FR3028931A1 - HEAT EXCHANGER WITH REINFORCED SEALING - Google Patents

Abstract

The heat exchanger (110) between a first and a second fluid comprises at least one tube (120) for allowing the circulation of the first fluid and a sealed envelope surrounding the tube (120) and delimiting a space intended to allow the circulation of the second fluid. The envelope comprises at least two walls (112, 114) carrying positioning means (115) of the tube (120)

Description

The invention relates to heat exchangers, especially for air conditioning devices of a motor vehicle. A motor vehicle air conditioning device usually comprises a compressor, a heat exchanger, a pressure reducer and an evaporator. The heat exchanger has the function of cooling a first fluid, the refrigerant of the air conditioning device, generally in the gaseous state by heat exchange with another fluid.

The second fluid may be ambient air, in the case of air / gas type exchangers, or a liquid, in the case of liquid / gas type exchangers (such as a gas cooler or WGC for Water Gas Cooler ). The heat exchanger generally comprises a collector member of the first fluid and a plurality of tubes in which the first fluid flows. These tubes are arranged at a distance from each other and thus define between them a space in which the second fluid flows. In addition, a sealed envelope surrounds all the tubes and also defines a circulation space of the second fluid. FIG. 1 shows a heat exchanger 10 in exploded perspective according to the state of the art. The exchanger 10 comprises four walls 12, 14, 16, 18 planes forming the sealed envelope of the exchanger 10 and giving it a generally parallelepipedal general shape. The exchanger 10 further comprises a plurality of tubes 20 for the circulation of the first fluid. The walls 12 and 14 respectively comprise an orifice 22, 24 for positioning a respective member 26, 28 for feeding the second fluid assembly.

The exchanger 10 also comprises two first fluid collectors 30 and 32 positioned in contact with the four walls 12, 14, 16, 18 and participating in defining the substantially parallelepipedal shape of the exchanger 10. The collectors 30, 32 are assembled to the walls 12, 14, 16, 18 by means known per se and are for this purpose provided with three metal plates. For each collector 30, 32, one of these plates is specifically dedicated to the positioning of the plurality of tubes 20. Thus, a large number of parts form the sealed envelope of the exchanger 10. The risk of leakage in second fluid following the links between these parts is important. An object of the invention is therefore to provide a heat exchanger in which the risk of leakage is reduced.

For this purpose, there is provided according to the invention a heat exchanger between a first fluid and a second fluid comprising at least one tube intended to allow the circulation of the first fluid and a sealed envelope surrounding the tube and delimiting a space intended to allow the circulation of the second fluid, characterized in that the envelope comprises at least two walls carrying means for positioning the tube. Thus, it is no longer necessary to provide a plate specifically dedicated to the positioning of the tube because the walls defining the envelope carry the means 5 for positioning the tube. As the number of parts is reduced, the risk of leaks between the connections between these parts is also. The overall sealing of the exchanger is thus reinforced. According to one embodiment, the tube positioning means comprise at least one comb.

Preferably, each of the two walls carries a comb. The positioning of the tubes is thus done in a simple manner. According to one embodiment, the tube positioning means are connected to one end of the tube. The assembly of the exchanger is then easy.

Advantageously, first fluid supply means, preferably comprising a collector, are positioned on the end of the tube connected to the positioning means of the tube. Thus, it is no longer necessary to assemble the metal plates with the collector, the number of components of the exchanger is reduced. In addition, since the supply means 20 covers the connection between the tube and the positioning means of the tube, this connection is protected. Preferably, a wall carrying a portion of the tube positioning means comprises an orifice for carrying out the supply of the exchanger as a second fluid.

Advantageously, each of the two walls carrying means for positioning the tube comprises an orifice making it possible to supply the exchanger with a second fluid. According to one embodiment, the first fluid is a gas. Preferably, the second fluid is a liquid.

