DE19838125C1 - Pipe connector for plastic pipes - Google Patents

Abstract

A pipe connector (1) for plastic pipes (2) and/or plastic/metal pipes, comprises a connection channel (3) with a surrounding support sleeve (6) and a fixing sleeve (7) on top. A pipe end receiving area (10) is located between the support and fixing sleeves. The support sleeve consists of a plastic section on the connection channel side, and a metal section on the plastic pipe end. The metal section (12) has profiled cut-outs, and when the fixing sleeve is located on the plastic pipe end, material can be pressed into the cutouts.

Description

The invention relates to a pipe connector for plastic pipes and / or plastic / metal composite pipes, with connection derkanal, at least one surrounding the connector channel Support sleeve and at least one over the support sleeve directional fixation sleeve. - Such pipe connectors are also referred to as composite fittings. Art Material / metal composite pipes means in the context of the invention Composite pipes made of plastic and metal, the particular have an inside plastic layer. Plastic Rohrre also means tubes, which is an inner art Have material layer and also from others Materials can exist. The Rohrver according to the invention binder is preferably for cylindrical plastic pipes designed with an essentially circular cross-section. The supports are also expedient for such pipes sleeve and the fixing sleeve of the Rohrver invention binder cylindrical. The term connector channel means the through formed in the pipe connector lasskanal, which is assigned to the pipe channel of an art Connects fabric tube and in particular the passage egg fluid medium. Fixing sleeve means in the frame the invention in particular a press sleeve or a Sliding sleeve.

There are pipe connectors designed as clamp connectors knows (DIN 8076) from at least three metal components elements consist of a support sleeve, a clamp ring and a union nut with internal thread. First are the preferably slotted clamping ring as well  the union nut on the plastic pipe to be connected pushed on and then the one on its outer surface with grooves profiled support sleeve in the pipe end of the Plastic tube inserted. Then the cap nut via a on a connecting piece of the pipe connector arranged counter thread screwed or tightened. On in this way the clamping ring is compressed and that Plastic pipe plastically deformed so that plastic material pressed into the profiles of the support sleeve becomes. This known pipe connector is characterized by the Disadvantage that often due to assembly errors Leaks in the connection between the plastic pipe and Pipe connectors result. In that this known Pipe connector consists of at least three individual components, is both the manufacture and the assembly of the Pipe connector is relatively complex. Otherwise there are Components of the known clamp connector, in particular also the support sleeve, made of metal. This has the disadvantage that the pipe connector is not corrosion resistant and therefore for many fluid media, especially for aggressive ones chemical liquids, cannot be used.

From practice are also designed as press connectors Pipe connector known from a metal support sleeve and a metal press sleeve. The metal one Press sleeve is first to be connected to the Plastic tube pushed on. Then the on its outer surface profiled metal support sleeve in inserted the pipe end of the plastic pipe. The press sleeve is placed over the support sleeve on the pipe end positioned. Then the press sleeve with  corresponding pressing tools radially towards the center of the pipe mechanically deformed or compressed. Through this radial pressure is also the pipe end of the Plastic tube deformed so that plastic material in the outer profiles of the support sleeve is pressed. This known pipe connector is also characterized the disadvantage that the exclusively metal Components are not resistant to corrosion and the Pipe connector thus for a variety of liquids and especially not suitable for aggressive fluid media is.

Furthermore, pipe connectors are known which have a support sleeve made of thermoplastic material and a compression sleeve Have metal. The support sleeve consists of hydrolysis-resistant plastics, such as polysulfone (PSU), Polyether sulfone (PES) or polyphenyl sulfone (PPSU). To after the assembly of the ferrule an undesirable creep of the Avoiding plastic will become plastic types high hardness and brittleness used. However, this requires the disadvantage that due to the high pressures or Deformation forces can break off parts of the support sleeve or cracks or microcracks in the support sleeve be, causing leaks in the pipe connector arise. To avoid these disadvantages, too Polyvinylidene fluoride (PVDF) as the material for the support sleeve used. This is a However, hydrolysis-resistant mechanically highly resilient not brittle plastic. However, this tends Plastic after applying the pressure to the Press sleeve and after the plastic deformation of the  Plastic material to undesirable creep, which in turn causes leaks in the pipe connection can result. - Creeping of the plastic means that by the pressure and by the plastic deformation in the plastic of the pipe end and / or the support sleeve generated compressive stresses decrease over time or relax. This creep takes place in particular mechanical and thermal stress on the connection instead of. It is understood that by crawling the Plastic leaks occur in the pipe connector can.

