DE3640043A1 - Pipe serving, in particular, for channelling a, for example, gaseous or liquid flowing medium - Google Patents

Abstract

The invention relates to a pipe serving, in particular, for channelling a, for example, gaseous or liquid flowing medium and having at least one flexible or compliant bending portion (6) which is arranged in each case between two essentially rectilinear pipe longitudinal portions (8, 8'), following one after the other in the pipe longitudinal direction (7-7'''), and is configured in each case in one piece with said portions, forming an articulation-type connection therewith in the process. <IMAGE>

Description

The invention relates in particular to a e.g. B. gaseous or liquid flow medium serving Pipe.

In pneumatics or hydraulics are used as pressure medium tations for guiding the respective flow medium frequently Tubes used. This is especially true when the flow medium occurs under high pressure because the pipes are more normal wise made of relatively rigid, rigid material, e.g. B. metal, and thus keep high internal pressures was standing. A disadvantage when using rigid tubes is however, the great effort and time involved in laying of the pipes, because a non-straight pipe run only through labor-intensive interposition of fittings such as bends, Angles, screw connections or by the pipe strength negatively influencing local heating and subsequent Bending the pipe can be realized. Angled or bent pipe runs are for reasons of Space saving especially with hydraulic or pneumatic  actuatable systems the rule, so that their assembly one enormous time is required, which the entire system does not insignificantly more expensive. The tubes could also be prinzi may be bent without heating, but this creates regularly a kink, which results in leaks may have, or at least an annoying reduction in Flow cross section caused.

A metal braid has already been used Surrounded rubber hoses proposed for flow guidance, however, these are far from having the strength of Pipes and are also opposite to many flow media not resistant, causing rapid wear and tear of this Leads hoses.

It is the object of the invention to overcome the above disadvantages remedy and a pipe according to the type mentioned to create that with simple and inexpensive manufacturing is easy to install and with the pipe in particular connections that have a stream deviating from the straight line Specify route, in a simple, time-saving way safe and are tightly producible.

The above object is achieved in that the pipe mind at least a flexible or flexible bending section has, each between two in the longitudinal direction of the tube successive, essentially rectilinear tube length sections is arranged and forming a articulated connection with these in one piece  is trained. Advantageously, one is now too pipe withstand high pressures present in the area bent at least one bending section as desired can become leaky without kinks or disturbances in the flow of the medium being carried cause. This allows this to be convenient with several successively in the longitudinal direction of the tube arranged bent sections provided pipe when it Ver to adapt to local, external requirements Conditions can be easily bent as desired can without separate fittings such as angle or Bows or the like would be required. The laying work are therefore also designed in confined spaces very simple and time-saving, which in particular is also a simplified assembly of pneumatic or hydraulic ge controlled systems, where usually a large number of pipelines in a very confined space on very winding way must be accommodated. In addition, the pipe is tight at all times because of the bend sections with the pipe lengths in between Form sections so that no sealing points occur. Furthermore, the pipe according to the invention can be advantageous use several times and at different locations, because the pipe can be bent back in the area of the bending sections is not limited to a specific bending position is. The tube according to the invention is also simple and Can be produced inexpensively, preferably as required cut goods by the meter.  

Advantageous developments of the invention are in the Subclaims listed.

The tube preferably has one another in the longitudinal direction of the tube bend section subsequently arranged at a distance from one another te, between which a two bending sections are the same pipe length section assigned in time is arranged and wherein the bending sections preferably along the Pipe longitudinal direction are evenly distributed. That in the exit straight tube can be attached to the respective Simply bend where needed. Preferably own the individual bending sections each have a smaller axial Length than the individual pipe lengths so that they actually form joints around which the subsequent ones rectilinear pipe lengths are pivotable. The Pipe length sections expediently consist of relative rigid or rigid material, e.g. B. hard plastic or metal such as stainless steel, in particular the latter a practically total insensitivity guaranteed of the pipe against the respective flow medium. In addition, a pipe according to this embodiment Use form especially when components how cylinders, valves or the like are to be connected, their housing or connection points also made of stainless steel consist.

