FI68983B - ELEKTROSTATISK FAERGSPRUTPISTOL MED ROTATIONSSPRIDARE - Google Patents

Description

Electrostatic color spray gun with rotating sprayer

Electrostatic spray gun with rotation gauge 68983

The invention relates to an electrostatic spray gun with a rotating atomizer consisting of a sponge hub at the free end of the gun's axis of rotation and a spray hood attached to and surrounding this hub, the color spreading to the rear side of the hub from the inner edge of the hub. fogs from the edge of the hood, leaving an extra supply line for flushing fluid.

Paint spray guns with rotating sprayers have long been known and have been used in many fields. In use, however, it is unavoidable that the spray must be periodically released from paint residues, i.e. cleaned. In this case, the procedure is generally such that a rinsing liquid containing a solvent is fed through the color line as the spray head rotates. Such flushing of the spray head is especially important when it is necessary to switch from one color to another. In practice, however, it has been found that when the gun is switched off, color residues are formed not only on the actual color flow path, i.e. the back of the hub and the inner surface of the dome, but also on the outside of the hub, so that the flushing fluid following the color flow path does not encounter these residues. This color deposition on the front of the hub is due to the presence of vacuum inside the color jet cone, especially when the spray heads rotate above about 4000 rpm, as a result of which some of the sprayed ink droplets retract inwards and travel against the spray direction to the front surface of the hub. To remove any paint residue, the front surface of the hub must either be cleaned by hand or washed from the front with a shower of rinsing liquid. Both of these methods prevent automatic use of the gun and associated automatic color change.

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The object of the invention is to improve sprayers of said type so that automatic rinsing becomes possible and the rinsing comprises all areas of the sprayer which are prone to soiling, in particular also the front side of the hub. The solution to this problem is presented in the characterizing part of the main claim.

Thus, according to the invention, the additional flushing liquid supply line has two outlets. In this case, the second outlet opens on the rear side of the hub, so that the rinsing liquid leaving this hub flows essentially in the same path as the paint sprayed in normal use, as a result of which the rinsing liquid cleans the rear side of the hub and the inner surface of the hood. The second outlet is located approximately centrally on the front side of the hub so that the rinsing liquid flowing from this opening is distributed on the front surface of the hub under the action of centrifugal force and cleans this, and this rinsing liquid then then enters the inner surface of the hood. By appropriately controlling the valves of the dye and rinsing liquid supply, automatic rinses can be formed between the color spraying stages, whereby the cleaning takes place very efficiently and the color change can take place very quickly.

The invention will be explained in more detail below on the basis of the embodiment described in the accompanying drawing. The only figure in the drawing is a sectional view of the front of a spray gun with a rotating sprayer.

The drawing shows the number 10 of the front end of the spray gun of the spray gun. This tube 10 is closed by a plate 11 through the center of which a shaft of rotation 12 passes. This shaft is rotated by a compressed air motor in the pistol tube 10, shown only diagrammatically. At the free end of the shaft there is a sponge-like hub 14 to which a spray dome 15 coaxially surrounding this hub is attached. The wall of the pistol tube 10 has a color supply 16 and its valve 17. The color supply line mouth opening 16a faces the rear side 14a of the hub 14. The high-voltage electrical power is supplied to the spray dome 15, e.g. via a shaft 12 or a power supply line (not shown). Thus, to a large extent, the 686883 gun described herein with a sweeping head corresponds to a conventional construction. For operation, the motor 13 is caused to rotate the shaft 12 and the hub 14 and the hood 15 resting on it, the high voltage is switched on and the valve 17 is opened. The paint then flows - under low pressure - through the line 16 and is sprayed from the mouth opening 16a to the rear side 14a of the hub. Here, the color is distributed by centrifugal force and ejected outwardly to the inner surface 15a of the dome 15. From this surface, the paint comes in the form of a film on the edge of the dome and is fogged from this edge by the action of centrifugal force and electrostatic field and is transferred to the non-sampled workpiece. The rotation speed of the spray head can then be e.g. 20,000 ... 40,000 rpm.

