DE10343581B4 - Mounting system for heat exchanger pipes used in highly corrosive environments comprises flexible, curved plates with apertures in their surface, through which pipes fit - Google Patents

Abstract

The mounting system for heat exchanger pipes (2) used in highly corrosive environments comprises flexible, curved plates (3) with apertures (4) in their surface, through which the pipes fit. The plates are attached to pairs of horizontal supports, one support (8) acting as a spray to wash the plates.

Description

The The invention relates to a holding and guiding device, in particular for heat exchanger elements in a highly corrosive environment, consisting of at least one at least one side mounted support element which several recesses and / or bulges for receiving media-flushed conduit elements having, wherein the support element the conduit elements to form an elastically deformable surface contact touched.

Attachments, where highly corrosive conditions prevail are commonly used lined with inert materials, so the durability the plant opposite to increase the materials available in the plant. The lining of plants with inert materials is due to the chemical inertia of the used materials associated with problems, which, however, in the State of the art are manageable. In contrast to the pure lining, It is also necessary to take active elements in plants directly from the inert chemically To produce materials. This is especially necessary if a cladding of an active element the functionality of the element, for example, elements, the heat exchange serve. A lining of a conventional heat exchanger element would mean that the thermal conductivity the heat exchanger element would be significantly reduced by the disguise. By humiliation the thermal conductivity a heat exchanger element this is only conditionally to no longer usable. Because the ability, Heat from to transfer one medium into another, without these media being in direct contact is a Parameter which in the prior art of heat exchangers to increase the effectiveness constantly is improved. A sheath with a chemically inert material this one is running Development contrary. Therefore, it is necessary to heat exchanger elements directly from the chemically inert Material to avoid that to be transferred Heat one additional Overcome material boundary got to. Usually become as line elements of the heat exchanger hoses inert chemically made of polymeric materials which meander in the cross section of a flow channel be put to one as possible high surface within the flow channel to reach. The medium, which flows through the hoses, thereby becomes the possibility given, heat to exchange with the medium flowing through the flow channel.

The available in the prior art standing chemically inert Materials that withstand even highly corrosive conditions, are polyfluorinated polymeric materials. These are polyfluorinated polymeric materials the more inert, the higher the degree of fluorination of the in the polymeric materials present carbon chains. Another parameter that leads to chemical inertness is the chain length the polymeric materials. The more corrosive the conditions in one Plant are the higher fluorinated and the longer have to the chain lengths be the polymeric materials used. But this leads to the fact that the materials obtained so far only extremely difficult are not processable. Furthermore, these have perfluorinated polymeric materials have only limited strength in the heat. Just in heat exchanger systems, which work under high temperatures, it is therefore necessary that the mechanical loads of the heat exchanger hoses, which the heat exchanger tubes the reactionary Add materials and reduce the duration of use, if possible be kept low.

By the flow in the cross sections of the flow channels, the hoses from perfluorinated polymeric materials also vibrate and mechanical agitation can reduce its life. Due to a lower thermal stability can the hoses also easier damaged become. Especially by puncturing at point contacts and through Kinks on line contacts, which arise at edges, is a premature injury the hoses possible from the above materials.

Around the swinging of the hoses, which by the influx in the flow channel arise on subcritical orders of magnitude to reduce these hoses, which meander in the Cross section of a flow channel be placed by mechanical holding, support or guide elements in position held. Such holding, supporting or guide elements From the prior art differ up to the Materialei properties only insignificant of generic elements, which to support a variety of tubes in use is. In contrast to the generic holding or supporting elements, which usually Made of metal, the use of perfluorinated The problem with polymeric materials is that they are difficult or even impossible welded can be and that the above materials of the hoses have a very high coefficient of expansion which prohibits it, mechanically rigid connections between hose and support element to construct.

As well as the hoses themselves and the system, the support elements must also be made of materials which comply with the highly corrosive conditions conditions that prevail in the system. In the past, plates are used for this purpose, which have a plurality of holes through which the individual tubes are passed, so that these tubes are held in position. In constructing such heat exchanger elements, the tubes of the above materials are oriented vertically and the plates are positioned in a horizontal orientation so that the tubes will pierce vertically through the plates. As an alternative to a plate which is provided with a plurality of holes, also networks are used, which are stretched in the horizontal and optionally have spacer rings for stiffening the net meshes. However, the use of rigid plates with a large number of bores and the use of networks with inserted spacer rings poses great problems, leading to premature failure of the entire heat exchanger. Because the mechanical agitation of the hoses by the vibrations causes the hoses made of the chemically inert materials to be exposed to abrasion stresses that result from the point or line loads on the bore openings or on the mesh meshes. These stresses lead to overstressing in the polymeric perfluorinated materials, which undesirably impair the mechanical properties. Furthermore, the mechanical properties of these hoses are impaired prematurely by mechanical stress peaks with reduced wall thickness.

In the DE 36 15 032 C2 For the fixation of heat exchanger tubes evacuable hoses are pushed between a hexagonal arrangement of tubes. The pushing through happens under evacuation of the tube, which thereby collapses like a leaf and can be pushed through the tube bundle flat. After the tube has been pushed through the heat exchanger tube bundle, the tube is re-aerated so that it wants to return to its original round shape by inherent elasticity, the expansion is prevented by the tube bundle and the hose conforms to form round surface contacts to the heat exchanger tubes. If a plurality of such flat evacuable hoses are pushed through a heat exchanger tube bundle, this results in a comparatively stable but nevertheless elastic composite. The use of such intrinsically elastic tubing is in heat exchangers associated with highly corrosive substances, not considered, because the inert materials that are suitable for use in highly corrosive environments, have a sufficient inherent elasticity and a sufficient restoring moment for this type of stabilization of heat exchanger tubes not on.

