JP4341483B2 - Heat exchanger - Google Patents

Description

  The present invention relates to a heat exchanger, and is particularly effective when used in a radiator for cooling engine coolant.

  2. Description of the Related Art Conventionally, a header tank structure that distributes and collects a heat exchange medium flowing through a tube of a heat exchanger includes, for example, a core plate having a V-shaped cross section coupled to a tube, as described in Patent Document 1, and this core. A side cap 3 is formed by combining a tank plate having a V-shaped cross section coupled to the inner wall of the plate, a core plate and a tank plate, and closing both ends in the longitudinal direction of a cylindrical tank space having a substantially quadrangular cross section. It is composed of one member and is formed by brazing these three members.

JP 10-132490 A

  As a conventional technique, a header tank structure of a heat exchanger as shown in FIGS. 3 and 4 is also known. The header tank structure 1 includes a core plate 3 having an L-shaped cross section that is coupled to a tube 5 and an inverted L-shaped tank that is combined with the core plate 3 to form a cylindrical tank space 1a having a quadrangular cross section. The plate 2 and the side cap 4 that closes both ends in the longitudinal direction of the cylindrical tank space 1a are formed by brazing these three members.

  Since the conventional header tank structure described above is composed of three members, a core plate, a tank plate, and a side cap, there is a problem that the number of brazed parts increases and brazing defects are likely to occur. .

  Further, in these header tank structures, as shown in FIGS. 3 and 4, a heat exchange medium inflow / outflow pipe 7 is attached to one side surface of a cylindrical header tank 1 having a quadrangular cross section at a right angle. Therefore, the heat exchange medium flowing into the tank space 1a from the inflow / outflow pipe 7 collides with the inner wall surface facing the outflow / inflow pipe 7 in the tank space 1a to generate a rebound flow, thereby reducing the pressure loss of the fluid. There was a problem of increasing.

  Furthermore, in the header tank structure of the conventional heat exchanger described above, in order to mount the assembled heat exchanger on the vehicle, it is necessary to provide a mounting bracket 8 on the header tank 1 as shown in FIG. An increase was incurred.

  The present invention has been made in view of the above problems, and its object is to reduce pressure loss of the inflowing heat exchange fluid and to eliminate parts such as side caps and mounting brackets. Provided is a heat exchanger having a header tank structure that can reduce the number of points and the brazing required portion.

This invention provides the heat exchanger as described in each claim of a claim as a means for solving the said subject.
In the heat exchanger according to claim 1, the header tank is formed of two members, a tank plate and a core plate, and a fluid inlet / outlet pipe is provided on one side surface in the short direction of the header tank. The other side surface in the short direction of the header tank facing the inlet / outlet pipe is formed in an arcuate curved surface, and the tank plate has both a flat portion and a flat portion at both ends in the longitudinal direction. Formed from a rising portion vertically rising from one side portion of the flat portion toward the tube side, and a first bent portion bent vertically from the other side portion of the flat portion toward the tube side. The longitudinal intermediate portion is formed of a rising portion and an arcuate curved surface portion continuous with the rising portion, and the core plate has one of a horizontal bottom surface portion and a short side direction of the bottom surface portion. From the side of the tube toward the non-tube side And a second bent portion bent vertically from the other side portion in the short side direction of the bottom surface portion toward the tube side, and the tube is disposed on the bottom surface portion. It is connected, and the pipe for pipes of fluid is connected to the side part. By brazing this tank plate and core plate in combination, both ends in the longitudinal direction are closed, and the center of the ellipse is set in the middle part. A tank space with a substantially fan-shaped cross section that is divided into four is formed, and the inlet / outlet pipes oppose the curved surface of the header tank . This can reduce the number of parts of the tank and reduce brazed parts. In addition, it is possible to prevent the fluid flowing into the header tank from hitting the tank wall surface to form a rebounding flow, and to prevent an increase in fluid pressure loss.

