JP2000507750A - Method for reflow soldering a printed wiring board on which SMD components are mounted - Google Patents

Abstract

  (57) [Summary] The present invention is a method for reflow soldering a printed wiring board on which an SMD component is mounted. Soldering to the printed wiring board in a step, then turning the printed wiring board upside down with the first side down, thus placing the SMD component on the soldering side of the second upper side, and then The SMD component is soldered to the printed wiring board in a second reflow soldering step, wherein the SMD component is mounted on the first surface of the printed wiring board on the first surface prior to the second reflow soldering step. The present invention relates to a method of fixing the surface. According to the present invention, after the first reflow soldering step, the adhesive is applied in-situ from the second side of the printed wiring board to the component soldered to the first side so that the adhesive can be applied to the first part of the printed wiring board. It is proposed to inject into the chamber between the first surface and the component through a respective opening extending from the first surface to the second surface.

Description

DETAILED DESCRIPTION OF THE INVENTION   Method for reflow soldering a printed wiring board on which SMD components are mounted   The invention relates to a method according to the preamble of claim 1.   Such a method is conventionally known, and SMD parts (SMD parts) are provided on both sides of a printed wiring board. MD = Surface Mounted Device (Surface Mounted Device) It is used in manufacturing printed wiring boards for mounting. E.g. European patent According to Japanese Patent Publication No. 419065, first, on a first surface of a printed wiring board, At the solder paste print station to install SMD parts. A method of printing a soldering surface at a scribed portion is known. Then glue Fix the SMD parts between the soldering points on the printed wiring board And then place it on the soldering surface and the adhesive with a placement machine. Attach SMD parts to be attached. You have to press the parts against the adhesive The mounting of the components, hindered by adhesive, is hindered. Adhesive is hard after installation And the printed wiring board is supplied to the reflow station. The solder applied to the first surface of the printed wiring board is melted by the Is soldered to the printed wiring board. After the first reflow stage, the printed wiring The board is printed with a new solder side, with its second side facing up, Then, the SMD component is mounted. When installation is completed on the second side, the printed wiring board is In addition, it is supplied to a reflow station. During the second reflow soldering phase, Both the solder on the second side and the solder on the lower first side are melted. At this time , The adhesive between the SMD component and the printed wiring board present on the first surface is applied to the first surface. SMD parts that have already been soldered to Prevents peeling from the printed wiring board during melting. This european patent In a method known from WO-A-419065, the adhesive is applied to a first resin. A disadvantage is that it is applied to the printed wiring board before the flow soldering step. Why According to this, the molten solder paste is fixed by the adhesive. Solder that has shrunk under the Because it is extruded from the paste. Such as "settling" It is soldered with SMD parts on a printed wiring board by a known action. May not be electrically connected to the connection surface, or may be insufficiently connected. You.   Thus, according to another method known from the prior art, the adhesive is first applied to the SMD part. First reflow soldering After the application, it is applied between the component and the printed wiring board. According to this method Since the adhesive is applied in the form of a ridge in the region of the side edges of the component, the adhesive is SM The edge of the D component is connected to the surface of the printed wiring board. In this case, the adhesive uses this During application, it reaches over the soldering surface, which contaminates and impures the soldering surface There is a disadvantage that it is done. In the subsequent second reflow soldering step, S The quality of the electrical connection between the MD component and the printed wiring board is deteriorated by the dirt. I'm sullen.   Advantages of the invention   On the other hand, in order to reflow weld a printed wiring board with SMD parts The method according to the invention with the features of claim 1 initially comprises the steps of: And at the same time, on the first side of the printed wiring board provided with the adhesive This has the advantage that dirt can be avoided. This is a simple form where the glue is After the first reflow welding, the second side of the printed wiring board which is still freely accessible From, through the opening provided for this, between the component and the printed wiring board This is achieved by being injected into the intermediate chamber. This allows for , Settling of the SMD parts, and also of the soldering point between the parts and the printed wiring board. The adverse effect of the adhesive on the conductive capacity is also avoided. For the method according to the invention Is a manufacturing machine and process There is no additional cost because there is no need to change the order significantly. Further, the mounting of the SMD component on the first surface of the printed wiring board is prevented by the adhesive. SMD parts can be mounted on the soldering surface without any problems. You.   To optimally meter the adhesive, apply the adhesive over the printed circuit board ( After turning it over), the connection surface of the SMD component is pushed by the injection needle introduced into the opening. It is particularly advantageous to inject directly into the room between the first surface of the lint wiring board and the first surface. is there.   Description of the embodiment   The method according to the invention is, for example, a method in which printed wiring boards are successively placed on a conveyor belt. This can be done on an automated manufacturing line passing through a station. Printed wiring board , A first surface and a second surface opposite to the first surface. SMD components are mounted on one surface. For mounting SMD parts Each opening on the first surface of the printed wiring board specified in And the opening extends from the first surface to a second surface of the printed wiring board. ing. The opening can be configured, for example, as a hole having a diameter of about 1 mm. . The method comprises the steps of providing a connection surface for SMD parts and a print with said openings on both sides. It begins with supplying the wiring board to the solder paste print station. this Solder paste prints A solder paste is applied to the connection surface of the first surface of the printed wiring board. . Next, the printed wiring board is supplied to the SMD mounting machine, and this mounting machine Then, the SMD component is placed on the soldering surface of the first surface. After installation, print The wiring board is supplied to a reflow soldering station, where a part applied to the first surface is applied. The product is soldered to the connection surface. Next, the printed wiring board is turned over and the adhesive Will be supplied to the station. At this glue station, the injection needle is The plate is introduced into the opening located on the part from the second upper surface, Adhesive causes the adhesive to flow between the first surface of the printed wiring board and the connection surface of the SMD component. Is injected into the room. In the method performed in this way, the adhesive is precisely Because it is metered, it does not flow out of the chamber between the component and the printed wiring board. Department The product is firmly attached to the printed wiring board by the drop adhesive individually applied to the center of the connection surface. By being adhered, the soldered surface located on the side edge is prevented from becoming dirty. Can be If necessary, glue is placed in the curing station behind the glue station Cured. However, the adhesive cured at the reflow station May be used. Printed wiring boards are newly supplied to the solder paste station And solder paste is applied on the connection surface of the second printed wiring board facing upward. Printed. Next, the second surface of the printed wiring board , SMD parts are mounted by the mounting machine and newly supplied to the reflow station Is done. During the second reflow soldering step performed in this manner, The soldered parts are soldered to the printed wiring board. At this time, the connection of the first side The solder of the component already soldered to the surface is newly melted, The adhesive drops between the SMD part and the printed wiring board cause the SMD part to Peeling from the lint wiring board is prevented. After the end of the second reflow phase, The component is soldered to the connection surface on both sides of the printed wiring board.

