KR102677159B1 - Grounding rod for telecommunications equipment that can be inspected at all times - Google Patents

Abstract

The present invention relates to grounding including various communication equipment, electronic measuring equipment, lightning protection equipment, power equipment, buildings, base stations, communication repeaters, airport control towers, various communication equipment at military bases, high-voltage wire towers, high-rise buildings, train rails, advertising towers, and street lights. In the grounding rod, which is connected to the facility through a grounding wire (30) and buried in the ground (60) at a certain depth, it is a circular body from the side and is made of a conductive metal material and is horizontal, but has a certain diameter and length, and at the center is a A fastening cylindrical part 11 having a bolt insertion hole 11a on one side is formed in a cylindrical shape, and a plurality of left and right blade uneven parts 12 and 13 extend in the longitudinal direction on the left and right outer peripheries of the fastening cylindrical part 11, respectively. The upper and lower grounding rod bodies (10, 10a) are formed, the inside of which is filled and sealed with a grounding resistance reducing agent (14), and the left and right bolt holes (15, 16) are formed on the left and right side end surfaces, respectively; It is a spring plate body made of an energized metal material that is buried in the ground (60) at a certain depth, stands vertically, has wave-shaped irregularities of a certain length continuously on the side, and forms a rectangular shape at the front. The rear corrugated irregularities ( 21) is formed, and a front wave-shaped uneven part 22 that protrudes in a semicircle toward the front is formed at the bottom of the rear wave-shaped uneven part 21, so that the rear wave-shaped uneven part 21 and the front wave-shaped uneven part 22 repeatedly extend a certain length. The upper grounding rod body (10) is located inside the rear corrugated concavo-convex portion (21) at the upper end, and the upper bolt (21b) is fastened to the bolt insertion hole (11a) through the upper fixing hole (21a), and the lower The lower ground rod body (10a) is located inside the front corrugated concavo-convex portion (22), and the lower bolt (22b) is fastened to the bolt insertion hole (11a) through the lower fixing hole (22a), and the rear corrugated concavo-convex portion at the upper end Inside the front wave-shaped uneven part 22 located between (21) and the lower front wave-shaped uneven part 22, the vertical reinforcing bars 23 and 23a are screwed together to stand vertically, a corrugated vertical fixture 20; The ground wire 30 is electrically coupled to the left bolt hole 15 of the upper ground rod body 10 by a ground bolt 15a; The right bolt hole (16) of the upper grounding rod body (10) is electrically coupled to the sensor bolt (16a), connected to the Internet, and transmits the measured voltage to the application (51) of the manager terminal (50) in real time through Wi-Fi. Shiki relates to a communication equipment grounding rod equipped with a voltage measurement IOT sensor (40) and capable of regular inspection.
This invention consists of an upper and lower grounding rod body with left and right blade concavo-convex portions and a pivot-type vertical fixture for fixing it, so the composition and structure are simple, making manufacturing and construction work easy, and the grounding area is wider due to the left and right blade concave-convex portions of the upper and lower grounding rod bodies. This extends the grounding life and reduces maintenance costs. The grounding wire on one side of the upper grounding rod body is energized and fixed by a grounding bolt, and the voltage measuring IOT sensor is energized and connected to the other side of the upper grounding rod body to control the remote manager terminal through Wi-Fi. By transmitting real-time voltage to the application, managers can immediately recognize the voltage transmitted to the upper grounding rod body in real time even remotely, which has the effect of making regular inspection of communication facility grounding rods easier.

Description

Grounding rod for telecommunications equipment that can be inspected at all times}

The present invention relates to a grounding rod for communication facilities that can be inspected at all times. More specifically, it is composed of an upper and lower grounding rod body with left and right blade concavo-convex portions and a pivot-type vertical fixture that fixes it, so the composition and structure are simple, making manufacturing and construction work easy. Due to the irregularities of the left and right blades of the upper and lower grounding rod bodies, the grounding area is wider, which extends the grounding life and reduces maintenance costs. The grounding wire on one side of the upper grounding rod body is energized and fixed by a grounding bolt, and the voltage is measured on the other side of the upper grounding rod body. As the IOT sensor is connected and transmits real-time voltage to the application of the remote manager terminal through Wi-Fi, the manager can immediately recognize the voltage transmitted to the upper grounding rod body in real time even remotely, and constantly inspect the grounding rod of communication facilities. This is about a communication equipment grounding rod that allows for easier regular inspection.

