JPS58501506A - Sheet metal soldering type - 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] Sheet metal - soldering is a mold The present invention is formed by cutting and bending a metal plate, and the inside is closed or is a quadrilateral work surface with an opening on the inside in order to solder the workpiece from the entire surface. , holding and energizing bars provided on two opposite sides of said work surface, and said work surface. The soldering mold has reinforcing strips extending vertically from the other two opposing sides of the mold. related.

This type of soldering is known in the mold (West German Patent Publication No. 2818958). , each reinforcing piece extends around the corner of the work surface and attaches the cut solder mold metal plate to the Needs to be stamped.

An object of the present invention is to form a soldering mold without requiring stamping.

According to the invention, such an objective is to place the outermost edge of each reinforcing piece on the surface of said reinforcing piece and to This is achieved by directing it towards the holding and energizing bar.

In this way, the cut metal plate is simply bent and soldered into a mold. .

Details of the invention will be explained below with reference to the drawings.

Fig. 1 shows a first embodiment of the present invention; Fig. 2 shows a second embodiment of the invention. Figure: Figure 3 shows the soldering plate shown in Figure 2 which has been cut to form the mold. ; Figure 4 is a perspective view of a part of the soldering mold and also shows the temperature distribution; Figure 5 is a partial perspective view of a solder mold with a welded body; Figure 6 is a partial perspective view of a solder mold with a welded body; A perspective view showing; Figure 7 is a cross-sectional view of a soldered mold with a welded body; Figure 8 is a cross-sectional view of a soldered mold with a welded body; A partial perspective view of; Fig. 9 is a sectional view of a soldering mold according to another embodiment; Fig. 10 is a cross-sectional view taken along the line X-X of Fig. 9. Cross-sectional views; and Figures 11 to 13 are plan views of soldered molds showing current paths. Ru.

The soldering mold shown in Figure 1 consists of a working surface (1), two horizontal bars (2), and a working surface (1). ) and a reinforcing piece (4) extending from the bar (2). . The free edges (5) of the reinforcing pieces (3, 4) provide a defined temperature distribution on the working surface (1) Therefore, it can be formed. Make sure that the angle between the work surface (1) and the reinforcing pieces (3, 4) is A notch (8) is provided for heating. Also, holes ( 6) may be provided to influence the electrical or thermal resistance.

The terminal edges (7) of the reinforcing pieces (3) and (4) form an angle of 45° to the working surface (1). The edges (7) are welded together.

In this way, a working surface with relatively low current requirements is created.

The soldering mold shown in Figure 2 has an annular square working surface (9) and is bent to stand upright. It has a reinforcing piece (10) and bars (11, 12). Opening in the working plane ( 13) is formed to fit around the workpiece. In this way, The soldering shown in the figure can be done from any side of the workpiece using a mold. It becomes possible.

The soldering shown in Figure 2 and the metal plate cut to form the mold are shown in Figure 3. ing. The bars (11, 12> and the reinforcement ha (10) are placed along the folding line (13). bent vertically.

The edges may be shaped as shown by the broken line (14) to produce a predetermined temperature distribution. . The bars (11) and/or (12) are provided with holes (15) to influence the current. You can also make it disappear.

A cutout (16) (shown only in the upper right corner for simplicity) allows current to pass through the corner. to heat the angle.

Figure 4 shows a part of the mold with soldering, and shows a bar (11a).

111)) have different widths in the longitudinal direction. At the top left of Figure 4 is the work surface (9). Temperature distribution is shown. By making the bar (11a) wider toward the upper end, Therefore, the temperature of the blade section (9) of the working surface is lower at both ends than at the center.

Figure 5 shows a part of the mold with soldering, where the profile (17) is a bar <11b, 12b). This configuration cools the bar, which serves as the work surface. (9) This will have an effect on the temperature.

Figure 7 shows a cross-sectional view of the soldering mold, with the copper body (19) melted onto the work surface. being touched.

For soldering, the temperature distribution of the work surface is shown directly below the mold. From the temperature distribution, this It is understood that the temperature of the area where the body (19) is located is low. The main body (19) is It dissipates an amount of heat of 111 [1 Flv and short-circuits the current.

FIG. 8 does not show the soldering mold according to another embodiment. The feature of this embodiment is that the work surface ( A bar <20) is further provided in the center of the bar <9>. This bar (20 ) are wide and flared towards the top to influence the temperature distribution. outside bar - (11c) are interconnected at their upper ends to increase stability.

It is also possible to connect several bars to each other (Figures 9 and 10). Therefore, the current is passed AC through one bar to the work surface and then through the other bar. Constructed so that it flows away from the work surface. As shown in Figure 10, current flows out. The bar is bent outward so that it can be connected to the power supply wiring.

Figure 11 shows a single current generator installed to supply current to the work surface shown in Figure 3. This shows an example in which

Electricity i (I and exits the work surface through the other two corners. The wing part (9a) is the wing part (9b ) The temperature of all blades is the same by making them narrower.

