EP2762822A1 - Heat exchanger element and heat exchanger assembly - Google Patents

Heat exchanger element and heat exchanger assembly Download PDF

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Publication number
EP2762822A1
EP2762822A1 EP20130153690 EP13153690A EP2762822A1 EP 2762822 A1 EP2762822 A1 EP 2762822A1 EP 20130153690 EP20130153690 EP 20130153690 EP 13153690 A EP13153690 A EP 13153690A EP 2762822 A1 EP2762822 A1 EP 2762822A1
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EP
European Patent Office
Prior art keywords
heat exchanger
tube
elements
jacket tube
exchanger element
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP20130153690
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German (de)
French (fr)
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EP2762822B1 (en
Inventor
Josef Finnah
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
MK-PROZESSTECHNIK GMBH
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Finnah Prozess- und Verpackungstechnik GmbH
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Priority to EP13153690.6A priority Critical patent/EP2762822B1/en
Publication of EP2762822A1 publication Critical patent/EP2762822A1/en
Application granted granted Critical
Publication of EP2762822B1 publication Critical patent/EP2762822B1/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28DHEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
    • F28D7/00Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall
    • F28D7/10Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits being arranged one within the other, e.g. concentrically
    • F28D7/106Heat-exchange apparatus having stationary tubular conduit assemblies for both heat-exchange media, the media being in contact with different sides of a conduit wall the conduits being arranged one within the other, e.g. concentrically consisting of two coaxial conduits or modules of two coaxial conduits