In general, the occurrence of lightning strikes is greatly increasing due to the effects of recent climate change and warming. The number and scale of damage caused by lightning strikes is increasing day by day, and with the development of high-speed comprehensive information and communication and rapid advancements in electrical, electronic, and equipment technology, various communication, power, and control systems are resistant to noise signals and surges. It has very vulnerable characteristics.

Accordingly, the importance of a grounding system to prevent such damage is gradually increasing. In other words, damage can be prevented by eliminating transient surges, abnormal signals, and sudden noise currents through a high-performance grounding system, and by monitoring problems that may occur in advance through continuous surveillance and monitoring of the grounding system.

Accordingly, performance and diagnosis of the grounding system are required to determine whether the grounding system is operating normally.

Conventionally, in order to check the performance of such grounding systems, surge protectors (SPD: Surge Protection Device), and lightning protection grounding, users visually check them whenever necessary or directly measure and record them using separate equipment. .

However, since this performance evaluation method requires the user to go directly to the grounding system, it is cumbersome and time-consuming.

In addition, even when equipment damage or malfunction occurs due to performance abnormalities or grounding problems, there is a problem that it is relatively difficult to determine the cause or condition.

In order to solve this problem, it is a grounding system diagnosis device that monitors the performance and status of the grounding system in real time and transmits monitoring information about the grounding system to a grounding system diagnosis server, with a measurement frequency generated through a signal generator. and a ground electrode measurement unit that applies a measurement current to the ground electrode and measures a ground electrode determination value including at least one of ground resistance, first ground current, and ground voltage through the current returned from the ground electrode. The measurement frequency and measurement current generated through the unit are applied to the ground electrode and a plurality of voltage measurement terminals installed inside and outside the ground electrode, and the current returned from the ground electrode and the plurality of voltage measurement terminals A safety voltage measuring unit that measures a safety voltage including the contact voltage and stride voltage of the grounding system through values, and compares and monitors the grounding electrode determination value and the grounding electrode threshold value, and the safety voltage and the reference safety voltage; A grounding system diagnosis device, characterized in that it includes a processing unit that transmits the monitoring information to the grounding system diagnosis server through a communication unit, monitors the performance and status of the grounding system in real time, and provides monitoring information about the grounding system. An operating method for a ground system diagnosis device that transmits to a ground system diagnosis server, comprising: applying a measurement frequency and a measurement current generated by a ground electrode measurement unit through a signal generator to a ground electrode; measuring a ground electrode determination value including at least one of ground resistance, first ground current, and ground voltage through the current returned from the ground electrode; generated by the safety voltage measurement unit through the signal generator; Applying the measurement frequency and measurement current to the ground electrode and a plurality of voltage measurement terminals installed inside and outside the ground electrode, by the safety voltage measurement unit, to the ground electrode and the plurality of voltage measurement terminals; measuring the safety voltage including the contact voltage and stride voltage of the grounding system through the current value returned from the field; And comparing and monitoring, by a processing unit, the ground electrode determination value, the ground electrode threshold value, and the safety voltage and the reference safety voltage, and transmitting the monitoring information to the ground system diagnosis server through a communication unit. “A method of operating a grounding system diagnostic device,” was disclosed as Patent Registration No. 10-1516776 (announced on May 4, 2015).

However, while this conventional grounding system diagnosis device and its operation method can predict the resistance and performance of the grounding system in real time and the lifespan of the grounding electrode according to performance deterioration, its composition and structure are complex, and the grounding lifespan is limited. Because the grounding rod was short and had to be replaced frequently, replacement costs were high, which resulted in excessive maintenance costs.

