KR101203093B1 - Circular ground plate for electric pole - Google Patents

Abstract

The present invention relates to a pole-type circular ground body (10) connected to the grounding wire (30) extending from the pole 20 to the ground by digging the excavation hole 21 in the lower side of the pole (20).
The circular ground body 10 of the present invention has a circular plate-shaped ground body 11 formed of a ground resistance reducing material having an optimal material composition and a mixed composition ratio, and has the same material structure as that of the ground body 11. A plurality of main body support portion 12 protruding radially from the bottom of the main body 11, the insert member 40 of the excellent metallic material inserted into the inner center of the ground main body 11, and the ground main body (11) The lead terminal 51 which can be engaged with the external ground wire 30 to protrude to the outer circumferential surface is provided and has a configuration including a ground lead wire 50 connected to the insert member 40.
In this case, the insert member 40 is deformed into various shape structures and inserted into the ground main body 11 so that the current can be smoothly transferred from the ground line 30 and the discharge efficiency to the ground can be increased. It is.
In addition, according to the present invention is provided with a ring-shaped transport ring 13 protruding on the upper surface of the ground body 11, so that the transport ring and the buried construction process of the circular ground body to work conveniently using the transport ring It is.

Description

Circular ground plate for electric poles

The present invention relates to a circular grounding body for electric poles, and more particularly, the circular grounding body embedded in the lower side of the pole and connected to the ground wire extending from the pole to the ground is formed of a grounding resistance reducing material having excellent electrical conductivity and at the same time. The insert member of this excellent metal material is inserted and the structure of the circular grounding body is designed and designed to greatly widen the contact area with the ground, thereby greatly improving the electrical resistance performance of the circular grounding material. At the same time, the circular grounding body relates to a circular grounding body for electric pole which greatly improves the discharge efficiency to the ground while the contact area with the ground is expanded.

As is well known, grounding protects the operator from electric shock accidents in the event of an accident of electrical installations, poor insulation, excessive voltage such as lightning surge or switching surge in the power circuit or electronic device. It not only prevents the breakdown of equipment, but also removes noise from information and communication equipment, and improves the functionality to achieve high quality information transmission.

That is, a means for electrically connecting a metal or a conductive object to the earth and minimizing the potential or potential difference thereof as the earth. For such grounding, many construction methods and various grounding bodies are used depending on the structure or grounding scale of the soil layer used.

On the other hand, the power generated at the power plant goes through several stages of transformation to reduce transmission losses and then to the secondary substation near the city center. The power reached to the secondary substation is stepped down to the distribution voltage, and then supplied to the general customer through the distribution line.

The distribution line is composed of a distribution line and a pole for supporting the distribution line, such a distribution line is usually installed in the form of overhead lines spaced at a certain height from the ground along the roadside of the city for convenience of installation and management.

The distribution line installed as above is exposed to the air, and thus extends over a long distance, frequently receiving invasion of abnormal voltages such as lightning strikes, and frequently causing obstacles such as high-low pressure mixing and ground faults.

In order to protect various power distribution equipments from abnormal voltage or current invading power distribution lines due to the above accidents, and to prevent human or livestock from being damaged, abnormal voltages invaded by power distribution lines are quickly discharged to ground through ground wire and ground rod. I need to.

In general, the technical standards for electrical equipment establish certain standards to be followed in grounding distribution lines to ensure safety from such accidents.

In order to ground the distribution line in accordance with the above standards, conventionally, the ground wire installed in the pole and the ground rod is directly connected, spaced apart more than a certain distance from the pole, and then the ground rod is buried directly below a certain depth.

This construction method is to dig a hole for embedding electric pole first, and then to dig a hole to bury the ground wire from the hole to a certain point where safety is secured, and then install a ground rod using the same point hammer and connect the ground wire. It was a way of asking back.

However, such a grounding method requires digging additional ground for embedding the ground line in addition to the hole for embedding electric poles in the city center where customers are crowded. Therefore, the existing pavement or sidewalk block must be dug up, so excavation and There is a problem that excessive recovery cost and construction period is long.

In addition, the ground construction method requires a lot of time to bury the ground rods because the ground rods should be hammered at a certain depth below the surface of the ground, and other underground facilities (eg, water pipes) that have not been identified among the underground facilities. , Gas pipes, communication cables, etc. are often damaged.

