EP1555500A2 - Heat exchanger - Google Patents

Abstract

The heat exchanger (1) for gaseous and/or liquid media is made up of rectangular profiled plate elements (2) with alternating flow channels (7, 8) of constant cross section for primary and secondary media.

Description

The present invention relates to a heat exchanger according to the preamble of claim 1. Such heat exchangers are especially for capacitors used in tumble driers. Another field of application is for example, the recovery of the heat content of room exhaust air, which is used for heating the fresh air or for the recovery of the Heat content of gases or liquids from technical processes in general. In principle, the heat exchanger according to the invention for all applications can be used in which the heat content of a gaseous medium in another gaseous medium transmitted via thermally conductive partitions becomes. But it is also conceivable that one or both media in liquid form available.

Heat exchangers are in numerous embodiments, in particular as capacitors known in tumble driers. Here they serve the purpose of the moist process air coming through a process air duct to a dry room while communicating with ambient airflows through cooling air ducts. or room air to cool. The heat exchangers act as capacitors for the process air, wherein the condensed from this process air water in a collecting vessel drips off. The dried process air is renewed after Heating again introduced into the drying room. The process air and cooling air channels are usually perpendicular to each other, so that the heat exchanger in Cross-flow is flowed through by the process air and the cooling air.

To achieve effective heat exchange and to avoid contamination It is usually desirable to use process air through channels to conduct as large as possible, smooth surfaces. In contrast, on the cooling air side preferably slats or baffles are provided, which heat exchanging Increase surfaces of the cooling air ducts.

There are known heat exchangers, which except the frame either completely made of metal or completely made of plastic. The completely off Metal-made heat exchanger - which due to the good thermal conductivity allow a good heat exchange of metal, but have the Disadvantage of their relatively large production costs. These concern not just the more expensive source material, but especially the compound the individual components, such as flat tube profiles, multi-chamber profiles, plate elements, Slats and baffles, etc. required manufacturing steps. This is essentially independent of whether the individual parts by gluing, Welding, soldering, clinching or otherwise connected.

In contrast, heat exchangers made entirely of plastic can comparatively are made cheap, but disturbing here are the comparative poorer thermal conductivity of plastics, or the consequent poor heat transfer, especially on the cooling air side.

Finally, heat exchangers are known, the frame made of plastic and Having tubes, which optionally consist of plastic or metal, wherein the Frame and tubes connected by a simple plug connection become.

For example, EP 1 203 923 A2 describes a heat exchanger which comprises thermally conductive plastic pipes and metallic Wärmeleitelementen exists. Here lies a combination of metallic and non-metallic elements before, on the one hand a large heat exchange surface and thus a high heat transfer coefficient and on the other hand to achieve a low-cost system. The Thermal connection of the two systems is achieved by pressing.

Other constructions for heat exchangers, such as in DE 296 14 186 U1 described, consist of flat tube elements whose lateral ends in frame profiles lead, which serve as spacers, wherein within the Flat tubular elements lamellar bodies are inserted. The flat tube elements, the lamellar body and the frame profiles are thereby glued together connected.

In US 2 959 401 A a layered structure of C-shaped half-shells is disclosed disclosed, which are arranged one above the other, that oval tubes arise, in which there are triangular-shaped lamellar body and on are soldered to the half-shell ends. These individual layers become crosswise stacked. The lamellar inserts are designed such that over the air inlet side single triangular air channels arise.

A comparable construction is also described in EP 0 044 561 A. Here, a preferably made of plastic heat exchanger is shown at the plates arranged on one side, mutually parallel webs are stacked on top of each other so that the webs of adjacent plates in the right Angles are aligned with each other.

A similar embodiment is shown in GB 1 336 448 A. she describes an embodiment for an air-to-air heat exchanger, wherein a plurality of plates are arranged crosswise one above the other, with hemispherical shapes are present on equally hemispherical forms of the adjacent Hit plates. Another heat exchanger with profiled plates is described in WO 99/67591 A.

A disadvantage of these constructions is the unnecessarily increased flow resistance for the process air. Furthermore, carry-on lint easily lead to a partial constipation. Such heat exchangers are therefore used primarily, around the heat content of exiting from a technological process To use gases. But they can also be used in air conditioning for recovery the heat content of the exiting, used room air used be, with this heat in the same unit for preheating the fresh air is used.

From DE 85 30 313 A a plate heat exchanger is known, consisting of in Spaced apart hollow aluminum single plates, wherein a first medium - such as moist process air - through the spaces between the hollow single plates and a second medium - cooling air through the Hollow element is passed. The single plates have to increase the Stability continuous webs and increase the surface between the Webs lying additional half-bridges on.

