Heat exchanger, especially gas cooler
The invention relates to a heat exchanger, especially a gas cooler for a CO2 coolant circuit of a motor vehicle air conditioning unit, comprising at least one collecting box that is divided into two longitudinal ducts by means of a longitudinal partition, and a series of flat tubes that are provided with ends which are accommodated within openings located in the collecting box and are fluidically connected to the longitudinal ducts.
The invention relates to a heat exchanger, especially a gas cooler for a CO2 coolant circuit of a motor vehicle air conditioning system, according to the preamble of patent claim 1.
Heat exchangers for air conditioning systems with R134a as the coolant, for example condensers, are composed of a heat transfer network with flat tubes and collecting tubes which are arranged on each side of the network and have a circular cross section or some other cross section. Other heat exchangers for air conditioning systems, for example two-row evaporators according to DE-A 198 26 881 by the applicant, have a collecting box which is divided into two longitudinal chambers and which is manufactured from a prepared sheet metal plate by bending the edge regions of the sheet metal plate. In this way, a central, double-layered longitudinal dividing wall is obtained and is secured in cutouts in the flat bottom of a collecting box by means of tongues. Two rows of passages for the two rows of flat tubes are arranged in the bottom, that is to say each longitudinal chamber communicates with a row of flat tubes. This design already provides a relatively high level of compressive strength. In modern air conditioning systems which use CO2 (R744) as the coolant there are, however, relatively high pressures which are multiplied by approximately 10 and can no longer be coped with using the conventional designs for heat exchangers. For this reason, extruded collecting tubes with an increased wall strength have been proposed in WO 98/51 983, a collecting tube being composed of four circular flow ducts which are arranged one next to the other. Owing to the tools which are required for this, such an extruded collecting tube is costly to manufacture.
Another type of collecting tube has been proposed in DE-A 199 06 289, with a collecting tube being constructed of two or three extruded or pressed components and having two circular flow ducts for the coolant (CO2). With this design also it is necessary for at least part of the collecting tube to be manufactured by extrusion or some other costly shaping method, which usually has an unfavorable effect on the manufacturing costs of the heat exchanger, for example the gas cooler.
The object of the present invention is therefore to improve a heat exchanger of the type mentioned at the beginning to the effect that the collecting box has a high degree of strength with a low weight and can be manufactured cost-effectively.
This object is achieved by means of the features of patent claim 1.
As is known from the prior art (DE-A 198 26 881) which is mentioned at the beginning, the collecting box is formed in one piece and is bent out of a sheet metal strip in such a way that two longitudinal ducts are produced which are, however, fluidically connected, in contrast to this prior art, only to one row of flat tubes. This design of the collecting box permits an approximately circular cross section and thus a pressure-resistant collecting box. The double-layered longitudinal dividing wall is secured and anchored in a central region of the sheet metal strip by means of tongues, which facilitate fabrication and increases the strength.
According to one advantageous development of the invention, the tongues for securing the longitudinal dividing wall may be arranged either on the side facing the flat tubes or on the side facing away from the flat tubes. This increases the configuration possibilities of the heat exchanger.
According to one advantageous development of the invention, notches in which the flat tube ends engage are formed in the longitudinal dividing wall, in the region of the flat tube ends which project into the longitudinal ducts. As a result, the flat tubes can be pushed into the collecting box by a relative distance, approximately as far as the center, and formed at a maximum depth (the depth of the flat tube is measured in the direction of air flow). The collecting box is deeper than the flat tube only to an insignificant degree. This advantageously provides space for shaped portions or passages.
In a further advantageous embodiment of the invention, gaps, which may be formed, for example, in a U shape or be arranged only to the side of the flat tube or above it, are left between the notches and the flat tube ends. It is advantageous here if the notches serve simultaneously as a stop for the flat tubes when the latter are pushed into the collecting box through the slot-shaped openings. This results in precise positioning for the flat tubes in the collecting box. The gaps permit pressure and flow to be equalized between the two longitudinal ducts which are arranged one next to the other.
According to a further advantageous embodiment of the invention, the region of the collecting box in which the cutouts are arranged with the tongues can be stepped back somewhat toward the interior, i.e. in the direction of the longitudinal dividing wall, as a result of which a certain degree of “cutting to size” of the cross section of the collecting box is carried out. This ensures that the cross sections of the longitudinal ducts are approximated even more, i.e. beyond 270 degrees circumference, to a circular cross section which then fits the strength and the weight.
Finally, it may also be advantageous to form the cross sections of the two longitudinal ducts so that they are not the same but rather different, and at the same time the dividing wall can be positioned off-center, i.e. asymmetrically. An essential feature for the configuration of the collecting box is that the tongues are arranged approximately at right angles to the connecting strip with the cutouts in order to bring about an optimum tie rod effect.
