JPH1130493A - Tube for heat exchange and manufacture thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To accurately and easily bent a plate and to improve the brazing properties thereof by a method wherein a groove extending in a longitudinal direction is formed in the bent part of a plate. SOLUTION: A heat exchanger is formed such that a plurality of tubes 2 laminated by intervening a fin therebetween and a header pipe disposed at the two end parts of the tubes are communicated with each other and connected together. The tube 2 is formed such that a belt-like plate P is bent and joining parts 22 arranged at end parts in the direction of width are brazed together. A groove 21a extending in the longitudinal direction of the plate P is formed in a bent part 21' of the plate P, and the plate P is bent around this groove 21a with a given radius corresponding to the thickness of the tube 2. The tube 2 is formed such that the plate P is bent at the groove 21a serving as a starting point, joints 22 are brought into abutment against each other, and the top part of a bead 23 is brought into abutment against an opposite portion. Since the groove 21a is formed, the plate P is accurately and easily folded.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat exchanger tube used in a heat exchanger and a method for manufacturing the same.

[0002]

2. Description of the Related Art Conventionally, a plurality of tubes are stacked with fins interposed therebetween, and each end of these tubes is connected to a header pipe. Heat exchangers are known that are meandered multiple times between fittings.

A tube used in this type of heat exchanger is obtained by subjecting a band-shaped plate made of a metal such as aluminum light alloy to roll forming or pressing, and further brazing the essential parts. Are known.

Usually, a plate to be used is a brazing sheet in which a brazing material is clad on the entire surface, and brazing of a main part of a tube and brazing of other main parts of a heat exchanger are performed using a jig or the like. Tubes, fins,
After assembling the header pipe and the like integrally, the assembly is heated by heating the assembled body.

For example, a tube 20 shown in FIG. 6 is formed by bending a band-shaped plate and brazing flat joints 22 provided at ends of the plate in the width direction. Bent part 21 of plate
Are bent at a predetermined curvature corresponding to the thickness of the tube 20, and the joints 22,
Is formed at a predetermined height corresponding to the thickness.

Further, in the case of the tube 20, the plate is bent between the bent portion 21 of the plate and the joints 22, 22 in a concave shape in order to improve the pressure resistance and the heat exchange property of the tube 20. Beads 23 are provided at appropriate intervals. That is, these beads 23, 23 have their tops brazed to opposing portions inside the tube 20, respectively, and inside the tube 20, a plurality of flow paths 24, 24 are formed.

[0007]

As described above, when a band-shaped metal plate is bent and the joints provided at both ends in the width direction of the plate are brazed to each other, these joints must be securely connected. If a bead is provided, it is necessary to further securely braze the top of the bead and its opposing portion.

[0008] That is, poor brazing at the joint or bead causes defects in the liquid tightness and pressure resistance of the tube, which causes a significant decrease in the function of the heat exchanger. It is important that the joints and the top of the bead and their opposing portions are close enough to ensure brazing.

However, actually, when the plate is bent, the bent portion of the plate slightly deviates from a predetermined position, and the elastic force of the bent portion of the plate acts, so that, for example, as shown in FIG. And joint 2
The gap A between the joints 2 and 22, the gap B between the joints,
A gap C or the like between the top of the bead 23 and the opposing portion is generated, which often causes brazing failure.

Accordingly, the present invention has been made in view of the above problems,
An object of the present invention is to provide a tube for a heat exchanger in which the plate forming the tube is more accurately and easily bent to improve the brazing property, and a method for manufacturing the same.

[0011]

According to a first aspect of the present invention, there is provided a heat-generating device comprising: bending a strip-shaped metal plate; and brazing joints provided at both ends in the width direction of the plate to each other. A heat exchanger tube having a configuration in which a groove extending in a longitudinal direction of the plate is provided in a bent portion of the plate in the exchanger tube.

[0012] As described above, when the groove is provided in the portion to be bent of the plate in the longitudinal direction of the plate, the plate can be bent more accurately and easily, so that the brazing property at the joint portion is improved. Can be
The non-defective rate of the tube and the heat exchanger formed using the tube can be improved.

That is, when the bent portion of the plate is slightly displaced from a predetermined position when the plate is bent, the joints are displaced from each other and cause brazing failure. However, in the present invention, the bent portion of the plate is formed by the groove. Can be regulated, the plate can be bent accurately, and as a result, the joints can be prevented from shifting from each other, and the brazing failure can be reduced.

[0014] This is because when the plate is bent, the deformation is started from the place where the groove of the plate is provided, so that accurate formability can be obtained.

Further, when the plate is bent, a gap is formed between the joints due to the action of the elastic force of the bent portion of the plate, which causes brazing failure.
In the present invention, the elastic force of the plate is reduced by reducing the thickness of the bent portion of the plate by such a groove, so that the plate can be easily bent, and as a result, it is possible to prevent the joints from being separated from each other. It is possible to suppress the formation of a gap between them to such an extent that a brazing failure occurs, thereby reducing the brazing failure.

Further, even when brazing the top of the bead and the inside facing portion between the bent portion and the joint portion of the plate, the plate can be bent accurately and easily in this manner. The brazing property at the joint can be improved, and the brazing property at the bead can be improved.

According to a second aspect of the present invention, in the first aspect, before brazing the joint portion, the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate. It is a tube for a heat exchanger having the above configuration.

Thus, before brazing the joint,
By compressing the vicinity of the bent portion of the plate and reducing the radius of curvature of the bent portion of the plate, the elastic force of the bent portion of the plate can be made smaller, and as a result, the brazing property at the joint and the bead can be reduced. It can be further improved.

