JP5904738B2 - Two-phase heat exchanger and header assembly - Google Patents

Description

  The present invention relates to a two-phase heat exchanger and header assembly.

  It is known that the two-phase heat exchanger is used for, for example, a condenser for air conditioning of an automobile.

  This assembly is known from US Pat. However, this assembly is not easy to join between the heat exchanger and the header.

FR2923899

  The main object of the present invention is to remedy the aforementioned problems.

  In order to achieve this object, the present invention provides an assembly as defined above, wherein the heat exchanger comprises a heat exchange core and a housing, the core is disposed within the housing, and the header comprises: The cover is firmly attached to the housing, and the cover is proposed to include a joint portion with the heat exchange core and attachment means for the header.

  Thus, the joint part of this assembly is simplified, and the housing part of the heat exchanger, particularly its cover, can be applied to the joint part of this assembly.

The embodiment of the present invention has the following features.
The cover forms the end plate of the heat exchange core;
The core comprises a refrigerant inlet header section, an outlet header section, and a series of two laminated plates forming a connecting pipe, the end plate of the heat exchange core section; A first passage and a second passage facing the refrigerant inlet header portion and the outlet header portion, respectively, are provided, and the first passage and the second passage are respectively formed in a base portion of the header. And the refrigerant inlet into the header.
The cover comprises at least one collar facing the inlet header part and the outlet header part of the heat exchange core part, the collar receiving the protrusion of the header, thereby The header is communicated.
The header comprises a base and a header body, the base and the header body each comprising at least one protrusion that can be fitted to the cover for holding the cover on the header;

  The invention will become more apparent upon reading the detailed description of embodiments of the invention with reference to the accompanying drawings.

It is the perspective view which cut off a part of assembly of the present invention. FIG. 2 is an enlarged longitudinal sectional view of the assembly of FIG. 1.

  The present invention relates to a two-phase heat exchanger 10 and header 12 assembly.

  The heat exchanger 10 includes a heat exchange core 14 and a housing 16.

  The heat exchange core 14 includes a set of two laminated plates and fins, and includes at least one inlet hole 24 for a refrigerant such as R134a.

  A refrigerant circulation passage is formed by a set of two laminated plates, and a connection pipe having a refrigerant inlet 18 and an outlet 20 for the header 12 is provided.

  In the illustrated embodiment, the heat exchange core 14 includes an end plate 22 that forms a cover for the housing 16.

  The end plate 22 has an inlet hole 24 and an outlet hole 26, and the inlet 18 and the outlet 20 are communicated with the through hole 30 in the header 12 and the refrigerant inlet 28 into the header 12, respectively. ing.

  The header 12 is firmly attached to the housing 16 of the heat exchanger 10 by an end plate 22 (or cover). Therefore, the end plate 22 includes a connection portion with the heat exchange core 14 and a means for holding the header 12.

  Further, in this embodiment, the end plate 22 includes a groove in which the housing 16 can be fitted. The heat exchange core 14 and the housing 16 are coupled by a known technique, for example, press contact engagement.

  The housing 16 of the heat exchanger 10 is a housing that can receive the heat exchange core 14. In other words, the heat exchange core 14 is inserted into the housing 16. In this embodiment, the housing is made of synthetic resin and has reinforcing ribs.

  Further, the housing 16 includes an inlet / outlet pipe 32 for the coolant. Through this inlet / outlet pipe 32, a coolant such as cooling water containing an antifreezing agent from a so-called low-temperature circuit of the automobile can be circulated between each pair of laminated plates of the heat exchange core 14. Therefore, heat exchange is performed between the coolant liquid flowing through the passage formed by each set of laminated plates and the coolant circulating in the housing 16 by immersing each pair of laminated plates.

  A mounting means 34 for the assembly of the heat exchanger 10 and the header 12 is provided. The attachment means 34 is formed integrally with the housing 16. By this attachment means 34, the assembly of the present invention can be firmly attached to, for example, a support for an electric blower of an automobile.

  The header 12 has a function of performing necessary phase separation between the liquid condensed refrigerant fluid and the gaseous refrigerant fluid.

  The header 12 includes at least one through hole 30 for allowing the refrigerant fluid to pass therethrough. The through hole 30 for passing the refrigerant fluid communicates with the inlet hole 24 of the heat exchange core portion.

  In this example, the through hole 30 is a passage for circulating the refrigerant fluid through the base of the header 12. In other words, the heat exchange core 14, particularly the inlet 18, can be communicated with the air conditioning circuit through the through-hole 30, and the refrigerant fluid is introduced into the inlet of the heat exchanger 10 through communication through the header 12 (in this case, the base 36). The function of connecting to is performed.

  In this case, the refrigerant fluid flows into the core portion through the inlet hole 24 of the end plate 22. Thereafter, the refrigerant fluid is diverted in the inlet 18 of the heat exchange core 14.

  To achieve this purpose, the end plate 22 includes a first collar or inlet 24 at a position facing the inlet 18 of the heat exchange core 14. The inlet 24 of the end plate 22 receives the header protrusion formed at the end of the through hole 30, whereby the heat exchanger 10 and the header 12 can be communicated with each other.

  A first attachment means of the header 12 to the heat exchanger 10 is formed by the inlet hole 24 of the end plate 22 and the end portion of the through hole 30.

  In addition, the header 12 includes a refrigerant inlet 28 to the header 12. The refrigerant inlet 28 to the header 12 is an inlet hole into which refrigerant fluid flows into the main body 38 of the header 12. In other words, the heat exchange core 14 (especially the outlet 20) and the inside of the header 12 can be communicated with each other through the inlet hole.

