KR100751830B1 - Ground line having restraint of potential raising - Google Patents

Abstract

A ground line is provided to prevent an electrification accident by suppressing a potential rise by reducing the density of current around an electric pole when a lightning strikes the electric pole. A ground line(100) includes a ground mother line(110) and a discharge line(120). The ground line is buried around an electric pole such that a charge density around the electric pole is reduced. When a lightning strikes the electric pole, the ground line prevents a potential around the electric pole from increasing, such that an electrification accident is reduced. The ground mother line is made of an exposed copper line with a diameter of 5 mm. The discharge line has a length of 200 mm and arranged on the ground mother line such that the discharge line is crossed with the ground mother line. A diameter of the discharge line is 2 mm.

Description

Ground wire with potential rise suppression function {GROUND LINE HAVING RESTRAINT OF POTENTIAL RAISING}

The present invention relates to a grounding wire having a potential rise suppression function, and more particularly, by embedding a grounding wire having a potential rise suppression function around a telephone pole to lower the charge density around the telephone pole, thereby generating a current generated by lightning surge and external surge. It is related to the grounding wire which can suppress the electric potential rise of the earth at the time of inflow and can reduce the electric shock or human accident by the electric potential difference.

1 is a view showing a telegraph pole structure including a conventional transmission line, etc., FIG. 2 is a view conceptually showing the overhead line support installed on the telephone pole and the telephone pole shown in FIG. 1, Figure 3 is a conventional lightning arrester Illustrated as an example.

1 and 2, the overhead pole 4 is usually provided with a processing branch line 1, a power transmission line 3, and a ground line 5.

The overhead line 1 is a metal wire attached to the upper part of the conductor to protect the transmission line 3 supported by the telephone pole 4 from direct lightning, and serves as a lightning rod or lightning arrester. Perform. When lightning strikes, the lightning current is connected to the processing ground support (2) made of metal from the processing ground (1), the ground wire (5) installed outside the telephone pole, and the ground rod embedded in the ground ( 10) to the ground through. The overhead line support 2 is generally made of metal and is installed at the upper end of the telephone pole 4, and is electrically connected to the overhead line 1, and the ground line 5 is formed at the lower end of the support 2. It is connected. Grounding wire (5) is generally made of 38 ~ 100 mm ² coated copper wire, the buried portion is made of a bare copper wire, it is electrically connected to the ground rod (10).

As shown in Fig. 2, it is usually made of a copper rod having a diameter of 14 to 18 mm, a length of 1 to 2 m, and embedded upright or horizontally in the lower site of the telephone pole. Therefore, such a thickness of the ground rod or the ground wire is hardly bent at or after landfilling.

Meanwhile, in FIG. 1, in the process of discharge of lightning to the ground due to lightning strikes on the transmission and distribution lines, the current applied to the ground electrode is a fault current due to lightning and surge, a failure of the power system and electric equipment, and an unbalanced current due to three-phase unbalance. When the current is absorbed into the ground, the current flow is disturbed by the impedance and ground resistivity of the ground electrode, which causes the ground potential rising voltage to be generated by the impedance multiplied by the current. do.

Due to the rise of the ground potential, a potential difference is formed on the ground of the pole of the telegraph pole and a current flows to cause a shock and an electric shock.

Current countermeasures to prevent potential rise caused by lightning strikes include grounding facilities that lower ground resistance and quickly discharge discharge currents into the ground.

3 is a view showing an example of the grounding rod for surge discharge disclosed in Korean Utility Model Registration No. 20-206713 as an example of the grounding rod of the improved form of FIG. 2 for suppressing such a potential rise. In the ground rod for surge discharge shown in FIG. 3, the discharge needle is further installed in the direction parallel to the earth rod to increase the discharge effect by using the property of the straight current. A crimped connection reducer 14 having a lead wire hole 14a formed on the other side of the hole 14b is provided to insert the lead wire 13 into the lead wire hole 14a so that the earth rod terminal hole 14b is provided. After inserting the air rod 11, press-bonding and covering the outside with the heat shrink tube 15 to widen the contact area and make a solid connection, thereby minimizing the resistance of the current to eventually discharge effect of the ground rod Is to maximize.

Ground rod 10 made of a bare copper wire shown in Figure 2 has a disadvantage in that it is difficult to suppress the potential rise, so there is a lot of surge protection and accident risk during the lightning strike.

The grounding rod 10 for surge protection shown in FIG. 3 has a disadvantage in that the contact force with the earth is reduced due to compaction and settlement of the earth after installation of the grounding facility, thereby increasing the ground resistance when used for a long time. In addition, although the function of suppressing the potential rise is expected to some extent, when the ground rod is generally short enough, the effect of suppressing the potential rise is not large, and when the ground rod is made long to increase the suppression effect of the potential rise, the production cost is high. For many, there is a disadvantage in that the unit cost of the ground rod increases, and not only the landfill is difficult, but also after the completion of the ground construction, the ground resistance is increased due to ground subsidence, and the construction cost is increased.

