KR101056724B1 - High Radiation Carbon Grounding Device and Installation Method - Google Patents

Abstract

The present invention is made of a simple structure is easy to process, can be installed by connecting a plurality of grounding device to improve the grounding force, and can be installed by laying the grounding device in the horizontal direction to lower the depth of drilling or trench required for installation It is easy to install, maximizes the ground area and effect that the grounding device can ground, and greatly improves the grounding efficiency. It also has a high-radiation carbon grounding device and a ground wire and grounding device that can discharge lightning or transient surges quickly. It relates to a high-radiation carbon grounding device and its installation method by welding can be maintained in a more rigid connection structure, made of stainless steel, pointed needles formed integrally extending from one side to the side, Stainless steel rods formed with one or more spinning needles formed in the concave shape on the side; A carbon compression rod formed around the outer circumferential center of the stainless steel rod and formed by compressing carbon particles having excellent moisture absorption ability; It is fixed to a stainless steel rod through the carbon compression rod, the material is a stainless steel needle of a long conical shape made of stainless steel; comprising, the ground wire is a high-radiation carbon grounding device for welding and bonding to the stainless steel rod, and Perforate the ground in order to install the high-radiation carbon grounding device, and bury the high-radiation carbon grounding device in the longitudinal direction or bury it in the perforated or expelled ground, or lay it in the transverse direction. The present invention relates to a method for installing a high-radiation carbon grounding device for welding and installing the joint.

Carbon grounding device

Description

High dissipation graphite grounding system and installation method

The present invention relates to a high-radiation carbon grounding device and a method for installing the same, and more particularly, a stainless steel rod, a carbon compression rod formed by compressing carbon on the outer circumference of the stainless rod, and is fixed to the stainless steel rod through the carbon compression rod. Consists of stainless steel needles, the simple structure as described above is easy to process, can be installed by connecting a large number of grounding devices to improve the grounding force, and can be installed by laying the grounding device in the longitudinal direction or lying in the transverse direction It is easy to install by lowering the depth of drilling or dig required for installation, and it maximizes the ground area and effect that the grounding device can ground, and not only improves the grounding efficiency significantly, but also has excellent water absorption ability of carbon. Increase the natural grounding reduction effect. Coupled to a connection structure related to ground and emitting carbon device and the installation method that can be held in a more rigid state.

In general, a disaster caused by an overload, a lightning strike, or a surge voltage is almost impossible for anybody to easily predict, causing a fire of a building structure or expensive electrical and electronic communication equipment and a failure of various devices. Therefore, when a surge voltage such as an overload or a lightning strike occurs, the grounding device is used as a means for preventing the overvoltage and overcurrent from being induced and spreading safely to the ground, thereby preventing damage to important equipment due to the overvoltage and overcurrent.

The general structure of the grounding device is buried in the ground and electrically connects high-voltage wire towers, high-rise buildings, communication equipment, electronic measuring equipment, computing equipment, train rails, etc. to the ground to safely spread surge voltage such as overload or lightning. Thus, such equipment is configured to block the phenomenon of damage caused by surge voltage such as overload or lightning.

The conventional grounding device as described above improves the grounding performance by supplying moisture around the grounding device by using an electrolytic material that is easily absorbed by moisture, but in the case of a dry earth, absorption of moisture is insignificant and satisfactory grounding effect is achieved. It becomes difficult to obtain. Accordingly, when the surge voltage is invaded, the potential of the circumferential surface of the ground rod is sharply increased. At this time, the discharge rate is delayed due to no effective discharge into the soil, and the life of the ground rod itself is shortened or the protection of the surrounding facilities is sufficient There is a problem such as not made.

In addition, in the case of the conventional grounding device as described above, most of the grounding device is made of copper or an alloy of copper, when part of it is buried in soil containing moisture for a long time during the easy reaction, the shape is deformed or the grounding efficiency in preparation for the initial In particular, the grounding resistance reducing agent contains a lot of strong electrolytes, which requires a lot of grounding resistance reducing agents due to the large construction area, which shortens the life of the grounding device such as severely corroding the grounding device. As a result, there was a problem that the installation cost was increased and the installation time was long, and as the length of the ground rod was increased to increase the ground area, and a larger number of ground rods were connected to the ground rod, the drilling depth was very deep. In some cases, it was difficult to install the grounding device.

