DE4305060A1 - Soldered heat exchanger, in particular an evaporator - Google Patents

Abstract

In the case of a soldered heat exchanger, which is used, in particular, as an evaporator for a vehicle air conditioning system (air conditioner) and contains a tube/fin block having flat tubes arranged in two or more rows, it is provided that a common collecting (manifold) box is respectively present for the tube ends of the flat tubes of all the rows. Said box is assembled from two sheet-metal shells and is subdivided into collecting channels in the longitudinal direction by means of partitions.

Description

The invention relates to a soldered heat exchanger, in particular another evaporator for a vehicle air conditioning system, with a Pipe-fin block that is in two or more rows in a row contains arranged flat tubes, the ends of which in collecting channels flow out.

In a known heat exchanger of the type mentioned (EP 0 325 844 B1) the flat tubes open into collecting channels be made of individual tubes arranged side by side in parallel stand. The individual tubes are connected to one another by means of soldering or the like connected. Instead of individual tubes, the known Design also extruded multi-chamber pipes can be used. The The ends of these collecting channels are at right angles to their end faces running manifolds connected. With a similar construction art (EP 0 442 646 A2) are the manifolds to which the individual NEN collecting channels are connected by means of transverse walls below divides to a prescribed flow for the heat to realize exchange medium.

The invention has for its object a heat exchanger of the type mentioned in such a way that a simple Manufacturing is possible, on the one hand a great flexibility is obtained with regard to realizable dimensions and on  on the other hand, the risk of leaks is reduced becomes.

This object is achieved in that for the pipe ends Flat tubes of all rows each have a common collection box is provided, which consists of a sheet metal shell serving as the bottom and a sheet metal shell serving as a lid is assembled, that the serving as the bottom sheet metal bowl with the ends of the flat tube-receiving recesses is provided, and that the Sam Milking parlor in the longitudinal direction by means of inserted longitudinal partitions is divided into collecting channels, the rows of flat tubes assigned.

The collecting boxes according to the invention are easy to manufacture, while maintaining the basic principle, a large flexibility lity regarding the length and width of these collection boxes ben is. Leave the recesses for receiving the flat tubes on the one hand simple and on the other hand very precise in the Attach the serving metal tray, so that a tight Ver bond between the flat tubes and the header box light becomes. Form the collecting channels of the rows of flat tubes a unit so that no additional measures are taken have to be in order to keep these collecting channels together.

In an embodiment of the invention it is provided that in a the collecting channels have at least one transverse partition, and that one or more of the longitudinal partitions over at least a longitudinal section is provided with a perforation. To this The flow pattern within the heat rope can be way schers design, especially within the collection boxes Cross connections between the individual collecting channels provided hen without additional effort is required. These cross connections that do not require additional elements other, are within the collection boxes, so that none Places arise that must be sealed from the outside.  

In a further embodiment of the invention it is provided that in the sheet metal shell serving as the base for receiving the flat tubes Passages are attached. By means of such passages connections to the flat tubes in a simple manner places that are tight after soldering.

In a further embodiment of the invention it is provided that the serving as the bottom sheet tray and / or the as the lid sheet metal shell with grooves running in the longitudinal direction term wells are provided, between which the longitudinal Partitions are arranged. These groove-like depressions which preferably have a partially cylindrical shape lead to a high compressive strength.

Further features and advantages of the invention result from the following description of Darge in the drawings presented embodiment.

Fig. 1 is a front view showing a heat exchanger according to the invention,

Fig. 2 is a side view in the direction of arrow II of FIG. 1,

Fig. 3 is a view from above in direction of arrow III of Fig. 1,

Fig. 4 different longitudinal partition walls, the boxes in the collection are used,

Fig. 5 is a view of a cross partition and

Fig. 6 is a view of an end plate for closing the collection boxes.

