KR20130143340A - Condender and radiator assembly - Google Patents

Abstract

The present invention relates to a condenser and radiator assembly, which can increase utilization of the space inside an engine room by using a coolant storage unit in a shape capable of guiding outside air into the condenser and the radiator and can reduce the number of brackets for fixing the condenser and the radiator for increasing productivity.

Description

[0001] CONDENDER AND RADIATOR ASSEMBLY [0002]

The present invention relates to a condenser and a radiator assembly, and more particularly, to a condenser and a radiator assembly, which can increase the space utilization in the engine room by using a cooling water storage portion capable of guiding outside air through a condenser and a radiator, To a condenser and a radiator assembly capable of improving the composition.

Generally, in an engine room of a vehicle, various heat exchangers such as a radiator, an intercooler, an evaporator, a condenser, and the like for cooling each component in the vehicle such as an engine or the like, Respectively. Such heat exchangers generally have a heat exchange medium therein, and the heat exchange medium inside the heat exchanger and the air outside the heat exchanger exchange heat with each other, thereby cooling or dissipating heat. Therefore, in order for the various heat exchangers in the vehicle engine room to operate stably, it is natural that outside air should be supplied smoothly into the engine room. Hereinafter, as described above, heat exchangers provided for cooling the vehicle part or the vehicle interior are collectively referred to as a cooling module.

At this time, the radiator (10) cools the cooling water whose temperature has risen while passing through the engine, comprising a pair of first header tanks (11); A first inlet pipe 12 through which cooling water flows and a first outlet pipe 13 through which cooling water flows; A first tube (14) having both ends fixed to the pair of first header tanks (11) to form cooling water flow paths; And a first pin (15) interposed between the first tube (14).

On the other hand, the condenser 20 is included in the refrigerant cycle of the air conditioner. The refrigerant in a gaseous state at a high temperature and a high pressure flows into the condenser 20 and is condensed into a liquid state while being discharged by heat exchange.

The condenser 20 includes a pair of second header tanks 21; A second inlet pipe 22 through which refrigerant flows and a second outlet pipe 23 through which refrigerant flows; A second tube (24) having both ends fixed to the pair of second header tanks (21) to form a refrigerant channel; A second pin (25) interposed between the second tubes (24); And a gas-liquid separator (26) for separating the gaseous refrigerant and the liquid-phase refrigerant.

FIG. 1 shows an example of a structure for assembling the radiator 10 and the condenser 20 together.

The condenser and radiator assembly 1 shown in FIG. 1 has a fixing portion 16 protruded from the first header tank 11 of the radiator 10 and a separate bracket 27 is provided on the outer surface of the condenser 20 2 header tank 21, and the bracket 27 is fixed to the fixing portion 16. [

Since the condenser and the radiator assembly are generally provided with four brackets in each of the pair of first header tanks in order to increase the fixing force, the manufacturing cost of the separate components may be increased There is a problem.

In the meantime, when the radiator and the coolant storage section are formed as a separate body, the radiator is required to have a space in which the coolant storage section is located in the engine room, This may cause the miniaturization to be hindered by the space in which the configuration is located.

In order to solve such a problem, a form in which the cooling water storage portion is integrally formed in the radiator has been proposed in Korean Utility Model Application 2009-0013230 (2009.12.31) and Japanese Patent Application Publication No. 2009-264246 (2009.11.12).

However, the cooling water storage portion integrally formed with the radiator has a problem of preventing the miniaturization as much as the space formed by the cooling water storage portion. If the tank type of the first header tank is changed, So that it is difficult to perform the fusion bonding process.

Accordingly, there is a need for a condenser and a radiator assembly capable of increasing the space utilization in the engine room without hindering the heat exchange performance of the radiator and the condenser, and further improving the manufacturing efficiency.

1. Korea public utility model 2009-0013230 (2009.12.31) 2. Japanese Patent Application Laid-Open No. 2009-264246 (Nov. 12, 2009)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to improve the space utilization in the engine room by using a cooling water storage unit capable of guiding outside air through a condenser and a radiator, And to provide a condenser and a radiator assembly capable of reducing the number of brackets for fixing the radiator and improving the composition.