In recent years, the so-called mesh grounding method has been widely used, which is installed in a very large area due to its structural characteristics, which is made by connecting the copper wire in the form of a network, and is grounded in the form of a net. .

It is easy to get low grounding resistance because of its excellent grounding effect, and it is easy to get low contact voltage or low stride voltage. It will be constructed.

On the other hand, this is not suitable for most buildings, telecommunication relay stations, base stations, etc., where a very large construction area is required and a grounding facility should be installed in a limited area. Installation is required in the form of a net, and requires a considerable amount of skill to connect each net-shaped connection point by crimp sleeve joining or heating welding, and requires periodic reconstruction because the construction cost is high and maintenance is not possible. There is a problem that the operating cost is excessive, so that the grounding device occupies a small area, but a grounding device with excellent grounding effect is required.

The present invention for solving the conventional problems as described above is made of a simple structure is excellent in productivity, can be a plurality of grounding devices to improve the grounding force, by laying the grounding device in the longitudinal direction or in the transverse direction By providing a method of installation, it is possible to reduce the depth of perforation or dig required for the installation of the grounding device, which is easy to install, and utilizes the excellent conductivity of the carbon material and the discharge effect of the discharge needle, In addition to maximizing the effect, the grounding efficiency can be remarkably improved, and the water absorption ability of carbon is excellent, so that the water content can be increased to obtain a natural grounding reduction effect. The purpose of the present invention is to provide a high-radiation carbon grounding device and its installation method.

The present invention for achieving the above object is made of stainless steel, a pointed needle portion formed to extend integrally with the side portion at one end, stainless steel formed with one or more spinning needles are formed in the form recessed on the outer surface Rods; A carbon compression rod formed around the outer circumferential center of the stainless steel rod and formed by compressing carbon particles having excellent moisture absorption ability; It is fixed to a stainless steel rod through the carbon compression rod, the material is a stainless steel needle of a long cone shape made of stainless steel; including, the ground wire is a high-radiation carbon grounding device for welding by welding to the stainless steel rod, and In order to install a grounding earthing device, the ground is drilled or ruptured, and the high-radiation carbon grounding device is embedded in the perforated ground or ruptured in the longitudinal direction or laterally, and the one side end of the stainless steel rod is faced. And, to provide a method of installing a high-radiation carbon grounding device for welding the joint is installed.

The present invention relates to a high-radiation carbon grounding device and its installation method, consisting of a simple structure is excellent in productivity, can be a plurality of grounding devices to improve the grounding force, the grounding device in the longitudinal direction or lateral It is easy to install by providing the way of laying down in the direction to lower the perforation or dig depth required for the installation of the grounding device, and greatly improves the grounding efficiency by maximizing the ground area and the effect that the grounding device can ground. It is a very useful invention that can increase the water content of carbon, so that the natural earth reduction effect can be obtained by increasing the water content of carbon, and that the connection structure can be maintained more firmly by welding the ground wire and the grounding device.

Hereinafter, the configuration and operation of the present invention high-radiation carbon grounding device and its installation method according to the accompanying drawings in detail as follows.

1 is a perspective view of a high-radiation carbon grounding device of the present invention, Figure 2a is a cross-sectional view taken along the line A-A 'of Figure 1, Figure 3 is a perspective view of a high-spinning carbon grounding device with an auxiliary needle, Figure 4 is a 5 is a perspective view of a stainless steel spinning needle, FIG. 6 is a cross-sectional view showing a method of installing the high-radiation carbon grounding device of the present invention, and FIG. 7 is another embodiment of a method of installing the high-radiation carbon grounding device of the present invention. 8 to 9 is a perspective view showing another embodiment of the high-radiation carbon grounding device of the present invention.

The high-radiation carbon grounding device of the present invention is a grounding device connected to the ground wire (1) embedded in the ground to ground the transient current, made of stainless steel, the pointed shape of the needle is formed to extend integrally with the side at one end (110) and the stainless steel rod (100) formed with one or more spinning needles (120) formed in a concave shape on the outer surface; A carbon compression rod (200) formed to surround the outer circumferential center of the stainless steel rod (100) and made by compressing carbon particles having excellent moisture adsorption capacity; It is fixed to the stainless steel rod 100 through the carbon compression rod 200, the material is a stainless steel needle (300) of a long cone shape made of stainless steel; and the ground wire (1) is a stainless steel rod ( 100) is a combined configuration by welding.

