KR20200011163A - Water cooled condenser - Google Patents

Abstract

The present invention relates to a water cooled condenser and, more specifically, to a water cooled condenser wherein a fixing plate for fixing a gas-liquid separator is formed integrally with the remaining components including a plate, a first inlet pipe, a first outlet pipe, a second inlet pipe, a second outlet pipe, and a bracket by brazing. Accordingly, the water cooled condenser can have improved assemblability and durability, and can be miniaturized.

Description

Water cooled condenser

The present invention relates to a water-cooled condenser, and more particularly, the fixing plate for fixing the gas-liquid separator is formed to enable the refrigerant and the coolant to flow by the combination of the first plate portion and the second plate portion, the rest of the configuration (plate, The first inlet pipe, the first outlet pipe, the second inlet pipe, the second outlet pipe and the bracket) is integrally formed by brazing, so that the assembly and durability can be further improved, and the water-cooled condenser can be miniaturized.

In a refrigeration cycle of a general vehicle air conditioner, the actual cooling action is caused by an evaporator in which the liquid heat exchange medium absorbs the amount of heat as vaporized heat from the surroundings and vaporizes. The gaseous heat exchange medium flowing from the evaporator to the compressor is compressed at high temperature and high pressure in the compressor, and liquefied heat is released to the surroundings in the process of liquefying the compressed gaseous heat exchange medium through the condenser. As the medium passes through the expansion valve again, it becomes a low-temperature and low-pressure wetted vapor state, and then flows into the evaporator to evaporate to form a cycle.

That is, the condenser is a high-temperature, high-pressure gaseous refrigerant flows into the liquid state while releasing liquefied heat by heat exchange, and discharged, and formed as an air-cooling type using air as a heat exchange medium for cooling the refrigerant, and a water-cooling type using liquid. Can be.

The air-cooled condenser is configured to exchange heat with air introduced through an opening in the front of the vehicle, and is fixed to the front side of the vehicle in which the bumper beam is formed for smooth heat exchange with the air.

However, since the air-cooled condenser is formed at the rear end of the bumper beam when a vehicle accident occurs, the impact force applied to the pedestrian may be increased, and the heat exchanger configuration also has a high risk of being damaged by an impact, and accordingly, a repair cost is expected accordingly. There is a problem that the premium calculation standard can be raised.

As shown in FIG. 1, the water-cooled condenser 10 may use a water-cooled condenser in which a plurality of plates 20 are stacked.

The water-cooled condenser has a plurality of plates 20 stacked to form a first flow unit 21 and a second flow unit 22 through which the first heat exchange medium and the second heat exchange medium flow, respectively, and the first heat exchange medium Inlet / outlet first inlet pipe 31 and first outlet pipe 32, second inlet pipe 41 and second outlet pipe 42 inlet / outlet inlet / outlet 42, first heat exchange medium And a gas-liquid separator 50 for separating the gas-phase heat exchange medium and a liquid heat exchange medium, a first connection pipe 51 connecting the condensation region of the first flow unit 21 and the gas-liquid separator 50, and the gas-liquid separator. It is formed including a second connecting pipe 52 connecting the subcooled region of the first flow portion (21).

The water-cooled condenser 10 has a first heat exchange medium introduced through the first inlet pipe 31 flows through the condensation region of the first flow unit 21, and through the first connection pipe 51. After moving to the gas-liquid separator 50 and again flowing the subcooled region of the first flow part 21 through the second connecting pipe 52, it is discharged through the first outlet pipe 32.

At this time, the second heat exchange medium flows through the second inlet pipe 41 and flows through the second flow part 22 formed alternately with the first flow part 21. To cool.

However, as described above, the water-cooled condenser containing the gas-liquid separator connects a separate gas-liquid separator tank and connects the condensation zone and the supercooling zone with a conduit, which takes a lot of additional parts and takes up a lot of space. Therefore, there is a disadvantage in that it is not reasonable in terms of packaging and configuration of parts.

Domestic Publication No. 2012-0061534 (Publication date 2012.06.13, Name: Water-cooled condenser)

The present invention has been made to solve the problems as described above, the present invention has been made to solve the problems as described above, the object of the present invention is a fixing plate for fixing the gas-liquid separator is the first plate portion and It is to provide a water-cooled condenser capable of flowing a refrigerant and a cooling water by the combination of the second plate, easily fixing the gas-liquid separator, and miniaturizing it.

In particular, it is an object of the present invention that the stationary plate is integrally formed by brazing together with the remaining components (plate, first inlet pipe, first outlet pipe, second inlet pipe, second outlet pipe and bracket) to ensure assembly and It is to provide a water-cooled condenser that can be more durable and miniaturized.

Particularly, an object of the present invention is a structure in which a protruding coupling portion and a bracket fixing part are formed on a fixed plate, and the refrigerant and the cooling water can be moved by the protruding coupling portion, and the gas-liquid separator and the fixing plate can be kept assembled. After the brackets are fixed by the brackets, the adhesive parts of the brackets may also be temporarily assembled and then integrated by a single brazing process to provide a water-cooled condenser that can simplify the manufacturing process.

In addition, an object of the present invention is to provide a water-cooled condenser in which the bracket fixing portion is formed on the upper side and the lower side, respectively, to integrally form all of the brackets extending to the upper side and the lower side of the vehicle.

