JPS62153685A - Heat exchanger - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

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

In this specification, "front and rear" refers to the inlet side of the heat exchanger as the front, the opposite side to the rear, and "left and right" refers to the rear.

Conventional technology and its problems Conventional heat exchangers have upper and lower header tanks (31) and (32), and upper and lower header tanks (31) at both ends, respectively, as shown in Figure 2. A plurality of heat exchange tubes (33) are connected to the heat exchange tubes (32) and arranged in parallel in the left and right direction, two each in front and rear, and the inside of the l header tank (31) is connected to the front row of each heat exchange tube (33). There is a partition plate (36) that divides the front and rear spaces (34) and (35) into two spaces (34) and (35) in which the objects and the objects in the rear row communicate with each other.
4) Among (35), the heat transfer medium inlet pipe (37) provided in the upper header tank (31) so as to communicate with the rear space (35) and the front space (34) A heat transfer medium outlet pipe (38) provided in a header tank (31) is known.

The above-mentioned heat exchanger is intended to improve heat exchange efficiency by making the flow of air and, for example, the flow of water, which is a heat transfer medium, flow in opposite directions. By the way, in general, in order to improve the heat exchange efficiency in a heat exchanger, L3
In addition to making the flow of both fluids countercurrent as in 1, it is necessary to make the cross-sectional area and surface area of the heat exchange tube as large as possible in a limited space. To this end, it is conceivable to use one heat exchange tube instead of the two heat exchange tubes for each TJ11 in the left and right direction in the heat exchanger described above, but in that case, it is possible to make the flows of both fluids countercurrent. become unable.

The purpose of this invention is to provide a heat exchanger in which the flow of heat exchange fluid is countercurrent, and the cross-sectional area and surface area of the heat exchange tube can be made as large as possible within a limited space. It's about doing.

Means for Solving the Problems A heat exchanger according to the present invention includes a header tank having a header plate in which a plurality of through holes are formed in parallel at intervals in the left-right direction, a peripheral wall and It has a partition wall that crosses the hollow interior of the peripheral wall in the left and right direction,
The peripheral wall is connected to the peripheral edge of each through-hole with the end of the peripheral wall and the positive 11 protruding into the header tank, and a partition wall and a part of the peripheral wall connected to both left and right ends of the partition wall extend in the left-right direction. A plurality of heat exchange tubes provided with notches, and a partition plate inserted into the header tank with the edges fitted into each notch and partitioning the inside of the header tank into two spaces, front and rear. Of the two front and rear spaces, an inlet pipe installed in the header tank so as to communicate with the rear space, and an outlet pipe installed in the header tank so as to communicate with the front space. It is something that exists.

Example Hereinafter, an embodiment of the present invention will be described with reference to FIG.

Figure 1 shows the upper part of the heat exchanger according to the present invention, and the illustration of the lower header tank 01 is omitted, but the structure of the lower header tank is that of the conventional heat exchanger mentioned at the beginning. is the same as At J3 in FIG. 1, the direction of wind flow is indicated by an arrow (A).

The heat exchanger consists of a rectangular parallelepiped header tank (1
1) and 1. A plurality of vertically parallel heat exchange tubes (12) whose upper ends communicate with the header tank (11), and a partition plate (131 (14) dividing the interior of the header tank (11) into two spaces (131 (14), front and rear) 15), and two spaces in front and back (13) (
14), an inlet pipe (1G) installed in the header tank (11) so as to communicate with the rear space (14).
) and an outlet pipe (17) provided in the header tank (11) so as to communicate with the front space (13).

The header tank (11) consists of a tank body (18) with an inverted 1-shaped cross section and a header plate (19) provided at the lower edge of the tank body (18). The header plate (19) has an oval 01 hole (20
) are provided at intervals in the left-right direction. The heat exchange tube (12) has a flat circumferential wall (21) that is sized to fit into the through hole (20), and a partition wall (22) that crosses the inside of the wall in the left-right direction. (21
) (22) With the upper end (23) protruding into the header tank (11), the peripheral wall (21) is fitted into the through hole (20) and fixed to the peripheral edge thereof. Both walls (21
) (22) in the header tank (11).
3) is provided with a notch (24), which is connected to the partition wall (2).
2) and a part of the peripheral wall (21) connected to both ends thereof extends in the left-right direction. Although not shown in its entirety, the partition plate (15) is long in the left-right direction and has a length equal to the length in the left-right direction inside the header tank (11) and a height equal to the height inside the header tank (11). It is a vertical plate,
It is inserted into the header tank (11) with its lower edge fitted into each notch (24).

Now, to briefly explain the assembly procedure of the heat exchanger, first, make each through hole (20) in the header plate (19), and cut out (2) in the upper end (23) of each heat exchange tube (12).
4) are formed in advance, and each through hole (
20) and insert the heat exchange tube (12) into the upper end (23).
) to stand out. Next, cut out the notch (2) on the upper end (23).
4) Fit the lower edge of the partition plate (15) and cover the tank body (18) with the header plate (19) from above. Thereafter, the constituent members may be joined to each other by a well-known brazing method.

The fluid introduced into the heat exchanger through the inlet pipe (16) flows downward through the passage behind the partition wall (22) of the heat exchange pipe (12), turns around in the lower header tank, and then passes through the partition wall (22). 22), and this vertical flow is a counterflow to the air flow.

Effects of the Invention According to the present invention, two parallel fluid passages are formed by providing a partition wall inside one heat exchange tube. Compared to the case where the tube is formed with two heat exchange tubes, the heat exchange? It is possible to increase the cross-sectional area and surface area of Z, and since the opening is formed at the end of the heat exchange tube and the edge of the partition plate is inserted into this, the positioning of the partition plate is accurate. In addition, the partition plate can be easily assembled.

[Brief explanation of drawings]

FIG. 1 is a perspective view including a broken cross section showing an embodiment of the present invention, and FIG. 2 is a vertical sectional view not showing a conventional example. (11)... Header tank, (12)... Heat exchange tube, (13) (14)... Space, (15)... Partition plate, (16)... Inlet pipe, (17 )...Outlet pipe, (
19)...Header plate, (20)...Through hole,
(21)...peripheral wall, (22)...partition wall, (23)...
... End, (24) ... Notch. that's all

Claims (1)

[Claims] The header plate (19) has a header plate (19).
), a header tank (11) in which a plurality of through holes (20) are arranged in parallel at intervals in the left-right direction; The peripheral wall (21) has a peripheral edge of each through hole (20) with the peripheral wall (21) and the end (23) of the partition wall (22) protruding into the header tank (11). a plurality of heat exchange tubes connected to the partition wall (23) and provided with a partition wall (22) and a notch (24) extending in the left-right direction through a part of the peripheral wall (21) connected to both left and right ends of the partition wall (22); (12) is inserted into the header tank (11) with the edges fitted into each notch (24), and the inside of the header tank (11) is divided into two spaces (13) (front and rear) (
14) and an inlet pipe ( 16) and an outlet pipe (17) provided in the header tank (11) so as to communicate with the front space (13).