Stainless steel rod 100 is made of stainless steel, a pointed needle portion 110 is formed to extend integrally with the side portion at one side end, and one or more spinning needle fixing fixture 120 is formed in the form recessed on the outer surface is formed do.

Needle part 110 is a pointed form, is configured to extend integrally with the outer surface on one end of the stainless steel rod (100). The needle part 110 serves to discharge the transient current introduced into the stainless steel rod 100, and the tip portion is formed in a shape such as a sharp cone or various pyramids and needles so that the introduced transient current can be quickly and accurately escaped. In addition, it is a matter of course that the end may be configured in a variety of forms sharply processed.

The spinning needle fixture 120 is constructed by perforating the outer surface of the stainless steel rod 100 so as not to overlap with the conductive moisture generating sphere. The radiation needle fixture 120 is to be fixed to the stainless steel needle 300, the connection method is a variety of stainless steel needle 300 can be firmly fixed to the stainless steel rod 100, such as welding and bolt assembly It can be made in a way, the ground is made through a stainless steel needle 300 coupled to a stainless steel spinning rod.

The carbon compression rod 200 is formed to surround the central portion of the outer periphery of the stainless steel rod 100, and is configured by pressing the carbon particles excellent in the adsorption capacity of moisture in the material properties.

The carbon particles have excellent water absorption ability to supply moisture to the high-radiation carbon grounding device so that the grounding can be done more accurately and effectively.The carbon particles have very little chemical reaction with stainless steel, so there is no risk of corrosion. have.

Referring to the connection structure of the stainless steel rod 100, the carbon compression rod 200, and the stainless steel needle 300 as described above, first, the carbon particles are compressed to form a carbon compression rod 200. The shape of the carbon compression rod 200 may be provided in the shape of a variety of prismatic pillars, including the shape of the circumference.

Since the carbon compression rod 200 is a length member, the user can cut and use the desired length according to a use or a place, as well as the carbon compression rod 200 provided as described above is punched in the axial direction to stainless steel. Insert the rod (100).

In addition, the carbon compression rod 200 is inserted into the stainless steel rod 100 is punched on the outer surface by fixing the stainless steel needle 300 by inserting so that the stainless steel needle 300 and the stainless steel rod 100 can be connected to do.

In addition, the stainless steel needle 300 and the stainless steel rod 100 may be fixed in a variety of ways, the internal thread of the spinning needle fixture 120 formed in the stainless steel rod 100 to form a female thread (10) On the outer circumference of the stainless steel needle 300, a male screw thread 20 corresponding to the female screw thread 10 may be formed and screwed thereto.

In addition, the material is formed on the outer surface of the stainless steel needle 300 is made by attaching the auxiliary needle 400 of the conical shape made of stainless steel.

The auxiliary needle 400 is generally configured in the form of a cone, and is provided by attaching at least one to the outer surface of the stainless steel needle 300, and serves to discharge the transient current and the surge voltage introduced into the stainless steel rod 100. Do it. Therefore, it is preferable that the end portion has a shape such as a sharp cone or various pyramids and needles so that the transient current and surge voltage that flows out can be quickly and accurately. In addition, various types of auxiliary needles 400 having sharply processed ends are provided. Of course it can be formed. In addition, the auxiliary needle 400 may be attached to the needle 110 provided at the lower end of the stainless steel rod 100, as well as the outer periphery of the stainless steel needle 300, as a general conical auxiliary needle It is configured by attaching another conical auxiliary needle 400 on the surface of 400, the method of attachment can be made in a variety of ways, in particular can be attached by welding.

In addition, the auxiliary needle 400 is formed sharply because when the lightning or surge flows into the high-radiation carbon grounding device has a characteristic that the surface area is concentrated in a narrow portion and discharged, a plurality of auxiliary needles (400) ) To provide as many discharge paths as possible and to allow the incoming surge voltage to flow out quickly.

The stainless steel rod 100 and the ground wire 1 of the high-radiation carbon grounding device as described above are connected by welding, and the welding method is that the ground wire 1 and the stainless steel rod 100 are not easily separated from the inflow of overcurrent and overvoltage. It is clear that it can be implemented in a variety of ways, as long as it remains firmly attached.