The development according to claim 8 facilitates manufacturing of the pipe.  

The further developments according to claims 9 to 12 allow a particularly wear-free bending process in the area of the bending sections and enable frequent bending, without damaging the pipe. Furthermore, esp special in this embodiment also bends with very large bending angle possible without the flow cross section in the area of the bending sections would be changed. It is also possible to use a suitable bending process the pipe length sections separated from a bending section to be arranged so that their two longitudinal axes are parallel and run at a distance from each other, quasi parallel are.

The tube is preferably in the region of the bending sections in particular plastically bendable, so that the individual Bending operations carried out essentially without springback can be and the tube without external force remains in the respective bending position. The against each other bent pipe length sections therefore remain in each stand relative to each other.

The invention is described below with reference to the accompanying Drawing explained in more detail. In this show:

Fig. 1 shows a longitudinal section through a first design of the tube according to the invention and

Fig. 2 is a side view of the pipe according to the invention, (a) showing the pipe in the non-bent initial state and (b) the pipe in the bent state in the region of the bending sections.

The tube 5 shown in the drawing serves as a pressure medium line for guiding a gaseous or liquid flow medium, for. B. compressed air or a hydraulic medium such as oil. It is preferably used in pneumatically or hydraulically actuated systems in order to make connections between valves, cylinders, pumps or the like.

The specifications are more common for the systems mentioned as a space-saving arrangement of the pressure medium lines specified in order to obtain a compact overall system. So there must be a large number of pressures in a confined space central lines can be accommodated. But this requires especially to avoid overlaps, that the individual pressure medium lines are often bent Need to become. Such systems are becoming more common operated as high fluid pressure, so that the pressure medium lines can withstand high pressure loads have to. The invention offers one under all circumstances easy to lay pipe, which also has high internal pressure has grown.

According to the invention, the tube 5 has at least one flexible or flexible bending section 6 , each of which is arranged between two linear tube length sections 8 , 8 'which follow one another in the longitudinal direction 7 of the tube. This at least one bending section 6 practically represents an articulated connection between the two pipe length sections 8, 8 ' and is formed in one piece and in one piece with both the one and with the other length section.

In the embodiment, the tube 5 has several in the tube longitudinal direction 7 successively and at a distance from each other arranged bending sections 6 , and between each two in the longitudinal direction 7 adjacent bending sections 6 is a distance between the two sections th determining common pipe length section 8 and 8 '. The arranged between in each case two bending portions 6 pipe-length is cut off with the bounding it flexural 6 are integrally formed, and the entire tube 5 forms a single-piece component.

Advantageously, the tube 5 is now seen in the longitudinal direction 7 alternately in rigid, rigid sections 8 , 8 'and divided into flexible sections 6 , and in the initial state, which is shown in FIGS. 1 and 2a, the tube 5 has a rectilinear shape with linear longitudinal axis 7 . This tube can also be loaded with high internal pressure, since all sections 6 , 8 , 8 'have a high strength in the radial direction. However, the respective adjacent pipe sections 8, 8 'are relatively small force in the area of the region enclosed by them bending portion 6 is bent against each other, so that these two pipe lengths 8, 8' form an angle greater than or less than 180 ° with one another or offset in parallel to one another are. Here, reference is made to FIG. 2b, which will be explained later.

The tube 5 according to the invention is so very easy to install and without coupling parts, for. B. bends, angles or the like are required, a non-linear pipe run can be quickly and without damaging the pipe. In addition, since the tube is in one piece, there are no sealing problems. Advantageously, the Biegeabschnit te 6 are arranged evenly distributed in the tube longitudinal direction 7 , and they each have a smaller axial length compared to the individual straight tube lengths 8 , 8 ', so that the tube has a plurality of joints. The length of the individual pipe length sections 8 , 8 'preferably moves in the range between 2 and 10 cm, so that even tight pipe bends can be carried out.

