SA95150527B1 - Flashover reduction device - Google Patents

Abstract

Abstract: This invention relates to the design of an electronic device that prevents flashover between electrical insulators in power transmission towers, and these insulators are usually used as insulators between power transmission cables Figure 2, and this electronic device consists of a rectifier with a diode, a secondary coil, and a needle of infinitesimal thickness Figure 1 This device is installed at the bottom of the last three insulators of the group, Figure 2, with opoxy or any other fixative material. This invention generates positive ions forming the so-called ion wind, which pushes dust particles and fine soil away from the insulator, as well as to prevent the formation of a potential difference High when moisture dries up on the surface of the insulators.,

Description

- - Flashover Reducing Device Full Description Background This invention relates to the design of an electronic device that generates positive ions that prevent flashover between insulators carrying electric cables; This is because the flash jump causes a power outage when it occurs. This invention prevents ultra-fine particles of dust and salts suspended in the air from being deposited on these insulators.” Also, this invention prevents the formation of potential difference in dry areas on the surface of insulators when there is fog or high humidity. In the past, the method used to prevent flash jump consisted of an insulator fitted with an oil valve in the outside air; However, this method is no longer used. At the present time, the methods used do not exceed the following methods:- 1- Increasing the creepage distance? = Protect the surface of the insulator from dust particles and fine salts. ~ Washing the insulators with strong water. 0— Make the insulators slope rate streamlined. = Heating the surfaces of the insulators in a self-manner. 1 General description of the invention This invention differs from other inventions that worked to combat flash jumping in that it performs two basic tasks at the same time, namely: 111

AA-1 Preventing small particles from accumulating on insulators. “- Preventing the formation of high voltages in wet places when they dry, which leads to flash jumps. In the previous techniques, the removal of particulate accumulation was done by cleaning the insulators using the self-heating method (aad). From this invention is to do the two actions (lea i.e. to prevent the accumulation of particles during the cilia) as well as to prevent the formation of voltage differences during the period of excessive moisture or dew.The scope of this invention is all insulators for electrical cables that carry high and low voltage, and this invention works on Electricity by means of an inductive circuit that derives its energy from the energy in the portable Ju, so this invention does not need an external source of energy as long as there is current in the portable cable in this insulator.This invention also works to generate positive ions in the form of an ionic wind that prevents the sedimentation of particles as well as It prevents the occurrence of a potential difference in cases of high humidity and dew The accumulation of small particles, which are usually electrolytic materials, on the surfaces of insulators leads to them becoming electrically conductive when there is water, which usually forms during seasons 1 of high humidity or dew. And then these electrolyte solutions become electrically conductive; which leads to the formation of a leaky current through which it raises its temperature; Then some of these liquids evaporate, leading to the occurrence of so-called dry bands within the current flow area, causing flashover. This invention prevents the formation of such a dry area because it covers the area with positive ions that conduct electric current. As well as reduces the build-up of electrolyte particles due to L

b The ionic winds that result from it during the dry period. Which in turn pushes these particles out of the insulators. A brief explanation of the drawings: The specifications and advantages of this invention will be better illustrated through the following description: Figure 1 shows the electronic circuit of the invention. appearance ? Shows the position of the circle from the insulator and the direction of the wind. Figure “Shows a view of the location of the insulator from the cable carried on the pole and the location of the proposed invention. appearance ; A chart shows the types of insulators used during the past years and at the present time. Detailed description: Ve It is clear from the attached drawings that the invention shown in Figure 1 consists of a circular coil with calculated circuits 1, as well as of a special metal, as will become clear shortly; It is a diode rectifier ¥ and a thin metal needle caf LY Jaa this circuit; Inside the Insulator ©. Research that the direction of the thin needle is opposite to the direction of the north 7 and it is sufficient to place this circle; AT has three insulators © in transmission towers 1 on each side of the tower. 1 For an industrial application, we must determine the number of turns in the secondary coil, as well as the type of material used, and the sectional area of the thin needle must be determined ¥. L= ji.o= distance from the cable - .,10 meters. R= a

