DE4012046A1 - Heat exchanger for road vehicle - comprises flat tubes with no heat exchange ribs between end areas - Google Patents

Abstract

The heat exchanger comprises several parallel tubes through which one of the heat exchange media flows. These are ribs running crossways through which a second heat exchange medium flows. The end areas (1a,1b) of the tubes (1) lie tightly against each other with no intervening ribs, and the thus formed tube assemblies (4) are secured by a flange clamp (10), and connected with connecting conduits (8,9) for medium input and output. The flange clamp is of a double type, and secures two tube assemblies parallel to each other. The assemblies are also secured by a connecting hose (15) and a hose clamp. USE/ADVANTAGE - As a heat exchanger for road vehicles which is adequately stable, and requires not additional retention arrangement.

Description

The invention relates to a heat exchanger consisting of meh reren, parallel to each other, from one of the heat exchange media flowed through pipes, between which across the Pipe axes extending fins are provided by the flowed to the second heat exchange medium.

Heat exchangers of this type are known (DE-OS 35 02 619). At these types of flat tubes are provided, each on ih Both ends are closed and in the end area with side Openings are provided, through which they are connected by connecting pieces communicate with neighboring flat tubes. The so ge formed heat exchange body must be relatively expensive Art are produced and it has little inherent stability and must therefore be kept frame-shaped with side parts.

It is also known (DE-Gbm 84 03 955), the ends of pipes in so-called tube sheets to keep tight from water tanks are covered over the distribution of the heat exchange flows liquid to the pipes takes place. Such heat exchangers will be also bordered by side panels on the water tanks be attached. The space requirement of such heat exchangers is for many applications are too large, so that the heat exchanger uses the type mentioned at the beginning.

The present invention is based on the object To design heat exchangers of the type mentioned at the outset in such a way that its manufacture is simplified.

To solve this problem with a generic heat exchanger provided that the end regions of the tubes without two ribs joined together and the so formed Deten tube packs each with a connecting line for education an inflow or outflow connection are connected.

With this configuration, the heat exchanger body is single Lich enough by joining the pipe ends Stability and does not need to be provided with side parts the. The main advantage is that there are no separate ones Connection rooms in the form of water boxes are necessary. The space requirement of the heat exchanger according to the invention is therefore low.

Advantageous developments of the invention are in the Unteran sayings marked. The claims 2 to 4 outline particularly simple ways of connecting cables to the Connect pipe packages. The design also serves this purpose claims 5 to 7, but here also the possibility is given to ver the transition pipe piece as a connection turn.

The claim 8 has the advantage that the joined En that of flat tubes, on the one hand, enables simple production ben, but also a particularly good stability of the Ensure heat exchanger formed according to the invention.

The features of claims 9 and 10 have the advantage that such flat tubes designed as multi-chamber profiles can be bent in their end areas in a simple manner, that the end areas are assembled into the tube packs can without the risk of crushing the free through  flow cross-section of the pipes. It also results in the advantageous way to both the tubes with each other in the loading to fix the range of tubes as well as the heat exchange pen between the individual pipes.

The features of claims 11 and 12 outline possibilities of Shape design for the new heat exchanger.

The claim 13 ensures an intimate and tight connection the pipe ends to the pipe package.

Finally, the features of claims 14 to 16 allow in to produce the new heat exchanger in a particularly simple form and hold the tube packs together.

The invention is in the drawing based on Ausführungsbei play shown and is explained below. Show it:

Fig. 1 is a perspective and schematic representation of a heat exchanger constructed according to the invention, which is made of flat tubes,

Fig. 2 is a schematic representation of the tube packet at one of the ends of the heat exchanger of Fig. 1, in a view in the direction of arrow II in Fig. 1

Fig. 3 is a partial section through the two last flat tube of the heat exchanger of Fig. 1 and 2 in the direction of arrows III-III,

Fig. 4 shows the enlarged detail view of the left end of the section of Fig. 3,

Fig. 5 is an enlarged partial view of the upper corner of the heat exchanger of Fig. 1 in the folding zone of the tubes with an additionally indicated another at connection facility on the tube packet,

Fig. 6 is an illustration similar to FIG. 5, but in another embodiment and

Fig. 7 to 12 finally four further embodiments of heat exchangers according to the invention with different heat exchange cross-sections, shapes and connections Rich lines.