The bin shown in Fig. 1 bin 3 serves in particular as an evaporator of an air conditioner for a motor vehicle. The heat exchanger contains a tube-fin block ( 10 ) which has flat tubes ( 14 ) arranged in three rows ( 11 , 12 , 13 ) one behind the other. The flat tubes ( 14 ) produced in a known manner from solder-plated sheet metal from aluminum are provided with turbulence inserts in a known manner. Between the flat tubes ( 14 ) ribs ( 15 ) are arranged, which also consist of solder-plated aluminum sheet. While the flat tubes ( 14 ) of the rows ( 11 , 12 , 13 ): are each arranged at a distance one behind the other, the fins ( 15 ) extend over the entire depth of the tube-fin block ( 10 ). The upper and lower ends of the tube-fin block ( 10 ) are each covered by a cover plate ( 16 ). In a modified embodiment, the flat tubes ( 14 ) are extruded multi-chamber tubes. These extruded flat tubes are not solder plated, so that solder material is applied at the points where it is needed.

The ends of the flat tubes ( 14 ) which run horizontally in the exemplary embodiment end in mutually opposite collecting boxes ( 17 , 18 ) which are aligned vertically. The collecting boxes ( 17 , 18 ) contain individual collecting channels ( 19 , 20 , 21 ), each of which is assigned to a row ( 11 , 12 , 13 ) of flat tubes ( 14 ).

The collecting boxes ( 17 , 18 ) each consist of a sheet metal shell ( 22 ) serving as a base and a sheet metal shell ( 23 ) serving as a lid. The sheet metal shell ( 22 ) serving as the bottom engages with its substantially straight and even longitudinal edges, which also run straight and straight longitudinal edges of the sheet metal shells ( 23 ), so that between the sheet metal shells ( 22 and 23 ) made of solder-plated aluminum sheets a safe one and there is tight soldering in the area of the longitudinal edges. The sheet metal shells ( 22 ) each serving as the bottom are provided with cutouts into which the ends of the flat tubes ( 14 ) are inserted. These recesses are preferably formed as passages, ie they have a collar-like border, so that a safe and flat soldering is carried out here. The sheet metal shells ( 22 , 23 ) are provided with groove-like recesses running in the longitudinal direction, each of which is assigned to a row ( 11 , 12 , 13 ) of the flat tubes. These groove-like depressions preferably have a partially cylindrical cross section. In a corresponding manner, the metal shells ( 23 ), the NEN as a lid, are provided with groove-like depressions. Between these groove-like depressions there are straight, flat sections. In the area of these sections, longitudinal partition walls ( 24 ) are arranged, which consist of solder-plated sheet metal strips made of aluminum sheet ( FIG. 4). In this way, individual collecting channels ( 19 , 20 , 21 ) are formed, which run in the longitudinal direction of the collecting boxes ( 17 , 18 ) and which have an approximately cylindrical shape, so that a high compressive strength is obtained even when using thin-walled sheets.

The partitions ( 24 ) are provided with tongue-like projections ( 25 ) with which they are inserted into corresponding recesses in the sheet metal shell ( 23 ) of each collecting box ( 17 , 18 ) serving as a lid. The recesses in the sheet metal shells ( 23 ) can also be designed as passages.

The ends of the collecting boxes ( 17 , 18 ) are closed by means of cover plates ( 26 ), which are shown again in FIG. 6. The end plates ( 26 ) are inside the collector box ( 17 , 18 ) somewhat reset to the end. They have a contour that corresponds to the inner contour of the sheet metal shells ( 22 , 23 ). They are hen with tongue-like approaches ( 27 , 28 ) with which they engage in recesses in the metal shells ( 22 , 23 ) in the region of the webs located between the groove-like depressions. The front ends of the partitions ( 24 ) abut the end plates ( 26 ). The end plates ( 26 ) are provided with cutouts ( 29 ) into which tongue-like projections ( 30 ) of the partitions ( 24 ) are inserted.