Exemplary embodiments of the invention are illustrated in the drawing and will be described in more detail in the text which follows. In the drawing:
The collecting box 2 is manufactured from the sheet metal strip 8 which has been prepared, i.e. cut to size and punched out, in such a way that the sides with the longitudinal edges 9, 10 are bent over to form approximately cylindrical ducts 5, 6 and that the longitudinal edges 9, 10 are moved back to the center, approximately perpendicularly to a central connecting region 14 where they are plugged into the cutouts 13 by means of the tongues 11, 12. As a result the longitudinal edges 9, 10 are secured and the collecting box 2 is ready for the soldering process. The flat tubes 3 are plugged by their flat tube ends 3a into the openings 4 and project with their upper edge 3b approximately halfway into the free cross section of the longitudinal ducts 5, 6. Since the cross section of the longitudinal ducts 5, 6 is at its maximum width here, the cross section which tapers after this produces a stop for the flat tubes 3.
All the exemplary embodiments described above are suitable and advantageous for high internal pressures and thus also for a coolant circuit of a motor vehicle air conditioning system which is operated with CO2.
LIST OF REFERENCE NUMERALS
- 1 Gas cooler
- 2 Collecting box
- 3 Flat tube
- 4 Opening
- 5 Longitudinal duct
- 6 Longitudinal chamber
- 7 Longitudinal dividing wall
- 8 Sheet metal strip
- 9 Longitudinal edge
- 10 Longitudinal edge
- 11 Tongue
- 12 Tongue
- 13 Cutout
- 14 Central connecting region
- 15 Notch, U-shaped
- 16 Gap
- 17 Gap
- 20 Gas cooler
- 21 Collecting box
- 21a Longitudinal chamber
- 21b Longitudinal chamber
- 22 Flat tubes
- 23 Tongue
- 24 Cutout
- 25 Longitudinal dividing wall
- 26 Opening
- 27 Notch
- 28 Gap
- 30 Gas cooler
- 31 Collecting box
- 32 Flat tube
- 33 Longitudinal dividing wall
- 34 Tongues
- 35 Central connecting region
- 36 Longitudinal duct
- 37 Longitudinal duct
- 38 Gap
Claims
1. A heat exchanger, especially gas cooler for a CO2 coolant circuit of a motor vehicle air conditioning system, having at least one collecting box (2) which is divided into two longitudinal ducts (5, 6) by a longitudinal dividing wall (7), and a series of flat tubes (3) with flat tube ends (3a) which are accommodated in openings (4) in the collecting box (2), and are fluidically connected to the longitudinal ducts (5, 6), wherein the collecting box (2) with the longitudinal ducts (5, 6) is bent from a prepared sheet metal strip (8) with longitudinal edges (9, 10) having tongues (11, 12) and a central connecting region (14) having cutouts (13), the longitudinal edges (9, 10) forming the longitudinal dividing wall (7) and being anchored in the cutouts (13) via the tongues (11, 12).
2. The heat exchanger as claimed in claim 1, wherein the tongues (11, 12) and cutouts (13) are arranged on the side of the collecting box (2) facing the flat tubes (3).
3. The heat exchanger as claimed in claim 1, wherein the tongues (23) and the cutouts (24) are arranged on the side of the collecting box (21) facing away from the flat tubes (22).
4. The heat exchanger as claimed in claim 1, wherein the longitudinal dividing wall (7, 25) has notches (15, 27) in which the flat tube ends (3a, 22a) engage.
5. The heat exchanger as claimed in claim 1, wherein the collecting box or parts of the collecting box are provided with corresponding shaped portions, integrally formed-on portions and/or beads which serve as stops for the tubes.
6. The heat exchanger as claimed in claim 4, wherein gaps (16, 28) are left between the notches (15, 27) and the flat tube ends (3a, 22a).
7. The heat exchanger as claimed in claim 6, wherein the gaps (16) are formed in a U shape.
8. The heat exchanger as claimed in claim 6, wherein the gaps are arranged laterally and the notches form a stop for the tube ends.
9. The heat exchanger as claimed in claim 6, wherein gaps (28) are arranged above and/or below the flat tube ends (22a, 22b).
10. The heat exchanger as claimed in claim 1, wherein the tongues (11, 12; 23) and cutouts (13, 24) are arranged between the n-th flat tube (3, 22), where n=1, 2, 3, 4, 5,....
11. The heat exchanger as claimed in claim 1, wherein the cross sections of the longitudinal ducts (5, 6; 23, 24; 36, 37) are of approximately circular design, in particular over a circumferential range of at least 270 degrees.
12. The heat exchanger as claimed in claim 11, wherein the central connecting region (35) which accommodates the tongues (34) is stepped back in the direction of the longitudinal dividing wall (33) by an amount x and is curved toward the outside.
13. The heat exchanger as claimed in claim 1, wherein the cross sections of the longitudinal ducts are different in shape and/or size.
14. The heat exchanger as claimed in claim 1, wherein the longitudinal dividing wall has at least one opening or notch or overflow opening.
Type: Application
Filed: Nov 7, 2003
Publication Date: Mar 16, 2006
Inventors: Uwe Forster (Algorbitzer Ring), Kurt Molt (Bietigheim-Bissingen)
Application Number: 10/542,711
International Classification: F28F 9/02 (20060101);