JPS5985366A - Soldering method - Google Patents

Abstract

PURPOSE:To perform surely brazing in the stage of brazing the 1st and 2nd members by positioning the 3rd member, which is embedded therein with a brazing material, to face oppositely to the 2nd member and heating the members to melt the brazing material. CONSTITUTION:The 3rd member 3 formed by embedding a required amt. of brazing material into a ring made of a heat resistant metal is positioned to face oppositely to the 2nd member 2, such as a pipe for a heat exchanger, at a prescribed space. The member 2 and the 1st member, such as a cylinder 1, are disposed in the brazing position and the members are heated to melt the brazing material. Then, a suitable amt. of the brazing material penetrates uniformly in the space between the member 1 and the member 2, and the brazing is accomplished surely.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a brazing method, for example in heat exchanger parts, and particularly to a brazing method for pasty solder goods.

Figure 1 is a diagram showing a conventional brazing method for heat exchanger parts, for example. In the first flash, (11 is the first member such as a cylinder, (21 is a second member such as a heat exchange pipe, which is inserted into a hole drilled in the cylinder). (3) is a wax M, 14+ are fins for heat exchange.

Here, when brazing the cylinder +11 and the heat exchange pipe (2), if the entire structure is configured as shown in Figure 1 and heated in a furnace, the brazing material (3) will melt and form the cylinder 11). The brazing material (3) enters the gap between the heat exchange pipe (2) and the heat exchange pipe (2). After this, when taken out from the furnace, the brazing filler metal (3) is cooled and solidified to form a cylinder Il+ and a heat exchange pipe +2.
1 //'i will be brazed.

However, in the conventional brazing method, the filler metal (3) is quantified in the inner cone, and furthermore, the brazing filler metal (3) is distributed evenly in the gap between the heat exchange pipe (2) and the cylinder +l+. A phenomenon that does not penetrate occurs. As a result, if there is too much brazing filler metal (3), it may flow to the bottom surface of the heat exchange pipe (21) during heating, get stuck in the surface tension, and break the hole in the heat exchange pipe (2). become.

Furthermore, if the amount of brazing filler metal (3) is too small, brazing has the disadvantage that the airtightness of the joint becomes poor.

This invention was made to eliminate the drawbacks of the conventional products as described above, and the brazing method is such that the third member faces the second member at a predetermined distance. By embedding the brazing filler metal in the third member so as to face the third member, and then heating and melting the filler metal, the amount of brazing filler metal necessary for brazing can be embedded in the third member. The purpose is to melt and allow a certain amount of wax to penetrate efficiently and uniformly.

An embodiment of the present invention is shown in FIGS. 2 and 3 below.

In the figure, (6) is a member of O8, which faces the heat exchange pipe (2), for example, and has the necessary amount of brazing material (3) for brazing.
) is a ring with a constant volume of embedding.
It is made of heat-resistant metal material.The manufacturing method is as shown in Figure 2, after fitting the hole of the ring (5) to the protrusion of the mold (6) made of Teflon, etc. Fill the solder metal (31) into the recess of the ring (6). Next, fill the wax
4 +31 Remove the completely dried and solidified barley from the mold (6) and process it into a wax vf+31 surface metal. After that, the ring (6) embedded with the brazing filler metal (3) is placed around the pipe 12) as shown in FIG. tt'
ll permeates into the gap between the cylinder +11 and the heat exchange pipe (2), allowing for accurate soldering.

In the above embodiment, the ring (5) is provided with a stepped portion as a recess into which the brazing material (3) is embedded, but as shown in FIG. 4, any shape of the recess has the same effect.

Also, a paste was used as the brazing material (3), but
Even if the solder material is solidified from the beginning, the shape of the recess can be processed into various shapes depending on the required amount of brazing material and the shape and size of the brazing material. Penetrates into the location without scattering. moreover,
The member to be brazed does not have to be tubular; for example, when it is flat, it can be brazed by providing it in a recess of a constant volume to be filled with the solder 54, instead of the ring 15).

As described above, according to the present invention, as a brazing method, the eleventh second member is placed in the brazing position, and the second
A member (O8) is formed, in which a brazing material is embedded so as to face the member (O) at a predetermined distance and facing the second member, and the brazing material is completely heated and melted, By using the method of brazing the second member, it is possible to efficiently and uniformly infiltrate a certain amount of wax to perform brazing.

[Brief explanation of drawings]

Fig. 1 is a sectional view of a heat exchanger component showing a conventional brazing method, and Fig. 2 shows a process of embedding a brazing material in a third member used in an embodiment of the present invention's brazing method. cross section,
FIG. 8 shows a brazing method according to an embodiment of the present invention.
The M view and FIG. 4 are partial sectional views showing other embodiments of the present invention. In the figure, Il+ indicates the member O1, (21 the second member, 13) the brazing material, and (5) the member O8. In addition, in the drawings, the same reference numerals indicate the same or different parts. Figure 1 Figure 2, ?

Claims (1)

[Claims] 11) A second member is placed at a brazing position, faces the second member at a predetermined distance, and a brazing material is embedded so as to face the second member. Brazing is a method in which a third member is formed, the brazing material is heated and melted, and the first and second members are brazed (-J). (2) The third member is ring-shaped. The scope of the patent Rf'l, which is characterized by a certain feature, is the method described in Paragraph 1.