JPH01224163A - Heat exchanger - Google Patents

Abstract

PURPOSE:To reduce the manufacturing cost of a heat exchanger and to improve the durability by forming a composing part by an Al extrusion shape and integrally brazing it in a furnace after assembling a part. CONSTITUTION:Inlet and outlet ports side tank parts 6, 8, partition part 9, etc., are integrally formed by an Al extrusion shape. A brazing filler metal is claded first on the flat tube 1 of a 1st tank 10 and a corrugated fin 2, an end plate 3 is fitted into grooves 5, 7, the end part 11 of the partition part 9 is abutted to the end plate 3 surface, caps 17, 19 are respectively fitted and subjected to integral blazed joining in a furnace. On a 2nd tank 14 they are assembled with the same method as the 1st tank. The inlet and outlet port pipes 20, 21 of a fluid are brazed respectively to tanks 6, 14. The manufacturing cost of a heat exchanger is thus reduced and the durability can be improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [III Utilization] The present invention relates to a type of heat exchanger WI device that combines corrugated fins and tubes.

[Prior Art 1] The following structure has been disclosed for joining the end plate and tank of a conventional heat exchanger combining corrugated fins and tubes.

In Japanese Unexamined Patent Publication No. 58-28054, an inlet side tank part to which an inlet vibrator into which cooling water flows is connected, an outlet tank part to which an outlet vibrator from which the cooling water flows out are connected, and an inlet side tank part and an outlet. A tank main body made of a material such as resin and an end plate is joined by caulking or the like via an O-ring for sealing the tank, and has a partition part separating the side tank part from the tank body, and is made of a material such as resin. Showa 58-179797
In the publication, in order to ensure the crimp strength of an aluminum end plate, the thickness of the end plate must be increased, but increasing the thickness deteriorates the crimp workability. Separately from the end plate, an auxiliary plate made of iron with excellent strength is used, and this auxiliary plate connects the end plate and the resin tank via an elastic sealing member, thereby achieving both crimping strength and crimping workability. JP-A No. 61-44296 discloses a device that prevents electrolytic corrosion due to contact between aluminum and iron by interposing an electrolytic corrosion preventive material between the auxiliary plate and the end plate. , (see FIG. 6) engages with the bent portion 32 of the sheet metal 31 to cover the sheet metal 31, and mfl of the fin 33.
(A plate 34 that engages with the fins 34 is disposed between the sheet metal 31 and the fins 33, and
2 has a U-shaped cross section with an arcuate top, and has a rib 35 on the periphery of the front Md plate 34 that contacts the inside of the outer periphery of the arcuate portion at the top of the bent portion 32 of the sheet metal 31 marked n. No. 3 covers almost the entire sheet metal 31, all of the tubes 36 are fully inserted, and the plate 34
covers a part of the core surface of the sheet metal 31 in a, and only some of the tubes 36 are inserted,
The end portion 38 of the tank 37 is engaged with the inside of the U-shaped cross section of the nth bent portion 32 and brazed together.

[The problems that the invention attempts to solve] However, Japanese Patent Application Laid-Open No. 58-28054 and
In Publication No. 8-1797337, an end valve and a tank are caulked together via an elastic sealing member, but as time passes, permanent deformation gradually increases, and the sealing member must be secured by caulking. In addition, due to the aging of the elastic seal member, the sealing performance may become incomplete and there is a risk that the internal particles may leak.

In addition, in JP-A No. 61-44296, all parts are made of gold mFJ material and are joined by brazing, so there is no deterioration of the caulking mechanism or aging of the sealing member, but all the parts are joined by brazing. However, there is a problem in that the sealing performance and the force generated by the fluid must depend on the strength of the brazing material and the precision of the brazing process, leading to concerns about reliability.

Book: f? ! The invention was developed in view of the above-mentioned problems with the conventional technology, and the purpose of the measurement was to manufacture the tank from an extruded aluminum material,
The present invention aims to provide a heat exchanger in which an end plate is inserted into the groove of the tank and the tubes, fins, end plate, tank, and cap are brazed together.

[Means for Solving the Problems] In order to achieve the above object, the heat exchanger of the present invention includes a first tank having an E-shaped cross section and grooves formed of an extruded aluminum material, and a first tank made of an extruded aluminum material. A second tank having a double-shaped cross section and having a groove formed by the process is assembled to each end plate of the core part, and a cap is inserted into the first tank and the second tank, respectively, and they are brazed together in a furnace. This is what happens.