Further, according to the present invention, particularly when a heat exchanger is manufactured by stacking a plurality of tubes, the shape of the heat exchanger is distorted due to the accumulation of strong imbalance in the width direction of each tube. Can be prevented.

That is, when brazing a main part of an assembled body in which a plurality of tubes are stacked, conventionally, the strength in the thickness direction of the tube is extremely high in the vicinity of the bent portion of the plate. There was an inconvenience that it was difficult to secure the shape of this assembled body in a well-balanced manner because the pressing force to the layer was not well distributed,
In the present invention, since the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate,
Such inconvenience can be solved, and the assemblability can be improved.

According to a third aspect of the present invention, there is provided a method for manufacturing a heat exchanger bush, comprising bending a strip-shaped metal plate and brazing joints provided at both ends in the width direction of the plate to each other. A method for manufacturing a tube for a heat exchanger, wherein a groove extending in a longitudinal direction of the plate is provided in a portion to be bent of the plate.

As described above, when the groove is formed in the portion to be bent of the plate in the longitudinal direction of the plate, the plate can be bent more accurately and easily, so that the brazing property at the joint portion is improved. Can be
The non-defective rate of the tube and the heat exchanger formed using the tube can be improved.

That is, when the bent portion of the plate is slightly displaced from a predetermined position when the plate is bent, the joints are displaced from each other and cause brazing failure. However, in the present invention, the bent portion of the plate is formed by the groove. Can be regulated, the plate can be bent accurately, and as a result, the joints can be prevented from shifting from each other, and the brazing failure can be reduced.

[0024] This is because when the plate is bent, the deformation is started from the place where the groove of the plate is provided, so that accurate formability can be obtained.

Also, when the plate is bent, a gap is formed between the joints due to the action of the elastic force of the bent portion of the plate, which causes brazing failure.
In the present invention, the elastic force of the plate is reduced by reducing the thickness of the bent portion of the plate by such a groove, so that the plate can be easily bent, and as a result, it is possible to prevent the joints from being separated from each other. It is possible to suppress the formation of a gap between them to such an extent that a brazing failure occurs, thereby reducing the brazing failure.

Further, even when brazing the top of the bead and the inside facing portion between the bent portion and the joint portion of the plate, the plate can be bent accurately and easily in this manner. The brazing property at the joint can be improved, and the brazing property at the bead can be improved.

According to a fourth aspect of the present invention, in the third aspect, before brazing the joint portion, the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate. This is a method for manufacturing a heat exchanger tube having the following configuration.

Thus, before brazing the joint,
By compressing the vicinity of the bent portion of the plate and reducing the radius of curvature of the bent portion of the plate, the elastic force of the bent portion of the plate can be made smaller, and as a result, the brazing property at the joint and the bead can be reduced. It can be further improved.

According to the present invention, especially when a heat exchanger is manufactured by stacking a plurality of tubes, the shape of the heat exchanger is distorted due to the accumulation of strong imbalance in the width direction of each tube. Can be prevented.

That is, conventionally, when brazing a main part of an assembled body in which a plurality of tubes are stacked, the strength in the thickness direction of the tube is extremely high near the bent portion of the plate. There was an inconvenience that it was difficult to secure the shape of this assembled body in a well-balanced manner because the pressing force to the layer was not well distributed,
In the present invention, since the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate,
Such inconvenience can be solved, and the assemblability can be improved.

[0031]

Embodiments of the present invention will be described below in detail with reference to the drawings.

As shown in FIG. 1, the heat exchanger 1 of this embodiment
A plurality of tubes 2 and 2 stacked with fins 5 and 5 interposed
And header pipes 3 and 4 disposed at both ends of the tubes 2 and 2 are connected to each other.

Each of the header pipes 3 and 4 has upper and lower end openings closed by blind caps 6 and 6, the inside thereof is partitioned by partition plates 7 and 7 disposed at predetermined positions, and further, a medium is taken into the inside. It is a tubular member provided with an inlet joint 3a or an outlet joint 4a for discharging the medium to the outside. Tube holes 9, 9 are formed at predetermined intervals in the longitudinal direction of each of the header pipes 3, 4. Each tube 2, 2 is provided by inserting and brazing each end of the tube into the tube hole 9, 9. In addition, above and below the tube 2 and 2 layers,
A side plate 8 is arranged. Side plate 8
Has its ends fixed to the header pipes 3 and 4, respectively, to reinforce the structural strength of the heat exchanger.

According to this configuration, the medium taken in from the inlet joint 3a is meandered a plurality of times so as to reciprocate through the header pipes 3 and 4 in units of a predetermined group of two tubes, and the heat is exchanged. After passing through the tube 2, the outlet joint 4a
Is discharged from Further, the heat exchange of the medium is promoted by the heat radiation effect of the fin 5 interposed between the tube 2 and the side plate 8.

FIG. 2 is an external view showing the tube 2.
FIGS. 3 and 4 are external views showing a plate P forming the tube 2. As shown in these figures, the tube 2 of the present example is formed by bending a band-shaped plate P and joining portions 22 and 2 provided at ends of the plate P in the width direction, respectively.
2 are brazed together. The outer shape of the cross section of the tube 2 is set slightly smaller than the tube holes 9, 9 of the header pipes 3, 4.

At the portion 21 'to be bent of the plate P,
A groove 21a is provided in the longitudinal direction of the plate P, and the plate P is bent around the groove 21a at a predetermined curvature corresponding to the thickness of the tube 2. And
The portion to be bent 21 ′ of the plate P is the bent portion 21 of the plate P.

The bent portion 21 of the plate P and the joint 2
And a plurality of beads 23, 2 at appropriate intervals.
3, a plurality of flow paths 24, 24 partitioned by these beads 23, 23 are formed inside the tube 2.

