KR101094624B1 - Copper Tube and Netting Tube Combination Type Ground Rod - Google Patents

Abstract

The present invention discloses a copper tube and mesh tube type ground rod that allows to increase the surface area of the ground rod and allow the reducing agent to effectively penetrate the ground.
To this end, the present invention is to put the inner center tube in the inner diameter of the small diameter tube, the input of the reducing agent and the lightning rod to the upper end thereof, to fix the upper end of the center tube and the inner center tube with the upper cover, Fixing the pipe around the periphery of the pipe is installed around a large number of thin fibrillation tube, these center tube and the inner core tube and the inside of the tube was filled with a reducing agent.
Accordingly, the present invention is to be directly discharged to the ground by the skin effect by the very wide surface provided by the fibrillation tube, the copper tube and the net tube or through the reducing agent so that the charge that reaches the ground rod rides the lightning rod. It can be safely and effectively discharged without backflow, and has an excellent effect of greatly improving the performance of the ground rod.

Description

Copper Tube and Netting Tube Combination Type Ground Rod

The present invention relates to a copper grounding pipe and a composite grounding rod, and in particular, to induce lightning strikes to be discharged in the ground, so as to increase the surface area of the ground rods to prevent damage to buildings and facilities caused by lightning strikes and damage to life. In addition, the present invention relates to a copper tube and a mesh tube ground rod for effectively reducing the penetration into the ground.

As is well known, conventionally, a reducing agent was put inside a grounding rod made of a single copper tube and embedded in the ground so that lightning induced by the lightning rod was radiated from the ground rod through the lightning rods, and thus absorbed into the ground. The same can be seen by the Republic of Korea Patent Publication No. 10-2009-0102151 (name of the invention: grounding rod and ground construction method of the electrical installation; hereinafter referred to as 'quoting invention').

This is a ground rod for the grounding of electrical installations,

In the ground rod embedded at the bottom of the ground and connected to the electrical facilities and the ground wire for the grounding of the electrical facility, it is made of a rod shape with the top open and the inside empty for the injection of the ground reducing agent. It is characterized in that a plurality of holes are provided for.

Therefore, the cited invention is that the reducing agent inside the ground rod is continuously absorbed into the ground, so that a good ground resistance can be maintained for a considerable period of time.

On the other hand, the ground rod of the cited invention is discharged from the skin of the limited area by the skin effect of the ground rod in the process of discharging the lightning in the ground, the discharge area is insufficient when a huge lightning charge is introduced for a very short time As a result, all of the lightning charges could not be discharged to the ground, causing a reverse flow to the lightning rod side, causing lightning strikes to spread outside the lightning rod, causing serious accidents by applying lightning strikes to people or facilities. Therefore, the diameter of the copper tube is increased to increase the skin area. However, if the diameter of a single copper tube is increased, the weight is increased and the thickness is thick because the diameter of the copper rod should be thickened to obtain the rigidity necessary for transportation and construction. As it becomes difficult to work, such as drilling, there is a problem that is difficult to produce, transport and construction.

In order to solve this problem, an object of the present invention is to increase the skin area of the ground rod drastically to improve the ground discharge capacity and to reduce the grounding resistance. The present invention provides a copper grounding pipe and a grounded composite ground rod that facilitates fabrication while allowing the reducing agent to effectively penetrate the ground.

In order to achieve the above object, the present invention is to embed the reducing agent in the copper tube formed with the outlet hole on the circumferential surface,

Insert the inner center tube inside the small diameter center tube, fix the tightening bolt for fastening the terminal connected with the reducing agent and the lightning rod at the upper end of the center tube, and fix the top of the center tube and the inner center tube with the upper cover. In this paper, we propose a combination of copper tube and mesh tube ground rod, which is made by enclosing the network tube around the center tube and installing a plurality of thin fibrillation tubes around the tube tube.