In addition, since the grounding construction method is performed in an area where various facilities such as buildings and residential areas in the city are concentrated, it is difficult to secure a space for obtaining a prescribed grounding resistance according to the local situation, and thus it is difficult to obtain a predetermined grounding resistance value. Many.

In order to solve the above problems, the ground rods are vertically connected in series, or two or more ground rods are spaced apart by a predetermined distance or more.

However, this grounding method was able to lower the theoretical grounding resistance, but in practice, there was a difficulty in construction because it still failed to solve the space securing problem in the city center, and also had a problem of increasing construction cost and delaying construction period. there was.

As a way to solve the above problems, the electric pole grounding device made of a conventional insulator was devised and applied for utility model registration, registration (registered utility model No. 0185354).

The electric pole grounding apparatus disclosed in Korean Utility Model Registration No. 0185354 (announced on June 5, 2000) is formed by injecting an insulating cover with a plurality of metal fixing pieces integrally on the bottom thereof, and grounding rods on a nut installed at a lower end of the insulating cover. The screw is coupled, and the grounding device is configured in the form of coupling the ground wire to the center of the fixing piece of the insulating cover.

Through this configuration, the electric pole grounding device is embedded when the electric pole, the grounding device is coupled to the bottom of the electric pole to be embedded together, while solving the various problems in the above construction, while the ground rod deeper than before As it was possible to bury it, it was possible to secure a lower ground resistance than in the past.

However, the grounding method can significantly reduce the inconvenience in construction, but can not significantly reduce the overall grounding resistance as the contact resistance between the ground electrode and the earth, which is the most important factor for determining the grounding resistance, cannot be improved. There was this.

In general, in the installation of the ground electrode, important factors for determining the ground resistance include the characteristics of the ground electrode itself, the characteristics of the surrounding soil, and the contact resistance between the ground electrode and the soil. Here, the surrounding soil is already determined according to the landfill situation of Jeonju, and since the grounding electrode is one that is already commercialized, the main variable that determines the grounding resistance is the contact resistance between the grounding electrode and the earth, and thus, to improve it. Efforts are ongoing.

Accordingly, in the related art, as a method for reducing contact resistance between the ground electrode and the ground, a method of mixing a ground resistance reducing agent with water and filling it between the lower end of the pole and the ground was used when embedding the pole.

However, this construction method has the effect of remarkably improving the grounding resistance.However, when the grounding rod is buried, the hole for embedding the pole is dug, and the grounding resistance reducing agent is mixed with water to form a dough. As the work process became very complicated, such as building a telephone pole on top of it, the construction time was lengthened, and there were various inconveniences in construction such as the need for various additional work during the work.

Accordingly, the present invention has been researched and developed in accordance with the general electrical equipment technical standards in order to improve the problems of the conventional ground construction method as described above, the object of the present invention is buried under the pole and extending from the pole to the ground and The circular ground connected is molded with a grounding resistance reducing agent with excellent electrical conductivity, and an insert member made of metal with excellent electrical conductivity is inserted therein, and the structure of the circular grounding structure can greatly increase the contact area with the ground. By fabricating, the electrical resistance performance of the circular grounding material is greatly improved, and at the same time, the circular grounding body structurally provides a circular grounding body for improving the discharge efficiency to the ground as the contact area is enlarged. There is.

In addition, the present invention has a difficulty in constructing a horizontal ground plane in the excavation hole as the excavation hole is excavated to a depth of about 2 ~ 3m in the process of the grounding body is made in the shape of a disc and embedded in the lower pole Therefore, it is another object to provide a circular grounding body for pole poles with a carrying ring which can facilitate the conveyance movement of the circular grounding body as well as ensuring the convenience of work in the buried construction process of the circular grounding body. .

The present invention for achieving the above object is a pole grounding ground for electric pole connected to a ground wire extending from the pole to the ground digging excavation hole in the bottom of the pole, the circular grounding body, the ground resistance reducing material A ground body in the form of a circular plate body which is molded and uniformly formed by dispersing carbon fibers therein; a plurality of main body supporting parts formed radially from the bottom of the ground body and having the same material configuration as that of the ground body; And a lead terminal capable of engaging with an external ground wire to protrude to the outer circumferential surface of the ground body, and a ground lead wire connected to the insert member. do.

