DE3522334A1 - Flexible hose having mutually parallel, annular corrugations, and an axial support - Google Patents

Abstract

The invention relates to a flexible hose having mutually parallel, annular corrugations, connecting parts at the ends and longitudinal supporting means which hold said connecting parts against any change in axial separation and are firmly connected to the connecting parts in the tension and/or compression direction, and against which the hose is at least indirectly supported. In this case, the longitudinal supporting means comprise at least one flexible cable which is parallel to the hose, spacers being provided which ensure the radial relative position between the hose and cable and grip the cable, and via which the hose is guided by means of the cable. According to another solution, rings are provided which are inserted into the profiling of the hose and are connected to one another in a universally jointed manner, without touching the hose.

Description

The invention relates to a flexible hose with parallel, ring-shaped waves, terminal Connection parts and these against axial change in distance holding, with the connecting parts in tension and / or pressure direction firmly connected longitudinal support against which the hose is supported at least indirectly.

As far as the term "ring-shaped" ver is not just an annular one To understand training, but also for example a tube with an oval or similar cross-section. Like this far from a bracket against axial change in distance is spoken, this is not in the absolute sense too understand, but including unavoidable elasti tences etc., but with the help of the longitudinal support means attempts are made to change the axial distance as much as possible to prevent.  

The generic hoses, also known as bellows are usually made of metal. Depending on the type However, other materials also come into play special plastic in question. The hoses serve certainly the flexible connection between two media channels of the parts to which they are connected. If the medium has an overpressure, the hose tries known measured to increase its length, making it necessary is the axial length spacing by additional means to hold the hose connection parts and the hose against To support kinking or breaking out sideways.

A steel wire braid is used for this ches, which is firmly connected to the connecting parts. A such outer braid tube decreases in lengths enlarges its diameter, which is however due to it lay on the corrugated hose is not possible, so that he Hose connectors support against changes in distance.

The contact between corrugated hose and braided hose but now leads to a significant tribological bean of these two parts, which is the achievable load number of cycles significantly reduced under bending stress. There is essentially a wall due to wear reduction in thickness or notching on the outer brim of the hose, a wear-related reduction in the Braid wire diameter as well as a friction-related Change of bending line and neutral bending fiber of the Component with the consequence of its local overuse.  

To the described disadvantages of braided corrugated hoses to reduce are numerous efforts to reduce it the tribological load on the corrugated hose / Ge pairing braid hose has been made. These exist in the we significant in the use of lubricants, more suitable Material selection by using material with plain bearings properties, suitable surface design in paa areas and liner for consumption sacrificial materials due to wear. All these Efforts do bring a significant improvement, however, do not create a lifespan that is even close to the service life under alternating bending stress would suffice, for example a corrugated hose without Braid covering.

The object of the invention is therefore to provide a hose gangs mentioned in such a way that a tribolo stress on all the components that make it up is practically completely switched off, i.e. every part without friction and thus wear-related impairments by the other parts regarding the recording load, especially the alternating bending stress chung can reach its own full lifespan. The measures to be taken to achieve the goal not the hose in terms of its production costs impair, rather make it cheaper by Additional wear-related measures in the form of further wear Components, material additions etc. can be omitted.

The object is achieved in that the Longitudinal support means at least one flexible, essentially Lichen parallel to the hose rope is that the radial relative position between the hose and the rope  the rope grasping at intervals along the length of the hose distributed spacers is given and that the hose is guided through the rope in the radial direction.

It should first be noted that the term "flexi bles Seil "representative for the sake of simplification is chosen for everyone coming here in Frqge, in their Parts enabling a force absorption in the longitudinal direction. So the rope can be a wire or fiber bundle, a bend bar, a band or band package, a link chain, an articulated string of rod-shaped chains structure that can also be rigid for itself, Etc.

The measures according to the invention are initially guaranteed makes the rope or ropes the lengthways of the hose predetermined distance of the connecting parts of the Ensure hose. The easiest way to interpret this Lich in the event that the rope or ropes in the neutral Bending plane of the hose are arranged, so a sol che position in which regardless of the bending angle of the Hose does not change its length. It will However, examples of the following are also given below Can be arranged outside the neutral bending plane do.

Will the rope or ropes be used exclusively in the neutral bending plane, however, result here also no relative movements compared to the corrugated hose neither in the longitudinal direction nor in the circumferential direction, so that it in principle there is no friction and wear can, as is the case with the known metal wire braiding  in all areas outside the neutral bending plane of the Case is.

So that the rope or the ropes your desired relative location of the hose, especially its location in the neutra len bending level with all hose movements, are the distance between the rope or the ropes holder provided against which the rope or the ropes equally no wear-causing relative movements carry out. There is another feature the invention ensured that the hose in radial direction through the rope or ropes directly or with is guided telbar so that it through the rope or the ropes is prevented from buckling or breaking out sideways, whereby, as will become clear from the following, also compared to the hose through the other components No relative movement causing friction and wear takes place so that the hose to hold it ultimately its going without any interference Achieve full service life under alternating bending stress can.

Finally, the invention is a uniform Ver division of the result by bending the hose movements along the entire length of the hose, there - compared to the known case of metal braiding tung - no local, friction-related obstacles ten that the hose locally at its free Be mobility and even movement distribution could hinder the entire hose length.