At this time, an object of the present invention is that the gas-liquid separator is connected to the plate between the condensation region and the subcooling region and the gas-liquid separator is connected to the gas-liquid separator and the fixing plate by using the first connection pipe and the second connection pipe. It is located on one side in the width direction to simplify the connection of the refrigerant pipe, and to provide a water-cooled condenser that can further increase the manufacturability.

In addition, an object of the present invention is to provide a water-cooled condenser that is formed in the bent portion is the same as the stacking direction of the plate in the fixed plate can be easily seated, the neighboring plates can be increased.

The water-cooled condenser 1000 of the present invention for achieving the above object is a condensation zone (A1) for condensing the refrigerant by heat exchange between the refrigerant and the cooling water; A gas-liquid separator 400 for separating gas-liquid from the refrigerant condensed in the condensation region A1; A subcooling region (A3) through which the refrigerant passing through the gas-liquid separator (400) exchanges heat with the cooling water to supercool the refrigerant; The first plate portion 510A corresponding to the condensation region A1 and the second plate portion 510B corresponding to the subcooling region A2 are coupled to face each other to flow the refrigerant and the cooling water, and the gas-liquid separator 400 Fixing plate 500 for fixing a portion of the wall surface; And a bracket 600 fixed between a first plate portion 510A and a second plate portion 510B.

In this case, the thermally effective pipe 1000 includes a plurality of plates 100 stacked to alternately form a first flow portion 100a and a second flow portion 100b through which a coolant and a coolant flow, respectively. ) And the subcooling region A3, and the first plate portion 510A and the second plate portion 510B correspond to the plate 100.

In addition, the water-cooled condenser 1000 is the gas-liquid separator 400 includes a cylindrical body 400a, the fixed plate 500 is the first plate portion 510A and the second plate portion 510B, respectively, An extension part 520 extending to surround the outer circumferential surface of the body 400a of the gas-liquid separator 400 is formed.

In addition, the fixing plate 500 forms a spaced space spaced apart from each other by a protrusion coupling portion 511 protruding a predetermined region of the first plate portion 510A and the second plate portion 510B so as to be bonded to each other. It characterized in that it comprises a bracket fixing portion 513 protruding a predetermined region of the first plate portion 510A and the second plate portion 510B to fix the bracket 600.

At this time, the body 400a of the plate 100, the first inlet pipe 210, the first outlet pipe 220, the second inlet pipe 310, the second outlet pipe 320, the gas-liquid separator 400 ), The fixing plate 500, and the bra? 600 is characterized in that formed integrally by brazing.

In addition, the bracket 600 may be provided with a mounting hole 621 in which the elastic member 622 is interposed in the mounting portion 620, or a mounting pin 630 may be formed in the mounting portion 620.

In addition, the water-cooled condenser 1000 is the bracket fixing portion 513 is formed on the upper side and the lower side, respectively, the bracket portion 620 in the bracket fixing portion 513 of the upper bracket (600) The close contact portion 610 of the fixed, the lower portion of the bracket fixing portion 513, the mounting portion 620 is characterized in that the close contact portion 610 of the Bra? 600 protruding downward.

At this time, the fixing plate 500 is characterized in that the protruding bonding portion 511 is formed to protrude a predetermined region of the pair of plate portion 510 so as to be in surface contact with each other.

In addition, the water-cooled condenser 1000 includes a first inlet pipe 210 through which the refrigerant is introduced and a first outlet pipe 220 through which the refrigerant is discharged; And a second inlet pipe 310 into which the coolant is introduced and a second outlet pipe 320 discharged.

In addition, the plate 100 has a first flow portion 111 and the second communication portion 112 and the flow flow of the coolant to the hollow circumference protruding to one side or the other side of the plate 100 to control the flow of the refrigerant The third communication part 113 and the fourth communication part 114 is formed so that the circumference of the hollow so as to protrude opposite to the protruding directions of the first communication part 111 and the second communication part 112. It is done.

In addition, the plate 100 has the first communication portion 111 and the second communication portion 112 is located in the width direction of the plate 100 in the upper and lower sides in the longitudinal direction, the third communication The portion 113 and the fourth communicating portion 114 are located on the upper side and the lower side in the longitudinal direction from the other side in the width direction of the plate 100.

In addition, the fixing plate 500 is formed with a plurality of the protruding joint 511 in the longitudinal direction of the plate 100, some of the protruding joint 511 is the first communication unit 111 to the fourth communication unit 114 It is formed in a position corresponding to, characterized in that the predetermined area is hollow or closed.

In addition, the gas-liquid separator 400 is located at a position corresponding to the first hollow hole 401 and the second hollow hole 402 and corresponding to the first hollow hole 401 and the second communication part 112. One side of the protrusion connecting portion 511 formed at a position corresponding to the first connection pipe 410 and the second hollow hole 402 and the first communication portion 111 connecting one side of the formed protrusion bonding portion 511 is formed. The refrigerant is transported by the second connection pipe 420 to be connected.

At this time, the fixing plate 500 is the first connection pipe 410 and the second connection pipe to the projecting joint 511 of the position corresponding to the second communication unit 112 and the first communication unit 111. The mounting groove 512 is formed so that a predetermined region of the 420 is inserted.

In addition, the first connection pipe 410 and the second connection pipe 420 is tubular, characterized in that the stepped portion 430 protruding along the outer peripheral surface to limit the insertion depth of both ends is formed.

In the water-cooled condenser 1000, the pair of protruding joints 511 may be preassembled with the gas-liquid separator 400, the first connection pipe 410, the second connection pipe 420, and the fixed plate 500. It is characterized in that it is fixed to each other to maintain the state.