[Function] Since the first tank is formed of an extruded material having a partition part separating the inlet side tank part and the outlet side tank part and a groove into which the end plate is inserted, the 'lf4 part of the partition part and the surface of the end plate are A fillet is formed in the brazing material to ensure airtightness between the inlet tank and outlet tank, and to strengthen the joint strength between the groove and the end plate.

[Implementation configuration and effects 1 Examples will be described with reference to the drawings.

In Figures 1 to 4, a flat tube 1 is made of an electric N tube material in which a brazing material is crafted into an aluminum material, a corrugated fin 2, a brazing material is crafted on one or both sides of the aluminum material, and the flat tube 1 is inserted. One end of the core part 4 made up of the end plate 3 having a plurality of holes has a WI5 into which one end of the end plate 3 is fitted.
The cross-section of the inlet side tank part 6 having a width of 10 cm, the groove 7t into which the other end of the end plate 3 is fitted, and the partition part 8 separating the outlet side tank part 8 having an extruded shape is E. The first tank 10 is assembled by fitting the end plate 3 into the groove 5.7.

At this time, the end portion 11 of the partition portion 8 is formed so as to come into contact with the surface of the end plate 3.

On the other hand, at the other end of the core part 4, there is a second tank 14 having a structure 12.13 into which the end plate 3 is fitted and having a U-shaped cross section formed of an extruded material, which is the same as the first tank lO. assembled in a way.

Moreover, plating sheets of aluminum are formed by press working or the like on both ends of the first tank 10 to form protrusions 15.
A cap 17 having a protrusion 16 is attached to each end of the second tank 14, and a cap 19 having a protrusion 18 is attached to each end of the second tank 14.
It is then fitted, fixed by press-fitting with a jig, etc., and then brazed and joined together in a furnace.

An inlet vibrator 20 for collecting fluid is brazed to the inlet L1 side tank part 6, and an outlet vibrator 21 for discharging fluid to the outlet side tank part 14, respectively.

As described above, when each part is assembled using a jig and brazed together in a furnace, the end 11 of the partition f16B
A fillet 22.23 made of brazing material is formed between the surface of the end plate 3 and the surface of the end plate 3 to completely isolate the inlet side tank section 6 and the outlet side tank section 8 to ensure airtightness. is a part of the inner surface of the tank 6.8, the surface of the end plate 3, and the partition fllB9.
The sides of the cap 18 are in contact with the corresponding surfaces, and since they are joined by the surfaces, the joining force is strong, and the protrusion 18 of the cap 18 is also joined by the surfaces, so the joining force is strong.

In FIG. 5, an opening 24 is provided on the top surface of the first tank 10.
The inlet vibrator 20 with a ring-shaped praising sheet 25 fitted therein is assembled by integral brazing, and the same applies to the outlet vibrator 21.

[Effects of the Invention] The present invention is as described above! Since M is made,
This produces the effects described below.

The partition between the inlet tank part and the outlet tank part, and the groove into which the end plate is inserted, are integrally molded using extruded material, reducing the number of parts and machining time. Machining can be done by simply machining the hole for inserting the flat chie or -b, and the machining time can be reduced.In addition, the use of the plating sheet can be minimized (WhN), which greatly contributes to cost reduction.Furthermore, the end plate can be Since it fits into the groove formed in the tank, the joint structure becomes stronger and durability is improved.

[Brief explanation of the drawing]

Fig. 1 is an exploded perspective view of the present invention, Fig. 2 is a perspective view of the main part of the first tank, Fig. 3 is a perspective view of the main part of the second tank, and Fig. 4 is a perspective view of the main part of the first tank. An explanatory diagram of a fillet formed by a partition part and an end plate, FIG. 5 is a cross-sectional view showing how a pipe is assembled to a tank, and FIG. 6 is a cross-sectional view of a main part of a conventional example. l...tube, 2...fin, 3...
End plate, 4...core part, 5.7.1
2.13...Groove, 6...Inlet side tank part,
8... Outlet side tank part, 8... Partition part, 1
0...first tank, 14...second tank,
17.19...A. Yap.

Claims (1)

[Claims] Two tanks (10, 14) and this tank (10, 1
A corrugated fin type heat exchanger having a core part (4) formed by joining a number of tubes (1) and fins (2) to an end plate (3) joined to , a first tank with an E-shaped cross section (
10) and a groove (12) formed from aluminum extrusion material.
, 13) with a U-shaped cross section is connected to an end plate (14) clad with the brazing material of the core (4)
3) respectively, and assemble the first tank (10) and the second tank (10).
A heat exchanger in which caps (17, 19) clad with a brazing material are fitted into both ends of each tank (14) and brazed together in a furnace.