The object of the invention is also unsuitable only for use on hoses subject to internal pressure  try to increase their length under pressure, even if this is the main area of application. Rather, it is also applied to external pressure Hoses possible to reduce their length accordingly like to search. However, the amount of pressure is here load limits set that essentially Lichen from the resistance to buckling of the rope or Ropes and the total length of the hose construction give. However, if you think of ropes in shape, for example of bending rods, it is clear that these are connected with the guide given by the spacers also in usable areas can absorb a pressure load.

It is possible to concentrate the rope concentrically Arrange hose axis. This is an all-round bend Availability of the hose is guaranteed because the rope is always lies in the neutral bending plane.

If several ropes are provided, it is advisable arrange them symmetrically around the hose axis, with two ropes in particular, their arrangement in the neutral bending plane is to be preferred.

In the case of a concentric to the hose axis the spacers can be placed in the hose wave on and / or put on the rope cross bars, crosses or the like which grasp their center, through which the rope is in its concentric position will hold and which support the hose on the rope or via which the hose prevents the rope from kinking sideways is "hung".  

It can be provided that the crossbars in the we between two diametrically opposed extend areas of the hose and that in In the longitudinal direction of the hose adjacent crossbars against are arranged rotated by 90 °. This particular one Training, of course, for the maintenance of Angular position of the crossbars must be taken care of in the we noticeably easier installation by the crossbars by slightly tilting it in relation to the longitudinal direction of the rope inserted into the inner cross section of the tube and can be erected on the spot, with which the engagement connection is then opposite the Profiles the hose. About this tipping to make the crossbars easier compared to the rope, can advantageously the crossbars under the rope Capture the remains of a game, this game so can be chosen that on the one hand a sufficient tilt Availability of the crossbars is guaranteed, but on the other hand also the concentric guidance of the rope is not disadvantageous being affected.

Are two or more ropes on the hose ordered so that they can end with them detecting, against displacement in the axial direction secured crosspieces can be arranged as spacers. These can in the case of in the neutral bending plane order ordered ropes through the hose cross-section, this can happen diametrically, but also the poss There is a possibility that the crossbars are semicircular forms and into or against the hose shafts Movement in the axial direction of the hose secured are set. The aforementioned, diametrically extending Cross bars can for example by on the ropes  inserted spacer sleeves against axial displacement be saved.

In both cases, the ropes can be radially against the outside The inner contour of the hose must be in contact. It ever exists but also the possibility that between ropes and hose Wall spacers inserted for radial spacing sets, with the spacers through the crossbars can be formed.

In another design with inside the hose cross arranged ropes can be provided that the spacers are external cylindrical rings whose The outer contour is preferably slightly smaller than the inside contour of the hose is, and that the rings with opposite secured against axial displacement on the Rope or the ropes are put on. Here, the against side distance of the rings by on the rope or the screen len spacers or the like arranged between the rings. be secured. With this design, therefore, is within a tubular cylinder is built up of the hose, the outer contour of the In corresponds to the inner contour of the hose. By the opposite term axial distance of the limb-shaped cylinder bil The flexibility of the hose is determined by the rings or limited, but on the other hand each tribological Stress between the inside of the hose and the outside the rings are avoided.

The above examples already show that this is the case The principle according to the invention is based on the hose being a support construction admit that so constructed and agile is that there are none when the hose bends  Relative movement between the parts of the support structure and the hose results, so that consequently also tribological Loads cannot occur.

So far, solution forms have been addressed according to the invention chen, where ropes and spacers within the Hose cross section are housed. Connects with it of course a reduction in the free hose cross cut that can be annoying. Therefore now be on construction Forms received in which two or more ropes are arranged outside the hose. Here are the Appropriate ropes in the neutral bending plane again orderly. In principle, however, this is not always necessary. Rather, designs are also specified by this Do not have to make use of the requirement.

In the case of ropes arranged outside the hose the spacers according to the invention as the hose and the ropes captively encircling rings or ring segments educated. These rings or ring segments can be in the Hose shafts on or against this against displacement in Axial direction of the hose must be placed securely where with the axial locking of the attached Rings by adapting their profile to the opposite horizontal tube profiling can be achieved. In each The spacers ensure a defined hal the hose and ropes against each other without friction can occur between the individual components, so that tribological stresses with the resulting resulting consequences of the prior art avoided will.  

The rings or ring segments can be self-supporting (stiff) be trained. However, there is also the possibility that the rings or ring segments as slack wrap are formed medium, in both cases between Ropes and hose spacers for radial spacing education can be used. There is also a possibility here the spacers through the rings or ring segments themselves are formed.

According to another design, it can also be provided here that with two ropes the rings or ring segments inside are lindric, their inner contour preferably small is larger than the outer contour of the hose, and that the rings or ring segments with a mutual distance secured against axial displacement on the ropes sets are. The mutual distance between the rings for example, on the ropes between the rings arranged spacers or the like. Be secured. Similar as with the corresponding Kon described above Structure for the inside of the hose is around the hose a link-shaped channel was created, the inner cross of which cut the outer cross-section at a slight distance if necessary corresponds to the hose and within which the hose is axially freely movable in itself. The bendability of this limb-shaped channel and thus the hose is through given the mutual axial distance of the rings, whereby Here too, relative movements between bending movements the rings of the joint channel on the one hand and the hose on the other hand are prevented.

