KR200250337Y1 - one body type heat exchanger for air conditioner of vehicle - Google Patents

Abstract

The present invention relates to an integrated heat exchanger for a vehicle air conditioner integrating an evaporator and a heater core constituting a vehicle air conditioner.

An object of the present invention is to provide an integrated heat exchanger for an automobile air conditioner in which an integrated heat exchanger integrating an evaporator and a heater core is made slimmer and simpler in overall configuration.

The present invention for achieving the above object is an evaporator tube (51) in which a plurality of the left and right directions are arranged side by side at a predetermined interval, arranged in two rows in the front and rear directions, the refrigerant flows; A row of heater tubes 52 arranged side by side behind the evaporator tube and flowing hot water at a high temperature; Corrugated fins (60) coupled by brazing between the evaporator tube (51) and between the heater tube (52); An upper header type upper opening 20 installed in common communication with an upper portion of the evaporator tube 51 and the heater tube 52; It is formed into a cylindrical shape of the lower opening to be combined to the opening of the upper header, the hot water inlet 11 and the hot water outlet 12 are formed on the left and right, respectively, and the first to insulate the hot water inlet and the hot water outlet An upper tank 10 each having a vertical baffle 13 and a first horizontal baffle 14 for isolating between the evaporator tube 51 and the heater tube 52; A lower opening type lower header 40 installed in common communication with the lower part of the evaporator tube 51 and the heater tube 52; A second type baffle 33 having an upper opening cylindrical shape to be combined with an opening of the lower header, for isolating the refrigerant inlet 31 and the refrigerant outlet 32 of the first row tube 51a; It characterized in that it consists of a lower 30 tank provided with second and third horizontal baffles 33 and 34 for isolating the left and right sides of the heater tube (52).

Description

Integrated heat exchanger for automobile air conditioner {one body type heat exchanger for air conditioner of vehicle}

The present invention relates to an integrated heat exchanger for a vehicle air conditioner integrating an evaporator and a heater core constituting a vehicle air conditioner.

In general, a heat exchanger is installed on a flow path of a cooling and heating system so as to heat a working fluid through the flow path with external air so as to cool and heat a predetermined space.

Such heat exchangers are manufactured in various ways according to the purpose of use, various places, and other conditions. A general heat exchanger applied to an automobile air conditioner has a plurality of tubes arranged in a row to allow heat exchange while working fluid passes therethrough. One of the upper and lower parts of the tube, or both of the upper and lower parts thereof, is connected with a tank providing a passage through which a working fluid can pass through a tube partitioned as a baffle, and the heat transfer area can be extended between the tubes to help heat exchange. The corrugate fin continuously zigzag-shaped so that bone and acid are repeatedly formed so that the bone and acid are repeatedly formed by brazing.

Such a heat exchanger is configured to achieve rapid heat exchange with outside air while sequentially passing through a plurality of tubes arranged in a row so that the working fluid absorbs heat from the outside to cool a predetermined space or heats the heat of the working fluid. It is to heat the predetermined heat to heat.

Such a heat exchanger is generally used only for cooling or heating because a tube in which a working fluid flows continuously is formed, but recently, two heat exchangers in which a working fluid flows are formed in one heat exchanger. As the working fluid flows, so-called integral heat exchangers are being manufactured that can satisfy both cooling and heating at the same time.

The integrated heat exchanger is provided with two independent tube paths through which the working fluid flows, allowing heterogeneous working fluids to exchange heat, thereby simultaneously cooling and heating. In particular, the integrated heat exchanger can be advantageous in that it can be miniaturized and simplified and the number of components can be reduced compared to the separate type.

In Korea, an integrated heat exchanger in which an evaporator and a heater core are integrated has been filed in Korea Utility Model Registration No. 194-13878 and Korean Patent Application No. 1996-68274, but it does not specifically present a fluid flow. As a result, the size of the device has not been greatly reduced, and the slimming effect of the device is less than expected.

The present invention has been made to solve the above-mentioned conventional problems, and in the integrated heat exchanger integrating the evaporator and the heater core, the object of the present invention is to provide an integrated heat exchanger for a car air conditioner with a slimmer and simplified overall configuration. have.

