KR100866933B1 - Ground rod having screw-formed base - Google Patents

Abstract

A ground rod with a base unit having a helix screw is provided to perform easy punch by the helix screw when surroundings of an electric pole are a concrete floor or an asphalt floor, thereby largely improving workability without digging or recovering. A base unit(10) forms a base extending unit(11') having a smaller external diameter than an external diameter of the base unit. A base male screw unit(11) is formed toward an upper side of the base extending unit. A helix screw(12) having the same external diameter is coupled with a lower side from the middle of the base unit. The helix screw is integrally formed in the base unit, or separately formed and coupled with the base unit. When the helix screw is separately formed and coupled with the base unit, a screw coupling method or an enforce compressing method is selected.

Description

Ground rod having screw-formed base

The present invention is a telephone pole installed on a telegraph line for distributing and branching electric wires, communication lines, and the like to each customer, the grounding wire for preventing the line and electric equipment, electrical appliances, etc. from being destroyed by lightning strikes To connect, but to form a screw screw on the base of the bottom of the ground rod is to more easily fill the ground rod in the ground.

Generally, electricity or communication data is connected to each customer by using electric and communication lines provided on the ground. Such a telegraph line is spaced apart from the ground by using electric poles installed at regular intervals. It is installed.

At this time, a variety of electrical and communication devices, etc. are fixedly installed in the pole, and various types of safety devices for lightning strikes are also installed.

In other words, a lightning strike is a phenomenon in which electric charges charged by thunderclouds are discharged to the earth. When lightning strikes on a pole or a steel tower close to the sky, various electric and communication devices on the pole are connected to the electric equipment or the state of the line. The instruments may be destroyed or fail.

Accordingly, as a countermeasure against the above-mentioned lightning strike, several protection devices are installed. Typically, there is a processing ground wire that installs one more grounded wire higher than the wire line, and when a lightning strike occurs, the abnormal voltage is released to the ground. There are lightning arresters, and lightning rods installed on poles and buildings are typical lightning arresters.

In particular, the lightning protection device, such as the lightning is connected to the ground rod buried in the case of lightning strikes to the processing ground wire or the lightning arrester is transmitted to the ground rod in the underground buried state through the ground wire formed along the pole, so And minimizes damage to surrounding houses or people.

Grounding method using such a ground rod, is typically completed by connecting the ground wire in the state laid down from the pole in the state installed upright pole to ground buried ground rod, which will be described in more detail as shown in FIG. As the excavation of the pit 101 to a sufficient depth in the vicinity of the pole 100, and hitting and installing the various types of ground rod 102 made of metal in the pit 101, from the above pole 100 The lower end of the ground wire 103 in the stretched state and the lead wire 104 above the ground rod 102 are crimped and connected to each other by the connecting sleeve 105.

In this case, the reason for digging the pit 101 is to prevent the tip of the ground rod 102 from being exposed to the ground surface, but when the tip of the ground rod 102 is exposed to the ground, it may be a problem in walking or traffic. When lightning strikes at the same time when the ground rod 102 is exposed to the ground, a special high-pressure current of lightning induced along the ground wire is conducted to the rainwater through the exposed ground rod. Because it adds.

Therefore, the ground rods are buried deeply from the ground after the excavation of the pit deep enough, and the ground construction is completed as the ground pit is filled by connecting the ground rod on the pole and the ground wire on the pole by the connecting sleeve. Will be.

Since the ground rod 102 in this state belongs to a very long side in most cases, the handling and handling is poor, and thus it has a structure of a divided assembly type as shown in FIG. 2.

That is, the ground rod is composed of the lowermost base portion 110, the extension portion 120 coupled to the upper portion of the base portion 110 and the lead wire portion 130 coupled to the upper side of the extension portion 120, The lower end of the base portion 110 is formed with a tip portion for facilitating deep penetration into the ground, and male and female thread portions are formed at corresponding ends of the base portion 110 and the extension portion 120, respectively. It has a form in which screwing is performed.

In addition, the extension part 120 and the lead wire part 130 also have male threads and female threads formed at ends corresponding to each other, so that screw fastening is performed using them, and all of them are assembled or connected in sequence. The ground rods are buried underground.

However, the ground construction method as described above requires a process of digging a pit in order to bury the ground rod as described above, and therefore, there is a problem in that a lot of construction time and many manpower and construction costs are required.

In other words, in the vicinity of the poles installed in the general soil conditions, the pit should be dug out using a shovel or excavator, and the poles installed in the concrete or asphalt, such as by using an excavator or a hammer drill, walk the surface of the concrete or asphalt by After the excavation again using a shovel or excavator to go through the process of digging the pit.

In particular, the backfilling of the pit must be performed even after the ground construction is completed after the excavation of the pit as described above, and in the case of the surface of the concrete or asphalt, the floor construction using the same material must be performed again. Working time, as well as economic unreasonable aspects will be considerable.

In addition, as described above, the ground rod of the separated structure coupled in the form of screw assembly has a high risk of ground leakage due to the one-piece ground rod and causes ground leakage, and each fastening portion has a rate of corrosion or oxidation due to wear and friction. This speeds up the service life and causes a shortening of the service life.