As for the ring segments discussed above, so it is basically not necessary that through this  a full hose circumference is assembled. Much more there is also the possibility, for example, that deviate selectively juxtaposed in a semi-circular shape Dete ring segments are arranged.

Is a full wrap through the ring segments formed around the tube, so adjacent ends can other assigned ring segments by welding, positive locking, attached clamping pieces or the like. Joining process with each other be connected. In addition, many of the above called constructions shit the rings or ring segments be ben-shaped, but they can also be Wire or the like can be formed with a circular cross section.

According to another design according to the invention in the context of The above solution can be provided that in the axial direction of the hose in the middle between adj beard rings or ring segments further ring-shaped or ring segment-shaped holding elements are arranged that these diametrically opposite each other to the hose axis ropes in one opposite the rings or ringseg radially greater distance from the hose axis sen and hold that the inner contour of the holding elements Distance from the radially adjacent hose wall has, and that the holding elements against movement in the axis direction of the hose are secured, to which the latter the holding elements can be firmly connected to the ropes nen - which by the way also with the others, previously described can be the case - or why the brackets elements partially in a radially adjacent trough of the hose can be immersed. Are with this above-described design, four ropes symmetrically around the Hose axis arranged, so holding element pairs  be provided, one of which holding element relative to the other 90 ° offset ropes and holds, each Holding element compared to the ropes not covered by him is freely movable radially to the hose axis. Here too there is the possibility that the holding elements disc-shaped are trained.

In this solution according to the invention, the ropes run undulating with changing radial distance opposite the hose, which has the consequence that the hose in each any direction can be bent, because with ropes, which are outside the neutral bending plane, the stops can move elements radially relative to the hose, so that one is on the outside of the bend of the hose arranged rope smoothing itself out its wavy Course in the sense of increasing the distance of the hose connectors can "lengthen" while a diametrically opposed overlying rope due to the radial displacement of the Holding elements to a more wavy course and so that it is "shortened". All of this however, happens without being between the existing construction share must come to a significant friction. A slight friction could at best between the holding elements elements and the wave flanks of the hose occur, when the holding elements are opposed by these wave flanks axial displacement are secured. But are the stops elements firmly connected to the ropes, so can these minor friction can be avoided as a touch between the holding elements and the hose for the radio tion of the subject described is not required.

What the connection of the ropes with the connecting parts of the Hose concerns, this can of course definitely  or be non-detachable. However, it is useful that the ropes on the hose connection parts are detachable and be are adjustably attached with respect to their length, where by the axial distance of the connecting parts accordingly local conditions can be adjusted. From before it is also part that the ropes on the hose closing parts are at least pivotally attached within limits, so that there is no kink at these junctions load on the ropes. The same goal it is used if it is additionally provided that the ropes the spacers through attached sleeves or the like cross.

Starting from a bendable hose the ge named type, the solution is the basis of the invention task according to one of the above the solution characterized in that in each other at equal distances from radially outside or inside in the wave troughs of the hose rings or ring segments are set that these and the hose connection parts on two diametrically opposite sides and a holding element on each side facing away from the hose wear contact-free against the hose that cover Lich the holding elements adjacent rings or ringseg elements or ring or ring segment and adjacent hose the connecting part are arranged rotated by 90 ° relative to one another, that 90 ° staggered holding elements neigh barter rings or ring segments or of ring or ring segment and adjacent hose connector through the A non-contact, extensive connecting link are connected and that the links to the brackets elements are pivoted.  

With this solution there are adjacent hose cross sections gimbally supported against each other, the support both in the direction of an increase in length and in Direction of a length reduction of the hose applies, So both the case of the internal pressure load and the Case of the external pressure load on the hose is detected.

In addition, the above-described support arrangement for the hose both from the outside and from the inside of this attach, the term "wave trough" each refers to the viewing direction. For example, what seen from outside the tube is a wave trough, turns from the inside of the tube as Wel lenberg and vice versa.

The solution described above also leaves unrestricted the all-round mobility of the hose. Furthermore this solution is based on the one described above level on a different solution principle, but it does use the same solution concept according to the invention, by adding a limb-shaped support corset to the hose will give, the mobility is designed so that there are axial relative movements between the hose and this Support corset can not result, so no tribologi loads can occur.

With regard to the links, these are practical usable form suitably rigid. For hoses subject to internal pressure are a matter of course also the formation of the links as flexible ropes or rope pieces possible, but by other means care must be taken that these touch the hose embrace freely.  

The links can by the hose or in Hose closed between two adjacent rings or Bands running to and fro around ring segments, the bands on the side of the hose facing away from the Holding elements on these trained guide grooves support pivotable in relation to the holding elements Cross the axial direction of the hose. The pivotable axial support of the bands on the holding elements via concave weighing surfaces formed by the holding elements be given.

