DE19911290A1 - Heat transfer device, especially evaporator for vehicle air conditioning system, has connecting tube with essentially oval cross-section near block with oval cover inserted at end - Google Patents

Abstract

The device has a block of tubes in which a liquid and/or gaseous medium flows and connected ribs subjected to air and at least one connecting tube (10) with at least one lateral opening (14) for connecting to the rib-tube block. An end opening in the connecting tube(s) is connected to a cover in a sealed manner. The connecting tube has an essentially oval cross-section near the block, into which a corresp. oval cover (20) is fitted at the end.

Description

The invention relates to a heat exchanger, in particular an evaporator for Motor vehicle air conditioning, according to the preamble of claim 1.

Such a heat exchanger in the form of a disk evaporator is off the publication US 5,172,759 known. This disc evaporator exists from disks, each forming a tubular body in pairs, and wavy ribs arranged between them. To connect the Disk evaporator with the other components of the air conditioning system this sits two connecting pipes, one on each side of the Heat exchanger is arranged. The connecting pipes have a circular shape cross-sectional area and are only in the connection area of the Disc evaporator in which they are in flat contact with it, flattened so that they have an approximately rectangular cross in this area have a cut surface with clearly defined flat sides. For Fluidver are in the area of areal contact between the respective Connection pipe and the disk evaporator openings provided. For the end sealing of the connection pipes in the connection area are covers, with the rectangular cross-sectional area of the connecting pipes in this The area is designed accordingly, inserted into it and sealed soldered.  

From publication DE 198 26 054, to which express reference is made, a heat exchanger is known, the connecting pipes also an et wa have rectangular cross-sectional area, in the end of a lid is inserted and soldered. The connection between the heat transfer ger and the connecting pipes takes place over a conically shaped Pipe socket, which in a corresponding bore in the Connection pipe is pressed.

A disadvantage of such known heat exchangers is that in the area in the end sealing of the connecting pipes in the connection area Lids are inserted into the connection pipes, a reliable seal due to soldering is due to a large dependence on the gap dimensions between the cover and the connecting pipe. The solder flow can during the soldering process in the area of the relatively sharp radii in the Corners of the rectangular cross-sectional shape and in the area of the flat sides the connecting pipe be affected, which in later use of the Wär can lead to leaks.

The invention has for its object a heat exchanger gangs mentioned type in such a way that in the contact area che between the connecting pipe and the end of this Lid a reliable and fluid-tight solder connection is guaranteed.

This object is achieved with the features of claim 1.

According to the invention it is provided that the connecting pipe at least in the rip penrohrblock connection area an essentially oval cross-sectional shape has, in the end opening corresponding to this one guided oval lid is inserted. With such an oval design of the contact area between the connecting pipe and the cover sharp radii avoided as well as larger areas of straight cones tactical areas. Instead, they are relatively the same in the entire contact area moderate radii so that sharp transitions are avoided. Thereby it occurs especially in the case of thermal expansion of the connecting pipe or during the soldering process only slight fluctuations in the  Gap dimensions and too small local differences in the gap dimensions in the Contact area and thus a safe and fluid-tight solder connection. In a further embodiment of the invention according to claims 2 and 3 is the Evaporator designed as a disc evaporator, the finned tube block has at least one conically shaped pipe socket, which in the Be opening of the connecting tube protrudes. This is a perfect fit joining of the two components ensures what is also a reliable sealing soldering enables.

In a further embodiment of the invention, the ko nically shaped pipe sockets on a lateral surface, the cone angle of which is less than 12 °. This creates the smallest possible gap at the solder joint guaranteed if the pipe socket is pressed into the side opening, the cone angle is chosen so that a fit that fits as closely as possible is achieved.

An embodiment of the invention is shown in the drawings and is described in more detail below.

Here shows:

FIG. 1 is a section through a pipe connection along the line II of Figure 2, which is placed in an oval tube.

Fig. 2 shows a section through an oval tube with a lid placed therein.

Fig. 1 shows a metallic connecting pipe 10 for a soldered, not shown Darge, made of an aluminum material heat exchanger in the form of a refrigerant evaporator. The connecting pipe 10 is used to connect the heat exchanger with other components of an air conditioning system of a motor vehicle. For external fluid connection, the heat exchanger has a pipe socket 12 which has a conically shaped jacket surface 13 , the cone angle being at most 12 °.

The pipe socket 12 is connected to the connecting pipe 10 . Here, the connecting pipe 10 has a side opening 14, which he testifies by drilling. In this side opening 14 , the conical pipe socket 12 is press-fit. The connecting tube 10 is soldered on one side or on both sides, so that when heated in a soldering furnace, a resulting column 16 is soldered fluid-tight and soldering minisks 17 a, 17 b, 17 c, 17 d are formed.

Fig. 2 shows the connecting pipe 10 , in which in the region of its end opening Publ 18 a cover 20 is introduced. Here, the connecting tube 12 has an oval cross-sectional shape in a connecting region 24 , which changes into a circular cross-sectional shape in a transition region 26 until it has a completely circular cross-sectional area in an end region, not shown. The lid 20 has a cross sectional shape which is designed with the oval cross-sectional shape of the connecting tube 10 correspondingly, and is so inserted into the cover 20, that a ge ringer gap 22 results in 10 and the cover 20 between the connecting pipe. The relatively uniform curvature of the cover 20 in the region of the gap 22 ensures a uniform gap height without major differences in height even in the event that there is thermal expansion between the connecting pipe 10 and the cover 20 during the heat treatment in the soldering furnace. This gap 22 is soldered in a fluid-tight manner during the soldering process through the solder-plated connecting tube 10 .

Claims (4)

1. Heat exchanger, in particular evaporator for automotive air conditioning, with a block of pipes in which a liquid and / or gaseous medium flows, and associated air-loaded rips, and at least one connecting pipe ( 10 ) which has at least one side opening ( 14 ) for connection to the finned tube block, wherein an end opening ( 18 ) of the at least one connecting tube res ( 10 ) is sealed with a cover ( 20 ), characterized in that the connecting tube ( 10 ) at least in the finned tube block connection area is essentially a has an oval cross-sectional shape, in the end opening ( 18 ) of which an oval cover ( 20 ) correspondingly made therewith is introduced. 2. Heat exchanger according to one of the preceding claims, characterized in that the finned tube block has at least one conically shaped pipe socket ( 12 ) which projects into the side opening (14) of the connecting pipe ( 10 ). 3. Heat exchanger according to one of the preceding claims, characterized characterized in that the evaporator is a disc evaporator leads is. 4. Heat exchanger according to one of the preceding claims, characterized in that the conically shaped pipe socket ( 12 ) has a man telfläche ( 13 ) whose cone angle is less than 12 °.