JPS61202084A - Heat exchanger - Google Patents

Abstract

PURPOSE:To provide a heat exchanger than can be used as two kinds of heat exchanger, has a high heat exchanging efficiency, is compact and can be manufactured at a low cost by making both ends of some of fluid passages among multiple fluid passages of heat exchanging pipes open to the interior of the first tank and the rest of the fluid passages to the second tank. CONSTITUTION:Both ends of the fluid passage 3 of five heat exchanging pipes 2 in the upper part of the heat exchanger 1 are all made open to the interior of the first tank 5. Both ends of two front and rear fluid passages 3a of three fluid passages 3 of five heat exchanging pipes 2 in the lower part of the heat exchanger 1 are made open to the interior of the first tank 5, and the remaining center fluid passage 3b is extended to form an extension 2a so that both ends of the fluid passage 3b may be open to the interior of the second tank 6. First fluid inlet pipe 7 and outlet pipe 8 are respectively connected to the top of the side of the left and right first tanks 5, and second fluid inlet pipe 9 and outlet pipe 10 are respectively connected to the underside of the left and right second tank 6.

Description

[Detailed description of the invention] Industrial applications The present invention relates to a heat exchanger.

Conventional technology Conventionally, products that require heat exchangers as component parts include automobiles, motorcycles, and compressors, but all of them require parts with various functions to be installed in a limited space. However, there was a problem in that it was not possible to take up a large installation space for the heat exchanger. Furthermore, when a fluid such as water or oil is cooled only with air through a heat exchanger, there is a problem in that the heat exchanger must be made larger in view of the cooling capacity of the air. Furthermore, when multiple heat exchangers are used in an automobile engine room, etc., a large installation space is required, and since these heat exchangers are manufactured separately, the overall manufacturing cost of the heat exchanger is reduced. The problem was that it was expensive.

Purpose of the Invention An object of the present invention is to solve the above-mentioned problems, to allow two types of fluids to flow through the heat exchange tube body of one heat exchanger, and to enable one heat exchanger to exchange two types of heat. It can be used as a heat exchanger tube, or it can exchange heat with the air outside the heat exchange tube as well as with other types of fluids flowing inside the heat exchange tube. It can significantly improve heat exchange efficiency, and is also extremely compact, requiring less installation space.
The object of the present invention is to provide a heat exchanger that is inexpensive to manufacture.

Composition of the Invention In order to achieve the above object, the present invention provides a method in which a plurality of heat exchange tubes having parallel fluid passages are connected in parallel to a pair of left and right header plates arranged opposite to each other. , a first tank portion is provided on the left side of the left header plate and a right side of the right header plate, and a second tank portion is provided on the left side of the left first tank portion and the right side of the right first tank portion. , both ends of some of the fluid passages of the plurality of fluid passages of the at least one heat exchange tube are opened into the first tank part, and the remaining fluid passages are extended on both left and right sides of the heat exchange tube. In addition, protrusions penetrating the first tank portion are provided, and both ends of the remaining fluid passage are connected to the second tank portion.
The main feature is a heat exchanger that is opened into the tank.

Examples and effects Next, embodiments of the present invention will be described based on the drawings.

In this specification, left and right and front and back are based on FIG. 1, and left refers to the left side in FIG. shall be said.

In the drawings, (1) shows an aluminum heat exchanger according to the present invention, and (2) shows ten header plates connected in parallel to a pair of left and right header plates (4) (4) arranged oppositely. A heat exchange tube body made of extruded aluminum material.
Each heat exchange tube (2) has three parallel fluid passages (3). (5) (5) is the left header plate (4)
The first tank part (6) is provided on the left side of the left side and the right side of the right header plate (4), and the first tank part (6) is the left first tank part (5).
The second tank section is provided on the left side of the lower half and on the right side of the lower half of the right first tank section (5). Of all the ten heat exchange tubes (2), both ends of the fluid passages (3) of the five heat exchange tubes (2) above the heat exchanger (1) are connected to the first tank section ( 5) Two fluid passages on both the front and rear sides of the three fluid passages (3) of the five heat exchange tubes (2) at the bottom of the heat exchanger (1) are opened in (5). 3a)
Both ends of (3a) are opened into the first tank part (5) (5), and the remaining central fluid passage (3b) is extended to both left and right sides of the heat exchange tube (2), and the first Tank part (5)
Projections (2a) (2a) penetrating through (5) are provided, respectively, and both ends of the remaining fluid passage (3b) are opened into the second tank parts (6) (6). Here, since the heat exchange tube (2) is made of an extruded aluminum material, by cutting off a portion of both the left and right ends of the extrusion material from the front and back sides, the heat exchange tube (2) is made to protrude from both the left and right sides of the heat exchange tube (2). The portions (2a) (2a) can be easily formed.

(7) is the first fluid inlet pipe connected to the upper end of the side surface of the first left tank section (5), and (8) is the first fluid discharge pipe connected to the upper end of the side surface of the first right tank section (5). tube, (9) is the second on the right
A second fluid introduction pipe connected to the lower surface of the tank part (6), (
10) is the second tank connected to the bottom of the second left tank part (6).
Fluid discharge pipes, (11) and (12) are upper and lower side plates fixed to both the upper and lower ends of the left and right header plates (4) (4), (13) are vertically adjacent heat exchange tubes (2) (2)
These are corrugated fins interposed between the fins and between the upper and lower side plates (11, 12) and the heat exchange tube body (2).