(KR) Republic of Korea Patent Registration No. 10-1516776 (announced on May 4, 2015)

The present invention is intended to solve the problems described above, and includes an upper and lower grounding rod body having a fastening cylindrical part, a bolt insertion hole, left and right blade uneven parts, a grounding resistance reducer, a grounding bolt, and a sensor bolt, a rear waveform unevenness, and a front waveform unevenness. A waveform vertical fixture with a top bolt, an upper fixing hole, a lower fixing hole, a lower bolt, and a vertical reinforcement bar, a ground wire connected to the ground bolt, a voltage measurement IOT sensor connected to the sensor bolt, and a voltage measurement IOT via Wi-Fi. It is equipped with an administrator terminal that has an application that is connected to and transmits the measured voltage in real time, and consists of an upper and lower grounding rod body with left and right blade concavo-convex portions and a pivot-type vertical fixture that fixes it. The composition and structure are simple, making manufacturing and construction work easy. , the uneven portions of the left and right blades of the upper and lower grounding rod bodies enlarge the grounding area, thereby prolonging the grounding life and reducing maintenance costs. The grounding wire on one side of the upper grounding rod body is energized and fixed by a grounding bolt, and the voltage is applied to the other side of the upper grounding rod body. As the measurement IOT sensor is connected and transmits real-time voltage to the application of the remote manager terminal through Wi-Fi, the manager can immediately recognize the voltage transmitted to the upper grounding rod body in real time even remotely, and can always check the grounding rod of the communication facility. The purpose is to provide grounding rods for communication equipment that can be inspected more easily and at all times.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve this purpose, the present invention is applicable to various communication equipment, electronic measurement equipment, lightning protection equipment, power equipment, buildings, base stations, communication repeaters, airport control towers, various communication equipment at military bases, high-voltage wire towers, high-rise buildings, and train rails. In the grounding rod, which is connected to grounding equipment including advertising towers and street lights through a grounding wire (30) and buried in the ground (60) at a certain depth,

It is a horizontal tubular body made of a metal material that is circular in shape and conducts electricity on the side, but has a certain diameter and length, and a fastening cylindrical portion 11 in the center is formed in a cylindrical shape and has a bolt insertion hole 11a on one side, and is fastened. A plurality of left and right blade uneven parts 12 and 13 are formed on the left and right outer peripheries of the cylindrical part 11, respectively, extending in the longitudinal direction. The inside is filled and sealed with a grounding resistance reducing agent 14, and the left and right bolt holes are located on the left and right end surfaces. Upper and lower grounding rod bodies (10, 10a) formed at (15, 16), respectively;

It is a spring plate body made of an energized metal material that is buried in the ground (60) at a certain depth, stands vertically, has wave-shaped irregularities of a certain length continuously on the side, and forms a rectangular shape at the front. The rear corrugated irregularities ( 21) is formed, and a front wave-shaped uneven part 22 that protrudes in a semicircle toward the front is formed at the bottom of the rear wave-shaped uneven part 21, so that the rear wave-shaped uneven part 21 and the front wave-shaped uneven part 22 repeatedly extend a certain length. The upper grounding rod body (10) is located inside the rear corrugated concavo-convex portion (21) at the upper end, and the upper bolt (21b) is fastened to the bolt insertion hole (11a) through the upper fixing hole (21a), and the lower The lower ground rod body (10a) is located inside the front corrugated concavo-convex portion (22), and the lower bolt (22b) is fastened to the bolt insertion hole (11a) through the lower fixing hole (22a), and the rear corrugated concavo-convex portion at the upper end Inside the front wave-shaped uneven part 22 located between (21) and the lower front wave-shaped uneven part 22, the vertical reinforcing bars 23 and 23a are screwed together to stand vertically, a corrugated vertical fixture 20;

The ground wire 30 is electrically coupled to the left bolt hole 15 of the upper ground rod body 10 by a ground bolt 15a;

The right bolt hole (16) of the upper grounding rod body (10) is electrically coupled to the sensor bolt (16a), connected to the Internet, and transmits the measured voltage to the application (51) of the manager terminal (50) in real time through Wi-Fi. It has the characteristic of being equipped with a voltage measurement IOT sensor (40).

