CHAMBER COUPLER

Abstract

Electric welding coupler for the welding of pipes made of thermoplastic material or other weldable plastics comprising a cylindrical body made of thermoplastic material or other weldable plastics, containing at least one welding element, wherein the welding element is arranged close to the inner diameter of the cylindrical body, wherein the welding element forms at least two welding zones, a contact for feeding the electric current and at least one cavity, wherein the cavity is arranged in the cylindrical body, wherein a reinforcing ring is arranged around the outer circumference respectively outer diameter of the cylindrical body.

Claims

1. An electric welding coupler (1) for the welding of pipes made of thermoplastic material or other weldable plastics comprising a cylindrical body (2) made of thermoplastic material or other weldable plastics, containing at least one welding element (3), wherein the welding element (3) is arranged close to the inner diameter of the cylindrical body (2), wherein the welding element (3) forms at least two welding zones (15), a contact (13) for feeding the electric current and at least one cavity (5), wherein the cavity (5) is arranged in the cylindrical body (2), wherein a reinforcing ring (6) is arranged around the outer circumference (7) respectively outer diameter of the cylindrical body (2).

2. The electric welding coupler (1) according to claim 1, wherein the cylindrical body (2) contains an inner ring (8), an outer ring (9) and two side rings (10), wherein the inner ring (8), the outer ring (9) and two side rings (10) are welded.

3. The electric welding coupler (1) according to claim 1, wherein the cavity (5) extends in the cylindrical body (2) around the entire circumference of the cylindrical body (2) respectively around the entire outer circumference of the inner ring (8).

4. The electric welding coupler (1) according to claim 1, wherein the cavity (5) is filled up with a liquid, preferably with water during the welding process.

5. The electric welding coupler (1) according to claim 4, wherein the liquid includes a chemical reactive system which is able to support the welding process by generation of pressurized gases and/or heat or by expansion to foam.

6. The electric welding coupler (1) according to claim 4, wherein the liquid consists of a resin, wherein the resin supports the mechanical stability of the coupler after curing.

7. The electric welding coupler (1) according to claim 1, wherein the reinforcing ring (6) is made of a high strength material preferably material with at least a modulus of elasticity of 50 GPa, especially preferred composite materials or metals.

8. The electric welding coupler (1) according to claim 1, wherein the reinforcing ring (6) is formed by at least two parts, preferably two half shells.

9. The electric welding coupler (1) according to claim 1, wherein the welding elements (3) are formed by heating wire windings.

10. The electric welding coupler (1) according to claim 9, wherein the heating wire windings are wavy, preferably sinusoidal.

11. The electric welding coupler (1) according to claim 9, wherein the heating wire windings are meander-formed arranged.

12. The electric welding coupler (1) according to claim 1, wherein the welding elements (3) are formed by conductive plastic.

13. The electric welding coupler (1) according claim 1, wherein the coupler (1) has an integrated reinforcing ring (6), wherein the reinforcing ring (6) is not removable from the coupler (1).

14. The electric welding coupler (1) according claim 1, wherein between the two welding zones (15) is an middle cold zone (14) arranged, wherein the middle cold zone (14) is less than half as wide as standardized according to EN ISO 15494:2003 depending on the pipe diameter.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] FIG. 1 shows a longitudinal section through an inventive electric welding coupler after the installation assembly,

[0026] FIG. 2 shows a longitudinal section through an inventive electric welding coupler bevor the installation assembly and

