JP6445056B2 - Header for heat exchanger exchanger bundle - Google Patents

Description

  The present invention relates to an exchanger bundle header of a heat exchanger such as a heat exchanger designed for an automobile. The header according to the invention is particularly suitable for withstanding high pressures.

  A heat exchanger of the type used primarily in the automotive industry has a case or housing that contains therein a heat exchange element that allows heat exchange from a first fluid to a second fluid. These elements that allow such heat exchange may include, for example, tubes.

  The plurality of tubes disposed within the heat exchanger may be present in an exchanger bundle that includes a plurality of tubes disposed substantially parallel to each other. These tubes can be arranged in a row or in a plurality of rows that are parallel to each other. The tubes are held on the first and second headers at their respective ends. The tube allows the first fluid inside the tube to be guided from the first end of the exchanger bundle to the second end of the exchanger bundle.

  The plurality of tubes generally define a channel between each other, together with the wall of the housing, for guiding the second fluid from the second end of the heat exchanger to the first end of the heat exchanger. Thus, the heat exchanger in particular allows opposing flow of the first and second fluids within the heat exchanger.

  Other elements such as plates, fins and flow agitating members may be provided as supplemental members in the tubes forming the exchanger bundle to improve heat exchange between the first fluid and the second fluid.

  Headers designed for heat exchanger exchanger bundles are known in the prior art. The housing has the form of a case having a plurality of walls that form the outside of the housing and define a volume in which heat exchange is performed. In principle, the housing has inlets and outlets designed for the first and second fluids at the first and second ends of the housing. These inlets and outlets thus allow the heat exchanger to be connected to the inlet and outlet pipes. The inlet pipe allows the first and second fluids to be moved in the direction of the heat exchanger. The outlet pipe allows the first and second fluids to be moved to their final destination after the first and second fluids have passed through the heat exchanger.

  The header for the heat exchanger exchanger bundle described above is disclosed in European patent application EP 2 463 612. The header disclosed in the present application has a plurality of elements stacked on each other inside the housing to realize the header.

  According to European patent application EP 2 463 612, these elements must be secured to one another prior to use of the heat exchanger. In order to allow a heat exchanger with this type of header to function under high pressure conditions, it is essential for the different elements to be secured to one another in order to function optimally. However, the fixing method is relatively complicated and expensive. In addition, the weight of all parts significantly increases the weight of the vehicle.

  It is an object of the present invention to provide a heat exchanger exchanger bundle header that is inexpensive to manufacture and lightweight, and that guarantees functionality designed to suit high pressure conditions.

  The header for the heat exchanger exchanger bundle according to the invention is intended to overcome the drawbacks of the heat headers known in the prior art by proposing an improved design in terms of establishing heat exchange.

For this purpose, the present invention
A header designed to be used with an exchanger bundle of a heat exchanger, wherein the exchanger bundle includes at least a first row of tubes and a second row of tubes, the tubes comprising: Designed to allow flow of fluid through the exchanger bundle,
The header is at least
-A first contact element intended to hold the upper side of the first end of said first row of tubes;
A second contact element intended to hold the lower side of the first end of the first row of tubes and to hold the upper side of the first end of the second row of tubes; A second contact element wherein a thickness of the second contact element defines a distance between the first row of tubes and the second row of tubes;
-A third contact element intended to hold the underside of the first end of the second row of tubes;
The first, second and third contact elements are equidistant;
The first end of the first contact element is connected to the first end of the second contact element by at least a first bend connection;
The second end of the second contact element is connected to the second end of the third contact element by at least a second bent connecting element.

  According to one embodiment of the present invention, the plate includes a metal such as aluminum.

  According to an embodiment of the present invention, the material of the plate includes plated aluminum.

  The invention also relates to a plate made of a bendable material including bending elements. The plate is configured such that when the plate is bent by a bending element, the plate forms any of the headers described above.

  Objects, subjects and characteristics of the present invention, and advantages thereof will become more apparent from the following description made with reference to the accompanying drawings for preferred embodiments of the heat exchanger according to the present invention.

1 is an exploded view of a heat exchanger including a header of an exchanger bundle according to an embodiment of the present invention. The figure which shows the header of FIG. 1 in the initial flat shape before bending of a header. FIG. 3 shows the header of FIG. 2 in an intermediate shape during bending of the header. The figure which shows the header of FIG.2 and FIG.3 in the final shape after bending of a header. The figure which shows the heat exchanger after the assembly containing the header of FIG.2, FIG3 and FIG.4. The figure which shows the header for exchanger bundles by 2nd Embodiment of this invention.

  FIG. 1 is an exploded view of a first embodiment of a heat exchanger 1 that includes at least one header 60 for an exchanger bundle 10 according to the present invention.

  The heat exchanger 1 has walls 2, 3, 4 that form a case or housing that becomes the outer wall of the heat exchanger 1 after assembly. Wall 3 forms the top of heat exchanger 1, wall 5 forms the base of heat exchanger 1, and walls 2, 4 form the side of heat exchanger 1.

  Inside the case, the heat exchanger contains an exchanger bundle that allows heat exchange between the first fluid and the second fluid. The exchanger bundle has a plurality of rows of tubes 30 that are stacked in a substantially parallel manner so as to form a stacked body 31.

  The laminated body 31 which consists of the some tube 30 is connected with the two headers 60 which have a some function in the both ends. Therefore, the header 60 can receive and hold another tube 30 of the laminate 31. The headers 60 are disposed at substantially parallel positions.