As such, the present invention includes an upper and lower grounding rod body having a fastening cylindrical portion, a bolt insertion hole, left and right blade uneven portions, a grounding resistance reducer, a grounding bolt, and a sensor bolt, a rear corrugated portion, a front corrugated portion, an upper bolt, and an upper fixing device. A waveform vertical fixture with a bottom fixing hole, a bottom bolt, and a vertical reinforcing bar, a ground wire electrically connected to the ground bolt, a voltage measurement IOT sensor electrically connected to the sensor bolt, and a voltage measurement IOT sensor connected to the voltage measurement IOT via Wi-Fi to measure the measured voltage. Equipped with an administrator terminal with an application that receives real-time transmission, the composition and structure are simple as it consists of an upper and lower grounding rod body with uneven parts on the left and right blades and a vertical vertical fixture that fixes them, making manufacturing and construction work easy, and the left and right blades of the upper and lower grounding rod bodies. Due to the irregularities, the grounding area becomes wider, which extends the grounding life and thus reduces maintenance costs. The grounding wire on one side of the upper grounding rod body is energized and fixed by a grounding bolt, and the voltage measurement IOT sensor is energized and connected to the other side of the upper grounding rod body. By transmitting real-time voltage to the application of the remote manager terminal through Wi-Fi, the manager can immediately recognize the voltage transmitted to the upper grounding rod body in real time even remotely, which has the effect of making it easier to inspect the grounding rod of communication facilities on a regular basis. there is.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by anyone skilled in the art without departing from the gist of the invention as claimed in the claims. Of course, such changes are within the scope of the claims.

1 is an exploded perspective view showing the fastening of a communication equipment grounding rod capable of regular inspection, which is an embodiment of the present invention;
Figure 2 is a perspective view showing the combined state of the communication equipment grounding rod that can be inspected at all times, which is an embodiment of the present invention;
Figure 3 is a front view showing the construction of a communication equipment grounding rod capable of regular inspection, which is an embodiment of the present invention;
Figure 4 is a side view showing the construction of a communication equipment grounding rod capable of regular inspection, which is an embodiment of the present invention;
Figure 5 is a perspective view showing the use state of a communication equipment grounding rod capable of regular inspection, which is an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with the accompanying drawings.

Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. The present invention may be implemented in many different forms and is not limited to the embodiments described herein.

In order to clearly explain the present invention in the drawings, parts not related to the description are omitted, and identical or similar components are given the same reference numerals throughout the specification. The scope of rights of the present invention should not be construed as being limited by the embodiments described in the text, and since the embodiments can be variously modified and have various forms, the scope of rights of the present invention should not be construed as limited by the embodiments described in the text. It should be understood to include equivalents.

Throughout the specification of the present invention, when a part is said to be “connected” to another part, this includes not only “directly connected” but also “indirectly connected” through another member. Additionally, when a part "includes" a certain component, this means that it may further include other components rather than excluding other components unless specifically stated to the contrary.

The terms used in the present invention are terms defined in consideration of the functions in the present invention, and may vary depending on the intention or custom of the user or operator, so the definitions of these terms are defined in accordance with the technical details of the present invention. It should be interpreted as a concept.

Additionally, optional terms in the examples below are used to distinguish one component from another component, and the components are not limited by the terms. Hereinafter, in describing the present invention, detailed descriptions of related known technologies that may unnecessarily obscure the gist of the present invention will be omitted.

The communication equipment grounding rod capable of regular inspection of the present invention is used in various communication equipment, electronic measurement equipment, lightning protection equipment, power equipment, buildings, base stations, communication repeaters, airport control towers, various communication equipment at military bases, high-voltage wire towers, high-rise buildings, and trains. It is connected to grounding equipment including rails, advertising towers, and street lights through a grounding wire (30) and buried in the ground (60) at a certain depth, including upper and lower grounding rod bodies (10, 10a), a corrugated vertical fixture (20), and a grounding wire. It consists of (30) and a voltage measurement IOT sensor (40).

The upper and lower grounding rod bodies (10, 10a) are circular in shape from the side, are made of a metal material that conducts electricity, are horizontal, and have a certain diameter and length. The center is cylindrical and has a bolt insertion hole (11a) on one side. A fastening cylindrical portion 11 is formed, and a plurality of left and right blade uneven portions 12 and 13 are formed on the left and right outer peripheries of the fastening cylindrical portion 11, respectively, extending in the longitudinal direction, and a grounding resistance reducing agent 14 is provided inside. It is filled and sealed, and left and right bolt holes (15 and 16) are formed on the left and right end surfaces, respectively.

