RU2186448C1 - Lightning protector - Google Patents

Abstract

FIELD: protection of industrial buildings and structures as well as outdoor electrical equipment against atmospheric electricity. SUBSTANCE: lightning protector has central lightning rod, central ground rod, side rods, multisection lightning arrester, generator arrester, and insulating housing. Protector housing has transversal ribs on outer surface. Sections of outer arrester are set on side rods and jut beyond transversal ribs of housing. Housing accommodates storage units. Each storage unit is assembled of series-connected storage capacitor and generator arrester; this circuit interconnects storage units in series during parallel connection of charging resistor of each unit in parallel with this circuit. Upper storage unit is electrically coupled with lower plate of forming capacitor at point of connection of generator arrester and charging resistor. Upper plate of forming capacitor is connected to central lightning rod and upper side rods. Points of connection of generator arresters and upper plates of storage capacitors are coupled with respective next side rods. Lower plate of lower storage-unit capacitor is connected to central ground rod and to lower section of outer multisection arrester. EFFECT: enhanced reliability of lightning protection. 1 dwg

Description

 The invention relates to devices for protecting against damage to objects for various purposes under intense exposure to atmospheric electricity, in particular to lightning protection equipment for industrial buildings and structures, as well as electric power equipment located in the open air.

 Lightning entering an industrial facility causes high currents (10-400 kA) to flow, which inevitably leads to accidents, which in modern conditions are associated either with damage to expensive equipment, or with the occurrence of fires that are close in size to environmental disasters [1,2] .

 Currently known lightning protection devices can be divided into two groups [2]: passive (rod, cable, armored systems of lightning rods) and active (lightning rods based on ion and laser radiation [3]).

 The most widely used passive lightning protection system.

 It is simple, does not require special maintenance, and relatively reliably protects the object from being struck by "negative" lightning, that is, lightning, whose leader is formed by negative charges.

 So, rod lightning rods are known [4], containing a steel support and a metal rod connected by means of a steel wire to grounded electrodes. The disadvantage of rod lightning rods is a decrease in their protective function when exposed to "positive" lightning, i.e. lightning, the leader of which is formed mainly by positive charges.

 Armored systems of lightning rods are absolutely reliable in terms of lightning protection, but in their technical and economic indicators they are used only to protect small objects.

 Active lightning protection devices are generally more effective than passive devices (especially modern ones using a laser spark), since they eliminate the conditions for the development of lightning.

 Their common drawback is the structural complexity and high cost.

 There are lightning protection systems that can be attributed to both the first and second groups. Such systems include lightning rods with a source of radioactive radiation. These lightning rods can be considered passive, since the radiation at the top of the lightning rod contributes to the initiation of the oncoming lightning leader, which increases the effectiveness of the protection. These lightning rods can be attributed to the active group, because Radioactive radiation increases the conductivity between the earth and the cloud, like the Melsons system, and limits the accumulation of electric charge by the cloud.

 So, in 1932, Helita (USA) developed the design of a lightning rod with a source of radioactive radiation [2]. Its central vertical rod is connected by wire to the ground electrode. At the top of the rod is a porcelain insulator coated with an insoluble radium salt. Above it is a metal disk mounted on an insulating stand connected by side antennas to the tips. The metal disk is under the potential of the atmosphere layer and carries a positive charge, significantly exceeding the value of the zero potential of the grounding rod, which allows you to accelerate the charged particles formed by ionizing radiation. Thus, between the cloud and the earth, conducting paths for lightning are created and the conditions for the accumulation of charge by the cloud are eliminated.

 Obviously, the widespread use of radioactive substances in the device is its significant drawback.

 Closest to the claimed device is an active lightning conductor with step-up transformers, a relaxation generator and a protective multi-section arrester [5]. Its central lightning rod is inserted into the conductive cover of the dielectric housing and connected to the beginning of the first of the series-connected secondary windings of step-up transformers. All step-up transformers are placed inside a multi-section arrester. The end of the last of the secondary windings of step-up transformers is connected to the last section of the protective arrester, to the first pole of the generator arrester, to the ground rod and to the first end of the primary winding of the isolation transformer. The second end of the primary winding of the isolation transformer through a capacitor is connected to the second pole of the generator spark gap and to the base of the side rods located on the outer surface of the housing. The secondary winding of the isolation transformer and the primary windings of step-up transformers are connected in parallel. A capacitor, a generator discharger, an isolation transformer and a protective arrester are located inside the housing. The side rods, the primary winding of the insulating transformer, the generator gap and capacitor form a relaxation generator excited by a field of atmospheric electricity.