All solutions according to the invention stand out as said, characterized in that the components used one are not exposed to tribological loads. Also have the ropes, spacers, rings and links none Task or function with regard to the hose increasing internal or external pressure. Rather, they serve only the support of the reaction forces in axis direction tion resulting from the internal or external pressure load of the Result hose and the support of the hose against lateral breaking out. It has been shown that the Lifespan of the hose according to the invention Alternating bending stresses is significantly greater than that of the known designs described at the outset, wherein there is already an increase in lifespan in the order of magnitude rich of several powers of ten.

Other essential features and details of the invention result from the following description of Aus leadership forms, which are shown on the drawing. The drawing shows:  

Figure 1 is a partially sectioned side and axial view of a hose with external support.

Figure 2 shows the partially sectioned side and axial view of a hose with inner support.

FIGS. 3 to 6 further variants of the design shown basically with reference to FIG. 1;

FIGS. 7 and 8 further variants of the design shown basically with reference to FIG. 2;

Fig. 9 to 13 different versions of a single unit of Figure 1 in an enlarged, partial axial view.

Fig. 14 to 16 show various embodiments of a further detail of FIG. 1 in an enlarged, partial sectional view of the radial and axial view and

FIG. 17 shows a further variant of the design shown in principle with reference to FIG. 1, the principle of which, however, can also be readily transferred to the basic design according to FIG. 2.

Fig. 1 shows on the right in partial sectional view the side view of a corrugated hose 1 , which starts from a circuit part 2 . The same connection part must be introduced on the right side at the end of the hose, where the construction corresponds exactly to the representation of the left hose.

In the troughs of the corrugated hose 1 , spacers 3 are used, which loop around the hose and also two on opposite sides of the hose to this parallel ropes 4 and 5, which are attached at 6 to the connecting parts 2 of the hose 1 .

The ropes 4 and 5 lie in the neutral bending plane of the hose, which is provided with the number 7 in the left view thereof in FIG. 1. This arrangement in the neutral bending plane means that when the hose is bent along this plane, the ropes 4 and 5 are subjected to a pure bending stress from a geometric point of view, in that the individual hose cross sections pivot about their axis designated by the number 7 . So that the ropes 4 and 5 keep the connecting parts 2 of the hose with respect to their axis at a constant, predetermined distance.

Since in the neutral bending plane also the length of the cunning ches 1 remains constant, there can be no rubbing relative movement between the hose 1 and ropes 4 and 5 , so that there can be no friction and wear accordingly regardless of whether there is contact between hose 1 and ropes 4 and 5 or not.

As shown in Fig. 1, the spacer 3 is formed by an accordingly bent wire with a circular cross-section, the free ends of which hook the rope 4 on both sides, whereby the connection between hose 1 , ropes 4 and 5 and spacer 3 is captively closed. Of course, instead of the shape shown in FIG. 1, numerous other designs of the spacer 3 are possible, provided that the function explained using the example of FIG. 1 is fulfilled. This is done, for example, by semicircular, disc-like Seg elements, which cross the ropes 4 and 5 at terminal bores and are used alternately from one or the other side of the hose 1 in adjacent troughs. It is therefore not necessary that a completely circumferential spacer is present in each wave valley.

As far as the ropes 4 and 5 are concerned, these can be smooth rods or wire or fiber bundles as illustrated. However, there is also the possibility of using ribbons or ribbon bundles here, or also chains of links arranged in an articulated manner, which can themselves be designed as rigid elements. The variation options so schil fundamentally affect all the execution examples described with reference to the other figures, which is why this question will be dealt with again in special respects at best.

In contrast to FIG. 1, FIG. 2 shows an axial support of a corrugated hose 8 , which is arranged in the interior thereof. Here, too, the corrugated hose 8 has at its ends connection parts 9 , to which two ropes 11 , 12 arranged opposite one another are fastened in the neutral bending plane 10 .

The ropes 11 and 12 are guided by spacers 13 , which are semicircular and inserted from the inside into the corrugated valleys of the corrugated hose 8 . The arrangement here is such that spacers 13 rotating in the opposite direction are offset by a wave trough. Of course, the distances can also be chosen larger if this is sufficient for a proper guidance of the hose 8 relative to the ropes 11 and 12 .

As can be seen, the ropes 11 and 12 can be in contact with the inner brims of the corrugated hose 8 , but this does not lead to a rubbing relative movement, since the ropes 11 and 12 lie in the neutral bending plane 10 . However, appropriately, it can be provided that the ropes 11 and 12 are at a slight distance from the inner contour of the hose 8 .

FIG. 3 shows an embodiment modified from the example according to FIG. 1 with a corrugated hose 14 and ropes 15 , 16 , which are designed here as tape packages, as can be seen in particular from the axis view in FIG. 3 on the left.

The spacers 17 are formed as a semicircular, inserted from the outside into the troughs of the corrugated hose 14 bracket, the ropes 15 , 16 fenghen fen. Similar to the example according to FIG. 2, oppositely curved brackets 17 are alternately arranged in neighboring troughs.

Fig. 4 is an embodiment of that - again offset with opposite curvature in adjacent troughs - in the troughs of a Wellschlau ches 18 slack holding means 19 are inserted, which loop around the ropes 20 , 21 . Between the holding elements 19 , spacers 22 are inserted into the troughs, which support the cables 20 , 21 radially inward relative to the hose 18 . Here, too, the ropes 20 , 21 lie in the neutral bending plane 23 .