In order to solve the above problems, an object of the present invention is to install a plurality of ground poles made of copper copper wire of about 2mm in diameter to a ground bus line consisting of copper copper of about 5mm in diameter By providing a peak, it is providing the ground wire excellent in the potential rise suppression function.

Another object of the present invention is to provide a ground wire having a diameter of about 5 mm, which is easy to bend, easy to construct, and has a low potential rise suppressing function.

It is still another object of the present invention to provide a ground wire having a potential rise suppression function capable of maintaining a discharge effect by maintaining contact force between the ground electrode and the ground even after a long period of time, because it flexibly acts upon changes in ground settlement and compaction degree. have.

By embedding a ground wire having a potential rise suppression function around the telephone pole according to a preferred embodiment of the present invention to lower the charge density around the telephone pole, the current generated by lightning surge and external surge suppresses the potential rise of the earth when inflow. A ground wire for reducing electric shock or human accidents caused by a potential difference, the ground bus having a diameter of about 5 mm and a length of about 200 mm, and are arranged at regular intervals so as to intersect the ground bus on an upper part of the ground bus. It is composed of discharge poles of about 2mm in diameter,

Preferably both ends of the discharge polar line constituting the ground line having a potential rise suppression function according to an embodiment of the present invention is inclined at 15 ~ 85 ° in consideration of the discharge characteristics of the charge to form a peak.

The ground line according to the present invention has a very excellent effect of suppressing the potential rise to effectively discharge the electric charges applied to the ground line by forming a plurality of peaks so that a plurality of discharge poles cross each other on the ground bus. have.

In addition, the grounding wire according to the embodiment of the present invention has flexibility in installing the grounding wire, and thus flexibly acts on the ground subsidence and the degree of compaction, thereby maintaining the contact force between the ground electrode and the ground even after a long time, There is an advantage that the discharge effect can be maintained.

 The ground wire according to the embodiment of the present invention has an effect that the manufacturing cost is low and easy to install compared with the conventional surge discharge ground rod.

In the above description of the embodiments of the present invention, a ground wire having a potential rise suppressing function is provided in detail so that a plurality of discharge poles intersect the ground buses, but it is recognized that the present invention is not limited thereto. shall. In other words, it can be seen that other types of ground buses, for example, a flat ground bus, may be modified or changed such that is used within the scope of the appended claims of the present invention. Should be interpreted.

Hereinafter, a ground line having a potential rise suppression function will be described in detail with reference to FIGS. 4 and 5.

4 is a view showing a ground line having a potential rise suppression function according to an embodiment of the present invention, (a) is an enlarged view of a ground line having a potential rise suppression function, (b) is a straight line state, ( c) is a diagram showing a bent state, (d) is a conceptual view showing an enlarged state before the installation of the ground wire, an enlarged view, Figure 5 is a ground wire shown in Figure 4 around the telephone pole It is a figure which shows the form installed in the.

4 and 5, the ground wire 100 having the potential rise suppression function is composed of a ground bus 110 and a plurality of discharge poles 120 joined to intersect on the diameter of the ground bus 110. . Ground bus line 110 is generally composed of a copper bare copper wire used as a ground wire, the ground wire is preferably about 5 mm in diameter (4 ~ 6mm) is relatively easy to bend. Conventional grounding rod 10 as shown in Figures 2 and 3 is generally Φ 14 ~ 18 mm in diameter, 1 ~ 2m in length, since the grounding rod 10 is in the form of a rigid rod hardly bent, so the vertical Or when the landfill horizontally, the digging depth for landfilling should also be deepened.

On the other hand, according to Figures 4 and 5, since the ground wire 100 having a potential rise suppression function according to an embodiment of the present invention is about 5mm in diameter, there is a certain degree of bending flexibility, d) can be rolled up or stored as a general electric wire, as in the case of d), and even when installed, it is not necessary to dig the ground deep by digging a certain depth, for example, about 70 cm wide, and burying the ground wire in a zigzag form. From the side, it can be seen that construction is much easier.

In addition, as shown in FIG. 4A, the discharge pole 120 is made of copper bare copper wire having a diameter of about 2 mm (1 to 3 mm) and a length of about 200 mm (190 to 210 mm). It is formed in size, and the inclination θ of the end end is cut to be inclined at about 15 to 85 degrees. Such oblique cutting is intended to form a sharp point in consideration of the characteristic that charges are generally concentrated in a pointed portion, that is, the charge density is increased in a portion having a small cross-sectional area.

The ground wire 100 having the potential rise suppressing function formed as shown in FIG. 4A is a discharge pole 120 having a peak formed thereon at a predetermined interval, for example, at 200 mm intervals on the ground bus line 110. It is fixed by a method such as welding.