The gun tube according to the invention has a second supply line 18 with a valve 19. The line 18 extends as a bore 20 in the plate 11 and opens into an annular channel 21 between the motor shaft 12 and the hub 14. From this annular channel the annular slot 22 leads to the rear side 14a of the hub 14 and bores 23 along the motor shaft 12 lead to a recess 24 in the front side 14b of the hub 14.

The function of the line 18 is to supply the rinsing liquid. When the valve 19 is opened, the rinsing liquid flows through the line 18 and the bore 20 into the annular channel 21, and a portion of the rinsing liquid flows through the slot 22 to the rear side of the hub 14a and is evenly distributed through the step edge 14c to this rear side 14a. from the edge of the dome. The second part of the rinsing liquid flows from the annular channel 21 through the bores 23 into the recess 24 and is distributed here on the front surface 14b of the hub 14, after which this part of the rinsing liquid also gets on the inner surface 15a and is sprayed from the edge of the hood. In this case, the part of the rinsing liquid flowing through the slot 22 cleans the rear side 14a of the hub, and the part flowing through the bores 23 cleans the front side of the hub, while the whole amount of rinsing liquid flows along the inner surface 15a of the hood and cleans this surface.

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In addition, the annular channel dividing the flushing liquid into the two outlets is connected to the compressed air motor via an annular slot 25 along the shaft 12, whereby the compressed air flows into the channel 21 and contributes to the outflow of the flushing liquid. This compressed air flow provides yet another, more substantial advantage. During color spraying, i.e. with the valve 17 open and the valve 19 closed, a small amount of compressed air flows through the annular gap 25, the annular channel 21 and the bore 23 into the recess 24, thereby reducing the vacuum in front of the hub 14 and thus reducing color deposition on the hub front 14b. In addition, this ensures that the paint cannot settle into the recess itself 24.

Practical experiments have shown that when the valve 19 is open and the rinsing liquid is thus fed, the rotating sprayer can be cleaned very quickly and very accurately so that the valve 19 can be closed again after a short time and the valve 17 can be opened again to continue spraying paint even if another color is used. . Even hitherto, in very critical cases where metal-pigmented varnishes are sprayed, very good results are obtained, especially in the case where a solvent is fed at regular intervals, so as to avoid drying of the metal pigments attached to the spray head. These flushing can also be automated, in which case, of course, both valves 17 and 19 must be controlled accordingly.

Finally, it should be noted that when spraying dispersion varnishes and water-soluble varnishes, the problem is that the varnish particles dry even before they reach the workpiece, which substantially impairs the adhesion of the particles to the workpiece. On the other hand, it is also not possible to dilute such varnishes with such large amounts of water that premature evaporation can be completely avoided. To overcome this problem, the spraying has been carried out in a very humid climate, that is to say, at a relatively high cost, at least 60% relative humidity of the air is maintained in the spray booth. This problem can be achieved by means of the invention

Claims (5)

1. Electrostatic spray gun with rotary spreader consisting of a sponge shaped hub (14) at the free end of the gun rotary shaft (12) and a hub (14) attached to this hub and this coaxially surrounding distribution bell (15), the color spreading over a color supply line (16) to the back side (14a) of the hub (14), from whose outer edge it is distributed on the inner surface (15a) of the clock (15) by the centrifugal force and is sprayed from the clock edge, the device being provided with an additional supply line (18) for flushing fluid, characterized in that the auxiliary supply conduit (18) has two discharge openings (22, 23), one of which (22) opens at the back side of the hub (14a) and the other (23) opens substantially centrally at the front of the hub (14b). A spray gun according to claim 1, characterized in that between the rotary shaft (12) and the hub (14) there is provided an annular channel (21) which overlies a bore (20) in connection with the line (18) for the flushing liquid, and no ring channel forms an opening 11 at the back side (14a) of the hub