FR2604590A2 - Method and device for cleaning and drying printed electronic circuits - Google Patents

Abstract

The addition relates to the cleaning of electronic circuits constituted by electronic components, which are soldered (bonded) in a known manner onto printed circuits carried by a board 10. The injector 31 projects, under high pressure, a thin liquid curtain 2 which, when it impacts on the board 10, is split into two very thin liquid layers (arrows 16 and 17). The injector 31 is set into a to-and-fro sweeping movement (double arrow 33). It is oriented longitudinally. Application: elimination of scrap arising in production by the residual presence of impurities beneath the electronic constituents.

Description

 The present addition relates to improvements made to the process and to the device described in the main patent, for cleaning and drying printed electronic circuits. It relates more particularly to improvements to the subject-matter of claims 1 to 4 of the main patent.

Indeed, we note that - on the one hand, a fixed orientation of the fluid curtain compared
port to the electronic components of the integrated circuit can
reveal cleaning faults known as
name shadow effect "- on the other hand, it happens that two cleaning stations conti
gus project jets of contaminated fluid likely
to interfere from one station to another, so that both pos
your can pollute each other.

 The purpose of the addition is to avoid these drawbacks by improving the arrangement of the injectors projecting fluid curtains.

 According to the addition, at least one of the injectors is driven by an alternating sweeping movement, which makes it possible to.

remove dead zones that could result from a shadow effect.

 The appended drawing, given by way of nonlimiting example, will allow a better understanding of the addition and the advantages which it is likely to provide.

 Figure 1 shows washing jets oriented longitudinally in two successive cleaning stations.

 Figure 2 illustrates the case where an injector is driven by an alternating sweeping movement.

 Figure 3. shows two injectors orthogonal to each other, one arranged transversely, the other in the longitudinal direction.

 The same references have been used in the drawings as in the main patent to designate the elements which correspond.

 In the example illustrated in Figures 1 and 2 we see that the washing jets 2 are oriented longitudinally, that is to say parallel to the direction of advance 5 of the cards 10 and the conveyor 26 which carries them. Thus, the projections 16 and 17 of the polluted liquid which spring back, are directed sideways, towards the outside. This ensures that the polluted fluid 16, 17 from a cleaning station 27 does not pollute the rooms of a neighboring station 28 and vice versa (phenomenon known as "cross-contaminationtl"). This also makes it possible to reduce the dimensions of the machine.

 Finally each jet 2, 19, 25 can be fixed or animated by an alternating scanning movement (double arrow 33), in which case the jet is said to be "scanning jet".

 Good results are also obtained by using two jets 29, 30 projected by nozzles 31 and 32 orthogonal to one another (FIG. 3). The most upstream nozzle 31 is parallel to the direction of movement 5 and is driven by the sweeping movement shown diagrammatically by the double transverse arrow 33.

By cons, the nozzle 32 is fixed, oriented transversely to the direction 5 of movement.

To clarify, it is possible to use a complementary technique for implementing fluid curtains with high kinetic energy in order to improve the quality of washing and drying of printed circuits comprising conventional components such as resistance, capacity, integrated circuit, LSI.
(large scale integration), VLSI (very large scale integration) etc ... or components such as semi-standard integrated circuits, integrated circuits with specific application with programmable logic (PAL), on demand (full custom) or semi -specific precharacterized (standard cells) and prediffused (gate arrays), surface mounted or not. It is recalled that prior to or simultaneously with the soldering operation of these components, a chemical called flux, whose object is to strip the surfaces to be soldered and to facilitate the wetting of these surfaces by soldering, is applied to the entire surface of the printed circuit.

Within the mobile jet, or "Scanning jet", the speed vectors must be equal, parallel to each other, and orthogonal to the surface to be washed, which makes it possible to avoid the shadow phenomenon of the components. The jet must be of the curtain type with a length of a few tens of millimeters (from 20 to
Approx. 500 mm). The thickness of the incident jet is preferably between 60 and 150 microns with liquids, from 40 microns with gases; different thicknesses may be required.

 The jet impact line is parallel to the conveyor running axis (ADC).

 During washing (or drying), the jet is moved back and forth (scanning) so as to sweep the surface to be washed. The scanning frequency is determined as a function of the length of the jet and the speed of travel of the circuits, from one cycle per second to one cycle per 10 seconds approximately.

 The device enabling the nozzle or the jet deflector to come and go or scan can be of the mechanical, electro-mechanical, mechanical-hydraulic or other type. it allows in particular the adjustment of the scanning frequency and amplitude, the jet being kept constantly orthogonal to the printed circuit while the jet impact line remains constantly parallel to the ADC.

 The fluids used can be: liquids (water, mixture of water and saponifying products, freon-type solvents, azeotropic mixtures of freon and alcohols, chloro-fluorinated solvents, chlorinated solvents, alcohols, etc.) or gaseous (air, solvent vapors; etc ...).

 For the speed of the fluid in the jet, one can preferably choose: from 20 to 60 m / s with liquids; up to 300 m / s with gases.

Claims (3)

 1 - Device for implementing the method according to any one of claims 1 to 4 of the main patent, characterized in that it comprises at least one injector (31) driven by an alternating sweeping movement.  2 - Device according to claim 1, characterized in that # it comprises at least one injector (31) oriented longitudinally, parallel to the direction of advance (5) of the products.  3 - Device according to any one of claims 1 and 2, characterized in that it comprises at least two injectors (31) and (32) orthogonal to each other, one (31) oriented longitudinally, the other (32 ) oriented transversely.