JP2018189363A - Collection box and corresponding heat exchanger - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a heat exchanger that employs reverse flanges for a header having a rounded bottom so as to insert heat exchange tubes into the header.SOLUTION: A header 5 comprises a plurality of corrugations 11; and flanges 9 are created at the corrugations 11 of the header 5 and each have a substantially flared shape directed away from the volume defined by a collection box 1.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a recovery box for a heat exchanger, in particular for motor vehicles. The invention also relates to a corresponding heat exchanger. Such heat exchangers are used, for example, in motor vehicles, in particular as radiators for cooling systems, or in high-pressure applications, for example as condensers for air conditioning systems.

  Generally, such a heat exchanger includes a core tube bundle and at least one collection box. The collection box is configured to receive the end of the heat exchanger tube.

  For this purpose, the collection box usually comprises a header, for example in the form of a header plate. Usually, the collection box also includes a cover for fixing the header plate and closing the collection box.

  The header plate allows fluid to be distributed to multiple heat exchange tubes or allows fluid from these heat exchange tubes to be collected. The header plate is usually made of aluminum and can be manufactured, for example, by stamping.

  The header plate typically has a flat bottom.

  However, in applications where pressure resistance is intended, it is known to provide at least a partially rounded bottom on the header for the purpose of pressure resistance. Further, a header plate having a flat or recessed bottom generally has a flange that surrounds an opening through which the ends of the tubes of the heat exchanger core pass.

  For the introduction of the tube, an opening such as a slot is provided in the header plate by removing material or on the other hand without removing material. In the latter case, the material is pushed by the tool into the volume defined by the collection box, thereby forming a flange around the opening for introducing the tube. Such a flange is referred to as a standard flange.

  The flange makes it possible to ensure contact between the tube and the opening of the header plate and to obtain a high brazing quality when brazed, for example in a total aluminum exchanger. .

  Generally, the tube is inserted into the opening in the same direction as the tool used to form the flange around the opening. In general, the inserted tube is partially extended into the collection box to ensure an accurate brazing and assembly with high robustness and leakproofness. In a particular solution, the tube projects to approximately half the volume of the collection box in the volume that forms the reservoir for the fluid.

  However, by projecting the tube into a volume defined by the internal volume of the collection box and forming a reservoir for fluid, pressure loss occurs in the fluid circuit. This internal pressure loss necessitates an increase in pump capacity to maintain a specific flow rate of fluid.

  According to known solutions, a recovery box with a flat bottom can have a flange called the reverse flange. This means that the flange is made in the opposite direction to the insertion direction of the heat exchange tube. Thus, such a flange has a shape that expands away from the volume defined by the collection box. However, such an inverted flange is only slightly expanded. In other words, this means that the known inverted flange defines only a small inlet cone for insertion of the heat exchange tube. Thus, the inlet cone may not be sufficient to allow easy insertion of the heat exchange tube, and solutions known from the prior art may present disadvantages related to insertion of the heat exchange tube into the header.

  Since it is difficult to insert a heat exchange tube into a header having such a reverse flange, a so-called standard flange is preferred as a solution for using a reverse flange for a header having a rounded bottom. There is no assumption in the technology.

  The object of the present invention is to provide a collection box that can solve these problems of the prior art.

  For this purpose, one subject of the invention is a heat exchanger recovery box with a header having an at least partly rounded shape, the header comprising a plurality of heat exchanges of the heat exchanger. A plurality of openings for allowing the tube to pass therethrough and a plurality of flanges surrounding the openings; the header further comprising a plurality of hook-shaped portions; and the flange is formed in the hook-shaped portion of the header. Each having a substantially expanded shape directed away from the volume defined by the collection box.

  According to a preferred embodiment, the flange is formed at the top of the bowl-like portion facing away from the volume defined by the collection box.

  Such a bottom, which is at least partially rounded, is suitable for pressure resistance in high pressure applications, and such a reverse flange, i.e. a header with a flange facing in the direction opposite to the normal direction in which the tube is inserted, is conventionally If so, the end of the tube that protrudes into the volume defined by the collection box can be received.

  Thus, the end of the tube is no longer open into the volume defined by the collection box. This significantly reduces the pressure loss associated with the fluid flow through the heat exchanger tubes.

  In short, there is enough material to form a reverse flange that is sufficiently widened to facilitate the introduction of a heat exchange tube by combining at least a partially rounded header and a plurality of hooks. It will be. In particular, the inverted flange according to the invention defines an inlet opening for the insertion of a substantially tulip-shaped heat exchange tube, which inlet opening is sufficiently wide because of such abundant materials.

