JP3237807B2 - Tank for integrated heat exchanger - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an integrated heat exchanger tank comprising two tanks connected to each other.

[0002]

2. Description of the Related Art In recent years, a so-called integrated heat exchanger in which a cooling condenser is connected to a front surface of a radiator has been frequently used. An integrated heat exchanger tank as disclosed in JP-A-2-62267 is used.

FIG. 8 shows an integrated heat exchanger tank disclosed in this publication. This integrated heat exchanger tank has a partition member 11 made of aluminum and a tube hole 13 made of aluminum on both sides. A tank piece 15 is formed by brazing, and a tank body 17 for a radiator is formed on one side, and a tank body 19 for a capacitor is formed on the other side.

[0004]

However, in such a conventional tank for an integrated heat exchanger, a plurality of parts 1 are required.
Since the two tank bodies 17 and 19 are formed by 1, 15 and 15, a large amount of time is required for assembling, and since there are four brazing locations, brazing defects are likely to occur. was there.

Further, since the partition member 11 is formed of an extruded material, there is a problem that the weight and cost increase. An object of the present invention is to solve such a conventional problem and to provide an integrated heat exchanger tank in which two tank bodies for a radiator and a condenser can be formed by one part.

[0006]

According to a first aspect of the present invention, there is provided an integrated heat exchanger tank comprising a plate material made of aluminum clad material in which a brazing material layer is formed on one side of a core material and a sacrificial corrosion layer is formed on the other side. Is wound in a cylindrical shape to form a first tank body for the radiator, and the other part of the plate material that is continuous with a part of the plate material is opposite to the winding direction of the first tank body. To form a second tank body for the capacitor in a cylindrical shape, and from the first tank body to the second tank body.
In the continuous part to the tank body of No. 2, the butting part attaches the plate material
Formed by bending, and at least
The end of the first tank body or the second tank body
The ends are abutted .

According to a second aspect of the present invention, in the tank for the integrated heat exchanger according to the first aspect, the abutting portion clamps the plate material.
It is formed by bending in the shape of a circle .

According to a third aspect of the present invention, there is provided an integrated heat exchanger tank according to the first or second aspect, wherein the first tank main body is rectangular.
It is formed in a cylindrical shape .

[0009]

[0010]

In the integrated heat exchanger tank according to the first aspect, the first tank body for the radiator is formed by a part of one sheet material, and the second tank body for the condenser is formed in a cylindrical shape by the remaining part. It is formed on. And the first tank
Abutting against a continuous part from the main body to the second tank main body
The part is formed by bending the plate material, and at least
Also the end of the first tank body or the end of the second tank body
The parts are abutted .

[0011] In the tank for the integrated heat exchanger of the second aspect,
The butting portion is formed by bending a plate material into a crank shape .

[0013] In the tank for an integrated heat exchanger according to claim 3 ,
The first tank body has a rectangular cylindrical shape.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows an embodiment of an integrated heat exchanger tank according to the present invention. In the figure, reference numeral 31 denotes a first tank body for a cylindrical radiator , and reference numeral 33 denotes a first tank body for a cylindrical condenser . 2 shows a second tank body.

A tube hole 35 is formed in the first and second tank bodies 31, 33. Then, both end surfaces of the first and second tank bodies 31 and 33 are covered with the lid member 3.
7.

The above-described integrated heat exchanger tank is shown in FIG.
A part of the flat plate material 39 as shown in FIG.
As shown in (b), after the first tank body 31 is formed by being rolled into a cylindrical shape by roll forming, as shown in (c), the other part of the plate material 39 which is continuous with a part of the plate material 39 is removed. The first tank body 31 is formed by being rolled into a cylindrical shape in a direction opposite to the winding direction of the first tank body 31 by roll forming.

Thereafter, a tube hole 35 is formed in the outer periphery of the first tank body 31 and the second tank body 33. In this embodiment, the plate 39 is made of an aluminum material, and the aluminum material is formed of a clad material obtained by clad a brazing material.

In this clad material, a sacrificial corrosion layer (for example, JIS7072) is formed on one side of a core material (for example, JIS3003) made of an aluminum material, and a brazing material layer (for example, JI
S4343) that have been configured to form a.

Then, both end portions 39a, 39b of the plate material 39 are provided.
Is brazed to the first or second tank body 31, 33, and lid members 37 are brazed to both end surfaces of the first and second tank bodies 33.

In the above-described integrated heat exchanger tank, however, the first tank body 31 is formed by a part of one plate member 39, and the second tank body 33 is formed by the remaining portion. The two tank bodies 31 and 33 can be formed by one plate material 39 which is one part.

Therefore, it is not necessary to assemble a plurality of parts as in the prior art, and the assembling time can be reduced. In addition, since a special partition member is not required, weight and cost can be reduced.

Furthermore, since there are two brazing portions at both ends 39a and 39b of the plate member 39, occurrence of brazing defects can be reduced. In the above-described integrated heat exchanger tank, both ends 39a, 39b of the plate 39 made of aluminum are brazed to the first or second tank body 31, 33, so that the airtightness or liquid tightness is improved. It can be easily secured.

FIG. 3 shows another embodiment of the integrated heat exchanger tank according to the present invention. In this embodiment, the first tank main body 41 has a rectangular cylindrical shape, and the second tank main body 43 has the same structure.
Are cylindrical.

