JP2002257495A - Connecting structure for a plurality of heat exchangers - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a connecting structure, capable of easily connecting and removing a plurality of heat exchangers with each other. SOLUTION: In the connecting structure of a plurality of the heat exchangers wherein at least one exchanger of the plurality of heat exchangers 5, 6 having a core consisting of a multitude of tubes 1 and fins 2 and tanks 3, 4 arranged at the end part of the core is constituted of a structure in which a groove type reinforcing member 7 is arranged at the end part of the core and whose opening side is arranged so as to be faced to outside while the heat exchangers 5, 6 are connected to each other by a connecting part, the slits 9 of a formed block body 8 made of a synthetic resin are fitted to the reinforcing member 7 of the heat exchanger 5 to connect the heat exchangers through screwing a nut 12 and a bolt 13.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat exchanger for cooling engine cooling water for an automobile and a heat exchanger for a car cooler, etc., which are connected to each other, and easily mounted on a support member in an engine room. And a connection structure for a plurality of heat exchangers.

[0002]

2. Description of the Related Art A radiator for cooling engine cooling water and a condenser for a car cooler installed in an engine room of an automobile are appropriately fastened and fixed integrally with each other via a bracket, a bolt and a nut. Have been.
And it is arrange | positioned in an engine room in the fastening state.

[0003]

The conventional connection structure for a plurality of heat exchangers has the drawbacks that the connection and detachment of the connection portion are troublesome and that a large number of parts are required. Therefore, an object of the present invention is to provide a highly reliable connection structure of a plurality of heat exchangers, which is extremely easy to attach and detach, has a small number of parts, and has high strength.

[0004]

According to the present invention, a core comprising a large number of tubes (1) and fins (2) and a tank (3) disposed at an end of the core is provided. And (4) wherein at least one of the heat exchangers (5) has a groove-shaped reinforcement (7) at the end of its core.
In the connection structure of a plurality of heat exchangers in which the heat exchangers (5) and (6) are connected to each other by connection parts, the connection parts are made of synthetic resin. A pair of side walls (7a) of the reinforcing member (7) having a pair of side walls (7a) which are aligned with the pair of side walls (7a).
A nut fitting recess (10) is formed in parallel with (9), and a pair of slits (9) and a bolt hole (11) communicating the nut fitting recess (10) are provided at right angles to them. With the molded block body (8) fitted to the tank (4) or reinforcing material of the other heat exchanger (6), the pair of slits (9) is used to connect the reinforcing material () of one heat exchanger (5). 7), a nut (12) is inserted into the nut fitting recess (10), and the bolt hole is inserted.
A connection structure for a plurality of heat exchangers, wherein a bolt (13) is inserted into (11) and screwed to the nut (12).

According to a second aspect of the present invention, in the first aspect, a tank which is aligned with one side of the molded block (8) and the top of the tank (4) of the other heat exchanger (6). This is a connection structure for a plurality of heat exchangers in which fitting recesses (14) are formed.

According to a third aspect of the present invention, in the first aspect, the pair of slits is formed in the molded block body (8).
In parallel with (9), a pair of other slits (15) are formed integrally, and a bolt hole (11) communicating the two pairs of slits (9) (15) and the nut fitting recess (10). Are formed, and a mounting pin portion (16) for mounting a heat exchanger is integrally provided in parallel with the slits (9) and (15), and the other heat exchanger is provided.
At the end of the core of (6), a groove-shaped reinforcing material (17) is also arranged with its opening side facing outward, and both heat exchangers (5) and (6) are arranged in parallel to each other. The material (7) (17) and the molded block (8)
And a connection structure for a plurality of heat exchangers, wherein the two heat exchangers are fastened and fixed by the bolts (13) and the nuts (12).