In this embodiment, the plate P is made of an aluminum light alloy excellent in formability as a raw material, and has a brazing material clad on the entire front and back surfaces.

Joints 22, 22 and beads 23, 23
Is formed by bending the plate P by roll forming. This roll forming process
This is performed by passing the plate P between rotating rolls of a predetermined shape that are arranged to face each other.

After the joints 22 and 22 and the beads 23 and 23 are formed, the groove 21 a is formed so that the central surface in the width direction of the plate P inside the tube 2 extends in the longitudinal direction of the plate P. Are provided by being pressed by a roll having a peripheral portion of.

In this embodiment, the cross-sectional shape of the groove 21a is V-shaped, and its depth is 1 / the thickness of the tube 2.
2 or less. That is, by appropriately setting the shape and the depth of the groove 21a, the weakening of the tube 2 due to the reduction in the thickness of the plate P is suppressed, and the strength is sufficiently ensured.

The tube 2 is formed by further bending the plate P provided with the joints 22, 22, the beads 23, 23 and the groove 21a by roll forming. That is, the tube 2 is formed by bending the plate P with the groove 21a as a starting point.
2,2 and 22 are butt against each other and beads 23,23
Is formed by abutting a top portion of the base portion on the opposite portion. At this time, since the groove 21a is provided, the plate P can be bent accurately and easily.

The tube 2 thus formed is assembled integrally with the header pipes 3, 4 and the fins 5, 5,
The assembly is brazed by being sent into a furnace and subjected to a heat treatment. That is, the joint portions 22, 22 and the top portions of the beads 23, 23 and the opposing portions thereof are brazed together with the respective main portions in contact with the tube holes 9, 9 and the fins 5, 5 of the header pipes 3, 4. You.

At this time, since the groove 21a is filled by the brazing material flowing around, the pressure resistance to the medium in the bent portion 21 provided with the groove 21a can be sufficiently maintained.

In this case, the groove 21a is formed in the tube 2
, But may be provided outside the tube 2 at a point that is a starting point when the plate P is bent. The cross-sectional shape is not limited to the V-shape, but may be a U-shape.

As described above, if the groove is formed in the portion to be bent of the plate in the longitudinal direction of the plate, the plate can be bent more accurately and easily, so that the brazing property at the joint is improved. Can be
The non-defective rate of the tube and the heat exchanger formed using the tube can be improved.

That is, when the bent portion of the plate is slightly displaced from a predetermined position when the plate is bent, the joined portions are displaced from each other and cause brazing failure. However, in the present invention, the bent portion of the plate is formed by the groove. Can be regulated, the plate can be bent accurately, and as a result, the joints can be prevented from shifting from each other, and the brazing failure can be reduced.

This is because, when the plate is bent, deformation is started from the place where the groove of the plate is provided, so that accurate formability can be obtained.

In particular, the tube of the present example is provided with bead portions alternately from the upper and lower walls, and the plate before molding is formed in an asymmetrical shape with respect to the bent portion in the left-right direction. Due to the provision of the groove portion, it is possible to avoid poor molding of the bent portion due to the groove portion.

When the plate is bent, a gap is formed between the joints due to the action of the elastic force of the bent portion of the plate.
In the present invention, the elastic force of the plate is reduced by reducing the thickness of the bent portion of the plate by such a groove, so that the plate can be easily bent, and as a result, it is possible to prevent the joints from being separated from each other. It is possible to suppress the formation of a gap between them to such an extent that a brazing failure occurs, thereby reducing the brazing failure.

Further, even when brazing the top of the bead and the inside facing portion between the bent portion and the joint portion of the plate, the plate can be bent accurately and easily in this manner. The brazing property at the joint can be improved, and the brazing property at the bead can be improved.

Next, another embodiment of the present invention shown in FIG. 5 will be described.

In the tube 2 of the present embodiment, before brazing the joint portions 22, 22, the vicinity of the bent portion 21 of the plate is compressed to reduce the radius of curvature of the bent portion 21 of the plate. That is, in the vicinity of the bent portion 21 of the plate, the compressed portions 25, 25 having a tapered cross section are formed. Note that these compression units 2
5, 25 are formed by roll forming. In addition, other configurations are the same as those in the above-described specific example, and the description thereof is omitted.

Thus, before brazing the joint,
By compressing the vicinity of the bent portion of the plate and reducing the radius of curvature of the bent portion of the plate, the elastic force of the bent portion of the plate can be made smaller, and as a result, the brazing property at the joint and the bead can be reduced. It can be further improved.

Further, according to this embodiment, especially when a heat exchanger is manufactured by stacking a plurality of tubes, the shape of the heat exchanger is distorted due to the accumulation of strong imbalance in the width direction of each tube. Can be prevented.

That is, when brazing a main part of an assembled body in which a plurality of tubes are laminated, conventionally, the strength in the thickness direction of the tube is extremely high in the vicinity of the bent portion of the plate. There was an inconvenience that it was difficult to secure the shape of this assembled body in a well-balanced manner because the pressing force to the layer was not well distributed,
In this example, since the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate, such inconvenience can be solved and the assemblability can be improved.

[0057]

The invention described in the first aspect of the present invention is directed to a heat exchanger tube formed by bending a strip-shaped metal plate and brazing joints provided at both ends in the width direction of the plate to each other. A heat exchanger tube having a configuration in which a groove extending in a longitudinal direction of the plate is provided in a portion to be bent of the plate.

As described above, when the groove is formed in the portion to be bent of the plate in the longitudinal direction of the plate, the plate can be bent more accurately and easily, so that the brazing property at the joint portion is improved. Can be
The non-defective rate of the tube and the heat exchanger formed using the tube can be improved.