In the DE 1 946 525 discloses a resilient clamp, which is intended to accommodate a plurality of tubes running in a plane. However, this clamp is only suitable for use with tubes that run in a plane, and so can be encompassed by the clamp. Tube bundles that fill a volume can not be stabilized by this clamp because the clamp can not accommodate multiple levels of tubes. Furthermore, the clamp always requires a fixed installation arrangement to which the clamp can be attached. Furthermore, the series clamp must have a high restoring torque for fixing the individual tubes, which is usually not present in chemically inert materials.

In the DE 7039770 discloses a tube holder for heat exchangers are woven in the rods of elastic material in a tube bundle downright. The arrangement of the elastic rods is similar to the arrangement mentioned in the introduction DE 36 15 032 C2 However, the elastic rods are not evacuated, but the distance of the tubes is dimensioned so that the elastic rods can be woven between the individual tubes of the tube package, without thereby by the space requirements of the rods, the tubes are bent.

In the published patent application DE 41 41 193 A1 a device for suspending in particular elongated objects in an upright position is disclosed. This arrangement has support arms and retaining plates. The holding plates are provided with a rubber coating which absorb the elongated objects under pressure. This creates a round surface contact. A device comparable to this is not economically applicable in installations which are associated with highly corrosive substances, since the use of the support arms requires composite materials which require a stable, for example, metal reinforcement inside, and a protective layer which withstands the highly corrosive substances from the outside must be surrounded.

In addition, in US 2,539,805 and US 1,958,772 Holding systems disclosed with which gardening equipment can be attached to the wall for storage. This is similar to the above-mentioned series clamp to rubber lips that can accommodate the stem of a gardening tools under clamping action. So that the rubber lips do not bend downwards and thus lose their holding effect, the rubber lips are supported from the lower side with a hard metal plate. For lighter items, the metal one is Support plate available, but then the clamp must hold the object to be held under sufficiently high inherent elasticity.

task The present invention is therefore a holding and guiding device to disposal which is stable in a highly corrosive environment and conduit elements in the cross section of a flow channel in position, without that by material weakening damaged be, with the low inherent elasticity of materials in one highly corrosive environment resistant are to be taken into account.

According to the invention solved the tasks by that the support element flat is formed and has recesses, wherein elastic partial surfaces in the recess protrude and after receiving the line elements the plane of the support element protrude or spirally wound the support element is, with the line elements in the resulting from the winding Bulges einliegen or that the support member is tubular is and on the sides bulges for receiving the conduit elements has. Further advantageous embodiments will be apparent from the dependent claims.

By the formation of an elastically deformable surface contact is prevented that the support elements the line elements to form a line or Touch point contact, which can cause punctures. The support elements touch the line elements, but are not intimately connected to this. hereby There is the advantage that the conduit elements when vertical in the cross section of a flow channel are arranged to expand in the heat and on cooling again can contract. The elastic preload for the surface contact is chosen as that jamming avoided and a sliding back and forth on the elastically deformable surface contact allows which avoids the problems known from the prior art become. In particular, by the elastic surface contact an occurring thermal expansion guaranteed and ensured that damage from occurring Relative movements does not occur.

In advantageously, the support element under Contact with the conduit elements at least one curved surface, which surface conforms to the line element. Due to the formation of curved surfaces is prevents the formation of edges or corners where the pipe elements, special tubes, could be injured by mechanical agitation. Because it is to be expected that the line elements, for example, due to thermal expansion or during maintenance of the flow channel across from the support elements be moved or bent to the side, with the relative Position of support element shifts to line element and wherein the above-mentioned point or line contacts could arise.

In Embodiment of the invention is provided that the support element alone or in conjunction with at least one further support element the line elements over the surface contact in addition with Clamping receives force effect, so for example, one-sided open support elements, which preferably later in a repair inserted or screwed are, can be used. By forming a clamping effect, the line elements firmly held in position However, they expand and contract when exposed to heat the line elements at the surface contact glide along.

In Advantageously, the support element is at least partially from a perfluorinated polymeric material. In contrast to the Heat exchanger line elements can the support elements the holding device also consist of composite materials. For the support elements does not mean that material limits must be avoided. In order to the support elements the holding and guiding device, however can withstand the aggressive conditions, it is necessary that at least their surface from an inert, for example, perfluorinated polymeric material exists, so that the support elements not destroyed by corrosion become.

It has proved to be advantageous if the support element at least one holding element for attachment to a holding element receiving device or is paired with a holding element, which is a support element with at least one further support element combines. By connecting several support elements with each other it is possible a holding and guiding device to construct it out of a cascade of support elements consists. Through a support element cascade can the holding relationship or guiding effect of Holding and guiding device elevated become. This allows higher flow rates to be used in the plant. The holding element receiving device can be attached to the side inner wall of a flow channel or one for a specific application case designed holding element receiving device be, wherein the holding element receiving device also the corrosive Conditions in the system withstands.

In a first embodiment of the holding and guiding device according to the invention the support member formed flat and provided with recesses, wherein elastic partial surfaces protrude into the recesses and protrude after receiving the line elements from the plane of the support element. This results in the advantage that the individual support elements of the holding and guiding device can be produced from a film or a plate, which are marketable products, without the need for connections, tilting or welding. The recesses and their special shape can be made by water jet cutting, by laser cutting, by punching or by further processing steps, which are able to produce recesses in a sheet-like element.

In Advantageously, the recesses are in a hexagonal, a square or in a rectangular arrangement in the support element arranged. It is also possible the recesses unbalanced on the surface of the flat-shaped support element to distribute. The choice of the arrangement of the recesses depends on the flow conditions in the cross section of the flow channel and the desired degree of turbulence, the flow through the heat exchanger conduit elements should reach.