The invention is based on the technical problem, one Specify pipe connector of the type mentioned, the compared to fluid media in the plastic pipes hydrolysis-resistant and corrosion-resistant, which is a Creeping of the plastic, especially the support sleeve, is avoided and which is characterized by long-term Characterized tightness and also simple and little is complex to assemble.

To solve this technical problem, the invention teaches a pipe connector for plastic pipes and / or plastic / metal composite pipes, with connector channel, at least one support sleeve surrounding the connector channel and at least one fixing sleeve that can be aligned over the support sleeve,
a receiving space for a pipe end of a plastic pipe being provided between the support sleeve and the aligned fixing sleeve,
the support sleeve consisting of a connector sleeve-side plastic sleeve part and a plastic tube-side metal sleeve part,
wherein the metal sleeve part has plastic recesses approximately recesses and
whereby by fixing the fixing sleeve on the pipe end of the plastic pipe material portions of the pipe end can be pressed into the profiling recesses. - Parts of the material that can be pressed into the profiling recesses mean, in the context of the invention, particularly plastic parts of the pipe end that can be pressed in.

According to a preferred embodiment, which is part of the Invention is of particular importance, the tube connector on two opposite sides of one Connector body each have a support sleeve, each a fixing sleeve is assigned to the two support sleeves. Of the Pipe connector of this embodiment is for connection the pipe ends of two plastic pipes. - However, it is also in the context of the invention that the pipe connector as it were, the tube end of a first plastic tube and accordingly only a support sleeve with has associated fixing sleeve. At the named pipe end then the pipe end of a second plastic pipe connected.

According to a preferred embodiment of the invention Fixing sleeve designed as a compression sleeve and this is  Press sleeve by radially acting compressive forces on the Pipe end of the plastic pipe can be fixed. The compression sleeve will when fixing with appropriate pressing tools radially mechanically deformed or as it were on the pipe end pressed together. In other words, from the outside generated radially acting pressure forces on the compression sleeve. The mechanical deformation is preferably carried out via the entire circumference of the compression sleeve. Conveniently done the mechanical deformation but not on the whole Surface of the press sleeve but preferably preferred parallel pressing ring zones in the longitudinal direction the press sleeve arranged at certain distances from each other are.

According to the invention when connecting the pipe end Proceed as follows on the plastic pipe on the pipe connector. First, the support sleeve in the pipe end of the Plastic tube inserted or the tube end of the art fabric tube is pushed onto the support sleeve. Here the fixing sleeve can already be over the support sleeve be aligned or positioned. However, it is also in the context of the invention, the fixing sleeve only after Push the support sleeve into the pipe end above the Position the support sleeve. The fixing sleeve can also be used as so-called sliding sleeve can be formed. The at least pressure forces to be applied according to the invention partly by pushing on such a sliding sleeve be applied. However, preferably after Position the fixation sleeve over the support sleeve Fixing sleeve mechanically deformed radially towards the support sleeve or preferably over their entire scope, as it were  pressed together. Due to the applied pressure forces the pipe end of the plastic pipe plastically deformed and Material material or plastic material of this pipe end penetrates the profiling recesses of the Metal sleeve part of the support sleeve. In other words is plastic material of the plastic tube in the Profiling recesses of the metal sleeve part indented. Because of this permanent plastic deformation of the pipe end and the penetration of the plastic material in The profiling recesses will be dense in the long term Connection between plastic pipe and pipe connector created. - The application of pressure forces on the Fixing sleeve and the resulting plastic Deformation of the pipe end of the plastic pipe is in the Framework of the invention referred to with the term fixation.

