DE2039841A1 - Lamella heat exchanger - Google Patents

Description

Patent attorneys

Dr, O. Loe: enbock-

Dipl jpg. Insert 2039841

Dipi.-ing. Loesehbeck
i \ J öiiieföid, Hsrfarcier Strslje 17

9/11 '

Benteler-Werke Aktiengesellschaft, 48 Bielefeld, Weidenste. 10-16

Lamellar heat exchanger

The invention "relates to a lamellar heat exchanger old TJ-hair dryer slots on one or" both LaiaelleBlagsSeiten for receiving an ear system, preferably a Hohrsohlange.

Such heat exchangers are used for a wide variety of purposes, namely in air conditioning systems, in heating and cooling devices, as evaporators, condensers and the like. "

In the heating, refrigeration and air conditioning technology, heat exchangers are known, in which fins made of thin sheet metal to achieve large aluminum exchange surfaces "with static and also " with dynamic ventilation with holes provided for this purpose are pushed onto hairpin- shaped bent tubes. , whereby larger or smaller lamellar spacing is selected depending on the application. It is necessary that the lamellae on the Höhr .fest amfsits © a ^ ■ to create a good weather condition - Zm di © s © m 2ifeek w © 3? D @ a the hole diameter of the Laaelleii alt Ifiaiiis-Se g and · often- forcibly postponed to the haaEsadelf & M ± g gefe @ g © a © a . It has also sckoa. di © Behsnngea dos AiaiSSo knife adapted to the lohre, whereby there "b © I ab © 5? ams © & l ± @ s§ © B € t © im. Weiten'der'Rohre dmrcli flanging the straight gea mus3, mad % wax aack de «Liifschiebea Her" slats to cool your seat »

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The main disadvantage of such heat exchangers is there in that relatively high manufacturing costs arise because the connection between successive pipe bends must be carried out by means of reverse bends to be soldered, the number of which corresponds to the number of pipe bends used. Apart from that Due to the high manufacturing costs, the large number of these soldered joints considerably increases the risk of possible leaks. Another major disadvantage of the heat exchanger described is that the fins by hand or must be threaded individually by machine. This is time-consuming and expensive as manual work is required.

To reduce these risks and at the same time reduce manufacturing costs heat exchangers are known in which the sheet metal lamellas are adapted to the tube diameter have, in which the meandering curved, one-piece pipe coil is pressed in. A major disadvantage here is that there is no perfect system for all Lamellas can be achieved on the pressed-in tube, but this flawless system on the one hand for reasons of mechanical strength of the heat exchanger element must be required and, on the other hand, for reasons of good heat transfer, the unbe-φ thing is required. This flawless contact of all the lamellas on the pressed-in tube can be achieved in this described embodiment reach the heat exchanger with difficulty or not at all.

The object of the invention is to overcome all of the disadvantages mentioned to eliminate and to create a heat exchanger in which optimal conditions with regard to the installation of all fins are present on the pressed-in tube with regard to the heat transfer at relatively low manufacturing costs with elimination significant manual labor,

The invention is that the edge spacing each Slot in the opening area adapted to the pipe diameter, here

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but it is narrower than the bottom of the slot in such a way that the drilling sound of the rounding of the slot is safely absorbed and with play after inserting it can be pressed ovally in such a way that the tube is firmly fixed in the entire foot of the slot and nods more detachably the lamella applies. The Aufnähme slots after the Have slightly conically tapering flanks towards the opening side, but there is also the possibility of the receiving slots to be narrowed in the area of the opening side. Hacking the insertion of the pipe snake will put the pipe on the entire inner calf The length of the lamella set is pressed on and slightly ovally deformed in such a way that a good contact on the whole is possible Scope is seeped. At the same time it is achieved that the individual fins can nod away more from the pipe.

Another sekr essential idea of the invention is bestekt to further improve the heat transfer and to Stiffening of the lamellas made of thin sheet metal, the slot-shaped openings with one, especially in the area of the Rokranlage to provide raised collar. This collar can At the same time for the exact spacing of the lamellas mntereiaamder to serve. This measure is, on the one hand, a considerable assembly aid given, on the other hand, the heat dissipation is also improved and the third factor is that the Stability has been coked.

Further characteristics and features of the invention result from the advantageous examples given below and described below Embodiments.

Show it:

Figure 1 of a heat exchanger mounted, Figure 2 shows the combination of two lamellar constructions, the

Coiled pipe has been omitted from the illustration, FIG. 3 shows a lamella in a side view, Figure 4 shows another exemplary embodiment of the arrangement of lamellae,

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FIG. 5 shows a section along the line V-V of FIG. 4, FIG. 6 a section of a lamella,

FIG. 7 shows a section along the line VII - VII of FIG. 6, FIG. 8 shows a further exemplary embodiment of a lamella, FIG. 9 the exemplary embodiment from FIG. 8, the lamella The zigzag is wavy in side view.

The lamellar heat exchanger 1 according to the invention, which is shown in an exemplary embodiment in FIG. 1, consists of a drilling system 2 with attached lamellas 3 are connected to one another, the arrangement of a single snake, which is for example meandering or lies in large elongated spirals in the heat exchanger is much more advantageous. This heat exchanger can be used for heating, cooling and air conditioning, regardless of whether it works as an evaporator or a condenser or as a heat exchanger in caravans or for air conditioning in cars.
In order to be able to equip the one-piece coil or pipe system 2 with the lamellae 3, the lamellae 3 have U-shaped slots 4 which are arranged on the outer edges of the lamellae 3, either on one or both of the long sides of the lamellae.

