DE202015102120U1 - Waveformer for wave soldering printed circuit boards - Google Patents

Abstract

Waveformer (1) for wave soldering of printed circuit boards, comprising - a first and a second row (10, 20) formed as a slot Lotaustrittsöffnungen (11, 21), wherein the alignment of the rows (10, 20) at an angle (3) with respect to a Conveying direction (2) of the printed circuit boards, and wherein the angle (3) of the first and second rows (10, 20) has an opposite to the conveying direction (2) opposite orientation, - in the conveying direction (2) above the first and second row ( 10, 20) arranged third row (30) of Lotaustrittsöffnungen (31) in the manner of an isosceles triangle having a in the conveying direction (2) pointing tip, and the tip of the opposite leg is missing, characterized in that in the conveying direction (2) above the third row (30) is arranged a fourth row (40) of formed as a slot Lotablauföffnungen (41) which are aligned perpendicular to the conveying direction (2).

Description

The invention relates to a Wellenformer for wave soldering printed circuit boards.

Waveformers are used in systems for wave soldering printed circuit boards. They often have a board-like shape and have a plurality of Lotaustrittsöffnungen through which liquid solder is pumped against a circuit board located above it. The solder material fills the gap between the circuit board and the Wellenformer, whereby the electronic components, which are located on the circuit board, in particular their contact structures, as well as their associated solder joints on the circuit board, are wetted with solder and lapped, creating a reliable electrical Make connection between the contact structures and their associated solder joints. The circuit board is thereby moved in a linear movement over the Wellenformer away. The liquid solder moves from the solder exit opening toward the edge of the waveguide and travels over this edge back into a collecting basin for the liquid solder. Due to a suitable inclination of the waveguide, the solder flows preferentially or completely against the conveying direction of the printed circuit boards from the waveshaper. The angle of inclination is usually chosen between 5 ° and 10 °, for example to 7 °.

There are a variety of arrangements of the solder outlets in waveguides of the prior art. For example, it is known to design the solder outlet openings as mutually offset rows of holes. Another arrangement, for example, in the Scriptures DE 10 2006 053 801 A1 discloses two or more rows of Lotaustrittsöffnungen before, within a row, the Lotaustrittsöffnungen are designed in the form of slots, which are aligned at an angle to the conveying direction. The orientation of the elongated holes relative to the conveying direction changes from row to row, so that a zigzag arrangement of the elongated holes is formed. In the conveying direction above the rows of slots is provided a final series of Lotaustrittsöffnungen formed in the form of a triangle with a tip facing in the conveying direction, wherein the tip of the opposite leg of the triangle is missing. The intended benefits to be realized with this arrangement of Lotaustrittsöffnungen are described in detail in the named document. Its content is intended to be incorporated by reference into the disclosure of this application.

When using a Wellenformers according to the aforementioned document regularly occurs the problem that, in particular for narrow rows of contact, which are perpendicular to the conveying direction, an increased probability of the formation of solder bridges is observed.

It is therefore the object of the present invention to achieve an improvement of the waveshaper described in the aforementioned document, with which the formation of solder bridges is reduced.

This object is achieved by the waveshaper described in claim 1. Preferred embodiments of the waveshaper according to the invention are described in the dependent claims.

An inventive waveguide for wave soldering of printed circuit boards comprises a first and a second series of elongated solder holes, wherein the orientation of the rows at an angle to a conveying direction of the printed circuit boards, and wherein the angle of the first and second row has opposite to the conveying direction orientation , The wave shaper furthermore comprises a third row of solder outlet openings arranged in the conveying direction above the first and second rows, wherein the solder outlet openings are designed in the manner of an isosceles triangle which has a tip pointing in the conveying direction and whose thigh opposite the tip is missing. In the conveying direction above the third row, a fourth row of elongate hole formed Lotablauföffnungen is arranged, which are aligned perpendicular to the conveying direction. By these Lotablauföffnungen a particularly sudden and rapid flow of the solder and thus a reliable tearing off of the solder film is effected, which counteracts the formation of solder bridges. The rows are aligned substantially perpendicular to the conveying direction.

