particular, the density of the linear LDPE material of the adhesion promoter layer is less than 926 kg / m ³ and greater than 916 kg / m ³ . The density of the modified linear LDPE material of the protective layer is preferably greater than 928 kg / m ³ and less than 940 kg / m ³ .

As it turned out, the choice of material for the protective layer is advantageous in that the protective layer is tough enough on the one hand to protect the brittle EVOH barrier layer arranged underneath from mechanical damage and on the other hand hard enough is to give the pipe sufficient sliding properties. The protective layer consequently has sliding properties, and so far consists entirely of a material having such a property, namely the modified linear LDPE material.

In an advantageous further development of all variants of the invention it is further provided that the barrier layer lies outside the neutral zone of the multilayer plastic tube, i. H. outside the middle of the wall thickness extension of the multilayer plastic pipe.

All components of the multilayer plastic tube according to the invention are extruded, the barrier layer being extruded onto the extruded base tube first, in order to then subsequently extrude the protective layer onto it.

The layer thickness of the adhesion promoter is advantageously between 10 μm and 70 μm. The thickness of the protective layer should not be less than 40 μm, so it is preferably between 40 μm and 100 μm.

When using the previously described layer sequence of adhesive layer, barrier layer and protective layer around the base tube, it is achieved that a crack which may occur in the barrier layer more or less "runs dead" in the adhesive layer and thus can no longer attack the base tube arranged under the adhesive layer. The cause of this phenomenon of a "runaway" of a crack is the use of an adhesion promoter based on a linear LDPE with the one specified above Density, the thickness of this adhesive layer expediently between 10 ^" and 70 microns.

As has surprisingly been found, the thickness of the protective layer influences the overall properties of the multilayer plastic pipe. The protective layer should not be thinner than 40 μm.

Basically, the protective layer should consist of a comparatively tough material in order to be able to optimally use its protective function for the barrier layer. A linear LDPE is therefore suitable as a material for the protective layer. However, the tube surrounded from the outside with such a protective layer becomes relatively blunt and consequently can no longer be inserted into a corrugated tube or the like over the desired lengths. Insert the outer tube. In addition, a protective layer made of a relatively tough material gives the entire tube a comparatively soft surface, which in turn leads to deformations in particular when the tube is wound up. Appearances appear like flattened outer surface areas. This has a negative influence on the optical quality of the pipe, and under certain circumstances there may also be disadvantages during assembly with regard to the requirement for a tight seal, for example a connector on the outside of the pipe.

The problem of the relatively high pipe friction resistance can be solved according to the invention by adding a lubricant, while the problem of the risk of deformation is counteracted according to the invention by using high-density plastics based on metallocene. The total combination of the material compositions of the three around the base tube Layers arranged around it, namely the adhesive layer, the EVOH barrier layer and the protective layer bring about the following properties: good adhesion of the EVOH layer, - high toughness of the material forming the outer surface of the tube, high resistance to crack propagation, high rigidity of the outer surface of the tube forming material in order to avoid deformations, good sliding properties in order to be able to push the tube into the desired lengths in outer tubes, in particular corrugated tubes.

Two exemplary embodiments of the invention are explained in more detail below with reference to the figures. In detail show:

Fig. 1 shows a longitudinal section through a tube-in-tube combination consisting of a gas- or fluid-carrying inner tube and an outer corrugated tube, and

Fig. 2 and 3 schematically illustrate the process steps for, for example, automatically pushing the outer tube and the inner tube into one another.

1 shows a section of a tube-in-tube combination 10 with an inner tube 12 and an outer corrugated tube 14. The inner tube 12 has a base tube 16 made of PE, to which an adhesion promoter layer 18, also based on PE, is applied. An EVOH barrier layer 20, which is relatively brittle, is applied to the outside of the adhesion promoter layer 18. To protect the EVOH Barrier layer 20 is surrounded by a protective layer 22, which consists of a relatively tough material and has, for example, the material of the adhesion promoter layer 18. A lubricant based on oleic acid is added to this material. As a result, the inner tube 12 is given extremely good sliding properties despite the tough and blunt protective layer 22 compared to the EVOH barrier layer. The outer tube 14 designed as a corrugated tube also consists of polyethylene.

The plastic inner tube 12 having the above structure can be prefabricated as a tube-in-tube combination 10 because of its good sliding properties over a very long length. The frictional resistance of the outer surface 24 of the inner tube 12 and the inner surface 26 of the corrugated tube 14 is reduced, so that when the two tubes are pushed together according to FIGS. 2 and 3 significantly lower forces are required than in the case in which no lubricant is added to the material of the protective layer 22.

With the inner tube 12 described here, a plastic multilayer tube is thus created which, despite the provision of a mechanical protective layer for the oxygen diffusion barrier layer 20, has good sliding properties.

On the basis of the layer sequence of the multilayer inner tube 12 described with reference to FIG. 1, this was produced in the following material composition. A cross-linked PE material was used for the base tube 16. The adhesion promoter layer 18 was extruded onto the base tube 16. A material was used for the adhesive layer 18 modified linear LDPE material used. This material was applied in a layer thickness of 10 μm to 70 μm, in particular 50 μm. The EVOH barrier layer 20 was then extruded onto the adhesive layer 18. The thickness of this layer was 50 to 100 μm. Modified linear LDPE material was then extruded onto the EVOH barrier layer 20 as a protective layer 22, namely in a thickness of at least 40 μm and in particular at most 100 μm.