As shown in Fig. 1 and 2, the collecting channel (21) of the collecting tank (18) is divided by a transverse partition (31) in its longitudinal direction, ie in height. This cross partition ( 31 ) is shown in Fig. 5 in a view. The transverse partition wall ( 31 ) made of an aluminum sheet has an outer contour which corresponds to the inner contour of the collecting duct ( 21 ). It is provided on the side with a tongue-like extension ( 32 ) which is inserted into a corresponding recess ( 33 ) in a longitudinal partition. This recess ( 33 ) can be seen in Fig. 4 in the longitudinal partition ( 24 ').

As shown in Fig. 4, either longitudinal dividing walls ( 24 ) can be used, which are closed, or longitudinal dividing walls ( 24 '), which are provided with a Lo chung ( 34 ) over a portion of their length, or longitudinal dividing walls ( 24 ''), Which are provided with a perforation ( 35 ) over their entire length. For the sake of clarity, it is mentioned that a transverse partition ( 31 ) according to FIG. 5 for dividing the two outer collecting channels ( 19 ) or ( 21 ) can be used. If the central collecting duct is to be divided, a modified transverse partition is provided which has an outer contour corresponding to this central collecting duct and which is provided with an extension ( 32 ) which then projects into one of the two longitudinal partition walls ( 24 ). With the help of transverse partitions ( 31 ) and the closed or partially perforated or fully perforated longitudinal partitions ( 24 , 24 ', 24 ''), it is possible to give the flow course within the heat exchanger before and - when used as an evaporator - in Flow directions to provide larger cross sections in accordance with the increasing volume. A particular advantage is that with the help of the longitudinal partition walls ( 24 ', 24 ''), which are perforated only over a section or over the entire length, a direct transition of the medium from one collecting duct into the adjacent collecting duct is possible without additional external connecting lines being laid Need to become. This also results in only a relatively small pressure drop during the transition from one collecting box to the next collecting box. It should also be mentioned that minor leaks between the longitudinal partitions ( 24 ) and the Blechscha len ( 22 , 23 ) or between the transverse partitions ( 31 ) can still be tolerated, because due to such leakages the medium, especially a refrigerant, does not can penetrate outside.

In the embodiment according to FIGS. 1 to 3, the collecting tank ( 18 ) is provided with an inlet connection ( 36 ) and an outlet connection ( 37 ). For this purpose, the sheet metal shell on the outward-facing passages are soldered into the connecting pipes. The connections ( 36 , 37 ), which are arranged in the exemplary embodiment shown in the lower region of the heat exchanger, can of course also be provided elsewhere, in particular in the upper region of the heat exchanger. If it should be necessary for reasons of space, it is also readily possible to provide a connection ( 36 ) or ( 37 ) on the opposite side, ie on the sheet metal shell ( 23 ) of the collecting box ( 17 ) serving as a lid.

The heat exchanger is designed so that it can be preassembled by plugging together to the shape shown, where after it is then placed as a unit in an oven in which the soldering takes place. The solder material is already present on the solder-plated elements. During assembly, for example, the procedure is such that the ribs ( 15 ) and the flat tubes ( 14 ) are first joined together with the sheet metal shells ( 22 ) serving as the bottom. In parallel, the sheet metal shells ( 23 ) used with the longitudinal dividers ( 24 , 24 ', 24 '') and the transverse partition walls ( 31 ) and with the end plates ( 26 ) and the connecting pipes ( 36 , 37 ). This pre-assembled cover is then put together with the associated sheet metal shells ( 22 ). The tongue-like projections ( 27 ) penetrate into the corresponding recesses in the shells ( 22 ).

In the above, the structure of the collecting boxes ( 17 , 18 ) has been illustrated using an example which has three rows ( 11 , 12 , 13 ) of flat tubes ( 14 ). However, the same design principle can also be used if only two rows of flat tubes or more than three rows of flat tubes are used.