The collection box may further comprise one or more of the following features, alone or in combination.
The header has at least one wall, the shape of the wall being substantially concave towards the outside of the volume defined by the collection box;
The hook-shaped part is formed on the wall part;
The hooks each have a maximum height of about 30% of the pitch of the tubes;
The flanges each have a substantially conical shape;
The cone formed by the flange has an angle of about 30 °, which makes it easier to introduce a plurality of heat exchange tubes simultaneously into the header opening surrounded by the flange.
The flanges each have a first width and a second width that is larger than the first width, for example about twice the first width, whereby all heat exchange A sufficiently wide opening is provided so that the tube can be easily introduced into the header opening.
The first width is substantially equal to the width of the tube intended to be inserted into the opening;
The flanges each have two convex substantially widened edges, the convex shapes facing the outside of the volume defined by the collection box;
The flange has a height of about half of the height of the bowl-shaped part;
The flange is thinned relative to the flange on the header so that the flange has a first thickness, respectively, and the flange is the first of the flange; Each of the second thicknesses is smaller than the thickness.
-Thinning of the material in the flange is at least 30% of the initial thickness of the material, or locally over 50%. By reducing the thickness of the material, the flange can be lengthened so as to obtain sufficient expansion to facilitate insertion of the tube.

  The invention also relates to a heat exchanger, in particular for a motor vehicle, comprising a heat exchange core tube bundle, wherein the end of the tube is fixed to at least one recovery box.

  The heat exchanger may be a brazed heat exchanger.

  As another option, the heat exchanger may be a heat exchanger in which the elements forming the recovery box are mechanically assembled together.

  According to one embodiment, the heat exchange tube has a height comprised between 0.8 mm and 2.5 mm, preferably between 1.2 mm and 1.8 mm.

  The pitch of the heat exchange tubes, i.e. the distance between the centers of the two heat exchange tubes, for example, is comprised between 5 mm and 10 mm, preferably between 6 mm and 8 mm.

  Further features and advantages of the present invention will become more apparent upon reading the following description given by way of illustrative and non-limiting example and by examining the accompanying drawings.

FIG. 3 is a perspective view of a recovery box according to the present invention for a heat exchanger. FIG. 2 is a partial cross-sectional view of the collection box of FIG. 1 in which a portion of a plurality of tubes of the core of the heat exchanger receives the end of one illustrated tube. FIG. 2 is a cross-sectional side view of the header of FIG. 1. The 1st perspective view of the header of the recovery box of Drawings 1 thru / or 3. The 2nd perspective view of the header of the recovery box of Drawings 1 thru / or 3. 4b is a cross-sectional view of the header of FIGS. 4a and 4b. FIG. FIG. 6 is an enlarged view of the header of FIG. 5 receiving the end of the heat exchanger tube.

  In these drawings, the same reference numerals are assigned to the same elements.

  FIG. 1 shows in a schematic and simplified manner a fluid recovery box 1 for a heat exchanger (not shown), in particular in the automotive field. The heat exchanger can be used in particular as a radiator for automobiles or as a condenser.

  In particular, the present invention can be applied to brazed heat exchangers.

  The heat exchanger includes three core tube bundles. FIG. 2 shows only one end of one tube 3. The tube 3 is made of, for example, aluminum or an aluminum alloy. The tube 3 is, for example, a substantially flat tube 3.

  The collection box 1 is configured to receive at least one end of the tube 3 of the heat exchanger. More specifically, it is configured to receive a plurality of ends of a plurality of tubes 3 of a heat exchanger (not shown). FIG. 2 shows only one end of one tube 3.

  For this purpose, the collection box 1 is provided with a header 5. The collection box 1 also includes a cover 6 that is fixed to the header 5 and closes the collection box 1.

  The header 5 is made of, for example, aluminum or an aluminum alloy. The cover 6 can be constructed from aluminum or an aluminum alloy, or alternatively from plastic.

  The cover 6 can be fixed to the header 5, for example by clipping, by brazing, or by crimping.

  Furthermore, the header 5 is provided with a plurality of openings 7 for allowing the ends of the plurality of tubes 3 to pass therethrough.

  The opening 7 has a substantially elongated shape such as a slot.

  The end of the tube 3 received in the opening 7 can be brazed to the header 5, for example.

  According to one embodiment, the heat exchange tube 3 has a height comprised between 0.8 mm and 2.5 mm, preferably between 1.2 mm and 1.8 mm.

