DE1259362B - Heat exchanger with plate-like heat exchange walls made of easily flexible plastic films - Google Patents

Description

Heat exchangers with plate-like heat exchange walls made of slightly flexible Plastic films The invention relates to a heat exchanger for at least two fluids with a housing in which several plate-like heat exchange walls are arranged are made of easily flexible plastic films, with means provided are to the heat exchange walls even at different pressures of the heat exchanging fluids to keep at a distance from each other.

In a known heat exchanger of this type (Swiss patent specification 230 568) films arranged parallel to one another are stretched in the housing deflections caused by the different pressures of the heat exchanging fluids by support means, which od by a fabric, a grate, a sieve. The like. Formed can be limited. Since it can be assumed with these support means, that they freely span the respective film surface from housing wall to housing wall, also occurs in the presence of these supporting means, their dimensioning in relation to Flexural strength limits are set, nor a significant deflection of the foils on. The distances between individual foils must be dimensioned accordingly large, which are also further increased by the thickness of the support means, so that the known heat exchangers have the disadvantage of a low packing density of the heat exchange surfaces adheres. It is also inevitable that the support means in turn have reaction forces exert on the housing of the heat exchanger, which causes the disadvantage that the housing must be dimensioned for this additional stress.

The invention is based on the object of eliminating these disadvantages.

According to the invention this is achieved in that the film walls through the edge closed circumferential connections to flowed through by a heat-exchanging fluid and inflated pairs of elements are combined and the two film walls each Element pairs within their closed circumferential connection in such an additional way are interconnected (additional connections) that they are inflated result in a flat, hollow plate-like pair of elements.

Such a heat exchanger is easy to manufacture because it is immediate There is no connection between the foils and the housing walls; the element pairs are separated manufactured and housed in the housing, e.g. B. hung in this. For this Basically, changing the pairs of elements does not cause any great difficulties more. Care is taken that the pressure of the fluid that the element pairs flows through, is always greater than the pressure of the other fluid, at most the same this pressure is (which in practice does not cause any difficulties), so can the foils no longer approach to an impermissible extent and the passage cross-section for affect the fluid flowing outside the element pairs.

It is already known (French patent specification 1. 184 028), two film walls at the edge through closed circumferential connections to one of summarize a fluid flowed through and inflated pair of elements and the two film walls of this pair of elements within their closed circumferential Connection so in addition to connect with each other that they are in the inflated state result in a flat, hollow plate-like pair of elements. However, this is what it is a hot water bottle or warming mattress and not a heat exchanger for at least two fluids, which is designed according to the preamble of the main claim.

Refinements of the invention emerge from the subclaims.

In the drawing are some embodiments according to the invention illustrated. In it, F i g. 1 shows a pair of elements according to the invention, FIG. 2 shows a section along the line II-II in FIG. 1, Fig. 3 to 8 modifications of the Embodiment according to FIG. 2, fig. 9 several interconnected pairs of elements, F. i g. 10 shows a pair of elements with fastening parts, FIG. 11 two pairs of elements with other fasteners, F i g. 12 shows a modified pair of elements and FIG. 13th a section along the line XIII-XIII of FIG. 12th

F i g. 1 shows a pair of elements of the heat exchanger according to the invention, which consists of two flat sheets. The foils are on numerous parallel seams, which represent the additional connections 15 and a closed seam 14, with one another tied together. The seams can, except for those closest to the edge of the film, which the form closed seam 14 by rows of points, e.g. B. spot welds, in straight or staggered arrangement can be replaced.

The closed seams 14 closest to the edge of the film are arranged in such a way that they close the space between the foils to form a sealed interior, so circulate completely. For the entry and exit of the internal fluid are the Openings 16 are cut out in the foils.

The seams mentioned can also be found on the top and bottom of the foils be carried on so that they form an outlet, such as with paper sacks Filler neck, so that the resulting heat exchange element is connected to fixed pipe sockets can be.

In the embodiment according to FIG. 1 are in the vicinity of the openings 16 instead of parallel seams, the distributor seams 17 in the flow direction of the inner Fluids or connection points 18 arranged, namely at such a distance from one another, that between them the sheeting does not inflate any higher in the operating state can be considered between the parallel seams or rows of points that make the additional connections 15, so that a structure of the same thickness is created everywhere, but on the other hand so that the fluid passes through the spaces between the seams that make up the additional joints 15 form, can run as evenly as possible.

In the operating state, such a heat exchange element takes the in F i g. 2 shape shown in section.