Here, the grounding resistance reducing material is molded into the ground body, cement 55 to 65% by weight, graphite 10 to 15% by weight, 9 to 11% by weight of gravel of 5 to 6 mm, sand 15 to 17% by weight, carbon 25 to 30% by weight of water is mixed with the total composition weight mixed with the mixed composition ratio of 1 to 3% by weight of fibers, and 0.04 to the total weight of the mixture mixed with the mixture composition ratio It is preferable that the weight of the antifoaming agent and 0.4% by weight of the fluidizing agent to the weight of the cement is added to form the ground body in the form of mortar.

In this case, the insert member may be composed of a disc-shaped disc, a plurality of perforations formed by partially cutting on the disc, and a plurality of perforated bending plates formed by vertically bending the cut portions of the partially perforated perforations. .

In addition, the insert member is composed of an annular shaped round bar, a round bar rail crossing the center of the round bar, and a plurality of discharge protrusions protruding radially from the outer circumferential surface of the round bar to protrude to the outer circumferential surface of the ground body. Can be.

In addition, the insert member may be made of a reticular body formed in the form of a net by tearing apart the iron plate like a net.

In particular, the upper surface of the ground body is preferably provided with a ring-shaped transport ring protruding.

According to the present invention, the ground body of the circular ground body, which is buried under the pole and connected to the ground wire extending from the pole to the ground, is formed of an earth resistance reducing material having excellent conductivity and at the same time, an insert member made of metal having excellent conductivity therein. Is inserted into the bottom surface of the ground body, and is designed and manufactured with a shape structure having a plurality of body support parts which can greatly increase the contact area with the ground, thereby greatly improving the electrical resistance performance of the circular ground material and structurally. Therefore, the circular grounding body has an effect of greatly improving the discharge efficiency to the ground as the contact area with the ground is enlarged.

That is, in forming and fabricating the circular ground body in the mortar form, the material composition and the mixing composition ratio of the ground resistance reducing material are configured in an optimal state, whereby the electrical resistance performance can be greatly improved.

In particular, by inserting a variety of deformation shape of the insert member of the metal material having excellent electrical conductivity inside the ground body, it is possible to smoothly transfer the current from the ground wire and increase the discharge efficiency to the ground.

In addition, according to the present invention is provided with a ring-shaped transport ring protruding on the upper surface of the ground body, there is an effect that can be conveniently worked using the transport ring during the transport movement and buried construction process of the circular ground body.

1 is an exemplary view showing a state before the circular ground body according to the present invention buried in the underground under the pole.
Figure 2 is a use example showing a state in which the circular ground body according to the present invention is connected to the ground line is buried in the ground below the pole.
Figure 3 is a perspective view showing the configuration of a circular ground body according to the first embodiment of the present invention.
Figure 4 is a side view of the circular ground body shown in Figure 3 according to a first embodiment of the present invention.
5 is a bottom view of the circular ground body shown in FIG. 3 according to the first embodiment of the present invention.
Figure 6 is a perspective view showing the configuration of a disc-shaped insert member inserted into the circular ground member shown in Figure 3 according to a first embodiment of the present invention.
Figure 7 is a perspective view showing the configuration of a circular ground body according to a second embodiment of the present invention.
8 is a side view of the circular ground body shown in FIG. 7 according to a second embodiment of the present invention.
Figure 9 is a perspective view showing the configuration of a round rod-shaped insert member inserted into the circular ground shown in Figure 7 according to a second embodiment of the present invention.
Figure 10 is a side view showing the configuration of a circular ground body according to a third embodiment of the present invention.
Figure 11 is a perspective view showing the configuration of the reticular insert member inserted into the circular ground member shown in Figure 10 according to a third embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the electric pole circular ground for electric pole according to the present invention will be described in detail.

Here, the thickness of the lines or the size of the components shown in the accompanying drawings for explaining the preferred embodiment of the present invention may be exaggerated or omitted for clarity and convenience of description, according to the reference numerals written in the drawings Terms given are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator.

As shown in Figures 1 and 2, the circular ground body 10 according to the present invention is excavated by digging the excavation hole 21 in the lower portion of the pole 20, the ground wire 30 extending from the pole 20 to the ground ) Is the electrical equipment responsible for grounding.

3 to 6, the circular ground member 10 according to the present invention is formed of a circular plate body shape is formed of a ground resistance reducing material which is a conductive mortar and evenly distributed molded carbon fibers therein. A ground body 11, a plurality of body support portion 12 having the same material configuration as the ground body 11 and protruding radially from the bottom of the ground body 11, and the inside of the ground body 11 The insert member 40 made of a metal having excellent electrical conductivity inserted into the center and a lead terminal 51 which can be engaged with an external ground wire 30 to protrude to the outer circumferential surface of the ground main body 11 are provided. It has a configuration including a ground lead wire 50 connected to 40.