According to a preferred embodiment of the invention Metal sleeve part on mechanical gears in the Anchored plastic sleeve part. Preferably in the Metal sleeve part grooves on the plastic sleeve part side provided in which grooves complementary webs of Intervene in the plastic sleeve part. It is understood that conversely, the plastic sleeve part also have grooves can in which grooves complementary webs of the Intervene in the metal sleeve part. The grooves are preferably and the webs transverse to the longitudinal direction of the pipe connector and thus transverse to the longitudinal direction of the plastic tube arranged. In this way, the Pipe connector a tension-proof connection between Metal sleeve part and plastic sleeve part achieved. It lies also within the scope of the invention that alternatively or  additionally interlocking longitudinal webs and Longitudinal grooves on the metal sleeve part or plastic sleeve part are provided. This can prevent be that metal sleeve part and plastic sleeve part are rotatable relative to each other. - After preferred Embodiment that is special within the scope of the invention Of importance is the interlocking between metal sleeve part and plastic sleeve part executed so that the Metal sleeve part with the plastic sleeve part in radial Direction of the pipe connector is hooked tensile. After a Embodiment are in the metal sleeve part Grooves on the plastic sleeve part with a trapezoidal cross cut provided due to the trapezoidal cross section Have undercuts in the metal sleeve part that the radial connection between Ensure the metal sleeve part and plastic sleeve part. It is basically within the scope of the invention, a fixed Interlocking between the metal sleeve part and plastic sleeves partly through corresponding undercuts in the metal to realize sleeve part. It is understood that then ent speaking complementary sections of the plastic sleeves partially intervene in the undercuts mentioned. This can in particular by injection molding the plastic sleeves partially realized. According to another execution form of the invention are interlocking in the metal sleeve part openings provided that the plastic of the plastic reaches through and overlaps. This too Wise is a tensile and reliable hooking between metal sleeve part and plastic sleeve part ge ensures. Due to the fixed hooking of the metal sleeve part and plastic sleeve part is achieved that the plastic  of the plastic sleeve part not relative to Can crawl away and / or shrink away metal sleeve part. The interlocking ensures in particular that the fluid medium passed through the pipe connector is not between the metal sleeve part and the plastic sleeve part can reach. The fixed entanglement therefore contributes to advantageously to the tightness of the support sleeve and entire pipe connector.

According to a preferred embodiment of the invention Profiled recesses on the plastic pipe side Metal sleeve part designed as profile grooves. Preferably profile grooves are provided which are vertical or essentially Lichen perpendicular to the longitudinal direction of the pipe connector or of the connector channel and thus vertically or essentially Lichen perpendicular to the longitudinal direction of the plastic tube are arranged. The profile grooves point to one Embodiment expediently a rectangular Cross section on. In another embodiment, this is Metal sleeve part with respect to the longitudinal direction of the Pipe connector wave-shaped and form the Wave valleys that are perpendicular to the longitudinal direction of the Pipe connector arranged profile grooves. This Embodiment is in particular for pipe connectors small diameter of advantage where expediently the metal sleeve part in the form of a relatively thin sheet metal is formed. In such thin-walled metal sleeve parts Profiling recesses or grooves are proportionate simply by realizing the waveform of the Set up the metal sleeve part. After another  The embodiment of the invention is the metal sleeve part with respect to the longitudinal direction of the pipe connector sawtooth-shaped plastic pipe-side surface equipped and thus have the profiling recesses or profile grooves a triangular cross-section. This embodiment is particularly advantageous if a sliding sleeve is used as the fixing sleeve.

When applying a pressure to the fixing sleeve or on the pipe end of the plastic pipe Material or plastic parts of this pipe end in the profiling recesses or profile grooves are pressed, whereby a very firm and tight connection or Toothing between tube end and metal sleeve part reached becomes. In other words, they take Profiling recesses or the profile grooves in Fixation process the plastically deformed material of the Pipe end on. Because the profile grooves are preferred arranged transversely to the longitudinal direction of the plastic tube are a tensile connection between the plastic pipe and pipe connector or between pipe end and metal sleeve part reached. It is also within the scope of the invention that in the longitudinal direction of the pipe connector or the art arranged tubular grooves are provided in which profile grooves also material parts of the pipe end be pressed in during the fixing process. This in Profile grooves arranged in the longitudinal direction of the plastic tube make sure that the plastic tube is twisted is prevented relative to the pipe connector. It is in the other also within the scope of the invention, diagonally to Profile grooves arranged in the longitudinal direction of the plastic tube  to be provided in the metal sleeve part. - The metal sleeve part consists for example of stainless steel or brass.