In a preferred embodiment of the waveguide according to the invention, a distance of more than 25 mm is provided between the third row and the fourth row. This distance is greater than the distance of the third row from the arranged in the conveying direction above the third row edge of a wave shaper according to the prior art. In this area, the solder may accumulate before it flows over the drain opening. More preferably, a distance of 30 mm is provided between the third row and the fourth row, which achieves the best results in terms of formation of solder bridges.

The Lotablauföffnungen are advantageously arranged such that they have a distance of less than 2 mm from each other. As a result, only narrow bridges are located between the oblong holes, so that almost a continuous flow channel is formed. The width of these bridges can be so small and the distance between adjacent bridges can be chosen so large that just a sufficient mechanical stability of the Wellenformers can be guaranteed.

The solder outlet openings of the third row have, in one embodiment according to the invention, a tip formed as a circle segment. In a further embodiment, the tip of the Lotaustrittsöffnungen the third row is formed as a linear, aligned perpendicular to the conveying direction section.

The angle formed by the outlet openings of the first and second rows with respect to the conveying direction of the printed circuit board is preferably selected in a range between 40 ° and 50 °, wherein a value of 45 ° is particularly preferred. This range ensures a uniform, laterally directed and all-round flushing of the solder joints on the circuit board.

The legs of the triangle, which represents the shape of the Lotaustrittsöffnungen the third row, have in an advantageous embodiment of the Wellenformers the same angle with respect to the conveying direction as the first and second row.

Optionally, the wave shaper according to the invention has, between the first and second row, a fifth row of solder outlet openings designed as elongated holes, the solder outlet openings being arranged perpendicular to the conveying direction.

Preferably, the distance of the Lotaustrittsöffnungen within the series decreases in the conveying direction from row to row, so that the circuit board is initially flushed away during the movement across the Wellenformer from Lotaustrittsöffnungen with a relatively low density, resulting in a delayed heating of the contact structures and thus to a thermal discharge of the electronic components on the circuit board during the wave soldering leads.

In the following the invention is illustrated by means of figures, of which

1 a first embodiment according to the invention of a Wellenformers and

2 shows a second embodiment of a Wellenformers invention.

In 1 is a waveshaper 1 shown how it can be used as part of a wave soldering machine. The waveshaper 1 has a planar surface, are provided in the arranged in rows Lotaustrittsöffnungen. A first row 10 of solder vents 11 is here in the conveying direction 2 a printed circuit board, not shown, in front of a second row 20 of solder vents 21 , and this in turn in front of a third row 30 of solder vents 31 arranged. Behind the third row 30 of solder vents 31 is spaced a fourth row of Lotablauföffnungen 41 arranged in the immediate vicinity of an edge 60 of the waveshaper 1 located.

The Lotaustrittsöffnungen 11 the first row 10 and the solder outlets 21 The second row are each formed as opposed to the conveying direction angled arranged slots, the orientation of the slots of the rows is opposite to the conveying direction at the same angular amount, so that a zigzag-shaped design of Lotaustrittsöffnungen 11 . 21 results. The solder outlet openings are preferred 11 the first row 10 further apart than the solder outlets 21 the second row 20 , The angle 3 the slots against the conveying direction 2 can be chosen in a range between 40 ° and 50 °, with a value of 45 ° being preferred. The Lotaustrittsöffnungen 11 . 21 . 31 can become perpendicular to the waveshaper 1 extend into it, so that the solder flows perpendicular to a circuit board located above it, or obliquely in any direction, which leads to a corresponding oblique flow of the circuit board. The vertical or oblique orientation may vary from row to row.

The Lotaustrittsöffnungen 31 the third row 30 have the shape of an isosceles triangle, with the apex of the triangle in the conveying direction 2 points and the tip opposite leg is missing. In the in 1 As shown, the tip has a rectilinear portion whose length is shorter than the leg length.