In Figs. 1 to 3, a heat exchanger is shown, the reren of MEH, parallel arranged flat tubes (1), each in the end areas (1 a and 1 b) bent and Zvi these end rule each stand in a constant Ab are arranged to each other. Heat exchange fins ( 2 ) in the manner of the known corrugated fins are arranged between the flat tubes ( 1 ) outside the regions ( 1 a, 1 b). These corrugated fins are clamped in the spaces between the flat tubes ( 1 ) and are preferably held by additional webs ( 3 ), which can be seen in FIGS. 3 and 4. In the event that the heat exchanger is subsequently soldered, the corrugated fins are pre-fixed by the webs ( 3 ). All flat tubes ( 1 ) are bent towards the two end regions ( 1 a, 1 b) by about 90 °. After the 90 ° bend, the flat tubes ( 1 ) lie directly against one another and form a tight tube package ( 4 ), which is shown in the view in FIG. 2. The flat tubes ( 1 ) in the exemplary embodiment are designed as multi-chamber profiles, for example as drawn aluminum profiles, and a first heat exchange medium, for example a liquid coolant or heating medium, flows through them in the individual chambers ( 5 ). Transverse to the liquid flow thus caused by the flat tubes ( 1 ), the flow occurs through the second heat exchange medium, for example air, which enters the heat exchanger parallel to the broad sides of the flat tubes ( 1 ) and in the direction of the arrows ( 6 ) after flowing through the Ribs ( 2 ) leaves the heat exchanger again.

The flat tubes ( 1 ) are held together in the embodiment by a U-shaped bracket ( 7 ), which is placed around the flat tubes ( 1 ) and the ribs between them and with its two open ends a clamping piece ( 7 ') penetrates through which the two threaded ends of the clamping bracket ( 7 ) are screwed with nuts. Through the clamping bracket ( 7 ), which is provided in the upper and in the lower deflection area, the flat tubes ( 1 ) without the help of side parts or water boxes or the like. The ribs are pre-fixed for the soldering. The bent end regions of each of the flat tubes are pressed tightly against one another, as can also be seen in detail in FIG. 5, where the flat tubes ( 1 ) are shown in dashed lines in region ( 1 a). It is useful to additionally glue the flat tube ends pressed together so tightly to one another, to solder them or, if necessary, to shed them with resin so that the tube ends also lie tightly against one another.

The stable heat exchanger formed in this way is in the exemplary embodiment thereby connected to a connecting line ( 8 ) and a drain line indicated by the arrow ( 9 ) that the tube packs ( 4 ) either, as shown above, surrounded by a two-part flange clamp ( 10 ) are, the U-shaped parts ( 10 a and 10 b) enclose a free cross section ( 11 ) between them, which corresponds to the cross section of the tube stack ( 4 ) shown in FIG. 2. The free cross section ( 11 ) of the flange clamp ( 10 ) can also be provided with a sealing material, for example with a circumferential rubber. The two clamping parts ( 10 a and 10 b) can be pushed laterally over the end of the Rohrpa ketes ( 4 ) and with the help of schematically shown bolts ( 12 ) firmly connected to each other and to the tube package ( 4 ). The flange ( 13 ), which is part of the connecting line ( 8 ) or the drain line ( 9 ), is then screwed onto the flange clamp ( 10 ) in a known manner. The dargestell in FIG. 1 th two flange clamps (10) can of course also so be formed to be, that they are formed as a double clip and the central part has an approximately H-shaped cross-section and only the two outer parts of the U-shaped cross-section. With egg ner such a double terminal it is then possible to connect two of the heat exchangers shown in Fig. 1 together and to connect to the corresponding connecting lines.