Definitions

  • the invention relates to a heat exchanger element with a jacket tube and an inner tube, wherein the jacket tube and the inner tube provide two fluidically separate channels.
  • the invention also relates to a heat exchanger arrangement.
  • Heat exchanger elements of the generic type are known from the prior art. These are devices which effect an indirect heat exchange between two fluids flowing through the two fluidically separated channels.
  • a first channel is formed between the jacket tube and the inner tube.
  • a second channel is formed in the inner tube. The two channels are fluidly separated by the inner tube wall.
  • Generic heat exchanger elements are used for example in the food industry.
  • the pasteurization of milk should be mentioned.
  • milk is passed through the inner tube and on the other hand, a heat exchange medium, such as water, through the channel formed between the jacket tube and the inner tube.
  • the individual heat exchanger elements are fluidically linked to one another by suitable connecting means. It has been found that the guidance of the heat exchange medium in a heat exchanger arrangement, in particular in the region of the connection points between the individual heat exchanger elements is critical insofar as it comes to large temperature fluctuations and thereby thermal stresses and possibly stress cracks in the components used.
  • the inflow and outflow of the inner tube are formed on longitudinally opposite end faces of the heat exchanger element, and that the inflow and outflow of the tubular casing are formed as openings spaced apart from one another in the longitudinal direction of the heat exchanger element in the lateral surface of the casing tube are.
  • the heat exchanger element is limited to the outside by the jacket tube providing a lateral surface on the one hand and on the other hand with respect to the lateral surface serving as base surfaces end sides.
  • the inflow or outflow is a fluidic access to the inner tube or casing tube.
  • the inflow and outflow of the inner tube are formed in the region of the end faces of the heat exchanger element.
  • the end faces extend radially to the longitudinal axis of the heat exchanger element.
  • the inflow and outflow of the jacket tube that is, the channel formed between the inner surface of the jacket tube on the one hand and the outer surface of the inner tube on the other hand, formed in the lateral surface of the jacket tube.
  • Openings are formed as openings in the lateral surface. Opening means a through-hole, a recess, a breakthrough or the like in the pipe wall of the jacket tube. Opening means that the casing tube lacks material at these points.
  • the openings are preferably formed material removal in otherwise uniform tubular casing. In the area of an opening no material is added to the jacket tube.
  • the jacket tube preferably has one and the same basic cross section over its entire longitudinal extent. Only the areas in which the openings are formed in the lateral surface, have an alternative cross-section.
  • the jacket tube In a projection of the jacket tube in plan view of an end face, the jacket tube always has the basic cross-section, i. the cross section of a not lying in the region of an opening cross-sectional plane of the jacket tube.
  • the alternative cross section thus in no case projects beyond the basic cross section in the radial direction with respect to the longitudinal axis of the heat exchanger element.
  • the alternative cross section lies completely within the basic cross section.
  • the basic cross section defines the maximum contour of the alternative cross section.
  • the openings are formed solely by omitting material of the tube wall of the jacket tube, but not by adding material.
  • the heat exchanger element according to the invention can be pushed through a through hole, which through hole has a corresponding to the basic cross section of the jacket tube inner cross section.
  • the heat exchanger element according to the invention allows insertion into a connecting tube, wherein in the openings of the lateral surface of the jacket tube is then completely within the connecting tube. A fluid passed through the connecting tube can then flow through the opening into the channel of the heat exchanger element formed between the jacket tube and the inner tube.
  • the advantage of the heat exchanger element according to the invention is therefore in a particularly simple way to assemble this when used in a heat exchanger assembly, namely by mere insertion into a corresponding counterpart. With reaching an end position then a fluidic connection between the jacket tube and the counterpart is already made.
  • By the direct insertion of the heat exchanger element in a through hole of a connecting pipe can be dispensed with additional connecting means, which could tend to stress cracks during operation of a heat exchanger assembly due to thermal stresses.
  • the inflow and outflow of the jacket tube are opposite each other in the radial direction of the heat exchanger element.
  • a horizontally oriented heat exchanger element can thus be provided that the inflow of the jacket tube from above and the outflow of the jacket tube takes place below. In this way, for example, a flow through the heat exchanger element solely by gravity effect on the flowing in the channel between the jacket tube and the inner tube fluid.
  • the openings are formed by material removal in the jacket tube.
  • a basic body for the jacket tube to be produced for example, a commercially available and equipped with a continuous tube wall pipe can be used.
  • the openings can then be formed by material removal in this tube.
  • the openings may be milled or drilled in the pipe. It is crucial that the openings in the jacket tube are formed only by a removal of material compared to a continuous tube, but not by adding material.
  • At least one further inner tube is provided, wherein the inner tubes are arranged as a tube bundle.
  • a heat exchanger element is a shell-and-tube heat exchanger.
  • the jacket tube is circular in cross section.
  • the jacket tube is preferably designed as a circular cylinder.
  • the circular cross section has the advantage that the loads occurring during operation of the heat exchanger element are ideally distributed to the surface of the jacket tube by pressures, thermal stresses and / or the like.
  • the or the inner tube (s) may be circular in cross-section.
  • the object is achieved in that a plurality of heat exchanger elements described above is used.
  • the heat exchanger elements of a heat exchanger arrangement are coupled together.
  • the outflow of the inner tube of a first heat exchanger element can be connected to the inflow of the inner tube of a second, downstream heat exchanger element.
  • the outflow of the jacket tube of a first heat exchanger element can be connected to the inflow of the jacket tube of a second, downstream heat exchanger element.
  • Connecting elements such as pipe sections, hoses and / or the like serve the fluidic connection of the individual heat exchanger elements.
  • the heat exchanger arrangement has two connecting tubes, which extend transversely to the heat exchanger elements and are each fluidically connected to one of the openings in the lateral surface of each of the heat exchanger elements.
  • the connecting tubes may be circular in cross section.
  • the connecting pipes are preferably cylindrical.
  • the connecting pipes are at least partially hollow. They have a serving as a flow channel interior.
  • the interior of each connecting tube is connected to one of the openings in the lateral surface of the heat exchanger elements. This means that there is a fluidic connection between the interior of the connecting tube and the channel of the heat exchanger element formed between the jacket tube and the inner tube.
  • two heat exchanger elements can be fluidly connected with each other.
  • the formed between the jacket tube and inner tube channel of a first Heat exchanger element is connected through the openings in the lateral surface with the interior of the connecting tube. This in turn is connected via the opening in the lateral surface of the other heat exchanger element with its channel formed between the jacket tube and the inner tube.
  • the heat exchanger elements can be aligned parallel to one another.
  • the connecting pipes and the heat exchanger elements form a grid.
  • the advantage of a heat exchanger arrangement according to the invention consists in a particularly simple installation.
  • the individual heat exchanger elements need only be connected to the connecting pipes. This makes it possible to produce a heat exchanger arrangement with the reason of any size.
  • the heat exchanger assembly according to the invention is also particularly stable, since only in cross-section circular components can be used. These have the advantage already described above that the pressures and loads occurring during operation, in particular by thermal stresses, can be optimally absorbed by the components.
  • the heat exchanger assembly according to the invention can be produced according to the modular principle. There is a system with a variety of heat exchanger elements and connecting pipes available, all components can be combined with each other on the modular principle. It is also possible to couple several units each consisting of two connecting tubes and a multiplicity of heat exchanger elements to one another. For each application, an optimal heat exchanger assembly can be formed.
  • the connecting tubes on radial through holes, in which through holes, the heat exchanger elements are inserted preferably corresponds to the basic cross section of the heat exchanger elements.
  • the mutually corresponding cross-sections ensure that the transition region between the connecting tubes and the heat exchanger elements by itself is already sufficiently leakproof against the escape of fluids conducted in the heat exchanger.
  • additional measures such as seals, cohesive connections and / or The like can be provided to make the connection even denser.
  • the advantage of this development is, in particular, the very simple possibility for mounting the heat exchanger arrangement.
  • the individual heat exchanger elements need only be inserted into the through holes of the connecting pipes.
  • no further measures for connecting the connecting pipes to the heat exchanger elements are required.
  • the connecting tubes are formed from individual tube elements which can be joined together in the longitudinal direction.
  • the connecting pipes can be modular. Depending on the required number of heat exchanger elements, a corresponding number of pipe elements can be joined together, so as to create a total of a connecting pipe.
  • the installation is very simple, since the individual connecting pipes, for example, only have to be inserted into one another.
  • the tube elements of a connecting tube are held together with a clamping means. It can be provided that the individual pipe elements are merely inserted into one another. The secure cohesion is then produced by the clamping device.
  • the clamping means serves to form a tensile force which holds together the respective outer elements of a connecting tube.
  • the tensioning means may be a threaded rod. The threaded rod is fixed in the region of the respective outer tube elements of a connecting tube with nuts. By tightening the nuts, the force acting in the threaded rod tensile force can be increased to the pipe elements.
  • the inflow of the inner tube of the one heat exchanger element is fluidically connected to the outflow of the inner tube of the other heat exchanger element.
  • the channels of the inner tubes can be connected in series serially in this way.
  • Such a heat exchanger arrangement comprises, on the one hand, a multiplicity of channels connected in series between the jacket tube and the inner tube and, on the other hand, a series connection of the fluidic channels of the inner tubes of the heat exchanger elements.
  • the effective transmission path of the heat exchanger assembly can be set arbitrarily in this way.
  • suitable bonding agents It can be used, for example, U-shaped tube elements.
  • FIG. 1 shows an embodiment of a heat exchanger assembly 10 according to the invention. This has a plurality of heat exchanger elements 1.
  • the heat exchanger elements 1 are aligned parallel to one another.
  • the Heat exchanger elements 1 are each connected at the end to connecting tubes 11.
  • the two connecting pipes 11 extend at right angles to the heat exchanger elements 1.
  • FIG. 2 schematically shows an embodiment of a heat exchanger element according to the invention 1.
  • This has a jacket tube 2 and inside the jacket tube 2 located inner tubes 3.
  • the jacket tube 2 is circular in cross section.
  • the jacket tube 1 has a lateral surface and two serving as end faces 5 base surfaces.
  • the inner tube 3 has at the two end faces 5 an inlet or outlet.
  • the inner tube 3 can be traversed in a straight line in the longitudinal direction 6 of the heat exchanger element 1.
  • the openings 7 are formed in the casing tube 2.
  • the openings 7 are spaced from each other in the longitudinal direction 6.
  • the openings 7 are also opposite to each other with respect to the radial direction 9 of the heat exchanger element 1.
  • the openings 7 represent the inlet or the outlet of a formed between the casing tube 2 and the inner tube 3 flow channel.
  • the jacket tube 2 has a diameter 8.
  • the diameter 8 is constant over the entire longitudinal extent of the jacket tube 2. Only in the region of the openings 7, the jacket tube 2 is interrupted in its otherwise circular base cross-section.
  • the openings 7 are characterized in that they are formed exclusively by omitting material. This means that the diameter 8 is never greater in the region of the openings 7 than the diameter 8 of the other regions of the jacket tube 2.
  • flanges 4 can be attached.
  • the flanges 4 can be materially connected to the jacket tube 2 and / or the inner tube 3.
  • the flanges 4 serve to connect the heat exchanger element 1 to other components of the heat exchanger arrangement 10.
  • FIGS. 3 to 10 It is clear that the heat exchanger elements 1 in a simple manner in through holes 19 of the Connecting pipes 11 can be inserted. Subsequently, the flanges 4 can be arranged on the end faces 5 of the heat exchanger elements 1.
  • the inner tubes 3 of the individual heat exchanger elements 1 can be fluidly connected to one another, for example, by using pipe connectors 15. In this way, the inner tubes 3 of the individual heat exchanger elements 1 can be connected in series.
  • the connecting tubes 11 consist of individual, mutually connectable tube elements 12.
  • the connecting tubes 11 can be formed by any number of tubular elements 12 in any length.
  • the connecting pipes 11 are hollow inside.
  • the heat exchanger elements 1 are inserted into the connecting tubes 11 in such a way that the openings 7 in the jacket tube 2 are arranged completely inside the respective connecting tube 11. This follows, for example, from the presentation FIG. 4 out.
  • the hollow interior of the connecting pipes 11 thus provides for a fluidic connection between two heat exchanger elements 1, namely the ducts of the two heat exchanger elements 1 formed between the jacket pipe 2 and the inner pipe 3. In this way, a fluid, for example the heat exchanger medium, from a heat exchanger element 1 next stream.
  • the flow channels provided by the inner tubes 3 of the heat exchanger element 1 are separated from the channel between the jacket tube 2 and the inner tube 3.
  • the process medium for example, to be pasteurized milk
  • the inner tubes 3 are accessible in the region of the flanges 4.
  • Each adjacent heat exchanger elements 1 can be fluidly connected to each other by means of a pipe connector 15.
  • the pipe connector 15 has two flanges 18.
  • the flanges 18 can be connected to the respective flanges 4 of the heat exchanger elements 1.
  • a heat exchanger assembly 10 is provided, in which on the one hand the respectively formed between the jacket tube 2 and the inner tube 3 channels of the heat exchanger elements 1 are connected in series and on the other hand, the inner tubes 3 of the corresponding heat exchanger elements 1 are also connected in series with each other. In this way, heat exchanger assemblies 10 in of any dimension, ie of any capacity.
  • the connecting tubes 11, or the respective outer tube elements 12, can be closed in a fluid-tight manner by means of covers 14.
  • the individual tube elements 12 can be connected to each other by means of threaded rods 13 and nuts 25.
  • the respective outer tubular elements 12 a flange 24 through which the threaded rod 13 is guided and which serves as an abutment.
  • the connecting pipes 11 may have flanges 22. At these flanges 22, the inlets or outlets can be applied to the heat exchanger assembly 10 to be flowed through media.
  • the entire heat exchanger assembly 10 can be arranged on a frame 17.
  • a mounting plate 23 may be provided, on which the connecting pipes 11 and optionally other components can be mounted.
  • FIG. 6 shows the connection of two tubular elements 12 of a connecting tube 11.
  • the two tube elements 12 are arranged with the interposition of a non-illustrated in the figures seal assembly together.
  • This seal arrangement can be, for example, a flat gasket which is arranged between flanges 20, 21 of adjacent tube elements 12.
  • the sealing arrangement between the flanges 20 and 21 of adjacent tube elements 12 is compressed, so that an exchange medium-side seal is ensured.
  • a deflecting element 16 may be provided. This deflects the fluid flow flowing perpendicularly through the connecting pipe 11 by 90 degrees.
  • a corresponding outflow for example in the form of a hose, can be arranged.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)

Abstract

The heat exchanger element has a casing tube (2) and an inner tube (3), in which two flow-channels separated from one another are provided, where inflow and outflow of the inner tube are formed on each other in longitudinal direction (6) opposite end sides of the heat exchanger element. The inflow and outflow of the casing tube are formed as openings (7) in the outer surface of the casing tube in the longitudinal direction of the heat exchanger element. An independent claim is included for a heat exchanger assembly.

Description

Die Erfindung betrifft ein Wärmetauscherelement mit einem Mantelrohr und einem Innenrohr, wobei das Mantelrohr und das Innenrohr zwei strömungstechnisch voneinander getrennte Kanäle bereitstellen. Die Erfindung betrifft zudem eine Wärmetauscheranordnung.The invention relates to a heat exchanger element with a jacket tube and an inner tube, wherein the jacket tube and the inner tube provide two fluidically separate channels. The invention also relates to a heat exchanger arrangement.