In the conveying direction above the third row 30 points the waveshaper 1 continue a fourth row 40 from Lotablauföffnungen 41 on. These are as to the conveying direction 2 formed vertically arranged slots, with adjacent slots are preferably spaced less than 2mm apart. The width of the slots is chosen so that a complete outflow of the in the conveying direction 2 flowing Lotanteils through the Lotablauföffnungen 41 is ensured, and no solder over the adjoining edge 60 of the waveshaper 1 expires. By this measure, an effective tearing of the solder film from the contact points of the circuit board in the fourth row 40 achieved, which has the desired avoidance of solder bridges result. This breakaway behavior is further improved by being between the third row 30 and the fourth row 40 a distance of more than 25mm, preferably a distance of 30mm is maintained, so that the flow conditions in the Lotfilm, which in the range the third row 30 are still turbulent until reaching the fourth row 40 calmed down.

An alternative embodiment of a waveshaper according to the invention 1 is in 2 shown. In this embodiment is compared to the embodiment according to 1 a fifth row 50 of solder vents 51 added that between the first row 10 and the second row 20 is arranged. The Lotaustrittsöffnungen 51 the fifth row 50 are also formed as slots, which are perpendicular to the conveying direction 2 are arranged. Further rows of solder outlets may also be provided above or below the mentioned rows of solder outlets.

In addition, but not only in combination with the additional fifth row 50 conceivable, is the top of the triangle of solder vents 31 the third row 30 as a circle segment, here as a semicircle, shaped. At the same time, but independent of the design of the tip, the legs are at the same angle to the conveying direction 2 aligned like the solder outlets 11 . 12 the first row 10 and the second row 20 as indicated by the straight lines I, II.

The conceivable designs of the waveshaper according to the invention are not limited to the embodiments shown, but any combination of features of said waveshaper or expert modifications thereof are also conceivable and to be covered by the following claims.

LIST OF REFERENCE NUMBERS

1

 wave shaper

2

 conveying direction

3

 angle

10, 20, 30

 line

11, 21, 31

 Lotaustrittsöffnung

40, 50

 line

41

 Lotablauföffnung

60

 edge

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102006053801 A1 [0003]

Claims (9)

Waveshaper ( 1 ) for wave soldering printed circuit boards, comprising - a first and a second row ( 10 . 20 ) designed as a slot solder outlets ( 11 . 21 ), whereby the orientation of the rows ( 10 . 20 ) an angle ( 3 ) in relation to a conveying direction ( 2 ) of the circuit boards, and wherein the angle ( 3 ) of the first and second series ( 10 . 20 ) one opposite the conveying direction ( 2 ) has opposite orientation, - one in the conveying direction ( 2 ) above the first and second rows ( 10 . 20 ) arranged third row ( 30 ) of solder vents ( 31 ) in the manner of an isosceles triangle, one in the conveying direction ( 2 ) pointing tip, and the tip of the opposite leg is missing, characterized in that in the conveying direction ( 2 ) above the third row ( 30 ) a fourth row ( 40 ) formed as a slot Lotablauföffnungen ( 41 ) is arranged perpendicular to the conveying direction ( 2 ) are aligned. Waveformer according to claim 1, wherein the fourth row ( 40 ) a distance from the third row ( 30 ) which is larger than 25mm. A waveguide according to claim 2, wherein the distance is equal to 30mm. Waveformer according to one of the preceding claims, wherein the Lotablauföffnungen ( 41 ) have a distance of less than 2 mm from each other. Wave former according to one of the preceding claims, wherein the solder outlet openings ( 31 ) of the third row ( 30 ) have a trained as a circle segment tip. Wave former according to one of the preceding claims, wherein the solder outlet openings ( 31 ) of the third row ( 30 ) as a linear, perpendicular to the conveying direction ( 2 ) aligned portion formed tip. Wave former according to one of the preceding claims, wherein both legs of the triangle have the same angle with respect to the conveying direction ( 2 ) like the first and second series ( 10 . 20 ). Waveformer according to one of the preceding claims, wherein the angle ( 3 ) has a value of 40 ° to 50 °, in particular a value of 45 °. Waveformer according to one of the preceding claims, wherein between the first and second series ( 10 . 20 ) a fifth row ( 50 ) is designed as a slot formed Lotaustrittsöffnungen perpendicular to the conveying direction ( 2 ) are aligned.

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