DE102007055328A1 - pipe connection - Google Patents

Abstract

The invention relates to a fluid-conducting pipe connection (1) with at least one pipe (2), in which at least at its first end (3) a flange (4) is arranged. The flange (4) can be produced by means of a Umgießvorgangs by a direct cohesive connection (7) between the encapsulated flange (4) and the pipe (2). The direct cohesive connection (7) can be produced by the fact that the material of the flange at least partially during the Umgießvorgangs a higher temperature than the melting temperature of the material of the pipeline and Umgießvorgang the material of the pipeline in the region of the encapsulation is melted, or in that the surface of the pipeline (2) can be caused to react by a flux with the material of the cast-over flange (4). Between the melt of the flange (4) and the surface of the pipe (2), there is an interaction during casting, so that upon solidification of the melt a cohesive connection (7) between the pipe (2) and the flange (4) can be formed ,

Description

The The invention relates to a fluid-carrying pipe connection with at least one pipeline, at least at its first End is arranged a flange.

such Pipe joints are known per se and in a variety of Applications in use.

The The object of such a pipe connection is the pipeline to connect to another fluid-carrying component and thus the transport of a fluid between the tube and the other allow fluid-carrying component.

The Requirements for the pipe connection are on the one hand the pressure-tight Connection between flange and pipe, the pressure tightness of the flange itself, a high vibration resistance between the pipe and the Flange and good mountability.

there is a lightweight cost-effective especially in vehicle construction Version aimed at.

such Compounds are currently commonly called combination Light metal flange with steel or other metal tubes produced. In this case, the metal pipes, preferably steel or stainless steel usually soldered or welded into aluminum flange body.

Pipe joints, which are similar to the described prior art, are in the DE 195 30 614 A1 , of the DE 100 43 824 A1 , of the DE 44 04 928 A1 or in the DE 199 57 567 A1 shown.

A disadvantage of the described type of pipe connections on the one hand, that the flange must be made of a wrought alloy with extensive mechanical reworking. The pipes must be tightly and vibration-proof attached to the flange via an additional operation. Is, like in the DE 199 57 567 A1 The flange itself flows through a fluid, can be created by the machining of the flange in the interior paragraphs and edges, which must be deburred very expensive to prevent residual particles from getting into the fluid during operation.

in principle is also the use of urformed, preferably die-cast Flanges made of light metal alloy possible. These flanges offer compared to the machined parts Wrought alloy the advantage of a high variety of forms with little or no mechanical rework. They are also inexpensive produced. Urgeformte components (especially die-cast components) are from home, however, due to the internal porosity not 100% pressure tight. The common casting alloys are also not solderable, since it is about more phase alloys is where in the soldering individual Phases go into surface state and thus the soldering to make impossible. Exceptions to this are aluminum materials with low alloying constituents, for example AlMn 1.6. These Alloys all have the disadvantage that a low surface hardness and high creep property or tendency to settle exists. For this The reason is the alloys for the flange connections especially unsuitable for swinging loads.

Around nevertheless the highly productive process die casting for can use the production of pipe flange connections, The flanges can also be designed around appropriately designed pipes be poured around so that the tubes pass through the flange and the fluid does not come into direct contact with the flange.

Thereby the above-mentioned disadvantages of the urgeformten flanges are eliminated. In particular, the pipes are then 100% pressure tight by default. They have no soluble residual particles inside, which can pollute the fluid during operation. The sealing surface for the connection of the flange with another fluid-carrying component can thereby preferably also by die casting without subsequent Processing be made.

in the Normally, the tubes with higher melting temperature with a light metal alloy with a lower melting temperature cast around. This usually forms a positive or positive Connection. By attaching appropriate undercuts on the pipe a connection is also vibration resistant. The production of the corresponding Undercuts on the tubes, however, is not always the case possible or very expensive.

is the design of the undercuts is not optimal, it can in particular at vibration load or thermal cycling to occur come from leaks between pipe and flange. Therefore it desirable a cohesive connection between the pipe and the over-molded flange.

In the DE 10 2004 047 841 A1 discloses a method in which a molten metal is at least partially poured around an insert. In order to make a material connection between the molded part and the insert, an additional Me is needed on the insert before casting tallschicht applied. This is usually applied by thermal spraying and is usually composed of an alloy that is free of low-melting eutectic phases. After the same principle also work after the procedure DE 10 2004 031 164 A1 and the DE 10 2004 029 070 A1 ,

These mentioned methods have the disadvantage that an additional Work step on the pipe is required before the casting can be made. This is an elaborate preparation of Inserts necessary. The insert is also characterized by the thermal Spraying and by the subsequent transfer twice thermally loaded, which, if necessary, to loss of strength can lead.

Of the In addition, material adhesion only occurs between the coating and the cast metal instead, leaving the tightness between the flange and the tube substantially from the connection of the sprayed layer is dependent on the pipe.

Of the Invention is based on the object, a pipe connection of the above mentioned type, in which the flange by a die-casting can be produced, with the flange on the tube without additional Operations such as subsequent welding or soldering and without undercuts pressure-tight and vibration-proof is fastened.

These Task is solved in that the flange by means of a Umgießvorgangs by a direct cohesive Connection between the encapsulated flange and the pipe can be produced.

One thus produced flange has the advantage that he over the cohesive, producible during the Umgießvorgang direct connection to the pipeline without further operations and intermediate layers can be tightly connected to the pipeline. The cohesive connection has a high strength on, so that undercuts, which allows a positive fit make, are not required. This way is a very inexpensive, dense and high strength pipe connection possible.