The heat exchanges with the first fluid are thus effective. It is also provided according to the invention a motor vehicle air conditioning device comprising a heat exchanger as previously described. One embodiment of the invention will now be described, by way of nonlimiting example, with reference to the following figures: FIG. 2 is an exploded perspective view of part of a heat exchanger according to FIG. invention, and - Figure 3 is a view of this part of the partially assembled exchanger. FIG. 2 shows part of a heat exchanger 110 according to the invention. This heat exchanger 110 is intended to be used for an air conditioning device of a motor vehicle. It comprises two walls 116 and 118 similar to those shown in Figure 1 except for their ends 119 which have a width slightly greater than the body of the walls 116, 118. The exchanger 110 has a generally parallelepipedic shape . The exchanger 110 comprises a plurality of parallel flat tubes 120 arranged in a beam, intended to allow the circulation of a first fluid. Here, the first fluid is a refrigerant of the air conditioning device. This fluid may be in particular of the type HFO-1234yf or R744 or more generally any other type of fluid suitable for use in air conditioning devices of a motor vehicle. The exchanger 110 further comprises two side walls 112, 114. These walls and the walls 116, 118 form a sealed envelope for the exchanger 110. This envelope defines an interior space inside which a second fluid is intended to 15 circulate. This second fluid is here ethylene glycol in the liquid state, but may be, according to variants, any other type of antifreeze fluid capable of cooling the first fluid. Each tube 120 is thus positioned inside the sealed envelope and has a generally substantially flat shape. The tubes 120 comprise streaks on their two main faces. These striations make it possible to maximize heat exchanges between the first and the second fluid. The pitch between each tube 120 further defines a spacer within which the second fluid is intended to flow. According to a variant of the present embodiment, the pitch between each tube 120 is zero, but the ridges of each of the tubes 120 define a space dedicated to the circulation of the second fluid.

Each wall 112, 114 carries, on its ends, an identical comb 115 and constant pitch between two consecutive teeth. The teeth of the combs 115 have the same shape, the same width and the same length. This pitch between each tooth of the comb 115 is substantially equal to the thickness of a tube 120. The respective combs 115 of the walls 112, 114 form means for positioning the tubes 120 in the sealed envelope of the exchanger 110. In addition, the wall 112 carries, in a portion 121 outwardly recess, a circular orifice 122. The diameter of this orifice 122 is adapted to accommodate a member 126 connected to the air conditioning device. The outward recess of the portion 121 gives space for the parts of the member 126 protruding inside the sealed envelope of the exchanger 110. This member 126 makes it possible to carry out the feeding of the exchanger 110 in second fluid. In a symmetrical manner, the wall 114 also carries a circular orifice, not shown here, the position of which in the exchanger 110 is similar to that shown in FIG. 1. The exchanger 110 also comprises a collector 130 as shown in FIG. a supply member 132 of this manifold connected to the air conditioning device. The collector 130 and the supply member 132 form first-fluid supply means for the tubes 120 of the exchanger 110. FIG. 3 shows part of the exchanger 110 partially assembled. As the pitch between each tooth of the comb 115 is substantially equal to the thickness of a tube 120, the teeth of the combs 115 enclose each end of tube 120 and thus allow the positioning of this plurality of tubes 120. The positioning means reciprocal are thus directly connected to each end of the tubes 120. The pitch between two neighboring tubes can thus be very small. As can be seen in FIG. 3, the ends of the tubes 120 extend beyond the teeth of the combs 115. As a result, it is possible to directly connect the collector 130 to which the supply member 132 is connected. The manifold 130 covers the overlapping ends of the teeth of the two combs facing each other. Thanks to this arrangement, as the combs are part of the walls 112, 114 which are covered with a plating, the plating contribution is increased at the collector 130, hence a better sealing of the exchanger after soldering, sealing which is also increased because of the reduction in the number of parts forming the exchanger.

Of course, many modifications can be made to the invention without departing from the scope thereof. In particular, it will be possible to modify the number or the shape of the tubes 120 for circulating the first fluid. The first and second fluid supply means may also be modified. In addition, various means of reciprocal positioning may be used.

Claims (6)

REVENDICATIONS1. A heat exchanger (110) between a first fluid and a second fluid comprising at least one tube (120) for circulating the first fluid and a sealed envelope (112, 114, 116, 118) surrounding the tube (120) and defining a space intended to allow the circulation of the second fluid, characterized in that the envelope (112, 114, 116, 118) comprises at least two walls (112, 114) carrying means (115) for positioning the tube (120 ). 2. Exchanger (110) according to the preceding claim, wherein the tube positioning means (120) comprise at least one comb (115). 3. Heat exchanger (110) according to one of the preceding claims, wherein the positioning means (110) of the tube (120) are connected to one end of the tube (120). 4. Heat exchanger (110) according to one of the preceding claims, wherein the first fluid supply means (130, 132), preferably comprising a collector (130), are positioned on the end of the tube (120). connected to the positioning means (115) of the tube (120). 5. Heat exchanger (110) according to at least one of the preceding claims, wherein a wall (112, 114) carrying a part of the positioning means (115) of the tube (120) comprises an orifice (122) for achieving Supplying the exchanger (110) with a second fluid. 6. Heat exchanger (110) according to the preceding claim, wherein each of the two walls (112, 114) carrying positioning means (115) of the tube (120) comprises an orifice (122) for carrying out the supply of the exchanger (110) in second fluid.