In the examples according to FIGS . 1 to 4, the spacers are each inserted into the troughs of the corrugated hose. Of course there is also the possibility of placing the spacers on the wave crests. Care must be taken to ensure that the spacers cannot move in the axial direction either by means of a suitable form fit either with respect to the rope or the corrugated hose. An example of this is explained in more detail with reference to FIG. 17.

Referring to FIG. 5 are symmetrical about a corrugated tube 23 distributes four cables 24, 25, 26 are arranged, 27 which extend support by spacers 28 which may be formed by semi-circular disc-shaped ring segments and in wave troughs of the hose a set in the axial direction with equal spacing.

Between the spacers 28 there are pairs of holding elements 29 , 29 a , which have outer notches for inserting the ropes 24 to 27 , but here the ropes stood out from the hose axis 30 more than in the case of the spacers 28 . In addition, the holding elements 29 , 29 a have a free inner cross section 31 , which forms a significant distance for the holding elements 29 , 29 a in the radial direction relative to the adjacent wall of the hose 23 .

In addition, the arrangement is such that the holding elements 29 , 29 a each only grasp diametrically opposite ropes, while they are radially freely movable relative to the other ropes. In the present case, the holding elements 29, the ropes 24 and 26, while the holding elements 29 a, the ropes 25 and 27, he grasp. The radial freedom with respect to the ropes not recorded in each case is, as can be seen on the left in FIG. 5, achieved by reducing the outer cross section of the holding elements 29 and 29 a .

In this way, a construction is created which allows the hose 23 to be bent on all sides. If one imagines, for example, the plane 32 as a bending plane and thinks of the hose with its outer ends bent downward with respect to the right half of FIG. 5, the result is that the holding elements 29 radially downward relative to the hose 23 move, because with this hose bend, the distance between the upper ends of the connection parts, not shown, is larger and the distance between the lower ends is smaller. Correspondingly, the rope 24 can stretch through the aforementioned displacement of the holding elements 29 , while at the same time the rope 26 is corrugated more, without the equidistant to the ropes 25 and 27 , bogenför shaped holding function of the ropes 24 and 26 over the distance holder 28 get lost.

The above-mentioned displacement movement of the holding elements 29 is not hindered by the ropes 25 and 27 , since the holding elements 29 are free relative to these ropes.

Correspondingly, the conditions play in part Mixed form for all other bending levels. Essential is also here that tribological stress is not takes place.

In the construction shown in FIG. 5, four ropes 24 to 27 are provided. For the sake of completeness, it should be pointed out that the functional capability described with appropriate design adjustment is already provided when only two or three ropes are used.

Fig. 6 shows an embodiment of an outer support of a corrugated hose 45 , which in principle differs from the previously explained, comparative constructions, which were characterized by ropes extending substantially parallel to the hose. On the other hand, however, the idea of solving the underlying problem is the same.

According to FIG. 6, rings 46 are again inserted at equal axial distances into the troughs of the tube 45 . However, these have holding elements 47 on opposite sides, with adjacent rings 46 being arranged offset from one another by 90 ° with a view of these holding elements 47 . The holding elements 47 have radially outwardly open guide grooves 48 , in the Bindeglie the 49 are used, which are formed as th between the holding elements 47 adjacent rings 46 back and forth around running tapes with a rectangular cross-section. The bands are curved so that they enclose the hose 45 without contact.

Due to the described design of the links 49 , they are stiff in the axial direction of the hose 45, both with respect to a tendency to lengthen and with regard to a tendency to shorten the hose 45 , so that they provide axial support for both an internal pressure load and an external pressure load of the hose 45 represent.

Otherwise, the construction shown in FIG. 6 means a gimbal-supported support of the hose 45 , so that it can be bent in any direction without the possibility of it breaking away laterally.

There is also no tribological stress. So that a forced movement between holding elements 47 and links 49 can take place during bending movements, the axial support of the bands 49 on the holding elements 47 takes place via convex weighing surfaces 50 formed by these.

If one considers the case of FIG. 6 only under an internal pressure load of the hose 45 , the connecting link 49 can also be designed, for example, as the holding elements 47 with connecting pieces of rope or ropes. It is only essential here that the links 49 can pivot relative to the holding elements 47 either by virtue of their flexibility or by rotatable mounting or the like. Ver.

It should also be pointed out that instead of the rings 46 , the hose segments with retaining elements 47 , which are only partially comprehensive, are sufficient, since these are practically supported against displacement in the circumferential direction by the links 49 .

Fig. 7 shows a varied embodiment for an inner support of a hose 33 in a neutral bending plane 34 diametrically opposed to each other arranged ropes 35 , 36th Here, the ropes are supported on the line cross-section webs 37 , which capture the ropes 35 , 36 via terminal, half-shell-shaped recesses. In this design, of course, care must be taken to ensure that the webs 37 are fixed relative to the cables 35 , 36, that is, they cannot slip in the axial direction. The ropes 35 , 36 be found in the rest of the plant on the inner brims of the hose 33 , but this does not lead to a rubbing stress, since, as I said, the ropes in the neutral bending plane 34 .