The heat exchanger according to the invention can be used not only as an air conditioning evaporator, but also, for example, as an oil cooler. The pipe cross-sections have to be adapted to the more viscous medium oil. In addition, the heat exchanger can also be designed for combined use, where it is part of two or more cooling circuits. For example, it is possible to divide the collection boxes by means of transverse partition walls ( 31 ) and perforated or non-perforated longitudinal partition walls ( 24 , 24 ', 24 '') and additional connections in an evaporator part and an oil cooler part. In this case, it is of course necessary that the transverse partition walls ( 31 ) are soldered absolutely tight so that the different media remain separate.

Claims (11)

1. Soldered heat exchanger, in particular evaporator for 'a vehicle air conditioning system, with a tube-fin block, which contains two or more rows of flat tubes arranged one behind the other, the ends of which open into collecting channels, characterized in that for the tube ends of the flat tubes ( 14 ) all Rei hen ( 11 , 12 , 13 ) a common collecting box ( 17 , 18 ) is hen vorgese, which is assembled from a sheet metal shell ( 22 ) serving as the bottom and a sheet metal shell ( 23 ) serving as a lid, that the bottom Serving sheet metal shell ( 22 ) is provided with recesses receiving the ends of the flat tubes ( 14 ), and that the collecting box ( 17 , 18 ) is divided in the longitudinal direction by means of inserted longitudinal partition walls ( 24 ) into collecting channels ( 19 , 20 , 21 ), which are the rows of flat tubes are assigned. 2. Heat exchanger according to claim 1, characterized in that in at least one of the collecting channels ( 19 , 20 , 21 ) at least one transverse partition ( 31 ) is used, and that one or more of the longitudinal partition walls ( 24 ) over at least one longitudinal section with a Perforation ( 34 , 35 ) is provided. 3. Heat exchanger according to claim 1 or 2, characterized in that in the serving as the bottom sheet metal shell ( 22 ) for receiving the flat tubes ( 14 ) passages are attached. 4. Heat exchanger according to one of claims 1 to 3, characterized in that the sheet metal shell ( 22 ) serving as the bottom and / or the sheet metal shell ( 23 ) serving as a cover are provided with groove-like depressions running in the longitudinal direction, between which the longitudinal partition walls ( 24 ) are arranged. 5. Heat exchanger according to claim 4, characterized in that between the groove-shaped depressions are flat webs sen, in the region of which the longitudinal partition walls ( 24 ) are arranged. 6. Heat exchanger according to one of claims 1 to 5, characterized in that the longitudinal partition walls ( 24 ) are provided with tongue-like projections ( 25 ) which are inserted into recesses in at least one of the sheet metal shells ( 23 ). 7. Heat exchanger according to one of claims 1 to 6, characterized in that the transverse partition walls ( 31 ) is provided with at least egg nem tongue-like extension ( 32 ), the tion in a recess ( 33 ) of a longitudinal partition wall ( 24 ) or one of the sheet metal shells ( 22 , 23 ) is inserted. 8. Heat exchanger according to one of claims 1 to 7, characterized in that the two sheet metal shells ( 22 , 23 ) overlap with their longitudinal edges. 9. Heat exchanger according to one of claims 1 to 8, characterized in that the ends of the header tank ( 17 , 18 ) are provided with end plates ( 26 ) which close the header channels ( 19 , 20 , 21 ). 10. Heat exchanger according to claim 9, characterized in that the end plates ( 26 ) are inserted inside in the ends of the collecting tank ( 17 , 18 ) and with tongue-like projections ( 27 , 28 ) in recesses of at least one of the sheet metal shells ( 22 , 23 ) are plugged in. 11. Heat exchanger according to claim 9 or 10, characterized in that the end plates ( 26 ) are provided with recesses ( 29 ), in the tongue-like approaches ( 30 ) of the longitudinal partition walls ( 24 ) are inserted.