In addition, the present invention is to maintain a constant spacing between the fibrous tube and the reticulum and at the same time to ensure the rigidity by installing a screw and the screw fastening means between the mesh and the center tube to maintain the optimum spacing and secure a rigid rigid structure In this paper, we propose a copper grounding pipe and a composite grounding rod that allow a sufficient amount of reducing agent to be introduced into the network to keep the grounding resistance low by infiltrating the soil as the reducing agent continuously flows out.

Accordingly, the present invention rapidly discharges a large amount of electric charge entered through the lightning rod in a very short time by directly discharging the ground due to the skin effect by the very wide surface provided by the fibrous tube, the copper tube, and the mesh tube. Since it is to be discharged, the charge that reaches the ground rod can be safely and effectively discharged without having to flow back through the lightning rod, there is an excellent effect to greatly improve the performance of the ground rod.

In addition, in the present invention, the effective surface area in contact with the soil is increased by the large skin area secured by combining a plurality of fibrillation pipes and the net tube, thereby lowering the ground resistance, and accommodating a large amount of the reducing agent in a sufficient space inside the net tube. It is possible to secure a space for reducing agent so that the grounding resistance can be maintained continuously by a large amount of reducing agent, and the grounding resistance can be lowered because the reducing agent of the pipe is effectively absorbed into the ground to form the grounding network. It has a useful effect. In addition, in the present invention, a large number of fibrous tubes, center tubes, and inner core tubes are concentrically fixed by spacers while being able to manufacture a ground rod having a large diameter. It is possible to provide a rigid structure.

In addition, the present invention has the effect of being easy to manufacture, transport, and construction because the thickness can be manufactured to be light weight. In addition, the present invention by repeatedly forming a myriad of projections on the surface of a large number of fibrillation tube, if necessary, to significantly increase the surface area and immediately to the ground by a very large epidermal area of the enormous amount of charge reached in a very short time Being able to discharge, there is an effect that can greatly improve the ground rod discharge performance.

In order to solve this problem, an object of the present invention is to increase the skin area of the ground rod drastically to improve the ground discharge capacity and to reduce the grounding resistance. The present invention provides a copper grounding pipe and a grounded composite ground rod that facilitates fabrication while allowing the reducing agent to effectively penetrate the ground.

1 is a perspective view showing a ground rod using a conventional reducing agent.
Figure 2 is a perspective view showing a ground rod according to the present invention.
Figure 3 is a longitudinal sectional view showing the structure of the grounding rod according to the present invention.
4 to 8 is an explanatory view showing another embodiment of the grounding rod according to the present invention.

The appearance of the multi-tubular grounding rod according to the present invention is shown in Figure 2, the structure of which is shown in longitudinal section in FIG.

As can be seen from the present invention, the inner tube (305) and the inner tube (305) in the center of the center tube 200, the center tube 200 is provided with a preliminary portion 100 at the bottom of the inner center tube (305) The screw pipe 202 is press-fitted upward, and the upper end of the inner center pipe 305 is fitted into the center hole 503 of the upper cover 502, and the fastening bolt 201 and the lightning rod coupled to the screw pipe 202 are engaged. Fastening the terminal 203 of the conductive wire 701, the mesh pipe 300 is fitted to the outer periphery of the center tube 200, the fibrillation tube 400 and the center pipe 200, which is fitted to the outer periphery of the mesh pipe 300, The upper and lower covers 500 and 501 coupled to the upper and lower ends of the mesh tube 300, the fibrillation tube 400, and the fibrous tube 400 and the mesh tube 300 and the center tube 200 are bound to each other. Spacer 600 is provided to maintain a constant gap between the tubular body,

The reducing agent 800 filled in the space between the plurality of pipes was allowed to flow out into the ground via the discharge hole (801).

In addition, the screw tube 202 described above may cover the inner circumferential surface of the screw tube 202 even though the thickness of the inner center tube 305 is thin, thereby providing a coupling structure for the tightening bolt 201 and providing a cover. The function and the terminal 203 fastening function can be obtained.