A further embodiment for an inner support of a corrugated hose 38 is shown in FIG. 8, the connection parts of the hose again being omitted. Here, a rope 39 is arranged coaxially to the hose axis 40 and held in this position with respect to the hose by cross-shaped crosspieces 41 , which valleys of the hose lie in two diametrically opposed areas 42 , 43 in wave valleys. In addition, transverse webs 41 lying side by side in the axial direction of the hose are rotated by 90 ° relative to one another. This makes it possible to tilt the crossbars 41 over the rope 39 for assembly and to erect them only after they have been inserted into the hose bore. To facilitate this tilting movement yet which the rope 39 receiving zen spectral hole 44 of the transverse webs 41 have a slightly larger cross section than the cable. 39

The design shown in FIG. 8 also results in an all-round bendability of the hose 38 , since the rope 39 is always in the neutral bending plane due to its arrangement. Here, too, the construction can be made so that the crossbars 41 with their outer parts 42 , 43 sit on the inwardly projecting hose, but then the possibility of an axial displacement must be prevented by positive locking or the like.

FIGS. 9 to 13 show in enlarged excerpts axial view of different designs of spacers, which are provided in connection with a same-numbered throughout the figures corrugated tube 51 and a rope 52 each represent.

Thus, as shown in FIG. 9 is an open wire ring 53 with a circular cross-section shown, one end 54 ge to the cable 52 bent and is folded from the outside on the other end 55, wherein by a in the longitudinal direction of the end 54 it stretching groove 56 Form fit with the end 55 Herge can be made. The ends 54 , 55 also form a radially extending web 57 , which ensures that the cable 52 is held at a distance from the outer contour of the hose 51 .

Referring to FIG. 10, a spacer in the form of a wire ring is hooked 58 with circular cross-section with its free ends 59, 60 respectively behind the cable 52, it is held closed so by the rope 52. In order to keep the rope 52 here at a radial distance from the outer contour of the claw 51 , the ends 59 , 60 have a serpentine linear contour, through which in the closed state a hump 61 was formed for supporting the rope 52 . As can be seen from the 90 ° rotated right-hand illustration in Fig. 10, the ends 59, 60 starting from the flattened cross section of the wire ring 58 are.

Referring to FIG. 11, the free ends 62, 63 of a wire ring 64 held together with a circular cross-section through a clamp 65, comprising the rope 52nd The clamp bracket 65 has a rectangular cross section.

FIG. 12 shows an example in which the spacer is composed of wire ring halves 66 , 67 with a circular cross section. The ends of the ring halves form a radial web 68 on which they are welded together. Starting from this web, the ends of the ring halves grip the rope 52 .

Finally, FIG. 13 shows an embodiment comparable to FIG. 11, in which the wire ring halves 69 , 70 again form a radial web 71 and enclose the rope 52 with their ends. In order to hold the halves 69 , 70 together, a clamping bracket 72 is pushed on from the side.

FIGS. 9 to 13 show examples of a simple kon constructive design of the spacer with simple, partially detachable mounting option.

In Figs. 14 to 16 examples of the compound of the respective rope with the connecting part 73 of a clever are shown ches 74th

For this purpose, as shown in FIG. 14 to the connection part 73, a retaining ring fitted 75 crossed by the cable 76th On the side facing away from the hose, a ball 77 is formed on the rope 76 , which lies against a pan-shaped bearing surface 78 of the ring 75 . Thus, the rope 76 has the possibility, within limits, of executing pivoting movements relative to the ring 75 .

A similar support, but without the possibility of a pivoting movement, is shown in FIG. 15, where the rope 79 crosses a ring 80 seated on the connecting part 73 and bears against its conical bearing surface 81 via a conical extension 82 .

Fig. 16 shows an axially adjustable Seilbe fastening. Here, a ring 83 is placed on the connecting part 73 , in which a screw bolt 84 is seated, which is supported by a nut 85 against the ring 83 . At the other end of the bolt, the rope 86 is welded, which, as shown, is split up for this purpose.

FIGS. 14 to 16 but a few examples of the rope attachment to the connecting parts may be naturally. If, for example, Fig. 8 is taken, part of the connection corresponding to the crosspiece 41 would be brought there. Taking the example of FIG. 6, the connector would have a holding element 47 corresponding to the retention for the links 49 .

Finally, FIG. 17 shows an embodiment according to the solution principle according to FIG. 1 for an externally supported hose 90 , it also being possible to support the hose inside in a comparable manner.

Referring to FIG. 17 of the tube 90 is externally accompanied by two diametrically opposed ropes 91, 92 on the rings 93 via holes radial webs are threaded 94, which mutually have a center distance: 95. To form and maintain the distance 95 between neighboring webs rule on the ropes 91 , 92 sleeves 96 are threaded, against which adjacent webs 94 are supported.

The rings 93 have a smooth cylindrical inner contour 97 , which preferably has a somewhat larger diameter than the outer contour of the hose 90 . In this way, a link-shaped support tube for the corrugated hose 90 is created , the members formed by the rings 93 when the hose bends with respect to a bending plane 98 in which the cables 91 , 92 lie, increasing their mutual distance on the outside of the bend and on the bend Reduce the inside, the hose will lay against the rings 93 on the outside of the bend without there being any relative movements between the hose and the rings.