A particularly recycling friendly heat exchanger further discloses the DE 198 38 525 A, wherein between flat plate-shaped sheets ribbed plates are arranged. The process air flows through the flat plates, the cooling air is guided through plate plates corrugated with the ribbed plates. The ribbed plates are made of thin aluminum foil with thicknesses of 0.15 mm.

In these known heat exchangers is with a small size at high Heat exchange numbers a relatively large effort in the production connected. The generally proposed webs serve primarily the mechanical stability. A heat conduction over the webs is often only in very limited dimensions and only over very short distances possible. this has The result is that not the entire mass of the heat exchanger package heat exchange serves.

Likewise, the free passage surfaces and in particular the air inlet surfaces both on the process air, as well as on the cooling air side or on the Primary and secondary side not fully usable.

This reduced air inlet surface, as well as those in the air duct Turbulence and lamellar bodies can increase the required ventilation pressure and thus reduce the volume flows available from the fans. As a result, however, the heat exchange deteriorates again.

The present invention has as its object to a heat exchanger create an almost 100% free air intake surface on the primary and Secondary side and has a low internal air resistance. In addition, the used in the heat exchanger devices almost completely on the heat exchanger process be involved in order to get the required volume and that To be able to reduce weight compared to the known systems. Furthermore, should the heat exchanger according to the invention can be used universally and with minimal Production costs can be produced.

If it is used as a condenser for tumble dryer, it should be to achieve effective heat exchange and to avoid contamination, direct the process air through channels with large, smooth surfaces. On the other hand the heat exchanging surface of the cooling air ducts should face the flat plate to be enlarged.

He should have no significant flow resistance in the process air direction, However, lead to strong turbulence of the cooling air during passage. If it comes to the entry of disturbing lint or dust deposits, which worsen the efficiency, he should in the simplest way by blowing or rinsing can be cleaned.

However, the same heat exchanger should also for the recovery of the heat content of room exhaust air, which is used for heating the fresh air or for recovering the heat content of gases or liquids be generally usable in technical processes.

The solution to all these tasks is a multi-layer heat exchanger Structure according to the features of claim 1. Advantageous embodiments are the subject of the dependent claims.

Fig. 1

den Wärmetauscher in Schrägansicht;

Fig. 2

eine Stirnansicht von zwei übereinander angeordneten Plattenelementen;

Fig. 3

die Plattenelemente aus Fig. 2 in Seitenansicht;

Fig. 4

eine Schrägansicht der Plattenelemente aus Fig. 2.

The heat exchanger according to the invention is explained in more detail below with reference to FIGS. Show:

Fig. 1

the heat exchanger in an oblique view;

Fig. 2

an end view of two superposed plate elements;

Fig. 3

the plate elements of Figure 2 in side view.

Fig. 4

an oblique view of the plate elements of FIG. 2nd

The invention is expressly not limited to the form of a shown here Limited plate element.

The heat exchanger 1 consists of stacked, similarly profiled Plate elements 2 without intermediate inserts, webs or spacers, so that an unhindered passage of the heat transfer media can take place. If the plate elements 2 are made of aluminum profiles, then they have one Thickness of 0.2 to 0.4 mm, preferably from 0.25 to 0.3 mm and are for example produced in a deep drawing process.

The plate elements 2 have a profiling 3, approximately as in FIGS to 4 exemplified a longitudinally extending triangular Zig-zag pattern, bordering on the 4 sections on a horizontal stretch can converge. The zigzag pattern may vary depending on the heat exchange process And application as a sinusoidal or sectionally rectilinear and be formed curved line. But there are also other profiles conceivable, which even when using smaller wall thicknesses a high dimensional stability secure the plate element.

Adjacent, similarly profiled and identically aligned plate elements 2 are connected to each other only at their outer edge 5 or 6 in the way that separate flow channels 7 for the primary medium and flow channels 8 for the secondary medium in the cross-flow, in the DC or in the Countercurrent form.

This can either by a gluing process, by a sealing profile or done by a soldering or welding process. The profile connection must have a have sufficient air and water tightness. Which resulted in the Zig-zag course forming gutters are used in the tumble dryer Sequence of the forming condensate. This will then be outside the heat exchanger discharged in a suitable form or pumped out. By the stacked profile packages creates a heat exchanger, depending after execution of the outer frame as a cross, counter or DC heat exchanger can be executed.

Instead of the illustrated aluminum profiles is also the use of a plastic profile possible. But there are also all others for producing thin-walled Profile elements suitable materials with depending on the application required thermal conductivity conceivable, such as copper sheet, sheet iron, alloyed sheets etc.