In addition, the water-cooled condenser 1000 is characterized in that the protruding joint 511 located in the center in the longitudinal direction of the plate 100 is fixed to each other.

In addition, the water-cooled condenser 1000 is characterized in that a fixing hole 531 is formed in the protruding junction 511 and a separate fixing means 530 is coupled through the fixing hole 531.

In addition, the water-cooled condenser 1000 has a convex portion 541 protruding a predetermined region from one side of the pair of protruding joints 511 and a concave concave portion 542 into which the convex portion 541 is inserted. It is characterized by being formed.

In addition, the water-cooled condenser 1000 is characterized in that the pair of bracket fixing portion 513 is fixed to each other with the contact portion 610 therebetween.

In addition, the water-cooled condenser 1000 has a second fixing hole 532 is formed in the bracket fixing portion 513, a fastening hole 641 is formed in the close contact portion 610, a separate fastening means 640 ) Is fastened through the second fixing hole 532 and the fastening hole 641.

In addition, the fixed plate 500 has a first bent portion (1) bent toward the condensation region (A1) so that the circumference of the first plate portion (510A) is laminated to the plate 100 forming the condensation region (A1) ( 501 and a second bent portion 502 bent to the subcooling region A3 side so that the periphery of the second plate portion 510B is formed such that the plate 100 forming the subcooling region A3 is stacked. It features.

In addition, the water-cooled condenser 1000 is a condensation region (A1), the first connection pipe 410, the refrigerant flowing through the first inlet pipe 210 condensed while passing through the first flow portion (100a). Only the gas-liquid separation area A2 introduced into the gas-liquid separator 400 and separated from the gas-liquid, and the separated liquid refrigerant are moved through the second connection pipe 420 to be supercooled while passing through the first flow part 100a. Passing through the area (A3) is characterized in that the discharge through the first outlet pipe 220.

In addition, the water-cooled condenser 1000 is characterized in that the cooling water introduced through the second inlet pipe 310 flows through the second flow unit 100b and is discharged through the second outlet pipe 320. .

Accordingly, the water-cooled condenser of the present invention can be a fixed plate for fixing the gas-liquid separator can flow the refrigerant and the cooling water by the combination of the first plate and the second plate, it is possible to easily fix the gas-liquid separator and miniaturized There is an advantage.

In particular, it is an object of the present invention that the stationary plate is integrally formed by brazing together with the remaining components (plate, first inlet pipe, first outlet pipe, second inlet pipe, second outlet pipe, and bracket) to be assembled. And it can increase the durability more, there is an advantage that can be miniaturized.

In particular, the water-cooled condenser of the present invention has a structure in which the protruding coupling portion and the bracket fixing part are formed on the fixed plate, and the refrigerant and the cooling water can be moved by the protruding coupling portion, and the gas-liquid separator and the fixed plate can be kept assembled. In addition, after the bracket is fixed by the fixing part of the bracket also maintains the pre-assembled state, there is an advantage that can be integrated by a single brazing process to simplify the manufacturing process.

In addition, the water-cooled condenser of the present invention has an advantage that the bracket fixing portion is formed on the upper side and the lower side, respectively, to form integrally both brackets extending to the upper and lower sides of the vehicle.

At this time, the water-cooled condenser of the present invention is connected to the plate between the fixed plate and the condensation zone and the subcooling zone, and the gas-liquid separator by connecting the gas-liquid separator and the fixed plate using a first connecting pipe and a second connecting pipe Located on one side in the width direction can simplify the refrigerant pipe connection, there is an advantage that can further increase the manufacturability.

In addition, the water-cooled condenser of the present invention is formed in the same bending direction as the stacking plate of the plate in the fixing plate can be easily seated neighboring, there is an advantage that can increase the fixing force.

1 is a view showing a conventional water-cooled condenser.
2 to 4 is a perspective view, an exploded perspective view and a cross-sectional view AA 'of the water-cooled condenser according to the present invention.
5 and 6 are perspective views showing a plate forming a condensation region and a subcooling region, respectively.
7 to 10 is a perspective view showing an assembled state of the gas-liquid separator and the fixing plate of the water-cooled condenser according to the present invention, an exploded perspective view, BB 'direction cross section, and CC' direction cross section.
11 is another view showing the assembled state of the gas-liquid separator and the fixed plate of the water-cooled condenser according to the present invention.
12 is a view showing a refrigerant flow of the water-cooled condenser according to the present invention.
13 is a view showing the coolant flow of the water-cooled condenser according to the present invention.

Hereinafter, a water-cooled condenser 1000 having the configuration as described above will be described in detail with reference to the accompanying drawings.

2 to 4 are a perspective view, an exploded perspective view and a cross-sectional view in the AA ′ direction of the water-cooled condenser 1000 according to the present invention, and FIGS. 5 and 6 are plates (1) and condensation zone (A1) and subcooling zone (A3), respectively. 100 is a perspective view, Figures 7 to 10 are perspective views showing an assembled state of the gas-liquid separator 400 and the fixing plate 500 of the water-cooled condenser 1000 according to the present invention, an exploded perspective view, BB 'direction cross-sectional view, And CC 'direction cross section.

The water-cooled condenser 1000 of the present invention includes a condensation zone A1 and a subcooling zone A3 formed by the plate 100; Gas-liquid separator 400; And a fixed plate 500.

The condensation area A1 is a portion in which a plurality of plates 100 are stacked to alternately form a first flow part 100a through which a coolant flows and a second flow part 100b through which coolant flows. It is condensed while passing through the flow part (100a).