In particularly advantageously lie in the holding and guiding device several similar ones mentioned above support elements with aligned recesses spaced from each other before. This will achieved the advantage that many similar support elements by superimposing Made of several thick-walled films in one step and one the above mentioned Processing techniques can be subjected. Even in the case of an unbalanced Arrangement of the line elements can the individual support elements be similar, with the recesses unbalanced in the support element are arranged or the support elements are different and thereby produce an asymmetrical arrangement the line elements.

In a further embodiment the holding device according to the invention and leadership facility the recesses have partially recessed inward edges and the enveloping Shape of the recesses corresponds to the cross - sectional projection of the Conduction elements, wherein between the enveloping shape and the cross-sectional projection a distance remains, which is the approximate width of the wall thickness of the at least one area trained support element and wherein the inwardly bulging edges at Recording the line elements form a broken necking and get to the surface Cling to the pipe elements. By this configuration is it is possible that the conduit elements through the inwardly bulging edges by be held a clamping action, wherein by the restoring force the material of which the support elements are made, the clamping action is achieved. The inwardly projecting edges form a broken Aushalsung and thereby have a curved surface, which is connected to the surface conforms to the line elements. This prevents point relationship Line contacts arise. By the distance between the enveloping Shape of the recess and the cross-sectional projection of the line elements creates a safety clearance that prevents mechanical damage Agitation or movement of the heat exchanger element the conduit elements touch an edge of the recess and could bend. With slight agitation of the heat exchanger elements can the line elements according to the restoring force of the support elements used within the recess a lateral, torsional, longitudinal, wobble and / or perform tilting movement, wherein the movement caused by the friction on the surface contacts between the notched edges and attenuated the line elements becomes.

In another embodiment the holding and guiding device have the support elements a double-layered construction. In this double-layered Construction has a first lower, thick-walled film described above Shape the recesses and pick up the piping elements in the top explained Way up. A second thick-walled foil, which consists of a similar or the same material as the support element itself is, lies on the support element on or is connected to this and has aligned recesses, their edges the shape of the enveloping Correspond to the shape of the recesses of the first thick-walled foil, the distance between the cross-sectional projection of the line elements and the edge of the recesses of the second thick-walled film slightly smaller is as the distance of the enveloping Shape of the recesses of the first thick-walled film and the cross-sectional projection the line elements. This gives the advantage that at decreasing restoring force the support element material, for example, by heating, the clamping action by the bulged edges, which through the recesses the second thick-walled film, through the second thick-walled The film is compensated by the second sheet of the notched edges like a collar presses on the line elements.

In a further embodiment of the holding and guiding device, the support element has a support reinforcement element, which is arranged below the support element. The support reinforcement element may consist of a further film with recesses, the Ausneh mungen is adapted to the cross-sectional projection of the line elements. The radius of the recess is chosen so that an edge between the recess and the cross-sectional projection of the conduit element remains, so that the conduit element Lateral-, tilting and / or tumbling movements can perform in the support element, without causing the conduit element the edge of the recesses in touched the support reinforcement element. In this way it is prevented that the advantageous effect of the support element, namely a pure surface contact between the support element and the line element, is canceled by a contact between the line element and support reinforcement element to form a point or line contact again.

In a particular embodiment the holding device according to the invention and guide device the support element spirally wound, wherein the line elements in the resulting from the winding Bulges exist. By using a helically tortuous Support element, which receives the line elements in bulges, resulting in the Advantage that the conduit elements of the support element is not completely included become. This allows the support elements too later be installed in an existing array of conduit elements. By the winding it is possible that the support element, comparable to screwing a screw into a nut, in the regularly meandering arranged Conduit elements is rotated into it. Through the helical winding arise bulges, which have only curved surfaces, and thereby prevents the piping elements from forming a singular Line contact or a singular point contact with the support element in touch come and thereby suffer a material weakening. By choice the winding can both over Cross-laid heat exchanger element element layers as well as parallel line elements are kept.

It has proved to be advantageous when the spiral support element Although fixed but still elastic. Through the solid training of the support element the screw connection described above is possible. Because of the elasticity it is also possible, to pinch the pipe elements in the bulges.

In a further embodiment the holding device according to the invention and guide means the spiral support element another, strip-shaped Clamping element, which is parallel to the axis of the coiled support element is arranged. This strip-shaped Element closes the Bulges of the winding support element and thus, after the convoluted support member, the conduit elements has picked up, jam them in the bulge.

In the case from parallel or over Crossed heat exchanger line elements It has proved to be particularly advantageous if the holding and guiding device a coiled support element having a plastically deformed by winding strip is, in which the winding is chosen so that the strip edges are vertical are arranged to the winding axis and the rounding in the projection resulting bulges, which by two adjacent turns arise, the cross-sectional projection of the line elements corresponds. By a strong swirl of a strip can be achieved that the strip edges stand perpendicular to the winding axis. By vertically arranged Strip edges will prevents the strip edges possibly incorrectly positioned line elements under training touch a line contact.

In a further embodiment the holding device according to the invention and leadership facility is the support element tubular formed and has bulges on the sides, which the Pick up line elements. Due to the tubular design of the support element can the entire holding and guide means later in an existing heat exchanger to be built in. The support elements become through the surface contact held in place between the conduit member and the support member, being two support elements hold a line element from two sides.

Prefers becomes the tubular one support element mounted on a holding element, so that the support element by the holding element is positioned. This results in a particularly simple modular Construction.

In an embodiment the holding device according to the invention and leadership facility the retaining element has openings on, by which further holding elements are guided to these in the room to position or to the holding elements on a holding element receiving device, as mentioned above, to fix.