1 is a configuration diagram of the assembled state of the integrated heat exchanger according to the present invention

2 is an exploded view of the integrated heat exchanger according to the present invention

3 is a refrigerant flow diagram of an integrated heat exchanger according to the present invention

4 is a flow chart of the hot water of the integrated heat exchanger according to the present invention.

Explanation of symbols for the main parts of the drawings

10: upper tank 11: hot water inlet

12 hot water outlet 13 type 1 baffle

14: first horizontal baffle 20: upper header

30: upper tank 31: refrigerant inlet

32: refrigerant outlet 33: second horizontal baffle

34: third horizontal baffle 35: second type baffle

36: outer wall 40: upper header

50: tube 51: evaporator tube

51a: first row tube 51b: second row tube

52: heater tube 52a: third row tube

60: corrugated pin

f _{1 to} f ₄ : refrigerant flow diagram

F _1- F ₂ : hot water flow chart

An integrated heat exchanger for an automobile air conditioner according to the present invention for achieving the above object is a plurality of evaporator tubes arranged in parallel with a predetermined interval in the left and right directions, arranged in two rows in the front and rear directions; A row of heater tubes arranged side by side behind the evaporator tube and flowing hot water; Corrugated fins coupled by brazing between the evaporator tubes and between the heater tubes; An upper header of an upper opening type installed in common communication with an upper portion of the evaporator tube and the heater tube; It is formed in a cylindrical shape of the lower opening so as to be combined to the opening of the upper header, the hot water inlet and hot water outlet are formed on the left and right, respectively, the first left and right baffles and the evaporator tube to isolate the hot water inlet and hot water outlet An upper tank each having a first front and rear baffle for isolating between the heater tube and the heater tube; A lower opening type lower header installed in common communication with the lower part of the evaporator tube and the heater tube; A second opening baffle having a cylindrical shape having an upper opening to be combined with the opening of the lower header, and a second left and right baffle for isolating the refrigerant inlet and the refrigerant outlet of the first heat evaporator tube and an agent for isolating the left and right sides of the heater tube. It is characterized by consisting of a lower tank having a front and rear baffles.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an assembled state configuration diagram of an evaporator and a heater core integrated heat exchanger according to the present invention, and FIG. 2 is an exploded state configuration diagram of FIG. 1.

According to the drawings, the integrated heat exchanger according to the present invention, the upper tank 10 and the upper header 20, the lower tank 30 and the lower header 40 and the upper portion in a form corresponding to each other to secure the sealed space portion, and the upper Tubes 50 arranged in a row in a vertical state with a predetermined distance between the header 20 and the lower header 40, corrugated form of bone peracids coupled by brazing between the tubes 50 are continuous. It consists largely of a fin (currugate fin) 60.

In this case, the tube 50 is arranged in a total of three rows in the front and rear directions, one row and two rows are used for the evaporator through which the refrigerant flows, the remaining three rows are used for the heater flowing hot water. Accordingly, hereinafter, the first and second row tubes will be referred to as an evaporator tube 51 and the third row tube will be referred to as a heater tube 52.

On the other hand, in order to enable the independent configuration of the evaporation channel and the heater channel in the integrated heat exchanger, a plurality of baffles are formed in the upper and lower tanks 10 and 30 to allow the refrigerant and the heater tube 52 to pass through the evaporator tube 51. The hot water is not mixed with each other, and each independent cycle is possible, and the refrigerant or the hot water path is configured to extend as much as possible.

This will be further described with reference to FIG. 2.

First, hot water inlet 11 and hot water outlet 12 are formed at the left and right sides of the heating area of the upper tank 10, respectively. The upper tank 10 has a first type baffle 13 which isolates the upper left and right sides of the evaporator tube 51 and the upper left and right sides of the heater tube 52, and the upper portion of the evaporator tube 51. And a first horizontal baffle 14 which isolates an upper portion of the heater tube 52 from each other.