In the heat exchanger according to claim 2, the header tank is formed of two members, a tank plate and a core plate, and a fluid inlet / outlet pipe is provided on one side surface in the short direction of the header tank, The other side surface in the short direction of the header tank facing this pipe pipe is formed in an arcuate curved surface, and when the tank plate and the core plate are combined, both come into contact with each other and are overlapped, Mounting holes are formed in the rising part near the end of the tank plate in the longitudinal direction and the side part near the end of the core plate in the longitudinal direction by matching the positions. In addition to reducing the brazed portion, it is possible to prevent the fluid flowing into the header tank from striking against the tank wall and forming a rebounding flow. It is possible to prevent the increase. Further, there is no need to newly provide a mounting bracket or the like for mounting the heat exchanger on a vehicle or the like, and the heat exchanger can be installed on the vehicle or the like using the mounting holes.

The heat exchanger according to claim 3 is provided with an engaging claw and an engaging male part or an engaging female part on the tank plate and the core plate, so that when the tank plate and the core plate are combined, Alignment and temporary fixation before brazing can be easily performed.
In the heat exchanger according to claim 4, the header tank has a bottom surface portion to which both end portions in the longitudinal direction of the tube are connected, and a substantially flat side surface to which the inlet / outlet pipe is connected, extending from one end portion of the bottom surface portion in the tube longitudinal direction. And a tank plate having a curved surface portion extending from the other end of the bottom surface portion of the core plate to the end portion of the side surface portion of the core plate and having an arcuate curved surface at a portion facing the inlet / outlet pipe. And the tank plate has both end portions in the longitudinal direction of a flat portion, a rising portion that rises vertically from one side of the flat portion toward the opposite tube side, and the other end of the flat portion. A first bent portion that is bent vertically from the side portion toward the tube side, and a middle portion in the longitudinal direction includes a rising portion and an arcuate curved surface portion that is continuous with the rising portion. Formed and The plate has a horizontal bottom surface, a side surface vertically bent from one side portion of the bottom surface portion toward the opposite side of the tube, and the other side portion of the bottom surface portion in the short direction. A second bent portion bent vertically toward the tube side, a tube is coupled to the bottom surface portion, a fluid inlet / outlet pipe is coupled to the side surface portion, and a tank plate and a core plate Are combined, and both end portions in the longitudinal direction are closed, and a tank space having a substantially fan-shaped cross section that is divided into four through the center of the ellipse is formed in the middle portion, and the inlet / outlet pipe pipe is a curved portion of the header tank. It is characterized by facing. Thereby, there exists an effect substantially the same as the said Claim 1.
In the heat exchanger according to claim 5 , in particular, the header tank has a bottom surface portion to which both end portions in the longitudinal direction of the tube are connected, and a substantially flat plate shape that extends in the tube longitudinal direction from one end portion of the bottom surface portion and to which the inlet / outlet pipe is connected. And a tank plate having a curved surface portion extending from the other end of the bottom surface portion of the core plate to the end portion of the side surface portion of the core plate and facing the inlet / outlet pipe is an arcuate curved surface. and have a bets, when a combination of the tank plate and the core plate, both are superposed in contact with a longitudinal end portion close to the longitudinal end portion near the rising portion and the core plate of the tank plate A mounting hole is formed in the side surface portion so as to coincide with each other. As a result, the number of parts of the tank can be reduced, the brazed part can be reduced, and the fluid flowing into the header tank can be prevented from colliding with the tank wall surface to form a rebounding flow, thereby increasing the pressure loss of the fluid. Can be prevented. Further, since the side surface portion of the core plate to which the inlet / outlet pipe is connected has a substantially flat plate shape, the inlet / outlet pipe can be arranged so that the opening edge of the inlet / outlet pipe is near the top of the header tank. The diameter of the inlet / outlet pipe can be increased. Furthermore, there is no need to newly provide a mounting bracket or the like for mounting the heat exchanger on a vehicle or the like, and the heat exchanger can be installed on the vehicle or the like using the mounting holes.

  Hereinafter, a heat exchanger according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a partial perspective view of a heat exchanger according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of an intermediate portion of the header tank of the present invention. The heat exchanger 10 includes a core portion in which flat tubes 5 and corrugated fins 6 through which fluid flows are alternately stacked, and a header tank 1 in which these tubes 2 are connected at both ends in the longitudinal direction. And in order to protect a core part, it is mainly comprised from the side plate 9 provided in parallel with the tube 5 on the both sides. In this heat exchanger 10, heat exchange is performed between the fluid that passes through the tube 5 and the gas that passes through the fins 6 outside the tube 5, and the header tank 1 receives the fluid that flows through the plurality of tubes 5. Distribution set. Each header tank 1 has an opening, and an inlet / outlet pipe 7 is connected to the opening. One of these openings is the fluid inflow side to the heat exchanger 10, and the other is the fluid outflow side from the heat exchanger 10.