  In this embodiment, the refrigerant inlet 28 that flows into the header 12 is formed as a second protrusion of the header 12. This protrusion faces the outlet 20 of the heat exchange core 14 and can come into contact with the outlet hole 26 of the end plate 22. The heat exchanger 10 and the header 12 can be communicated with each other through the outlet hole 26 of the end plate 22 and the second protrusion of the header 12.

  In other words, the heat exchange core 14 further includes a refrigerant outlet hole 26, and the header 12 further includes a refrigerant inlet 28 that flows into the header 12. The refrigerant inlet 28 of the header 12 communicates with each other.

  The outlet hole 26 and the refrigerant inlet 28 of the end plate 22 form second attachment means for the header 12 to the heat exchanger 10.

  In this example, the header 12 includes at least a base portion 36 and a main body 38.

  The main body 38 of the header 12 has a shape obtained by bending a sheet-like metal member into a cylindrical shape. The header body 38 is closed at one end by a base 36 and at the other end by a cap 40. In this embodiment, the cap 40 is screwed.

  In addition, the header includes means for removing impurities from the refrigerant fluid, which are a filter 42 and a desiccant 44.

  In the illustrated embodiment, the filter 42 is secured to the cap 40 and is disposed within the body 38 of the header 12. The desiccant 44 is disposed inside the main body 38 of the header 12 so that moisture contained in the refrigerant fluid in the header can be removed.

  Further, the header 12 is provided with an outlet hole 46 for the refrigerant fluid. In the illustrated embodiment, the base 36 is provided with a through hole 30 and an outlet hole 46 for the refrigerant fluid from the header 12.

  An opening (in this case, the through hole 30) through which the refrigerant fluid flows into the heat exchanger 10 and an outlet opening for the refrigerant fluid (in this case, the outlet hole 46 of the refrigerant fluid from the header 12) are provided. By combining them in the base portion 36 of the header 12, it is possible to eliminate the known flange connection method in the prior art assembly, and it is possible to easily and easily assemble the assembly of the present invention.

  Further, by arranging the inlet and the outlet together in the header, for example, the connecting portion with the internal heat exchanger known by the abbreviation “IHX” can be simplified.

  In the illustrated embodiment, the first through holes 30 and the outlet holes 46 for the refrigerant in the header 12 are arranged together in the base portion 36. The first through hole 30 and the outlet hole 46 are machined into the base portion 36, for example.

  Further, the header 12 is provided with a suction pipe 48. Here, the suction pipe 48 is disposed in the main body 38 of the header 12.

  With this suction pipe 48, the refrigerant fluid in the header 12 can be guided to the outlet hole 46 of the header 12. This is circulated by sucking the refrigerant fluid into the suction pipe 48.

  In other words, the header 12 includes a refrigerant inlet 28 through which refrigerant fluid flows into the header 12. The refrigerant inlet 28 through which the refrigerant fluid flows into the header 12 is connected to the outlet hole 26 through which the refrigerant fluid flows out of the heat exchange core 14, while the intake pipe 48 is used to transfer the refrigerant fluid to the header 12. It is connected to an outlet hole 46 that flows out to the outside.

  In this embodiment, the cap 40 of the header 12 includes means for positioning the suction tube 48 in the header 12, particularly in the header body 38.

  In the illustrated embodiment, the length of the header 12 is L1, and the length of the heat exchanger 10 is L2. In other words, the header 12 is longer than the heat exchanger 10. In other words, the header 12 protrudes from the heat exchanger 10.

  The invention is not limited to the above-mentioned non-limiting examples, but also encompasses all variants that a person skilled in the art can think of based on the claims.

10 heat exchanger 12 header 14 heat exchange core 16 housing 18 inlet
20 outlet 22 end plate 24 inlet hole 26 outlet hole 28 refrigerant inlet 30 through hole 32 inlet / outlet pipe 34 mounting means 36 base 38 main body 40 cap 42 filter 44 desiccant 46 outlet hole 48 suction pipe

Claims (5)

In the assembly of the two-phase heat exchanger (10) and the header (12), the heat exchanger (10) includes a heat exchange core (14) and a housing (16), and the heat exchange core ( 14) is arranged in the housing (16), the header (12) is firmly attached to the housing (16) by an end plate (22), the end plate (22) A connection portion to the heat exchange core (14) and attachment means (24; 30; 26; 28) to the header (12) ,
The header (12) includes a base (36) and a main body (38), and the base (36) has a through hole (30) through which a refrigerant fluid flows into the heat exchanger (10), and The refrigerant fluid outlet hole (46), the through hole (30) and the outlet hole (46) are arranged together in the base (36), the body (38), An assembly comprising means for removing impurities from the refrigerant fluid .   The assembly according to claim 1, wherein the end plate (22) is an end plate of the heat exchange core (14).   The heat exchange core (14) includes a series of two laminated plates forming a connecting pipe and a refrigerant inlet (18) and outlet (20), and the end plate (22) The inlet hole (24) and the outlet hole (26) facing the inlet (18) and outlet (20) for the refrigerant of the heat exchange core (14), respectively. And the outlet hole (26) communicate with the through hole (30) formed in the base (36) of the header (12) and the refrigerant inlet (28) into the header (12), respectively. The assembly according to claim 1 or 2, characterized in that   The end plate (22) comprises at least one hole (24; 26) facing the inlet (18) and outlet (20) of the heat exchange core (14), said hole (24; 26). ) Is configured to allow the heat exchanger (10) and the header (12) to communicate with each other by receiving the protruding portion of the header (12). The assembly described in 1. The said the previous SL base (36) body (38), respectively, the header for holding the end plate (12) (22), at least one protrusion that can be fitted to the end plate (22) The assembly according to any one of claims 1 to 4, further comprising:

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