In the heat exchanger (1), for example, by using water as the first fluid and oil as the second fluid, one heat exchanger (1) can serve as two heat exchangers, a radiator and an oil cooler. can be accomplished. That is, from the first fluid introduction pipe (7) of the heat exchanger (1) to the left first tank part (
5) while introducing water into the second fluid introduction pipe (9).
The oil is introduced into the second right tank section (6) from there. here,
The water introduced into the first left tank section (5) is transferred to the heat exchanger (
1) All the fluid passages (3) of the five heat exchange tubes (2) at the top reach the first right tank section (5), and the five heat exchangers at the bottom of the heat exchanger (1) The right first passage passes through the front and rear fluid passages (3a) (3a) of the exchange pipe body (2), respectively.
The water reaches the tank part (5), during which time it is cooled by heat exchange with air through the pipe wall and corrugated fins (13), and the cooled water is discharged from the first fluid discharge pipe (8). . On the other hand, the oil introduced into the second right tank part (6) passes through the five heat exchange tubes (2) at the bottom of the heat exchanger (1) and into the fluid passage (3b) in the center of the second tank on the left. (6), during which the tube wall and corrugated fin (13)
It is cooled by exchanging heat with air through the air. Therefore, one heat exchanger (1) can serve as two types of heat exchangers: a radiator and an oil cooler.

Furthermore, when the heat exchanger (1) is used as a radiator, for example, if water is used as the first fluid and refrigerant from another heat exchanger (path shown in the figure) is used as the second fluid, the water is replaced by air. The water is cooled and also cooled by the refrigerant, so water can be rapidly cooled in a short period of time, greatly improving heat exchange efficiency and making it more compact.

In the above embodiment, the heat exchanger (1) is equipped with ten heat exchange tube bodies (2), but it is sufficient if the heat exchanger (1) is equipped with two or more. Also, each heat exchange tube (2) is provided with three fluid passages (3), which are 2I
It suffices if fJA or more is provided. An extruded aluminum material is used as the heat exchange tube (2), and the heat exchange tube (2) is, for example, a plurality of aluminum electric resistance welded tubes (as shown in the diagram) arranged horizontally in parallel for heat exchange. Pipe body (2
) are provided with protrusions (2a) (2a) at both ends, but by extending the second tank parts (6) (6), protrusions (2a) are provided at both ends of all heat exchange tubes (2). (2a) (2a
) may be provided.

Although the heat exchanger (1) in the above embodiment is made of aluminum, it may be made of other metals.

Further, although the illustrated heat exchanger (1) is of a so-called horizontal type, it can also be used as a vertical type heat exchanger by positioning the first and second tank parts (5, 6) one above the other.

Effects of the Invention As described above, the heat exchanger according to the present invention has a plurality of heat exchangers having parallel fluid passages (3) in a pair of left and right header plates (4) (4) arranged oppositely. Pipe body (2
) are held in parallel, and the left header plate (4)
A first tank part (5) is provided on the left side of the header plate (4) and on the right side of the right header plate (4).
A second tank part (6) is provided on the left side of the first tank part (5) and on the right side of the right first tank part (5), and one of the plurality of fluid passages (3) of the at least one heat exchange tube (2) is provided. Both ends of the fluid passage (3a) of the first tank part (5) are opened into the first tank part (5), and the remaining fluid passage (3b) is extended to both left and right sides of the heat exchange tube (2). First tank part (5) (
5) are respectively provided, and both ends of the remaining fluid passage (3b) are opened into the second tank part (6) (6). , two types of fluids can be made to flow through the heat exchange tube body (2) of one heat exchanger (1), and one heat exchanger (1
) can be used as two types of heat exchanger, or some kind of fluid flowing inside the heat exchange tube (2) can be used not only for the air outside the heat exchange tube (2) but also for the air outside the heat exchange tube (2). (2) It can exchange heat with other types of fluids flowing through it, greatly improving heat exchange efficiency, and is very compact, requiring less installation space. Moreover, compared to the conventional case where two separately manufactured heat exchangers are used, the manufacturing cost of the heat exchanger (1) is lower overall.

[Brief explanation of drawings]

The drawings show an embodiment of the present invention; FIG. 1 is a partially cutaway front view, FIG. 2 is a sectional view taken along the line ■-■ in FIG.
FIG. 3 is an enlarged perspective view of the main part, and FIG. 4 is an enlarged perspective view with a partial cutaway of the heat exchange tube. (1)...Heat exchanger, (2)...Heat exchange tube, (2
a) ... protrusion, (3) (3a) (3b) ...
・Fluid passage, (4)...Header plate, (5)・
...first tank part, (6)...second tank part. 4 people other than the above

Claims (1)

[Claims] A pair of left and right header plates (4) arranged oppositely
(4) A plurality of heat exchange tubes (2) having parallel fluid passages (3) are secured in parallel, and the left side of the left header plate (4) and the right side of the right header plate (4) are connected to each other. A first tank part (5) is provided on the right side, and a second tank part (6) is provided on the left side of the left first tank part (5) and the right side of the right first tank part (5), Both ends of some of the fluid passages (3a) of the plurality of fluid passages (3) of at least one heat exchange tube (2) are the first tank part (5).
(5) A protrusion (2a) that is opened in the heat exchange tube (2), extends the remaining fluid passage (3b) on both left and right sides of the heat exchange tube (2), and penetrates the first tank portion (5) (5). (2a), and both ends of the remaining fluid passages (3b) are opened into the second tank portions (6) (6).