That is, when the bent portion of the plate is slightly deviated from a predetermined position when the plate is bent, the joints are displaced to cause a brazing failure. However, in the present invention, the bent portion of the plate is formed by the groove. Can be regulated, the plate can be bent accurately, and as a result, the joints can be prevented from shifting from each other, and the brazing failure can be reduced.

This is because when the plate is bent, the deformation is started from the place where the groove of the plate is provided, so that accurate formability can be obtained.

Further, when the plate is bent, a gap is formed between the joints due to the action of the elastic force of the bent portion of the plate, which causes brazing failure.
In the present invention, the elastic force of the plate is reduced by reducing the thickness of the bent portion of the plate by such a groove, so that the plate can be easily bent, and as a result, it is possible to prevent the joints from being separated from each other. It is possible to suppress the formation of a gap between them to such an extent that a brazing failure occurs, thereby reducing the brazing failure.

Further, even when brazing the top of the bead and the inside facing portion between the bent portion and the joint portion of the plate, the plate can be bent accurately and easily in this manner. The brazing property at the joint can be improved, and the brazing property at the bead can be improved.

According to a second aspect of the present invention, in the first aspect, before brazing the joint portion, the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate. It is a tube for a heat exchanger having the above configuration.

Thus, before brazing the joint,
By compressing the vicinity of the bent portion of the plate and reducing the radius of curvature of the bent portion of the plate, the elastic force of the bent portion of the plate can be made smaller, and as a result, the brazing property at the joint and the bead can be reduced. It can be further improved.

Further, according to the present invention, particularly when a heat exchanger is manufactured by laminating a plurality of tubes, the shape of the heat exchanger is distorted due to the accumulation of strong imbalance in the width direction of each tube. Can be prevented.

That is, conventionally, when brazing a main part of an assembled body in which a plurality of tubes are laminated, the strength in the thickness direction of the tube is extremely high in the vicinity of the bent portion of the plate. There was an inconvenience that it was difficult to secure the shape of this assembled body in a well-balanced manner because the pressing force to the layer was not well distributed,
In the present invention, since the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate,
Such inconvenience can be solved, and the assemblability can be improved.

According to a third aspect of the present invention, there is provided a method for manufacturing a heat exchanger bush, comprising bending a band-shaped metal plate and brazing joints provided at both ends in the width direction of the plate to each other. A method for manufacturing a tube for a heat exchanger, wherein a groove extending in a longitudinal direction of the plate is provided in a portion to be bent of the plate.

As described above, when the groove is formed in the portion to be bent of the plate in the longitudinal direction of the plate, the plate can be bent more accurately and easily, so that the brazing property at the joint is improved. Can be
The non-defective rate of the tube and the heat exchanger formed using the tube can be improved.

That is, when the bent portion of the plate is slightly displaced from a predetermined position when the plate is bent, the joining portions are displaced to cause brazing failure. However, according to the present invention, the bent portion of the plate is formed by the groove. Can be regulated, the plate can be bent accurately, and as a result, the joints can be prevented from shifting from each other, and the brazing failure can be reduced.

This is because when the plate is bent, the deformation is started from the place where the groove of the plate is provided, so that accurate moldability can be obtained.

Further, when the plate is bent, a gap is formed between the joints due to the action of the elastic force of the bent portion of the plate, which causes brazing failure.
In the present invention, the elastic force of the plate is reduced by reducing the thickness of the bent portion of the plate by such a groove, so that the plate can be easily bent, and as a result, it is possible to prevent the joints from being separated from each other. It is possible to suppress the formation of a gap between them to such an extent that a brazing failure occurs, thereby reducing the brazing failure.

Further, when brazing the top of the bead and the inside facing portion between the bent portion and the joint portion of the plate, the plate can be bent accurately and easily in this manner. The brazing property at the joint can be improved, and the brazing property at the bead can be improved.

According to a fourth aspect of the present invention, in the third aspect, before brazing the joint portion, the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate. This is a method for manufacturing a heat exchanger tube having the following configuration.

Thus, before brazing the joint,
By compressing the vicinity of the bent portion of the plate and reducing the radius of curvature of the bent portion of the plate, the elastic force of the bent portion of the plate can be made smaller, and as a result, the brazing property at the joint and the bead can be reduced. It can be further improved.

Further, according to the present invention, particularly when a heat exchanger is manufactured by laminating a plurality of tubes, the shape of the heat exchanger is distorted due to the accumulation of strong imbalance in the width direction of each tube. Can be prevented.

That is, when brazing a main part of an assembled body in which a plurality of tubes are stacked, conventionally, the strength in the thickness direction of the tube is extremely high in the vicinity of the bent portion of the plate. There was an inconvenience that it was difficult to secure the shape of this assembled body in a well-balanced manner because the pressing force to the layer was not well distributed,
In the present invention, since the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate,
Such inconvenience can be solved, and the assemblability can be improved.

[Brief description of the drawings]

FIG. 1 is a front view showing a heat exchanger according to a specific example of the present invention.

FIG. 2 is an external view showing a heat exchanger tube according to a specific example of the present invention.

FIG. 3 is an external view showing bending of a plate according to a specific example of the present invention.

FIG. 4 is an external view showing a plate according to a specific example of the present invention.

FIG. 5 is an external view showing a heat exchanger tube according to a specific example of the present invention.

FIG. 6 is an external view showing a heat exchanger tube according to a conventional example.

FIG. 7 is an external view showing a joint and a bead when a plate is bent according to a conventional example.