Wärmetauscherelemente der gattungsgemäßen Art sind aus dem Stand der Technik bekannt. Es handelt sich hierbei um Vorrichtungen, welche einen indirekten Wärmeaustausch zwischen zwei durch die beiden strömungstechnisch voneinander getrennten Kanäle strömenden Fluiden bewirken. Ein erster Kanal ist zwischen dem Mantelrohr und dem Innenrohr ausgebildet. Ein zweiter Kanal ist im Innenrohr ausgebildet. Die beiden Kanäle sind strömungstechnisch durch die Innenrohrwand voneinander getrennt.Heat exchanger elements of the generic type are known from the prior art. These are devices which effect an indirect heat exchange between two fluids flowing through the two fluidically separated channels. A first channel is formed between the jacket tube and the inner tube. A second channel is formed in the inner tube. The two channels are fluidly separated by the inner tube wall.

Gattungsgemäße Wärmetauscherelemente werden beispielsweise in der Lebensmittelindustrie eingesetzt. Als Anwendungsfall ist die Pasteurisierung von Milch zu nennen. Bei einem solchen Verfahren wird einerseits Milch durch das Innenrohr geführt und andererseits ein Wärmetauschmedium, wie beispielsweise Wasser, durch den zwischen dem Mantelrohr und dem Innenrohr ausgebildeten Kanal.Generic heat exchanger elements are used for example in the food industry. As an application, the pasteurization of milk should be mentioned. In such a method, on the one hand milk is passed through the inner tube and on the other hand, a heat exchange medium, such as water, through the channel formed between the jacket tube and the inner tube.

Aus dem Stand der Technik ist es ebenso bekannt, aus mehreren Wärmetauscherelementen eine Wärmetauscheranordnung zu bilden. Durch eine geeignete Zusammenschaltung mehrerer Wärmetauscherelemente kann eine gewünschte Behandlungsintensität, das heißt ein gewünschtes Maß an Wärmeaustausch, realisiert werden.From the prior art, it is also known to form a plurality of heat exchanger elements, a heat exchanger assembly. By suitable interconnection of a plurality of heat exchanger elements, a desired treatment intensity, that is to say a desired degree of heat exchange, can be realized.

Die einzelnen Wärmetauscherelemente werden durch geeignete Verbindungsmittel strömungstechnisch miteinander verknüpft. Es hat sich herausgestellt, dass die Führung des Wärmeaustauschmediums in einer Wärmetauscheranordnung insbesondere im Bereich der Verbindungsstellen zwischen den einzelnen Wärmetauscherelementen insofern kritisch ist, als es zu großen Temperaturschwankungen kommt und dadurch Wärmespannungen und gegebenenfalls Spannungsrisse in den verwendeten Bauteilen auftreten.The individual heat exchanger elements are fluidically linked to one another by suitable connecting means. It has been found that the guidance of the heat exchange medium in a heat exchanger arrangement, in particular in the region of the connection points between the individual heat exchanger elements is critical insofar as it comes to large temperature fluctuations and thereby thermal stresses and possibly stress cracks in the components used.

Es ist daher die Aufgabe der vorliegenden Erfindung ein Wärmetauscherelement sowie eine daraus gebildete Wärmetauscheranordnung anzugeben, welche den vorstehend genannten Nachteilen entgegenwirkt und zudem Verbesserungen hinsichtlich der Montage mit sich bringt.It is therefore an object of the present invention to provide a heat exchanger element and a heat exchanger assembly formed therefrom, which counteracts the disadvantages mentioned above and also brings improvements in terms of assembly with it.

Zur Lösung wird hinsichtlich des Wärmetauscherelements vorgeschlagen, dass der Zufluss und der Abfluss des Innenrohrs an einander in Längsrichtung gegenüberliegenden Stirnseiten des Wärmetauscherelements ausgebildet sind, und dass der Zufluss und der Abfluss des Mantelrohrs als voneinander in Längsrichtung des Wärmetauscherelements beabstandete Öffnungen in der Mantelfläche des Mantelrohrs ausgebildet sind.With regard to the heat exchanger element, it is proposed that the inflow and outflow of the inner tube are formed on longitudinally opposite end faces of the heat exchanger element, and that the inflow and outflow of the tubular casing are formed as openings spaced apart from one another in the longitudinal direction of the heat exchanger element in the lateral surface of the casing tube are.

Das Wärmetauscherelement ist nach außen durch das eine Mantelfläche bereitstellende Mantelrohr einerseits und mit Bezug auf die Mantelfläche als Grundflächen dienende Stirnseiten andererseits begrenzt. Bei dem Zufluss beziehungsweise Abfluss handelt es sich um einen strömungstechnischen Zugang zu dem Innenrohr beziehungsweise Mantelrohr. Der Zufluss und der Abfluss des Innenrohrs sind im Bereich der Stirnseiten des Wärmetauscherelements ausgebildet. Die Stirnseiten erstrecken sich radial zur Längsachse des Wärmetauscherelements. Durch die Ausbildung des Zufluss und des Abfluss an den beiden Stirnseiten des Wärmetauscherelements kann das Innenrohr über seine gesamte Länge geradlinig durchströmt werden. Ein durch das Innenrohr strömendes Fluid wird nicht umgelenkt, auch nicht im Bereich des Zufluss und des Abfluss.The heat exchanger element is limited to the outside by the jacket tube providing a lateral surface on the one hand and on the other hand with respect to the lateral surface serving as base surfaces end sides. The inflow or outflow is a fluidic access to the inner tube or casing tube. The inflow and outflow of the inner tube are formed in the region of the end faces of the heat exchanger element. The end faces extend radially to the longitudinal axis of the heat exchanger element. Through the formation of the inflow and outflow at the two end faces of the heat exchanger element, the inner tube can be traversed in a straight line over its entire length. A flowing through the inner tube fluid is not deflected, not even in the area of the inflow and outflow.

Im Gegensatz dazu ist der Zufluss und der Abfluss des Mantelrohrs, das heißt des zwischen der Innenoberfläche des Mantelrohrs einerseits und der Außenoberfläche des Innenrohrs andererseits ausgebildeten Kanals, in der Mantelfläche des Mantelrohrs ausgebildet. Dies bedeutet, dass das ansonsten ebenfalls in Längsrichtung durch das Wärmetauscherelement strömende Fluid beim Zufluss und Abfluss, insbesondere um 90 Grad, umgelenkt wirkt.In contrast, the inflow and outflow of the jacket tube, that is, the channel formed between the inner surface of the jacket tube on the one hand and the outer surface of the inner tube on the other hand, formed in the lateral surface of the jacket tube. This means that otherwise also in the longitudinal direction by the Heat exchanger element flowing fluid at inflow and outflow, in particular by 90 degrees, deflected acts.

Der Zufluss und der Abfluss des Mantelrohrs sind als Öffnungen in der Mantelfläche ausgebildet. Öffnung meint eine Durchbohrung, eine Ausnehmung, einen Durchbruch oder dergleichen in der Rohrwand des Mantelrohrs. Öffnung meint, dass dem Mantelrohr an diesen Stellen Material fehlt. Die Öffnungen sind vorzugsweise materialabtragend im ansonsten gleichförmigen Mantelrohr ausgebildet. Im Bereich einer Öffnung ist dem Mantelrohr kein Material hinzugefügt.The inflow and outflow of the jacket tube are formed as openings in the lateral surface. Opening means a through-hole, a recess, a breakthrough or the like in the pipe wall of the jacket tube. Opening means that the casing tube lacks material at these points. The openings are preferably formed material removal in otherwise uniform tubular casing. In the area of an opening no material is added to the jacket tube.

Bevorzugt weist das Mantelrohr über seine gesamte Längserstreckung ein und denselben Grundquerschnitt auf. Nur die Bereiche, in welchen die Öffnungen in der Mantelfläche ausgebildet sind, weisen einen Alternativquerschnitt auf. Bei einer Projektion des Mantelrohrs in Draufsicht auf eine Stirnseite weist das Mantelrohr immer den Grundquerschnitt auf, d.h. den Querschnitt einer nicht im Bereich einer Öffnung liegenden Querschnittsebene des Mantelrohrs. Der Alternativquerschnitt überragt also bei einer solchen Projektion in keinem Fall den Grundquerschnitt in radialer Richtung mit Bezug auf die Längsachse des Wärmetauscherelements. Der Alternativquerschnitt liegt vollständig innerhalb des Grundquerschnitts. Der Grundquerschnitt definiert die maximale Kontur des Alternativquerschnitts. Die Öffnungen sind ausschließlich durch ein Weglassen von Material der Rohrwand des Mantelrohrs, nicht jedoch durch ein Hinzufügen von Material gebildet.The jacket tube preferably has one and the same basic cross section over its entire longitudinal extent. Only the areas in which the openings are formed in the lateral surface, have an alternative cross-section. In a projection of the jacket tube in plan view of an end face, the jacket tube always has the basic cross-section, i. the cross section of a not lying in the region of an opening cross-sectional plane of the jacket tube. In such a projection, the alternative cross section thus in no case projects beyond the basic cross section in the radial direction with respect to the longitudinal axis of the heat exchanger element. The alternative cross section lies completely within the basic cross section. The basic cross section defines the maximum contour of the alternative cross section. The openings are formed solely by omitting material of the tube wall of the jacket tube, but not by adding material.

