DE2126226A1 - Heat exchanger - Google Patents

Description

"Heat exchanger"

The invention relates to a heat exchanger, in particular a boiler, with a number of a heat transfer medium or heating water flowing through it, to each an inlet and a return tank connected-and Tubes having rib elements and with a heat source for heating the heating water, wherein the rib elements are made up of adjacent ribs and one rib profile each having plates are assembled and their ribs interconnected channels to take up the heating water.

There are already known heat exchangers or boilers in which a number of rib elements are assembled in this way is that a bundle of lines is created, which is the generally used in such heat exchangers so far, tube bundles consisting of single tubes joined together practically corresponds. Although such rib elements facilitate the construction of boilers of non-standard dimensions by using prefabricated elements in the

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required. Number can be put together easily and quickly the heat output of the heat exchangers formed from conventional fin elements compared to the classic construction with tube bundles not improved, since the lines of the elements in the same way Way as with conventional tube boilers are arranged.

It is an important object of the invention to provide rib elements in a simple and economical manner create the space requirement that is invariable with respect to heating pipes or to already known rib elements guarantee an increased heat output of the boiler. In a heat exchanger of the type mentioned at the beginning 'Art is provided according to the invention that the ribs on the plates forming the elements meander or loop-shaped arranged and each on zxiei associated plates are offset from one another.

In a preferred embodiment of the invention, the ribs of each plate point parallel to one another and in the same way Spaced straight parts which are connected in pairs by a curved part.

The invention is carried out with great advantage so that the straight parts of the ribs of a plate against the corresponding straight parts of the other plate with the formation of clearly separated channels by about half of the Center distance between the straight parts of two neighboring Ribs are offset.

Further features, details and advantages of the invention emerge from the following description of some exemplary embodiments with reference to the drawings. It shows:

Fig. 1 is a side view of an inventive Boiler element,

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^v "Fig. 2 shows a section corresponding to the line 11-11

in

Figure 3 is a perspective sectional view of two ** - the elements shown in Fig. 1 before their Assembly, -

FIG. 4 is a side view, similar to FIG. 1, however in an enlarged scale, a variant of the one in Fig :. 1 part shown

Figures 5 and 6 are sectional views along the lines V-V and VI-VI in Fig. 4-,

Fig. 7 »8 and 9 are sectional views, similar to FIGS. 2 and 5 _5" of further embodiments for Pdppenelernente.

. Similar or identical components are shown in all figures the same reference numerals.

The elements marked with Λ in the drawings are used when combined to form the part of a heat exchanger or boiler in which the heating water is heated. This group of elements 1 is usually arranged over a heating fuel burner (not shown in the drawing), for example a bed gas burner, the size and number of the elements used being selected depending on the desired boiler output . Each element 1 has loop-shaped hollow ribs 2 on both sides, which delimit the channels which are connected to one another and which receive the heating water. As shown in FIGS. Λ to 3, the elements 1 are formed for example by two plates 3, and CAEE aneinaiiderliegen sine interconnected. Fig. 3 shows how the plates 3 are joined to one another to form the element 1, this figure showing two plates 3 not yet attached to one another. The flats 3 provided with a rib profile are advantageously made of sheet steel, formed in the deep-drawing process and provided with ribs 2, which are arranged parallel to each other and at the same distance from each other en ti-3 arranged Ler & de 'i-'eile auivveir-en, the p & erweiee linked by a £ 7? kri5ju :: te £ - * part 5 Find.