  The shape and function of the header 60 will be described in detail below with reference to FIGS. 1, 2, 3, and 4.

  As shown in FIG. 1, each header 60 is connected to connecting elements 40 and 50. The connecting portion 40 has an inlet 41 for the first fluid. This fluid can enter the heat exchanger 1 via the inlet 41. The connecting part 50 has an outlet 51. The first fluid can flow in the direction of the connecting portion 50 through another tube 30 forming the stacked body 31. Next, the first fluid can flow out of the heat exchanger 1 via the outlet 51 of the connecting portion 50.

  The first fluid flowing from the inlet 41 to the outlet 51 is a fluid such as oil present in the oil circuit, for example, and must be cooled in its standard use. For the purpose of being cooled, the fluid flows through the plurality of tubes 30 forming the laminate 31 as a whole. There is a channel outside the tube 30, whereby the second fluid moves from the inlet 22 provided on the wall 2 to the outlet 21 also provided on the wall 2 as a counterflow to the first fluid. Is possible. For the purpose of forming a separate channel between the tubes 30 forming the laminate 31, the tubes 30 are spaced from each other so that the second fluid can flow from the inlet 22 to the outlet 21. They can be connected to each other with the

  According to the present invention, it is important that the separate tubes 30 forming the laminate 31 as a whole are fixed in an optimal manner so that the heat exchanger 1 can be used under high pressure conditions.

  According to FIG. 1, the header 60 makes it possible to guarantee the functionality of the heat exchanger 1 while fixing separate plates to each other.

  FIG. 2 shows one of the headers 60 that has an initial shape that is a flat plate. The header 60 includes two surfaces and is stamped to provide fluid flow between separate tubes and the passage of the tube itself. The plate shown in FIG. 2 is bent in a bending process to provide the header 60 shown in FIG. The intermediate shape during bending is shown in FIG. The final shape of the head after bending is shown in FIG.

  In order to enable the bending process of the header 60 and various functionalities, the header 60 has a series of contact elements 61, 62. These contact elements 61, 62 are connected to each other by connecting elements 63, 64, 65 designed to be bent. Each first contact element 61 is connected to the second contact element 62 by two connecting elements 63 arranged substantially at the edge of the plate. Each second contact element 62 is connected to the adjacent first contact element 61 by a series of four connecting elements 64 disposed between the two edges of the plate 60. The contact elements 61, 62 define an opening 65 between them that is designed to allow the tubes of the laminate 30 to pass individually as shown in FIG.

  The openings 66, 67, 68 form a passage that allows passage of the rows of the tubes 30 of the laminate 31 as a whole. As shown in FIG. 1, the thickness of the plate 60 corresponds to the height of the passage of the coolant flowing between the individual tubes 30 from the inlet 22 to the outlet 21. In particular, the plate 60 is processed to have a chamfered surface for the purpose of facilitating insertion of the individual tubes 30 of the laminate 31. Further, the plate 60 has a groove that can prevent the fine channel from being blocked by the fluid before the plate is bent. As shown in FIG. 4, the header 60 obtained after the plate 60 is bent is designed as a whole so as to be suitable for many tubes of less than 30. In practice, the thickness of the header 60 is limited to approximately 500 mm, as shown in FIG. Moreover, according to this invention, each tube 30 which forms the laminated body 31 as a whole is fixed with a lightweight and cheap apparatus.

  FIG. 5 shows the use of the header 60 according to the invention in the heat exchanger 1. The outer wall of the heat exchanger has been partially removed so as to present the various elements of the heat exchanger 1. FIG. 5 shows the outlet 21 through which the cooling fluid is discharged. Individual tubes 30 forming the header 60 and the laminated body 31 are shown inside the heat exchanger 1. The manufacture of the header 60 shown in FIGS. 2, 3 and 4 is relatively inexpensive, and a particularly lightweight header 60 can be obtained. Due to the shape and functionality of the header 60, the heat exchanger 1 can be used under high pressure conditions.

  FIG. 6 shows a header 70 according to a modification of the invention. The header 70 has a contact element 61. The contact element 61 is capable of holding the individual tubes 30 of the stacked body 31 of FIG. 1 and is connected by a connecting element 72 disposed on the lateral edge of the header 70. The connecting element 72 allows the bending process to obtain the header 70 to be performed.

Claims (4)

A header (60) designed to be used with a heat exchanger exchanger bundle, the exchanger bundle comprising at least a first row of tubes (30) and a second row of tubes (30). The tube (30) is designed to allow flow of a first fluid in the exchanger bundle;
The header (60) is at least
-A first contact element (61, 62) intended to hold the upper side of the first end of said first row of tubes;
A second contact element intended to hold the lower side of the first end of the first row of tubes and to hold the upper side of the first end of the second row of tubes; (61, 62), wherein the thickness of the second contact element defines the distance between the first row of tubes and the second row of tubes (61, 62). When,
-A third contact element (61, 62) intended to hold the underside of the first end of the second row of tubes (30);
The first, second and third contact elements are equidistant;
- the first end of the first contact element (61) is a first end of the second contact element (62), are connected by at least a first bent link portion,
- the second end of the second contact element (61, 62) is in the second end of the third contact element (61, 62), are connected by at least a second bent coupling element (63, 64) Yes,
Header (60). Said header (60) includes a metallic,
The header (60) according to claim 1. The material of the header (60) includes plated aluminum,
The header according to claim 2.   A header (60) according to any one of claims 1 to 3, wherein the plate is made of a bendable material including a bending element, and the plate is bent by a connecting element (63, 64). Plate configured as follows.

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