Aufgrund dieser Ausbildung kann das erfindungsgemäße Wärmetauscherelement durch ein Durchgangsloch hindurch geschoben werden, welches Durchgangsloch einen zum Grundquerschnitt des Mantelrohrs korrespondierenden Innenquerschnitt aufweist. Wie anhand der erfindungsgemäßen Wärmetauscheranordnung noch aufgezeigt werden wird, ermöglicht das erfindungsgemäße Wärmetauscherelement einen Einschub in ein Verbindungsrohr, wobei in die Öffnungen der Mantelfläche des Mantelrohrs dann vollständig innerhalb des Verbindungsrohrs liegt. Ein durch das Verbindungsrohr geleitetes Fluid kann dann durch die Öffnung in den zwischen dem Mantelrohr und dem Innenrohr gebildeten Kanal des Wärmetauscherelements strömen. Gleichzeitig bewirken der Querschnitt des Durchgangslochs des Verbindungsrohrs einerseits und der Grundquerschnitt des Mantelrohrs andererseits, dass zwischen dem Verbindungsrohr und dem Mantelrohr eine Art Passung ausgebildet werden kann, sodass diese Verbindung dicht ist und dort kein Fluid austreten kann.Because of this design, the heat exchanger element according to the invention can be pushed through a through hole, which through hole has a corresponding to the basic cross section of the jacket tube inner cross section. As will be shown with reference to the heat exchanger assembly according to the invention, the heat exchanger element according to the invention allows insertion into a connecting tube, wherein in the openings of the lateral surface of the jacket tube is then completely within the connecting tube. A fluid passed through the connecting tube can then flow through the opening into the channel of the heat exchanger element formed between the jacket tube and the inner tube. At the same time, the cross section of the through hole of the connecting pipe on the one hand and the base cross section of the jacket pipe on the other hand, that between the connecting pipe and the jacket tube a kind of fit can be formed, so that this connection is tight and no fluid can escape there.

Der Vorteil des erfindungsgemäßen Wärmetauscherelements besteht daher in einer besonders einfachen Möglichkeit, dieses beim Einsatz in einer Wärmetauscheranordnung zu montieren, nämlich durch bloßes Einschieben in ein entsprechendes Gegenstück. Mit Erreichen einer Endlage ist dann bereits eine fluidtechnische Verbindung zwischen dem Mantelrohr und dem Gegenstück hergestellt. Durch das direkte Einschieben des Wärmetauscherelements in ein Durchgangsloch eines Verbindungsrohrs kann zudem auf zusätzliche Verbindungsmittel verzichtet werden, welche beim Betrieb einer Wärmetauscheranordnung aufgrund von Wärmespannungen zu Spannungsrissen neigen könnten.The advantage of the heat exchanger element according to the invention is therefore in a particularly simple way to assemble this when used in a heat exchanger assembly, namely by mere insertion into a corresponding counterpart. With reaching an end position then a fluidic connection between the jacket tube and the counterpart is already made. By the direct insertion of the heat exchanger element in a through hole of a connecting pipe can be dispensed with additional connecting means, which could tend to stress cracks during operation of a heat exchanger assembly due to thermal stresses.

Gemäß einer vorteilhaften Weiterbildung der Erfindung liegen der Zufluss und der Abfluss des Mantelrohrs einander in Radialrichtung des Wärmetauscherelements gegenüber. Bei einem horizontal ausgerichteten Wärmetauscherelement kann somit vorgesehen sein, dass der Zufluss des Mantelrohrs von oberhalb und der Abfluss des Mantelrohrs nach unterhalb erfolgt. Auf diese Weise kann beispielsweise ein Durchströmen des Wärmetauscherelements alleine durch Schwerkrafteinfluss auf das im Kanal zwischen dem Mantelrohr und dem Innenrohr strömende Fluid erfolgen.According to an advantageous embodiment of the invention, the inflow and outflow of the jacket tube are opposite each other in the radial direction of the heat exchanger element. In a horizontally oriented heat exchanger element can thus be provided that the inflow of the jacket tube from above and the outflow of the jacket tube takes place below. In this way, for example, a flow through the heat exchanger element solely by gravity effect on the flowing in the channel between the jacket tube and the inner tube fluid.

Gemäß einer vorteilhaften Weiterbildung der Erfindung sind die Öffnungen durch Materialabtrag im Mantelrohr ausgebildet. Als Grundkörper für das herzustellende Mantelrohr kann beispielsweise ein handelsübliches und mit einer durchgehenden Rohrwand ausgestattetes Rohr verwendet werden. Die Öffnungen können dann durch Materialabtrag in diesem Rohr ausgebildet werden. Die Öffnungen können beispielsweise in das Rohr gefräst oder gebohrt werden. Entscheidend ist, dass die Öffnungen im Mantelrohr lediglich durch eine Wegnahme von Material im Vergleich zu einem durchgängigen Rohr, nicht hingegen durch ein Hinzufügen von Material gebildet werden.According to an advantageous embodiment of the invention, the openings are formed by material removal in the jacket tube. As a basic body for the jacket tube to be produced, for example, a commercially available and equipped with a continuous tube wall pipe can be used. The openings can then be formed by material removal in this tube. For example, the openings may be milled or drilled in the pipe. It is crucial that the openings in the jacket tube are formed only by a removal of material compared to a continuous tube, but not by adding material.

Gemäß einer vorteilhaften Weiterbildung der Erfindung ist wenigstens ein weiteres Innenrohr vorgesehen, wobei die Innenrohre als Rohrbündel angeordnet sind. Bei einem derartigen Wärmetauscherelement handelt es sich um einen Rohrbündelwärmetauscher. Der Vorteil besteht darin, dass durch die Mehrzahl von im Mantelrohr angeordneten Innenrohren die Oberfläche, an welcher ein Wärmetransfer zwischen den beiden strömungstechnisch voneinander getrennten Kanälen erfolgt, vergrößert ist. Die Innenrohre können allesamt parallel zueinander angeordnet sein. Die Innenrohre können zudem parallel zum Mantelrohr angeordnet sein. Ein Innenrohr kann koaxial zum Mantelrohr angeordnet sein.According to an advantageous embodiment of the invention, at least one further inner tube is provided, wherein the inner tubes are arranged as a tube bundle. Such a heat exchanger element is a shell-and-tube heat exchanger. The advantage is that due to the plurality of inner tubes arranged in the jacket tube, the surface on which a heat transfer takes place between the two fluidically separated channels is increased. The Inner tubes can all be arranged parallel to each other. The inner tubes can also be arranged parallel to the jacket tube. An inner tube may be arranged coaxially with the jacket tube.

Gemäß einer vorteilhaften Weiterbildung der Erfindung ist das Mantelrohr im Querschnitt kreisrund. Das Mantelrohr ist bevorzugt als Kreiszylinder ausgebildet. Der kreisrunde Querschnitt hat den Vorteil, dass sich die im Betrieb des Wärmetauscherelements einstellenden Lasten durch Drücke, Wärmespannungen und/oder dergleichen ideal auf die Oberfläche des Mantelrohrs verteilen. Auch das bzw. die Innenrohr(e) können im Querschnitt kreisrund ausgebildet sein.According to an advantageous development of the invention, the jacket tube is circular in cross section. The jacket tube is preferably designed as a circular cylinder. The circular cross section has the advantage that the loads occurring during operation of the heat exchanger element are ideally distributed to the surface of the jacket tube by pressures, thermal stresses and / or the like. Also, the or the inner tube (s) may be circular in cross-section.

Hinsichtlich der Wärmetauscheranordnung wird die Aufgabe dadurch gelöst, dass eine Vielzahl von zuvor beschriebenen Wärmetauscherelementen zum Einsatz kommt. Die Wärmetauscherelemente einer Wärmetauscheranordnung sind miteinander gekoppelt. So kann jeweils der Abfluss des Innenrohrs eines ersten Wärmetauscherelements mit dem Zufluss des Innenrohrs eines zweiten, nachgeschalteten Wärmetauscherelements verbunden sein. Der Abfluss des Mantelrohrs eines ersten Wärmetauscherelements kann mit dem Zufluss des Mantelrohrs eines zweiten, nachgeschalteten Wärmetauscherelements verbunden sein. Verbindungselemente wie beispielsweise Rohrstücke, Schläuche und/oder dergleichen dienen der strömungstechnischen Verbindung der einzelnen Wärmetauscherelemente.With regard to the heat exchanger arrangement, the object is achieved in that a plurality of heat exchanger elements described above is used. The heat exchanger elements of a heat exchanger arrangement are coupled together. Thus, in each case the outflow of the inner tube of a first heat exchanger element can be connected to the inflow of the inner tube of a second, downstream heat exchanger element. The outflow of the jacket tube of a first heat exchanger element can be connected to the inflow of the jacket tube of a second, downstream heat exchanger element. Connecting elements such as pipe sections, hoses and / or the like serve the fluidic connection of the individual heat exchanger elements.