Next, the structure of the header tank 1 that is a feature of the present invention will be described. The header tank 1 is formed by combining two plate-like members, a tank plate 2 and a core plate 3.
The tank plate 2 has both end portions in the longitudinal direction at a flat portion 21, a rising portion 22 rising vertically from one side portion of the flat portion 21 toward the tank side, and the other side of the flat portion 21. 1st bent part 23 bent vertically from the part toward the tube side, leaving the rising part 22 whose middle part in the longitudinal direction continuously extends from the end part, It is formed in a curved surface portion 24 that is recessed in an arc shape. The tank plate 2 is generally formed by drawing. The rising portion 22 is formed continuously from the end portion to the intermediate portion along the longitudinal direction of the tank plate 2, but the rising width is high at both end portions and low at the intermediate portion. The first bent portion 23 also extends continuously from the end portion to the intermediate portion along the longitudinal direction of the tank plate 2, but assimilate as a part of the curved surface portion 24 in the intermediate portion. ing. The curved surface portion 24 is formed in a curved surface such as an arc shape of 90 degrees when an ellipse is divided into four through the center. The curved surface portion 24 constitutes an upper surface of the tank space 1a described later, the other side surface, and closed surfaces of both ends.

  The core plate 3 includes a horizontal bottom surface portion 31, a substantially flat side surface portion 32 that is bent vertically from one side portion of the bottom surface portion 31 toward the tank side, and a bottom surface portion 31. It has the 2nd bending part 33 extended toward the tube side from the other side part of a transversal direction, and bent vertically. The bent height of the side surface portion 32 is formed to be considerably higher than the height of the second bent portion 33. A tube mounting hole (not shown) for inserting and fixing the tube 5 is formed in the bottom surface portion 31 of the core plate 3. In addition, an inlet / outlet pipe 7 for allowing fluid to enter and exit is connected to the side surface portion 32 of the core plate 3. The side surface portion 32 and the bottom surface portion 31 of the core plate 3 constitute one side surface and the bottom surface of the tank space 1a.

  An attachment hole 2a for installing the heat exchanger 10 on a vehicle or the like is provided in the vicinity of the longitudinal end of the rising portion 22 of the tank plate 2. Similarly, an attachment hole 3 a having the same size is formed in the vicinity of the end in the longitudinal direction of the side surface portion 32 of the core plate 3. The mounting holes 2a and 3a are provided so that the positions thereof coincide with each other so that the tank plate 2 and the core plate 3 communicate with each other when the rising portion 22 and the side surface portion 32 come into contact with each other and overlap each other. Thereby, it is not necessary to newly provide a mounting bracket for mounting the assembled heat exchanger 10 to the vehicle or the like, and the heat exchanger is mounted to the vehicle or the like by using these mounting holes 2a and 3a. be able to.

  Further, as shown in FIG. 1, engaging claws 25 are provided at both ends in the longitudinal direction of the tank plate 2, and the end surface (end surface along the longitudinal direction) 2 b of the rising portion 22 of the tank plate 2 is provided on the end surface 22 b. An engaging female portion 26 is provided. Similarly, a plurality of engaging claws 35 are provided at both ends in the longitudinal direction of the core plate 3, and an engaging male portion is provided on the end surface (end surface along the longitudinal direction) 3 b of the side surface portion 32 of the core plate 3. 36 is provided. The engaging claws 25 and 35, the engaging female portion 26 and the engaging male portion 36 can be appropriately provided on the tank plate 2 and the core plate 3. The engaging claws 25 and 35 and the engaging male and female portions 26 and 36 are used for positioning and fixing the tank plate 2 and the core plate 3 when they are temporarily assembled before brazing.

