JPH0827148B2 - Heat pipe manufacturing method - Google Patents

Description

TECHNICAL FIELD The present invention relates to a method for manufacturing a heat pipe.

2. Related Art and its Problems For example, as shown in FIG. 2, a high temperature fluid channel (12) and a low temperature fluid channel (13) are formed in a casing (10) through a partition wall (11). When assembling an exhaust heat recovery device in which a plurality of heat pipes with fins (14) are arranged so as to penetrate through the partition wall (11) so as to straddle both flow paths (12) and (13), it is conventionally necessary to use a plurality of heat sources. The required number of heat pipes (14) are manufactured by attaching working fluid injection nozzles to the pipe containers, injecting the working fluid into the injection nozzles or each container, and then sealing the injection nozzles. ) Were arranged in the casing (10) one by one. However, this method has a problem that the work for manufacturing the required number of heat pipes is troublesome.

An object of the present invention is to provide a heat pipe manufacturing method that solves the above problems.

Means for Solving the Problems In the method for manufacturing a heat pipe according to the present invention, a plurality of containers are connected to each other by a communication pipe at the lower end, a working fluid injection nozzle is attached to one container, This is to inject the working fluid into one container, spread this working fluid to all the containers through a communication pipe, and seal the injection nozzle.

Embodiments Embodiments of the present invention will be described below with reference to the drawings. In this embodiment, a heat pipe used in an exhaust heat recovery apparatus of a type in which a plurality of heat pipes are arranged in a casing as shown in FIG. 2 is manufactured.

In manufacturing a heat pipe, first, a plurality of containers (1) are prepared and arranged so that the axes of the containers (1) are parallel to the vertical direction. The container (1) has a tubular body (3) provided with fins (2) on its outer peripheral surface, and a tubular body (3).
End caps (4) that close the openings at both ends of the.

Next, the upper ends and the lower ends of the adjacent containers (1) are made to communicate with each other by communication pipes (5) and (6). In this work, communication pipe insertion holes (7) are formed in the end caps (4) at the upper and lower ends of each container (1), and substantially U-shaped communication pipes (5) (6) are formed in these holes (7). It is done by inserting the ends of and welding. The intervals between the vertical portions (5a) and (6a) of the communication pipes (5) and (6) are shown in FIG.
The heat pipes (14) arranged in (0) correspond to the intervals between adjacent ones. Then, by simply inserting both ends of the communication pipes (5) and (6) into the communication pipe insertion holes (7), the space between the plurality of heat pipes (14) in the completed exhaust heat recovery device becomes a predetermined size. It becomes possible.

Then, the working liquid injection nozzle (8) is attached to the end cap (4) at the upper end of one container (1). Then, the hydraulic fluid is injected from the hydraulic fluid injection nozzle (8) into the one container (1). The hydraulic fluid first enters the container (1) to which the nozzle (8) is attached, and then flows into the other container (1) through the lower communication pipe (6),
This spreads evenly over all containers (1). When a predetermined amount of hydraulic fluid has entered each container (1), the injection of hydraulic fluid is stopped.

Finally, all the containers (1) are heated to evaporate the working fluid inside and seal the nozzle (8) when the gaseous working fluid comes out of the nozzle (8). The gaseous working fluid generated in the container (1) other than the container (1) to which the nozzle (8) is attached is the upper communication pipe (5).
It goes through the inside of the container (1) to which the nozzle (8) is attached, and goes out from the nozzle (8). Thus
Multiple heat pipes (14) are manufactured at once.

Then, the communication pipes (5) and (6) are crushed in the middle or left as they are, and are installed in the casing (10) to form an exhaust heat recovery device.

The above-mentioned embodiment is to manufacture all the heat pipes for the exhaust heat recovery apparatus provided with a plurality of heat pipes at one time, but according to the method of the present invention, a plurality of heat pipes to be used alone are used. It can also be manufactured at once. In that case, the working liquid injection nozzle (8) sealing liquid, for example, the horizontal portions of the communication pipes (5) and (6) are crushed at two places, and the communication pipe is cut between the crushed places.

EFFECTS OF THE INVENTION In the method for manufacturing a heat pipe according to the present invention, a plurality of containers are connected to each other by a communication pipe at the lower end, a working fluid injection nozzle is attached to one container, and the containers are inserted into the above one container from the injection nozzle. The working fluid is injected, and this working fluid is distributed to all containers through the communication pipe, and the filling nozzle is sealed. A plurality of heat pipes can be manufactured all at once by the work, and the number of man-hours is reduced and the work is facilitated compared with the case of manufacturing the plurality of heat pipes by the conventional method.
In particular, since a plurality of containers are made to communicate with each other by a communication pipe at the lower end and the working fluid injection nozzle is attached to one container, the required amount from the injection nozzle can be set in one container equipped with the working fluid injection nozzle. By injecting the working fluid of (1), the working fluid can be evenly distributed to all the containers via the communication pipe. Therefore, the work of uniformly filling the working fluid in all the containers is simplified.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view showing a process of manufacturing a plurality of heat pipes by the method of the present invention, and FIG. 2 is a perspective view of an exhaust heat recovery apparatus having a plurality of heat pipes. (1) …… Container, (5) (6) …… Communication pipe, (8)
...... Hydraulic fluid injection nozzle.

Claims (1)

[Claims] 1. A plurality of containers are made to communicate with each other by a communication pipe at a lower end thereof, a working fluid injection nozzle is attached to one container, a working fluid is injected from the injection nozzle into the one container, and the operation is performed. A method for manufacturing a heat pipe, which comprises distributing the liquid to all the containers through a communicating pipe and sealing an injection nozzle.