 As shown in an enlarged view of Fig. 4A, the discharge polar lines are arranged one by one, but it can be seen that a plurality of discharge poles may be welded to the opposite or simultaneously surfaces.

The ground wire is configured to be installed more than a certain depth from the ground to improve the ground resistance and the contact area and contact force of the ground to improve the ground resistance value and to reduce the impedance to lower the discharge potential to a lower discharge starting voltage.

Most soils in Korea have a lot of rock structures, so most of the soils have high soil resistivity. Therefore, the ground wire having a potential rise suppression function according to an embodiment of the present invention is not deeply affected by the ambient temperature, for example, about 75 cm, than a perforation method in which the earth is one of the conventional ground wire construction methods. It is suitable for the method of embedding to about a meter.

The current applied to the ends of the ground wire is generated by lightning and surge, fault current due to failure of power system and electric equipment, unbalance current due to three-phase unbalance, and the impedance and earth resistivity of the ground electrode when this current is absorbed into the earth. The current flow is disturbed by the current, and the ground potential rise voltage is generated by the impedance multiplied by the current at the end of the ground wire which is the inflow point of the current.

Therefore, a potential difference is formed in the ground around the telephone pole due to the rise of the ground potential, and current flows, resulting in shock and electric shock. It is necessary to prevent potential rise caused by current lightning. However, the only countermeasure against potential rise is grounding equipment that lowers the ground resistance and quickly discharges the discharge current to the ground. However, it is practically impossible to maintain a low ground resistance for power pole installations.

Here, the most ideal end of the ground wire is completely absorbed by the earth by smoothly flowing the current because of low electrical resistivity and perfect electrical coupling without contact resistance with the earth. However, this is not practical because the resistivity of the earth is in the hundreds to thousands of Ω-m. On the other hand, when looking at the ground from a surge point of lightning or the like, the energy steeping wave is strong and there is concern about insulation breakdown or reverse flashover due to induced voltage. Therefore, the effective ground discharge of the incoming current should take advantage of the impedance reduction effect. Therefore, discharge at the ground electrode should be possible at low voltage if possible and discharge should occur before reverse flashover. For this purpose, it is difficult to premature discharge only with a conventional ground electrode.

On the other hand, in order to increase the charge density in order to suppress the increase of the earth potential by lowering the grounding resistance, lowering the grounding resistance, and lowering the discharge voltage, a large number of pointed discharge electrodes are formed at the end of the ground wire or the grounding network to increase the charge density. It is effective to suppress earth potential rise by inducing and discharging at an early stage.

In the case of connecting the needle ground wire to the existing solid ground rod as shown in Figure 3, the contact force with the ground is reduced due to the degree of compaction and settlement of the ground, which provides a cause of increasing the ground resistance when used for a long time.

However, since the discharge poles are intersected on the ground bus according to the embodiment of the present invention, they are integrally formed by a method such as copper spot welding, thereby flexibly acting on the settlement and the degree of compaction of the buried earth having a function of suppressing potential rise. Therefore, there is an advantage that the contact force between the ground electrode and the earth does not fall even after a long period of time.

The ground wire 100 manufactured as shown in FIG. 4 is embedded in the ground around the telephone pole.

As shown in FIG. 5, the buried ground wire 100 is preferably buried in a circle around the telephone pole in order to increase the grounding effect. However, when it is not easy to bury, such as in mountainous terrain, it can be seen that even if buried in a zigzag form, the grounding effect can be sufficiently achieved.

1 is a view showing a lightning protection grounding structure around a conventional telephone pole,

Figure 2 is an enlarged view showing one form of a conventional buried ground rod,

Figure 3 is a view showing the form of a conventional buried type surge prevention grounding rod of another type,

4 is a diagram illustrating a ground line having a potential rise suppression function according to a preferred embodiment of the present invention, (a) is an enlarged view of a ground line having a potential rise suppression function, and (b) is a straight line state; (c) is a diagram showing a bent state, (d) is a diagram conceptually illustrating a wound state before installing the grounding wire, an enlarged view,

5 is a diagram illustrating a form in which a ground wire shown in FIG. 4 is installed around a telephone pole.

<Description of the symbols for the main parts of the drawings>

100: ground wire having potential rise suppression function

110: ground bus

120: discharge pole

Claims (2)

By laying a grounding wire with potential suppression function around the telegraph pole to lower the charge density around the telegraph pole, it prevents electric potential rise of the earth when the current generated by lightning strike or external surge flows in and prevents electric shock or human accident due to potential difference. In the ground wire to reduce, A ground bus bar composed of a bare copper wire having a diameter of 5 mm; A ground wire having a potential rise-suppressing function, characterized in that it is arranged at regular intervals so as to intersect with the ground bus bar at the top of the ground bus bar with a length of 200 mm, and has a diameter of 2 mm discharge poles. The ground wire according to claim 1, wherein both ends of the discharge pole are inclinedly cut at 15 to 85 ° in consideration of the discharge characteristics of the charge to form a peak.

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