DE2402209A1 - DEVICE FOR ELECTROSTATIC COATING OF OBJECTS WITH LIQUID OR POWDERED MATERIAL - Google Patents

Description

Device for electrostatic coating of objects with liquid or powdery material The invention relates to a device for Electrostatic coating of objects with liquid or powder Material, with a gun barrel, one on the muzzle, of one In the gun tube running supply line with coating material fed atomizer nozzle and an electrode which charges the atomized material and which has a high resistance Current limiting resistor and a high voltage cable running in or on the gun barrel is connected to a high voltage generator.

Such spray devices for spraying in particular colors and varnishes are on the market in large numbers, with the high-voltage electrode, like a metal needle in which Spray nozzle or immediately adjacent of which is arranged. An electrical return line from the electrode via the color or paint supply with the consequence of a strong reduction in the on the electrode available charging voltage is generally not to be feared because the to be sprayed lacquers and paints or also powder such a high electrical Have resistance value that they can almost be referred to as insulators. This even applies to the known metal lacquers, because they contain the individual metal particles are wrapped in the insulating varnish. Recently, however, so-called water-based paints have been used came onto the market, i.e. plastic paints that can be thinned with water, these lacquers then, when diluted by water, have such an electrical Have conductivity that they do not with the known devices mentioned can be sprayed more electrostatically, rather such an electrical one Leakage current occurs across the paint that that available at the electrode Voltage is no longer sufficient, an intensive electrostatic charge of the paint particles to ensure.

In other words, when such water-based paints are sprayed, it breaks the required high-voltage electrostatic field between the electrode and the one to be sprayed Subject together. There is also the risk of electrical bridging with the inevitable contamination of the spray devices during operation by the water-based paint, which not only reduces the functionality of the device but also endangers the operator.

The object of the invention is therefore the known spray devices of the type mentioned in the introduction in such a way that with these also materials considerable conductivity, especially water-based paints, perfectly and safely can be electrostatically sprayed. According to the invention this object is achieved essentially solved by the fact that an elongated essentially an insulating body running parallel to the longitudinal axis of the gun barrel is attached, at its free end at a distance in front of the gun barrel mouth the electrode, preferably a metal needle, is arranged and that in the insulating body An electrical conductor is embedded that connects the electrode to a gun barrel located electrical contact covered by the insulating body connects, which in turn is connected to the high-voltage cable, the distance is chosen between the atomizer nozzle and electrode so that even when feeding from coating material of considerable conductivity to the atomizing nozzle the voltage drop at the current limiting resistor due to leakage current from the atomizer nozzle the atomized material particles to the electrode on a one intense electrostatic charging of the coating material ensures a low value remain. In this way, a simple and safe insulation of the high-voltage supply is achieved Guaranteed up to the electrode and also by the considerable distance between Electrode and atomizer nozzle, i.e. paint leakage, prevents the paint from entering substantial leakage current can flow.

Particular difficulties arise with regard to electrical insulation however, if the paint is sprayed off in the form of a flat jet, and the Flachstrhalebene about the longitudinal axis of the gun barrel is rotatable, which is generally is desired. To ensure here now that the electrode de always outside the flat beam plane remains, according to the invention, the insulating body carrying the electrode becomes also arranged to be rotatable in such a way that the electrode is always brought into one plane which is perpendicular to the central axis of the flat jet. According to the invention The procedure can be such that the insulating body has an annular shape Has foot that is rotatable on the gun barrel, with special measures are taken to make the connection between the stationary contact point on the gun barrel and shield the rotatable contact point of the insulating body properly. Another inventive solution to this problem the flat jet spray consists in the fact that the gun tube has a flange protruding from the tube jacket Has insulating material, which has the shape of a ring or partial ring and with several, Locating bores essentially parallel to the longitudinal axis of the gun barrel for optional Insertion of the insulating body carrying the electrode is provided.