  The pitch of the heat exchange tubes 3, that is, the distance between the centers of the two heat exchange tubes 3, is included, for example, between 5 mm and 10 mm, preferably between 6 mm and 8 mm.

  According to the illustrated embodiment, the header 5 has a wall 8 which forms the box end. Further, the collection box 1 includes a side wall 8 ′ connected to the box end 8.

  The box end 8 has a shape that is at least partially rounded.

  According to the illustrated embodiment, the wall 8 that forms the end of the box, also referred to as the end wall 8, has a shape that is substantially recessed towards the outside of the volume defined by the collection box 1. doing. Thus, the end wall 8 of the header 5 has a substantially concave shape with respect to the internal volume defined by the recovery box 1 and substantially with respect to the core of the plurality of tubes 3 of the heat exchanger. Has a convex shape. The convex portion faces the outside of the volume defined by the collection box 1.

  As shown in FIGS. 1 to 3, the collection box 1 further includes a predetermined number of flanges 9 formed in an opening 7 for receiving the end of the tube 3 in the header 5. More specifically, each opening 7 is surrounded by a flange 9. The flange 9 is produced in this example without removing the material.

  The header 5 further includes a plurality of deformation portions 11. The deformed portion 11 is formed on the substantially recessed end wall portion 8 of the header 5. The deformable portion 11 is produced, for example, so as to form a regular pattern.

  According to the illustrated embodiment, this pattern consists of a ridge or wave 11.

  The hook-shaped part 11 can be made symmetrically with respect to the longitudinal axis of the end wall part 8 of the header 5. Therefore, the bowl-shaped portion 11 has top portions that alternately extend on one side and the other side of the longitudinal axis of the end wall portion 8 of the header 5. In other words, the bowl-shaped portion 11 includes, for example, a plurality of top portions facing the inside of the volume defined by the collection box 1 and a plurality of opposing top portions oriented in a direction away from the volume defined by the collection box, that is, A plurality of opposing tops facing the outside of the collection box 1 and facing the core formed of the plurality of tubes 3 of the heat exchanger.

  A flange 9 better shown in FIGS. 4 a and 4 b is formed in the flange 11. More specifically, it is formed on the top of the bowl-shaped portion 11 that faces away from the volume defined by the collection box. In particular, the plurality of openings 7 are formed by piercing or punching the header 5 at the top of the flange 11 facing away from the volume defined by the collection box, and the flange 9 is formed by these openings 7. It is made of the surrounding material.

  In order to ensure sufficient material to form the flange 9 in the flange 11, the flange 11 has a sufficient height h (see FIG. 5), for example a maximum of about 30% of the tube pitch. It is produced so as to have a height h.

  The flange 9 formed in this way is oriented away from the volume defined by the recovery box 1, ie towards the core consisting of the tubes 3 of the heat exchanger. For this reason, these flanges are called reverse flanges 9.

  Referring again to FIGS. 2 and 6, when the end of the tube 3 of the heat exchanger is inserted into the opening 7 surrounded by such a reverse flange 9, the end of the tube 3 is removed by the recovery box 1. Located in the region Z located between the top of the bowl 11 facing the inside of the defined volume and the flat part of the box end 8 of the header 5 but projects into the volume defined by the collection box 1 No. The absence of the open tube 3 in the volume of the collection box 1 improves performance in terms of fluid flow.

  The flange 9 has a height h ′ that is sufficient to allow insertion of the end of the tube 3, for example, a height h ′ that is about half of the height h of the hook-shaped portion 11.

  Furthermore, the flange 9 has a shape that expands as a whole, such as a tulip shape.

  More specifically, the flanges 9 each have a substantially conical shape having an angle α (see FIG. 5) of about 30 °, for example.

  Thus, the flange 9 has two widened edges 9a, 9b corresponding to two long edges joined together by two short edges 9c, 9d.

  This expanded or substantially conical shape facilitates introduction into the header 5 at the end of the tube 3 from the outside of the volume defined by the collection box 1 to the inside of the volume defined by the collection box 1. Shall.

  The two widened edges 9 a, 9 b have, for example, a substantially convex shape, the convex shape facing the outside of the volume defined by the collection box 1.

Referring to FIG. 5, the tulip-shaped flange 9 is
-A first width l _{1 at} the top of the perforated or punched corresponding trough 11 corresponding to the shortest width of the flange 9;
An outer second width l ₂ corresponding to the maximum width of the flange 9;
Respectively.