In addition, the sub-cooling region A3 has a plurality of plates 100 stacked in the same manner as the condensation region A1 so that the refrigerant flows through the first flow portion 100a and the second flow portion 100b through which the coolant flows. Is alternately formed, the liquid-liquid separated by gas-liquid flow is supercooled while passing through the first flow portion (100a).

The plate 100 is formed with a first communication unit 111 and a second communication unit 112 hollow to control the flow of refrigerant, and the third communication unit 113 and the fourth hollow to adjust the coolant name The communication part 114 is formed. At this time, in the water-cooled condenser 1000 of the present invention, the first communication part 111 and the second communication part 112 are located on the upper side and the lower side in the longitudinal direction from one side in the width direction of the plate 100, The third communicating portion 113 and the fourth communicating portion 114 are located at the upper side and the lower side in the longitudinal direction from the other side in the width direction of the plate 100, the first communicating portion 111 for the refrigerant flow and The gas-liquid separator 400 may be positioned adjacent to one side in the width direction of the plate 100 in which the second communication part 112 is formed. In this regard, the configuration of the fixing plate 500 and the gas-liquid separator 400 will be described again below.

The first communication unit 111 to the fourth communication unit 114 of the plate 100 may control the flow of the refrigerant and the cooling water by adjusting the direction in which the circumferential circumference protrudes. The first communication part 111 and the second communication part 112 protrude in the same direction, and the third communication part 113 and the fourth communication part 114 are the first communication part 111 and the second communication part. It protrudes in the opposite direction of the protruding direction of the part 112.

In more detail, FIG. 5 illustrates the plate 100 forming the condensation area A1, and is shown in FIG. 5A in the stacking direction of the plate 100 (the longitudinal direction of the water-cooled condenser 1000). One plate 100 and the plate 100 shown in FIG. 5 (b) are alternately stacked, so that the first flow portion 100a and the second flow portion 100b alternate in the stacking direction of the plate 100. The area A1 is formed. The plate 100 illustrated in FIG. 5 (a) has a hollow circumference of the first communicating portion 111 and the second communicating portion 112 protruding toward the side (right side in the drawing) in which the fixing plate 500 is located. The circumference of the third communication portion 113 and the fourth communication portion 114 is protruded to the opposite side, and the plate 100 shown in FIG. 5 (b) is the first communication portion 111. ) Shows an example in which the hollow circumference of the fourth communication part 114 is formed in the opposite direction to that shown in FIG. Accordingly, in the water-cooled condenser 1000 of the present invention, the plate 100 shown in FIG. 5 (a) and the plate 100 shown in FIG. 5 (b) are alternately stacked to have a neighboring first flow unit 100a. ) To the hollow circumferential protruding regions are joined to each other. In addition, a first flow part 100a is formed on the left side of the plate 100 illustrated in FIG. 5A, and the first flow part 100a and the second flow part 100b are connected to each other. Refrigerant is moved to 100a, and a second flow portion 100b is formed on the left side of the plate 100 shown in FIG. 5 (b), through the third communication portion 113 and the fourth communication portion 114. The coolant is moved to another second flow part 100b. In addition, the plate 100 forming the condensation area A1 has a circumference protruding to the opposite side (left side in the drawing) in which the fixing plate 500 is positioned in the longitudinal direction of the plate 100.

6 shows a plate 100 forming the subcooling area A3, and in the stacking direction of the plate 100, the plate 100 shown in FIG. 6 (a) and FIG. 6 (b). The illustrated plate 100 is alternately stacked to form a subcooling region A3 in which the first flow portion 100a and the second flow portion 100b alternate in the stacking direction of the plate 100. 6 (a) and 6 (b), the plate 100 has a hollow circumference of the first communication portion 111 to the fourth communication portion 114 is the 5 (a) and 5 ( The same example as the form shown in b) is shown. In the subcooling area A3, the plate 100 shown in FIG. 6 (a) and the plate 100 shown in FIG. 6 (b) are alternately stacked so that the neighboring first communication portions 111 to fourth communication. Hollow circumferential protruding regions of the portion 114 are joined to each other. In addition, a first flow part 100a is formed on the left side of the plate 100 shown in FIG. 6 (a), and the first flow part (1) through the first communication part 111 and the second communication part 112 is formed. Refrigerant is moved to 100a, and a second flow portion 100b is formed on the left side of the plate 100 shown in FIG. 6 (b), through the third communication portion 113 and the fourth communication portion 114. The coolant is moved to another second flow part 100b. In addition, the plate 100 forming the subcooling area A3 is laminated to protrude to the opposite side (the right side in the drawing) in which the fixing plate 500 is positioned in the longitudinal direction of the plate 100. That is, the water-cooled condenser 1000 of the present invention is stacked in such a way that the periphery of the plate 100 forming the condensation area A1 and the subcooling area A3 protrudes to the opposite side of the fixed plate 500.

The water-cooled condenser 1000 of the present invention includes a first inlet pipe 210 through which the refrigerant is introduced and a first outlet pipe 220 through which the refrigerant is discharged; And a second inlet pipe 310 into which the coolant is introduced and a second outlet pipe 320 discharged.

The first inlet pipe 210 is connected to one of the first communication unit 111 and the second communication unit 112 through which the refrigerant flows, and the refrigerant flows through the first inlet pipe 220. The refrigerant is discharged by being connected to one of the first communication unit 111 and the second communication unit 112.

