SU1309335A1 - Device for removing static charges from dielectric materials - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to the control of harmful manifestations of static electricity and. can be used in the chemical, oil refining industry, as well as when working with shells of large volumes for aeronautics, made of dielectric materials. The goal is to increase the effectiveness of antistatic protection in the implementation of technological processes by limiting the value of the discharge energy. The device for removal of static electricity charges contains a casing 1 with a section 2 to be treated, conductive elements (FCs) 3 in the form of holes, strips or grids of electrically conductive filaments, ground conductors (RC) 4 and fixing elements 5. At the same time The distance between the TEs 3 is calculated from a mathematical relationship derived empirically. When electric charges occur in section 2, they are diverted to TE 3 and then through 3P to the ground. 1 hp f-ly, 2 ill. -i 1 j C-irZS About Mae sCvO 1, tW i Iw2

Description

11309335

The invention relates to the technique of combating harmful manifestations of static electricity and can be used in the implementation of technological processes in the chemical, oil refining and other industrial sectors, as well as when working with shells of large volumes for

ballooning made of di

electrical materials.

The purpose of the invention is to increase the effectiveness of antistatic protection in the implementation of technological processes by limiting the magnitude of the discharge energy.

Figure 1 and 2 presents the proposed device. .

The device consists of a shell 1 s, a section 2 to be treated, electrically conducting elements 3, grounding conductors 4 and fixing elements 5.

The electrically conductive elements 3 are in the form of cords, strips or grids of electrically conductive filaments. They cover the treated areas of the 2 shells in such a way that the maximum distance from any point of the treated area is limited from above by the value of R The configuration of the electrically conductive elements can be different (Figures 1 and 2).

The device works as follows.

If during processing in sections 2 electrostatic charges appear, in accordance with the electrical conductivity of these sections they are diverted to electrically conductive elements 3 and then through conductors 4 to ground. At low electrical conductivity of the treated areas 2, accumulation of charges on them is possible.

Since the electrically conductive elements 3 limit the free movement of charges along the surface of the shell

1, to the zone where gluing operations are performed on areas 2 and in the event of a spark discharge in the area of these areas, its energy (depending on the charge density i Et and the distributed electrical capacity of the discharge area of the surface, determined by the area of this area is limited.

Subject to the empirical condition

R

0.02 (lgPs)

g-./ Hlg-y)

° f

O

five

ABOUT

five

0

35

40

where R is the distance between the conductive elements or the radii of the circle element inscribed in the contour, the discharge energy does not exceed the minimum ignition energy of BR-1 gasoline vapor, which is used as a solvent for glue and for degreasing.

In the above relationship, the maximum size is defined in meters. The relative humidity of the air in the conditions of shell production is limited to 0.3-0.60 at a temperature of 15-25 ° C. When deviating from the indicated limits, the strength of the adhesive joint decreases noticeably.

The intensity of the electrostatic field E at the surface of the material in the zone of the area to be treated is applied to V / m before applying the electrically conductive elements.

E is the relative dielectric constant of the shell material, for example, for rubberized lavsan 3.5.

The surface electrical resistance of the shell material p ohms is measured under normal conditions in accordance with GOST.

When implementing the proposed solution, electrostatic protection is highly efficient.

Claims (2)

 1. A device for removing static electricity from dielectric materials, containing a current .45 discharge elements mounted on the material and connected to a grounding profile, characterized in that, in order to increase the effectiveness of the antistatic resistance 50 in the implementation of technological npq-processes by limiting the magnitude of the energy of the bits, the distance of the conductive elements and the radii of the elements of the circles inscribed in the contours do not exceed 0.02 (lgp5) ; ", 3.  E -1 /) ° 31309335 g is the relative dielectric constant of the material; PJ is the surface electrical resistance of the material, pa, Ohm; I / - relative humidity of the surrounding air material; Е is the maximum possible value of the electrostatic field intensity on the material surface, V / m. 2. A device according to claim 1, characterized in that, in order to increase the efficiency of removal of charges from material sections in the strip form, the current discharge elements have a shape similar to the shape of the middle line of said strips. 1