In a further embodiment of the tubular support member, the support member is slotted on its longitudinal side, wherein the slot edges of the tubular support member, for example, in the joints of a double-T-profile engages, which can serve as a combined support and support reinforcement element or even merely the function of Holding element perceives. This makes it possible to retrofit individual support elements on pre-assembled holding elements who you can.

In a preferred embodiment the holding device according to the invention and guide means for example tubular Support element or more rinses on which on the perpendicular to the support axis and perpendicular to the direction of the bulges facing side of the tubular support members are arranged. Through these flushing openings, which point downwards or upwards in the installed state, can do not collect any emissions within the tubular support elements. As well is it possible that during a flushing process through these flushing holes, which are driven so far into the material that a connection between outer diameter and Inner diameter of the tubular supporting element arises, immissions flushed out become.

In Preferably, the tubular support reinforcement element produced by an extrusion technique known to those skilled in the art, which generates mechanical material stresses in the circumference of the tube and thereby causes that the slot edges under tension. By the above mentioned Extrusion technology is achieved that the tubular support elements under clamping action sit on the combined support and support element and yourself not independent of it to solve.

It has proven to be particularly advantageous if the at least one support element aslant to the longitudinal axis the conduit elements is arranged. In a variety of applications be through the flowing Medium, which flows through the flow channel flows, transported small dust particles or other immissions, which are on the surface the support elements knock down. It is also possible that during cooling through the flow channel flowing Medium condensates arise and these residues on the piping elements and the support elements leave. For a longer one Duration of use As a result, deposits are formed which the cross section of the flow channel constrict and at the same time by their own weight the burden of Conduit elements and the support elements increase can. Due to the partially hardening Deposits, which on the horizontally arranged in the prior art support elements lying and wedging between the pipes, it is extremely problematic Remove deposits from the heat exchanger elements during maintenance. By the oblique Arrangement of the support elements can be prevented that the immissions on the support elements deposit as they pass from the support element the slope slip off or be flushed down by condensate. The by the self-purging after below falling emissions for example, in a container be caught, which only needs to be emptied during maintenance. Furthermore, it is due to the oblique arrangement of the support elements possible, the support elements with a rinsing liquid to wash, wherein the rinsing liquid, which the solved or suspended emissions from the support elements can expire.

Provided the holding and guiding device or individual elements of the holding and guide means from chemically inert Materials are made, it has proved to be particularly advantageous proved, if the at least one support element on at least one End to the edge vertical and closed to the edge, elongated openings which are used to the support element to form a flare has, which is parallel to the edge of the support element in height the middle of the openings runs, to put a first holding element and the outer bead with the remaining area of the support element connect by a second holding element alternately from the outer side the outer crimping edge through each other placed openings on the outside the inner border and by further adjacent one above the other placed openings back to the outside the outer crimping edge guided is, wherein the second holding element within the through the flare, the opening and the second holding element resulting closed loops runs. By the use of chemically inert materials is problematic the individual support elements to a coherent one To connect retaining element. The above explained to an interweaving or an interweaving reminding attachment mechanism allows such support elements to use that made by simply punching or cutting can be. This avoids that the support elements for connecting thread, Hooks or eyes have to have which require a more complex manufacturing process for production and therefore expensive to manufacture. By interweaving or Interlacing reminding attachment mechanism, it is possible on easy way the support elements to connect to a holding element. Likewise, this method of attachment to be used, the entire holding element to the edge of the Cross section of the flow channel to fix.

It has proven to be particularly advantageous if the above-described second holding element, which is alternately inserted through the openings, is a tube with lateral bores through which flushing liquid can flow and escape from the bores to the support elements of the holding and guiding device do the washing up. This makes it possible, the heat exchanger element from the outside, that is from the side which the is exposed through the flow channel flowing medium to clean by merely opening a valve which is connected to the hose. In this way it can be avoided that for maintenance of the flow channel this must be opened or that people must climb into the flow channel to mechanically clean the heat exchanger unit.

alternative it is possible to an above mentioned one flushing hose parallel to the meandering shaped heat exchanger tube to lay, which is also supported by the support elements. Like the flushing hose described above with side holes this hose can also drill holes have and through this hose, if necessary, rinsing liquid flow, which flows out of the holes on the support elements and, if these are oblique are arranged, runs from these.

In Advantageously, the above-mentioned retaining elements of the holding invention are and leadership facility on Konstruktionselemen th of a heat exchanger in a Halteelementaufnahmevorrichtung received and by securing elements, such as a top cover, held. By this type of connection between the holding element and Holding element receiving device, it is possible to a screw or on a weld to renounce.

alternative to the holding element receiving device described above, the Holding element as well to another holding element receiving device a heat exchanger be placed, wherein the holding element under permanent deformation a Hook forms. This also makes it possible for the attachment the retaining element on construction elements of a heat exchanger to dispense with screwing and welding.

In Preferably, while the inner radius of the hook designed Holding element greater than the outer radius, the holding element receiving device described here. This can be achieved, that the holding element has a degree of movement, by the holding element and the holding element receiving device by different radii can slide together and thereby the holding element a variable length enable. Furthermore, a retaining element, when it is loaded, yield, in that the hook-shaped end of the retaining element on the here described holding element receiving device elastically yielding is trained.

In Preferably, the holding element consists of a chemically inert material, wherein the holding element comprises a metal core, which the holding element gives a permanent deformability.

If the holding element has a metal core, it has to be special proven beneficial when the chemically inert protective material at the ends a little longer as the metal core is formed, so that the metal core to the Ends of the retaining element completely through the sluggish Protective material is covered. The free end of the chemically inert protective material can be closed by a stopper, which is chemically inert protective material welded and thus becomes a complete one Protective jacket of the metal core leads. Alternatively, a high-alloy corrosion-resistant stainless steel without protective jacket be used.