The second inlet pipe 310 is connected to one of the third communication unit 113 and the fourth communication unit 114 through which the coolant flows, and is a portion into which the coolant is introduced. The second outlet pipe 320 is the It is connected to one of the third communication unit 113 and the fourth communication unit 114 is a portion where the coolant is discharged.

2 and 3, the first inlet pipe 210 is connected to the first communication part 111 of one side (left side) in the longitudinal direction, and the first outlet pipe 220 is the other side (right side) in the longitudinal direction. The second communication pipe 112 and the second inlet pipe 310 and the second outlet pipe 320 in the longitudinal direction in the longitudinal direction of the one side (left) of the third communication portion 113 and the fourth Although the example connected to the communication unit 114 is shown, the first inlet pipe 210, the first outlet pipe 220, the second inlet pipe 310, and the second outlet pipe ( The position of 320 may be formed in more various ways.

The gas-liquid separator 400 is a portion located at a side in which the first communication part 111 and the second communication part 112 are formed, which is one side in the width direction of the plate 100, and defines the condensation area A1. After passing through the refrigerant and the gas-liquid separation, it is moved to the subcooling area (A3). The gas-liquid separator 400 has a cylindrical shape with one side open, and includes a body 400a formed of the same material as the plate 100 and the fixing plate 500, and the body 400a includes the plate 100. And the brazing is assembled with the fixing plate 500, a drying material or a filter, etc. are embedded therein, one side opened by the cap 440 may be closed.

In the present invention, the meaning of integrally formed by brazing means that the entire remaining structure is brazed except for a drying material, a filter, a cap 440, and the like, which are embedded in the body of the gas-liquid separator 400 that is not brazed. Means that.

The fixing plate 500 has a plate shape corresponding to the plate 100 and includes a first plate portion 510A and a second plate portion 510B positioned between the condensation region A1 and the subcooling region A3. do. In this case, the first plate portion 510A has a plate shape corresponding to the condensation area A1, and the second plate portion 510B has a plate shape corresponding to the subcooling area A2. In addition, the first plate portion 510A and the second plate portion 510B each include an extension 520 extending to surround the outer circumferential surface of the gas-liquid separator 400 (the outer circumferential surface of the body 400a). The first plate portion 510A and the second plate portion 510B are portions that are brazed to the neighboring plate 100, and a protrusion joint portion 511 is formed between the pair of plate portions 510.

The protrusion joint portion 511 is a portion in which a predetermined region of the first plate portion 510A and the second plate portion 510B protrudes in contact with each other, and the protrusion coupling portion 511 extends in the longitudinal direction of the plate 100. A plurality of protrusion coupling parts 511 are formed at a position corresponding to the first communication part 111 to the fourth communication part 114, and the first communication part 111 to the fourth communication part ( The protrusion coupling portion 511 at the position corresponding to 114 controls a flow of the coolant and the coolant by hollowing or closing a predetermined region. More specifically, in FIG. 8, in the protruding coupling portion 511 at the position corresponding to the second communicating portion 112, the refrigerant passing through the first flow portion 100a of the condensation region A1 is introduced to the gas-liquid separator ( The projection portion 511 is a portion which is transferred to the 400, and the protrusion coupling portion 511 at the position corresponding to the first communication portion 111 is a portion that the refrigerant passing through the gas-liquid separator 400 is introduced into the subcooling region A3. In order to form such a flow, the left side of the protrusion coupling portion 511 of the pair of fixing plates 500 corresponding to the second communication portion 112 is open and the right side is closed. In addition, the left side of the protruding coupling portion 511 at the position corresponding to the first communication portion 111 of the pair of fixing plates 500 is closed, and the right side is opened.

At this time, in order to move the refrigerant between the fixed plate 500 and the gas-liquid separator 400, the gas-liquid separator 400 is the first hollow hole 401 and the second hollow hole 402 is hollow, A first connection pipe 410 fixed to the first hollow hole 401 and a second connection pipe 420 fixed to the second hollow hole 402 are provided. The first connection pipe 410 connects one side of the protrusion coupling part 511 formed at a position corresponding to the first hollow hole 401 and the second communication part 112. The first coupling pipe 410 is connected to the outer circumferential surface of the region where the refrigerant formed as the protrusion coupling portion 511 is protruded and joined to each other is connected to the protrusion coupling portion 511. A seating groove 512 on which the 410 is seated is formed. In addition, the second connection pipe 420 connects one side of the protrusion coupling part 511 formed at a position corresponding to the second hollow hole 402 and the first communication part 111, and the second connection pipe 420. A seating groove 512 in which the second connecting pipe 420 is seated is formed in the protruding coupling portion 511 to which the pipe 420 is connected.

In addition, the first connection pipe 410 and the second connection pipe 420 is a tubular shape that is hollow inside, a stepped portion 430 protruding along the outer circumferential surface is formed. Through this, the water-cooled condenser 1000 of the present invention can limit the insertion depth of the both ends of the first connection pipe 410 and the second connection pipe 420 can prevent the misassembly.

In addition, the fixing plate 500 is a protrusion coupling portion 511 corresponding to the position where the third communication portion 113 and the fourth communication portion 114 is formed are bonded to each other, the inside is hollow condensation region (A1) Cooling water passing through the second flow portion (100b) of the) to form a space for the transfer flow to the second flow portion (100b) of the subcooling area (A3).