Besonders bevorzugt weist die Wärmetauscheranordnung zwei Verbindungsrohre auf, welche quer zu den Wärmetauscherelementen verlaufen und strömungstechnisch jeweils mit einer der Öffnungen in der Mantelfläche jedes der Wärmetauscherelemente verbunden sind. Die Verbindungsrohre können im Querschnitt kreisrund ausgebildet sein. Die Verbindungsrohre sind bevorzugt zylindrisch ausgebildet. Die Verbindungsrohre sind zumindest abschnittsweise hohl. Sie weisen einen als Strömungskanal dienenden Innenraum auf. Der Innenraum jedes Verbindungsrohrs ist mit jeweils einer der Öffnungen in der Mantelfläche der Wärmetauscherelemente verbunden. Dies bedeutet, dass eine strömungstechnische Verbindung zwischen dem Innenraum des Verbindungsrohrs und dem zwischen dem Mantelrohr und dem Innenrohr ausgebildeten Kanal des Wärmetauscherelements besteht. Mithilfe des Verbindungsrohrs können zwei Wärmetauscherelemente strömungstechnisch miteinander verbunden werden. Der zwischen Mantelrohr und Innenrohr ausgebildete Kanal eines ersten Wärmetauscherelements ist durch die Öffnungen in der Mantelfläche mit dem Innenraum des Verbindungsrohrs verbunden. Dieser ist wiederum über die Öffnung in der Mantelfläche des anderen Wärmetauscherelements mit dessen zwischen Mantelrohr und Innenrohr ausgebildeten Kanal verbunden. Die Wärmetauscherelemente können parallel zueinander ausgerichtet sein. Die Verbindungsrohre und die Wärmetauscherelemente bilden ein Gitter.Particularly preferably, the heat exchanger arrangement has two connecting tubes, which extend transversely to the heat exchanger elements and are each fluidically connected to one of the openings in the lateral surface of each of the heat exchanger elements. The connecting tubes may be circular in cross section. The connecting pipes are preferably cylindrical. The connecting pipes are at least partially hollow. They have a serving as a flow channel interior. The interior of each connecting tube is connected to one of the openings in the lateral surface of the heat exchanger elements. This means that there is a fluidic connection between the interior of the connecting tube and the channel of the heat exchanger element formed between the jacket tube and the inner tube. By means of the connecting pipe, two heat exchanger elements can be fluidly connected with each other. The formed between the jacket tube and inner tube channel of a first Heat exchanger element is connected through the openings in the lateral surface with the interior of the connecting tube. This in turn is connected via the opening in the lateral surface of the other heat exchanger element with its channel formed between the jacket tube and the inner tube. The heat exchanger elements can be aligned parallel to one another. The connecting pipes and the heat exchanger elements form a grid.

Der Vorteil einer erfindungsgemäßen Wärmetauscheranordnung besteht in einer besonders einfachen Montage. Die einzelnen Wärmetauscherelemente müssen lediglich mit den Verbindungsrohren verbunden werden. Dadurch lässt sich eine Wärmetauscheranordnung mit dem Grunde nach beliebiger Größe herstellen. Die erfindungsgemäße Wärmetauscheranordnung ist zudem besonders stabil, da ausschließlich im Querschnitt kreisrunde Komponenten verwendet werden können. Diese haben den zuvor bereits beschriebenen Vorteil, dass die im Betrieb auftretenden Drücke und Lasten, insbesondere auch durch Wärmespannungen, optimal von den Bauteilen aufgenommen werden können.The advantage of a heat exchanger arrangement according to the invention consists in a particularly simple installation. The individual heat exchanger elements need only be connected to the connecting pipes. This makes it possible to produce a heat exchanger arrangement with the reason of any size. The heat exchanger assembly according to the invention is also particularly stable, since only in cross-section circular components can be used. These have the advantage already described above that the pressures and loads occurring during operation, in particular by thermal stresses, can be optimally absorbed by the components.

Die erfindungsgemäße Wärmetauscheranordnung ist nach dem Baukastenprinzip herstellbar. Es steht ein System mit einer Vielzahl von Wärmetauscherelementen und Verbindungsrohren zur Verfügung, wobei alle Komponenten nach dem Baukastenprinzip miteinander kombinierbar sind. Es können auch mehrere Einheiten aus jeweils zwei Verbindungsrohren und einer Vielzahl von Wärmetauscherelementen miteinander gekoppelt werden. Für jeden Anwendungsfall kann eine optimale Wärmetauscheranordnung ausgebildet werden.The heat exchanger assembly according to the invention can be produced according to the modular principle. There is a system with a variety of heat exchanger elements and connecting pipes available, all components can be combined with each other on the modular principle. It is also possible to couple several units each consisting of two connecting tubes and a multiplicity of heat exchanger elements to one another. For each application, an optimal heat exchanger assembly can be formed.

Gemäß einer vorteilhaften Weiterbildung der Erfindung weisen die Verbindungsrohre radiale Durchgangslöcher auf, in welche Durchgangslöcher die Wärmetauscherelemente eingeschoben sind. Der innere Querschnitt der Durchgangslöcher entspricht vorzugsweise dem Grundquerschnitt der Wärmetauscherelemente. Auf diese Weise können die Wärmetauscherelemente in einfacher Weise in die Durchgangslöcher der Verbindungsrohre eingeschoben werden. Die zueinander korrespondierenden Querschnitte sorgen dafür, dass der Übergangsbereich zwischen den Verbindungsrohren und den Wärmetauscherelementen aus sich selbst heraus bereits gegen den Austritt von im Wärmetauscher geführten Fluiden ausreichend dicht ist. Selbstverständlich können zusätzliche Maßnahmen wie Dichtungen, stoffschlüssige Verbindungen und/oder dergleichen vorgesehen werden, um die Verbindung noch dichter zu machen.According to an advantageous embodiment of the invention, the connecting tubes on radial through holes, in which through holes, the heat exchanger elements are inserted. The inner cross section of the through holes preferably corresponds to the basic cross section of the heat exchanger elements. In this way, the heat exchanger elements can be easily inserted into the through holes of the connecting pipes. The mutually corresponding cross-sections ensure that the transition region between the connecting tubes and the heat exchanger elements by itself is already sufficiently leakproof against the escape of fluids conducted in the heat exchanger. Of course, additional measures such as seals, cohesive connections and / or The like can be provided to make the connection even denser.

Der Vorteil dieser Weiterbildung besteht insbesondere in der sehr einfachen Möglichkeit zur Montage der Wärmetauscheranordnung. Die einzelnen Wärmetauscherelemente müssen lediglich in die Durchgangslöcher der Verbindungsrohre eingeschoben werden. Gegebenenfalls sind keine weiteren Maßnahmen zur Verbindung der Verbindungsrohre mit den Wärmetauscherelementen erforderlich.The advantage of this development is, in particular, the very simple possibility for mounting the heat exchanger arrangement. The individual heat exchanger elements need only be inserted into the through holes of the connecting pipes. Optionally, no further measures for connecting the connecting pipes to the heat exchanger elements are required.

Gemäß einer vorteilhaften Weiterbildung der Erfindung sind die Verbindungsrohre aus einzelnen, in Längsrichtung zusammenfügbaren Rohrelementen gebildet. Die Verbindungsrohre können modular aufgebaut werden. Je nach erforderlicher Anzahl an Wärmetauscherelementen kann eine entsprechende Anzahl von Rohrelementen zusammengefügt werden, um so insgesamt ein Verbindungsrohr zu schaffen. Die Montage ist denkbar einfach, da die einzelnen Verbindungsrohre beispielsweise lediglich ineinander gesteckt werden müssen.According to an advantageous development of the invention, the connecting tubes are formed from individual tube elements which can be joined together in the longitudinal direction. The connecting pipes can be modular. Depending on the required number of heat exchanger elements, a corresponding number of pipe elements can be joined together, so as to create a total of a connecting pipe. The installation is very simple, since the individual connecting pipes, for example, only have to be inserted into one another.