The plastic tube is preferably on the support sleeve at least one extending over the circumference of the support sleeve Sealing element provided. According to one embodiment of the Invention is the at least one sealing element on the Metal sleeve part arranged. There is at least one Sealing element preferably in a transverse to the longitudinal direction of the pipe connector arranged profile groove of the metal sleeve part stored. Preferably there are at least two the sealing elements provided, expediently a Sealing element in the area of the end face of the pipe end is arranged and the second sealing element in the area the end face of the support sleeve is provided. At least a sealing element is preferably an O-sealing ring executed. It is also within the scope of the invention that around the lip of the sealing element tion element, in particular around a lip sealing ring, acts. - According to one embodiment of the invention the sealing element made of an elastomer, preferably made of a thermoplastic elastomer. A is preferred Sealing element made of a thermoplastic elastomer Olefin base used. According to another embodiment of the invention, the sealing element can be made of rubber consist. It is within the scope of the invention that Sealing elements during the fixing process or when Applying a pressure to be deformed. With the According to the invention, sealing elements become special tight connection between the support sleeve and the pipe end of the Plastic tube reached. The sealing elements serve  in particular also to the manufacturing tolerances of the Plastic pipe and / or the metal sleeve part bridge.

According to a preferred embodiment of the invention Plastic sleeve part of the support sleeve from a hydrolysis permanent and high-strength plastic. Preferably there is the plastic sleeve part made of at least one plastic Group "Polyethylene (PE), Polysulfone (PSU), Polyketone (PK), Polyvinylidene fluoride (PVDF) ". Preferred as polysulfone Polyether sulfone (PES) and / or polyphenyl sulfone (PPSU) used. The polyethylene is preferably crosslinked Polyethylene (PE-X) used. As a polyketone an aliphatic polyketone is advantageously used. It is also within the scope of the invention that a Connector body of the pipe connector on which the Plastic sleeve part is preferably molded from which same plastic as the plastic sleeve part.

According to a preferred embodiment, which is part of the Invention is of particular importance, the fiction appropriate pipe connector manufactured by injection molding. The metal sleeve part is preferably in the Injection mold inserted and on the inside as well expediently also at the front ends encapsulated in thermoplastic. Especially if the metal sleeve part with the preferred embodiment inside grooves and / or webs is equipped, the preferably have undercuts in this Injection molding the metal sleeve part with the injected Plastic sleeve part by a solid mechanical ver  teeth anchored. If according to an embodiment of the Invention cross-linked polyethylene as a material for the Plastic sleeve part is used, the networking expediently by injection molding of the polyethylene Peroxide added. It is within the Invention, the polyethylene in addition to injection molding Add stabilizers. After another execution Rungsform the invention is the crosslinking of the poly ethylene only after injection molding. At This embodiment can be used for injection molding Polyethylene / siloxane / catalyst mixture are used, the crosslinking following the injection molding Storage in a water bath, expediently hot water bath or is brought about by storage in water vapor. It is also within the scope of the invention that networking of polyethylene after injection molding with the help of high-energy radiation, for example with γ radiation or with β-radiation from an electron accelerator, is achieved. - According to the preferred embodiment of the Invention, the at least one sealing element is common with the support sleeve or with the plastic sleeve part in one operation by two-component injection molding manufactured. In this way, a particularly intimate and firm connection of the components can be achieved. That applies especially if according to an embodiment of the invention a sealing element not on the metal sleeve part but on or in a front plastic sleeve section is provided. For example, if that Plastic sleeve part made of high density polyethylene (PE-HD) consists and the sealing element from a thermo plastic elastomer based on olefin and a  Two-component injection molding process for the production of both components is carried out in the interface between the relatively rigid material of the support sleeve and the more flexible sealing element a particularly intimate Composite manufactured. If according to the preferred embodiment a crosslinking of the invention after this injection molding process of polyethylene with high-energy radiation takes place not only the plastic sleeve part, but also the Cross-linked lip seal. This way too can be long optimal mechanical, thermal and chemical in time Properties of the network can be achieved.