Meanwhile, in the water-cooled condenser 1000 of the present invention, a plurality of protrusion coupling portions 511 are formed in the longitudinal direction of the plate 100, so that some protrusion coupling portions 511 are the gas-liquid separator 400 and the first connection pipe 410. ), The second connection pipe 420, and the fixing plate 500 may be maintained in a preassembled state. In particular, the protruding coupling portion 511 for provisional assembly is preferably used in the center located in the longitudinal direction of the plate 100.

As a method for maintaining the assembled state, a first fixing hole 531 is formed in the protruding coupling portion 511, and a separate fixing means 530 is coupled through the first fixing hole 531. An example is shown in FIG. 10. The fixing means 530 may be a means that is coupled in the form of bolts, nuts, or means such as rivets.

11 is another view showing the assembled state of the gas-liquid separator 400 and the fixed plate 500 of the water-cooled condenser 1000 according to the present invention. As shown in FIG. 11, as another method for maintaining the assembled state, a convex portion 541 protruding from one side of the pair of protruding coupling portions 511 is formed, and the convex portion 541 is formed on the other side thereof. A concave concave portion 542 is formed so that the convex portion 541 is inserted into the concave portion 542.

The bracket fixing portion 513 is a configuration in which a predetermined region of the plate portion 510 is formed to form a spaced space spaced apart from each other to fix the bracket 600 integrally.

The bracket 600 is a close contact portion 610 that is fixed in close contact with the space between the bracket fixing portion 513, and a mounting portion 620 extending from the close contact portion 610 to be mounted on the vehicle Is formed. The mounting portion 620 of the Bra 600 is configured to mount the water-cooled condenser 1000 to the vehicle, and may be fixed to a carrier that forms the front end module of the vehicle. The bra 600 may have a form in which a mounting hole 621 is formed in which the elastic member 622 is interposed in the mounting portion 620, and a mounting pin 630 is formed in the mounting portion 620. It may be.

That is, the bracket fixing portion 513 is a component for integrally forming the Bra 600 on the water-cooled condenser 1000, and the close portion 610 of the Bra 600 is the bracket fixing portion 513. After being fixed to the spaced space formed by, it is integrally formed by brazing.

At this time, the water-cooled condenser 1000 is provided with a pair of bracket fixing portion 513 is formed on the upper side and the lower side, respectively, the mounting portion 620 is formed to extend the bracket 600, the upper side and the lower side, respectively. Can be. That is, the close part 610 of the Bra? 600, in which the mounting part 620 protrudes upward, is fixed to the bracket fixing part 513 on the upper side, and the mounting part (513) is fixed to the bracket fixing part 513 on the lower side. The close contact portion 610 of the Bra? 600, in which the 620 protrudes downward, may be fixed.

2 to 4, and 7 to 10, the protrusion coupling portion 511 is formed at three positions in the height direction on the fixing plate 500, and the bracket fixing portion 513 is the protrusion coupling portion 511. A close contact portion 610 of the upper bracket 600 is fixed between the bracket fixing portion 513 and the mounting portion 620, the mounting hole 621 is formed in the upper bracket fixing portion 513 is fixed, the lower bracket An example in which the close contact portion 610 of the lower bra 600 is fixed includes a mounting portion 620 having a mounting pin 630 formed on the fixing portion 513.

In the water-cooled condenser 1000 of the present invention, the number of the protruding coupling part 511 and the protruding coupling part 511 formed on the fixed plate 500 may be more various, and the number of bra 600s is increased. And the mounting portion 620 may also have more various forms.

On the other hand, the water-cooled condenser 1000 is a pair of bracket fixing portion 513 is fixed to each other with the close contact portion 610 therebetween to increase the fixing force of the bra 600, and maintain a pre-assembled state It is desirable to do so. As a specific method, a second fixing hole 532 is formed in the bracket fixing part 513, a fastening hole 641 is formed in the close contact part 610, and a separate fastening means 640 is formed in the second fixing hole 532. It may be fastened through the fixing hole 532 and the fastening hole 641.

In the water-cooled condenser 1000 of the present invention, first, the first connection pipe 410, the second connection pipe 420, the gas-liquid separator 400, the body 400a, the fixed plate 500, and the bra? After being assembled, the assembled structure is brazed with the plate 100, the first inlet pipe 210, the first outlet pipe 220, the second inlet pipe 310, the second outlet pipe 320, The gas-liquid separator 400 is manufactured by mounting a drying material, a filter, and a cap 440. In addition, if the bra 600 has a form in which the elastic member 622 is interposed in the mounting hole 621, the elastic member 622 is mounted. Accordingly, the water-cooled condenser 1000 of the present invention can further increase the assemblability and productivity, and can form the gas-liquid separator 400 and the brass 600 integrally in a simple form using the fixed plate 500. It has the advantage of miniaturization.

In addition, in the water-cooled condenser 1000 of the present invention, the circumference of the first plate portion 510A forms the condensation region A1 so that the plates 100 adjacent to the fixed plate 500 are stacked and coupled to each other. The plate 100 forming the subcooling region A3 is laminated around the first bent portion 501 and the second plate portion 510B which are bent and extended toward the condensation region A1 such that the plates 100 are stacked. The second bent portion 502 may be further formed to be bent and extended toward the subcooling region A3. In the water-cooled condenser 1000 of the present invention, the circumferential portion 115 of the plate 100 forming the condensation region A1 and the subcooling region A3 protrudes to the opposite side of the fixing plate 500. The bent portion 501 and the second bent portion 502 respectively protrude in the same direction as the protruding direction of the circumferential portion 115 of the adjacent plate 100. That is, the first plate portion 510A adjacent to the condensation region A1 is extended to be bent such that the first bent portion 501 surrounds the plate 100 forming the condensation region A1 and is bonded to each other. The second plate portion 510B adjacent to the region A3 is bent and extended such that the second bent portion 502 surrounds the plate 100 forming the subcooling region A3 and is bonded to each other. Through this, the water-cooled condenser 1000 of the present invention can increase the bonding area between the stationary plate 500 and the plate 100 to increase durability, and prevents the plate 100 from being spaced apart during the brazing process, thereby improving the manufacturability. It can be raised further.