At this time, as the ground resistance reducing material to be molded into the ground body 11, cement, graphite, 5 to 6 mm in size gravel, sand, carbon fiber is adopted as the main material.

Here, the mixed composition ratio of the ground resistance reducing material molded into the ground body 11 is 55 to 65% by weight of cement, 10 to 15% by weight of graphite, 9 to 11% by weight of 5 to 6 mm gravel, and 11 to 15% by weight of sand. It is preferred to have a mixing composition ratio of 17% by weight and 1 to 3% by weight of carbon fibers.

At this time, the grounding resistance reducing materials having a mixing composition ratio as described above are made of a mortar-type dough through mixing process of 1 and 2, and then molded into the circular ground member 10 in a mold prepared in advance. Will be produced.

That is, the cement, graphite, sand, etc. are prepared in powder form and mixed together with 5 to 6 mm in size of gravel and crushed carbon fiber in a rotating mixer at once and rotated at a constant RPM to be mixed first. In addition, the grounding resistance reducing materials mixed as the primary mixed as described above are made of a conductive mortar-type dough to be molded into the circular grounding body 10, and water 25 to 30 with respect to the total weight of the mixture mixed at the above mixing composition ratio. Pour weight percent and mix second.

And, by mixing the ground resistance reducing material in the form of a conductive mortar to form the circular ground member (10) by pouring 25-30% by weight of water with respect to the total weight of the mixture mixed in the mixing composition ratio as described above It is preferable.

At this time, the ground resistance reducing materials are smoothly mixed by adding 0.04% by weight of an antifoaming agent and 0.4% by weight of a fluidizing agent based on the weight of the cement to the water. It is desirable to have the materials have a mortar form that is evenly dispersed and blended.

Here, the mixing composition ratio of the grounding resistance reducing material based on the weight of the cement, gravel, sand, etc. in consideration of the overall weight and strength of the circular grounding body 10, in addition to the moldability when molding in the form of mortar At the same time, it can be said to be the optimal mixing composition ratio found in accordance with the research and development goal to realize the electrical equipment for grounding that meets the electrical equipment technical standards.

In addition, the graphite and carbon fibers are generally the materials most commonly used in the art in connection with the reduction of the ground resistance, and the respective composition ratios for the weights as described above are optimal mixture composition ratios according to the above-described R & D goals. It is decided. That is, by mixing a conductive material such as carbon fiber and graphite having a low electrical resistivity, the electrical resistance can be reduced.

In particular, the carbon fiber is a known material that reinforces the fiber in carbon, and is a material that is very important to be mixed in order to reduce the grounding resistance and strengthen the strength in the ground body 11, and is evenly distributed in the ground body 11. It is preferable to mix | blend.

In this case, the more the carbon fiber is mixed as the grounding resistance reducing material, the lower the grounding resistance and the strength can be reinforced due to the characteristics of the carbon fiber material. The reason for limiting to 1-3 weight% is for the following reasons.

That is, when the carbon fiber is mixed by more than 3% by weight, because the fiber properties of the carbon fibers are entangled with each other, it is difficult to evenly mix the entire mixture having the above-described mixing composition ratio, This is because when the carbon fiber is mixed in less than 1% by weight, the problem that the product performance as the electrical equipment for grounding is significantly lowered has been confirmed experimentally.

That is, when constructing a ground resistance reducing material having an optimal mixed composition ratio with cement, graphite, gravel and sand as described above, it is preferable to limit the composition ratio of the carbon fiber to 1 to 3% by weight based on the total mixture weight. will be.

And, as shown in the figure the outer shape of the ground body 11, the width of the excavation hole 21 excavated for embedding the electric pole 20 is excavated in consideration of the diameter of the electric pole 20 and this excavation hole (21) Since the ground main body 11 is positioned below the pole 20 inside, it is formed in the shape of a disc in the same shape as the cross-section of the pole 20, and slightly compared to the diameter of the pole 20. By forming the same or larger, it may be desirable to be formed so as to be horizontally balanced below the pole 20 and arranged side by side with the pole 20.