The present invention is to solve the problems as described above, in the ground rod of the assembly connection structure to form a spiral screw on the base of the lower end to facilitate the concrete or asphalt drilling using the spiral screw, and the base and the connecting portion and It is an object of the present invention to provide a grounding rod having a grounding copper tube and a water-tight ring coupled to each of the lead wire portions, thereby improving more excellent grounding properties and durability.

The present invention for achieving the above object, in the ground rod consisting of the base portion and the connecting portion and the lead wire portion, the lower end of the base portion is formed with a screw screw, the front end of the base portion and the connecting portion to form a male screw, respectively, A female screw portion is formed at the lower end of the connecting portion and the lead wire portion, respectively, and is configured to be fastened to the female screw portion while the ground copper pipe and the watertight ring are inserted into the male screw portion.

According to the present invention, even in the vicinity of the electric pole of the concrete floor or asphalt floor layer, it is possible to easily drill by a screw screw, so that the workability is greatly improved because the pit or the backfill is not needed, and drilling and driving are performed simultaneously. The ground rod can be accurately positioned at the desired position regardless of the ground state, and the conventional problem of the split-assembly ground rod is eliminated by the grounding copper tube and the water milling, so that the grounding rod and the durability are more excellent.

The terms or words used in this specification and claims are not to be construed as being limited to the common or dictionary meanings, and the inventors can appropriately define the concept of terms in order to explain their invention in the best way. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a perspective view showing the base of the ground rod according to the invention, Figure 4 is an exploded view of the ground rod according to the invention.

As shown in the figure, the ground rod according to the present invention is fastened to the ground portion in the pole and the upper portion of the connection portion 20 and the connection portion 20 for extending the foundation portion 10 embedded in the deepest underground It consists of the lead wire part 30 which has the lead wire 32 connected.

The base portion 10, the connecting portion 20 and the lead wire portion 30 is a male screw portion of the protruding form and the female screw portion of the groove form are respectively coupled to each other to be fastened or separated, the front end and the lead of the base portion 10 The male and female threads and the female threaded portions are respectively formed at the lower end of the front portion 30 and the upper and lower ends of the connecting portion 20.

That is, the base portion 10 forms a base extension portion 11 'having an outer diameter smaller than the outer diameter of the base portion 10 at the tip, and the base male screw portion 11 above the base extension portion 11'. Is formed, and the spiral screw 12 of the same outer diameter is joined from the middle part of the base part 10 to the lower side.

At this time, the spiral screw 12 may be formed integrally by processing on the base portion 10, or may be manufactured separately and combined with each other, in the case of manufacturing and combining each of the spiral screw 12 by a screw fastening or a forced pressure method The coupling structure may be adopted.

Here, the spiral screw 12 is to ground the base portion 10 by the rudder method in the state of removing the concrete layer or asphalt layer cured around the electric pole in the prior art when the base portion 10 is to enter the ground However, the foundation 10 having the screw 12 as described above can be ground perforated through driving and screw rotation without removing the concrete layer or the asphalt layer. It is possible to bury in, and the construction time is large because the concrete layer or asphalt layer of the surface does not need to be backfilled even in the state where the final part of the connecting portion 20 and the lead wire portion 30 through the base portion 10 is completed. It is shortened.

In addition, the connection part 20 has a form in which the connection male thread part 22 formed at the tip is formed above the connection extension part 22 ', and a connection female thread part 21 is formed at the lower end of the connection part 20. The base insertion groove portion 21 'having the inner diameter corresponding to the connection extension portion 22' is formed at the lower end.

In addition, a lead insertion groove 31 'and a lead female screw portion 31 are sequentially formed at the lower side of the lead wire portion 30 having the lead wire 32 on the upper side, so that the fastening thereof can be easily performed.

Accordingly, the connection part 20 is extended and fastened to the upper side of the base part 10 by screwing the basic male thread part 11 of the base part 10 and the connection female thread part 21 of the connection part 20. By screwing the lead female screw portion 31 of the lead wire portion 30 to the connecting male screw portion 22 of the tip of the connecting portion 20, the base portion 10, the connecting portion 20, and the lead wire portion 30 are integrally formed. As a result, the tight tightening state is maintained.

In particular, in fastening the base portion 10 and the connecting portion 20 and the lead wire portion 30, these components are circular in cross section, so that tool grooves are formed at the tip and the bottom in order to maintain a more secure fastening force. The tool mountability can be obtained. As shown in FIG. 5, the tool groove 13 is formed above the base 10, and the tool groove 23 is formed above and below the connection part 20, respectively. As the tool grooves 33 are formed on the lower side of the lead wire portion 30, the tool grooves 13, 23 and 33 are rotated with each other in the state where the fixing tools are mounted, and the bases are circular in cross section. Since the part 10 or the connecting part 20 and the lead wire part 30 are firmly fastened without turning away from the tool, they can overcome problems such as excellent grounding properties and corrosion caused by loosening of the screw fastening part based on excellent fastening force. Its service life is greatly extended It will be.