C Coil cross-sectional area = V,A0 » meters A= Potential difference = .000 volts - 7 Current = Ay Ampere (7970 of 12 0001) Frequency = 1 Hz f = © When applying the equation, we find that the best materials that can be used to reduce the size of the coil and thus the possibility of placing it inside the insulation are: - We find that if we use copper (U = +,999) the number of turns required = 000001 Roll. And when using the supermali material (70 molybdenum “7979 nickel”); 604 20.0 to 1) The number of turns required = Ad 7905000, which reduces the volume of the invention to a large degree. To calculate the needle size oF, use the formula = Eb=30+12.7Dw(To THE POWER 1/2) where JAS=EB = volts/cm 1 0 #2 = cm (length of needle diameter) It is noted that the second insulator 5 above the first insulator A will need a larger section of the coil; or a coil longer than the first insulator coil; This is due to its distance from the portable cable.

Claims (1)

protection elements 1-1 flashover reduction device across insulators 10901810:8 in Y line power; This apparatus shall consist of: (a) a coil consisting of several loops of wire and producing an electric voltage stimulated by the current flow in the power line; ° (2<) a diode electrically connected to the coil to correct the electrical voltage mentioned 1 to produce a static dry voltage 7 (c) an electrically conductive needle with said diode to produce a polarized ion region A on the surface of the insulators; 9 (d) Whereas, the said polarized ion region reduces the aggregation of pollutants on the surface of oJ) sal Yo and thus lowers the flashover gage ll of the insulator. 1 "- According to protection element 1, the device consists of a number of capacitors connected between the mentioned needle 7 and the said diode, where the capacitors determine the polarization of the said polarized ion 3 region. 1#*- Device According to the element of protection Y, the said polarized ion region has Y negative polarity. 1 — device according to the element of protection? The said polarized ion region is for it 101 1 Y —_ _ Y is positively polarized. 1- A method to reduce the flashover across insulators in Y power lines. This method consists of three steps: v (a) Using an ion generator to produce one positive or negative polarized ion region on the surface of the insulators. ; o (b) production of said ion generator by means of a coil”; Where this coil produces an electric current 1 - The method mentioned in the protection element © also includes the step of producing the aforementioned L ion generator with a “diode” and the aforementioned diode rectifies the aforementioned electric current Y to produce a Static “sla” electric current ——Y 1 The method mentioned in claim 6 Lad includes the step of producing the said ion generator Y with Jac from OE which decides to polarize the region of | OY polarized said Y 5—A 1 method according to claim 1 where said polarity is positive. 1 - The method according to the protection element V, where the said polarity is negative. did not - -0 1 The method according to claim Lad 1 includes the step of producing said ion generator with a needle; Said polarized ion region is emitted from said needle. -11 1 Flashover Reducing Device for Power Line Insulator in conjunction with Insulator Y to Support Power Line. This includes the aforementioned insulator for multiple hems; v and it consists of: (1) A coil made up of many loops of wire and produces an electric voltage stimulated by the current flow in the power line. 1 (b) a diode electrically connected to the coil to correct the electrical voltage mentioned for to produce a dry static voltage A (C) An electrically conductive needle with the aforementioned diode to produce a polarized ion region, q, on the surface of the said insulator. Here, 38 of the insulator flashover is reduced (01), as the aforementioned device is installed at the edge of the insulator (insulator skirt). -10-1 The insulator according to protection element 11, where the device also includes a number of capacitors, All capacitors Y. The aforementioned needle is connected to the aforementioned diode, where this number of capacitors, v, determines the polarization of the polarized ion region. -1"1 insulator according to claim 11 where the Y-polarized ion region has negative polarity. 101 1 \ 6- The insulator according to the VY protection element, where the Y-polarized ion region has a positive polarity. VYYY