Gemäß einer vorteilhaften Weiterbildung der Erfindung sind die Rohrelemente eines Verbindungsrohrs mit einem Spannmittel zusammengehalten. Es kann vorgesehen sein, dass die einzelnen Rohrelemente lediglich ineinander gesteckt werden. Der sichere Zusammenhalt wird dann durch das Spannmittel hergestellt. Das Spannmittel dient der Ausbildung einer Zugkraft, welche die jeweils äußeren Elemente eines Verbindungsrohres zusammenhält. Bei dem Spannmittel kann es sich um eine Gewindestange handeln. Die Gewindestange ist im Bereich der jeweils äußeren Rohrelemente eines Verbindungsrohrs mit Muttern fixiert. Durch Anziehen der Muttern kann die in der Gewindestange wirkende Zugkraft auf die Rohrelemente erhöht werden.According to an advantageous embodiment of the invention, the tube elements of a connecting tube are held together with a clamping means. It can be provided that the individual pipe elements are merely inserted into one another. The secure cohesion is then produced by the clamping device. The clamping means serves to form a tensile force which holds together the respective outer elements of a connecting tube. The tensioning means may be a threaded rod. The threaded rod is fixed in the region of the respective outer tube elements of a connecting tube with nuts. By tightening the nuts, the force acting in the threaded rod tensile force can be increased to the pipe elements.

Gemäß einer vorteilhaften Weiterbildung der Erfindung ist der Zufluss des Innenrohrs des einen Wärmetauscherelements mit dem Abfluss des Innenrohrs des anderen Wärmetauscherelements strömungstechnisch verbunden. Die Kanäle der Innenrohre können auf diese Weise seriell hintereinander geschaltet werden. Eine derartige Wärmetauscheranordnung umfasst zum einen eine Vielzahl seriell hintereinander geschalteter Kanäle zwischen Mantelrohr und Innenrohr und zum anderen eine serielle Hintereinanderschaltung der strömungstechnischen Kanäle der Innenrohre der Wärmetauscherelemente. Die effektive Übertragungsstrecke der Wärmetauscheranordnung kann auf diese Weise beliebig eingestellt werden. Zur Verbindung können geeignete Verbindungsmittel verwendet werden. Es können beispielsweise U-förmige Rohrelemente eingesetzt werden.According to an advantageous development of the invention, the inflow of the inner tube of the one heat exchanger element is fluidically connected to the outflow of the inner tube of the other heat exchanger element. The channels of the inner tubes can be connected in series serially in this way. Such a heat exchanger arrangement comprises, on the one hand, a multiplicity of channels connected in series between the jacket tube and the inner tube and, on the other hand, a series connection of the fluidic channels of the inner tubes of the heat exchanger elements. The effective transmission path of the heat exchanger assembly can be set arbitrarily in this way. to Compound can be used suitable bonding agents. It can be used, for example, U-shaped tube elements.

Weitere Vorteile und Merkmale ergeben sich aus der nachfolgenden Figurenbeschreibung. Es zeigen:

Figur 1:
perspektivische Darstellung einer Ausführungsform einer erfindungsgemäßen Wärmetauscheranordnung;
Figur 2:
schematisch eine Ausführungsform eines erfindungsgemäßen Wärmetauscherelements;
Figur 3:
eine Detailansicht eines Rohrverbinders der Wärmetauscheranordnung gemäß Figur 1 mit transparenten Mantelrohren;
Figur 4:
die Darstellung gemäß Figur 3 mit intransparenten Mantelrohren;
Figur 5:
die Darstellung gemäß Figur 3 mit einem durchgehenden Verbindungsrohr;
Figur 6:
der Gegenstand gemäß Figur 3 in einer alternativen Darstellung;
Figur 7:
eine Draufsicht auf ein Verbindungsrohr der Vorrichtung gemäß Figur 1;
Figur 8:
eine Frontalansicht auf die miteinander verbundenen Wärmetauscherelemente der Vorrichtung gemäß Figur 1;
Figur 9:
eine Detailansicht auf die unteren Rohrverbinder der Vorrichtung gemäß Figur 1; und
Figur 10:
eine Detailansicht auf die oberen Rohrverbinder der Vorrichtung gemäß Figur 1.
Further advantages and features will become apparent from the following description of the figures. Show it:
FIG. 1:
perspective view of an embodiment of a heat exchanger assembly according to the invention;
FIG. 2:
schematically an embodiment of a heat exchanger element according to the invention;
FIG. 3:
a detailed view of a pipe connector of the heat exchanger assembly according to FIG. 1 with transparent jacket pipes;
FIG. 4:
the representation according to FIG. 3 with non-transparent casing pipes;
FIG. 5:
the representation according to FIG. 3 with a continuous connecting pipe;
FIG. 6:
the object according to FIG. 3 in an alternative representation;
FIG. 7:
a plan view of a connecting pipe of the device according to FIG. 1 ;
FIG. 8:
a frontal view of the interconnected heat exchanger elements of the device according to FIG. 1 ;
FIG. 9:
a detailed view of the lower tube connector of the device according to FIG. 1 ; and
FIG. 10:
a detailed view of the upper pipe connector of the device according to FIG. 1 ,

Figur 1 zeigt eine Ausführungsform einer erfindungsgemäßen Wärmetauscheranordnung 10. Diese weist eine Vielzahl von Wärmetauscherelementen 1 auf. Die Wärmetauscherelemente 1 sind parallel zueinander ausgerichtet. Die Wärmetauscherelemente 1 sind jeweils endseitig mit Verbindungsrohren 11 verbunden. Die beiden Verbindungsrohre 11 verlaufen rechtwinklig zu den Wärmetauscherelementen 1. FIG. 1 shows an embodiment of a heat exchanger assembly 10 according to the invention. This has a plurality of heat exchanger elements 1. The heat exchanger elements 1 are aligned parallel to one another. The Heat exchanger elements 1 are each connected at the end to connecting tubes 11. The two connecting pipes 11 extend at right angles to the heat exchanger elements 1.

Figur 2 zeigt schematisch eine Ausführungsform eines erfindungsgemäßen Wärmetauscherelements 1. Dieses weist ein Mantelrohr 2 und innerhalb des Mantelrohrs 2 befindliche Innenrohre 3 auf. Das Mantelrohr 2 ist im Querschnitt kreisrund ausgebildet. Das Mantelrohr 1 weist eine Mantelfläche und zwei als Stirnseiten 5 dienende Grundflächen auf. FIG. 2 schematically shows an embodiment of a heat exchanger element according to the invention 1. This has a jacket tube 2 and inside the jacket tube 2 located inner tubes 3. The jacket tube 2 is circular in cross section. The jacket tube 1 has a lateral surface and two serving as end faces 5 base surfaces.

Das Innenrohr 3 weist an den beiden Stirnseiten 5 einen Zulauf beziehungsweise Ablauf auf. Das Innenrohr 3 ist in Längsrichtung 6 des Wärmetauscherelements 1 geradlinig durchströmbar.The inner tube 3 has at the two end faces 5 an inlet or outlet. The inner tube 3 can be traversed in a straight line in the longitudinal direction 6 of the heat exchanger element 1.

In dem Mantelrohr 2 sind zwei Öffnungen 7 ausgebildet. Die Öffnungen 7 sind voneinander in Längsrichtung 6 beabstandet. Die Öffnungen 7 liegen zudem mit Bezug auf die Radialrichtung 9 des Wärmetauscherelements 1 einander gegenüber. Die Öffnungen 7 stellen den Zulauf beziehungsweise den Ablauf eines zwischen dem Mantelrohr 2 und dem Innenrohr 3 ausgebildeten Strömungskanals dar.In the casing tube 2, two openings 7 are formed. The openings 7 are spaced from each other in the longitudinal direction 6. The openings 7 are also opposite to each other with respect to the radial direction 9 of the heat exchanger element 1. The openings 7 represent the inlet or the outlet of a formed between the casing tube 2 and the inner tube 3 flow channel.

Das Mantelrohr 2 weist einen Durchmesser 8 auf. Der Durchmesser 8 ist über die gesamte Längserstreckung des Mantelrohrs 2 konstant. Lediglich im Bereich der Öffnungen 7 ist das Mantelrohr 2 in seinem ansonsten kreisförmigen Grundquerschnitt unterbrochen. Die Öffnungen 7 zeichnen sich dadurch aus, dass sie ausschließlich durch Weglassen von Material ausgebildet sind. Dies bedeutet, der Durchmesser 8 ist im Bereich der Öffnungen 7 niemals größer als der Durchmesser 8 der sonstigen Bereiche des Mantelrohrs 2.The jacket tube 2 has a diameter 8. The diameter 8 is constant over the entire longitudinal extent of the jacket tube 2. Only in the region of the openings 7, the jacket tube 2 is interrupted in its otherwise circular base cross-section. The openings 7 are characterized in that they are formed exclusively by omitting material. This means that the diameter 8 is never greater in the region of the openings 7 than the diameter 8 of the other regions of the jacket tube 2.