The invention is based on the knowledge that the the known pipe connectors described above associated disadvantages can be avoided if the Features according to the invention are realized and if in particular a support sleeve with an inside Plastic sleeve part on the one hand and an outside Metal sleeve part is used on the other hand. By doing that Metal sleeve part the counterpart to the fixing sleeve when Forms the fixing process can advantageously compressive forces or pressing forces acting during the fixing process effectively absorbed by this metallic component become. Any damage, cracking or the like, the the tightness of the pipe connector or the connection between the pipe end and the support sleeve, do not arise. The metal sleeve part can also in Operation of the pipeline occurring mechanical Effectively absorb or absorb stresses. By the material combination plastic / metal in the Support sleeve will be both a long-term tightness  also an excellent mechanical stability of the established connection guaranteed. Because that Plastic sleeve part forms the inner surface of the support sleeve, come through the plastic tube or through the Fluid channel of the pipe connector only in contact with the corrosion-resistant plastic. In this respect, the pipe connector according to the invention is suitable also excellent for aggressive or corrosive Liquids or gases. The result is the pipe connector according to the invention by an optimal Corrosion resistance. The fact that when fixing Process material or plastic parts of the pipe into the profiling recesses of the metal be pressed in part, becomes a very firm mechanical connection, in particular a tensile connection of pipe connector and plastic pipe. A creeping after the fixing process Plastic of the support sleeve or the pipe end is with the Pipe connector according to the invention effectively avoided. From is also of particular importance that the invention Pipe connector only two components, namely the Support sleeve on the one hand (or connector body with support sleeve) and the fixing sleeve on the other hand needed. Therefore the pipe connector according to the invention also simple and can be assembled with little effort and the connection a plastic pipe with the pipe connector simple and be produced quickly.

In the following, the invention is based on only one Embodiment showing drawing he closer purifies. In a schematic representation:  

Fig. 1 shows a tube connector according to the invention with a pipe end of a plastic pipe positioned in the not yet assembled and fixed state,

Fig. 2 shows the object of Fig. 1 in the fitted and fixed state,

Fig. 3 shows another embodiment of the subject of Fig. 1,

Fig. 4 shows the object of Fig. 3 in the assembled and fixed state,

5 shows the detail A of Fig. 1 guide die. In another,

Fig. 6, the subject of Fig. 5 in a further imple mentation form.

The figures show a pipe connector 1 for plastic pipes 2 , with the pipe end 5 of a plastic pipe 2 being already arranged on the pipe connector 1 in FIGS . 1 to 4. Preferably and in the exemplary embodiment according to the figures, the plastic tube 2 is cylindrical, that is to say of circular cross section. In the execution example, the support sleeve 6 and the fixing sleeve 7 is cylindrical. The tube connector 1 has a connector channel 3 for the passage of a fluid medium, which connector channel 3 in FIGS . 1 to 4 connects to the tube channel 4 of the plastic tube 2 . The Ver binder channel 3 is surrounded by the support sleeve 6 , which support sleeve 6 is connected to the connector body 8 of the pipe connector 1 . The pipe connector also has the fixing sleeve 7 , which is aligned or positioned over the support sleeve 6 . Figs. 1 and 3 show the already aligned or positioned state of the fixing sleeve. 7 Expediently, the fixing sleeve 7 is already attached to the pipe connector 1 or to the connector body 8 in its desired position in an injection molding production of the pipe connector 1 or subsequently to an injection molding production. In the exemplary embodiment according to FIG. 1, the fixing sleeve 7 rests on a body shoulder 9 of the connector body 8 . A receiving space 10 for the tube end 5 of the plastic tube 2 is provided between the support sleeve 6 and the aligned or positioned fixing sleeve 7 . Figs. 1 and 3 show the state in which the pipe end is inserted into the receiving space 10 of the pipe connector 1. 5