In particular, a plurality of the main body support portion 12 protruding radially on the bottom surface of the ground body 11 assists the ground body 11 to be horizontally balanced and embedded below the electric pole 20. Along with the role, it is designed to increase the grounding effect as much as possible, by forming a circular ground body (10) buried in the ground relatively relatively to the buried ground.

In FIG. 5, showing a preferred embodiment of the present invention, one main body support part 12 is formed at the center of the bottom of the ground main body 11, and four main body support parts 12 are radially formed at regular intervals. Although illustrated as being formed in a structure, the spirit pursued in the present invention is not limited to being arranged in a radial structure at the same time as the body support portion 12 is formed in a total of five as described above. However, in consideration of the overall weight and balance of the circular ground body 10, it may be desirable to properly design the number and arrangement of the body support portion 12 formed.

For example, in the preferred embodiment of the present invention, the ground body 11 has a diameter of about 400 mm, a thickness of 80 mm, and the main body support part 12 has a maximum diameter of 80 mm and a height of 65 mm. It is enough. In this case, in the structure in which one main body support part 12 is formed at the center of the bottom surface of the ground main body 11 and the four main body support parts 12 are formed in a radial structure at regular intervals. The centers of the two main body support parts 12 are arrange | positioned on the circumference of 240 mm in diameter.

Meanwhile, as shown in FIGS. 3 to 11, the circular ground body 10 according to the present invention has different embodiments according to the shape and material of the insert member 40 inserted into the ground body 11. .

That is, the insert member 40 receives a current generated from the electric pole 20 through the ground wire 30 by using a conductor such as a metal having excellent electrical conductivity (aka, electrical conductivity) and the ground main body 11. Together, it is a member that plays a very important role in grounding construction to discharge to ground.

At this time, the insert member 40 is inserted into the inner central portion of the ground body 11, the ground lead wire (30) to connect the ground wire 30 extending to the ground from the pole 20, etc. to the insert member 40 50 is connected, and one end of the ground lead wire 50 is provided with a lead terminal 51 that can be connected to the ground wire 30.

Since the ground lead wire 50 is firmly connected to the insert member 40 through welding, the ground lead wire 50 is not easily disconnected and allows smooth current flow (or transfer) to each other.

Here, the insert member 40 used in the circular grounding body 10 according to the first embodiment of the present invention shown in Figures 3 to 6 has a disk-like structure.

That is, the insert member 40 according to the first embodiment of the present invention includes a disc-shaped disc body 41, a plurality of perforations 42 formed by being partially cut on the disc body 41, and the portion. It consists of a plurality of perforated bending plate 43 formed by vertically bending the cut portion of the cut perforated 42.

At this time, the disc 41 may be made of copper or stainless steel.

For example, as one preferred embodiment, when the disc 41 is used as the copper material, the diameter is 240 mm, and when the copper plate having a thickness of about 0.7 mm is used, or when used as a stainless material, the diameter is A stainless steel plate having a thickness of about 320 mm and having a thickness of about 2 mm (for example, using steel containing 18% Cr-8% Ni, denoted as STS 304) is used. At this time, as described above, the ground body 11 has a diameter of about 400 mm, a thickness of 80 mm, and the main body support part 12 has a maximum diameter of 80 mm and a height of about 65 mm.

Of course, the above specification is only one preferred embodiment, it is a matter of course that a simple design can be changed according to the manufacturer's choice.

That is, when the electric pole 20 is made of concrete, the outer diameter of the electric pole 20 can be produced in various ways according to the KEPCO standard, accordingly, the diameter of the circular ground body 10 can be changed in various designs Since the standard of the insert member 40 can also be produced in various ways.

In addition, the perforations 42 formed on the disc 41 are inevitably formed in the process of forming the perforated bent plate 43, and the perforated bent plate 43 is shown in the drawing. It has a structure in which a partial incision is made in a copper plate or a stainless steel plate at a predetermined interval, and then the cut portion is vertically bent and arranged.

As such, the reason why the perforated bending plate 43 is formed is a measure in consideration of the discharge characteristics of electricity, and since the flow of electricity has a characteristic of being easily discharged through a pointed free end, the ground body 11 is This is to allow the electric current transmitted to the insert member 40 to be discharged more smoothly through the perforated bending plate 43.

At this time, the perforations 42 shown in the preferred embodiment shown in Figures 3 and 6 is concentric circles on the basis of one perforation 42 in the center while having 17 perforations 42 each having a diameter of 30 mm It is arranged to form a.