This heat exchange element becomes through tensile forces in the transverse direction claimed, the flow cross-sections for the fluid are narrowed. In many In some cases, an embodiment according to FIG. 3, which are also included in lower internal pressures forms the full flow cross-section. The heat exchange element consists here of two flat foils 19, 20. The foil 19 forms, in contrast to foil 20, between two seams a loop of greater length than the film 20 between has the same seams. When inflated, the result is a shape according to FIG. 4th

The accommodation of a larger area allows an arrangement according to F i g. 5, with two flat foils 21, 22. Between two seams alternating foil forms 21 and 22 a loop of greater length than the other film between the has the same seams. In the inflated state there is a shape Fi g. 6. Preferably the ratio of the length of the loop of one film to the length of the other film between the same weld seams so dimensioned that the cylindrical structures that arise during the expansion apart from the seams do not touch each other, but between them a gap 23 for the access release the external fluid.

The absorption of larger transverse tensile forces without deformation is also possible an arrangement according to FIG. ', from three flat sheets 24, 25, 26. Between two sewing. Each of the three foils that connect all three foils to one another form the outer ones Foils 24, 2 (loops of greater length than they do the foil 2; between the same Has seams. When inflated, the result is a shape according to FIG. B.

The heat exchange elements formed in this way are connected to one another, in that according to FIG. 9 ar the openings 16 hose pieces 27 are attached, the allow the passage and entry of the internal fluid. The length of the hose pieces 27 is used for the passage of the external fluid between the heat exchange elements dimensioned as expediently determined distance. The one on the last heat exchange element attached hose pieces 27 are longer and lead through the outer wall of the housing to the outside as an inlet or outlet line for the inner fluid.

For the assembly of the heat exchange elements are shown in FIG. 10 am upper edge carrying loops 28 attached. These are attached to hooks 29 and so hold the heat exchange elements. These are hung in a row, and although at an appropriate distance for the passage of the external fluid.

In Fig. 11 another suspension arrangement is illustrated. In this case, the exchange elements have reinforced openings 30 at their edges on, through which the support rods 31 attached to the housing run.

The housing of the heat exchanger can, instead of being a separate component made, can also be formed from parts of the heat exchange elements. If in the manufacture of the heat exchange elements, the flat sheets according to FIG. 12 over the closed seams 14 closing off the interior space also correspondingly far can survive, so these protruding edges 32 of the facing Flat foils of two adjacent elements through seams 33 that run around without gaps, are connected in such a way that they are between these two heat exchange elements form the outer wall of the heat exchanger, as well as F i g. 13 shows in section. For the inlet and outlet of the external fluid are in this case the passages 34 provided, which are cut out in all flat foils belonging to a heat exchange element and lie between the closed seam 14 and the circumferential seam 33. The sum of all these passages in all heat exchange elements then forms one only with the space between the heat exchange element surrounding the heat exchange elements and outer wall communicating channel for entry or exit of the outer Fluids. At the points where these passages are arranged, the width is of the space between the closed seam 14 and the circumferential seam 33 inevitably to enlarge, so that here inevitably a larger one when inflating Would set gap between the heat exchange elements than on others Place. Between the passages 34 and the outer seam 33 is therefore one further auxiliary seam 35, which, like the closed seam 14, are mutually exclusive facing flat sheets one and the same heat exchange element connects, laid. This auxiliary seam has the same distance from the circumferential one Seam 33, as the closed seam 14 has at the other points of the circumference, so that they also here when inflating, as F i g. 13 shows the distance between two neighboring heat exchange elements are limited to the same value as it is on other places the closed seam 14 in connection with the additional seam connections 15 sets.

The distance between the circumferential seam 33 and the closed one Seam 14 or where the auxiliary seam 35 is closer to the seam 33 than the closed one Seam 14, between the circumferential seam 33 and the auxiliary seam 35, is to be dimensioned in such a way that that it is at least half the desired distance between the center lines of two adjacent heat exchange elements and no more than the length of a quarter-circle arc is above the desired distance as diameter.

In the first case, the desired distance is achieved when the film in the operating state between the seams 33 and 35 as far as possible in the longitudinal direction of the heat exchanger is stretched, in the latter case, however, if the film forming the outer wall at this point is covered by a seam 35 (or 14) over the closest seam 33 to the next seam 35 (or 14) to one semicircular cross-section is inflated.

Which of these cases - or the possibilities between them - occurs in the operating state depends on the overall dimensions of the heat exchanger and on the pressure conditions.

In particular in the case of the arrangement with limitation described above the shape of the outer wall by means of walls made of solid building materials on the outside it is possible, the two ends of the heat exchanger in the longitudinal direction by such limit massive walls. The tensile forces in the outer wall as a result of the impact of the ends occur with the pressure in the space surrounding the heat exchange elements and which also cause the above-mentioned stretching of the outer wall, are then omitted, so that the outer wall between the attachment points of each heat exchange element, about the seams 35 or 14, inflates to a curved cross-section. This will the entire heat exchanger in any, by the distance of the limiting Walls shortened to a certain extent. This shortening extends because of the similar Shape of the sections of the outer wall between all heat exchange elements evenly on the distance between all heat exchange elements, namely the sections the outer wall between these all the same, in the surrounding the heat exchange elements The pressures of the room and all of them suffer from the same bloating.