A corresponding construction can easily be found in the Imagine the inside of the corrugated hose, with the bottom only differed is that the rings the Tube facing smooth cylindrical contour on your Have outside, but otherwise the passage Leave the cross-section blank for the medium being guided.

In Fig. 17 rings 93 are threaded parallel to each other on the ropes 91 , 92 . A variant is, however, easily possible, for example, in that a band with the profile of the rings 93 is arranged in a helical manner around the hose, the individual screws being mutually spaced axially. To manufacture the positive engagement with the ropes can be done in this case so that the screw-like winding is axially compressed and provided on opposite sides with a groove milled from the outside, into which the ropes are then inserted from the outside when the winding is pulled apart .

Claims (39)

1. Bendable hose with parallel, ring-shaped shafts, terminal connecting parts and these against axial change in distance, with the connection parts in the pulling and / or pushing direction firmly connected longitudinal support means, against which the hose is supported at least with telbar, characterized in that the longitudinal support means has at least one flexible rope ( 4 , 5 ; 11 , 12 ; 15 , 16 ; 20 , which extends essentially parallel to the hose ( 3 , 8 , 14 , 18 , 23 , 33 , 38 , 51 , 74 , 90 ), 21 ; 24 to 27; 35 , 36 ; 39 , 52 , 76 , 79 , 86 , 91 , 92 ) is that the radial relative position between the hose and the cable is gripped by spacers ( 3 , 13 , 17 , 19 , 28 , 37 , 41 , 53 , 58 , 64 , 67 , 70 , 93 ) is given and that the hose leads in the radial direction through the rope ge. 2. Hose according to claim 1, characterized in that with a rope ( 39 ) this is arranged concentrically to the hose axis. 3. Hose according to claim 1, characterized in that with several ropes ( 4 , 5 ; 11 , 12 ; 15 , 16 ; 20 , 21 ; 24 to 27; 35 , 36 ; 52 , 76 , 79 , 86 , 91 , 92 ) these are arranged symmetrically around the hose axis. 4. Hose according to claim 3, characterized in that with two ropes ( 4 , 5 ; 11 , 12 ; 15 , 16 ; 20 , 21 ; 35 , 36 ; 91 , 92 ) these in the neutral bending plane ( 7 , 10 , 23rd , 34 , 98 ) of the hose ( 1 , 8 , 14 , 18 , 33 , 90 ) are arranged. 5. Hose according to claim 2, characterized in that the spacers ( 41 ) in the hose shafts and / or on these against displacement in the axial direction of the cunning ches ( 38 ) secured, the rope ( 39 ) at its center detecting transverse webs ( 41 ), crosses or the like. 6. Hose according to claim 5, characterized in that the transverse webs ( 41 ) extend substantially between two diametrically opposite areas (at 42 , 43 ) of the hose ( 38 ) and that in the longitudinal direction of the hose adjacent transverse webs against each other by 90 ° are twisted. 7. Hose according to claim 6, characterized in that the transverse webs ( 41 ) capture the rope ( 39 ) while leaving a game. 8. Hose according to claim 3 or 4, characterized in that in the case of two or more ropes ( 11 , 12 ; 35 , 36 ) arranged within the claw ches between them, their ends capturing cross-webs secured against displacement in the axial direction ( 13 , 37 ) are arranged as a spacer. 9. Hose according to claim 8, characterized in that the transverse webs ( 37 ) extend diametrically through the hose cross section. 10. Hose according to claim 8, characterized in that the transverse webs ( 13 ) are semicircular and inserted into the hose shafts or secured against displacement in the axial direction of the hose ( 8 ). 11. Hose according to one of claims 8 to 10, characterized in that the ropes ( 35 , 36 ) radially outside against the inner contour of the hose ( 33 ) in contact. 12. Hose according to one of claims 8 to 10, characterized characterized in that between ropes and hose wall Spacers for radial spacing are used. 13. Hose according to claim 12, characterized in that that the spacers are formed by the crossbars. 14. Hose according to claim 2 or 4, characterized net that the spacers are outer cylindrical rings, whose outer contour is preferably slightly smaller than the inner contour of the hose is, and that the rings with mutual distance secured against axial displacement are placed on the rope or ropes. 15. Hose according to claim 14, characterized in that the mutual distance of the rings through on the rope or the distance between the rings pieces or the like. is secured.   16. Hose according to claim 3 or 4, characterized in that in two or more outside the cunning ches ( 1 , 14 , 18 , 23 , 51 , 74 , 90 ) arranged ropes ( 4 , 5 ; 15 , 16 ; 20 , 21 ; 24 to 27; 52 , 76 , 79 , 86 , 91 , 92 ) the spacers ( 3 , 17 , 19 , 22 , 28 , 53 , 58 , 64 , 67 , 70 , 93 ) as the hose and the ropes captive comprising transmit rings or ring segments are formed. 17. Hose according to claim 16, characterized in that the rings or ring segments fit into the hose shafts or on this against displacement in the axial direction of the Hose are securely attached. 18. Hose according to claim 16 or 17, characterized records that the rings or ring segments self-supporting (stiff) are trained. 19. Hose according to claim 16 or 17, characterized in that the rings or ring segments are formed as a limp order looping means ( 19 ). 