Meanwhile, the circular ground member 10 according to the second embodiment of the present invention shown in FIGS. 7 to 9 is divided into other embodiments according to the shape change of the insert member 40 as described above. In the circular ground body 10 according to the second embodiment of the present invention, the ground body 11 and the main body support part 12 are the same as in the first embodiment, except that the shape of the insert member 40 is different. There is only.

That is, the insert member 40 according to the second embodiment of the present invention includes an annular round body 44, a round bar rail 45 crossing the center of the round body 44, and the round bar body. Radial protruding from the outer circumferential surface of the 44 is composed of a plurality of discharge projections 46 protruding to the outer circumferential surface of the ground body (11).

In addition, one side of the round bar 44 is firmly connected to the ground lead wire 50 having the lead terminal 51 in a welded state.

Here, the round bar rail 45 performs a function of reinforcing the strength of the round bar body 44, the discharge protrusion 46 is a ground body (1) to the current transmitted from the electric pole 20 to the round bar (44) 11) It smoothly discharges to the ground from the outer circumferential surface.

In this case, in FIG. 7 and FIG. 9, only one round bar rail 45 is disposed across the center of the round bar body 44, but is not limited thereto. Of course, a plurality can be arranged. In other words, simple design changes are possible depending on the strength required.

In addition, since the discharge protrusions 46 protrude radially outwardly from the outer circumferential surface of the ground body 11, the flow of electricity is sharper than that of the perforated bending plate 43 described in the first embodiment. It is to perform the function of discharging the current to the ground more actively and effectively by the characteristics that are more easily discharged through the stage.

At this time, it is preferable that the insert member 40 according to the second embodiment uses a stainless material. In the case of the insert member 40 according to the second embodiment, the discharge member 46 has a plurality of discharge protrusions 46, and the discharge protrusions 46 protrude to the outer circumferential surface of the ground body 11. When the member 10 is buried in the ground, since the earth and the discharge protrusion 46 directly contact each other, they may be easily exposed to moisture and may cause corrosion quickly. Therefore, stainless steel having better corrosion resistance than copper material having low corrosion resistance may be used. This is because it is preferable to use.

Looking at the size of the insert member 40 according to the second embodiment of the present invention shown in the drawings, as shown in the first embodiment, for example, the diameter of the ground body 11 is about 400mm, When the thickness is 80 mm and the maximum diameter of the main body support part 12 is 80 mm and the height is about 65 mm, the round bar body 44 has a diameter of about 320 mm for the round bar having a diameter of 14 mm. It has a rounded structure in the form of a circular ring having a, and the discharge projections 46 on the outer circumferential surface of the annular body 44 has a length of about 60mm and is welded in a radially projecting structure, as a result of the above On the outer circumferential surface of the ground body 11, the discharge protrusions 46 are arranged to have a structure that protrudes to the outside by about 20 mm. In particular, the discharge protrusions 46 has a structure in which six are projected at intervals of 60 ° on the outer circumferential surface of the round bar body 44.

Of course, the above specification is not limited to the above structure because it is only one preferred embodiment as described above, it is natural that a simple design can be changed in various ways as needed. However, in the structure in which the insert member 40 is inserted into the ground main body 11, by having a protrusion that protrudes sharply out of the ground main body 11, such as the discharge protrusion 46, more effectively and smoothly It is characterized by providing a structure that can implement a discharge.

In addition, the circular ground body 10 according to the third embodiment of the present invention shown in FIGS. 10 and 11 has a structure in which the insert member 40 inserted into the ground body 11 is formed of a reticular body 47. It has its characteristics.

That is, the insert member 40 according to the third embodiment of the present invention is made of a mesh 47 formed in the form of a net by tearing apart the iron plate like a net.

In particular, the insert member 40 is manufactured in the form of a net using expanded metal to weld the ground lead wire 50 to one side thereof so that the external ground wire 30 and the lead terminal 51 can be connected. I am placing it.

As such, by broadly distributing the insert member 40 made of the expanded metal formed in the mesh form in the ground body 11, it is possible to maximize the grounding effect and the strength of the circular ground body (10). .

At this time, the expanded metal refers to a metal having a wire mesh structure manufactured in the form of a net by tearing the iron plate like a net and spreading it in a diamond shape, and is mainly made of a mild steel material.

Particularly, as shown in FIG. 11, the expanded metal manufactured in the mesh form according to the third exemplary embodiment of the present invention is manufactured to have a circular structure of about 320 mm to be inserted into the ground main body. At this time, the ground main body 11 has a diameter of about 400 mm and a thickness of about 80 mm as in the first and second embodiments.