 Under the influence of the field of atmospheric electricity, the side rods are polarized. A potential difference arises between them and the ground rod, which causes the capacitor to charge. When the lightning leader reaches the orientation height, the relaxation generator is triggered. The voltage pulse of the relaxation generator with the help of step-up transformers is converted into a high-voltage pulse at the lightning rod. This causes the formation of the oncoming leader from the air terminal and the orientation of the lightning to the lightning rod past the protected object.

 This design allows you to provide lightning protection of objects for various purposes by initiating a counter leader for both the "negative" and "positive" type of lightning.

 However, subsequent calculations showed, and practice has confirmed that the maximum voltage of the protective pulse generated by the lightning prototype does not exceed 200 kV, which is insufficient to ensure reliable protection of objects for various purposes from lightning breakdown.

 Therefore, the task to which the claimed device is directed is to provide reliable lightning protection of objects for various purposes by increasing the protective voltage generated by the device in a pulse.

 In accordance with the task, the technical result achieved by installing the inventive lightning rod on industrial buildings and structures, as well as on open electrical equipment, is to ensure their safety even in areas of high lightning hazard.

 The problem is solved by the inventors by creating a lightning rod containing a central lightning rod, a central ground rod, a multi-section protective arrester, a generator arrester and a dielectric housing, in which the housing has a transverse ribbing outside, sections of the external multi-section protective arrester are mounted on the side rods and protrude outside transverse ribbing of the case, inside the case there are storage blocks, each of which is formed by a chain of of a connected storage capacitor and a generator spark gap, which determines the series connection of the blocks with each other, with a charging resistor in each block being connected to it in parallel, while the upper storage block at the junction point of the generator spark gap and the charging resistor is electrically connected to the lower lining of the forming capacitor, the upper lining of which connected to the central rod-air terminal and the upper side rods, and the connection points of the generator arresters and the top storage capacitor electrodes of storage units associated with the respective subsequent lateral rods, wherein the lower plate of the storage capacitor lower collecting unit connected to a central earthing rod and to the lower section of the outer multiple-arrester.

Moreover, the invention is characterized by the following set of distinctive features:
a) the dielectric casing has externally transverse ribbing;
b) sections of the external multisection protective arrester are mounted on the side rods and protrude beyond the transverse ribbing of the housing;
c) storage units are located inside the housing;
d) each of the storage blocks is formed by a chain of series-connected storage capacitor and a generator gap, which determines the series connection of the blocks with each other, while the charging resistor in each block is connected to it in parallel;
e) the upper storage unit at the junction point of the generator gap and the charging resistor is electrically connected to the lower plate of the forming capacitor;
g) the upper lining of the forming capacitor is connected to the central rod-air terminal and the upper side rods;
f) the connection points of the generator dischargers and the upper plates of the storage capacitors of the storage blocks are connected with the corresponding subsequent side rods;
g) the lower lining of the storage capacitor of the lower storage unit is connected to the central ground rod and to the lower section of the outdoor multi-section arrester.

 It should be noted that the dielectric housing of the lightning rod is designed to protect the internal elements of the device from atmospheric influences and to ensure their isolation. The transverse ribbing of its surface contributes to an increase in the discharge voltage over the surface due to an increase in the discharge path.

 The central air terminal rod “attracts” the lightning leader to the lightning rod and serves to close the lightning discharge through the sections of the external multisection protective arrester and the central ground rod to the ground.

 A multi-section arrester is designed to protect against the destruction of electrical connections and device elements from the effects of lightning current.

 The side rods are designed to charge the storage capacitors of the storage units from atmospheric electricity.

 Storage blocks create a high voltage pulse, contributing to the formation of a counter leader on the lightning rod immediately before a lightning strike.

 The central grounding rod is used to secure the device and to reliably connect the device to the ground.

 The proposed lightning conductor is shown in the drawing.