The Invention will be explained in more detail with reference to fourteen figures.

It shows

1 in a side view of a holding and guiding device according to the invention with a line element and a flushing device,

2 in a plan view different forms of the recesses of a support element,

3 in a side view, the representation of a tilting movement of a conduit element in the recesses of a support element,

4 in a side view of a second embodiment of the holding and guiding device according to the invention,

5 in a side view, a coiled supporting element with fastening device in a first use form,

6 in a side view a coiled supporting element with fastening device in a second embodiment,

7 in a side view of a support element 1 in which the fastening mechanism is shown in more detail,

8th a support element with an additional surface support element,

9 a support element with an additional support reinforcement element,

10 in a side view of a section of a third embodiment of the holding and guiding device according to the invention, wherein a Supporting element is mounted on a holding element,

11 in a plan view of the holding and guiding device according to 10 in action,

12 in an exploded view, part of a fourth embodiment of the holding and guiding device according to the invention, wherein a support member is clamped onto a holding element,

13 in a side view of a section of the fourth embodiment of the holding and guiding device according to the invention in two sub-figures, wherein a support element of 12 is combined with another support element in the form of an elastic tube and

14 in a plan view of the fourth embodiment of the holding and guiding device according to the invention 13 ,

1 shows a holding and guiding device according to the invention 1 in which a conduit element 2 is included. The holding and guiding device 1 consists of three support elements 3 , which each have four square recesses 4 have in the 2 and 3 be explained in more detail. The support elements 3 are under formation of a braided flare 5 to a first holding element 6 attached, which the three support elements to a holding and guiding device 1 zusammenfügt, wherein the connection of the sub-elements, the retaining element 6 form, not pictured. The braided flare 5 becomes interwoven with a second retaining element 7 on the holding element 6 fixed. In the second holding element 7 are also holes 8th through which a rinsing fluid 9 can flow on the support element 3 flows down and so pollutants from the support element 3 can rinse off. Due to the oblique arrangement of the support element 3 the rinsing liquid flows 9 from the support element 3 from. The holding and guiding device 1 may optionally be attached on both sides, wherein the types of attachment may be the same, similar or different.

2 shows in a plan view three different embodiments of the recesses 4 out 1 , The recesses 4 have inward elastic partial surfaces 20 on, wherein the shape, the surface portion and the number of inwardly projecting faces 20 varied. The recess 4 has an enveloping shape 21 on which of the cross-sectional projection of a line element 22 is adjusted. In the present case, the shape of the enveloping shape is a circle, which is a circular cross-sectional projection 22 the conduit elements selected here by way of example 2 equivalent. A conduit element 2 pierces the recesses 4 , wherein the elastic partial surfaces 20 be pushed out of the plane and the conduit element 2 hold in position under surface contact.

In 3 is the inclusion of a conduit element 2 through the recess 4 illustrated, wherein the conduit element performs a tilting movement. This tilting movement is shown in its middle, beginning and end positions in the three views. The elastic partial surfaces 20 have bent out of the plane and hold the conduit element 2 in position. Due to the elasticity of the material of the support element, the elastic partial surfaces 20 on the surface of the conduit element 2 pressed with a clamping force, wherein between the conduit element 2 and the elastic partial surfaces 20 a surface contact arises. During a movement of the conduit element 2 inside the recess 4 nestle the elastic faces 20 to the changing in position surface of the conduit element 2 on, with the relative movements of support element to line element 2 through the surface contact between the elastic partial surfaces 20 and the conduit element 2 be steamed.

4 shows a side view of a holding and guiding device according to the invention 25 made up of a sinuous support element 30 which exists in the 4 five line elements 2 , which are arranged crosswise, in its winding by bulges 31 has recorded. The support element 30 is also by a crimp 5 with retaining element 6 . 7 held.

5 shows in a side view a spiral support element 30 out 4 , The spiral support element 30 is shown in the form shown without flare. The pipe elements 2 , are crossed in the bulge formed by winding 31 taken, the turns of the wound support element 30 chosen so that the bulges formed by winding 31 exactly to the surface of the pipe elements 2 nestle. On the sides of the spiral support element 30 There is a non-tortuous part, which has several perpendicular to the edge slots or elongated openings 50 having. This part of the spiral support element 30 becomes under formation of a hemming 5 placed around a holding element and according to the in 7 explained mechanism intertwined.

6 shows in a second form of use the spiral support element 30 out 4 and 5 , which is in its winding bulges 31 parallel pipeline elements 2 has recorded. The winding of the spiral support element 30 can be chosen so that the strip edges 32 perpendicular to the winding axis 33 of spiral support element 30 are aligned and thus not the surface of the pipe elements 2 touch to form a point or line contact.

In 7 is a support element to illustrate the attachment mechanism 3 out 1 shown enlarged. For fastening the support element 3 becomes a flat section of the support element 3 , which with elongated openings or slots perpendicular to the edge 50 (please refer 5 and 6 ), forming a flange 5 , which is parallel to the edge of the support element 3 at the level of the middle of the elongated slots / openings 50 runs to a first holding element 6 placed. This creates an outer bead 55 and an inner bead 53 , A second holding element 7 is now through the openings 50 from the outer flange 55 on the side of the inner border 53 guided and through an adjacent opening 50 again on the outer bead 55 guided. This process will be according to the number of openings 50 repeated, so a number of loops 51 are formed, which are the holding element 6 mutually engage around the inner flanging edge and the outer flanged edge. Optionally, the second retaining element 7 be a hose, which with holes 8th is provided, from which rinse liquid 9 can escape to the support element 3 to wash.