12 is a view showing a refrigerant flow of the water-cooled condenser 1000 according to the present invention, the water-cooled condenser 1000 is a refrigerant flowed through the first inlet pipe 210 passes through the first flow portion (100a). While condensing in the condensation zone (A1), the gas-liquid separator 400 is introduced into the gas-liquid separator 400 through the first connecting pipe 410, and the liquid-liquid separated by the separated liquid refrigerant only the second connecting pipe 420 It passes through the first flow portion (100a) while passing through the subcooling area (A3) that is supercooled and is discharged through the first outlet pipe (220).

13 is a view showing the flow of the cooling water of the water-cooled condenser 1000 according to the present invention, the water-cooled condenser 1000 is the cooling water introduced through the second inlet pipe 310 to the second flow portion (100b) Flows and is discharged through the second outlet pipe 320, and more specifically, the refrigerant passing through the second flow part 100b of the condensation area A1 is the third communication part 113 and the fourth communication part. It moves to the second flow portion 100b of the subcooling region A3 through the hollow region of the protrusion coupling portion 511 at the position corresponding to 114.

The present invention is not limited to the above-described embodiments, and the scope of application of the present invention is not limited to those of ordinary skill in the art to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, various modifications can be made.

100: plate
100a: first flow section (coolant) 100b: second flow section (coolant)
111: first communication unit 112: second communication unit
113: third communication unit 114: fourth communication unit
115: circumference
210: first inlet pipe 220: first outlet pipe
310: second inlet pipe 320: second inlet pipe
400: gas-liquid separator 400a: body
401: first hollow hole 402: second hollow hole
410: first connection pipe 420: second connection pipe
430 step difference
440: cap
500: fixed plate
501: first bent portion 502: second bent portion
510A: First Edition 510B: Second Edition
511: protruding coupling parts (bonded to each other)
512: settling groove
513: protrusion fixing (constitution for fixing the bracket)
520: extension
530: fixing means
531: first fixing hole 532: second fixing hole
541 convex portion 542 concave portion
600: bracket
610: contact part 620: mounting part
621: mounting hole 622: elastic member
630: mounting pin
640: fastening means
641: fastening hole
A1: condensation area
A2: Gas-liquid Separation Area
A3: supercooling area

Claims (25)