On the other hand, the present invention in the circular ground member (10) having the configuration and shape as described above, the operator ensures the convenience of work in the buried construction process of the circular ground member (10) and the circular ground member ( The carrying ring 13 which can facilitate the carrying movement of 10) is provided.

That is, the upper ring of the ground body 11 is provided with a ring-shaped transport ring 13 protruding.

This is because the circular ground body 10 of the present invention is buried under the electric pole 20 is made of a grounding equipment material to perform the grounding function, as shown in Figure 1 and Figure 2 Since the excavation hole 21 to be excavated is usually excavated with a diameter of 50 cm to a depth of about 2 to 3 m, the worker could not directly enter the narrow excavation hole () for ground construction in this state.

In addition, it is one of the important factors in the grounding construction that the grounding body seated in the excavation hole () is arranged in a horizontal balance with respect to the lower end of the pole.

Therefore, it may be desirable to have a structure capable of assisting the worker to horizontally balance the circular ground body 10 in the excavation hole even when the worker does not enter the excavation hole 21.

Accordingly, in the circular ground body 10 according to the present invention, by constructing a transport ring 13 at the center of the upper surface of the ground body 11, a wire (or rope) is connected to the transport ring 13 to be excavated with a separate equipment. The ball 21 is settled down, and the horizontal balance is to be adjusted by adjusting the wire hung on the carrying ring 13.

In this case, before the circular ground body 10 is seated in the excavation hole 21, the ground wire 30 extending from the electric pole 20 is pre-connected to the lead terminal 51 as shown in FIGS. 1 and 2. In this case, it is preferable to connect the lead terminal 51 and the ground wire 30 of the circular ground body 10 by using a separate connecting member 52, so as a separate connecting member 52 Since grounding by connecting the lead terminal 51 and the ground line 30 by a medium is very common, a detailed description of the structure of the connection member 52 is omitted here.

After forming and manufacturing a circular grounding body 10 according to the present invention having the above configuration as described above, a brief look at the method used for grounding construction as follows.

 First, looking at the process of forming the ground body 11 according to the present invention, the ground resistance reducing material prepared in powder form and a predetermined size, respectively.

That is, in accordance with the optimum mixing composition according to the present invention 55 to 65% by weight of cement, 10 to 15% by weight of graphite, 9 to 11% by weight of gravel of 5 to 6 mm, 15 to 17% by weight of sand, First mixing with 1 to 3% by weight of carbon fiber and mixing, when the total weight of the mixture having a mixing composition ratio as described above 100% by weight, 25-30% by weight of water relative to the total weight of the primary mixed Pour the mixture into the mortar form in the secondary.

At this time, the liquid defoaming agent having a 0.04% by weight relative to the total weight of the mixture primarily mixed in the mixing composition ratio in the process of mixing the water, and a liquid fluidizing agent having a 0.4% by weight relative to the weight of the cement in advance in water It is mixed and added during the second mixing process.

In addition, the insert member 40, in which the pre-prepared ground lead wire 50 is welded, is disposed inside the mold in which the insert member 40 is formed in a predetermined shape (that is, the mold for manufacturing the circular ground member 10), and here, 2 The grounding resistance reducing material kneaded in the form of mortar prepared by the tea mixing process is injected into the mold.

At this time, the carbon fiber in the ground resistance reducing material is rotated and mixed at an appropriate RPM in the first mixing process and the second mixing process to be evenly dispersed in the ground body 11, thereby reducing the ground resistance and strength reinforcement.

In addition, the circular ground member 10 formed in the mold is cured for a predetermined time, thereby completing the electrical installation material required for the ground construction required by the manufacturer.

In particular, a lead terminal 51 integrally provided on the ground lead wire 50 is exposed to one side of the ground main body 11 manufactured as described above, and is exposed to the outside through the lead terminal 51. As shown in FIG. 2 and described above, a separate connection member 52 is connected to the ground wire 30 extending from the pole 20 to the ground, and the circular ground body 10 is connected to the pole 10 of the pole 10. By deeply buried in the lower ground, the circular ground body 10 is to perform a semi-permanent grounding function while the electric pole 20 is standing.

On the other hand, as a result of measuring the ground resistance changed in the state of embedding the prototype grounding circular body 10 according to the present invention completed through the configuration and manufacturing process as described above, as shown in Table 1 below I was able to get the data value.

