DE19543318A1 - Hose and coupling joint - Google Patents

Abstract

For the junction of a plastics hose (1) for fluids, to a plastics coupling (2), the end section (4) of the coupling (2) is injected round the end section (3) of the hose (1) to give a material bond over the end length. The end side (5) of the end section (3) of the hose (1) has the same inner dia. as the cylindrical section (6) of the coupling (2) against it so that, at the injected section (6), there is a free fluid flow without resistance at the hose (1) and coupling (2). The hose (1) and coupling (2) are of polyamide, polyolefin, fluorinated plastics, polyester, polyacetal and polyketone. The polyamide is one of polyamide PA 4.6, PA 6, PA 6.6, PA 11, PA 6/12 and PA 12. The polyolefin is a polypropylene or polyethylene. The fluorinated plastics is ethylenetetrafluoroethylene (ETFE), polyvinylidenefluoride (PVDF) or THF. The polyester is a PBT, PEN, PBN or PET.

Description

The invention relates to a connection of a Fluid line made of plastic with a tubular Coupling element made of plastic, in which one end cut the fluid line and an end portion of the dome are connected coaxially with each other.

In a known connection of this type (DE 44 13 346 C1) the end portion of the coupling part has a fir tree-like ribbed profile on which the end section the pipe is pushed. In addition, the End section of the pipe ge a hose clamp tense. This type of connection is material and ar laborious. In addition, there is at the transition between the free end of the end portion of the dome ment element and the fluid line a stage, the egg NEN flow resistance forms when the fluid from the Fluid line flows into the coupling element.

The invention has for its object a verb of the type mentioned, in which the work and Material costs less and the level mentioned is avoided.  

According to the invention, this object is achieved in that the end portion of the coupling member around the end cut the fluid line over its entire length is molded around and on the front the end portion of the fluid line the same Internal diameter as the fluid line zy Lindrischer part of the coupling element cohesively is molded so that a through the end portion of the Fluid line and the injection molded on the front side Part of the coupling element limited free flow cross section in the fluid line and in the coupling element is present.

This solution eliminates the need for a hose clamp and a separate operation for their attachment. Desglei There is a smooth transition from the end cut the coupling element to the fluid line, so that no flow resistance at this transition occurs. The fluid line is used to plug together the end portion of the coupling element neither by Auf expansion, as when plugging onto the end section in the known case, still deformed by a hose clamp and thereby pressed together so that the Ge Drive the material to flow away after a long time and a related leak in the connection dung exists. Furthermore, there is a risk of leakage speed of the connection due to a shrinkage of the Fluid line material when cooling to low Temperatures, especially below freezing, ver avoided. Rather, the connection is extremely tight and also withstands high axial forces.

Because the inside diameter of the fluid line from the start over their entire length smaller than the outside diameter can be the end portion of the coupling element, namely the smallest inside diameter of the dome  lungselements, one also comes with less material for the fluid line.

It is preferably ensured that the fluid line and the coupling element of one of the materials polya mid, polyolefin, fluoroplastic, polyester, polyacetal and has polyketone. These materials go in the he soft state an intimate cohesive enamel connection one. Because the pipeline and the coupling element made of the same material is omitted also an adhesion promoter or a modification of the Materials to fuse them tightly together can.

The polyamide can be PA 4.6, PA 6, PA 6.6, PA 11, PA 6/12 and PA 12, for the polyolefin by one Polypropylene or polyethylene, for the fluoroplastic for ETFE, PVDF or THV and for the polyester for a Trade PBT, PEN, PBN or PET.

The invention and its developments will be next Based on the drawing of exemplary embodiments described in more detail. Show it

Fig. 1 shows a longitudinal section through a first embodiment example of a connection according to the invention and

Fig. 2 shows a longitudinal section through a second example Ausfüh approximately connec tion according to the invention.

Of FIG. 1 is a fluid conduit 1 made of plastic with a tubular coupling element 2, which likewise consists of plastic, is connected. An end portion 3 of the fluid line 1 and an end portion 4 of the hitch be element 2 are coaxially connected to each other that the end portion 4 of the coupling element 2 around the end portion 3 of the fluid line 1, namely over the entire length of the end portion 3 , is integrally sprayed and at the end face 5 of a Endab the same inside of the coupling member 2 is injection molded cohesively diameter as the fluid pipe 1 comprising Direction zylin drischer part 6 section 3 of the fluid line. 1 This results in a through the end section 3 of the fluid line 1 and the part 6 of the coupling element 2 molded onto its end face 5 limited free flow cross section in the fluid line 1 and in the coupling element 2 without a flow impeding in the direction of arrow 7 on the stage Transition between end section 3 and part 6 . The coupling element 2 can also be ausgebil det, like the sleeve of the plug coupling shown in DE 44 13 346 C1, the locking device of which is omitted in the present illustration to simplify it and only the sealing rings 8 and 9 in the form of O- Rings with the safety ring 10 arranged therebetween are shown.