[Description of References] 1 Heat exchanger 2 Tube 3 Header pipe 3a Inlet joint 4 Header pipe 4a Outlet joint 5 Fin 6 Blind cap 7 Partition plate 8 Side plate 9 Tube hole 21 Plate bending portion 21 'Plate bending portion 21a Groove 22 Joint 23 Bead 24 Channel 25 Compression P-plate

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[Procedure amendment]

[Submission date] October 6, 1998

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

Title: Tube for heat exchanger and method for producing the same

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat exchanger tube used in a heat exchanger and a method for manufacturing the same.

[0002]

2. Description of the Related Art Conventionally, a plurality of tubes are stacked with fins interposed therebetween, and each end of these tubes is connected to a header pipe. Heat exchangers are known that are meandered multiple times between fittings.

A tube used in this type of heat exchanger is obtained by subjecting a band-shaped plate made of a metal such as aluminum light alloy to roll forming or pressing, and further brazing the essential parts. Are known.

Usually, a plate to be used is a brazing sheet in which a brazing material is clad on the entire surface, and brazing of a main part of a tube and brazing of other main parts of a heat exchanger are performed using a jig or the like. Tubes, fins,
After assembling the header pipe and the like integrally, the assembly is heated by heating the assembled body.

For example, a tube 20 shown in FIG. 6 is formed by bending a band-shaped plate and brazing flat joints 22 provided at ends of the plate in the width direction. Bent part 21 of plate
Are bent at a predetermined curvature corresponding to the thickness of the tube 20, and the joints 22,
Is formed at a predetermined height corresponding to the thickness.

Further, in the case of the tube 20, the plate is bent between the bent portion 21 of the plate and the joints 22, 22 in a concave shape in order to improve the pressure resistance and the heat exchange property of the tube 20. Beads 23 are provided at appropriate intervals. That is, these beads 23, 23 have their tops brazed to opposing portions inside the tube 20, respectively, and inside the tube 20, a plurality of flow paths 24, 24 are formed.

[0007]

As described above, when a band-shaped metal plate is bent and the joints provided at both ends in the width direction of the plate are brazed to each other, these joints must be securely connected. If a bead is provided, it is necessary to further securely braze the top of the bead and its opposing portion.

[0008] That is, poor brazing at the joint or bead causes defects in the liquid tightness and pressure resistance of the tube, which causes a significant decrease in the function of the heat exchanger. It is important that the joints and the top of the bead and their opposing portions are close enough to ensure brazing.

However, actually, when the plate is bent, the bent portion of the plate slightly deviates from a predetermined position, and the elastic force of the bent portion of the plate acts, so that, for example, as shown in FIG. And joint 2
The gap A between the joints 2 and 22, the gap B between the joints,
A gap C or the like between the top of the bead 23 and the opposing portion is generated, which often causes brazing failure.

Accordingly, the present invention has been made in view of the above problems,
An object of the present invention is to provide a tube for a heat exchanger in which the plate forming the tube is more accurately and easily bent to improve the brazing property, and a method for manufacturing the same.

[0011]

According to a first aspect of the present invention, there is provided a heat-generating device comprising: bending a strip-shaped metal plate; and brazing joints provided at both ends in the width direction of the plate to each other. In the heat exchanger tube, the heat exchanger tube has a configuration in which a bent portion of the plate is provided with a groove extending in a longitudinal direction of the plate.

The existence of a bent portion where the plate is bent
The effect of the elastic force of the bent part of the plate (so-called
(Spring back) forms a gap between the joints and causes brazing failure. However , in the present invention, the elastic force is reduced by reducing the thickness of the bent portion of the plate by the groove. The plate is folded
Springback due to bending can be reduced, and as a result, joints can be suppressed from being isolated from each other, and a gap between them can be prevented from forming a degree of poor brazing. And brazing defects can be reduced.

According to a second aspect of the present invention, in the first aspect, before brazing the joint portion, the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate. It is a tube for a heat exchanger having the above configuration.

Thus, before brazing the joint,
By compressing the vicinity of the bent portion of the plate and reducing the radius of curvature of the bent portion of the plate, the elastic force of the bent portion of the plate can be made smaller, and as a result, the brazing property at the joint and the bead can be reduced. It can be further improved.

Further, according to the present invention, especially when a heat exchanger is manufactured by laminating a plurality of tubes, the shape of the heat exchanger is distorted due to the accumulation of strong imbalance in the width direction of each tube. Can be prevented.

That is, conventionally, when brazing a main part of an assembled body in which a plurality of tubes are stacked, the strength in the thickness direction of the tube is extremely high in the vicinity of the bent portion of the plate. There was an inconvenience that it was difficult to secure the shape of this assembled body in a well-balanced manner because the pressing force to the layer was not well distributed,
In the present invention, since the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate,
Such inconvenience can be solved, and the assemblability can be improved.

According to a third aspect of the present invention, there is provided a method for manufacturing a heat exchanger bush, comprising bending a strip-shaped metal plate and brazing joints provided at both ends in the width direction of the plate to each other. A groove extending in a longitudinal direction of the plate is provided in a portion to be bent of the plate ,
Thereafter, the plate is bent to form a tube.

As described above, when the groove is formed in the portion to be bent of the plate in the longitudinal direction of the plate, the plate can be bent more accurately and easily, so that the brazing property at the joint is improved. Can be
The non-defective rate of the tube and the heat exchanger formed using the tube can be improved.

That is, when the bent portion of the plate is slightly displaced from a predetermined position when the plate is bent, the joints are displaced from each other and cause brazing failure. However, in the present invention, the bent portion of the plate is formed by the groove. Can be regulated, the plate can be bent accurately, and as a result, the joints can be prevented from shifting from each other, and the brazing failure can be reduced.

This is because, when the plate is bent, the deformation is started from the place where the groove of the plate is provided, so that accurate moldability can be obtained.