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BATH ORIGINAL

Vm Hen through radiation and convection, achieved exchange ζ v / i see the burner, the heating gases and to improve, two plates 3 become one! Element assembled so that the straight parts 4 of the ribs 2 of one plate are offset from the corresponding straight parts of the ribs 2 of the other plate by an amount that corresponds to about half the center distance between two adjacent ribs. In this way, the straight parts 4 of the ribs 2 of each plate form channels that are clearly separated from one another. The channels located on one side of the element are only in connection with the channels on the other side of the same element in the area of the curved parts 5. Due to the loop-shaped design of the ribs 2, the flow of the heating wax can be influenced in such a way that no area with stagnant heating water is created in any of the elements, which creates overheating zones with a changed service life of the elements and noise formation in the boiler could be caused by the between the ribs Offset existing on the large opposing surfaces of the elements, it is possible to dispense with corresponding baffles and the like between two adjacent elements, with the help of which otherwise a turbulence of the heating gases and thus an increased heat exchange between these and the heating water would be achieved. This is a significant advantage of the invention over conventional designs with elements that have an almost flat surface and therefore require the installation of gas guide plates between the elements in order to be able to exert the desired advantageous influence on the heat exchange. Here, however, the training and the ramming of the elements is made much more difficult, which on the other hand leads to a considerable increase in the costs of such boilers equipped with gas guide plates. Compared to conventional elements, the elements according to the invention offer the advantage that they already create the necessary guiding effect through their construction alone, but also leave the space required for the gas to flow out with a constant between two adjacent elements, Co that the company exchange can be improved by convection without unnecessary pressure loss.

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I ¹ Ig. .ό shows three elements forming a unit before they are assembled. The ^ ', iiäle of these two elements are connected to one another via the holes 15 and a connecting piece 10 arranged between the elements. A sleeve 11 provided with openings 13 is arranged between the two plates of each element in such a way that it extends over the entire length of the opposing holes 15 and thus creates a cylindrical passage into which the channels of these elements open via the openings 13. The cylindrical passages and the connecting piece 10 together form a line which can be connected to the feed tank, for example, via a drilling line (not shown) extending from the nozzle 6 of the connecting piece 10.

ßchreubkappen 9j which on the ends, one through the cylindrical Passages and through the connecting piece 10 are screwed shafts 8, serve as .Verschleußstopf en for the holes 15 of the end plates. This shaft 8 and the screw caps 9 together form a pull rod, by means of the two cements and the connecting piece are pressed against each other. At the contact points between the elements and the connecting piece 10, the elements are through the sleeves reinforced.

The channels are in the same way as described above these elements are also connected to the return tank. This connection is made by a second group of cylindrical Passages, a second connection piece and a second shaft causes em another, in the I'ig. 3 not shown Tie the end of the channels. Both between the elements and the connecting pieces 10 as well as between the screw caps and the elements 1 are seals for sealing the system intended.

The i '".' For a unit consisting of two elements also apply analogously to any other unit that f; .Uf; ΐιΐ.ο. ': Γ ils zv.'ei elements In these! 'all up? il' - di; - 3 i the j-.iizsal of the used .'i / ißchluPstücko increased

2 0 9 8 f ώ f 0 6 2 ^BAD

and the length of the shafts 8 accordingly adapted to werce:; .. In general, however, there is only one connection piece at a time a unit is equipped with a nozzle and dr.f? the Length of the connecting piece corresponding to that between two adjacent ones Elements desired spacing is selected.

In FIGS. 4 to 6, a "variant of the one shown in FIGS. 1 to shown element, but here only those differing from the representation in FIGS. 1 to 3 . Components that are described below are drawn.

From FIG. 1, only that according to FIG. 4 is changed upper left part of the element. A similar change, however also not shown, concerns the left one lower part of the element according to FIG. 1.

In the embodiment shown in FIGS. 4 to 6 are the channels of the various elements both to an inlet container 14 as well as a Huck not shown here - running tanks, both of which extend at right angles to the elements, connected. In the container 14, the partially is mounted on the edge of the elements and has a rectangular cross-section, opens a hollow rib on each side of the associated element. From Fig. 4 it can be seen that the elements in the area of the container 14 are smaller Have length.

The elements shown in FIGS. 4 to 6 no longer necessarily have to be joined together with the aid of tightening rods 8 but can be used to form the group directly the container 14 welded on?; earth.

