DE2936217C2 - Device for wetting printed circuit boards to be soldered with flux - Google Patents

Description

The invention relates to a device for wetting printed circuit boards to be soldered with flux with the features of the preamble of claim 1.

In one such from US-PS 31 12 723 beicierten Device is the sieve grid circularly bent to a sieve grid roller, which is inside the housing rotates. The housing is partially filled with flux, causing the rotating screen mesh roller is constantly immersed in flux and this upwards between the outlet openings of the compressed air pipe and the spray chute transported Here the flux is blown off by compressed air and leaves the Housing as a flux mist, which is applied to the connections to be soldered on the printed circuit boards transported over them is applied.

Such a device is due to the formation of the roller-shaped sieve grid and the rotational movement thereof Required drives expensive to manufacture. Furthermore, a significant Construction volume required to the Siebgittenvalze, their drive axles with bearings and their drives to record. Finally, there is a dosage of when the screen roll is immersed in the flux absorbed flux is not possible.

The invention is based on the object of creating a device of the type mentioned at the beginning, which is easier and cheaper to manufacture has a smaller overall volume and in particular dosing of the flux taken up by the sieve grid and then sprayed is possible is

The solution to this problem results from the features of claim 1. Since the inventive The device does not contain any moving parts for this reason alone Manufacturing. Also, only a smaller overall volume is required. Finally, this can be achieved through the flux feed supplied flux can be easily dosed, so that the amount of from the outlet nozzles of the compressed air pipe sprayed flux can be dosed.

Advantageous further developments of the invention emerge from the subclaims. In particular, is through the features of dependent claim 3 achieved that the flux by the capillary action of the sieve grid is evenly distributed over the entire surface of the screen and is therefore precisely dosed in the line of action of the Spray nozzles of the compressed air pipe come. The features of dependent claim 6 is easy with technical structure created a drip pan for excess flux. Finally, through the Features of dependent claim 7 enables the spray width to be changed with little effort the spray shaft is feasible.

The invention is explained in more detail below with the aid of an exemplary embodiment shown in the drawings explained. It shows

F i g. 1 shows a vertical section through the device and

F i g. Figure 2 is a plan view of the device.

The device for wetting printed circuit boards to be soldered with flux, in specialist circles too Called a spray fluxer, comprises a box-like housing 1 from a base 2, side walls 3, 4 and one upper cover wall 5, which is penetrated by a spray shaft 6, and also a between the Compressed air pipe 7 extending sidewalls 4 with outlet openings 8 directed into spray duct 6 and one located between the compressed air pipe 7 and the spray duct 6 and wetted with flux Sieve grid 9, which rests on a drainage plate 10, and finally a flux feed pipe 11. The compressed air pipe 7 and the flux supply pipe 11 both extend between the side walls 4. Both pipes are from outside the housing 1 through a side wall 4, inserted through and provided with seals 12 here and fixed in the opposite side wall 4 by screws 13. Both tubes 7, 11 have

Connection lines not shown in more detail lying outside the housing 1.

In the bottom 2 of the housing 1, a flux drain 14 is provided through which the excess flux flows back into a flux reservoir, from which it is fed back to the flux feed pipe 11 by a circulation device. Flux reservoir and circulation device are not shown. On the bottom 2 of the housing 1 are also Fastening screws 17 for fastening the Vorrichhing in an existing system.

The sieve grid 9 is designed as a substantially planar mesh fabric and under a pointed Angle «inclined to the horizontal arranged in the housing 1. It thus forms a component fixed to the housing. The upper free edge of the sieve grid 9 is bent upwards at a radius 15. The lower free end the sieve grid 9 is bent vertically downwards.

The sieve grid 9 lies with its edge formed by the edge which is bent upward in the shape of a radius Part on the drainage plate 10 for the flux. The drainage plate is by means of bent tabs 17, which around the side walls 4 are placed, suspended in the housing 1. The tabs 17 penetrate laterally Slots 18 between the upper cover wall 5 of the housing 1 and its side walls 4. That too Drainage plate 10 is inclined at the same angle λ relative to the horizontal. The drainage plate 10 forms on the one hand a support element for the sieve grid 9 and on the other hand a connection between the flux feed pipe 11 and the sieve grid 9, since the flux tube 11 is at a distance from the free, through the radius-shaped The bent edge of the sieve grid 9 is arranged above the drainage plate 10

The flux emerging from the flux feed pipe 11 through bores 16 drips onto the drainage plate 10 and runs on this obliquely downwardly inclined sheet in the direction of the on this overlying sieve grids 9. By the capillary effect of the sieve grids 9 formed from a mesh fabric the flux is distributed evenly over the entire drainage area and reaches the sieve grid 9 over the Outlet openings 18 of the compressed air pipe 7 and becomes a flux mist here through the escape of the compressed air sprayed, which emerges from the spray shaft 6

The spray duct 6 penetrates the upper cover wall 5 of the housing 1, which is deeper than the free edges of the Side walls 3, 4 of the housing 1 is arranged so that above the upper cover wall 5 and within the upper peripheral edges of the side walls 3, 4 a Collecting trough forms between the side walls 4 for the return of the flux collected here and the free edges of the upper cover wall 5 left free slots 18 through which the The tabs 17 of the drainage plate 10 extend.

The opening width of the spray shaft 6 is variable by means of cover plates 19. The cover plates are for this purpose 19 arranged displaceably on the opening of the spray shaft ö.

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: 1. Device for wetting printed circuit boards to be soldered with flux, consisting of a box-like housing with a spray shaft penetrating the upper cover wall, a Compressed air pipe arranged below the spray shaft with directed into the spray shaft Outlet openings and with a located between the compressed air pipe and the spray shaft, Sieve grate wetted with flux, characterized in that the sieve grille (9) as in essentially flat surface and at an acute angle (λ) to the horizontal is inclined fixed to the housing and that in the area of the upper part of the Siebgitvers {9) a Fluid inlet (11) for pickling the sieve grille (9) is arranged with flux 2. Apparatus according to claim 1, characterized in that the sieve grid (9) with its upper one Edge on a drainage plate inclined at the same angle (λ) to the horizontal (10) is placed and that the flux inlet (11) above the free end of the drainage plate (16) is arranged 3. Apparatus according to claim 2, characterized in that the sieve grid (9) at its on the Drainage plate (10) resting free edge under a radius (15) is bent upwards. 4. Device according to one of claims 1 to 3, characterized in that the flux inlet (U) as parallel to the compressed air pipe (7) above the sieve grille (9) or the drainage plate (10) formed extending tube and directed against the sieve grid (9) or the drainage plate (10) Drainage openings (16) is provided over its entire length. 5. Device according to one of the preceding claims, characterized in that the sieve grille diß (9) is bent vertically downwards at its lower free end. 6. Device according to one of the preceding claims, characterized in that the with the spray shaft (6) provided upper cover wall (5) to form a drip pan below the free upper edges of the side walls (3, 4) of the housing (1) and that on at least one side the top wall (5) a slot (18) is provided between the side wall (4) and the top wall (5). 7. Device according to one of the preceding claims, characterized in that the spray duct (6) is provided with cover plates (19) which are adjustable in the longitudinal direction.