[0027] FIG. 3 shows a longitudinal section through an inventive electric welding coupler with in integrated reinforcing ring.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0028] FIG. 1 shows the electric welding coupler (1) for the welding of pipe ends made of thermoplastic material or other weldable plastics. The main drawback for such joints is that such couplers must have a large gap (11) between the outer diameter of the pipe ends and the inner diameter of the coupler (1) because of the tolerances in the pipe diameters and the undesirable ovality of the pipes. The installation of the coupler (11) will be no problem if the gab (11) is enough large to insert the pipe ends easily, the gap (11) is showed in FIG. 2. But a large annular gap (11) between the pipe ends (4) and the coupler (1) hinders a good welded joint. This means, if there is a large gap before the welding process starts it generates an insufficient welding, because of the long heating time which generates a lot of melt and through the cooling of the high amount of melt and the shrinkage of this material arises a lot of blowholes. The inventive electric welding coupler (1) shall help to overcome this disadvantage by a flexible and compressible electric welding coupler (1) respectively by the cylindrical body (2). The electric welding coupler (1) comprising a cylindrical body (2) in which the pipe ends (4) will insert, shown in FIG. 2. The cylindrical body (2) comprising an inner ring (8), an outer ring (9) and two side rings (10) which are arranged on both sides of the inner and outer ring (8, 9). The inner and outer ring (8, 9) are concentrically arranged and form with the side rings (10) arranged on both sides a cavity (5) inside the cylindrical body (2), preferably are the inner, outer and side rings (8, 9, 10) leak proof welded together but also other manufacturing processes are possible. The cavity (5) is to expand the electric welding coupler (1) respectively to reduce the inner circumference of the cylindrical body (2) respectively of the inner ring (8). After the insertion of the pipe ends (4) in the electric welding coupler (1), as shown in FIG. 2, the cavity (5) will fill up with a liquid, preferably water. The liquid will pour in though the pressure connection (12) which is arranged on the cylindrical body (2). The preferred liquid pressure in the cavity (5) is at least the dual nominal pressure of the appropriate pipe. This expands the cavity (5) respectively the inner ring (8) of the cylindrical body (2) which has the effect of reducing the inner circumference respectively the inner diameter of the inner ring (8) in that way that the inner diameter of the inner ring (8) contacts the outer diameter of the pipe ends (4), as shown in FIG. 1. The benefit of this reducing is the overcoming of the annular gap (11) and the applied pressure on the pipe ends (4). This pressure acts on the inner ring (8) and therefore also on the welding element (3) which is arranged on the inner circumference on the inner ring (8) and forms the two welding zones (15). This pressure helps to ensure a good welding. A further advantage of a small gap (11) respectively no gap (11) is that the small amount of melt which is needed for a good welding process solidifies fast and therefore it is possible to reduce the middle cold zone (14) by half to the standardized cold zone depending on the pipe diameter. The narrow the cold zone (14) is the less eddy water can accumulate in the cold zone (14) between the end of the pipes (4) and the inner ring (8) which is not welded. Due to the reducing of middle cold zone (14) is the stress on the inner ring (8) lower because the flowing medium has only an effect on a narrow area at the inner ring (8).

[0029] The feeding of the electric current to the welding element (3) which forms the welding zones (15) will achieve through a contact (13), how it is state of the art. The welding element (3) can be formed through on element which is connected in the middle and forms two welding zones (15) or it is also possibly that the coupler (1) has at least two separate welding elements (3) which have separate contacts (3) for the electric current.

[0030] Preferably is the welding element (3) formed by heating wire windings but also other heating elements are possible. Because of deformation of the inner ring (8) is it important that the welding element (3) is flexible. To achieve this effect in a heating wire winding is it to favor if the heating wire winding is wavy arranged preferably sinusoidal. The heating wire winding can be arranged meander-form alternatively.

[0031] The effect of the reducing of the inner circumference respectively diameter through the fill up of the cavity (5) will achieve by the restriction of the expansion of the outer circumference (7) respectively diameter of the cylindrical body (2). To achieve this effect is a reinforcing ring (6) arranged on the outer circumference of the cylindrical body (2). FIGS. 1 and 2 shows an embodiment of the reinforcing ring (6) which has some reinforcing rips but also other variations are possible. It is important to form a stiff and stable limitation for the outer circumference (7) respectively diameter of the cylindrical body (2) that the body (2) has only one possible direction to expand.

[0032] In a preferred embodiment is the reinforcing ring (6) formed by at least two parts preferably two half shells, which will brace together. This embodiment as shown in FIGS. 1 and 2 has the advantage that the reinforcing ring (6) can dismantled after the installing of the coupler (1) and can be used for a further installation. Preferably is the reinforcing ring (6) made of a high strength material preferably material with a modulus of elasticity of at least 50 GPa, especially preferred are composite materials or metals and there especially steel, of course are there also other materials possible.

[0033] FIG. 3 shows a further embodiment of the electrical welding coupler (1). The reinforcing ring (6) cannot be dismantled from the coupler (1) after the installation. The material can be the same as in the other embodiment but in the embodiment in FIG. 3 is it possible to form the ring (8) in one piece because it must not be removable.