Further, when the plate is bent, a gap is formed between the joints due to the action of the elastic force of the bent portion of the plate, which causes brazing failure.
In the present invention, the elastic force of the plate is reduced by reducing the thickness of the bent portion of the plate by such a groove, so that the plate can be easily bent, and as a result, it is possible to prevent the joints from being separated from each other. It is possible to suppress the formation of a gap between them to such an extent that a brazing failure occurs, thereby reducing the brazing failure.

Further, even when brazing the top of the bead and the inside facing portion between the bent portion and the joint portion of the plate, the plate can be bent accurately and easily in this manner. The brazing property at the joint can be improved, and the brazing property at the bead can be improved.

According to a fourth aspect of the present invention, in the third aspect, before brazing the joint portion, the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate. This is a method for manufacturing a heat exchanger tube having the following configuration.

Thus, before brazing the joint,
By compressing the vicinity of the bent portion of the plate and reducing the radius of curvature of the bent portion of the plate, the elastic force of the bent portion of the plate can be made smaller, and as a result, the brazing property at the joint and the bead can be reduced. It can be further improved.

Further, according to the present invention, especially when a heat exchanger is manufactured by laminating a plurality of tubes, the shape of the heat exchanger is distorted due to the accumulation of strong imbalance in the width direction of each tube. Can be prevented.

That is, when brazing a main part of an assembled body in which a plurality of tubes are stacked, conventionally, the strength in the thickness direction of the tube is extremely high in the vicinity of the bent portion of the plate. There was an inconvenience that it was difficult to secure the shape of this assembled body in a well-balanced manner because the pressing force to the layer was not well distributed,
In the present invention, since the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate,
Such inconvenience can be solved, and the assemblability can be improved.

The invention described in claim 5 of the present application is the
1, wherein the grooves are filled with a brazing material.
It is a tube for exchangers. In the sixth aspect of the present invention,
The invention according to claim 3, wherein the groove is formed after brazing.
Of heat exchanger tubes constructed to be filled with brazing material
Manufacturing method.

As described above, after the brazing, the groove is brazed.
When it is filled with material, the bent part with this groove,
The pressure resistance to the medium can be sufficiently maintained.

[0029]

Embodiments of the present invention will be described below in detail with reference to the drawings.

As shown in FIG. 1, the heat exchanger 1 of this embodiment
A plurality of tubes 2 and 2 stacked with fins 5 and 5 interposed
And header pipes 3 and 4 disposed at both ends of the tubes 2 and 2 are connected to each other.

Each of the header pipes 3 and 4 has upper and lower end openings closed by blind caps 6 and 6, the inside of which is partitioned by partition plates 7 and 7 disposed at predetermined positions, and further, a medium is taken inside. It is a tubular member provided with an inlet joint 3a or an outlet joint 4a for discharging the medium to the outside. Tube holes 9, 9 are formed at predetermined intervals in the longitudinal direction of each of the header pipes 3, 4. Each tube 2, 2 is provided by inserting and brazing each end of the tube into the tube hole 9, 9. In addition, above and below the tube 2 and 2 layers,
A side plate 8 is arranged. Side plate 8
Has its ends fixed to the header pipes 3 and 4, respectively, to reinforce the structural strength of the heat exchanger.

According to this configuration, the medium taken in from the inlet joint 3a is meandered a plurality of times so as to reciprocate through the header pipes 3 and 4 in units of a predetermined group of tubes 2 and flows therethrough while exchanging heat. After passing through the tube 2, the outlet joint 4a
Is discharged from Further, the heat exchange of the medium is promoted by the heat radiation effect of the fin 5 interposed between the tube 2 and the side plate 8.

FIG. 2 is an external view showing the tube 2.
FIGS. 3 and 4 are external views showing a plate P forming the tube 2. As shown in these figures, the tube 2 of the present example is formed by bending a band-shaped plate P and joining portions 22 and 2 provided at ends of the plate P in the width direction, respectively.
2 are brazed together. The outer shape of the cross section of the tube 2 is set slightly smaller than the tube holes 9, 9 of the header pipes 3, 4.

At the portion 21 'to be bent of the plate P,
A groove 21a is provided in the longitudinal direction of the plate P, and the plate P is bent around the groove 21a at a predetermined curvature corresponding to the thickness of the tube 2. And
The portion to be bent 21 ′ of the plate P is the bent portion 21 of the plate P.

The bent part 21 of the plate P and the joint part 2
And a plurality of beads 23, 2 at appropriate intervals.
3, a plurality of flow paths 24, 24 partitioned by these beads 23, 23 are formed inside the tube 2.

In this embodiment, the plate P is made of an aluminum light alloy excellent in formability as a raw material, and has a brazing material clad on the entire front and back surfaces.

The joints 22, 22 and the beads 23, 23
Is formed by bending the plate P by roll forming. This roll forming process
This is performed by passing the plate P between rotating rolls of a predetermined shape that are arranged to face each other.

After the joints 22 and 22 and the beads 23 and 23 are formed, the groove 21 a is formed so that the central surface in the width direction of the plate P inside the tube 2 extends in the longitudinal direction of the plate P. Are provided by being pressed by a roll having a peripheral portion of.

In this embodiment, the cross-sectional shape of the groove 21a is V-shaped, and its depth is 1 / the thickness of the tube 2.
2 or less. That is, by appropriately setting the shape and the depth of the groove 21a, the weakening of the tube 2 due to the reduction in the thickness of the plate P is suppressed, and the strength is sufficiently ensured.