The condenser and radiator assembly 1000 of the present invention includes a first-first header tank 110 and a first-second header tank 120 , a first-first header tank 110 and a second- and the fixing part 130 is formed at 120), and the first outlet pipe 142 is a first cooling water inlet pipe 141 and the exhaust flowing into the first-first header tank 110 and first- A radiator (100) including a first tube (150 ) having both ends fixed to a header tank (120) to form a cooling water flow path, and a first fin (160) interposed between the first tubes (150 ) ; And a second-first header tank 210 and a second-second header tank 220 and a second outlet pipe 242, the refrigerant and a second inlet pipe 241 and the exhaust flowing into the second header 2-1 A second tube 250 having both ends fixed to the tank 210 and the second-second header tank 220 to form a coolant channel ; a second fin 260 interposed between the first tube 150 and the second tube 250; A gas-liquid separator 270 connected to the second-second header tank 220 for separating the gaseous refrigerant from the liquid-phase refrigerant, and a gas-liquid separator 270 formed in the second-second header tank 220, A condenser 200 including a fixing part 130 and a bracket 230 fixed to the condenser 200 ; A first corresponding portion 311 surrounding a certain circumference of the second-1 header tank 210 of the condenser 200 and a second corresponding portion 311 adhering closely to the first-order header tank 110 of the radiator 100 and the body 310 to form a space in which cooling water is stored therein, including the unit 312, and protrudes to one side of the body 310 is formed in the first-first header tank 110, section 130 A cooling water storage tank 300 having a protrusion 320 fixed thereto; And a control unit.

The condenser and the radiator assembly 1000 are mounted on the lower side of the 1-1 header tank 110 of the radiator 100 so as to support the lower side of the 2-1 header tank 210 of the condenser 200 And the first support portion 111 is integrally formed.

The condenser and the radiator assembly 1000 are connected to the first-first header tank 110 of the radiator 100 and the second-first header tank 210 of the condenser 200, And the protruding seating portion 112 is formed.

The cooling water storage tank 300 is integrally formed with a second support part 330 protruding from the body 310 to support the upper side of the second-1 header tank 210 of the condenser 200 .

The condenser and the radiator assembly 1000 are formed in a shape of a rectangle having an upper opening of the fixed portion 130 of the radiator 100 and a bracket 230 of the condenser 200, And the protrusion 320 of the tank 300 can be inserted by being moved from the upper side to the lower side.

The cooling water storage tank 300 may be configured such that a predetermined region of the body 310 is filled with external air in a region where the second tube 250 of the condenser 200 and the first tube 150 of the radiator 100 are formed The air guide portion 313 is formed so as to guide air to pass sequentially through the regions.

Accordingly, the condenser and the radiator assembly according to the present invention can increase the space utilization in the engine room by using a cooling water storage unit that can guide the outside air to the condenser and the radiator, and the number of brackets for fixing the condenser and the radiator can be increased And the composition can be improved.

Particularly, since the condenser and the radiator assembly of the present invention can secure a sufficient space for the cooling water to flow, the brackets for connection to the radiator are formed only in the side header tank on which the gas-liquid separator is formed. It has the advantage of saving time and money.

Also, the condenser and the radiator assembly of the present invention can be assembled easily by assembling the condenser by the process of moving the condenser from the upper side to the lower side and moving the cooling water storage tank from the upper side to the lower side, In assembling, the condenser can maintain the assembled state, which is advantageous in that the composition can be increased.

1 is a perspective view of a conventional condenser and radiator assembly.
2 is a perspective view of a condenser and a radiator assembly according to the present invention.
FIGS. 3 and 4 are partial exploded perspective views illustrating the mounting of a condenser and a radiator assembly, respectively, according to the present invention. FIG.
Figures 5 and 6 are longitudinal and transverse cross-sectional views, respectively, of a condenser and radiator assembly according to the present invention.

Hereinafter, the condenser and radiator assembly 1000 of the present invention having the above-described characteristics will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view showing a condenser and a radiator assembly 1000 according to the present invention, and FIGS. 3 and 4 are partial exploded perspective views showing the mounting of a condenser and a radiator assembly 1000 according to the present invention, respectively. 6 are longitudinal and transverse cross-sectional views, respectively, of the condenser and radiator assembly 1000 according to the present invention.