Fig. 7 shows that each element with advantage also from one single plate by bending along the median line and can be made parallel to the clans of the plate. The two halves of the plate are gently folded against each other and connected to one another in the manner already described, see above that a lower Ksnal 17 arises, does not advise any of Beizvras & er non-cooled 3 area against the zones of high temperatures

_ 7 "

. "Se;, :::;, the elements are in the ε em area against IuC;." Li.ehe --cnchiidi belts, protected.

In order and any damage similar to the corresponding Figures 1, 2 and 8;. Ui, to prevent formed elements germinate these iii advantage it ro us ι be formed in the region of the Dess Funktee 20 cie in the B'-rich of the high temperatures lying Edges Ί8 of the flats forming the cladding are separated and the flats are then connected to one another in this area in such a way that either: the edge 19 of the rib of a rib with the flat part 21 of the other panel or the edge 22 of the senses with the I-middle plate 16 welded together.

In l ^r ig. 8, a further embodiment is shown in which ö ^{e (3es} -leinent, is formed from a single plate 16. On both Feiten this plate are mounted Hinnen "12 sordt form the channels. The channels ^A 2 were νοΓζι ^ ε- They are welded to the plate 16 and run in the shape of a loop, thus forming channels along the two surfaces of the flat which are only connected to one another by the two cylindrical passages provided in the element joined to that according to the ^l;. ig 1 to 3 formed elements.

In order to avoid damaging the element in the lower area exposed to the high temperatures, the lower hand of the Ρΐε-tte 16 (as shown in Fig. 9) is folded over and forms the channel 17 so that the exposed to the high temperatures Part of the element through which the Keizv / water can be cooled.

All from the claims, the description; and the drawings emerging features and advantages of an invention, including structural details, spatial arrangements and ^ 'cri' £: steps, can be done as well as for yourself in any combination.

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BATH ORIGINAL

For example, a V / äi ^ eoustauGch-r, in sb it can locate a boiler ,, an R; diator etc. from a number of groups such, compounded in the manner described Elements be formed.

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Claims (1)

PA [TEHT CLAIMS Heat exchangers, in particular boilers, with a number of one heat transfer medium bz; * r. through which heating water flows, connected to an inlet and a return tank and tubes having finned elements, and with a heat source for heating the heating water, wherein the rib elements are composed of plates lying next to one another and each having a rib profile are and their ribs form interconnected channels for receiving the heating water, thereby characterized in that the ribs (2) on the plates (3) forming the elements (1) meander or arranged in a loop and each on two associated Plates (5) are offset from one another. Heat exchanger according to claim Λ , characterized in that the ribs (2) of each plate (3) have straight parts (A-) which are parallel to one another and equidistant from one another and which are connected to one another in pairs by a curved part (5). Heat exchanger according to Claim 2, characterized in that the straight parts (4 ·) of the ribs (2) one plate (3) against the corresponding straight parts (4-) of the ribs (2) of the other plate (3) below Formation of clearly separated channels by about half the center distance between the straight parts (4-) two adjacent ribs (2) are offset. Heat exchanger according to claim 3 ·> characterized in that the channels of one and the other 209810/1062 Plate (3) in the area of the channels of each individual plat te pair of curved part connecting each other (5) communicate with each other. 5. Heat exchanger according to at least one of the claims to 4, characterized in that the each such a rib element (1) forming plates (5) from a single, along their center line and parallel to one of its outer edges curved plate (16) "exist, the plate halves against each other folded and with the formation of channels (1?) with each other are connected. 6. Heat exchanger according to at least one of claims 1 to 4-, characterized in that the elements (1) consist of a central plate (16) with grooves (12) attached on both sides of this, which Ribs (2) form channels. 7 · Heat exchanger according to claim 6, characterized in that g e k e η η-. shows that the bent, folded edge of the central plate (16) is the lowest, 'of the heat source forms the closest channel (17) of an element (1). 209810/1062