In the present invention as described above, the upper and lower ends of the inner center pipe 305 and the center pipe 200 are slightly longer than other pipes so that the upper and lower covers 500 and 501 have a vertical center of the ground rod. Accurately secured, the upper and lower ends of the fibrillation tube 400 is pressed into the through hole 504 of the upper and lower covers 500 and 501 to be fixed and fixed to the position of the mesh tube 300 by the spacer 600. It becomes the state that became.

Spacer 600 used in the present invention is preferably a disk-shaped ring having a support hole 601 perforated by the spacing of the fibrillation tube 400, the number can be added or subtracted as needed. In the figure, an example using two spacers 600 is shown.

In addition, in the present invention, the reducing agent 800 is injected into the inner center pipe 305 to be filled, and when the reducing agent is injected into the inner center pipe 305, the through-hole formed in the circumferential surface of the inner center pipe 305 is formed. It is to be filled in the space between the center pipe 200 and the mesh pipe 300 via the bar, such a reducing agent 800 filling process may be carried out in the manufacturing plant, if necessary, may be carried out at the construction site. will be.

The present invention is very large in diameter, but as described above, the upper, lower cover (500, 501) and the spacer 600 by the fibrillation tube 400 and the mesh tube 300, the center tube 200, the inner center tube 305 is firmly supported and secured by fastening a plurality of screw fastening means 304 composed of bolts and nuts between the center tube 200 and the mesh tube 300 to stabilize the position of the mesh tube 300. Rigid structure ensures no deformation or damage during transportation or construction.

Screw fastening means in this embodiment is provided with bolts on both sides as shown in Figure 7a can be implemented to be fastened by the nut portion in the center tube 200 and the mesh pipe 300 side.

In addition, the present invention, as shown in Figure 8, one side is formed with a bolt portion and the other side is formed with a nut portion, one side of the bolt portion is fastened to the central tube 200, the other side of the nut portion through the mesh pipe 300 is fastened The center tube 200 and the mesh tube 300 are firmly fixed to each other, and as shown in FIG. 7B, the defibrillation tube 400 and the at least one disc-shaped support ring 303 having a through hole 302 are used. By arranging between the screw tubes 300 and fixed with screws, it is possible to be a firm coupling structure.

By the fastening structure, the present invention does not increase the thickness of the tubular body, so that it is possible to secure a rigid structure while being lightweight and easy to process as a whole.

In the present invention, the inner center tube 305 and the center tube 200, the mesh tube 300 and the fibrillation tube 400 is upper, lower cover 500, 501 and spacer 600, screw fastening means 304 Because the electrical connection is connected to all the electrical conduction state due to lightning induced by the lightning rod 701 is the inner core tube 305 and the center tube 200 and the fibrous tube 400 and the epidermis of the reticulum 300 Underground discharge or through the discharge hole 801 formed innumerable in the network 300, the electrical resistance penetrated into the ground is to be discharged underground through a small reducing agent (800).

Accordingly, in the present invention, the skin area secured by a plurality of fibrous tubes, mesh tubes, center tubes, and inner center tubes is in a very wide state, so that even when a large amount of lightning charges are applied, these lightning charges are dispersed in a wide skin. Accordingly, it is possible to discharge all of the ground without flowing back to the lightning rod 701.

In addition, in the present invention, as shown in Figure 4 by forming a plurality of protrusions 900 in the fibrillation tube 400 to accommodate a greater amount of charge by the large surface area generated by the plurality of protrusions (900) It will be possible to discharge underground.

In addition, the present invention showed an example in which one mesh tube 300 is installed in the above-described embodiment, but as shown in FIG. 5, in consideration of the electrical conductivity of the ground where the ground rod is constructed, the mesh tube 300 is used as necessary. You may not.

In addition, the present invention, as shown in Figure 6, may be provided between the fibrillation tube 400 and the central tube 200, the first copper tube 901, even in this case the first copper tube 901 and the central tube ( Screw fastening means 304 is to be installed between the 200 to maintain the rigid structure.

As described above, in the present invention, the mesh tube 300 may be replaced with the first copper tube 901, and may be manufactured by increasing the number of the first copper tubes 901 from one to two or more, as necessary. Even in this case, it is possible to ensure a rigid coupling structure with the center tube 200 by using the screw fastening means 304.