Figure 12 shows a configuration in which all the blades forming the working surface have the same cross-sectional area. There is. As shown in Figure 12, two current generators are provided to energize the work surface. It's becoming a sea urchin. Two adjacent wings are bent to stand upright from the work surface. A thermoelectric element located on the reinforcing piece is provided to regulate the temperature. .

FIG. 13 is a plan view of the working surface, and the current from the two current generators is shown in FIG. 12. flows along a different path.

Engraving ((Jg yong (yu change same 1 Figure 2 Figure 3 Figure 8 1 Figure 9 Figure 10 Procedural amendment (Expo T month 6, 1981 Commissioner of the Patent Office 1. Display of thing q　PCT/EP　ε2. Name of '0020724 B■ Sheet metal Date of order: June 7, 1981 (shipment date) C1 Number of inventions increased by amendment 7. Target of amendment Translation of drawings 8. Contents of amendment: Engraving of the translation of the drawing (no change in content) Qas*lfi+,= stone t

Claims (1)

[Claims] 1) Formed by cutting and bending a metal plate, the inside is closed or covered. A quadrilateral work surface with an opening on the inside for soldering from the entire surface of the workpiece; holding and energizing bars provided on two opposite sides of the work surface; In the mold, a soldering piece having a reinforcing piece extending substantially perpendicularly from the opposite side of the The outermost edge (7) of the reinforcing piece (3, 10) is located on the surface of the reinforcing piece, and the bar (2: The soldering type is characterized by being oriented in the direction of 11°12). 2) Claim in which the terminal edge (7) terminates in a corner area of the working surface (1:9) The soldering described in item 1 is a mold. 3) said bars (2) are provided on two opposite sides of said work surface (1) to carry out said work; The bar (2) extends to the corner of the surface (1), and the bar (2) is rectangular; Claim 1, wherein the dimension of the working surface (1) is larger than the dimension in the direction orthogonal thereto. Or the soldering described in item 2 is a mold. 4) A reinforcing piece (4) bent so that the bar <2> extends substantially perpendicular to the surface of the bar. ) is a soldering mold according to claim 3. 5) The reinforcing piece (3) of the working surface (1) and the reinforcing piece (3) of the bar (2) ) with a line (7) extending at an angle of 45°. The one with a dash is the type. 6) The reinforcing pieces (3, 4) are welded together along the line (7). The soldering described in Range 5 is a mold. 7) The working surface has an opening on the inside, and rectangular bars (11 , 12) are arranged, and one bar (11) is seamlessly connected to the reinforcing piece (10). The other bar (12) is bent from the working surface (9), and the other bar (12) is bent from the working surface (9). - (12), a reinforcing piece (10) is seamlessly connected between the two, and the reinforcing piece wraps around the work piece. The soldering described in the enclosed claims 1 or 2 is a mold. 8) If the edge (5°14) of said reinforcing piece, bar and/or working surface is inside or outside It forms a tongue-like projection (20) that curves to the side and increases and decreases in width toward the outside, and maintains a predetermined temperature. Soldering according to any one of claims 1 to 7 constituting a degree distribution is a type. 9) Between the reinforcing pieces (3) and (4>) or between the reinforcing piece (10) and the A claim in which a notch is preferably formed at an angle of 45° between the bar (11) and the bar (11). The soldering described in item 8 is a mold. 10) for said reinforcing pieces, bars and/or working surfaces to constitute a predetermined temperature distribution; A soldering mold according to any one of claims 1 to 7, having holes (6, 15). 11) At least one body (11; 18, 19) is arranged in the soldering mold. to increase mechanical stability as well as influence current and heat flow, The soldering body is made of a material having higher conductivity than the material of the mold, such as copper. the main body has an elongated shape with a linear or rectangular cross section, and the longitudinal axis is The inner part of the bar or reinforcement piece is parallel to the longitudinal axis of the bar or reinforcement piece. on the side or outside, or on the inside of said working surface (9), in contact with or away from said working surface. The hardware according to any one of claims 1 to 10, which is fixed as The one with a dash is the type. 12) A plurality of bars (IIC) on one side of the working surface (9) are connected to each other at the upper end. and a connected bar (11C) with another bar (20) in the dark The soldering described in any one of the ranges 1 to 11 is a mold. 13) The bars (11, 12) located diagonally on the work surface are connected in parallel. Claims: 1. A first lance having one current generator; Of the wing parts forming the working surface, two opposing wing parts (9b) are energized, and the other one is energized. When the flow generator energizes the other two opposing blades (9a), the current is Flowing from end to end of the corner of the surface or crossing each other at the corner of claim 7 The soldering described in any one of Item 12 above is a mold. 15) Having four current generators, e.g. a transformer with four taps, each current A generator generates electricity by energizing at least one wing forming said working surface. Claims in which the flow flows from one corner of the working surface to the other or crosses each other at a corner. The soldering described in any one of Items 7 to 12 is a mold. 16) A thermoelectric element for regulating the temperature of the working surface is disposed on the reinforcing piece of the working surface. The soldering according to any one of claims 1 to 15 is a mold.