The support sleeve 6 consists of a connector channel-side plastic sleeve part 11 , which is preferably and in the exemplary embodiment from the connector body 8 of the Rohrver binder 1 is molded. The support sleeve 6 furthermore consists of a metal sleeve part 12 on the plastic pipe side, which preferably surrounds at least the largest part of the peripheral surface of the plastic sleeve part 11 . Preferably and in the exemplary embodiment, the metal sleeve part 12 is mechanically firmly anchored via toothings in the plastic sleeve part 11 . In the exemplary embodiment, the metal sleeve part 12 has grooves 13 on the plastic sleeve part side for this purpose, which are arranged perpendicular to the longitudinal direction of the pipe connector 1 or the plastic pipe 2 . Complementary webs 14 of the plastic sleeve part 11 engage in the grooves 13 . In the exemplary embodiment, the grooves 13 and the webs 14 have a trapezoidal cross section. The grooves 13 preferably run over the entire inner circumference of the metal sleeve part 12 . Because of the toothing described, the metal sleeve part 12 is mechanically firmly connected to the plastic sleeve part 11 . In particular, due to the trapezoidal configuration of the grooves 13 and webs 14 , undercuts are formed which ensure a connection or toothing of the metal sleeve part 12 and the plastic sleeve part 11 that is tensile in the radial direction of the pipe connector. This prevents the plastic of the plastic sleeve part 11 from creeping away or shrinking away and, above all, prevents the fluid medium from penetrating between the metal sleeve part 12 and the plastic sleeve part 11 . Preferably and in the exemplary embodiment according to the figures, an end-side plastic sleeve section 15 is provided, the peripheral surface of which is not covered by the metal sleeve part 12 . In this preferred embodiment, it is ensured that a fluid medium passed through the pipe channel 4 or through the connector channel 3 only comes into contact with the plastic of the plastic sleeve part 11 , but not with the metal sleeve part 12 .

The metal sleeve part 12 has plastic pipe-side recesses, which are preferably, and in the exemplary embodiment, designed as profile grooves 16 , which run perpendicular to the longitudinal direction of the pipe connector 1 or perpendicular to the longitudinal direction of the plastic pipe 2 . Figs. 1 and 3 show a pipe joint 1 of the invention with already inserted plastic tube 2 and aligned fixing sleeve. 7 In the exemplary embodiment according to the figures, the fixing sleeve 7 is designed as a press sleeve. The fixing sleeve 7 shown in FIGS . 1 and 3 is then preferably radially deformed or compressed over its entire circumference toward the support sleeve 6 . The fixing or the radial compression of the fixing sleeve 7 is expediently carried out with multi-jaw pressing tools, not shown, which are preferably operated electromechanically or hydraulically. Due to the radial compression of the fixing sleeve 7 , the tube end 5 of the plastic tube 2 is plastically deformed and plastic portions of this tube end 5 are received by the profiled recesses of the metal sleeve part 12 , which are formed as profile grooves 16 in the exemplary embodiment, as shown in FIGS . 2 and 4. In this way, a very effective connection and sealing between the metal sleeve part 12 and the pipe end 5 of the plastic pipe 2 is achieved. The profiling recesses or profile grooves 16 of the metal sleeve part 12 are preferably filled as far as possible from the plastic parts of the plastically deformed pipe end 5 ( FIGS. 2 and 4). Figs. 2 and 4 can be removed, moreover, that the fixing sleeve is mechanically deformed at spaced Ringpreßzonen 7 which Ringpreßzonen are preferably associated with and in the exemplary embodiment the profiled sixteenth In FIGS. 2 and 4 it can be seen that the anchoring sleeve 7 has corresponding Verformungsnuten 17, which was caused during fixing process or pressing process with appropriate pressing tools and circulate over the entire circumference of the fixing sleeve 7.

In the embodiment according to FIGS. 1 and 2, two sealing elements extending over the circumference of the support sleeve 6 are provided, which sealing elements in the embodiment are designed as O-sealing rings 18 , 19 , for example. The sealing elements are in the embodiment of FIGS. 1 and 2 in the profile grooves 16 of the metal sleeve part 12 is arranged. Preferably, and in the embodiment, a sealing O-ring 18 is arranged in the region of the end face of the supporting sleeve, while the second O-ring seal 19 is disposed in the region of the end face of the pipe end. 5 During the fixing process or pressing process, the cross sections of the O-sealing rings 18 , 19 are deformed oval or elliptically and maintain this shape in the assembled state ( FIG. 2).

