RU1796266C - Powder material sprayer - Google Patents

Description

distributing the supplied powder to the periphery of the dielectric element 3.

An external divider 10 is mounted at the outlet of the atomizer with the possibility of axial movement by means of a threaded connection to the corona electrode 4 and a set of washers 11.

High voltage is supplied through a cable 12 located in the channel of the hollow body 2, a cable button 13 with a spring 14, a sleeve 15, the inner diameter of which is flush with the inner diameter of the hollow body 2, and a centralizer 1 used in the grooves of the sleeve 15, with an internal a thread for attaching the corona electrode 4. The sleeve 15 and the centralizer 16 are mounted coaxially with respect to the corona electrode 4 with the dielectric element 3 and are located at the output end of the hollow body 2.

The hollow body 2 comprises an outlet end cap 17 for securing and centering the centralizer 16, and an inlet end cap 18 for securing and centering the powder supply means and the compressed air stabilizer.

The powder supply means is made in the form of a flange sleeve 19 conjugated with the inner surface of the housing 2 with a nozzle 6 having an axial hole with a narrowing such as a Venturi nozzle for supplying powder,

Air is supplied to the device through a tangential channel 20 made in the inlet end cover 18 and connected tangentially to the annular chamber 21 formed by mating recesses on the outer surface of the flange sleeve 19 and the inner surface of the inlet end cover 18.

On a helical line on the outer surface of the flange sleeve 19, channels are made forming helical channels 22 connected to the annular chamber with a hollow dielectric body 2.

The device operates as follows.

When powder coating is applied to the product, high voltage is switched on and applied through cable 12, contact button of cable 13 with spring 14 to sleeve 15, centralizer 16 and corona electrode 4, as well as powder-air mixture is supplied through the inlet pipe

6 and compressed air through a tangential channel 20, A corona discharge is formed at the pointed ends of the corona electrode 4. The presence of a dielectric element 3 with a conical divider 5 does not prevent the corona discharge between the corona electrode 4 and the grounded electrode made in the form of a material supply pipe 6 , at the same

For the time being, the generated ions cannot be discharged on the dielectric surface, forming an ion cloud in the mixing chamber 9. The flow of coating particles in the mixing chamber 9 is divided by a conical baffle 5 and ribs 7 with pointed inlet ends, supplemented with compressed air coming out of the screw channels 22 and sent to the screw channels 8 of the dielectric element 3 with strong

electrostatic field between the corona electrode 4 and the grounded electrode 6.

In this case, the powder particles, the passage multiple times in the annular annular space, acquire not only electrostatic, but also triboelectric charge upon contact with the walls of the screw channels 22,

Powder particles in the form of

uniform torch are thrown out and, falling into the electric field created between the grounded product- (not shown) and the corona electrode 4 with the sleeve 15, are deposited on

product. The size and shape of the flame of the sprayed material are controlled by axial movement of the external splitter 10. Depending on the type of material, coating thickness, configuration

and the dimensions of the coated product, set the appropriate divider, adjust the shape and size of the spray pattern of the material to be sprayed, and also set the operation mode of the device using only the triboelectric effect of charging the powder (while high voltage is not applied) or the combined effect of charging the powder, where triboelectric the effect is enhanced by the electrostatic effect, while combinations of supply or shutdown with pre-ionization and without ionization of compressed air through the tan are possible Genetic Channel 20.

Thus, an increase in the powder deposition coefficient is achieved.

Claims (2)

SUMMARY OF THE INVENTION 1. A powder atomizer comprising a hollow dielectric housing, a dielectric element installed in the housing, a gap therebetween and a powder tribo charging housing, a chamber in communication with the powder supply means at the inlet, and a baffle at the outlet, a compressed air supply channel communicated with a camera, a grounded electrode mounted on the housing, and a corona electrode placed in a dielectric element with a needle-shaped end protruding beyond the divider, and connected to a high voltage source, characterized in that, in order to increase the deposition coefficient of the powder, the powder supply means is made in the form of a sleeve adjacent to the inner surface of the sleeve body having an axial hole with a narrowing type of a Venturi nozzle for supplying powder and screw channels on the outer surface in communication with the source compressed air and forming an air flow stabilizer, while the dielectric element is made with screw ribs on the outer surface and with pointed ends, the pitch of the screw of which is equal to the tag of the screws x bushings channels and has them in the same direction, and the other end of the discharge electrode disposed inside the dielectric member is formed as a needlelike. 2. The atomizer according to claim 1, with the exception that the inner end of the dielectric element is conical. FIG. 2 Fig.Z