The flat part 21 of the both ends of the tank plate 2, the bottom part 31 of the core plate 3, the rising part 22 of the tank plate 2, the side part 32 of the core plate 3, the first bent part 23 and the curved part 24 of the tank plate 2. And the second bent portion 33 of the core plate 3 are brought into contact with each other, the tank plate 2 and the core plate 3 are combined, and the engaging claws 25 and 35 and the engaging female portion 26 are engaged with the engaging male. By male and female engagement with the portion 36, both are positioned and temporarily fixed, and brazing is performed in this state.
In this case, the end surface 2 b of the rising portion 22 of the tank plate 2, the end surface 3 b of the side surface portion 32 of the core plate 3, the end surface 2 b of the first bent portion 23 of the tank plate 2, and the second bent portion of the core plate 3. As shown in FIG. 2, the end surfaces 2b and 3b may be aligned with each other so as to form the same plane as shown in FIG. 2, or a step may be formed between the end surfaces 2b and 3b.

In this way, the header tank 1 is closed at both ends in the longitudinal direction by the flat portion 21 of the tank plate 2 and the bottom surface portion 31 of the core plate 3, and the curved surface portion 24 of the tank plate 2 and the core at the middle portion thereof. A tank space 1a is formed that is surrounded by the bottom surface portion 31 and the side surface portion 32 of the plate 3 and has, for example, a shape obtained by dividing an elongated ridge into four through the center. At this time, the fluid inlet / outlet pipe 7 is provided on the side surface portion 32 of the core plate 3 which is one side surface of the tank space 1a, and the other side surface of the tank space 1a facing the inlet / outlet pipe 7 is curved. Therefore, the fluid that has entered the tank space 1a through the inlet / outlet pipe 7 from the outside collides with the other side surface to form a rebounding flow, and smoothly flows along the curved surface. Is changed to flow into the tube 5 and the pressure loss of the fluid can be reduced.
Further, since the side surface portion 32 of the core plate 3 to which the inlet / outlet pipe 7 is connected has a substantially flat plate shape, the inlet / outlet pipe pipe is arranged so that the opening edge of the inlet / outlet pipe 7 is near the top of the header tank 1. 7 can be arranged, and the diameter of the pipe 7 can be increased.

  As described above, in the heat exchanger according to the embodiment of the present invention, the fluid flowing from the inlet / outlet pipe flows toward the curved surface, so that the rebounding flow of the fluid can be improved and the pressure loss is increased. Can be prevented. In addition, since the header tank is composed of only the tank plate and the core plate and the side cap can be omitted, it is possible to reduce the number of parts required for brazing by reducing the number of parts and reduce the occurrence of brazing defects. Can do. Furthermore, since a mounting hole is provided in a part of the header tank, it can be mounted without a mounting bracket required when the heat exchanger is installed in a vehicle or the like.

It is a fragmentary perspective view of the heat exchanger of embodiment of this invention. It is sectional drawing of the tank part of the header tank in the heat exchanger of embodiment of this invention. It is a fragmentary perspective view of the conventional heat exchanger. It is sectional drawing of the tank part of the header tank in the conventional heat exchanger.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Header tank 1a ... Tank space 2 ... Tank plate 2a ... Mounting hole 21 ... Flat part 22 ... Rising part 23 ... 1st bending part 24 ... Curved part 3 ... Core plate 3a ... Mounting hole 31 ... Bottom part 32 ... Side surface portion 33 ... second bent portion 5 ... tube 6 ... fin 7 ... in / out pipe

Claims (5)