The first width l ₁ is substantially the same as or slightly larger than the width of the tube 3 intended to be inserted into the opening 7.

The maximum width l ₂ defines an opening 7 for insertion at the end of the tube 3 surrounded by a flange 9. The second width l ₂ is wide enough so that the ends of all tubes 3 of a heat exchanger (not shown) can be inserted into each opening 7 simply and in particular simultaneously. For example, the second width l ₂ is about twice as large as the first width l ₁ of the flange 9.

Further, the flange 9 is thin with respect to the flange 11 provided on the header 5. Specifically, referring to FIG. 6, the flange portion 11 has, for example, a first thickness e ₁ , and the flange 9 is a second smaller than the _first thickness e ₁ of the flange portion 11. and it has a thickness e _2.

  The flange 9 can be easily thinned both at the edge portions 9a and 9b whose lengths are expanded and at the short connecting edge portions 9c and 9d.

  For example, the thinning of the material may be performed at the flange 9 and the thinning may be 30% of the original thickness of the material or locally over 50%.

  By reducing the thickness of the material in the flange 9, the flange 9 can be lengthened.

  Therefore, the header 5 having such a reverse flange 9 does not require a special-purpose tool for guiding each tube 3 to the corresponding opening 7 in particular, and the end portions of the plurality of heat exchange tubes 3 of the heat exchanger. It should be understood that it is easy to introduce at the same time.

  Specifically, the inverted and widened flange 9 provides a sufficient opening for introduction into the volume defined by the collection box 1 from the outside of the collection box 1.

  Finally, these inverted flanges 9 allow the end of the tube 3 to be inserted into the volume defined by the recovery box 1 without opening the end of the tube 3, so that the fluid inside the recovery box 1 Flow is promoted.

Claims (16)

A heat exchanger recovery box (1) with a header (5) having at least a partially rounded shape,
The header (5)
A plurality of openings (7) for passing a plurality of heat exchange tubes (3) of the heat exchanger;
-A plurality of flanges (9) surrounding said opening (7);
With
The header (5) further comprises a plurality of hooks (11);
The flange (9) is substantially formed in the flange (11) of the header (5) and oriented in a direction away from the volume defined by the recovery box (1); Each collection box has an expanded shape.   The collection box according to claim 1, wherein the flange (9) is formed at the top of the bowl (11) facing away from the volume defined by the collection box (1).   The header (5) has at least one wall (8), the shape of the wall (8) being substantially recessed towards the outside of the volume defined by the collection box (1), The collection box according to claim 1 or 2.   The collection box according to claim 3, wherein the bowl-shaped part (11) is formed on the wall part (8).   The said box-shaped part (11) is a collection box as described in any one of Claims 1 thru | or 4 which each has the highest height (h) of about 30% of the pitch of the said tube (3).   The collection box according to any one of the preceding claims, wherein the flanges (9) each have a substantially conical shape.   The collection box according to claim 6, wherein the cone formed by the flange (9) has an angle (α) of about 30 °. The flange (9)
-A _first width (l ₁ );
Each having a _second width (l ₂ ) greater than the first width (l ₁ ), for example about twice the first width (l ₁ ). The collection box according to any one of 7 above. 9. The collection box according to claim 8, wherein the first width (l ₁ ) is substantially equal to the width of a tube (3) intended to be inserted into the opening (7).   The flange (9) has two convex substantially widened edges (9a, 9b), respectively, with the convex shape facing the outside of the volume defined by the collection box (1). The collection box according to any one of claims 1 to 9.   11. The recovery according to any one of claims 1 to 10, wherein the flange (9) has a height (h ') that is about half of the height (h) of the bowl-shaped portion (11). box.   The collection box according to any one of claims 1 to 11, wherein the flange (9) is thinned with respect to the bowl-shaped part (11) on the header (5).   13. A collection box according to claim 12, wherein the thinning of the material in the flange (9) exceeds at least 30% of the initial thickness of the material. A heat exchanger with a bundle of heat exchange core tubes (3), especially for automobiles,
The end of the tube (3) is fixed to at least one collection box (1);
The said recovery box (1) is a heat exchanger according to any one of claims 1 to 13.   15. Heat exchange according to claim 14, wherein the heat exchange tube (3) has a height comprised between 0.8 mm and 2.5 mm, preferably between 1.2 mm and 1.8 mm. vessel.   16. A heat exchanger according to claim 14 or 15, wherein the pitch of the heat exchange tubes (3) is comprised between 5 mm and 10 mm, preferably between 6 mm and 8 mm.

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