The heat exchange body can also, as shown below, be provided with a transition tube piece ( 15 ) which surrounds the tube package ( 4 ) with a rectangular part ( 15 a) adapted to its cross section and, for example, is soldered tightly to this tube package ( 4 ) is. The transition pipe section ( 15 ) goes from the rectangular cross-section ( 15 a) in a round connector ( 15 b) over which a connection hose to the drain line ( 9 ) can then be pushed in a known manner and fastened, for example, with a hose clamp . On the clamping pieces ( 7 ') of the two clamping brackets ( 7 ), as shown, each have tabs ( 45 and 46 ) attached, which serve to arrange the entire heat exchanger in a fixed position, for example to fasten it inside the engine compartment of a motor vehicle.

FIGS. 3 and 4 show that the corrugated fins (2) in their associated area of the flat tubes (1) inserted between these are jammed and are prevented by laterally protruding from the designed as multi-chamber profiles flat tubes ribs (3) at one since union slipping out . The structure of the heat exchanger according to the invention is thereby extremely simple. It is only necessary to bend the flat tubes ( 1 ) according to their later arrangement in the heat exchanger block, to close the tube ends to a tube bundle ( 4 ) and to fix them, the corrugated fins ( 2 ) then being held in place at the same time. If the heat exchanger thus constructed is connected to an inflow and outflow line, it is functional. It is sufficiently stable in itself and does not require any additional frame or side parts. Its space requirement is therefore small.

Fig. 5 shows in solid lines but also a possibility in which all flat tubes ( 1 ) bent in the same way and only offset by the distance (a) between the tubes against each other. This possibility avoids the different training of the individual flat tubes. It leads, as shown in Fig. 5 with the solid lines, but to the fact that the resulting tube package ( 4 ') has an oblique termination and the mutual overlap areas of the tubes are smaller than in the embodiment of Fig. 1. Nevertheless, the in exporting shown in solid lines 5 of Fig. tion the same advantage of a simple construction of the heat exchanger. In this case it is recommended to put on the tube package ( 4 ') a transition tube piece ( 17 ) provided with a correspondingly inclined connecting edge ( 14 ), which all tubes ( 1 ) in the area of the tube package ( 4 ') in the same Covered way and can make the pipe connection. For example, the transition tube piece ( 17 ) can be designed as a tube, the inclined connecting edge ( 14 ) of which is pushed over the tube package ( 4 ') and glued, soldered or otherwise arranged in a sealed manner. The transition pipe section ( 17 ) can also be an elastic connecting piece, which is stretched over the tube package ( 4 ') and then held by additional clamping means.

Fig. 6 shows another embodiment. Here the ends of the tubes ( 1 ') are not bent by 90 °, but at an obtuse angle of about 120 ° to the part provided with the ribs ( 2 ). Again, the individual tubes ( 1 '), which are appropriately designed as flat tubes, but can also consist of individual, flat tubes arranged side by side, are joined together by a clamp so that their bent ends ( 1 c) lie tightly against each other. Here, too, a connection hood ( 17 ') with an inclined end face ( 16 ) is pushed over the pipe ends ( 1 c) and connected tightly, so that the connection is ensured.

FIGS. 7 to 12 show by way of example, other Substituted design possibilities of the heat exchanger according to the invention are not limited to that shown in FIGS. 1 to 3 S-shape. Fig. 7 shows that it is also possible to bend the tube packs ( 40 ) - as already indicated with reference to Fig. 6 - under an angle deviating from 90 ° to the rest of the tubes ( 18 ) the tube packs ( 40 ) on opposite sides, but are inclined at the same angle to the parallel part of the tubes ( 18 ).

Fig. 8 shows an embodiment in which the two tube packs ( 41 ) are directed towards a common side and are each bent at 90 ° to the remaining area of the tubes ( 19 ).

Fig. 9 shows a variant in which a tube packet ( 42 ) by 90 ° to the ribs ( 2 ) provided area of the tubes ( 20 ) is bent while the other tube packet ( 42 ') with the course of the tubes ( 20 ) is aligned.

FIG. 10 shows an embodiment of a heat exchanger large capacity. Here, the tube packs ( 43 and 43 ') are each opposite and aligned with the course of the tubes ( 21 ), in such a way that the center of the two tube packs also corresponds to the center of the entire heat exchanger. Of course, there are still a whole range of possible modifications of the inventive idea. FIGS. 7 to 10 show only some of the possible arrangements of pipes to a heat exchanger according to the invention.