In the exemplary embodiment according to FIGS . 3 and 4, a sealing element is provided in a front plastic sleeve section 15 of the plastic sleeve part 11 . This sealing element is preferably and in the embodiment approximately as a lip seal ring 20 . In particular, this sealing element can be produced together with the plastic sleeve part 11 in the context of a two-component injection molding process. This results in a particularly intimate bond between lip sealing ring 20 and end-face plastic sleeve section 15 .

In Fig. 5 another embodiment of the invention is shown, in which the metal sleeve part 12 in the longitudinal direction of the pipe connector 1 is wave-shaped. Here, the profile grooves 16 are formed by the troughs of the metal sleeve part 12 . Preferably, and in exporting approximately example of FIG. 5 12 Verhakungsöffnungen 21 are arranged in the profiled grooves 16 of the metal sleeve part. The plastic of the plastic sleeve part 11 passes through and engages over these hooking openings 21 . In this way, a particularly firm interlocking between the metal sleeve part 12 and the plastic sleeve part 11 is achieved. On the right side of FIG. 5, a special embodiment of a hooking opening 21 is shown. Here, the hooking opening 21 was produced by means of a punched hole, wherein bent metal lugs 22 were formed on the plastic sleeve part side. These metal flags 22 contribute in a particularly effective manner to an even firmer interlocking or hooking of the metal sleeve part 12 and the plastic sleeve part 11 . In the embodiment of Fig. 5, the plastic over 11 summarizes the plastic sleeve member, the metal sleeve part 12 in the area of Verhakungsöffnungen 21 only in relatively small surface areas. However, it is also within the scope of the invention to arrange a plastic layer on the plastic pipe side over the metal sleeve part surface, which covers the metal sleeve part 12 over the entire surface or essentially over the entire surface. In the embodiment, the metal sleeve part can nonetheless effectively absorb the compressive forces or pressing forces acting during the fixing process.

Fig. 6 shows a further embodiment of the invention. Here, the metal sleeve part 12 is sawtooth-shaped in the longitudinal direction of the pipe connector 1 . Dement speaking, the profile grooves 16 here have a triangular cross section. This embodiment is particularly advantageous when working with a sliding sleeve as the fixing sleeve 7 .

Claims (7)

1. Pipe connector ( 1 ) for plastic pipes ( 2 ) and / or plastic / metal composite pipes, - with
a connector channel ( 3 ), at least one support sleeve ( 6 ) surrounding the connector channel ( 3 ) and at least one fixing sleeve ( 7 ) which can be aligned over the support sleeve ( 6 ),
a receiving space ( 10 ) for a pipe end ( 5 ) of a plastic pipe ( 2 ) is provided between the support sleeve ( 6 ) and the aligned fixing sleeve ( 7 ),
wherein the support sleeve ( 6 ) consists of a connector sleeve-side plastic sleeve part ( 11 ) and a plastic tube-side metal sleeve part ( 12 ),
wherein the metal sleeve part ( 12 ) has profiled recesses on the plastic pipe side and
wherein by fixing the fixing sleeve ( 7 ) on the pipe end ( 5 ) of the plastic pipe ( 2 ) material parts of the pipe end ( 5 ) can be pressed into the profiling recesses. 2. Pipe connector according to claim 1, wherein the fixing sleeve ( 7 ) is designed as a press sleeve and wherein this press sleeve can be fixed by radially acting compressive forces on the pipe end ( 5 ) of the plastic pipe ( 2 ). 3. Pipe connector according to one of claims 1 or 2, wherein the metal sleeve part ( 12 ) via teeth in the plastic sleeve part ( 11 ) is anchored. 4. Pipe connector according to one of claims 1 to 3, wherein the plastic pipe-side profiling recesses of the metal sleeve part ( 12 ) are designed as profile grooves ( 16 ). 5. Pipe connector according to one of claims 1 to 4, wherein the plastic pipe side on the support sleeve ( 6 ) at least one over the circumference of the support sleeve ( 6 ) extending sealing element ( 18 , 19 ) is provided. 6. Pipe connector according to one of claims 1 to 5, wherein the plastic sleeve part ( 11 ) consists of at least one plastic from the group "polyethylene, polysulfone, polyketone, polyvinylidene fluoride". 7. Pipe connector according to one of claims 1 to 6, wherein the pipe connector ( 1 ) can be produced by injection molding.