[0007]

Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is an exploded perspective view of a connection structure showing a first embodiment of the present invention, and FIG. 2 is a longitudinal sectional view of a main part of the connection structure. In this example, the radiator for cooling the engine cooling water is one heat exchanger 5,
The condenser for the car cooler is the other heat exchanger 6. One of the heat exchangers 5 has a large number of tubes 1 arranged in a vertical direction and a large number of tubes arranged in parallel. Fins 2 are arranged between the tubes 1 to form a core, and both ends of each tube 1 are vertically separated. It communicates with a pair of tanks 3. A pair of reinforcing members 7 are provided on both sides of the core. The reinforcing member 7 is formed in a groove shape, and is fixed to the fin 2 with its opening side facing outward.

In this example, the other heat exchangers 6 have respective tubes 1 arranged in a horizontal direction, and fins 2 are provided between the tubes 1. A pair of tanks 4 (the left side is omitted) are arranged at both ends of the tube 1. In this example, the upper and lower ends of the tank 4 are slightly protruded from the core. As a connecting part for connecting the two heat exchangers 5, 6, a molded block 8 of synthetic resin is used.
Having. A pair of slits 9 are formed on one side of the molded block body 8 so as to be aligned with a pair of side wall portions 7a having a groove shape in cross section of the reinforcing member 7 of one heat exchanger 5, and a nut is formed in parallel with the slit 9. A fitting recess 10 is provided, and a bolt hole 11 communicating the pair of slits 9 and the nut fitting recess 10 is provided.
Are provided orthogonal to them. Furthermore, a tank fitting recess 14 is provided on one side of the molding block 8, which is aligned with the top of the tank 4 of the heat exchanger 6.

The molded block 8 thus formed is made of a synthetic resin molded body. In this example, a total of four molded block bodies 8 are mounted one by one on the upper and lower sides of each reinforcing member 7. The mounting method is as follows. First, the nut 12 is fitted into the nut fitting recess 10 of the molded block 8. And the tank fitting recess of the molding block 8
14 is fitted to the end of the tank 4 of the other heat exchanger 6, and the slit 9 of the molded block 8 is fitted to the side wall 7 a of the reinforcing member 7 of the one heat exchanger 5. And bolt holes
A bolt 13 is inserted into the nut 11 and its tip is screwed and fastened to the nut 12, thereby integrally fixing the pair of heat exchangers 5 and 6 together.

Next, FIG. 3 shows a second embodiment of the present invention. In this example, the tube 1 of the heat exchanger 5 for cooling the engine is arranged in the horizontal direction similarly to the other heat exchanger 6. A pair of reinforcing members 7 are arranged at both upper and lower ends of a core comprising the tube 1 and the fins 2. Similarly, the other heat exchanger 6 also has reinforcing members 17 disposed on both upper and lower ends of the core, and the core heights of the two coincide. In this example, a pair of slits 9 and 15 are arranged in the forming block 8 in parallel with each other, and a mounting pin is mounted on the outer surface of the forming block 8 in parallel with the slits.
Reference numeral 16 denotes an integrally formed protrusion. Further, on one side surface of the molded block 8, a convex portion 20 for attaching the shroud 18 is provided.
And a nut fitting recess 10 is also formed therein.

The molded block 8 thus formed is
The heat exchangers 5 and 6 are arranged in a pair in the upper and lower longitudinal directions. Then, the first slit 9 of the molding block 8 is fitted to the reinforcing member 7 of one of the heat exchangers 5, and the second slit 15
Is fitted to the reinforcing member 17 of the other heat exchanger 6. Then, the pair of heat exchangers 5 and 6 are fastened and fixed via the bolt 13 and the nut 12. Furthermore, the four corners of the shroud 18 are attached to the projections 20 of each molded block 8 via bolts and nuts. FIG. 4 is a longitudinal sectional view of a main part showing the fastening state, in which mounting pins 16 protruding from the upper and lower surfaces of the respective molded block bodies 8 are provided through holes of a support material in an engine room (not shown) via mounting rubber. It can be attached.