The tube 2 is formed by further bending the plate P provided with the joints 22, 22, the beads 23, 23, and the groove 21a by roll forming. That is, the tube 2 is formed by bending the plate P with the groove 21a as a starting point.
2,2 and 22 are butt against each other and beads 23,23
Is formed by abutting a top portion of the base portion on the opposite portion. At this time, since the groove 21a is provided, the plate P can be bent accurately and easily.

The tube 2 thus formed is assembled integrally with the header pipes 3, 4 and the fins 5, 5,
The assembly is brazed by being sent into a furnace and subjected to a heat treatment. That is, the joint portions 22, 22 and the top portions of the beads 23, 23 and the opposing portions thereof are brazed together with the respective main portions in contact with the tube holes 9, 9 and the fins 5, 5 of the header pipes 3, 4. You.

At this time, since the groove 21a is filled by the brazing material wrapping around, the pressure resistance to the medium in the bent portion 21 provided with the groove 21a can be sufficiently maintained.

In this case, the groove 21a is formed in the tube 2
, But may be provided outside the tube 2 at a point that is a starting point when the plate P is bent. The cross-sectional shape is not limited to the V-shape, but may be a U-shape.

As described above, when the groove is formed in the portion to be bent of the plate in the longitudinal direction of the plate, the plate can be bent more accurately and easily, so that the brazing property at the joint is improved. Can be
The non-defective rate of the tube and the heat exchanger formed using the tube can be improved.

That is, when the bent portion of the plate is slightly displaced from a predetermined position when the plate is bent, the joints are displaced from each other and cause a brazing failure. Can be regulated, the plate can be bent accurately, and as a result, the joints can be prevented from being shifted from each other, and brazing defects can be reduced.

This is because when the plate is bent, the deformation is started from the place where the groove of the plate is provided, so that accurate moldability can be obtained.

In particular, the tube of the present example is provided with bead portions alternately from the upper and lower walls, and the plate before molding is formed in a bilaterally asymmetric shape with the bent portion as the center. Due to the provision of the groove portion, it is possible to avoid poor molding of the bent portion due to the groove portion.

Also, when the plate is bent, a gap is formed between the joints due to the action of the elastic force of the bent portion of the plate, which causes brazing failure.
In the present invention, the elastic force of the plate is reduced by reducing the thickness of the bent portion of the plate by such a groove, so that the plate can be easily bent, and as a result, it is possible to prevent the joints from being separated from each other. It is possible to suppress the formation of a gap between them to such an extent that a brazing failure occurs, thereby reducing the brazing failure.

Further, even when brazing the top of the bead and the inside facing portion between the bent portion and the joint portion of the plate, the plate can be bent accurately and easily in this manner. The brazing property at the joint can be improved, and the brazing property at the bead can be improved.

Next, another embodiment of the present invention shown in FIG. 5 will be described.

In the tube 2 of the present embodiment, before brazing the joints 22, 22, the vicinity of the bent portion 21 of the plate is compressed to reduce the radius of curvature of the bent portion 21 of the plate. That is, in the vicinity of the bent portion 21 of the plate, the compressed portions 25, 25 having a tapered cross section are formed. Note that these compression units 2
5, 25 are formed by roll forming. In addition, other configurations are the same as those in the above-described specific example, and the description thereof is omitted.

Thus, before brazing the joint,
By compressing the vicinity of the bent portion of the plate and reducing the radius of curvature of the bent portion of the plate, the elastic force of the bent portion of the plate can be made smaller, and as a result, the brazing property at the joint and the bead can be reduced. It can be further improved.

Further, according to this embodiment, especially when a heat exchanger is manufactured by stacking a plurality of tubes, the shape of the heat exchanger is distorted due to the accumulation of strong imbalance in the width direction of each tube. Can be prevented.

That is, when brazing a main part of an assembled body in which a plurality of tubes are stacked, conventionally, the strength in the thickness direction of the tube is extremely high in the vicinity of the bent portion of the plate. There was an inconvenience that it was difficult to secure the shape of this assembled body in a well-balanced manner because the pressing force to the layer was not well distributed,
In this example, since the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate, such inconvenience can be solved and the assemblability can be improved.

[0055]

The invention described in the first aspect of the present invention is directed to a heat exchanger tube formed by bending a strip-shaped metal plate and brazing joints provided at both ends in the width direction of the plate to each other. , songs folding of the plate
At the bottom, a groove over a longitudinal direction of said plate is provided
A heat exchanger tube configurations are.

The existence of the bent portion where the plate is bent
The effect of the elastic force of the bent part of the plate (so-called
(Spring back) forms a gap between the joints and causes brazing failure. However, in the present invention, the elastic force is reduced by reducing the thickness of the bent portion of the plate by the groove. The plate is folded
Springback due to bending can be reduced, and as a result, joints can be suppressed from being isolated from each other, and a gap between them can be prevented from forming a degree of poor brazing. And brazing defects can be reduced.

According to a second aspect of the present invention, in the first aspect, before brazing the joint portion, the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate. It is a tube for a heat exchanger having the above configuration.

Thus, before brazing the joint,
By compressing the vicinity of the bent portion of the plate and reducing the radius of curvature of the bent portion of the plate, the elastic force of the bent portion of the plate can be made smaller, and as a result, the brazing property at the joint and the bead can be reduced. It can be further improved.

According to the present invention, especially when a heat exchanger is manufactured by stacking a plurality of tubes, the shape of the heat exchanger is distorted due to the accumulation of strong imbalance in the width direction of each tube. Can be prevented.

That is, when brazing a main part of an assembled body in which a plurality of tubes are stacked, the strength in the thickness direction of the tube is extremely high in the vicinity of the bent portion of the plate in the related art. There was an inconvenience that it was difficult to secure the shape of this assembled body in a well-balanced manner because the pressing force to the layer was not well distributed,
In the present invention, since the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate,
Such inconvenience can be solved, and the assemblability can be improved.