The condenser and radiator assembly 1000 of the present invention includes a condenser 200, a radiator 100 and a cooling water storage tank 300. The condenser 200 is connected to the radiator 100 As shown in Fig.

The radiator 100 includes a first header tank 110, a first and second header tank 120, a fixing portion 130, a first inlet pipe 141, a first outlet pipe 142, 1 tube 150 and a first fin 160. The first pin 150 and the second pin 150 are connected to each other.

The first and second header tanks 110 and 120 are spaced apart from each other by a predetermined distance.

The fixing unit 130 is formed in the first and second header tanks 110 and 120 so that the fixing unit 130 formed in the first header tank 110 is fixed to the The protruding portion 320 of the cooling water storage tank 300 and the fixing portion 130 formed in the first and second header tanks 120 and 120 are fixed to the bracket 230 of the condenser 200.

One or more of the fixing portions 130 may be formed along the longitudinal direction (the height direction of the drawing) of the first and second header tanks 110 and 120, Two fixing portions 130 are formed in the first-type header tank 110 and two fixing portions 130 are formed in the first and second header tanks 120 and 120, respectively.

The first inlet pipe 141 receives cooling water, and the first outlet pipe 142 discharges cooling water.

The first and second header tanks 110 and 120 of the radiator 100 are formed to include a tank and a header and when the tank is formed of a resin material, 130, the first inlet pipe 141, and the second inlet pipe 241 are integrally formed at the time of manufacturing the tank.

The first tube 150 is fixed at both ends of the first and second header tanks 110 and 120 to form a cooling water flow path, And is interposed between the tubes 150.

At this time, the cooling water flows inside the region where the first tube 150 is formed, and the cooling water is cooled by exchanging heat with the outside (the region where the first fin 160 is interposed).

The condenser 200 includes a second-first header tank 210, a second-second header tank 220, a second inlet pipe 241, a second outlet pipe 242, a second tube 250, Two pins 260, a gas-liquid separator 270, and a bracket 230.

The second-first header tank 210 and the second-second header tank 220 are spaced apart from each other by a predetermined distance.

The second inlet pipe 241 and the second outlet pipe 242 are formed in the second-first header tank 210 or the second-second header tank 220, respectively, .

The second tube 250 is fixed at both ends to the second-1 header tank 210 and the second-second header tank 220 to form a coolant channel, A pin 260 is interposed.

The gas-liquid separator 270 is formed in the second-second header tank 220 and separates the gaseous refrigerant and the liquid-phase refrigerant.

The bracket 230 is formed in the second-second header tank 220 where the gas-liquid separation is formed. The bracket 230 is fixed to the fixing portion 130 formed in the first- And fixes one side of the condenser 200 to the radiator 100.

That is, in the condenser and radiator assembly 1000 of the present invention, only the second-2 header tank 220, which is the side where the gas-liquid separator 270 of the condenser 200 is formed, has a bracket 230 for connection with the radiator 100 The time and cost required for manufacturing and connecting the bracket 230 can be reduced.

At this time, in the condenser and the radiator assembly 1000 of the present invention, the second-1 header tank 210, which is the other side of the condenser 200 on which the gas-liquid separator 270 is not formed, Securing force is secured through the cooling water storage tank (300).

The cooling water storage tank 300 is configured to form a body 310 and a protrusion 320. First, the body 310 is a space in which cooling water is stored.

A predetermined region of the body 310 is connected to the second portion of the condenser 200 so that the condenser 200 can be fixed by being coupled with the radiator 100 through the condenser 200. [ 1 header tank 210 and a second counterpart 312 that is an area of the radiator 100 which is in close contact with the 1-1 header tank 110. The first counterpart 311 covers the first header tank 210, .

Referring to FIG. 6, the first corresponding portion 311 and the second corresponding portion 312 are formed to be continuous with each other, and the protruding portion 320 is formed outwardly in the region of the second corresponding portion 312 The second corresponding portion 312 is provided between the protruding portion 320 and the condenser 200 so that the condenser 200 and the cooling water There has been shown an example in which the storage tank 300 can be easily fixed.