The pipeline 1 and the coupling element 2 can have one of the materials polyamide, polyolefin, fluoroplastic, polyester, polyacetal and polyketone, the polyamide being one of the polyamides PA 4.6, PA 6, PA 6.6, PA 11, PA 6/12 and PA, the polyolefin is a polypropylene or polyethylene, the fluoroplastic ETFE, THV or PVDF and the polyester can be a PBT, PEN, PBT or PET. When using materials of the same genus both for the pipeline 1 and the hitch be element 2 results in a very strong and tight material connection between the fluid line 1 and the coupling element. 2 The use of a separate connecting element, such as a clampable hose clamp, to connect the end sections 3 and 4 to one another is eliminated.

The connection is made in such a way that the end section 3 of the fluid line 1 is plugged onto an end section of a cylindrical part of a mold core (not shown), where the outer diameter of the mold core corresponds to the inner diameter of the fluid line 1 , so that the softened molding compound of the coupling element 2 around the end section 3 of the fluid line 1 and the part of the mold core lying outside the fluid line and sprayed around with the end section 3 of the fluid line. After curing of the hitch be element 2 then the mold core is removed ent. Characterized the smallest free flow cross-section of the connection through the end portion 1 of the fluid line and at least the axially adjacent to the end portion 3 of the fluid line part 6 of the coupling element is limited to the same inner diameter.

The embodiment of FIG. 2 differs from that of FIG. 1 essentially only in that the part 6 a sprayed on the end face of the pipeline 1 , which has the same inner diameter as the fluid line 1 , over the entire length of the outside the fluid line 1 lying portion of the coupling element 2 a, and in that the coupling element 2a on the outside with a circumferential retaining rib 11 is provided. The coupling element 2 a therefore corresponds in principle to the pipe socket according to FIG. 1 of DE 44 13 346 C1, only that it is not connected to a housing of a motor vehicle radiator but to a fluid line 1 . Therefore, when the coupling element 2 of Fig. 1 provided with a locking device according to DE 44 13 346 C1, the clutch can element 2a according to Fig. 2 in the coupling element 2 is leading and to be locked by the retaining rib 11 to the Rasteinrich tung to connect the two fluid lines 1 to each other.

The material of the fluid line 1 and the Kupplungsele ments 2a of FIG. 2 may be the same as the material of the fluid pipe 1 and the coupling element 2 of FIG. 1 in.

Instead of the coupling elements 2 and 2 a, other coupling members can be connected with a fluid line in the same manner.

Claims (6)

1. Connection of a fluid line ( 1 ) made of plastic with a tubular coupling element ( 2 ; 2 a) made of plastic, in which an end section ( 3 ) of the fluid line ( 1 ) and an end section ( 4 ) of the coupling element ( 2 ; 2 a ) are coaxially connected to each other, characterized in that the end section ( 4 ) of the coupling element ( 2 ; 2 a) around the Endab section ( 3 ) of the fluid line ( 1 ) is integrally sprayed around its entire length and on the end face ( 5 ) of the end portion (3) of the fluid line (1) the same inner diameter as the fluid line (1) having Direction cylindrical part (6; 6a) of the coupling element (2; 2 a) material is injection-molded locking manner so that a through the end portion ( 3) the fluid line (1) and the injection-molded onto the end face (5), part (6; 6a) of the coupling element (2; 2 a) limited free flow area in the fluid conduit (1) and in the coupling element (2; 2 a) is present . 2. Apparatus according to claim 1, characterized in that the fluid line ( 1 ) and the coupling element ( 2 ; 2 a) has one of the materials polyamide, polyolefin, fluoroplastic, polyester, polyacetal and polyketone. 3. Device according to claim 2, characterized net that the polyamide one of the polyamides PA 4.6, PA 6, PA 6.6, PA 11, PA 6/12 and PA 12. 4. The device according to claim 2, characterized net that the polyolefin is a polypropylene or poly is ethylene. 5. The device according to claim 2, characterized net that the fluoroplastic ETFE, PVDF or THV is. 6. The device according to claim 2, characterized net that the polyester is a PBT, PEN, PBN or PET is.