A condensation zone A1 for condensing the refrigerant by exchanging heat with the refrigerant;
A gas-liquid separator 400 for separating gas-liquid from the refrigerant condensed in the condensation region A1;
A subcooling region A3 for supercooling the refrigerant by exchanging the refrigerant and the cooling water passing through the gas-liquid separator 400;
The first plate portion 510A corresponding to the condensation region A1 and the second plate portion 510B corresponding to the subcooling region A2 are coupled to face each other to flow the refrigerant and the cooling water, and the gas-liquid separator 400 Fixing plate 500 for fixing a portion of the wall surface; And
A water-cooled condenser, characterized in that a predetermined region includes a bra? 600 fixed between the first plate portion 510A and the second plate portion 510B.
The method of claim 1,
In the thermally effective tube 1000, a plurality of plates 100 are stacked to alternately form a first flow unit 100a and a second flow unit 100b through which refrigerant and coolant flow, respectively, so that the condensation region A1 and subcooling are performed. Forming an area A3,
The first plate portion (510A) and the second plate portion (510B) is a water-cooled condenser, characterized in that the form corresponding to the plate (100).
The method of claim 2,
The water-cooled condenser 1000 is the gas-liquid separator 400 includes a cylindrical body (400a),
The fixing plate 500 has an extension portion 520 extending from the first plate portion 510A and the second plate portion 510B to surround the outer circumferential surface of the body 400a of the gas-liquid separator 400, respectively. Water-cooled condenser.
The method of claim 3,
The fixing plate 500 forms a spaced space spaced apart from each other by a protrusion coupling portion 511 which protrudes a predetermined region of the first plate portion 510A and the second plate portion 510B so as to be bonded to each other. Water-cooled condenser characterized in that it comprises a bracket fixing portion 513 protruding a predetermined region of the first plate portion (510A) and the second plate portion (510B) to fix the bracket (600).
The method of claim 4, wherein
The bracket 600 includes a close contact 610 fixed to the spaced space of the bracket fixing part 513 and a mounting part 620 extending from the close contact 610 to mount the vehicle. Water-cooled condenser.
The method of claim 5,
The bra (600) is a water-cooled condenser, characterized in that the mounting hole 621 is formed in the mounting portion 620, the elastic member 622 is interposed.
The method of claim 5,
The bracket 600 is a water-cooled condenser, characterized in that the mounting pin 630 is formed on the mounting portion (620).
The method of claim 5,
The water-cooled condenser 1000 is the bracket fixing portion 513 is formed on the upper side and the lower side, respectively
An adhesion part 610 of the Bra? 600, in which the mounting part 620 protrudes upward, is fixed to the bracket fixing part 513 on the upper side,
Water-cooled condenser, characterized in that the mounting portion 610 of the bracket 600 is fixed to the bracket fixing portion 513 of the lower side protruding downward.
The method of claim 3,
The water-cooled condenser 1000 includes a first inlet pipe 210 through which the refrigerant is introduced and a first outlet pipe 220 through which the refrigerant is discharged; The water-cooled condenser comprising a second inlet pipe 310 and the second outlet pipe 320 is the cooling water is introduced.
The method of claim 9,
The water-cooled condenser 1000 is the plate 100, the first inlet pipe 210, the first outlet pipe 220, the second inlet pipe 310, the second outlet pipe 320, the gas-liquid separator 400 The body 400a, the fixed plate 500, and the bra? 600 is a water-cooled condenser, characterized in that formed integrally by brazing.
The method of claim 9,
The plate 100 adjusts the flow of the first and second communication portions 111 and 112 and the cooling water around which the hollow circumference protrudes to one side or the other side of the plate 100 so as to control the flow of the refrigerant. The third communication portion 113 and the fourth communication portion 114 is formed so that the circumference of the hollow so as to protrude opposite to the protruding direction of the first communication portion 111 and the second communication portion 112 is formed. Water-cooled condenser.
The method of claim 11,
The plate 100 has the first communication portion 111 and the second communication portion 112 is located in the width direction of the plate 100 in the upper and lower sides in the longitudinal direction, the third communication portion ( 113) and the fourth communication portion 114 is located in the upper and lower sides in the longitudinal direction from the other side in the width direction of the plate (100).
The method of claim 12,
The fixing plate 500 has a plurality of the protrusion coupling portion 511 is formed in the longitudinal direction of the plate 100, some of the protrusion coupling portion 511 is the first communication portion 111 to the fourth communication portion 114 Is formed in a position corresponding to), the water-cooled condenser characterized in that the predetermined area is hollow or closed.
The method of claim 13,
The gas-liquid separator 400 is the first hollow hole 401 and the second hollow hole 402 is hollow,
The first connecting pipe 410 and the second hollow hole 402 connecting one side of the protrusion coupling part 511 formed at a position corresponding to the first hollow hole 401 and the second communication part 112. And a refrigerant is conveyed by a second connection pipe (420) connecting one side of the protrusion coupling portion (511) formed at a position corresponding to the first communication portion (111).
The method of claim 14,
The fixing plate 500 has the first connection pipe 410 and the second connection pipe 420 at the protrusion coupling portion 511 at a position corresponding to the second communication portion 112 and the first communication portion 111. Water-cooled condenser, characterized in that the seating groove 512 is formed so that a predetermined region of the) is inserted.
The method of claim 15,
The first connection pipe 410 and the second connection pipe 420 is tubular, water-cooled condenser characterized in that the stepped portion 430 is formed to protrude along the outer peripheral surface to limit the insertion depth of both ends.
The method of claim 14,
The water-cooled condenser 1000 is a pair of protrusion coupling portion 511 is assembled with the gas-liquid separator 400, the first connection pipe 410, the second connection pipe 420, and the fixed plate 500 Water-cooled condenser, characterized in that fixed to each other to maintain the state.
The method of claim 14,
The water-cooled condenser (1000) is a water-cooled condenser, characterized in that the protrusion coupling portion 511 located in the center in the longitudinal direction of the plate 100 is fixed to each other.
The method of claim 18,
The water-cooled condenser 1000 is water-cooled, characterized in that the first fixing hole 531 is formed in the protruding coupling portion 511 and a separate fixing means 530 is coupled through the first fixing hole 531. Condenser.
The method of claim 18,
The water-cooled condenser 1000 has a convex portion 541 protruding a predetermined region from one side of the pair of protruding coupling portions 511, and a concave concave portion 542 into which the convex portion 541 is inserted. Water-cooled condenser, characterized in that.
The method of claim 5,
The water-cooled condenser (1000) is a water-cooled condenser characterized in that the pair of bracket fixing portion (513) is fixed to each other with the close contact portion (610) therebetween.
The method of claim 5,
The water-cooled condenser 1000 has a second fixing hole 532 is formed in the bracket fixing portion 513, a fastening hole 641 is formed in the close contact portion 610, a separate fastening means 640 is The water-cooled condenser characterized in that is fastened through the second fixing hole (532) and the fastening hole (641).
The method of claim 6,
The fixed plate 500 has a first bent portion 501 extending around the first plate portion 510A to be bent toward the condensation region A1 such that the plate 100 forming the condensation region A1 is stacked. And a second bent portion 502 extending around the second plate portion 510B to be bent toward the subcooling region A3 such that the plate 100 forming the subcooling region A3 is stacked. Water-cooled condenser.
The method of claim 9,
The water-cooled condenser 1000 is a condensation region A1 through which the refrigerant introduced through the first inlet pipe 210 is condensed while passing through the first flow unit 100a, and the gas liquid through the first connection pipe 410. Only the gas-liquid separation region A2 introduced into the separator 400 and the gas-liquid separation, and the separated liquid refrigerant are moved through the second connection pipe 420 to be supercooled while passing through the first flow unit 100a. A3) is passed through the first outlet pipe 220, the water-cooled condenser, characterized in that.
The method of claim 9,
The water-cooled condenser 1000 is a water-cooled condenser characterized in that the cooling water introduced through the second inlet pipe 310 flows through the second flow portion (100b) and is discharged through the second outlet pipe (320). .

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