Particularly advantageous is the illustrated embodiment in terms of deposition foreign bodies such as laundry fibers. By the omission of the known heat exchangers usual turbulence and lamellar deposits or the in the hollow sections incorporated webs, and reduces the smooth air inlet surface On the one hand the possibility of the deposition of fiber particles in the heat exchanger, on the other hand, the removal by blowing or rinsing much easier. As a result, with the heat exchanger according to the invention a substantially consistently high efficiency can be achieved or reduces the otherwise usual maintenance costs for cleaning the heat exchanger to a considerable extent.

The stack of plate elements is held together by frame elements 9, wherein the transverse webs 10, which at the edges 6 of the plate elements 2 abut, either part of the frame member 9 may be, or separate Are components which are connected only to the edges 6. Depending on the application and embodiment, the frame members 9, the transverse webs 10 and the plate members 2 of the same or different materials be made.

The particular advantages of the heat exchanger according to the invention are that the body for heat exchange apart from the frame 9 only one single component, namely the plate element 2 is used, which due to its profiling even with small wall thicknesses, aluminum sheet for example, from 0.2 to 0, 4 mm, no distortion by the occurring Subject to media forces. The lower wall thickness of the material causes a reduction of the weight of the entire component compared to comparable Heat exchangers by up to 40%. As the top and bottom layer can also Covering, protection or baffles other profiling be provided.

Another advantage is that the production costs compared to conventional Heat exchangers is much lower, for example, no Bonding or soldering between carrier plates and Wärmeleitwellenblechen is required. In longitudinal profiling of heat exchangers as capacitors - For example, in tumble driers - the troughs simultaneously act as gutters of separated condensate. The Kondensatabscheiderfläche is essential here compared to the same size conventional heat exchangers, i.e. increased by up to 30%.

Claims (11)

Heat exchanger for heat exchange between gaseous and / or liquid media of different heat content, which is composed of stacked, substantially rectangular plate elements (2), wherein the flow channels (7, 8) for the primary and the secondary medium alternately follow one another, characterized that the flow cross-section is constant over the plate surface is essentially and adjacent profiled and identically oriented plate elements (2) each of two mutually opposite parallel edges (5) are connected, and that this compound is present alternately at respective mutually perpendicular edges (6). Heat exchanger according to claim 1, characterized in that the plate elements (2) made of a thermally highly conductive material, preferably made of an aluminum, copper or stainless steel sheet or an alloy of aluminum, copper, magnesium, silicon or iron or other conductive material exist and are produced by non-cutting metal forming, in particular by thermoforming or pressing process. Heat exchanger according to claim 1, characterized in that the plate elements (2) by plastic injection or plastic pressing process of a thermally highly conductive plastic such as an acrylonitrile-butadiene-styrene polymer, polypropylene, polystyrene, polyethylene or polycarbonate are preferably glass fiber reinforced produced. Heat exchanger according to one of claims 1 to 3, characterized in that the plate elements (2) are profiled uniformly, wherein the profiling is a transverse to the direction of passage of the primary medium extending triangular zig-zag pattern (3), or of sinusoidal or sectionally rectilinear and curved Line trains exists, which in the edge region (4) are preferably designed to be flat. Heat exchanger according to one of claims 1 to 3, characterized in that the profiling of the plate elements (2) consists of evenly distributed over the inner surface imprints and the profiling in the edge region (4) is preferably designed to be flat. Heat exchanger according to one of claims 1 to 5, characterized in that the stacked plate elements (2) are bordered by frame elements (9), which are made of plastic or metal and consist of a circumferentially closed frame. Heat exchanger according to one of claims 1 to 6, characterized in that the edges (6) of each two superimposed plate elements (2) of flow moderately shaped transverse webs (10) are completed and connected to these air and water tight. Heat exchanger according to one of claims 6 or 7, characterized in that the frame element (9) in particular has horizontally extending transverse webs (10) which close off the edges (6) of the plate elements (2) and are connected to these air and water tight. Heat exchanger according to one of claims 1 to 8, characterized in that a line-shaped profiling (3) with respect to the flow direction of the primary medium is oriented at an angle of -45 ° to + 45 °. Heat exchanger according to one of claims 1 to 9, characterized in that the plate elements (2) according to the nature of the conveyed media of untreated metal or enamelled, anodized or painted and / or have a roughened or chemically etched surface to increase the turbulence behavior. Heat exchanger according to one of claims 1 to 10, characterized in that spacers between the plate elements (2) are provided.

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