According to a third aspect of the present invention, there is provided a method for manufacturing a heat exchanger bush, comprising bending a band-shaped metal plate and brazing joint portions provided at both ends in the width direction of the plate to each other. A groove extending in a longitudinal direction of the plate is provided in a portion to be bent of the plate ,
Thereafter, the plate is bent to form a tube.

As described above, if a groove is formed in the portion to be bent of the plate in the longitudinal direction of the plate, the plate can be bent more accurately and easily, so that the brazing property at the joint is improved. Can be
The non-defective rate of the tube and the heat exchanger formed using the tube can be improved.

That is, when the bent portion of the plate is slightly displaced from a predetermined position when the plate is bent, the joints are displaced from each other and cause a brazing failure. Can be regulated, the plate can be bent accurately, and as a result, the joints can be prevented from shifting from each other, and the brazing failure can be reduced.

This is because, when the plate is bent, the deformation is started from the place where the groove of the plate is provided, so that accurate moldability can be obtained.

Further, when the plate is bent, a gap is formed between the joints due to the action of the elastic force of the bent portion of the plate, which causes brazing failure.
In the present invention, the elastic force of the plate is reduced by reducing the thickness of the bent portion of the plate by such a groove, so that the plate can be easily bent, and as a result, it is possible to prevent the joints from being separated from each other. It is possible to suppress the formation of a gap between them to such an extent that a brazing failure occurs, thereby reducing the brazing failure.

Further, when brazing the top of the bead and the inside facing portion between the bent portion and the joint portion of the plate, the plate can be bent accurately and easily in this manner. The brazing property at the joint can be improved, and the brazing property at the bead can be improved.

According to a fourth aspect of the present invention, in the third aspect, before brazing the joint portion, the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate. This is a method for manufacturing a heat exchanger tube having the following configuration.

Thus, before brazing the joint,
By compressing the vicinity of the bent portion of the plate and reducing the radius of curvature of the bent portion of the plate, the elastic force of the bent portion of the plate can be made smaller, and as a result, the brazing property at the joint and the bead can be reduced. It can be further improved.

Further, according to the present invention, particularly when a heat exchanger is manufactured by stacking a plurality of tubes, the shape of the heat exchanger is distorted due to the accumulation of strong imbalance in the width direction of each tube. Can be prevented.

That is, when brazing a main part of an assembled body in which a plurality of tubes are laminated, conventionally, the strength in the thickness direction of the tube is extremely high in the vicinity of the bent portion of the plate. There was an inconvenience that it was difficult to secure the shape of this assembled body in a well-balanced manner because the pressing force to the layer was not well distributed,
In the present invention, since the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate,
Such inconvenience can be solved, and the assemblability can be improved.

The invention described in claim 5 of the present application
1, wherein the grooves are filled with a brazing material.
It is a tube for exchangers. In the sixth aspect of the present invention,
The invention according to claim 3, wherein the groove is formed after brazing.
Of heat exchanger tubes constructed to be filled with brazing material
Manufacturing method.

As described above, the groove after brazing is soldered.
When it is filled with material, the bent part with this groove,
The pressure resistance to the medium can be sufficiently maintained.

[Brief description of the drawings]

FIG. 1 is a front view showing a heat exchanger according to a specific example of the present invention.

FIG. 2 is an external view showing a heat exchanger tube according to a specific example of the present invention.

FIG. 3 is an external view showing bending of a plate according to a specific example of the present invention.

FIG. 4 is an external view showing a plate according to a specific example of the present invention.

FIG. 5 is an external view showing a heat exchanger tube according to a specific example of the present invention.

FIG. 6 is an external view showing a heat exchanger tube according to a conventional example.

FIG. 7 is an external view showing a joint and a bead when a plate is bent according to a conventional example.

[Description of References] 1 Heat exchanger 2 Tube 3 Header pipe 3a Inlet joint 4 Header pipe 4a Outlet joint 5 Fin 6 Blind cap 7 Partition plate 8 Side plate 9 Tube hole 21 Plate bending portion 21 'Plate bending portion 21a Groove 22 Joint 23 Bead 24 Channel 25 Compression P-plate

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Sadao Haiya 39, Higashihara, Chiyo-ji, Odai-gun, Osato-gun, Saitama Prefecture Inside of Xexel Konan Plant (72) Inventor Takashi Sugita Higashihara, Oji-gun, Onan-gun, Saitama No. 39 Inside the Xexel Gangnam Plant (72) Inventor Katsuji Akiyama Higashihara, Chiyo-ji, Odai-gun, Osato-gun, Saitama 39 Inventor Takafumi Umehara Takahara Uenohara, Chiyo-ji, Chiyo-ji, Konan-cho, Osato-gun, Saitama No. 39 Inside Zexel Gangnam Plant

Claims (4)

[Claims] 1. A heat exchanger tube formed by bending a band-shaped metal plate and brazing joints provided at both ends in a width direction of the plate, wherein the plate is to be bent at a portion to be bent of the plate. A tube for a heat exchanger, provided with a groove extending in a longitudinal direction of the heat exchanger. 2. The heat exchanger according to claim 1, wherein, before brazing the joint portion, the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate. tube. 3. A method of manufacturing a tube for a heat exchanger, comprising bending a strip-shaped metal plate and brazing joints provided at both ends in the width direction of the plate to each other. A method for manufacturing a tube for a heat exchanger, comprising providing a groove extending in a longitudinal direction of a plate. 4. The heat exchanger according to claim 3, wherein before brazing the joint portion, the vicinity of the bent portion of the plate is compressed to reduce the radius of curvature of the bent portion of the plate. Tube manufacturing method.