(Table 1)

As shown in Table 1 above, when the circular ground body 10 according to the present invention was buried in the ground for almost three months, the change in ground resistance was found to be stabilized as the ground resistance gradually decreased. Although the earth resistivity is about 125 ~ 129 원형 level, the circular ground body 10 of the present invention has a difference in each product, but it can be seen that it has a clearly smaller resistance value than the earth resistivity, which is small in resistance. Using the principle that current flows toward the ground, it can be seen that it satisfies the technical level of electrical equipment that is required to perform grounding function in the ground.

Particularly, in the specification of the circular ground body 10 according to the present invention, the ground body 11 has a thickness of 80 mm and a diameter of 400 mm, and the protruding length of each of the five main body support parts 12 is 65 mm. The maximum diameter was 80 mm, and the weight of the prototype in the state where the insert member 40 of the above-described specification was inserted was about 15 kg.

Although it differs in overall shape and construction method, the weight of the other company's ground plate (40mm in thickness, 200mm in width and 1000mm in length) that is used for grounding of electric pole and delivered to KEPCO is about 18.90kg In comparison with the degree, it was found that the circular ground member 10 of the present invention had a weight loss of about 4 kg.

As such, the circular grounding body 10 according to the present invention considers the grounding resistance required in the grounding construction according to the technical level of electrical equipment, and when compared with other grounding bodies that are currently constructed, the grounding resistance performance is greatly improved. As well as being able to confirm, it was confirmed that the construction has excellent advantages due to the relative weight reduction according to the circular ground body (10) standards.

Although the present invention has been described with reference to the preferred embodiments shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent embodiments are possible therefrom. .

Accordingly, the true scope of protection of the present invention should be defined only by the appended claims.

10: circular ground body 11: ground body
12: main body support portion 13: carrier ring
20: Jeonju 21: Excavator
30: ground wire 40: insert member
41: disk 42: perforation
43: perforated plate 44: round bar
45: round rod side 46: discharge projection
47: reticular 50: lead wire
51: lead terminal 52: connecting member

Claims (6)

In the electric pole circular ground 10 for digging and digging the excavation hole 21 in the lower portion of the electric pole 20 and connected to the ground wire 30 extending to the ground from the electric pole 20,
The circular ground body 10 is formed of a ground resistance reducing material and is formed in the shape of a circular plate body having a carbon fiber evenly distributed therein and a ground material having the same material configuration as that of the ground body 11. A plurality of main body support portion 12 protruding radially from the bottom of the main body 11, insert member 40 of a metallic material having conductivity inserted into the inner center of the ground main body 11, and the ground main body (11) a lead terminal 51 which can be engaged with an external ground wire 30 so as to protrude to an outer circumferential surface thereof, and a ground lead wire 50 connected to the insert member 40;
The grounding resistance reducing material, 55 to 65% by weight of cement, 10 to 15% by weight of graphite, 9 to 11% by weight of gravel of 5 to 6 mm, 15 to 17% by weight of sand, 1 to 3% by weight of carbon fiber 25 to 30% by weight of water is mixed with the total composition weight mixed with the mixed composition ratio, and the water is 0.04% by weight of an antifoaming agent with respect to the total mixture weight mixed with the mixed composition ratio, A circular grounding body for electric poles, characterized in that the grounding body (11) is formed into a mortar form by adding 0.4% by weight of a fluidizing agent to a weight with cement. delete The method of claim 1,
The insert member 40,
Disc-shaped disc body 41, a plurality of perforations 42 formed by partially cutting on the disc 41, and a plurality of perforations formed by vertically bending the cut portions of the partially cut perforated 42 Circular ground for poles characterized in that consisting of a plate (43). The method of claim 1,
The insert member 40,
An annular annular body 44, a circular rod rail 45 crossing the center of the annular body 44, and radially protruded from the outer peripheral surface of the annular body 44 to the outer peripheral surface of the ground body (11) Circular ground for poles characterized in that consisting of a plurality of protruding discharge projections (46). The method of claim 1,
The insert member 40 is a circular ground body for electric poles, characterized in that consisting of a reticular body formed in the form of a net by tearing apart the iron plate like a net. 6. The method according to any one of claims 1 to 5,
Circular ground for poles characterized in that the upper surface of the ground body 11 is provided with a ring-shaped transport ring 13 protruding.

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