For the production of larger units of heat exchangers from foil is first the scale-up of the described arrangements in all their dimensions conceivable. However, it becomes useful when dimensioning the distances of the parallel seams according to positions 14 and 15, which are the diameter of the inflation Determine the resulting cylindrical structure, do not exceed certain values. When the diameter of these structures is increased, fewer units of area can be used in the room unit. If the permissible pressure drop allows this, one will z. B. stay with diameters of less than 20 mm.

To maintain the pressure conditions required for operation in the outlet lines of one or both fluids fixed in the flow cross-section or variable throttle elements arranged, the passage cross-section of the the last-mentioned throttle elements are regulated as a function of the pressure in front of the same will. Of course, the cross section of the outlet lines can also be narrowed to that extent be that this already creates a sufficient throttling effect. In the end it is also conceivable to have a safety valve in the inlet and / or outlet line and / or to install a pressure regulator.

Claims (10)

Claims: 1. Heat exchanger for at least two fluids with a housing in which several plate-like heat exchange walls are arranged, which consist of slightly flexible plastic films, with means being provided to keep the heat exchange walls at a distance from one another even with different pressures of the heat exchanging fluids , characterized in that the film walls (19, 20; 21, 22; 24, 26) are combined at the edge by closed circumferential connections (closed seam 14) to form inflated element pairs (10) through which a heat-exchanging fluid flows and the two Foil walls of each element pair (10) within their closed circumferential connection (closed seam 14) are additionally connected to one another (additional connections 15) in such a way that they result in a flat, hollow-plate-like element pair (10) in the inflated state. 2. Heat exchanger according to claim 1, characterized in that as additional compounds (15) flexible components (e.g. tapes) are provided. 3. Heat exchanger according to claim 1 or 2, characterized in that the additional connections (15) consist of welded or glued seams arranged at regular intervals or of 1Zeihen of welded or glued points distributed over the surface and the openings (16) for the insertion and the medium emerges as perforations in the film surface within the closed seam (14). 4. Heat exchanger according to claim 3, characterized in that between the inlet opening (16) and the additional seam connections (15) arranged in a radial manner distribution seams (17) are. 5. Heat exchanger according to claim 1 to 4, characterized in that the element pairs consist of two foils (19, 20), one foil, viewed in cross section (19) between each two parallel, adjacent additional seam connections (15) one forms larger loop than the other film (20, F i g. 3, 4). 6. Heat exchanger according to claim 1 to 4, characterized in that the element pairs from two Films (21, 22) are made, where, viewed in cross section, both films (21, 22) between two parallel adjacent additional seam connections (15) alternately Loops of greater length form, with the ratio of loop lengths between two additional seam connections (15) to each other is chosen so that the inflation resulting cylindrical structures are only in the area of an additional seam connection Touch (15) (Fig. 5, 6). 7. Heat exchanger according to claim 1 to 4, characterized in that that the element pairs consist of three foils (24, 25, 26), the outer ones Foils (24, 26) between two additional seam connections (15) loops larger Form length than they form the inner film (25) between the same additional seam connections (15) (Fig. 7, 8). B. Heat exchanger according to claims 1 to 7, characterized in that that the outside of the closed seam (14) lying edges (32) of adjacent, however, foils belonging to two different pairs of elements are provided with seamlessly encircling foils Seams (33) are joined together and in the area between the closed Seams (14) and the circumferential seams (33) passages (34) are arranged, which so side by side that they have a continuous channel for entry or exit of the fluid flowing around the element pairs (Figs. 12, 13). 9. Heat exchanger according to claim 8, characterized in that further auxiliary seams (35) connecting the foils of the same element pair are arranged, the same distance over their entire length from the circumferential seams (33) have like the closed seams (14) in the remaining part of the foils. 10. Heat exchanger according to claim 8 and / or 9, characterized in that the distance between the closed seams (14) and the circumferential seams (33) and between the circumferential Seams (33) and the auxiliary seams (35) is the same everywhere and dimensioned so that it at least half the desired distance between the center lines of adjacent pairs of elements and at most the length of a quarter-circle arc, the diameter of which is the distance is the center lines of adjacent heating panels. Considered Publications: German Patent Nos. 929 613, 835 008, 831264; Swiss U.S. Patent No. 230,568; French Patent No. 1184 028; UNITED STATES. -Patent specification No. 1476 258.