The reason for welding the ground wire 1 and the stainless steel rod 100 as described above is that when the ground wire 1 and the stainless steel rod 100 are combined by a mechanical coupling method, a contact resistance is generated and a large amount of lightning strikes from the outside. Alternatively, when a surge voltage occurs, the connection between the ground wire 1 and the stainless steel rod 100 may be damaged due to overheating, and foreign matter may penetrate into the damaged part. The ground wire 1 and the stainless steel rod 100 are integrated, so that the joint is firm and prevents damage due to overheating in advance, and the conductivity is excellent and the contact resistance can be minimized to maximize the grounding performance.

The installation method of the high-radiation carbon grounding device of the present invention is a method of installing a grounding device connected to the grounding wire (1) to install a grounding device for grounding a transient current, wherein the grounding device is provided with a grounding device receiving hole. Stage 1; A stainless rod 100 made of stainless steel and having a pointed needle portion 110 configured to extend integrally with a side portion at one side end, and at least one spinning needle fixing member 120 configured to be recessed on an outer surface thereof; A carbon compression rod (200) formed to surround the outer circumferential center of the stainless steel rod (100) and made by compressing the carbon particles having excellent water adsorption capacity; It is fixed to the stainless steel rod 100 through the carbon compression rod 200, the material is a long cone-shaped stainless steel needle 300 made of stainless steel; A second step of placing 100 in parallel with the earth; A third step of welding the stainless rod 100 and the ground wire 1; And a fourth step of embedding the grounding device and the ground wire (1).

The first step of the method of installing the high-radiation carbon grounding device of the present invention is provided with a grounding device receiving hole by drilling a space for embedding the grounding device in the ground to be grounded, but preferably more than the volume of the high-radiation carbon grounding device Do.

After the grounding device receiving device is provided, the grounding device is seated on the grounding device receiving device. In this case, the grounding device is made of stainless steel, and has a pointed needle having an integral part extending from the side at one end ( 110 and a stainless steel rod (100) formed with at least one spinning needle (120) formed in a concave shape on the outer surface; A carbon compression rod (200) formed to surround the outer circumferential center of the stainless steel rod (100) and made by compressing carbon particles having excellent moisture adsorption capacity; It is preferable to mean a high-spinning carbon grounding device comprising a; and is fixed to the stainless steel rod 100 through the carbon compression rod 200, the material is a stainless steel needle 300 of a long cone shape made of stainless steel; .

At this time, the high-radiation carbon grounding device is preferably placed in the transverse direction so that the stainless steel rod 100 is parallel to the ground, which is to significantly reduce the depth of the ground to be perforated to facilitate the installation work, The radiation carbon grounding device is preferably used to make the size of the high-radiation carbon grounding device elastically in consideration of the ground area to be grounded or the size of the building to be grounded, work conditions, and communication equipment.

When the mounting of the high-radiation carbon grounding device is completed as described above, the stainless steel rod 100 and the ground wire 1 are connected by welding in the third step, and the welding method is such that the ground wire 1 and the stainless steel rod 100 are overcurrent and It is clear that it can be implemented in various ways within the range that it can be easily maintained without being easily separated from the inflow of overvoltage, and the welded ground wire 1 and the high-radiation carbon grounding device The installation of the high-radiation carbon grounding device is completed in the fourth stage of landfilling.

As described above, when a transient current is introduced from the outside in the state of the present invention the high-radiation carbon grounding device embedded in the ground, discharged to the soil through the needle 110 of the stainless steel rod 100 through the ground wire (1) The transient current is concentrated by a stainless steel needle and the discharge is rapidly performed.

In addition, in the second step, the high-radiation carbon grounding device is provided with a pair so that the one end surface of the stainless steel rod 100, the needle 110 is not formed to face each other, and is made by welding the joint. As described above, when a pair of high-radiation carbon grounding devices are connected and installed, the grounding performance of the grounding device can be expected to be twice or more than the grounding efficiency of the general grounding device without making the size of the grounding device large, According to this, the depth of the ground to be perforated is significantly reduced, so that the installation work can be easily performed. The effect is as if the device is grounded.

In addition, the two-stage high-radiation carbon grounding device is provided with a pair of seating member 500 is provided so as to face the one end surface that is not formed with the needle portion 110 of the stainless steel rod 100, and surrounds the joint portion (500). ) Is configured by welding to each of the stainless steel rod (100).