An den beiden Stirnseiten 5 können Flansche 4 angebracht werden. Die Flansche 4 können stoffschlüssig mit dem Mantelrohr 2 und/oder dem Innenrohr 3 verbunden werden. Die Flansche 4 dienen einer Verbindung des Wärmetauscherelements 1 mit anderen Komponenten der Wärmetauscheranordnung 10.At the two end faces 5 flanges 4 can be attached. The flanges 4 can be materially connected to the jacket tube 2 and / or the inner tube 3. The flanges 4 serve to connect the heat exchanger element 1 to other components of the heat exchanger arrangement 10.

Auch anhand der übrigen Figuren 3 bis 10 wird deutlich, dass die Wärmetauscherelemente 1 in einfacher Weise in Durchgangslöcher 19 der Verbindungsrohre 11 gesteckt werden können. Anschließend können die Flansche 4 an den Stirnseiten 5 der Wärmetauscherelemente 1 angeordnet werden. Die Innenrohre 3 der einzelnen Wärmetauscherelemente 1 können beispielsweise durch Verwendung von Rohrverbindern 15 strömungstechnisch miteinander verbunden werden. Auf diese Weise können die Innenrohre 3 der einzelnen Wärmetauscherelemente 1 seriell zusammengeschaltet werden.Also on the other FIGS. 3 to 10 It is clear that the heat exchanger elements 1 in a simple manner in through holes 19 of the Connecting pipes 11 can be inserted. Subsequently, the flanges 4 can be arranged on the end faces 5 of the heat exchanger elements 1. The inner tubes 3 of the individual heat exchanger elements 1 can be fluidly connected to one another, for example, by using pipe connectors 15. In this way, the inner tubes 3 of the individual heat exchanger elements 1 can be connected in series.

Die Verbindungsrohre 11 bestehen aus einzelnen, miteinander verbindbaren Rohrelementen 12. Die Verbindungsrohre 11 können durch eine beliebige Anzahl an Rohrelementen 12 in beliebiger Länge ausgebildet werden.The connecting tubes 11 consist of individual, mutually connectable tube elements 12. The connecting tubes 11 can be formed by any number of tubular elements 12 in any length.

Die Verbindungsrohre 11 sind innen hohl. Die Wärmetauscherelemente 1 sind derart in die Verbindungsrohre 11 eingeschoben, dass die Öffnungen 7 in dem Mantelrohr 2 vollständig im Inneren des jeweiligen Verbindungsrohrs 11 angeordnet sind. Dies geht beispielsweise aus der Darstellung nach Figur 4 hervor. Der hohle Innenraum der Verbindungsrohre 11 sorgt auf diese Weise für eine strömungstechnische Verbindung zwischen zwei Wärmetauscherelementen 1, nämlich den zwischen Mantelrohr 2 und Innenrohr 3 ausgebildeten Kanälen der beiden Wärmetauscherelemente 1. Auf diese Weise kann ein Fluid, beispielsweise das Wärmetauschermedium, von einem Wärmetauscherelement 1 zum nächsten strömen.The connecting pipes 11 are hollow inside. The heat exchanger elements 1 are inserted into the connecting tubes 11 in such a way that the openings 7 in the jacket tube 2 are arranged completely inside the respective connecting tube 11. This follows, for example, from the presentation FIG. 4 out. The hollow interior of the connecting pipes 11 thus provides for a fluidic connection between two heat exchanger elements 1, namely the ducts of the two heat exchanger elements 1 formed between the jacket pipe 2 and the inner pipe 3. In this way, a fluid, for example the heat exchanger medium, from a heat exchanger element 1 next stream.

Die von den Innenrohren 3 des Wärmetauscherelements 1 bereitgestellten Strömungskanäle sind von dem Kanal zwischen Mantelrohr 2 und Innenrohr 3 getrennt. In den Innenrohren 3 kann das Prozessmedium, beispielsweise zu pasteurisierende Milch, geführt werden. Die Innenrohre 3 sind im Bereich der Flansche 4 zugänglich. Jeweils benachbarte Wärmetauscherelemente 1 können mithilfe eines Rohrverbinders 15 strömungstechnisch miteinander verbunden werden. Hierzu weist der Rohrverbinder 15 zwei Flansche 18 auf. Die Flansche 18 können mit den jeweiligen Flanschen 4 der Wärmetauscherelemente 1 verbunden werden.The flow channels provided by the inner tubes 3 of the heat exchanger element 1 are separated from the channel between the jacket tube 2 and the inner tube 3. In the inner tubes 3, the process medium, for example, to be pasteurized milk, are performed. The inner tubes 3 are accessible in the region of the flanges 4. Each adjacent heat exchanger elements 1 can be fluidly connected to each other by means of a pipe connector 15. For this purpose, the pipe connector 15 has two flanges 18. The flanges 18 can be connected to the respective flanges 4 of the heat exchanger elements 1.

Auf diese Weise wird eine Wärmetauscheranordnung 10 geschaffen, bei der einerseits die jeweils zwischen dem Mantelrohr 2 und dem Innenrohr 3 ausgebildeten Kanäle der Wärmetauscherelemente 1 seriell miteinander verschaltet sind und andererseits die Innenrohre 3 der entsprechenden Wärmetauscherelemente 1 ebenfalls seriell miteinander verschaltet sind. Auf diese Weise lassen sich Wärmetauscheranordnungen 10 in beliebiger Dimension, d.h. beliebiger Leistungsfähigkeit herstellen.In this way, a heat exchanger assembly 10 is provided, in which on the one hand the respectively formed between the jacket tube 2 and the inner tube 3 channels of the heat exchanger elements 1 are connected in series and on the other hand, the inner tubes 3 of the corresponding heat exchanger elements 1 are also connected in series with each other. In this way, heat exchanger assemblies 10 in of any dimension, ie of any capacity.

Die Verbindungsrohre 11, beziehungsweise die jeweils äußeren Rohrelemente 12, können mithilfe von Deckeln 14 fluiddicht verschlossen werden. Zudem können die einzelnen Rohrelemente 12 mithilfe von Gewindestangen 13 und Muttern 25 miteinander verbunden werden. Hierzu weisen die jeweils äußeren Rohrelemente 12 einen Flansch 24 auf, durch welchen die Gewindestange 13 geführt ist und welcher als Widerlager dient. Durch Anziehen von auf die Gewindestange geschraubten Muttern 25 kann die die einzelnen Rohrelemente 12 zusammenhaltende Zugkraft variiert werden.The connecting tubes 11, or the respective outer tube elements 12, can be closed in a fluid-tight manner by means of covers 14. In addition, the individual tube elements 12 can be connected to each other by means of threaded rods 13 and nuts 25. For this purpose, the respective outer tubular elements 12 a flange 24 through which the threaded rod 13 is guided and which serves as an abutment. By tightening screwed onto the threaded rod nuts 25, the individual tube elements 12 cohesive tensile force can be varied.

Die Verbindungsrohre 11 können Flansche 22 aufweisen. An diese Flansche 22 können die Einlässe beziehungsweise Auslässe für die Wärmetauscheranordnung 10 zu durchströmende Medien angelegt werden.The connecting pipes 11 may have flanges 22. At these flanges 22, the inlets or outlets can be applied to the heat exchanger assembly 10 to be flowed through media.

Die gesamte Wärmetauscheranordnung 10 kann auf einem Gestell 17 angeordnet werden. Auf dem Gestell 17 kann eine Befestigungsplatte 23 vorgesehen sein, auf welcher die Verbindungsrohre 11 und gegebenenfalls weitere Komponenten montiert werden können.The entire heat exchanger assembly 10 can be arranged on a frame 17. On the frame 17, a mounting plate 23 may be provided, on which the connecting pipes 11 and optionally other components can be mounted.

Figur 6 zeigt die Verbindung zweier Rohrelemente 12 eines Verbindungsrohrs 11. Die beiden Rohrelemente 12 sind unter Zwischenordnung einer in den Figuren nicht näher dargestellten Dichtungsanordnung aneinander angeordnet. Bei dieser Dichtungsanordnung kann es sich beispielsweise um eine Flachdichtung handeln, die zwischen Flanschen 20, 21 benachbarter Rohrelemente 12 angeordnet ist. Im endmontierten Zustand ist die Dichtungsanordnung zwischen den Flanschen 20 und 21 benachbarter Rohrelemente 12 zusammengedrückt, so dass eine austauschermediumsseitige Abdichtung sicher gewährleistet ist. FIG. 6 shows the connection of two tubular elements 12 of a connecting tube 11. The two tube elements 12 are arranged with the interposition of a non-illustrated in the figures seal assembly together. This seal arrangement can be, for example, a flat gasket which is arranged between flanges 20, 21 of adjacent tube elements 12. In the final assembled state, the sealing arrangement between the flanges 20 and 21 of adjacent tube elements 12 is compressed, so that an exchange medium-side seal is ensured.