In 8th becomes a support element 3 shown, which is an additional partial surface support element 60 and the faces 20 passing through the recess 61 protrude, to the surface of the conduit element 2 presses.

In 9 becomes a support element 3 shown, which of a support reinforcement element 70 will be carried. For clarification is in 9 a distance between the support element 3 and the supporting reinforcing member 70 located. In an actual embodiment, the support element lies 3 however, on the support reinforcement element 70 on, with the recesses 71 the support reinforcement element 70 with the enveloping forms 21 ( 2 ) are aligned. Between the cross-sectional projection of the pipe element 22 ( 2 ) and the recess 71 there remains an edge that makes it a conduit element 2 allowed, the movements, which in 3 be clarified, execute without the conduit element 2 the edge of the recess 71 touched and thus a point or line contact between line element 2 and support reinforcement element 70 arises.

In 10 is a support element 80 shown, which on a holding element 81 is raised. The tubular and thick-walled support element 80 has bulges on its sides 87 on, whose bulge shape of the shape of the cross-sectional projection 22 the line elements 2 is adjusted. The element 80 is thick walled. Due to the thick wall is achieved that the bulge 87 the conduit element 2 touched to form a surface contact. In 10 Furthermore, a further embodiment of a holding element is shown. The holding element 81 is independent of the support element 80 to see and can, as in 10 shown, also the holding element 6 and 7 of the 1 . 4 and 7 represent. The holding element 81 is in the 10 by two different holding element receiving devices 82 and 83 held. The holding element receiving devices off 10 can the retaining elements 6 . 7 . 81 and 94 out 12 combined or not combined. In a first embodiment of the holding element receiving device 82 becomes the retaining element 81 plugged into a holding element receiving device opening and bent down either before or with the holding element receiving device opening together and by a securing element 89 established. In a second embodiment, the retaining element 81 around a holding element receiving device 83 placed, with the inner radius of the retaining element 81 has a larger radius than the outer radius of the holding element receiving device 83 , By choosing the different radii, it is possible that the retaining element 81 Flexibility between two retainer receiving devices 82 and 83 or 83 and 83 having. In a special embodiment, the holding element 81 from a chemically inert protective material 85 which is a metal soul 84 having. At the ends of the retaining element 81 is the chemically inert protective material 85 a little longer than the metal soul 84 designed so that in the protective material 85 a plug made of the same or a similar material 86 can be used. The protective material 85 and the stopper 86 are gas-tight welded together so that the metal core is completely protected. Optionally, the support element 80 another flushing recess 88 have, thus, within the support element 80 accumulated immissions can be flushed out.

In 11 is a further embodiment of the holding and guiding device according to the invention 75 shown which the support element 80 out 10 in use. The individual support elements 80 are arranged parallel to each other and on mutually parallel holding elements 81 reared. The mutually parallel holding elements 81 are on the side by a holding element receiving device 82 held in the 11 through the fuse element 89 partly closed and partly half open. In 11 is the arrangement of the bulges of the support elements 80 chosen square. It is also possible that the bulges 87 a hexagonal, a square, a rectangle ge or have a non- or dissymmetrical arrangement.

In 12 is a support element 90 and a holding element 94 represented in a further embodiment of the holding and guiding device according to the invention in an exploded view. The tubular support element 90 is longitudinally slotted and has round bulges on its sides 91 on, wherein the tubular support element 90 can be produced by an extrusion technique known to those skilled in the art so that the slot edges 92 collide under a mechanical clamping action. The tubular support element 90 is on a holding element 94 drawn in the form of a double T-profile, wherein the slot edges 92 in the joints 93 engage the double-T profile under clamping action. The holding element 94 is in turn on more holding elements 6 . 7 or 81 reared by the retaining elements 6 . 7 or 81 through the openings 95 be guided. It is also possible that the retaining element 94 in his openings 95 Having fastening means, with the aid of the retaining element 94 attached to the sides of a flow channel. Comparable with the arrangement of the support element 80 in 11 become the support elements 90 used, wherein the support element 90 as well as support element 80 may have additional Spülausnehmungen in 12 are not shown, but analogous to the Spülausnehmungen 88 in 11 you can see. Likewise, the retaining element 94 a metal core, which gives the holding element a permanent deformability and shape.

In 13 is a section of a fourth embodiment of the holding and guiding device according to the invention 105 shown, with two different support elements 80 and 90 be used. The bulge in support element 80 is flat and encloses a conduit element 2 only partially. The support element 90 according to 12 is elastic and deforms under clamping action, with oval bulges 107 form out of the lower part of the figure 13 are recognizable. In 14 is the fourth embodiment of the holding and guiding device according to the invention 105 shown in a plan view, wherein in this holding and guiding device 105 two different support elements 80 and 90 be used. The elastic support element 90 deforms under clamping effect to form oval bulges 107 , which adhere to the surface of a conduit element 2 nestle. The bulges of the supporting elements 80 are so deep that the conduit elements 2 half of its circumference. In the holding and guiding device according to the invention 105 become the two support elements 80 . 90 on a holding element 81 mounted and by a fastening, as described in the previous figures, on a holding element receiving device 82 . 83 attached. The support element 80 has a Spülausnehmungen 118 on. Also the support element 90 can optionally have such Spülausnehmungen, but in 14 are not shown.