The pipe according to the invention is simple and can preferably be produced by the meter and is preferably provided in various types, the pipe types having different length dimensions with respect to the pipe length sections 8 , 8 ', but the pipe length sections of each individual pipe are of equal length. Depending on requirements, a pipe with the desired pipe section dimensions can be used. In addition, however, it is also possible to make the pipes to measure and only to see bending sections at the required points.

In the embodiment, the bending sections 6 are particularly advantageous and each integrally connect to the facing axial end region 10 , 10 'of the adjacent tube length sections 8 , 8 '. Here, the bending sections 6 each form a completely closed in the circumferential direction of the tube 5 and relatively rigid in the radial direction of the tube wall portion 9 , so that inside the tube 5 a substantially constant flow cross-section on pointing flow channel 14 is present. Each bending section 6 , as shown, is preferably designed in the form of a bellows, the individual folds 15 of which extend in the circumferential direction of the tube 5 and are arranged in succession in the longitudinal direction 7 , at least in the straight-line initial state of the tube 5 coaxially with the individual tube length sections 8 , 8 ′ are net. The pipe wall section 9 formed by the bellows-shaped bending section has a cross-section, ie a longitudinal section of the pipe, a wave-shaped or serrated or meandering course, so that successive pipe length sections 8 , 8 'by axial expansion or compression of the respective pipe wall section 9 from one another are moving away or towards each other.

Expediently, the bending sections 6 each consist of a plurality of ring elements 16 , 16 'arranged successively and coaxially to one another in the longitudinal direction 7 of the tube, with adjacent ring elements 16 , 16 ' in each case integrally with one another alternately in the region of their outer circumference 17 and their inner circumference 18 , forming the bellows-like bending section are connected. The bellows body is also preferably in one piece.

Referring to Fig. 2b pipe 5 according to the invention is described below in the bent state. It can be seen three bending sections 6 arranged one after the other in the longitudinal direction of the tube, which are to be referred to below, seen from left to right, as first, second and third bending sections.

In the area of the first bending section, the two adjacent pipe length sections 8 , 8 'are only slightly bent against each other, while in the area of the third bending section a strong bend was made, so that there the longitudinal axes 7 ', 7 '' of the adjacent pipe length sections are substantially at right angles to each other stand differently. However, both bending sections have in common that the section 19 of the pipe wall section 9 pointing in the bending direction is compressed, while the opposite section 20 has been widened. In the area of the lot 19 , the ring elements 16 , 16 'are therefore closely approximated, while they are spread up in the area of the lot 20 .

The second bending portion 6 is bent such that the longitudinal axes 7 ', 7' '' of the adjacent pipe lengths 8, 8 'arranged in parallel and spaced from one another, the two portions 8, 8' are so offset opposite one another in parallel. This is achieved by bending the bending section 6 in itself, so that the bellows body, viewed in the longitudinal direction of the tube 5 , is first bent in one direction and then in the opposite direction.

Since in all of the ring elements 16 , 16 'in their inner diameter preferably correspond to the inner diameter of the tube lengths sections 8 , 8 ', an undisturbed flow of the flow medium is ensured in each bending position. All bending processes can be carried out without kinks, so that damage to the pipe is practically impossible.

A particular advantage of the tube 5 according to the invention is that the bending sections are plastically bendable, ie when bellows-like bending sections are used, the spreading or compression of the individual ring elements takes place essentially by means of plastic deformation at the transition. This facilitates the handling of the pipe considerably Lich, since it remains practically in the respective bending position and does not spring back. Following a bending process, therefore, no further external force is required to maintain the desired shape of the tube.