Fig. 11 shows a round according to the invention heat exchanger which is provided with two connecting pieces and, for example, being suitable to surround a fan wheel. It is of course also possible to dispense with one of the two connecting pieces ( 47 ) if one divides the connecting piece ( 47 ) along the dividing line ( 48 ) and the one half to the flow, the other half assigns the drain.

Finally, Fig. 12 shows a further variant in which two heat exchangers ( 49 and 50 ) of the type according to the invention are combined at one end via a connecting piece ( 51 ) designed as a tube, which is perpendicular to the axes of the tube ends ( 1 c ') from the connecting pipe section ( 51 ) protruding connection piece ( 52 ). The indicated in Fig. 12 heat exchanger can be formed identically at its other end, so that thereby two wings flowed through by the heat exchange medium are formed, which allow installation around existing parts.

All of the exemplary embodiments shown make it clear that with the invention realized an abundance of heat exchanger shapes can be all because they have no side panels or Need water boxes, very space-saving and still in the Function are constructed appropriately.

Claims (16)

1. Heat exchanger, consisting of a plurality of tubes arranged parallel to one another, through which one of the heat exchange media flows, between which ribs extending transversely to the tubes are provided and flowed against by the second heat exchange medium, characterized in that the end regions ( 1 a, 1 b) of the tubes ( 1 , 1 ', 18 to 21 ) are placed tightly together without interposed rips, and the tube packages thus formed ( 4 , 4 ', 40 , 41 , 42 , 43 ) each with a connecting line ( 8 or 9 ) are connected to form an inflow or outflow connection. 2. Heat exchanger according to claim 1, characterized in that the tube packs ( 4 ) are surrounded by a flange clamp ( 10 ). 3. Heat exchanger according to claim 1, characterized in that the tube packs are surrounded by a connecting hose ( 15 ) and a hose clamp. 4. Heat exchanger according to claim 2, characterized in that the flange clamp ( 10 ) is designed as a double clamp and surrounds two tube packs ( 4 ) running parallel to one another. 5. Heat exchanger according to claim 1, characterized in that each tube packet ( 4 ', 4 '') is surrounded by a transition tube piece ( 15 , 17 , 17 '). 6. Heat exchanger according to claim 5, characterized in that the transition pipe piece ( 15 ) merges from a rectangular to a round cross section. 7. Heat exchanger according to claim 5, characterized in that the transition tube piece ( 17 , 17 ') has an inclined to the outer walls end wall ( 14 , 16 ) and with this over the tube ends ( 1 c) of the tube package ( 4 '', 4 ') is pushed, all of the same length up to their bending point. 8. Heat exchanger according to claim 1, characterized in that the tubes are designed as flat tubes ( 1 ). 9. Heat exchanger according to claim 8, characterized in that the flat tubes ( 1 ) are designed as multi-chamber profiles. 10. Heat exchanger according to claim 8, characterized in that the flat tubes ( 1 ) with outwardly projecting webs ( 3 ) for fixing the heat exchange fins ( 2 ) are provided. 11. Heat exchanger according to claim 1, characterized in that the tube ends ( 1 a, 1 b) parallel to each other, but in under different directions. 12. Heat exchanger according to claim 1, characterized in that the tube ends combined to form tube bundles ( 41 ) run parallel to one another and are directed towards a common side. 13. Heat exchanger according to claim 1, characterized in that the tube ends ( 1 a, 1 b) in the tube package ( 4 , 4 ', 40 to 43 ) connected to one another, z. B. glued, soldered and / or potted with resin. 14. Heat exchanger according to claim 1, characterized in that all the tubes ( 1 , 1 ', 18 to 21 ) in the transition region between the tube package ( 4 , 4 ', 4 '', 40 to 43 ) by a common clamping means ( 7 , 7th ') Includes and are pressed against each other with their ends forming the tube package. 15. Heat exchanger according to claim 14, characterized in that a U-bracket ( 7 ) is provided as a common clamping means, which comprises the tube package and is clamped on the tube package via a clamping piece ( 7 '). 16. Heat exchanger according to claim 15, characterized in that the clamping piece ( 7 ') is provided with tabs ( 45 , 46 ) for the fixed attachment of the tube package.