DE4328858A1 - Articulated connection of two pipe parts - Google Patents

Abstract

The invention specifies an articulated connection of two pipe parts which are located opposite one another in an essentially aligned manner with their ends and comprise at least one line element, which connects the pipe parts to one another in a sealed manner and is in the form of a corrugated pipe or bellows, and a supporting pipe which connects the pipe parts to one another in an articulated manner such that they are capable of bearing loads and, for this purpose, is fastened on the two pipe parts at least indirectly. In this arrangement, it is, then, provided that the supporting pipe is formed as a flexible pipe by means of cuts which extend in it axially and/or in the circumferential direction and are located in the region between its ends, serving for the connection to the line elements.

Description

The invention relates to an articulated connection of two essentially in alignment with their ends opposite pipe parts consisting of at least a tightly connecting the pipe parts Pipe element in the form of a corrugated tube or bellows and connect the pipe parts to one another in an articulated manner the and at least indirectly on both pipe parts attached support tube.

This item is especially for exhaust pipes of motor vehicles, for example, by the EP-PS 0 208 128 known. There is the support tube inside the Bellows arranged and on one side with the one Pipe part directly connected while it is on the whose side with the pipe part there over support pillow is in a positive connection in which it is connected engages a radially extending shaft, wherein the support pillows on the other side through a sleeve Sen-shaped coat are kept, which with the neighboring beard pipe part is connected.

This design represents a relatively rigid Ge steering connection, which is only a slight angular movement allowed between the pipe parts, taking accordingly high adjustment forces occur.  

Another design is in this context the DE-GM 90 16 333 known. Here are the two Pipe parts next to the corrugated pipe or bellows through a ver arranged inside each other bound, the under relatively large material wall brings the danger with it, over the operating time stiffen because of the occurring temperatures. In addition, the agraff tube offers with regard to the well tubes or bellows no torsion support. Bellows are however extreme in terms of torsional loads sensitive.

According to other known designs, the pipe parts connected by universal joints, which by the Corrugated pipe or bellows as a sealing element inside or are accompanied on the outside. These universal joints are stable and deliver a regarding the corrugated pipe or bellows secure support with regard to axial and torsional Movements. On the other hand, such gimbals are joints are relatively complicated in their construction and costly.

The object of the invention is therefore for the connection two pipe parts of the type mentioned a support Specify pipe that is extremely simple in design Way flexible, so that it is designed to be flexible with respect to angular movements put that on the other hand but in torsion rich tion is stable to the bellows or the corrugated tube from the like torsional loads or torsional movements to free.  

This object is achieved in that the support tube by itself axially and / or in order averages extending in the direction of the catch between its the connection with the line elements ten serving ends is designed as a flexible tube.

The measures are support pipe located inside or outside the bellows net, depending on how it is the respective Kon structure required, of the more common with a pipe connected rigidity with respect to angular movement exemptions. On the other hand, a support tube is created fen, the corrugated tube or the bellows in the axial direction with regard to length changes and on the other side supports torsional movements.

The magnitude of the flexibility of the support tube or its axial freedom of movement and also with regard on its torsional freedom of movement can be seen in in a simple way, if necessary, also about their course changing gap width and / or length of Averages as well as their arrangement and density men as desired or portable in individual cases is.

Overall, with regard to a corrugated pipe or Bellows a simple support element that is in view to the permitted manipulated variables in the form of the ge wanted elastic and torsional elastic properties is easy to determine, the operating characteristics cannot be subject to change, i.e. one in his Properties the predetermined qualities permanently having the element.  

This can be energy for the production of the averages jet cutting (laser cutting, plasma cutting, Erosi cutting) find application, so practically none Limits on the design of the averages ge are given. However, there is basically also Possibility of making the averages by punching len.

The averages can be longer stretching in the form of narrow gaps or but also the shape of flat recesses sen, the choice of the width of the column or the Size of the recesses basically the choice of ge corresponds to the desired flexibility of the support tube, by larger gap widths or recesses more Allow flexibility.

It is expedient to use the averages in a ring shape the affected area of the support tube side by side arranged sections to attach. Another possibility However, may be that the through cuts over the affected area of the support tube are arranged circumferentially in a helical fashion. The vote between these two options will emerge from the available or pre-applied seen production means depending on whether one Support tubes in sections or incrementally or continuously Nuclear circular process with the averages wants to provide.