Embodiments of the invention are shown in the drawing, for example shown, namely: Fig. 1 in side view, partially in section front area of a hand spray gun according to a first embodiment of the invention, FIG. 2 is a view corresponding to FIG. 1 of a second embodiment of the invention, pig. 3 shows a plan view of the gun muzzle of the spray gun of FIG. 2, FIG. 4 shows a modification of the pistol from FIG. 2, FIG. 5 shows a further modification of the pistol of FIG. 2, and FIG. 6 shows a further modification of the pistol of FIG.

The spray device according to FIG. 1 is one in which the atomization takes place with the help of compressed air and a flat jet is formed by known air horns. But the invention is self-evident on too Applicable spray devices in which the atomization takes place by means of hydrostatic pressure and the atomizer nozzle is a slot nozzle.

The gun tube made of insulating material is labeled 10. At the mouth of the gun barrel there is a nozzle 11, from which during operation the color is expelled.

The high-voltage electrode is labeled 12, the one in the gun barrel 10 running high-voltage lead having a high-ohmic current limiting resistor 13a with 1). An insulating body 14 according to the invention consists of an elongated, approximately cylindrical part 14a and a foot 14b integral therewith in the form of a ring. The insulating body 14 is slipped onto the tube 10 and around its longitudinal axis rotatable. A conductor 15 connected to the electrode 12 runs in the body 14, which is connected to a spring-loaded contact screw 16 in the ring base 14b. The contact screw 16 touches one in the jacket of the gun barrel by means of spring pressure 10 embedded slip ring 17, which in turn is connected to the high-voltage supply 15 is connected. Both sides of the slip ring 17 are in the gun barrel jacket Annular grooves 18a and 18b formed, which together with a milled ring 19 in the Base 14b form an annular chamber 20. The annular chamber 20 is filled with saponified transformer oil filled. For sealing the chamber 20 are also two ring grooves 21a and 21b provided in the gun barrel jacket, in which sealing rings are used are.

As mentioned, the device shown is one in which compressed air is used to atomize the paint. To achieve the flat jet, the nozzle head 22 surrounding the nozzle 11 is used, its both horns 22a and 22b flatly compress the exiting paint jet. In the Position according to the drawing then lies the flat jet in a plane perpendicular to the paper plane. The electrode 12 is then, as desired, outside of the Flat jet plane, more precisely in one passing through the nozzle 11, to the Flat jet plane, vertical plane. But now the head 22 is opposite the gun barrel 10 rotated, for example by 900, the electrode 12 would be in the plane of the flat jet get, which not only causes severe pollution of the electrode and the body 14a would also result in the risk of a considerable current flow through the coating material to the electrode increases if the paint is highly conductive. According to of the invention, however, the insulating material body 14 and thus the electrode 12 are also rotated, namely in such a position, eat the electrode 12 again lies outside the flat beam plane. So for example the head 22, as mentioned, rotated by 900 clockwise, the insulating body 14th also rotated by 900, whereby it is at the discretion of the operator whether the Rotation of the insulating body also clockwise or counterclockwise he follows. The electrical connection of the electrode via the conductor 15, the screws 16 and the slip ring 17 to the high-voltage cable 15 remains with this rotation obtained because the contact screw 16 slides on the ring 17. Despite this possibility of twisting There is excellent insulation between the gun barrel 10 and the insulating material body 14 guaranteed because the annular chamber 20, which is filled with saponified transformer oil completely surrounds the sliding contact and shields it from the outside. The isolation is such that the gun when switched on he high voltage readily for the purpose can be immersed in a water bath for cleaning without flashover. Of course, a different oil can also be used instead of the saponified transformer oil liquid or semi-solid insulating material can be filled into the annular chamber 20.

