Multilayer tube with butt weldable end and welding method for a multilayer tube

Abstract

A weldable plastic tube (10) has at least one end designed to be butt welded and designed for the conveyance of a fluid producing a drop in mechanical resistance of said weldable plastic. The tube comprises an internal layer (12) for protection of the plastic of the tube from contact with the fluid conveyed and adjoining said welding end has a terminal section permanently covered with an external reinforcing sleeve (13) also of weldable plastic to participate in the butt welding of the tube. The sleeve has a thickness such as to make the mechanical resistance of the tube section nearest the welded end at least equal to the mechanical resistance of the tube not in contact with the fluid when in contact with the fluid in the welding zone which will be without the internal protective layer.

Description

BACKGROUND OF THE INVENTION

[0001] The present invention relates to a multilayer tube with ends suited to butt welding.

[0002] In particular the present invention relates to tubes realized with an internal layer of material suited to preservation of the external layer from the aggressive action of the fluid conveyed but with only the external layer of material enjoying the weldability features desired for the tube union.

[0003] In the field of tubing the advantages of tubing of polyethylene (PE) and similar materials are well known. For example, flexibility, lightness, environmental corrosion resistance and the possibility of using a choice of one of three different welding technologies (socket, butt and induction melting) allow resolving effectively any application problem in the conveyance of fluids such as water and gas. Polyethylene however is not resistant to hydrocarbons and in particular to solvents. This has in fact limited its use in industry and in particular oil applications.

[0004] To obviate the limitations of PE there was recently developed a new technology going under the name of ‘multilayer tubing’. The technique consists of co-extruding inside the polyethylene of a thin layer (termed ‘liner’) of thermoplastic resistant to hydrocarbons, for example nylon, EVOH, PVDF et cetera. The internal layer prevents the hydrocarbons from coming into contact with the polyethylene which, thanks to its good mechanical features and low cost, constitutes the structural layer of the tubing and obviates the limitations of tubing of only PE.

[0005] Since the materials used as the liner are not compatible with polyethylene, to obtain perfect adhesion between the layers one or more adhesives termed ‘tie-layer’ are used. Although this technique offers a solution to the realization of relatively economical tubes of low thickness and resistant to hydrocarbons it introduces the problem of easy and convenient joining of tubes.

[0006] To seek to remedy this new problem techniques have been proposed using special unions or sleeves with chambers receiving the tube head and welded by thermoelectric adhesion systems on the outer wall of the PE tube. For relatively large diameters, for over 160 mm, the electrical sleeves are however rather costly.

[0007] In the prior art there are no reliable solutions for more economical and easier butt welding.

[0008] The general purpose of the present invention is to remedy the above mentioned shortcomings by making available a butt welding method and a multilayer tube allowing simple and fast butt welding.

SUMMARY OF THE INVENTION

[0009] In view of this purpose it was sought to provide in accordance with the present invention a weldable plastic tube having at least one end designed to be butt welded and designed for the conveyance of a fluid producing a drop in mechanical resistance of said weldable plastic and comprising an internal layer for protection of the plastic of the tube from contact with the fluid conveyed and with a terminal section of the tube adjoining said welding end permanently covered with an external reinforcing sleeve also of weldable plastic to participate in the butt welding of the tube with the sleeve having a thickness such as to make the mechanical resistance of the tube section nearest the welded end when in contact with the fluid in the welding zone without the internal protective layer at least equal to the mechanical resistance of the tube not in contact with the fluid.

[0010] A butt welding method is also claimed.

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] To clarify the explanation of the innovative principles of the present invention and its advantages compared with the prior art there is described below with the aid of the annexed drawings a possible embodiment thereof by way of non-limiting example applying said principles. In the drawings:

[0012] FIG. 1 shows a partially cross sectioned partial side view of a tube realized in accordance with the present invention, and

[0013] FIG. 2 shows a view similar to that of FIG. 1 of two ends of a tube in accordance with the present invention after their butt welding.

DETAILED DESCRIPTION OF THE INVENTION

[0014] With reference to the FIGS, FIG. 1 shows a tube designated as a whole by reference number 10 realized in accordance with the present invention. This tube has walls 11 realized of weldable material and with good mechanical features such as PE which is relatively economical but has low resistance to the fluids conveyed, for example hydrocarbons, and with a thin internal protective layer of material having adequate resistance to said fluid to have a desired nominal pressure. The technique for production of tubes with a protective internal layer is known and not further discussed herein. The material of the protective layer can be chosen advantageously from among polyamides, EVOH, PVDF, organic polyamide/polyethylene or polyamide/polypropylene alloys.

[0015] On the free end of the tube it is desired to butt weld is fixed externally a sleeve 13 of the same weldable material as the tube. This sleeve is fastened to the tube by gluing or melting which can be realized by conventional and well known socket or induction melting welding techniques. In the latter case the sleeve comprises electrical resistances (shown in broken lines at reference number 14) to produce induction melting. The head surfaces of the sleeve and tube thus realize a single front surface 15 for welding.

[0016] The internal layer 12 terminates before said front surface 15 but within the zone of the tube enclosed by the sleeve to leave an internal zone 16 of the sleeve uncovered. The zone 16 can be approximately 5 to 20 mm wide depending on the tube diameter. Removal of the internal layer can be done for example by grinding. The sleeve can advantageously have a length at least twice the width of the uncovered section 16.

[0017] In this manner the end of the tube consists exclusively of polyethylene and has increased thickness.