The joint member 500 is intended to be more firmly fixed than when the stainless steel rod 100 is faced and the joint is welded, and the joint member 500 is a hollow pipe shape in which the stainless steel rods 100 face each other. Make sure that it fits into the joint. In the case of the stainless steel rod 100 to which the joint member 500 is fitted, both ends of the joint member 500 are positioned on separate stainless steel rods 100, respectively, and the joints of the stainless steel rod 100 and the joint member 500 are positioned. By welding, the high-radiation carbon grounding devices are firmly coupled to each other to produce an effect as if the grounding is made with one grounding device.

The high-radiation carbon grounding device of the present invention installed by the above method can improve the grounding power by speaking a plurality of grounding devices, and provide a method for installing the grounding device by laying it in the transverse direction to provide a perforation necessary for installing the grounding device. The depth can be lowered for easy installation and the grounding device can be grounded to maximize the grounding efficiency, and the grounding structure (1) and the grounding device are welded to keep the connection structure more solid. It has the effect of making it possible.

As described above, although the present invention has been described with respect to the high-radiation carbon grounding device and its installation method, those skilled in the art will be able to vary the present invention without departing from the scope of the invention described in the claims below. Can be modified or modified.

1 is a perspective view of a high-radiation carbon grounding device of the present invention,

FIG. 2 is a cross-sectional view taken along line AA ′ of FIG. 1;

3 is a perspective view of the high-radiation carbon grounding device is attached to the auxiliary needle,

4 is a perspective view of a stainless steel rod,

5 is a perspective view of a stainless steel needle,

6 is a cross-sectional view showing a method for installing the high-radiation carbon grounding device of the present invention;

7 is a cross-sectional view showing another embodiment of the installation method of the high-radiation carbon grounding device of the present invention;

8 to 9 is a perspective view showing another embodiment of the high-radiation carbon grounding device of the present invention.

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

1: ground wire

10: female thread

20: male thread

100: stainless steel rod

110: needle

120: spinning needle fixture

200: carbon compression rod

300: stainless steel needle

400: auxiliary hand

500: joint member

Claims (6)

Grounding devices that are connected to the ground wire and buried in the ground to ground the transient current A stainless rod 100 made of stainless steel and having a pointed needle portion 110 configured to extend integrally with a side portion at one side end, and at least one spinning needle fixing member 120 configured to be recessed on an outer surface thereof; A carbon compression rod (200) formed to surround the outer circumferential center of the stainless steel rod (100) and made by compressing carbon particles having excellent moisture adsorption capacity; It is fixed to the stainless steel rod 100 through the carbon compression rod 200, the material is a stainless steel needle (300) of a long cone shape made of stainless steel; and the ground wire (1) is a stainless steel rod ( 100) are joined by welding, A female thread 10 is formed on an inner circumference of the spinning needle fixing member 120 formed on the stainless steel rod 100, and a male thread 20 corresponding to the female thread 10 is formed on an outer circumference of the stainless steel needle 300. In the high-radiation carbon grounding device is formed by screwing) The stainless steel spinning needle 300 on the outer surface of the high-radiation carbon grounding device, characterized in that the material made by attaching the auxiliary needle 400 of the conical form consisting of stainless steel. delete delete In the installation method of the grounding device in which a grounding device connected to the grounding wire to ground the transient current is installed on the ground, A first step of drilling a ground and having a grounding device receiving port; A stainless rod 100 made of stainless steel and having a pointed needle portion 110 configured to extend integrally with a side portion at one side end, and at least one spinning needle fixing member 120 configured to be recessed on an outer surface thereof; A carbon compression rod (200) formed to surround the outer circumferential center of the stainless steel rod (100) and made by compressing carbon particles having excellent moisture adsorption capacity; It is fixed to the stainless steel rod 100 through the carbon compression rod 200, the material is a long cone-shaped stainless steel needle 300 made of stainless steel; A second step of placing 100 in parallel with the earth; A third step of welding the stainless rod 100 and the ground wire 1; In the fourth step of embedding the grounding device and the ground wire (1); The two-stage grounding device is provided with a pair of seats so that one side surface of the stainless steel rod 100 is not formed, the needle 110 is faced, and the high-radiation carbon grounding device, characterized in that made by welding How to install. delete According to claim 4, wherein the grounding device of the second stage is provided with a pair of seating members provided so as to face the one end surface that is not formed needle part 110 of the stainless steel rod 100, and to surround the joint ( 500) A method of installing a high-radiation carbon grounding device, characterized in that made by welding to each stainless steel rod (100).

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