As for the formation of the averages representing Columns are usually radial  have flanks directed to the axis of the support tube. However, it is precisely when using the energy jet cutting also the possibility that the Column representing averages inclined to the axis have directed flanks of the support tube, with which there may be particularly favorable conditions in the outward direction view of a medium flowing through the support tube or with regard to the damping behavior of the support tube with regard to occurring and damped vibrations can result.

It has proven to be a particularly practical design indicated that the averages a circumferential gap with each other in the axial direction of the support each tube directed in opposite directions, omega-shaped or have a trapezoidal contour, with over the more or less great slenderness or stretched The omega profile influences the support tube Control variables made possible axially and in the circumferential direction lets take. For example, lean, paral result Omega shapes extending to the axis of the support tube greater freedom of axial travel compared to such omega Forms that are broad or hammer-like.

Another design is that the support tube axially spaced portions of circumferentially extending over a limited circumferential area Averages. So here is the support tube in individual axial sections divided by the Averages according to the invention each flexible be made.  

In further training of the subject of the invention be provided that the having the averages Area of the support tube from a tight fit to it is surrounded by the coil spring, which as a flat wire or round wire helix can be formed. Hereby there is an additional possibility of movement conditions of the support tube in the sense of damping rivers.

The object of the invention is therefore within the The present genus can be used in a variety of ways with regard to the materials used there are no restrictions. Training the gap-shaped averages of the support tube, the An The number, arrangement and respective width give a great deal Range of options, the flexibility of the support tube, its respective axial and torsional movement availability of the requirements in individual cases adjust, resulting in a component whose Ge usage characteristics over the entire operating time are practically constant.

Further details and features of the invention emerge from the following description of Ausfüh Forms that partially unite on the drawing are shown in multiples. The drawing shows:

Figure 1 shows a known flexible pipe element for exhaust pipes of motor vehicles.

Figure 2 shows the new design of this line element.

Fig. 3 shows a known training an exhaust conduit of motor vehicles;

FIG. 4 shows the design of the object according to FIG. 3 modified according to the invention;

Figs. 5 and 6, two hinge joints of pipes in the manner of a universal joint;

Fig. 7 shows the article of Figures 5 and 6 with findungsgemäßem he support tube.

Fig. 8 different configurations of averages of a support tube;

Fig. 9 shows a further variant for the formation of averages and;

Fig. 10 is a complement of a support tube according to FIGS. 1 to 9.

According to FIG. 1, a known line element, generally designated 1 , consists of a screw or ring-shaped corrugated metal bellows 2 with cylindrical bellows connecting ends 3 , the inside diameter of which is smaller than the inside diameter of the bellows shafts 4 projecting inwards.

In the bellows 2 , a helically wound metal hose, for example an agraff hose 5, is inserted, the outer diameter of which is smaller than the inner diameter of the bellows connecting ends 3 .

At the common ends, the bellows connecting ends 3 and the end pieces 6 of the metal hose 5 are pressed together in the radial direction by the end pieces 6 being radially expanded while compressing the winding profile of the metal hose 5 , at the same time a possible radial play of the metal hose 5 relative to the bellows connecting ends 3 is bridged.

At the same time, support parts in the form of support rings 7 are radially reduced in cross-section from the outside onto the bellows connecting ends 3 , so that overall a result of end pieces 6 , bellows connecting ends 3 and supporting rings 7 gives a tightly compressed final assembly which gives it to be welded to a further one Pipe offers a sufficiently solid and tight front edge.

Due to the radial widening of the end pieces 6 of the metal hose 5 , a "stop" 8 is formed at the same time, which can determine the path by which a subsequent pipeline, not shown here, can be inserted into the line element. In this way, particularly with regard to series production, particularly dimensionally accurate further processing is ensured by connection with connecting line elements.

As can also be seen from the drawing, the bellows 2 is at the right end of a reduced bellows shaft 9 in the outer diameter, in the final closing bellows 3 , whereby a particularly large cross-sectional jump and the associated stress are avoided.