It be particularly noted that the support elements with flat Recess, wound with cross aligned bulges, convoluted with parallel aligned Bulges, convoluted with over Cross-aligned bulges with clamping element, wound with parallel aligned bulges with clamping element, tubular with shallow bulges, tubular with deep bulges, tubular slotted with shallow bulges, slotted tubular with deep Bulges, elastic tubular with indentation below Clamping load and the retaining elements hose with flushing holes, Simply round from chemically inert Material, simply round of chemically inert material with metal core and double T-profile with and without metal core, as well as the types of fastening Interweaving with flanged edge, Mounting, clamping, and the types of fastening of the holding elements under fuse in a holding element receiving device opening, placed around a holding element receiving device, different holding elements inserted into each other and also the flushing flushing hose as a holding element, flushing hose is taken parallel to line elements and self-purging by Condensate can be combined with each other, the skilled person this Combine combinations with other elements not disclosed here can.

In The exemplary illustrations are only partial aspects of mentioned above Details are shown, which are exemplary for the possible combinations.

1

holding and leadership facility

2

line element

3

support element

4

recesses

5

flare

6

first retaining element

7

second Holding element / rinsing hose

8th

drilling

9

rinse

20

elastic subarea

21

enveloping shape

22

Section projection a conduit element

25

holding and leadership facility

30

support element

31

bulge

32

strip edge

33

winding axis

50

Opening / slot

51

loop

53

internal beaded

55

outer beading

60

Subarea support element

61

recess

70

Supporting reinforcing element

71

recess

75

holding and leadership facility

80

support element

81

retaining element

82

Holding member Cradle

83

Holding member Cradle

84

metal core

85

shell

86

Plug

87

bulge

88

Spülausnehmung

89

fuse element

90

support element

91

bulge

92

slot edge

93

Gap

94

retaining element

95

opening

105

holding and leadership facility

107

elastic bulge

118

Spülausnehmung

Claims (29)