In one embodiment, the cooling water storage tank 300 can be modified in various ways as long as the body 310 supports the second-1 header tank 210 of the condenser 200 and can be fixed thereto.

3, the second inlet pipe 241 and the second outlet pipe 242 are formed in the second-1 header tank 210. At this time, the cooling water storage tank 300, The body 310 of the second outlet pipe 241 and the second outlet pipe 242 are formed so as not to interfere with pipe connection in the region where the second inlet pipe 241 and the second outlet pipe 242 are formed.

The second inlet pipe 241 and the second outlet pipe 242 may be formed at various positions in addition to the example shown in FIG.

The protruding portion 320 protrudes to one side of the body 310 and is fixed to the fixing portion 130 formed on the first header tank 110.

The protrusion 320 of the cooling water storage tank 300 and the bracket 230 of the condenser 200 have a similar shape and are all fixed to the fixing portion 130 of the radiator 100.

The protrusion 320 can be integrally formed with the body 310 and can be easily fixed using the fixing part 130 so that the manufacturing process of the entire condenser and the radiator assembly 1000 can be simplified have.

The cooling water storage tank 300 may have a predetermined upper area opened and an open area opened / closed by a cap.

In order to maintain the assembled state of the condenser 200 before the fixing portion 130 of the radiator 100 and the protrusion 320 of the cooling water storage tank 300 are fixed, The first support portion 111 may be further formed on the first support portion 100.

The first support part 111 is configured to protrude below the first-first header tank 210 of the radiator 100 to support the second-first header tank 210 of the condenser 200, This allows the condenser 200 to be installed in the radiator 100 without fixing the condenser 200 or using a separate fixing means in a state before the cooling water storage tank 300 is fixed to the radiator 100, As shown in Fig.

Accordingly, the condenser and radiator assembly 1000 of the present invention can secure the condenser 200 to the radiator 100 (the second-1 header tank 210 is supported by the first support portion 111, The 2-2 header tank 220 is supported by the fixing portion 130 formed in the 1-1 header tank of the radiator 100 and then the cooling water storage tank 300 is fixed to the radiator 100 The process can be easily carried out.

In addition, the upper side of the second -1 header tank 210 of the condenser 200 may be supported through the cooling water storage tank 300.

In other words, the cooling water storage tank 300 may have a second support portion 330 integrally formed on the body 310 so as to protrude above the second-1 header tank 210 of the condenser 200 have.

That is, the second-1 header tank 210 of the condenser 200 is supported by the first support portion 111 of the radiator 100 on the lower side and the second support portion 111 of the cooling water storage tank 300 2 support portion 330 and a certain region of the peripheral region is supported and fixed by the body 310 of the cooling water storage tank 300. [

The condenser and radiator assembly 1000 according to the present invention may be installed in the first header tank 110 of the radiator 100 so that the distance between the radiator 100 and the condenser 200 can be accurately maintained. It is preferable that a seating part 112 protruding toward the second-1 header tank 210 side of the condenser 200 is formed.

The seating part 112 has a protruding surface formed in contact with the second-1 header tank 210 of the condenser 200 and has a height direction , Or may be formed as a flat surface or a curved surface corresponding to the second-1 header tank 210. [

In this case, the fixing portion 130 of the radiator 100 is formed in a " C "shape having an open top, and the bracket 230 of the condenser 200 and the protrusion 320 of the cooling water storage tank 300 Can be inserted into the inner space of the fixing portion 130 by moving from the upper side to the lower side.

The condenser 200 and the radiator assembly 1000 of the present invention can be assembled by first assembling the condenser 200 by moving the condenser 200 from the upper side to the lower side without separate fixing means, The final assembling process can be completed by the process of moving downward.

In addition, the bracket 230, the protrusion 320, and the fixing portion 130 may be fixed to the fixing portion 130 by a variety of fixing methods, The present invention is not limited thereto.

The condenser and the radiator assembly 1000 according to the present invention may be configured such that a predetermined region of the body 310 of the cooling water storage tank 300 is connected to a region where the second tube 250 of the condenser 200 and the radiator 100 The air guide portion 313 may be formed to guide the first tube 150 through the area where the first tube 150 is formed.