For the same purpose, when a ren also in äuße reduced diameter on the left side of the drawing, terminal Balgwelle 10 passes into the Balganschlußende 3 via a step-shaped offset in the radial direction cross-sectional shape. 11

As can be seen from the drawing, the bellows is surrounded on the outside by a metal wire mesh 12 , which is captured between the bellows connecting end 3 and the support sleeves 7 during manufacture and is thus pressed in. The braid 12 or the braided hose formed therefrom is known to be used to prevent unpleasant changes in length of the bellows 2 under mechanical stress. These mechanical stresses result in particular with internal pressure loading of the bellows by the fact that a bellows of the type in question here is known to try to extend under internal pressure loading.

In addition, the braiding 12 serves to mechanically protect the bellows 2 from impact loads or dirt and, on the other hand, to dampen resonance vibrations of the bellows waves.

As can be seen, the construction shown in FIG. 1 is relatively complicated and expensive, both with regard to the inner cover of the bellows 2 by the metal hose 5 and also with respect to the axial outer support of the bellows 2 by the braiding 12 .

To provide a simplification and improvement here, a support tube 20 is provided according to FIG. 2 instead of the inner agraff hose 5 , which cut with its Endab 21 , 22 is connected to the ends 23 , 24 of the bellows 25 , these ends 23 , 24 for example can be shrunk onto the ends 21 , 22 of the support tube. Of course, there is also the possibility of using sleeves as they are provided with the number 7 in Fig. 1.

The support tube 20 forms an axial and torsional support for the bellows 25 , which ensures that the bellows cannot expand in length under internal pressure loading, and that the torsion loads coming from the subsequent pipelines cannot be passed on by this from the support tube 20 are added.

On the other hand, the support tube 20 is designed as a flexible component that basically forms a hinge point in the longitudinal center of the bellows 25 . For this purpose, the support tube 20 is provided in the region of its length between the end pieces 21 , 22 with through-cuts 26 , which in the case of the object of FIG. 2 as a helical circumferential, an omega-shaped shape parallel to the axis of the support tube 20 back and forth. Thus, depending on the gap width of the average 26 for the bellows 25, there is a support in the axial and torsional direction, on the other hand, through the configuration of the supporting tube 20, the connecting element formed by the bellows 25 has the desired flexibility with respect to angular movements and Torsional movements is given.

The support tube 20 is, moreover, a component that is relatively easy to manufacture and, on the other hand, has usage properties that do not change over a longer period of use. This is in contrast to an agraff hose according to FIG. 1, which stiffens with regard to its mobility during use.

Fig. 3 shows another known pipe element for exhaust pipes of motor vehicles in the axial half-section, in which, starting from ends 30 , 31 towards each other towards pipes of the exhaust system, a support pipe 32 is firmly connected on one side, which bridges a bellows 33 and with an end permanent shaft 34 between sealing pads 35 , 36 which engages on the outside by a sleeve 37, which is on the one hand with the tube 30 and on the other hand with the facing end of the bellows 33 in connection.

The apparent from Fig. 3, known construction he makes it possible to create an absolutely tight connection between the tube ends 30 , 31 through the bellows 33 , which on the other hand be related to the support tube 32 against internal pressure axial length changes and on the other hand on the support through the pillows 35 , 36 win is designed to be movable. Nevertheless, this known design is accordingly not very flexible because of the rigidity of the support tube 32 .

To counter this, it is provided according to FIG. 4 that the support tube 40 is provided with averages 41 which - seen in the axial direction - are attached in sections between the ends of the support tube 40 so that overall the stiffness of the support tube 40 between the two ends is reduced in a previously determinable manner, the support tube 40 thus presents itself as a joint.

For the rest, in Fig. 4 the parts already mentioned with reference to Fig. 3 with the same numbering hen.

FIGS. 5 and 6 show the connection of two pipe parts 50, 51 and 60, 61 by means of two bellows 53 and 63, wherein the tube ends 50, 51 and 60, 61 by a universal joint by means of a ring 52 and 62 respectively are connected to each other.

This gimbal creates with respect to the bellows 53 and 63 safe conditions in the direction of the axial mobility and angular mobility of the mutually ge opposite pipe ends 50 , 51 and 60 , 61st

On the other hand, however, the known Kon structure complicated and expensive.