In addition, a ground copper tube 40 having a high conductivity is inserted into the basic extension portion 11 'of the foundation portion 10 and the connection extension portion 22' of the connection portion 20 as shown in FIG. In the case of performing the fastening of the base portion 10 and the connecting portion 20 or the fastening of the connecting portion 20 and the lead wire portion 30 in the state, the basic extension portion of the base portion 10 by the relatively soft ground copper tube 40 (11 ') and the excellent insertion properties in the basic insertion groove 21' of the connecting portion 20, and the connection extension portion 22 'of the connecting portion 20 and the lead insertion groove portion of the lead wire portion 30 Since excellent grounding property is secured within 31 ', even if the grounding bars are separated and coupled, the grounding can be maintained as it is.

In particular, in the process of fastening the base portion 10, the connecting portion 20 and the lead wire portion 30 sequentially buried in the ground, the basic male screw portion 11 and the connecting portion 20 of the base portion 10 When the watertight rings 14 and 24 are firmly fastened in the state where the separate water milling rings 14 and 24 are respectively inserted into the connecting male screw portions 22, the watertight rings 14 and 24 are connected to the base 10 and the connecting part 20. Since the fastening portion and the connecting portion 20 and the lead wire portion 30 of the fastening portion are respectively positioned through the excellent waterproof structure by the water-tight ring 14, 24, each of the above-mentioned fastening portion is corroded or underground water penetrates The screw loosening phenomenon caused by the reverse rotation of the base portion 10 and the connecting portion 20 and the lead wire portion 30 which are screwed in may be suppressed, so that safer and more robust use is possible.

In addition, the ground rod according to the present invention is embedded in the ground, it is important to improve the ground area between the ground rod and the ground soil or to improve the grounding force, as shown in Figure 7 for the purpose of improving the grounding efficiency A plurality of ground grooves 51 are formed on the outer surfaces of the portion 10 and the connection portion 20, respectively, and the absorbent paper 50 made of a non-woven fabric or a sponge is inserted into the ground grooves 51 so that the absorbent paper ( Since 50) absorbs moisture and water in the ground, it will eventually serve to improve the grounding force between the ground rod and the ground soil by the above-mentioned moisture, thereby further improving the grounding efficiency of the ground rod. .

In particular, since the ground groove 51 and the absorbent paper 50 can be variously applied to the number, spacing, width and width, etc. as necessary, the above-described modification in consideration of the installation environment of the ground rod or soil conditions, etc. It has the characteristics of implementation.

The embodiments described in the present specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, and various equivalents and modifications that may be substituted for them are provided. It should be understood that there may be examples.

1 is an overall view showing a construction example of a common ground rod

Figure 2 is an exploded view showing a conventional split ground rod

Figure 3 is a perspective view showing the base of the ground rod according to the present invention

4 is an exploded view of the ground rod according to the present invention

5 is an enlarged perspective view of the fastening portion of the ground rod according to the present invention

Figure 6 is an enlarged cross-sectional view of the fastening portion of the ground rod according to the present invention

Figure 7 is an overall view showing another embodiment of the ground rod according to the present invention

Explanation of symbols on the main parts of the drawings

10: Foundation 11: Basic Male Thread

12: spiral screw

20: connection part

30: lead wire part

40: ground copper pipe

50: absorbent paper 51: ground groove

Claims (4)

The spiral screw 12 is divided into a base portion 10 and a connecting portion 20 and a lead wire portion 30 formed at a lower end, and a basic male screw portion 11 is formed at the tip of the base portion 10 and the connecting portion 20. The connecting female threaded portion 21 is formed at the lower end of the) and correspondingly coupled to each other, the connecting male threaded portion 22 is formed at the tip of the connecting portion 20 and the lead female threaded portion 31 is formed at the lower end of the lead wire portion 30. In the well-known ground rod that is coupled to each other, the lead wire 32 is formed above the lead wire portion 30, A tip of the base 10; A tip and a bottom of the connecting portion 20; The lower end of the lead wire portion 30 is formed with tool grooves 13, 23 and 33, respectively, and the base portion 10 which is screwed by mounting a clamping tool in the tool grooves 13, 23 and 33. ) And the connecting portion 20 and the lead wire portion 30 is configured to be firmly fastened, On the lower side of the basic male threading portion 11 and the connecting male threading portion 22, a basic extension portion 11 'and a connecting extension portion 22' are formed, and below the connecting female threading portion 21 and the lead female threading portion 31, By forming the basic insertion groove 21 'and the lead insertion groove 31', the ground copper tube 40 is inserted into the basic extension portion 11 'and the connection extension portion 22', respectively. The basic male screw portion 11, the connecting female screw portion 21, and the connecting male screw portion 22 and the lead female screw portion 31 are screwed together, and the base portion 10 and the connecting portion (3) are connected by the ground copper pipe 40. 20) and the lead wire portion 30 is configured to be in close contact, A ground groove 51 is formed on the outer surface of the base portion 10 and the connection portion 20, and an absorbent paper 50 is inserted into the ground groove 51 so that the absorbent paper 50 is connected to the ground soil. Grounding rod having a base formed with a screw screw, characterized in that the grounding efficiency is configured to improve. delete delete delete

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