Holding and guiding device ( 1 . 25 . 75 . 105 ), in particular for heat exchanger elements in a highly corrosive environment, consisting of at least one support element fastened at least on one side ( 3 . 30 . 80 . 90 ), which has several recesses ( 4 ) and / or bulges ( 31 . 87 . 91 . 107 ) for receiving media-purged conduit elements ( 2 ), wherein the support element ( 3 . 30 . 80 . 90 ) the line elements ( 2 ) touched to form an elastically deformable surface contact, characterized in that the support element ( 3 ) is formed flat and recesses ( 4 ), wherein elastic partial surfaces ( 20 ) in the recess ( 4 ) and after receiving the line elements ( 2 ) from the plane of the support element ( 3 ) protrude. Holding and guiding device ( 1 . 25 . 75 . 105 ), in particular for heat exchanger elements in a highly corrosive environment, consisting of at least one support element fastened at least on one side ( 3 . 30 . 80 . 90 ), which has several recesses ( 4 ) and / or bulges ( 31 . 87 . 91 . 107 ) for receiving media-purged conduit elements ( 2 ), wherein the support element ( 3 . 30 . 80 . 90 ) the line elements ( 2 ) touched to form an elastically deformable surface contact, characterized in that the support element ( 30 ) spirally wound, wherein the line elements ( 2 ) in the bulges ( 31 ) einliegen. Holding and guiding device ( 1 . 25 . 75 . 105 ), in particular for heat exchanger elements in a highly corrosive environment, consisting of at least one support element fastened at least on one side ( 3 . 30 . 80 . 90 ), which has several recesses ( 4 ) and / or bulges ( 31 . 87 . 91 . 107 ) for receiving media-purged conduit elements ( 2 ), wherein the support element ( 3 . 30 . 80 . 90 ) the line elements ( 2 ) touched to form an elastically deformable surface contact, characterized in that the support element ( 80 . 90 ) is tubular and bulges on the sides ( 87 . 91 . 107 ) for receiving the line elements ( 2 ) having. Holding and guiding device according to one of claims 1 to 3, characterized in that the supporting element ( 3 . 30 . 80 . 90 ) under contact with the line elements ( 2 ) has at least one curved surface which adjoins the surface of the conduit element ( 2 ) clings. Holding and guiding device according to one of claims 1 to 4, characterized in that the supporting element ( 3 . 30 . 80 . 90 ) alone or in conjunction with at least one further supporting element ( 3 . 30 . 80 . 90 ) the line elements ( 2 ) receives over the surface contact by force clamping. Holding and guiding device according to one of claims 1 to 5, characterized in that the supporting element ( 3 . 30 . 80 . 90 ) consists at least partially of a polyfluorinated polymeric material. Holding and guiding device according to one of claims 1 to 6, characterized in that the supporting element ( 3 . 30 . 80 . 90 ) at least one holding element for attachment to a holding element receiving device ( 82 . 83 ), which the support elements ( 3 . 30 . 80 . 90 ) connects to each other. Holding and guiding device according to claim 1, characterized in that the recesses ( 4 ) in a hexagonal, a square or in a rectangular arrangement in the support element ( 3 ) are arranged. Holding and guiding device according to one of claims 1 or 8, characterized in that a plurality of similar support elements ( 3 ) with aligned recesses ( 4 ) are spaced from each other. Holding and guiding device according to one of claims 1, 8 or 9, characterized in that the recesses ( 4 ) partially after internally dented partial surfaces ( 20 ) and the enveloping shape ( 21 ) of the recesses ( 4 ) of the cross-sectional projection of the line elements ( 22 ), where between the enveloping shape ( 21 ) and the cross-sectional projection ( 22 ) remains a distance which an approximate width of the wall thickness of the at least one flat support element ( 3 ) and the inwardly bulging partial surfaces ( 20 ) when receiving the line elements ( 2 ) form a discontinuous neck and attach themselves to the surface of the conduit elements ( 2 ) cling. Holding and guiding device according to one of claims 1 or 8 to 10, characterized in that parallel to the flat support element ( 3 ) a further planar partial surface support element ( 60 ) of at least partially chemically inert material is present, which recesses ( 61 ), which with the recesses ( 4 ) of the planar support element ( 3 ) and which have a shape which corresponds to the cross-sectional projection of the line elements ( 22 ), wherein between the cross-sectional projection of the line elements ( 22 ) and the recess ( 61 ) remains a distance which is approximately the wall thickness of the material of the flat support element ( 3 ) and wherein when receiving a line element ( 2 ) the elastic partial surfaces ( 20 ) through the recess ( 61 ) of the surface support element ( 60 ) and the edge of the recess ( 61 ) of the Teilflächenstützefements ( 60 ) the partial surfaces ( 20 ) to the surface of the conduit element ( 2 ) presses. Holding and guiding device according to one of claims 1 or 8 to 11, characterized in that the supporting element ( 3 ) a support reinforcement element ( 70 ) having. Holding and guiding device according to claim 2, characterized in that the coiled supporting element ( 30 ), although firm, but is elastic. Holding and guiding device according to one of claims 2 or 13, characterized in that a further, strip-shaped clamping element, which parallel to the winding axis ( 33 ) of the spiral support element ( 30 ) is present, and the line elements ( 2 ) in the bulge ( 31 ) jammed. Holding and guiding device according to one of claims 2 or 13 to 14, characterized in that the coiled supporting element ( 30 ) is a plastically twisted strip in which the turn is chosen so that the strip edges ( 32 ) perpendicular to the winding axis ( 33 ) and the rounding of the protrusions (FIG. 31 ), which arise by two adjacent turns, the cross-sectional projection of the line elements ( 22 ) corresponds. Holding and guiding device according to claim 3, characterized in that the supporting element ( 80 . 90 ) on a holding element ( 6 . 7 . 81 . 94 ) is mounted or clamped. Holding and guiding device according to one of claims 3 or 16, characterized in that the holding element ( 94 ) Openings ( 95 ), which further holding elements ( 6 . 7 . 81 ) and / or by which the holding element ( 94 ) on a holding element receiving device ( 82 . 83 ) is attached. Holding and guiding device according to one of claims 3 or 16 to 17, characterized in that the supporting element ( 90 ) is longitudinally slotted, wherein the slot edges ( 92 ) in the joints ( 93 ) of a holding element ( 94 ) attacks. Holding and guiding device according to one of claims 3 or 16 to 18, characterized in that the supporting element ( 80 . 90 ) one or more rinsing openings ( 88 . 118 ), which are perpendicular to the support element axis and perpendicular to the direction of the bulges ( 87 . 91 . 107 ) point. Holding and guiding device according to one of claims 3 or 16 to 19, characterized in that the supporting element ( 80 . 90 ) has mechanical stresses in the circumference, which in longitudinal slit of the support element ( 90 ) lead to circumferential contraction. Holding and guiding device according to one of claims 1 to 20, characterized in that the at least one support element ( 3 . 30 . 80 . 90 ) obliquely to the longitudinal axis of the line elements ( 2 ) is arranged. Holding and guiding device according to one of claims 1 to 21, characterized in that the supporting element ( 3 . 30 ) at least one end to the edge perpendicular and closed to the edge elongated openings ( 50 ), which are used to support the support ( 30 ) to form a bead ( 5 ), which parallel to the edge of the support element at the level of the center of the openings ( 50 ) extends to a first holding element ( 6 ) and the outer bead ( 55 ) to connect to the remaining surface of the support element by a second holding element ( 7 ) alternately from the outer side of the outer flanged edge ( 55 ) by superimposed openings ( 50 ) on the outer side of the inner border ( 53 ) and by further adjacent one above the other placed openings ( 50 ) again on the outer side of the outer Bördelrands ( 55 ), wherein the second holding element ( 7 ) within the crimping ( 5 ), the opening ( 50 ) and the second holding element ( 7 ) formed closed loops ( 51 ) runs. Holding and guiding device according to claim 22, characterized in that the second holding element ( 7 ) a hose with side holes ( 8th ) is, by which rinsing liquid ( 9 ) and out of the holes ( 8th ) exits to the support elements ( 3 ) of the holding and guiding device ( 25 ) to wash. Holding and guiding device according to one of claims 1 to 23, characterized in that this at least one hose with lateral bores ( 8th ), through which rinsing liquid ( 9 ) and out of the holes ( 8th ) exits to the support elements ( 3 . 30 . 80 . 90 ) of the holding and guiding device ( 1 . 25 . 75 . 105 ) to wash. Holding and guiding device according to one of claims 7 to 24, characterized in that the holding element ( 6 . 7 . 81 . 94 ) in a holding element receiving device ( 82 ) and by security elements ( 89 ) is determinable. Holding and guiding device according to one of claims 7 to 25, characterized in that the retaining element ( 6 . 7 . 81 . 94 ) about a holding element receiving device ( 83 ), wherein the retaining element ( 6 . 7 . 81 . 91 . 94 ) forms a hook under permanent deformation. Holding and guiding device according to claim 26, characterized in that the inner radius of the hook formed as a holding element ( 6 . 7 . 81 . 94 ) is greater than the outer radius of the holding element receiving device ( 83 ). Holding and guiding device according to one of claims 5 to 27, characterized in that the retaining element ( 6 . 7 . 81 . 94 ) consists of chemically inert material and a metal core ( 84 ), which the retaining element ( 6 . 7 . 81 . 91 . 94 ) gives a permanent deformability. Holding and guiding device according to claim 28, characterized in that the retaining element ( 6 . 7 . 81 . 94 ) at the ends longer than the metal core ( 84 ) is formed and that the holding element ( 6 . 7 . 81 . 94 ) through a plug ( 86 ), which is in the chemically inert protective material ( 85 ) of the holding device ( 6 . 7 . 81 . 94 ) and is weldable with this.