JPH0429394A - Soldering method for circuit board - Google Patents

Abstract

PURPOSE:To simplify a soldering step by coating part to be soldered of a substrate surface with cream solder, and solder dipping the rear surface of the substrate. CONSTITUTION:Electrodes 10, 14 to be soldered on a substrate 5 are coated with cream solder 9a. Thereafter, when the rear surface of the substrate 5 is dipped in a melted solder of a dipping tank to dip the solder, solder 9 is fusion-bonded to electrodes 8, 15 to connect the terminal pin 7 of a capacitor 2 to the electrode 8 and one side 12 of a jumper lead 4 to the electrode 15. In this case, the solder 9a of the substrate is melted by the heat of the melted solder, and cured to fusion-bond to connect fixedly the electrode 14 to the other side 12 of the lead 4 and the electrode 10 to the terminal 11 of an IC 3 with cream solder 9a. Thus, the rear surface of the substrate 5 is solder dipped, and the solder 9a of the substrate 5 is simultaneously fusion-bonded to delete a step of passing the substrate 5 through a heating furnace.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for soldering a circuit board, and particularly to a method for soldering a circuit board that simplifies the soldering process.

[Prior Art] In the conventional method of soldering a circuit board, when soldering the front and back sides of the board, cream solder is first applied to the parts to be soldered on the front surface of the board, and then the board is placed in a heating furnace. The cream solder is welded by passing through the solder, and solder reflow is performed. Thereafter, the back side of the board was immersed in molten solder in a dip bath, and the molten solder was welded to the soldering locations on the back side of the board, thereby applying a solder dip.

[Problems to be Solved by the Invention] As mentioned above, the conventional soldering method when forming a circuit board by soldering both the front and back sides of a board is to solder in the solder reflow and solder dip processes. This makes assembly of circuit boards complicated and reduces productivity.

Furthermore, since the heat treatment of the board requires two steps, this causes deterioration in the quality and function of the board, mounting parts, chip parts, etc. mounted on the board.

Therefore, a technical problem has arisen that must be solved in order to simplify the soldering process of circuit boards, improve productivity, and prevent the quality of the circuit boards from deteriorating.
The present invention aims to solve this problem.

[Means for Solving the Problems] The present invention has been proposed to achieve the above object, and in a circuit board formed by applying solder to the front and back surfaces of the board, it is possible to reduce the amount of solder on the surface of the board. It is an object of the present invention to provide a method for soldering a circuit board, which is characterized by applying cream solder to the part to be soldered and applying a solder dip to the back surface of the board.

[Operation 1] In this invention, cream solder is applied to the part of the surface of the board to be soldered, and the back surface of the board is immersed in molten solder in a dip tank to apply a solder dip.

In such a case, the cream solder is welded to the surface of the board by the heat of the molten solder, making it possible to solder both the front and back sides of the board.

[Embodiment] Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 3 of the attached drawings. In this embodiment, a method for soldering a capacitor, a jumper lead wire, and an IC to a circuit board will be exemplified.

In the figure, (1) is a circuit board, and as shown in Figure 1, the circuit board (1) has a capacitor (2), an IC (3)
, jumper lead wire (4) is attached. The capacitor (2) is made by pushing the terminal pins (7) (7) through the holes (6) (6) of the resin board (5), and by using a circuit pattern (not shown) provided on the back side of the board (5). ) electrode (8) (8)
The terminal pin (η) is connected to the circuit pattern on the back side by soldering (Q) (9).
) are terminals (11)01) and 10) of the circuit pattern (not shown) provided on the surface of the substrate (5).
. . are connected with solder (9a), (9i), . . . to be electrically connected to the circuit pattern on the surface.

The jumper lead wire (4) is bent at both sides (+, > (2) and pushed through the hole 0 → (! →) of the board (5). Lead wire (4)
are connected to the electrodes of the circuit pattern on the front side of the board (5) with solder (9a), and are connected to the electrodes θ of the circuit pattern on the back side of the board (5) with solder (9). The circuit pattern on the front side of the board (5) and the circuit pattern on the back side are electrically connected.The circuit pattern on the board (5) is covered with a solder resist (not shown), and the circuit pattern on the front side of the board (5) is covered with solder resist (not shown).
), (IOXIO)...H, (+'fl only is exposed.

On the other hand, as shown in Figure 2, the capacitor (2), IC (3), and jumper lead wire (4) are first attached to the board (
5) At the predetermined positions of the capacitor (2), IC (3),
Mount the jumper lead wire (4), and then apply cream solder to the top surface of the board (5) where it will be soldered, namely the electrodes (10), (10), etc., as shown in Figure 3. (9a) (9a)... After that, the back side of the board (5) is immersed in molten solder in a dip tank (not shown) and a solder dip is applied. Electrodes (8) (8), (Solder to F9 (9) (9)...
is welded to the terminal pin (η) of the capacitor (2) to the electrode (8) (8), and the jumper lead wire (4) is welded to the electrode (θ).
- side (I, 1 are connected and fixed respectively. At this time,
Cream solder (9!) (91) on the surface of the board (5)
... are melted and hardened by the heat of the molten solder in the solder dip tank, and the electrodes (b) and jumper lead wires (4) are bonded to each other.
Other side part (b) and electrode 0ΦOn)... and IC (3)
Terminal Q 9 Q Q... and the cream solder (9
a) (9s)... are welded and connected and fixed.

Note that this invention can be modified in various ways without departing from the spirit of the invention, and it goes without saying that this invention extends to such modifications.

[Effects of the Invention] As described in detail in Section 1-Examples, the present invention applies a solder dip to the back surface of the substrate and at the same time uses the heat of the solder dip to weld the cream solder applied to the surface of the substrate. The process of passing the substrate through a heating furnace can be reduced.

Therefore, the process of soldering the circuit board is simplified, contributing to improved productivity and cost reduction.

Furthermore, since the board is heat-treated once instead of twice in the past, this invention has significant effects, such as being able to prevent deterioration in the quality and functionality of the board and mounted parts.

[Brief explanation of drawings]

The figures show one embodiment of the present invention, in which Fig. 1 is a vertical cross-sectional view of a circuit board, Fig. 2 is a longitudinal cross-sectional view showing a state in which components are mounted on the board, and Fig. 3 is a vertical cross-sectional view showing a state in which components are mounted on the board. It is a longitudinal cross-sectional view showing a state.

Claims (1)

[Claims] Soldering of a circuit board, which is formed by applying soldering to the front and back sides of the board, characterized in that cream solder is applied to the part to be soldered on the front side of the board, and a solder dip is applied to the back side of the board. Attachment method.