An einem in Schwerkraftrichtung unteren Ende der Wärmetauscheranordnung 10 kann ein Umlenkelement 16 vorgesehen sein. Dieses lenkt den senkrecht durch das Verbindungsrohr 11 fließenden Fluidstrom um 90 Grad um. An einem Flansch des Umlenkelements 16 kann ein entsprechender Abfluss, beispielsweise in Form eines Schlauches, angeordnet werden.At a lower end in the direction of gravity of the heat exchanger assembly 10, a deflecting element 16 may be provided. This deflects the fluid flow flowing perpendicularly through the connecting pipe 11 by 90 degrees. On a flange of the deflecting element 16, a corresponding outflow, for example in the form of a hose, can be arranged.

BezugszeichenlisteLIST OF REFERENCE NUMBERS

11
WärmetauscherelementHeat exchanger element
22
Mantelrohrcasing pipe
33
Innenrohrinner tube
44
Flanschflange
55
Stirnseitefront
66
Längsrichtunglongitudinal direction
77
Öffnungopening
88th
Durchmesserdiameter
99
Radialrichtungradial direction
1010
WärmetauscheranordnungThe heat exchanger assembly
1111
Verbindungsrohrconnecting pipe
1212
Rohrelementtube element
1313
Gewindestangethreaded rod
1414
Deckelcover
1515
Rohrverbinderpipe connectors
1616
Umlenkelementdeflecting
1717
Gestellframe
1818
Flanschflange
1919
DurchgangslochThrough Hole
2020
Flanschflange
2121
Flanschflange
2222
Flanschflange
2323
Befestigungsplattemounting plate
2424
Flanschflange
2525
Muttermother

Claims (13)

Wärmetauscherelement mit einem Mantelrohr und einem Innenrohr, wobei das Mantelrohr und das Innenrohr zwei strömungstechnisch voneinander getrennte Kanäle bereitstellen, dadurch gekennzeichnet, dass der Zufluss und der Abfluss des Innenrohrs an einander in Längsrichtung gegenüberliegenden Stirnseiten des Wärmetauscherelements ausgebildet sind, und dass der Zufluss und der Abfluss des Mantelrohrs als voneinander in Längsrichtung des Wärmetauscherelements beabstandete Öffnungen in der Mantelfläche des Mantelrohrs ausgebildet sind.Heat exchanger element having a jacket tube and an inner tube, wherein the jacket tube and the inner tube two fluidically separate channels provide, characterized in that the inflow and outflow of the inner tube are formed on mutually longitudinally opposite end faces of the heat exchanger element, and that the inflow and outflow of the jacket tube are formed as spaced apart in the longitudinal direction of the heat exchanger element openings in the lateral surface of the jacket tube. Wärmetauscherelement nach Anspruch 1, dadurch gekennzeichnet, dass der Zufluss und der Abfluss des Mantelrohrs einander in Radialrichtung des Wärmetauscherelements gegenüberliegen.Heat exchanger element according to claim 1, characterized in that the inflow and outflow of the jacket tube face each other in the radial direction of the heat exchanger element. Wärmetauscherelement nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass die Öffnungen durch Materialabtrag im Mantelrohr ausgebildet sind.Heat exchanger element according to one of the preceding claims, characterized in that the openings are formed by material removal in the jacket tube. Wärmetauscherelement nach einem der vorangehenden Ansprüche, gekennzeichnet durch wenigstens ein weiteres Innenrohr, wobei die Innenrohre als Rohrbündel angeordnet sind.Heat exchanger element according to one of the preceding claims, characterized by at least one further inner tube, wherein the inner tubes are arranged as a tube bundle. Wärmetauscherelement nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass das Mantelrohr im Querschnitt kreisrund ist.Heat exchanger element according to one of the preceding claims, characterized in that the jacket tube is circular in cross section. Wärmetauscheranordnung, gekennzeichnet durch eine Vielzahl von Wärmetauscherelementen nach einem der vorangehenden Ansprüche.Heat exchanger arrangement, characterized by a plurality of heat exchanger elements according to one of the preceding claims. Wärmetauscheranordnung nach Anspruch 6, gekennzeichnet durch zwei Verbindungsrohre, welche quer zu den Wärmetauscherelementen verlaufen und strömungstechnisch jeweils mit einer der Öffnungen in der Mantelfläche jedes der Wärmetauscherelemente verbunden sind.Heat exchanger arrangement according to claim 6, characterized by two connecting tubes, which extend transversely to the heat exchanger elements and are each fluidically connected to one of the openings in the lateral surface of each of the heat exchanger elements. Wärmetauscheranordnung nach Anspruch 7, dadurch gekennzeichnet, dass die Verbindungsrohre radiale Durchgangslöcher aufweisen, in welche Durchgangslöcher die Wärmetauscherelemente eingeschoben sind.Heat exchanger assembly according to claim 7, characterized in that the connecting tubes have radial through holes, in which through holes, the heat exchanger elements are inserted. Wärmetauscheranordnung nach einem der Ansprüche 6 bis 8, dadurch gekennzeichnet, dass die Verbindungsrohre aus einzelnen, in Längsrichtung zusammenfügbaren Rohrelementen gebildet sind.Heat exchanger arrangement according to one of claims 6 to 8, characterized in that the connecting pipes are formed from individual, longitudinally joinable tubular elements. Wärmetauscheranordnung nach Anspruch 9, dadurch gekennzeichnet, dass die Rohrelemente eines Verbindungsrohrs mit einem Spannmittel zusammengehalten sind.Heat exchanger arrangement according to claim 9, characterized in that the tube elements of a connecting tube are held together with a clamping means. Wärmetauscheranordnung nach einem der Ansprüche 6 bis 10, dadurch gekennzeichnet, dass die Wärmetauscherelemente parallel zueinander ausgerichtet sind.Heat exchanger arrangement according to one of claims 6 to 10, characterized in that the heat exchanger elements are aligned parallel to each other. Wärmetauscheranordnung nach einem der Ansprüche 6 bis 11, dadurch gekennzeichnet, dass der Zufluss des Innenrohrs des einen Wärmetauscherelements mit dem Abfluss des Innenrohrs des anderen Wärmetauscherelements strömungstechnisch verbunden ist.Heat exchanger arrangement according to one of claims 6 to 11, characterized in that the inflow of the inner tube of a heat exchanger element with the outflow of the inner tube of the other heat exchanger element is fluidically connected. Wärmetauscheranordnung nach einem der Ansprüche 6 bis 12, dadurch gekennzeichnet, dass die Verbindungsrohre im Querschnitt kreisrund sind.Heat exchanger arrangement according to one of claims 6 to 12, characterized in that the connecting pipes are circular in cross section.
EP13153690.6A 2013-02-01 2013-02-01 Heat exchanger element and heat exchanger assembly Not-in-force EP2762822B1 (en)

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4497365A (en) * 1983-08-15 1985-02-05 John Boyer Heat exchanger
US4729425A (en) * 1986-04-18 1988-03-08 Mitchell Phillip G Cooling bladder assembly for mixing mill
EP0686822A1 (en) * 1994-06-06 1995-12-13 SMH Management Services AG Heat exchanger for the cooling circuit for an automotive vehicle
DE102005059463B4 (en) 2005-12-13 2009-12-24 Gea Tds Gmbh Device for influencing the flow in the region of a tube carrier plate of a tube bundle heat exchanger
EP1742006B1 (en) 2005-07-02 2012-02-01 GEA TDS GmbH Process and apparatus to guide the fluid in tube bundle heat exchangers for thermal treatment of suspensions.

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4497365A (en) * 1983-08-15 1985-02-05 John Boyer Heat exchanger
US4729425A (en) * 1986-04-18 1988-03-08 Mitchell Phillip G Cooling bladder assembly for mixing mill
EP0686822A1 (en) * 1994-06-06 1995-12-13 SMH Management Services AG Heat exchanger for the cooling circuit for an automotive vehicle
EP1742006B1 (en) 2005-07-02 2012-02-01 GEA TDS GmbH Process and apparatus to guide the fluid in tube bundle heat exchangers for thermal treatment of suspensions.
DE102005059463B4 (en) 2005-12-13 2009-12-24 Gea Tds Gmbh Device for influencing the flow in the region of a tube carrier plate of a tube bundle heat exchanger

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
PROCESS ENGINEERING GEA TDS GMBH: "WäRMETAUSCHER-SYSTEME, VARITUBE RöHRENWäRMETAUSCHER, VARITHERM PLATTENWäRMETAUSCHER", GEA, February 2009 (2009-02-01), pages 1 - 5, XP003035369

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