The slots 4 are adapted to the pipe diameter in the opening area. But they are narrower than the base 14, which receives the pipe. The arrangement is in the individual figures of the pipes is shown schematically and the pipe routing is shown with dash-dotted lines. In Fig. 2 are the pipe ends designated by 12. The tube lies in the entire bottom of the slot 4, initially with some play, after which the tube 2 is pressed oval so that it is fixed in the bottom of the slot 4 and is no longer detachable. This position is shown in FIG. 6.

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The slots 4 can each narrow to the opening string iia, in one stage, like the various exemplary embodiments show so that the flanks 24, which are parallel to lying on top of each other, the "somewhat tight passage for the round tube ". It is also possible to use the Banks 24 to merge and the narrowest point to be adapted to the pipe diameter directly at the exit of slot 4 « This embodiment is made clear in Fig. 8 in dash-dotted lines at the two lower slots 4. Normally but you will choose a simple narrowing because this is less easily leads to damage than slightly at an acute angle to one another running edges that would be present with a taper ο

XTm facilitate the pressing of the lamellas 3 into the holir system 2 au, the slots 4 are directly on their input side on the bucket larger opening 34 widened, a Hmadmag can also be placed here be to the- se & oaes »We. di @ In order to be able to press in the socket or the drill 2, the test-made person must generally Drilling spiral or the like, the distance between some eels is maintained become equal between the individual eofers Relationship as the slots 4 are to each other. Because Mer MaB inaccuracies can occur, especially since it is curved Hohre, the extended Eiagaag 34 is generally this Context important »

Furthermore, there is a very weseatlicke.r Gedaatee d @ 3? in that- the IT-insiders. Sohlitae 4- ia d © a Lamellsa 5 ia regioni des-Eolires 2 Tbaw. dee Eolirsysteas Mit Isragenföraigea ietrangen to improve the Wäxmedurcb.gaQg@s mid d @ r F the lamellen Terselem are. Pintuck collar fSraigöB Erfeeteageia 15 also ensure a perfect sita of the lamella, because they represent small kihrungea, so that the lamella can never be placed on the pipe system 2. However, the very gauges should also be desired, so the collar 13 must also be placed at an angle.

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In Fig. 2, an embodiment is shown in which a Lamella 3 is provided on one side with slots 4, while the adjacent lamella carries two-sided slots that are arranged offset from one another.

There is also the possibility of corrugating the lamellae in a zigzag shape in the direction of flow of the ambient air in order to enlarge them the strength and the heat exchange surface. This can be seen in FIG. 3 and FIG. 9. In Fig. 3 is a wavy line shape 9 shows a zigzag shape each provided with bevels.

There is also the possibility of producing the end lamellas 3 ¹ within a lamella pack from thicker sheet metal than the inner lamellae 3 and, if necessary, to provide them with fastening flanges 23.

When assembling the heat exchanger, a comb known per se is preferably used, the tubes being ovalized in groups can be done with a bar. This has the considerable advantage that there are keira weld points when the heat exchanger is installed are available, no threading work is necessary and no holding and fastening means have to be provided. It is also no longer necessary to flare the drill and consequently the drilling can easily be meandering or in elongated spirals. It can be of the most varied Drilling systems are used in the subject matter of the invention, The given advantages of the lamellae formation remain in all designs.

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Claims (11)

Claims VI. ! Lamellar heat exchanger with U-shaped slots on one or both lamellar longitudinal sides to accommodate a pipe system, preferably a pipe coil, characterized in that the flank spacing of each slot (4) in the opening area is adapted to the pipe diameter and is narrower than the base of the slot (4) in such a _t that the tube (2) securely received from the rounding of the slot (4) with play and is such oval pressed after notice that the tube (2) in the entire base (14) of the slot fixed and does not more releasably applied to the lamella (3). 2. lamellar heat exchanger according to claim 1, characterized in that that each of the XJ ~ shaped slots (4) is to the opening side narrowed down. 3. lamellar heat exchanger according to claim 1, characterized in that that each of the TJ-shaped slots (4) tapers towards the opening side. 4. lamellar heat exchanger according to claim 1 and one of the following Claims, characterized in that the U-shaped Slots (4) in the lamellas (3) in the contact area of the tube (2) are provided with collar-shaped elevations (13). 5. lamellar heat exchanger according to claim 1 and one of the following Claims, characterized in that the U-shaped Slots (4) to accommodate the pipe system or the pipe coil (2) arranged offset from one another on both longitudinal sides of the lamellae are, with the slots to the central axis of the lamellas (3) extend towards and at right angles to the longitudinal sides of the slats lie. 209808/0902 6. Lamellar heat exchanger according to Claimi and one of the following claims, characterized in that the end lamellas (3 ¹ ) are reinforced, but are at least stronger than the inner lamellas (3). 7. lamellar heat exchanger according to claim 1 and 6, characterized in that the end lamellas (3 ¹ ) are provided with fastening flanges (23). 8. lamellar heat exchanger according to claim 1 and one of the following Claims, characterized in that the lamellae (3) are designed in a zigzag shape in the direction of flow of the ambient air or are wavy. 9. lamellar heat exchanger according to claim 1 and one of the following Claims, characterized in that the collar (13) is so large that it acts as a spacer to the next Lamella (3) is used. 10. lamellar heat exchanger according to claim 1 and 9 »characterized in that the collar (13) from ^the material of the lamella (3) is pushed out. 11. lamellar heat exchanger according to claim 1 and one of the following Claims, characterized in that the slots (4) of the lamellas (3) have a larger inlet opening (34), the inclined side flanks on this edge serve as guide means for indenting the drill (2). 209808/0902 Blank page