The tube according to the invention preferably consists of a single material. This material can e.g. relatively hard, be high pressure resistant plastic material or preferred stainless metal such as stainless steel. The latter ensures practically complete insensitivity to the respective Flow medium with high resilience. This variant is used to advantage especially if cylinders or valves to be connected or the like. Also consist of stainless metal, so that corrosion-promoting joints between different  noble metals can be avoided.

To connect the tube 5 according to the invention to components, it is provided that the axial end portions of the tube are each formed as tube length portions 8 , 8 ', so that a problem-free, sealed connection of the tube can be carried out by means of commercially available screw connections.

The tube according to the invention is manufactured, for example wise by inserting a tube free of bends into a Form is inserted with the negatives of the bending section te is provided, after which the tube is subjected to internal pressure is so that the tube wall forming the bellows bulging sections like bulges outwards.

Claims (14)

1. In particular for leading a z. B. gaseous or liquid flow medium serving pipe, characterized in that it has at least one flexible or resilient bending section ( 6 ), each between two in the pipe longitudinal direction ( 7-7 ''' ) successive, substantially rectilinear pipe length sections ( 8 , 8 ') is arranged and is formed in one piece with the formation of an articulated connec tion with these. 2. Pipe according to claim 1, characterized in that it has a plurality in the tube longitudinal direction ( 7-7 ''' ) successive and spaced-apart Biegeabschnit te ( 6 ), wherein between two longitudinally adjacent bending sections ( 6 ) a common, in union union rectilinear pipe length section ( 8 , 8 ') is arranged, which forms a piece with both bending sections ( 6 ). 3. Pipe according to claim 1 or 2, characterized in that a plurality of bending sections ( 6 ) in the pipe longitudinal direction ( 7-7 ''' ) is arranged evenly distributed. 4. Pipe according to one of claims 1 to 3, characterized in that the individual bending sections ( 6 ) each have a smaller axial length than the individual pipe length sections ( 8 , 8 '). 5. Pipe according to one of claims 1 to 4, characterized in that the tube length sections ( 8 , 8 ') consist of relatively rigid or rigid material. 6. Pipe according to claim 5, characterized in that the tube length sections ( 8 , 8 ') and / or the at least one bending section ( 6 ) made of metal, suitably stainless metal such as stainless steel. 7. Pipe according to claim 5, characterized in that the tube length sections ( 8 , 8 ') and / or the at least one bending section ( 6 ) consist of plastic material. 8. Pipe according to one of claims 1 to 7, characterized in that the at least one bending section ( 6 ) and the pipe length sections ( 8 , 8 ') consist of identical material. 9. Pipe according to one of claims 1 to 8, characterized in that the at least one bending section ( 6 ) forms a completely closed in the circumferential direction of the tube ( 5 ), in the radial direction relatively rigid tube wall portion ( 9 ). 10. Pipe according to one of claims 1 to 9, characterized in that the at least one bending section ( 6 ) in the form of a bellows with in the circumferential direction of the tube ( 5 ) extending and in the tube longitudinal direction ( 7-7 ''') otherwise arranged folds ( 15 ) or beads is formed. 11. Pipe according to one of claims 1 to 10, characterized in that the at least one bending section ( 6 ) of several, in the tube longitudinal direction ( 7-7 ''') successively and coaxially arranged to each other expediently metallic ring elements ( 16 , 16 '), whereby adjacent ring elements ( 16 , 16 ') are formed in one piece with one another alternately in the region of their outer circumference ( 17 ) and their inner circumference ( 18 ), forming a bellows body. 12. Pipe according to claim 11, characterized in that the inner diameter of the ring elements ( 16 , 16 ') corresponds to the inner diameter of the tube length sections ( 8 , 8 '). 13. Pipe according to one of claims 10 to 12, characterized in that the tube wall in the region ( 9 ) of the at least one bending section ( 6 ) has a wavy or serrated or meandering shape in cross section. 14. Pipe according to one of claims 1 to 13, characterized in that the bending sections ( 6 ) are plastically bendable.