In a heat exchanger comprising a core part in which tubes forming a fluid passage and heat-dissipating fins are alternately stacked, and header tanks arranged at both ends in the longitudinal direction of the tube to distribute and collect fluids,
The header tank is formed of two members, a tank plate and a core plate, and an inlet / outlet pipe for flowing fluid into and out of the header tank is provided on one side surface in the short direction of the header tank, The other side surface of the header tank in the short direction facing the inlet / outlet pipe is formed in an arcuate curved surface , and
The tank plate has both ends in the longitudinal direction from a flat part, a rising part rising vertically from one side part of the flat part toward the opposite tube side, and the other side part of the flat part. A first bent portion bent vertically toward the tube side, and a middle portion in the longitudinal direction is formed from the rising portion and an arcuate curved surface portion continuous with the rising portion. And again
The core plate includes a horizontal bottom surface portion, a side surface portion that is vertically bent from one side portion in the short direction of the bottom surface portion toward the non-tube side, and the other in the short direction of the bottom surface portion. A second bent portion bent vertically from the side portion toward the tube side, the tube is coupled to the bottom surface portion, and a fluid inlet / outlet pipe is coupled to the side surface portion, By brazing the tank plate and the core plate in combination, both end portions in the longitudinal direction are closed, and a tank space having a substantially fan-shaped cross section divided into four through the center of an ellipse is formed in the middle portion, A heat exchanger, wherein an inlet / outlet pipe is opposed to the curved surface portion of the header tank . In a heat exchanger comprising a core part in which tubes forming a fluid passage and heat-dissipating fins are alternately stacked, and header tanks arranged at both ends in the longitudinal direction of the tube to distribute and collect fluids,
The header tank is formed of two members, a tank plate and a core plate, and an inlet / outlet pipe for flowing fluid into and out of the header tank is provided on one side surface in the short direction of the header tank, The other side surface of the header tank in the short direction facing the inlet / outlet pipe is formed in an arcuate curved surface, and
When the tank plate and the core plate are combined, the both abut and overlap each other, and a rising portion near the longitudinal end of the tank plate and a side portion near the longitudinal end of the core plate And a mounting hole is formed so that the positions coincide with each other . The heat exchanger according to claim 1 or 2 , wherein the core plate and the tank plate are provided with an engaging claw and an engaging male part or an engaging female part. A core portion in which tubes forming a fluid passage and heat-dissipating fins are alternately stacked, a header tank disposed at both ends in the longitudinal direction of the tube, for distributing and collecting fluid, and cooling water being supplied to the header tank In a heat exchanger comprising an inlet / outlet pipe for inflow or outflow,
The header tank is
A core plate having a bottom surface portion to which both longitudinal ends of the tube are connected, and a substantially flat side surface portion extending from one end portion of the bottom surface portion in the tube longitudinal direction and connected to the inlet / outlet pipe;
The extending from the other end of the bottom portion of the core plate to the side portion end of the core plate, the site where the and out tube pipe faces have to have a tank plate having a curved portion is an arc curved surface, And
The tank plate has both ends in the longitudinal direction from a flat part, a rising part rising vertically from one side part of the flat part toward the opposite tube side, and the other side part of the flat part. A first bent portion bent vertically toward the tube side, and a middle portion in the longitudinal direction is formed from the rising portion and an arcuate curved surface portion continuous with the rising portion. And
The core plate includes the horizontal bottom surface, the side surface vertically bent from one side of the bottom surface in the short direction toward the non-tube side, and the short surface of the bottom surface. A second bent portion bent vertically from the other side portion toward the tube side, the tube is coupled to the bottom surface portion, and a fluid inlet / outlet pipe is coupled to the side surface portion. Then, by brazing the tank plate and the core plate in combination, both end portions in the longitudinal direction are closed, and a tank space having a substantially fan-shaped cross section divided into four through the center of the ellipse is formed in the middle portion. The heat exchanger is characterized in that the inlet / outlet pipe is opposed to the curved surface portion of the header tank . A core portion in which tubes forming a fluid passage and heat-dissipating fins are alternately stacked, a header tank disposed at both ends in the longitudinal direction of the tube, for distributing and collecting fluid, and cooling water being supplied to the header tank In a heat exchanger comprising an inlet / outlet pipe for inflow or outflow,
The header tank is
A core plate having a bottom surface portion to which both longitudinal ends of the tube are connected, and a substantially flat side surface portion extending from one end portion of the bottom surface portion in the tube longitudinal direction and connected to the inlet / outlet pipe;
The extending from the other end of the bottom portion of the core plate to the side portion end of the core plate, the site where the and out tube pipe faces have to have a tank plate having a curved portion is an arc curved surface, And
When the tank plate and the core plate are combined, the both abut and overlap each other, and a rising portion near the longitudinal end of the tank plate and a side portion near the longitudinal end of the core plate And a mounting hole is formed so that the positions coincide with each other .

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