 A central lightning rod 3 is inserted through the central upper hole into the lid 1 of the dielectric housing 2 having an external transverse ribbing, and a central grounding rod 5 is inserted through the central hole in the base 4 of the housing 2. Side rods 6 are inserted and fixed to the housing 2, onto which sections 7 of the external multi-sectional protective arrester are mounted 8. Storage units 9 are placed inside the housing 2. Each storage unit 9 is formed by a chain of a series-connected storage capacitor 10 and generator arrester 11, which determine the serial connection of the blocks 9 to each other, with a charging resistor 12 connected in parallel in each block 9. The upper storage unit 9 at the point of connection of the generator arrester 11 and the charging resistor 12 is electrically connected to the lower plate of the forming capacitor 13. The upper plate the forming capacitor 13 is connected to the central rod-air terminal 3 and the upper side rods 6. The connection points of the generator arresters 11 and the upper plates are cumulative capacitors 10 storage units 9 associated with the respective subsequent lateral rods 6. The lower plate of the storage capacitor 10 of the lower collecting unit 9 is connected to a central earthing rod 5 and the lower section 14 of the outer multiple-8 arrester.

 Lightning conductor works as follows.

 The side rods 6 and the lightning rod 3, being in the field of atmospheric electricity, are polarized, and a potential difference arises between them and the ground rod 5. Storage capacitors 10 through charging resistors 12 begin to charge up to a voltage, the value of which is set closest to the central ground rod of the generator discharger 11. During the breakdown of this generator discharger, the other generator dischargers 11 break through, the storage capacitors 10 are connected in series, their voltages add up and the total voltage turns out to be attached to the central rod-lightning rod 3.

 The electromagnetic parameters of the device are selected in such a way that it works when the lightning leader approaches the orientation height (150-200 m) in phase with its influence. A high voltage pulse is initiated by the oncoming leader. A multi-section protective arrester 8 breaks through, closing the main electric charge to the ground and protecting the device from destruction.

 In order to eliminate the false positives of the generator dischargers 11 due to the spread of their breakdown voltages, the spark gaps of the subsequent dischargers 11 are established with a slight excess of their breakdown voltages with respect to the spark gap closest to the central ground rod 5.

 As a result of the fact that it is possible to apply a significantly larger high-voltage pulse to the central rod-lightning rod 3, due to the possibility of using a large number of storage units 9, the device significantly reduces the likelihood of lightning entering the protection zone of the lightning rod. The removal of a protective multi-section arrester 8 to the surface of the housing virtually eliminates the possibility of destruction of electrical connections and elements of the device.

 Thus, in comparison with the closest known analogue, the proposed device is more efficient and reliable, provides greater operational safety and can be implemented using more widely available technical means, which, in turn, makes it more cost-effective.

Sources of information
1. Uman MA The Lightning Discharge. Academic Press., Inc., 1987, p. 188.

 2. Stekolnikov IS Lightning. Ed. USSR Academy of Sciences, M., 1940, p. 327.

 3. Bazutkin V.V., Larionov V.A., Pintal Yu.S. High voltage technique. Insulation and overvoltage in electrical systems. M .: Energoatomizdat, 1986, p. 463.

 4. TSB, 3rd ed., T. 16. M .: Soviet Encyclopedia, 1974.

 5. Patent of the Russian Federation 2101819, M. cl. H 01 T 9/00, H 02 H 9/06 from 04.24.96 (prototype).

Claims (1)

 A lightning rod containing a central air terminal rod, a central ground rod, side rods, an external multisectional protective arrester, a generator arrester and a dielectric casing, characterized in that the dielectric casing has externally transverse ribbing, sections of the external multisectional protective arrester are mounted on the side rods and extend beyond the transverse ribbing of the dielectric housing, inside the dielectric housing are storage units, each of which is shaped van a chain of series-connected storage capacitor and a generator discharger when the blocks are connected in series with each other and a charging resistor is connected in parallel to each block, the upper storage block at the junction point of the generator discharger and the charging resistor is electrically connected to the lower lining of the forming capacitor, the upper the lining of which is connected to the central rod-air terminal and the upper side rods, and the connection points are the beaten arresters and the upper storage capacitor electrodes storage units associated with the respective subsequent lateral rods, wherein the lower plate of the storage capacitor lower collecting unit connected to a central earthing rod and to the lower section of the outer multiple-protective arrester.