In a development of the invention is the direct cohesive Connection between flange and pipe thereby produced that the material of the flange during the Umgießvorgangs at least temporarily a higher temperature than the melting temperature of the material of the pipeline and during Umgießvorgang the material of the pipeline on the outer surface the pipeline in the region of the encapsulation is melted, whereby the cohesive connection by welding the materials of the flange and the pipe during Umgießvorgang can be produced.

In a development of the invention are the materials of the flange and the pipeline aluminum materials.

Thereby, that the material of the pipeline during the pouring through the Material melt of the flange is melted, creates a cohesive connection between the molten Surface of the pipeline and the melt of the flange without additional intermediate layer to be applied after the solidification of the flange an insoluble tight connection forms between flange and pipe.

aluminum has a low weight with good strength. It leaves melt well as it has a low melting temperature. It also has a good to very good depending on the alloy Corrosion resistance.

In a development of the invention is the cohesive Connection between flange and pipe thereby produced that the surface of the pipeline before the Umgießvorgang treated with a flux, which is a reaction of the surface the pipeline with the material of the molded flange during the Umgießvorganges allows.

By The flux creates a connection, the one by soldering producible compound is similar without an additional Soldering process necessary after casting is. Such a compound has the advantage that also materials connectable to each other, which do not weld to let. A filler material, as in soldering, is not required.

In a development of the invention is the pipeline as a stainless steel pipe austenitic steel and the flange made of a light metal, preferably formed aluminum.

stainless steel pipes have the advantage of excellent corrosion resistance. By the pipe connection according to the invention It is also possible to use stainless steel tubes with flanges made of light metal too Mistake. This allows complex forming operations account for the stainless steel tubes. Further thermal treatment steps are also not required.

With reference to the drawing, an example of the invention will be explained in more detail below. The figure shows a pipe connection according to the invention 1 with a pipeline 2 and one the pipeline 2 at her first end 3 comprehensive flange 4 , The flange 4 has axially distributed holes on its circumference 5 on, over which the pipeline 2 over the flange 4 can be fastened to a further fluid-conducting component (not shown here). pipeline 2 and flange 4 are each formed of an aluminum material.

The flange 4 is by pouring the already finished pipeline 2 produced in a mold, not shown here by die casting. The temperature of the melt of the flange is 5 at times slightly higher than the melting point of the material of the pipeline 2 ,

Due to the fact that the temperature of the melt of the flange 5 is slightly higher than the melting point of the material of the pipeline 2 , it comes when pouring in the contact zone 6 between flange 4 and piping 2 to a melting of the surface of the pipeline 2 , By appropriate choice of materials and temperature control is ensured that while the wall of the pipeline 2 only on the outside melts and the basic structure of the pipeline 2 preserved. Between the melt of the flange 4 and the melted surface of the pipeline 2 it comes to a confluence, so that when solidification of the melt a cohesive connection 7 between the pipeline 2 and the flange 4 can be trained.

After removing the pipe connection 1 from the mold, the pipe connection is ready for installation without further thermal operations. The cohesive connection 7 ensures 100% tightness a high degree of strength and vibration resistance.

1

pipe connection

2

pipeline

3

First end of the pipeline 2

4

flange

5

Holes in the flange 4

6

contact zone

7

cohesive connection

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 19530614 A1 [0007]
• - DE 10043824 A1 [0007]
• - DE 4404928 A1 [0007]
• - DE 19957567 A1 [0007, 0008]
• DE 102004047841 A1 [0014]
• - DE 102004031164 A1 [0014]
• DE 102004029070 A1 [0014]

Claims (5)

Fluid-conducting pipe connection ( 1 ) with at least one pipeline ( 2 ), at least at its first end ( 3 ) a flange ( 4 ), characterized in that the flange ( 4 ) by means of a Umgießvorgangs by a direct cohesive connection ( 7 ) between the encapsulated flange ( 4 ) and the pipeline ( 2 ) can be produced. Fluid-conducting pipe connection ( 1 ) according to claim 1, characterized in that the direct material connection ( 7 ) between flange ( 4 ) and piping ( 2 ) is produced by the fact that the material of the flange ( 4 ) at least temporarily during the Umgießvorgangs a higher temperature than the melting temperature of the material of the pipeline ( 2 ) and during Umgießvorgang the material of the pipeline ( 2 ) on the outer surface of the pipeline ( 2 ) can be melted in the region of the encapsulation, whereby the material-fit connection can be produced by welding the materials of the flange and the pipe during Umgießvorgang. Fluid-conducting pipe connection ( 1 ) according to claim 2, characterized in that the materials of the flange ( 4 ) and the pipeline ( 2 ) Are aluminum materials. Fluid-conducting pipe connection ( 1 ) according to claim 1, characterized in that the cohesive connection ( 7 ) between flange ( 4 ) and piping ( 2 ) is producible by the surface of the pipeline ( 2 ) is treated with a flux before the Umgießvorgang, which is a reaction of the surface of the pipeline ( 2 ) with the material of the encapsulated flange ( 4 ) during the Umgießvorganges possible. Fluid-conducting pipe connection ( 1 ) according to claim 4, characterized in that the pipeline ( 2 ) is formed as a stainless steel tube made of austenitic steel and the flange of a light metal, preferably aluminum