The modification of the LDPE material of the base tube 16 was chosen in such a way that the adhesion of the base tube 16 to the barrier layer 20 was specifically set, but was not optimal. In contrast, the modification of the LDPE material of the protective layer 22 was chosen such that the protective layer 22 was in contact with the EVOH barrier layer 20 with great adhesion. The density of the LDPE material of the protective layer 22 was greater than the density of the LDPE material of the base tube 16. In particular, the density of the LDPE material of the base tube 16 was between 918 and 924 kg / m ³ , while the density of the LDPE material was Protective layer 22 was between 929 and 936 kg / m ³ . In addition to a good bond between the individual layers of the inner tube 12, the choice of material for the protective layer 22 ensures good mechanical protection of the brittle barrier layer 20 with a sufficiently high resistance to surface deformation and secondly good sliding properties of the inner tube 12, so that this can be inserted into the external plastic corrugated pipe 14 without excessive frictional forces hindering this manufacturing process for pipe-in-pipe line systems.

Claims

EXPECTATIONS

1. multilayer plastic tube with a base tube (16), a barrier layer (20) surrounding the base tube (16), which is impermeable to oxygen, and a protective layer (22) applied to the barrier layer (20) to protect the barrier layer (20) from damage,

characterized ,

that the material of the protective layer (22) contains a lubricant.

2. Multi-layer plastic tube according to claim 1, characterized in that the lubricant comprises oleic acid amide, erucic acid amide, silicone oil or tetrafluoroethylene.

3. Multi-layer plastic tube according to claim 1 or 2, characterized in that an adhesive layer (18) is arranged between the base tube (16) and the barrier layer (20).

4. Multi-layer plastic tube according to one of claims 1 to 3, characterized in that the material of the protective layer is an adhesion promoter, the lubricant is added.

5. Multi-layer plastic tube according to one of claims 1 to 4, characterized in that between the base tube (16) and the barrier layer (20) an adhesion promoter layer (18) is arranged.

6. Multi-layer plastic tube with a base tube (16) made of, in particular, cross-linked PE, an adhesion promoter layer (18) surrounding the base tube (16) made of an adhesion promoter, a barrier layer (20) surrounding the adhesion promoter layer, which is impervious to oxygen, and one protective layer (22) made of EVOH applied to the barrier layer (20) to protect the barrier layer (20) from damage,

characterized ,

that the adhesion promoter (18) consists of a modified linear LDPE material with a density less than 926 kg / m ³ and that the protective layer (22) consists of a modified linear LDPE material with a density greater than 928 kg / m ³ , the modifications of the two linear LDPE materials being selected such that the adhesion of the protective layer (22) to the EVOH barrier layer (20) is greater than the adhesion of the EVOH barrier layer (20) to the adhesion promoter layer (18).

7. multilayer plastic tube according to claim 6, characterized in that the density of the linear LDPE material of the adhesive layer (18) between 916 and 927 kg / m ³ , in particular 918 and 927 kg / m ³ , 916 and 924 kg / m ³ or 918 and 924 kg / m ³ .

8. Multi-layer plastic tube according to claim 6 or 7, characterized in that the density of the linear LDPE material of the protective layer (22) between 927 and 940 kg / m ³ , in particular 927 and 936 kg / m ³ , 929 and 940 kg / m ³ or 929 and 936 kg / m ³ .

9. multilayer plastic tube according to one of claims 6 to 8, characterized in that the thickness of the adhesion promoter layer (18) is between 10 microns and 70 microns.

10. Multi-layer plastic tube according to one of claims 6 to 9, characterized in that the thickness of the protective layer (22) is between 40 microns and 100 microns.

11. Multi-layer plastic tube according to one of claims 1 to 10, characterized in that the barrier layer (20) is arranged outside the center of the wall thickness extension between the inside of the base tube (16) and the outside of the protective layer (22).

12. Multi-layer plastic tube according to one of claims 1 to 11, characterized in that the base tube (10), the barrier layer (20) and the protective layer (22) are all extruded.

13. Multi-layer plastic tube according to one of claims 1 to 12, characterized in that the base tube (16) in an outer tube (14) is arranged, which surrounds the protective layer (22) of the base tube (16) with play.

14. Multi-layer plastic tube according to one of claims 1 to 13, characterized in that the protective layer (22) has metallocene.

15. Multi-layer plastic tube with a base tube (16), a bonding agent layer (18) surrounding the base tube (16), and a bonding agent layer (18) surrounding the bonding agent layer

Barrier layer (20), which is impermeable to oxygen, one applied to the barrier layer (20)

Protective layer (22) to protect the barrier layer

(20) from damage and an outer tube (14), in which the base tube (16) is arranged and which surrounds the protective layer (22) of the base tube (16) with play, the inside of the outer tube (14)

Has lubricant.

16. Multi-layer plastic tube according to claim 15, characterized in that the individual layers individually or together have the materials according to claims 6 to 14.

17. Multi-layer plastic tube according to claim 15 or 16, characterized in that the outer tube (14) is designed as a corrugated tube.