The air guide portion 313 is formed to define a certain region of the body 310 and is formed in a region where the first tube 150 and the second tube 250 are formed 2 tube 250 formation region is an area in which cooling water and a coolant flow in the inside and air flows in the outside, respectively).

At this time, the air guide portion 313 guides the air, and reflects the shape including the opening of the carrier to which the condenser and the radiator assembly 1000 are mounted, thereby sufficiently securing a space for the cooling water to flow therein .

That is, the condenser and radiator assembly 1000 of the present invention can increase the space utilization in the engine room by using a cooling water storage unit that can guide the outside air to the condenser 200 and the radiator 100, and the condenser 200 And the number of brackets 230 for fixing the radiator 100 to each other can be reduced.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1000: condenser and radiator assembly
100: Radiator
110: 1st-1st header tank 111: 1st support part
112:
120: Header 1-2 header tank
130:
141: first inlet pipe 142: first outlet pipe
150: first tube
160: first pin
200: condenser
210: 2-1 header tank 220: 2-2 header tank
230: Bracket
241: second inlet pipe 242: second outlet pipe
250: second tube
260: second pin
270: gas-liquid separator
300: Cooling water storage tank
310: Body 311: First counterpart
312: second counterpart 313: air guide portion
320: protrusion
330: second support portion

Claims (6)

The first and second header tanks 110 and 120 and the fixing unit 130 formed in the first and second header tanks 110 and 120 , Both the first inlet pipe 141 into which the cooling water flows and the first outlet pipe 142 to be discharged are fixed to the first and second header tanks 110 and 120, A radiator (100) including a first tube (150) forming a cooling water flow path and a first fin (160) interposed between the first tube (150 ) ;
And a second-first header tank 210 and a second-second header tank 220 and a second outlet pipe 242, the refrigerant and a second inlet pipe 241 and the exhaust flowing into the second header 2-1 A second tube 250 having both ends fixed to the tank 210 and the second-second header tank 220 to form a coolant channel ; a second fin 260 interposed between the first tube 150 and the second tube 250; A gas-liquid separator 270 connected to the second-second header tank 220 for separating the gaseous refrigerant from the liquid-phase refrigerant, and a gas-liquid separator 270 formed in the second-second header tank 220, A condenser 200 including a fixing part 130 and a bracket 230 fixed to the condenser 200 ; And
A first counterpart 311 which surrounds a certain circumference of the second-1 header tank 210 of the condenser 200 and a second counterpart 311 which is in close contact with the first-order header tank 110 of the radiator 100, 312 and by forming a space in which cooling water is stored in an internal body 310, it comprises a protruding to one side of the body 310 and the fixing part 130 is formed in the first-first header tank 110 A cooling water storage tank 300 having a fixed protrusion 320 formed therein; And a condenser and a radiator assembly.
The method of claim 1,
The condenser and radiator assembly (1000)
A first support part 111 protruding to support a lower side of the second-1 header tank 210 of the condenser 200 is integrally formed on the lower side of the first-first header tank 110 of the radiator 100 Wherein the radiator assembly comprises:
3. The method of claim 2,
The condenser and radiator assembly (1000)
A seating part 112 protruding in a predetermined area is formed in the first-first header tank 110 of the radiator 100 so as to form a distance from the second-first header tank 210 of the condenser 200 Wherein the radiator assembly comprises:
3. The method of claim 2,
The cooling water storage tank (300)
And a second support part (330) protruding to support an upper side of the second-first header tank (210) of the condenser (200) is integrally formed on the body (310).
The method of claim 1,
The condenser and radiator assembly (1000)
The fixing portion 130 of the radiator 100 is formed in a "C "
Wherein the bracket (230) of the condenser (200) and the protrusion (320) of the cooling water storage tank (300) are insertable by being moved from the upper side to the lower side.
The method according to any one of claims 1 to 5,
The cooling water storage tank (300)
A predetermined region of the body 310 is configured to guide the outside air to sequentially pass through the region where the second tube 250 of the condenser 200 is formed and the region where the first tube 150 of the radiator 100 is formed To form an air guide portion (313).

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