The portion a located in the evaporation region of the first type baffle 13 serves to block the refrigerant flowing into the upper tank 10 from passing from left to right, or from right to left, and b located in the heating region. The part serves to block the hot water flowing into the upper tank 10 from left to right, or right to left.

A coolant inlet 31 and a coolant outlet 32 are formed at left and right sides of the lower tank 30, respectively. The lower tank 30 has second and third horizontal baffles 33 and 34 for isolating the lower portions of the first, second and third row tubes 51a, 51b and 52a, and the first row tube 51a. The second type baffle 35 at the center of the space s between the outer wall 36 of the lower tank 30 and the second horizontal baffle 33 to block the lower left and right sides (or the coolant inlet and the coolant outlet) of the lower tank 30. ) Is formed.

The second type baffle 35 serves to isolate the left and right sides of the first row tube 51a, that is, the refrigerant inlet 31 and the refrigerant outlet 32, and the second and third horizontal baffles 33 34 serves to insulate the refrigerant from the bottom of each heat tube.

Referring to the operation of the subject innovation integrated heat exchanger configured as described above are as follows.

First, Figure 3 is a flow chart of the refrigerant, the refrigerant flowing through the refrigerant inlet 31 of the lower tank 30 is the second type baffle 35 and the second horizontal baffle (33) formed inside the lower tank (30) (F ₁ ) is conveyed from the lower left side of the first row tube 51a toward the upper side in a state of being constrained by)

Next, the refrigerant discharged from the upper left side of the first row tube 51a flows into the upper left side of the second row tube 51b in communication therewith and is led to the lower portion thereof (f ₂ ).

Next, the refrigerant discharged from the lower left side of the second row tube 51b flows into the lower right side of the second row tube communicating with the lower left side of the second row tube 51b and is led to the upper portion thereof (f ₃ ).

Next, the refrigerant discharged from the upper portion of the second heat tube 51b is discharged from the upper portion of the first heat tube 51a communicated with the lower portion and discharged through the final refrigerant discharge port 32 (f ₄ ). Heat exchange is achieved by repeating the flow.

4 is a flow chart of hot water, and FIG. 3 is viewed from the A direction.

According to the drawing, the hot water introduced into the hot water inlet 11 of the upper tank 10 is discharged from the top of the third row tube (52a) to the lower (F ₁ ).

Next, the hot water discharged from the lower left side of the third row tube 52a is discharged toward the top from the lower right side of the third row tube 52a which is in communication therewith and discharged to the outside through the final hot water discharge port 12 ( F ₂ ) Heat exchange is achieved by repeating a series of flows.

The integrated heat exchanger for automobile air conditioners according to the present invention as described above can be secured by a simple and compact structure by forming a flow path by baffles so that heat exchange efficiency is not lowered, thereby ensuring ease of installation.

Claims (1)

A plurality of evaporator tubes 51 arranged in parallel in the left and right directions at predetermined intervals, and arranged in two rows in the front and rear directions, through which refrigerant flows; A row of heater tubes 52 arranged side by side behind the evaporator tube and flowing hot water at a high temperature; Corrugated fins (60) coupled by brazing between the evaporator tube (51) and between the heater tube (52); An upper header type upper opening 20 installed in common communication with an upper portion of the evaporator tube 51 and the heater tube 52; It is formed into a cylindrical shape of the lower opening to be combined to the opening of the upper header, the hot water inlet 11 and the hot water outlet 12 are formed on the left and right, respectively, and the first to insulate the hot water inlet and the hot water outlet An upper tank 10 each having a vertical baffle 13 and a first horizontal baffle 14 for isolating between the evaporator tube 51 and the heater tube 52; A lower opening type lower header 40 installed in common communication with the lower part of the evaporator tube 51 and the heater tube 52; A second type baffle 33 having a cylindrical shape of an upper opening shape to be combined with an opening of the lower header, for isolating the refrigerant inlet 31 and the refrigerant outlet 32 of the first row tube 51a; An integrated heat exchanger for an automotive air conditioner, characterized by consisting of a lower (30) tank having second and third horizontal baffles (33, 34) for isolating the left and right sides of the heater tube (52).