Figs. 2 and 5 show another embodiment of the invention, for the sake of simplicity, only those deviating from the exemplary embodiment in FIG. 1 Parts are given different reference numerals and are described below. As can be seen from FIGS. 2 and 3, the gun barrel 10 has one of its Sheath protruding flange 50, the one with the gun barrel 10 is in one piece, so also consists of insulating material and the shape of a half-ring Has. In the flange 30 there are three parallel to the gun barrel longitudinal axis Blind bores 31, 32 and 55. These blind bores are used to insert an elongated, substantially cylindrical insulating body 34, which in its function corresponds to the insulating body 14 of FIG. 1 and at its front free end the electrode 12 carries. The electrical connection between the electrode 12 and the high-voltage supply 13 takes place in this embodiment via the into the Insulating body 34 embedded conductor 15, one at the rear end of the body 34 protruding contact spring 35 and one provided at the bottom of each blind hole Contact plate 36, which has a connecting wire 37 for high voltage supply 15 leads. A liquid-tight ring seal 38 on each blind hole 31, 32, 33 ensures a firm and tight fit of the body 34 in the blind hole; In addition, an insulating compound can be filled into the blind hole.

When the atomizer head 22 is in the position shown in FIG the flat beam plane, in turn, perpendicular to the plane of the paper, while the insulating body 34 and thus the electrode 12 are perpendicular thereto in the plane of the paper. According to Fig. 3, the insulating body 34 is thus inserted in the sack hole 31. If the atomizer head 22 is now rotated by 450, then in order to maintain the Electrode 12 in a plane perpendicular to the flat beam plane, the insulating body 34 pulled out of the blind hole 31 and inserted into the blind hole 52. With a further turn of the atomizer head 22 by 450, the insulating material is then inserted 54 into the blind hole 33. To protect the free blind holes, are placed on these caps 39 on. Of course, this can also be Embodiment experienced numerous modifications, in particular with regard to the number and formation of the blind holes and the GestaBang of the insulating body 58. For example, in FIG. 2, the insulating body 54 is a tube which is covered at its free end by a cap 40, in which case the electrode 12 is led out laterally. Furthermore, in the example shown, the insulating material body 34 provided with a profiling on its surface to prevent the occurrence of leakage currents, especially if it is soiled with paint, it is ultimately to be suppressed It should also be noted that the contact spring 35 is also at the bottom of the blind hole and could not be attached to body 34.

A modification of the device of FIG. 2 is shown in FIG. The only modification here is that the electrode 12 carrying the electrode Insulating body 34 consists of plastically deformable material, such that the operator by bending the body 54 is her most suitable Can set or adjust the distance between the electrode 12 and the atomizer nozzle. Another modification of the device of FIG. 2 is shown in FIG. The modification consists only in the fact that in the blind holes 31 to 33 each has a protective resistor 41 housed, this protective resistor in addition to the current limiting resistor 15a for a reduction in the electrode capacitance cares. This additional protective resistor 41 can, however, also be in the insulating body 34 be housed.

Finally, FIG. 6 shows a further modification of the device according to Fig. 2 wherein the modification consists in the fact that an additional grounded counter electrode 42 is provided. This counter electrode 42 is carried in an insulating tube 43, that, similar to insulating body 34, in one of several, to the longitudinal axis of the gun barrel parallel blind bores 44 of the flange 30 is inserted. At the bottom of the blind holes 44 there are contact springs 45 for connecting the counter electrode 42 to a Ground wire 46.

The number of blind bores 44 for the counter electrode 49 provided Insulating tube 45 generally corresponds to the number of blind holes 31, 32, 33 for the insulating body 34 carrying the electrode 12, the bores are diametrically opposed to each other. When the atomizer head 22 is rotated then not only the insulating body 34 but also the insulating tube 45 repositioned, in such a way that electrode 12 and counter-electrode 42 are in turn diametrically opposed to one another.

Of course, the individual features of the Execution and modification forms can be combined with one another. For example a counter electrode can also be provided in the embodiment according to FIG. 1, the counter-electrode then being fastened diametrically to the electrode 12 on the ring base 14b will. Finally, it should be noted that, as has already been said in connection with the embodiment of Fig. 1 set forth the invention in the most diverse Types of atomizer heads can be used with advantage, for example also with atomizer heads with a grounded metal nozzle.