Fig. 7 shows how the pipe ends 50 , 51 and 60 , 61 ge according to FIGS . 5 and 6 can be connected practically directly to one another by a support tube 70 , the screw-like circumferential between its terminal sections 71 , 72 with averages 73 omega-shaped Miger contour is provided so that the axial movement as well as the torsional mobility between the end pieces 71 , 72 limited to a certain extent, which is predetermined by the gap width of the formation of omegaför shaped averages 73 . With the end pieces 71 , 72 , the bellows 74 is then connected, so that there is a tight connec tion between the end pieces 71 , 72 , which on the other side axially and tor sionally supported has the mobility or flexibility of a joint.

Fig. 8 shows a schematic representation of different variants for forming the average for a support tube. Thus, according to number 80, a production of circumferential slots offset in the axial and circumferential directions can be seen. According to section 81 , an arcuate configuration of averages is shown. According to number 83 , an S-shaped profile is easily seen, while according to numbers 84 to 86 omega-shaped profiles are circular at number 84, circumferential at number 85 and circumferential at number 86 as a two-start screw.

Numbers 87 to 90 show further variants of sectional averages of a support tube, it being said that, of course, the various possibilities cannot be exhaustively reproduced within the scope of the present illustration. Rather, only examples of the design options can be given. At number 91 Fig. 8 shows a reference to the gap width 92 for the different averages ver, this gap width depending on the position and direction of the averages the flexibility of the support tube and thereby also influences the damping properties that emanate from the support tube . Fig. 9 illustrates a Vari ante, which shows that the averages 93 , which are arranged here helically or alternately distributed over the circumference of the support tube 94 , can also have a planar shape, the example shown enables good torsional support.

Regarding the question of the aforementioned damping properties, with reference to FIG. 10, the possibility is given to surround the support tube with a helical spring 100 firmly attached to it, which can be designed as a round wire coil 101 or as a flat wire coil 102 . Such a coil spring forms a resistance when moving the support tube within the scope of its flexibility due to friction, which acts both to dampen vibrations and to dampen motion.

Claims (13)

1. Articulated connection of two substantially cursed pipe parts with their ends opposite one another consisting of at least one pipe element sealingly connecting the pipe parts in the form of a corrugated pipe or bellows and an articulated connection of the pipe parts to one another and at least indirectly attached to both pipe parts, thereby characterized in that the support tube ( 20 , 40 , 70 , 94 ) by means of axially and / or circumferentially extending through-cuts in it ( 26 , 41 , 73 , 80 to 90 , 93 ) in the area between its connection to the line elements serving ends ( 21 , 22 ) is designed as a flexible tube. 2. Connection according to claim 1, characterized in that the averages ( 26 , 41 , 73 , 80 to 90 , 93 ) with means of energy beam cutting (laser cutting, plasma cutting, erosion cutting) or by punching are Herge. 3. Connection according to claim 1, characterized in that the averages ( 26 , 41 , 73 , 80 to 90 ) are formed with respect to their longitudinal extension in the form of narrow gaps. 4. Connection according to claim 1, characterized in that the averages ( 93 ) are formed as flat recesses gene. 5. Connection according to one of the preceding claims, characterized in that the averages ( 41 , 80 to 84 , 87 to 90 ) are contained in sections arranged in a ring above the affected area of the support tube. 6. Connection according to one of claims 1 to 4, characterized in that the averages ( 26 , 73 , 85 , 86 , 93 ) are arranged circumferentially around the affected area of the support tube. 7. Connection according to one of the preceding claims, characterized in that the averages ( 26 , 41 , 73 , 80 to 90 ) represent the column radially to the axis of the support tube GE directed flanks. 8. Connection according to one of claims 1 to 6, characterized, that the column representing the averages is inclined have flanks directed to the axis of the support tube.   9. Connection according to one of the preceding claims, characterized in that the averages have a circumferential gap with adjacent to each other in the axial direction of the support tube ( 20 ) in opposite directions, omega-shaped or trapezoidal contour ( 26 , 73 ). 10. Connection according to one of claims 1 to 8, characterized, that the support tube axially spaced sections of in Circumferential direction over a limited circumferential area has running averages. 11. Connection according to one of claims 1 to 8, characterized, that the averages refer to the circumferential direction the support tube a wavy or arcuate Ver have run. 12. Connection according to one of the preceding claims, characterized in that the section of the support tube having the averages is surrounded by a screw benfeder ( 100 ) firmly abutting against it. 13. Connection according to claim 12, characterized in that the helical spring is a flat wire ( 102 ) or round wire helix ( 101 ).