────────────────────────────────────────────────── ─── Continuation of front page    (72) Inventor Jens Zabotke             Germany D-31139 Hildes             Heim Lindholtz 14 (72) Inventor Frank-Dieter Hauschild             Federal Republic of Germany D-31135 Hildes             Heim Wackenstetter St             Larce 35 (72) Inventor Ansgar Grain             Federal Republic of Germany D-31199 Deek             Holzen Schutzenstrasse             37 (72) Inventor Corolla Balun             Federal Republic of Germany D-31199 Deek             Holzen-Warhausenweg             7

Claims (1)

[Claims] 1. Method for reflow soldering a printed wiring board with SMD components And placing the SMD component on the soldering surface of the first surface of the printed wiring board, In the first reflow soldering stage, solder the printed wiring board and then The wiring board is turned over so that its first surface is down, and thus it is located on top The SMD component is placed on the soldering surface of the second surface, and the SMD component is then mounted on the second soldering surface. Solder to the printed wiring board at the flow soldering stage, -Before the soldering step, on the first side, the SMD component is placed on the first side of the printed wiring board. In the method of fixing to the surface,     After the first reflow soldering step, apply the adhesive to the second side of the printed wiring board. Et al., Provided on the part soldered to the first surface, on the spot, and The first surface and the component are connected to each other through one opening extending from the first surface to the second surface. A printed wiring board equipped with SMD parts, characterized by being injected into a room between Method for reflow soldering. 2. After the printed wiring board is turned over, the injection needle introduced into the opening The adhesive is applied directly into the room between the connection surface of the SMD component and the first surface of the printed wiring board. 2. The method of claim 1, wherein the injection is performed.