In addition, the present invention is such that the upper and lower lengths of the inner core tube 305 and the central tube 200 is longer than the fibrillation tube 400, the mesh tube 300, or the first copper tube 901, and the extended center tube ( 200 is pressed into the inner circumferential surface 204 of the upper and lower covers 500 and 501 to be fixed, thereby securing a center that is firmly maintained without any other means.

In this way, the present invention provides a large amount of skin area and accommodates a sufficient amount of reducing agent as well as providing a sufficient amount of reducing agent by using a plurality of fibrous pipes, copper pipes, and mesh pipes. It is possible to lower the ground resistance even further.

Such a technical feature of the present invention may be modified in various modified forms by adding a generalized component within the scope of maintaining the same technical features in addition to the embodiments specifically illustrated by the above-described drawings and specifications. .

In addition, in the present invention, the fibrillation tube and the center tube were fastened by separate connecting lines. As described above, the center tube and the fibrillation tube connected by separate connection lines are intended to smoothly discharge the ground by minimizing the electrical resistance that may be generated by the upper cover while enormous amounts of charge flow in an unstable waveform form for a very short time.

100: preliminary 200: center tube 201: tightening bolt
202: screw tube 203: terminal 204: inner peripheral surface
300: pipe 302: through hole 303: support ring
304: screw fastening means 305: inner core tube 400: fibrillation tube
500: upper cover 501: lower cover 502: upper cover
503: center hole 504: through hole 600: spacer
601: support hole 701: lightning rod 800: reducing agent
801: discharge hole 900: projection 901: first copper pipe

Claims (9)

It is electrically connected to the lightning rod, and the inner tube is filled with the reducing agent and the outlet tube is provided on the circumferential surface, and the fixed tube is filled with the reducing agent around the center tube. Installed, but the copper tube and mesh pipe complex ground rod, characterized in that by the upper cover and the lower cover, the above-described center tube and mesh tube and a plurality of fibrillation tube are integrally combined.
The method according to claim 1,
The inner center tube with an outlet hole is additionally installed in the center of the center tube described above, and the upper part of the center tube and the inner center tube are fixed integrally by the upper cover, and the terminal connected to the lightning rod is connected to the top of the inner center tube. And a copper pipe and grounded composite ground rod, characterized in that it is provided with a fastening bolt for fastening after inputting a reducing agent.
The method according to claim 1,
Copper and mesh composite ground rod, characterized in that for arranging a spacer for maintaining a constant distance and securing rigidity between the above-described center tube and the mesh tube.
The method according to claim 1,
The upper and lower lengths of the above-described center tube are longer than the mesh tube, and the copper tube and mesh tube grounding rods are characterized in that they are connected between the upper part of the extended center tube and the fibrillation tube fastened to the upper cover by a connecting line.
The method according to claim 1,
The multi-tubular ground rod, characterized in that between the center tube and the mesh tube is fixed by a screwing means.
The method according to claim 1 or 2,
The multi-tubular grounding rod, characterized in that a plurality of protrusions formed around one of the above-described center tube, mesh tube, fibrillation tube.
The outlet hole is formed in the circumferential surface, and the reducing agent is embedded therein, so that the first copper tube having a larger diameter is disposed outside the central tube, and the plurality of defibrillation tubes are installed around the outer tube. The upper and lower covers are fixed to the upper and lower ends of the first copper pipe and the fibrillation tube, and a screw fastening means is installed between the central tube and the first copper tube, and a spacer is provided between the first copper tube and the fibrillation tube. Copper and mesh pipe ground rods.
The method according to claim 7,
An inner core pipe is additionally installed in the center of the above-described center pipe, and a copper grounding pipe and a ground pipe complex ground rod, characterized in that the terminal connected to the fastening bolt and the lightning rod is located above.
The method according to claim 8,
The multi-tubular grounding rod, characterized in that a plurality of protrusions are formed around any one of the above-described center tube, first copper tube, fibrillation tube.

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