Then, the first tank body 41 is used as a radiator tank, and the second tank body 43 is
Ru is used as a tank capacitor. In this embodiment, an abutting portion 45 is formed by bending the plate member 39 at a continuous portion from the first tank main body 41 to the second tank main body 43. The end 39b of the main body 43 is in contact.

The abutting portion 45 is formed by bending a plate material before forming the first tank body 41. The integrated heat exchanger tank described above,
For example, as shown in FIGS. 4 to 6, it is used by being disposed above and below a core portion 51 formed by a tube 47 and a fin 49.

An inlet pipe 53 is connected to the upper first tank main body 41, and an outlet pipe 55 is connected to the lower first tank main body 41. An oil cooler 57 is accommodated in the lower first tank body 41, and an inlet pipe 59 and an outlet pipe 61 of the oil cooler are protruded outward from a side surface.

An inlet pipe 63 and an outlet pipe 65 are connected to both ends of the second tank body 43. In the above-described integrated heat exchanger tank, since the first tank main body 41 is formed in a rectangular cylindrical shape, the pipe 5
Mounting of 3, 55, 59, 61, etc. becomes very easy.

Since the end 39b of the plate 39 is in contact with the butting portion 45, for example, the tube 47 is inserted into the tube hole 35 of the first and second tank bodies 41 and 43.
When assembling, the tank body 41, 4
3 can be effectively prevented from being deformed.

FIG. 7 shows still another embodiment of the integrated heat exchanger tank according to the present invention. In these embodiments, a continuous portion of the first tank body 41 and the second tank body 43 is provided. Further, abutting portions 45a to 45e with which the end portions 39a and 39b of the plate material 39 abut are integrally formed.

That is, in (a), an abutting portion 45a is formed by bending the plate 39 at a continuous portion from the first tank main body 41 to the second tank main body 43. The end 39b of the second tank body 43 is abutted.

In (b) and (c), the abutting portion 4
5b, the 45 c, first and second tank body 41 and 42
The three end portions 39a and 39b are in contact with each other. further,
In (d), the first tank body 4 is attached to the abutting portion 45d.
One end 39a is in contact.

In (e), the abutting portion 45e is formed by bending the plate member 39 into a crank shape, and the abutting portion 45e is connected to the end portions 39a of the first and second tank bodies 41 and 43. , 39b are in contact.

In the above-described integrated heat exchanger tank, substantially the same effects as those of the integrated heat exchanger tank shown in FIG. 3 can be obtained .

[0033]

As described above, according to the present invention, the integrated heat exchanger tank according to claim 1, the first tank body Ri by the part forming a piece of sheet material, the second Ri by the remainder successive since the tank body of is formed, it can be formed by a single plate material which is a component of two tank body.

And, the end of the plate material is the first or the second
Because it is in contact with the abutment formed on the tank body,
Effectively prevent tank body from being deformed by external force
be able to.

[0035]

In the tank for an integrated heat exchanger according to the third aspect ,
Since the first tank body is formed in a rectangular cylindrical shape, there is an advantage that attachment of a pipe or the like to the side surface becomes easy.

[Brief description of the drawings]

FIG. 1 is a perspective view showing one embodiment of an integrated heat exchanger tank of the present invention.

FIG. 2 is an explanatory view showing a method of manufacturing the integrated heat exchanger tank of FIG. 1;

FIG. 3 is a perspective view showing another embodiment of the integrated heat exchanger tank of the present invention.

4 is a front view showing an integrated heat exchanger using the integrated heat exchanger tank of FIG. 3;

FIG. 5 is a side view of FIG.

FIG. 6 is a top view of FIG. 4;

FIG. 7 is a side view showing still another embodiment of the integrated heat exchanger tank of the present invention.

FIG. 8 is a perspective view showing a conventional integrated heat exchanger tank.

[Explanation of symbols]

 31, 41 First tank body 33, 43 Second tank body 39 Plate 39a, 39b End 45, 45a to 45e Butt

Continuation of front page (58) Field surveyed (Int.Cl. ⁷ , DB name) F28F 9/00-9/26 F28D 1/00-9/02

Claims (3)

(57) [Claims] 1. A part of a plate material (39) made of an aluminum clad material, in which a brazing material layer is formed on one side of a core material and a sacrificial corrosion layer is formed on the other side, is wound in a cylindrical shape to form a radiator. The first tank body (31, 41) is formed, and the other part of the plate material (39) continuous with a part of the plate material (39) is wound in the winding direction of the first tank body (31, 41). The second tank body (33, 43) for the capacitor is formed in a cylindrical shape by winding toward the opposite side to the second tank body from the first tank body (41).
In the continuous part to the body (43), the butting parts (45, 45a-
45e) is formed by bending the plate material (39), and at least the abutting portions (45, 45a to 45e)
The end (39a) of the first tank body (41)
Corresponds to the end (39b) of the second tank body (43).
An integrated heat exchanger tank characterized by being in contact with the heat exchanger. 2. The integrated heat exchanger tank according to claim 1, wherein the abutting portions (45, 45a to 45e) are formed of the plate material.
(39) An integrated heat exchanger tank formed by bending a crank shape . 3. The integrated heat exchanger tank according to claim 1, wherein the first tank main body (41) is formed in a rectangular cylindrical shape. tank.