Claims (14)

P A T E N T A N S P R Ü C-H E Device for electrostatic coating of objects with liquid or powder coating material, with a gun barrel, one on located at the muzzle, from a supply line that runs through the gun barrel - Atomizer nozzle fed with coating material and one the atomized material charging electrode, which has a current limiting resistor and an im or High voltage cable running along the gun barrel connected to a high voltage source is, characterized in that on the gun barrel (10) an elongated, substantially The insulating material body (14.34) running parallel to the longitudinal axis of the gun is attached is at the free end located at a distance in front of the gun barrel mouth the electrode (12), preferably a metal needle, is arranged, and that in the insulating body (14.34) an electrical conductor (15) is embedded, which the electrode (12) with an electrical one located on the gun barrel and covered by the insulating material (14.34) Contact (17.36) connects which is connected to the high-voltage cable (13) is, the distance between atomizer nozzle (11) and electrode (12) so large is chosen that even when supplying coating material, considerable electrical power Conductivity to the atomizer nozzle (11) the voltage drop across the current limiting resistor (13a) due to leakage current from the atomizer nozzle (11) via the atomized material particles to the electrode (12) on an intense electrostatic Charging the coating material ensures low value remains. 2. Vorrischtung according to claim, characterized in that the insulating body (14,) 4) consists of plastically deformable material. 3. Apparatus according to claim 1 or 2, characterized in that the insulating body (14.34) is attached to the gun barrel in an easily detachable and replaceable manner is. 4. Device according to one of claims 1 to 3, with material atomization t Ebrm of a flat jet, characterized in that the insulating material body (14.34) in a perpendicular to the flat jet plane, passing through the atomizer nozzle (11) Level runs. 5. Apparatus according to claim 4 with a flat jet, the plane of which is rotatable about the longitudinal axis of the gun barrel, characterized in that the insulating material body (14) has an annular foot (14b) which sits on the gun barrel (10) and can be rotated around the longitudinal axis of the gun. Device according to claim 5, characterized in that in the ring base (14b) a spring-loaded contact screw (16) is arranged on an in the wall of the gun barrel (10) grinds the contact ring (17), and that the entire contact point between the contact screw (16) and slip ring (17) inside an annular chamber (20) filled with liquid or semi-solid insulating material is housed. 7. Apparatus according to claim 6, characterized in that the annular chamber (20) through two annular grooves (18a), (18b) and one provided in the gun barrel jacket in the foot (14b) of the insulating body (14) provided ring cutout (19) is formed is. 8. Apparatus according to claim 7, characterized in that the annular chamber is filled with saponified transformer oil. 9. The device according to claim 4, with a flat jet, the plane of which the longitudinal axis of the gun barrel is rotatable, characterized in that the Gun tube (10) has a flange (D0) made of insulating material protruding from the tube jacket has, which has the shape of a ring or wedge ring and with several to the gun barrel longitudinal axis essentially parallel mounting holes (31,32,33) for optional Insertion of the insulating body (34) carrying the electrode (12) is provided. 10. Apparatus according to claim 9, characterized in that the receiving bores (31,32,) 3) are blind holes, on the bottom of which electrical contacts (36) are arranged which are connected to the high voltage cable (13). 11. Apparatus according to claim 9 or 10, characterized in that at the mouth of the receiving bores (31, 32, 33) liquid-tight ring seals (38) are provided. 12. Device according to one of claims 1 to 11, characterized in that that the surface of the insulating body (14.34) in the electrode (12) is adjacent Area is provided with a profile. 13. Device according to one of claims 4 to 12, characterized in that that on the ring foot (14b) of the insulating body (14) or on the ring flange (30) of the gun barrel (10) a grounded counter electrode (42) is attached, which with respect to the longitudinal axis of the gun barrel runs diametrically to the electrode (12). 14. The device according to claim 13, characterized in that the Ring flange () 0) of the gun tube (10) receiving bores (44) in the form of blind holes for the optional insertion of an insulating tube carrying the counter electrode (12) (43).