SU634796A1 - Apparatus for atomizing coating material in electric field - Google Patents

Description

the device in FIG. 2 shows the knowledge of the rate of charging of surrounding objects from the time of the device operation; in fig. 3 - dependence of paint coating charge on sprayer performance.

A device for spraying a paint and varnish material in an electric field contains a dielectric body 1 n a spray nozzle 2, concentrically with which a nzolonion block 3 is installed with material supply channels 4 evenly spaced around its periphery, in which wire electrodes 5 are installed.

The ends of the wire electrodes 5 do not reach the output ends of the channels 4. The insulating block 3 is made with a cylindrical rod 6, which stands for the dispersed nozzle 2.

The device works as follows.

The applied paint material with a small pressure through the channels 4 passes along the electrodes 5, which are a node with a high potential of negative polarity and is charged to the electrode potential. At the exit of the channels 4, the charged paint material is sprayed with air.

The installation of the wire electrodes 5 so that their ends do not reach the output ends of the channels 4 prevents the formation of a corona discharge in the air. The air remains neutral.

Due to the fact that the charged paintwork material is sprayed with neutral air, the charge density in the space around the torch drops sharply and the surrounding objects are practically not charged.

As a result of experimental verification of the electrostatic characteristics of the sputtering device, the dependence of the charge on surrounding objects on the operating time of the device was established (Fig. 2).

When the voltage varies with time with a constant distance of the spray nozzle from the object, if there is no air supply and paintwork to the spray gun and the voltage on the 60 kV spray gun and the growth of the maximum potential occurs during the sprayer operation. Thus, at the time of applying voltage of 5 s, the voltage on the sprayer is 1 kV, and at time 180 s, the voltage on the sprayer is 20 kV, i.e., a gradual increase in the maximum potential is observed during operation of the sprayer.

From FIG. 3, it can be seen that as the sprayer capacity increases, the charging current of the paint material increases linearly. So, with performance

The 17 g / mip current strength is 0.8 µm, and at 108 g / min - 3.1 µm.

Thus, with an increase in the performance of the sprayer, the charging of the paintwork material increases, and from a change in the supply of paintwork material in the range from 50 to 200 g, it does not affect the value of the specific charge of the material.

Installation of the cylindrical rod 6

behind the spray nozzle 2

helps to get fine

compact torch.

The device allows paintwork.

the material is charged simultaneously in several channels with the help of wire electrodes, which are under high potential, until the material reaches the spray nozzle.

The resulting flow of paint particles at the exit of the spray nozzle provides a compact torch with a significant decrease in charge density around it, which practically eliminates sparking.

The maximum voltage applied to the electrodes is 60-70 kV.

The proposed device provides a high-quality coating on the product while significantly reducing the risk of sparking during the operation.

Claims (2)

1. A device for spraying paintwork material in an electric field. containing a dielectric body with a spray nozzle and an air supply channel and a material supply unit, in which the charging device is installed, characterized in that, in order to increase the charging efficiency of various materials at various device performances and to prevent the formation of a corona discharge near the torch, The material supply unit is made in the form of an insulating unit mounted concentrically to the spray nozzle with material supply channels uniformly formed around its periphery, and the charging device is made of wire electrodes placed in channels, the insulating unit being protruding beyond the ends of the wire electrodes. 2. A device according to claim 1. characterized in that the insulating unit has a cylindrical rod protruding beyond the spray nozzle. Sources of information taken into account in the examination 1. Copyright certificate № 236284, cl. B 05 B 5/02, 1966. 2. US patent No. 3367578, CL. 239-15, published, il968. О 5 W 2S memory fO 0 la -00 W J30 no UO №0 170 IS Vrep t 3.1 3 f csn 20 W npou3Sodif80 WO W8 no darkness rasp {/ litera / ifi