[0018] The butt union between two tubes with ends in accordance with the present invention is realized by conventional techniques for the butt union of single layer polyethylene tubes for example using an electric tool 17 on which the face 15 to be welded is temporarily rested. The technique of butt welding single layer tubes is well known and not further described or shown as it its readily imaginable to those skilled in the art.

[0019] FIG. 2 shows a butt union between two tube ends in accordance with the present invention where the weld bead 18 is seen.

[0020] The thickness S of the reinforcing sleeve 13 is calculated so that the nominal pressure of the polyethylene section A which is uncovered and in contact with the aggressive fluid and which is created in the tube after welding be at least equal to the nominal pressure of the tubing protected by the internal layer resistant to the fluid conveyed. In this manner the small section of PE tube (small especially for the typical lengths of the tubes between two successive unions) which will be in contact with the fluid does not change the resistance of the tubing thus realized. In other words, the mechanical resistance of the tube section protected by the reinforcing sleeve and without a protective layer but still in contact with the fluid will be at least equal to the resistance of the tube not in contact with the fluid. The s:t ratio between the thickness s of the reinforcement and the thickness t of the tube depends on the nominal pressure of the tube and the fluid conveyed. For hydrocarbons and nominal pressures between 8 and 20 bar the ratio is between 1 and 5 and in particular between 1.2 and 4.3.

[0021] It is now clear that the purposes of the present invention have been achieved.

[0022] By the method in accordance with the present invention the tube with end sleeves can be conveniently prepared at a distance and the easy, fast and economical butt union can be made in the field.

[0023] Naturally the above description of an embodiment applying the innovative principles of the present invention is given by way of non-limiting example of said principles within the scope of the exclusive right claimed here. For example the sleeve can have differentiated thickness along its length and taper where it draws away from the welding face. In addition, the weldable plastic tube can also comprise in it reinforcements of other materials such as glass or carbon fiber arranged continuously or not as readily imaginable to those skilled in the art.

Claims

1. Weldable plastic tube having at least one end designed to be butt welded and designed for the conveyance of a fluid producing a drop in mechanical resistance of said weldable plastic and comprising an internal layer for protection of the plastic of the tube from contact with the fluid conveyed and with a terminal section of the tube adjoining said welding end permanently covered with an external reinforcing sleeve also of weldable plastic to participate in the butt welding of the tube with the sleeve having a thickness such as to make the mechanical resistance of the tube section nearest the welded end when in contact with the fluid in the welding zone without the internal protective layer at least equal to the mechanical resistance of the tube not in contact with the fluid.

2. Tube in accordance with claim 1 characterized in that the internal protective layer terminates in said terminal section before reaching the tube end.

3. Tube in accordance with claim 2 characterized in that the sleeve length is at least twice the width of the terminal section without protective layer.

4. Tube in accordance with claim 1 characterized in that the tube and-sleeve are of polyethylene.

5. Tube in accordance with claim 1 characterized in that the internal layer is of material resistant to hydrocarbons and advantageously chosen from among polyamide, EVOH, PVDH, and organic polyamide/polyethylene or polyamide/polypropylene alloys.

6. Tube in accordance with claim 1 characterized in that the sleeve has internal electrical heating resistances for its fastening on the tube by induction melting.

7. Tube in accordance with claim 1 characterized in that the sleeve has one end arranged flush with the end of the tube to be butt welded.

8. Tube in accordance with claim 1 characterized in that the s:t ratio between thickness s of the reinforcing sleeve and thickness t of the tube is between 1 and 5 and in particular between 1.2 and 4.3.

9. Method for the realization of a butt connection at the end of a weldable plastic tube designed for conveyance of a fluid producing a drop in mechanical resistance of said weldable plastic and which therefore comprises an internal layer for protection of the plastic of the tube from contact with the fluid conveyed comprising the steps of: covering permanently an end section of the tube adjoining said end to be welded with an external reinforcing sleeve of weldable plastic with thickness such that after butt welding the mechanical resistance of the tube section near the welded end when in contact with the fluid in the welding zone without an internal protective layer will be at least equal to the mechanical resistance of the tube not in contact with the fluid, and performing the butt welding of the tube end including a sleeve.

10. Method in accordance with claim 8 comprising the additional step of removing the terminal section of the protective layer in an internal zone of the sleeve before butt welding.

11. Method in accordance with claim 9 in which the terminal section of the protective layer is removed for a length not greater than one half the length of the sleeve.

12. Method in accordance with claim 8 in which the sleeve is fastened to the tube by gluing.

13. Method in accordance with claim 7 in which the sleeve is fastened to the tube by induction welding by means of electrical resistances inside said sleeve.

14. Method in accordance with claim 7 in which the sleeve is arranged on the tube with one end of the sleeve flush with the end of the tube to be butt welded.

15. Weldable plastic tube designed for the conveyance of a fluid producing a drop in mechanical resistance of said weldable plastic and comprising an internal layer for protection of the plastic of the tube from contact with the fluid conveyed, the tube having at least two lengths joined together by butt welding of respective ends, each of said respective ends having a terminal section permanently covered with an external reinforcing sleeve also of weldable plastic to participate in the butt welding of the two lengths of the tube, the sleeve having a thickness such as to make the mechanical resistance of the tube section nearest the welded end when in contact with the fluid in the welding zone without the internal protective layer at least equal to the mechanical resistance of the tube not in contact with the fluid.