[0012]

According to the present invention, the slit 9 of the synthetic resin molded block 8 is fitted to the reinforcing member 7 of one of the heat exchangers 5, and the nut 12 and the bolt are formed.
Since the molded block 8 is fastened to the other heat exchanger 6 and fitted to the other heat exchanger 6, the plurality of heat exchangers 5 and 6 can be reliably and easily connected. Also, removal between the two becomes easy. According to the second aspect of the present invention, the tank fitting recess 14 is formed on one side of the molding block 8 and is aligned with the top of the tank 4 of the other heat exchanger 6. Connection between the pair of heat exchangers 5 and 6 is further facilitated. According to the third aspect of the present invention, the slits 9 and 15 of the molded block 8 are fitted to the reinforcing members 7 and 17 provided on the pair of heat exchangers 5 and 6 respectively, and the bolt 13 and the nut 12 are fitted. Since the two are fastened together, the fastening is easy. In addition, since the mounting pins 16 are integrally formed on the molded block 8 so as to protrude, it is possible to easily install a plurality of heat exchangers at appropriate locations in a connected state.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view of a main part showing a first embodiment of a connection structure for a plurality of heat exchangers of the present invention.

FIG. 2 is a partially broken side view showing a connection state of the heat exchanger.

FIG. 3 is a partially exploded perspective view showing a second embodiment of the connection structure for multiple heat exchangers of the present invention.

FIG. 4 is a lateral cross-sectional side view of a main part of the connection structure of the heat exchanger.

[Explanation of symbols]

 1 Tube 2 Fin 3, 4 Tank 5, 6 Heat exchanger 7 Reinforcement 7a Side wall 8 Mold block 9 Slit 10 Nut fitting recess 11 Bolt hole 12 Nut 13 Bolt 14 Tank fitting recess 15 Slit 16 Mount pin 17 Reinforcement Material 18 Shroud 19 Bolt hole 20 Convex

Claims (3)

[The claims] 1. A core comprising a number of tubes (1) and fins (2), and a tank (3) disposed at an end of the core.
(4) wherein at least one of the heat exchangers (5) has a groove-shaped reinforcing material (7) at an end of the core, and an opening of the core. The heat exchangers (5), (6) are connected to each other by connecting parts, and the connecting parts are formed of synthetic resin. The reinforcing member (7) has a pair of slits (9) on one side thereof which are aligned with a pair of side wall portions (7a) of a groove shape in cross section of the reinforcing member (7), and a nut is fitted in parallel with the slit (9). A fitting recess (10) is formed, and a bolt hole (11) communicating with the pair of slits (9) and the nut fitting recess (10) is provided at right angles to them. Heat exchanger (6) tank
(4) Alternatively, with the pair of slits (9) being fitted to the reinforcing member, the pair of slits (9) is fitted to the reinforcing member (7) of one of the heat exchangers (5), and the nut is fitted into the nut fitting concave portion (10). Insert (12),
Insert the bolt (13) into the bolt hole (11) and insert the nut (1).
2) A connection structure for a plurality of heat exchangers, which is screwed and fastened to 2). 2. The heat exchanger according to claim 1, wherein one side of the molded block body (8) is connected to the other heat exchanger.
Tank fitting recess (14) aligned with the top of tank (4) in (6)
Connection structure of multiple heat exchangers formed with 3. The molding block (8) according to claim 1, further comprising a pair of other slits (15) integrally formed in parallel with said pair of slits (9), and two pairs of said slits. (9) A bolt hole (11) communicating with the nut fitting recess (10) and the nut fitting recess (10) is formed, and a mounting pin portion (16) for mounting a heat exchanger is provided in parallel with the slits (9) and (15). ), And the other end of the core of the heat exchanger (6) is also provided with a groove-shaped reinforcing material (1).
7) are arranged with the opening side facing outward, and both heat exchangers (5) and (6) are arranged in parallel, and the respective reinforcing members (7) (17)
A connection structure for a plurality of heat exchangers, wherein the molded block body (8) is fitted to the heat exchanger, and the two heat exchangers are fastened and fixed by the bolts (13) and the nuts (12).