20. Hose according to one of claims 16 to 19, characterized in that between the ropes ( 20 , 21 ) and hose ( 18 ) spacers ( 22 ) are used for radial distance formation. 21. Hose according to claim 20, characterized in that the spacers are formed by the rings ( 3 , 17 , 28 , 53 , 58 , 64 , 67 , 70 ) or ring segments. 22. Hose according to claim 16, characterized in that with two ropes ( 91 , 92 ) the rings ( 93 ) or Ringseg elements are inner cylindrical, their inner contour ( 97 ) is preferably slightly larger than the outer contour of the hose ( 90 ), and that the rings or ring segments with mutual spacing ( 95 ) against axial displacement secured ge placed on the ropes. 23. Hose according to claim 22, characterized in that the mutual spacing of the rings ( 93 ) or Ringseg elements by segments arranged on the ropes between the rings or ring spacers ( 96 ) or the like. Is secured. 24. Hose according to one of claims 16 to 23, characterized in that adjacent ends ( 54 , 55 , 59 , 60 , 62 , 63 ) associated ring segments ( 53 , 58 , 64 , 67 , 70 ) by welding, positive locking, attached Clamping pieces ( 65 , 72 ) or the like. Joining processes are connected to one another. 25. Hose according to one of claims 16 to 18, characterized in that the rings ( 28 ) or ring segments are disc-shaped. 26. Hose according to one of claims 16 to 19, characterized in that the rings ( 3 , 17 , 53 , 58 , 64 , 67 , 70 ) or ring segments are formed by wire or the like. With a circular cross section. 27. Hose according to claim 16, characterized in that in the axial direction of the hose ( 23 ) in the middle between adjacent rings ( 28 ) or ring segments, further ring-shaped or ring segment-shaped holding elements ( 29 , 29 a ) are arranged such that they are diametrical to the hose axis ( 30 ) opposite and hold ropes ( 24 , 26 or 25 , 27 ) at a greater radial distance from the hose axis ( 30 ) compared to the rings ( 28 ) or ring segments and hold that the inner contour (at 31 ) of the holding elements ( 29 , 29 a ) has a distance from the radially adjacent hose wall, and that the holding elements are secured against movement in the axial direction of the hose. 28. Hose according to claim 27, characterized in that with four ropes ( 24 to 27 ) holding element pairs ( 29 , 29 a ) are provided, one holding element ( 29 or 29 a ) relative to the other ( 29 a or 29 ) Ropes ( 24 , 26 or 25 , 27 ) offset by 90 ° comprise and hold, and that each holding element is freely movable radially to the hose axis ( 30 ) relative to the ropes not covered by it. 29. Hose according to one of the preceding claims, characterized in that the spacers or Holding elements are firmly connected to the ropes. 30. Hose according to claim 27, characterized in that the holding elements ( 29 , 29 a ) are partially immersed in a radially adjacent wave trough of the hose ( 23 ). 31. Hose according to claim 27 to 30, characterized in that the holding elements ( 29 , 29 a ) are disc-shaped. 32. Hose according to one of the preceding claims, characterized in that the ropes ( 86 ) on the hose connection parts ( 73 , 83 ) are detachable and, if necessary, can be adjusted in terms of their length. 33. Hose according to one of the preceding claims, characterized in that the ropes ( 76 , 79 ) on the hose connection parts ( 75 , 80 ) are pivotally attached at least within limits. 34. Hose according to one of the preceding claims, characterized in that the ropes are the spacers Cross over attached sleeves or the like. 35. Bendable hose with mutually parallel, ring-shaped shafts, terminal connection parts and these against axial change in distance, with the connection parts in the tensile and / or compression direction firmly connected longitudinal support means, against which the hose is supported at least with telbar, characterized in that At equal intervals from each other radially outside or inside in the troughs of the hose ( 45 ) rings ( 46 ) or ring segments are inserted so that these and the hose connection parts on two diametrically opposite sides and on their side facing away from each holding element ( 47 ) opposite wear the hose contact-free, that with respect to the holding elements adjacent rings or ring segments or ring or ring segment and adjacent hose connector are mutually arranged rotated by 90 °, that by 90 ° staggered holding elements of adjacent rings or ring segments or ring or ring segment and bena ch beard hose connection portion through the hose contact-free encircling links ( 49 ) are connected to each other, and that the links are pivotally articulated on the holding elements. 36. Hose according to claim 35, characterized in that the connecting links ( 49 ) are rigid. 37. Hose according to claim 35, characterized in that the links are flexible ropes.   38. Hose according to claim 35, characterized in that the links ( 49 ) by the hose ( 45 ) or in the hose closed between two adjacent rings ( 46 ) or ring segments and back and forth bands are formed and that the bands on the hose side facing away from the holding elements ( 47 ) on these formed from guide grooves ( 48 ) with respect to the holding elements pivotable support in the axial direction of the cunning ches. 39. Hose according to claim 38, characterized in that the pivotable axial support of the bands ( 49 ) on the holding elements ( 47 ) is provided by the holding elements ge convex weighing surfaces ( 50 ).