The corrugated vertical fixture 20 is a spring plate body made of an energized metal material that is buried in the ground 60 at a certain depth, stands upright, has wave-shaped irregularities of a certain length continuously on the side, and has a rectangular shape in the front, and has a rear upper part. A rear wave-shaped uneven part 21 that protrudes in a semicircle to the side is formed, and a front wave-shaped uneven part 22 that protrudes in a semicircle to the front is formed at the bottom of the rear wave-shaped uneven part 21, so that the rear wave-shaped uneven part 21 and the front wave-shaped uneven part 21 are formed. The part 22 is repeatedly extended for a certain length, and the upper grounding rod body 10 is located inside the rear corrugated concavo-convex portion 21 at the upper end so that the upper bolt 21b is inserted into the bolt insertion hole through the upper fixing hole 21a. 11a), the lower grounding rod body (10a) is located inside the front corrugated concavo-convex portion (22) at the bottom, and the lower bolt (22b) is fastened to the bolt insertion hole (11a) through the lower fixing hole (22a). It is fixed, and vertical reinforcing bars 23 and 23a are screwed to the inside of the front wave-shaped uneven part 22 located between the rear wave-shaped uneven part 21 at the top and the front wave-shaped uneven part 22 at the bottom to stand vertically. .

The ground wire 30 is connected to the left bolt hole 15 of the upper ground rod body 10 by a ground bolt 15a.

The voltage measurement IOT sensor 40 is electrically coupled to the right bolt hole 16 of the upper ground rod body 10 by a sensor bolt 16a, is connected to the Internet, and is connected to the administrator terminal 50 in real time through Wi-Fi. The measured voltage is transmitted to the application 51.

The present invention is made up of an upper and lower grounding rod body (10, 10a) with left and right blade concavo-convex portions (12, 13) and a pivot-type vertical fixture (20) for fixing them, so the composition and structure are simple, making manufacturing and construction work easy. It is easy to use, and the grounding area is wider due to the left and right blade concave-convex portions (12, 13) of the upper and lower grounding rod bodies (10, 10a), resulting in a longer grounding life and thus significantly reducing maintenance costs. On one side, the ground wire 30 is energized and fixed by the ground bolt 15a, and on the other side of the upper ground rod body 10, the voltage measurement IOT sensor 40 is energized and connected by the sensor bolt 16a, so that it can be connected remotely via Internet Wi-Fi. By transmitting the voltage of the upper grounding rod body (10) in real time to the application (51) of the administrator terminal (50), the administrator can immediately recognize the voltage transmitted to the upper grounding rod body (10) in real time even remotely, and Inspection of communication equipment grounding rods can be performed more easily.

This embodiment and the drawings attached to this specification only clearly show a part of the technical idea included in the present invention, and those skilled in the art can easily infer within the scope of the technical idea included in the specification and drawings of the present invention. It is obvious that all possible modifications and specific embodiments are included in the scope of the technical idea of the present invention.

The scope of the present invention is indicated by the claims described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and the equivalent concept should be construed as being included in the scope of the present invention.

10,10a: Upper and lower grounding rod body 11: Fastening cylindrical part
11a: Bolt insertion hole 12, 13: Left and right blade uneven parts
14: Ground resistance reducer 15, 16: Left and right bolt holes
15a: Ground bolt 16a: Sensor bolt
20: Corrugated vertical fixture 21: Rear corrugated uneven portion
21a: Top fixing hole 21b: Top bolt
22: Front waveform uneven portion 22a: Bottom fixing hole
22b: Bottom bolt 23,23a: Vertical reinforcement bar
30: ground wire
40: Voltage measurement IOT sensor
50: Administrator terminal 51: Application
60: ground

Claims (1)

Grounding wires for grounding facilities including various communication equipment, electronic measurement equipment, lightning protection equipment, power equipment, buildings, base stations, communication repeaters, airport control towers, various communication equipment at military bases, high-voltage wire towers, high-rise buildings, train rails, advertising towers, and street lights. In the grounding rod connected through (30) and buried in the ground (60) at a certain depth,
It is a horizontal tubular body made of a metal material that is circular in shape and conducts electricity on the side, but has a certain diameter and length, and a fastening cylindrical portion 11 is formed in the center in a cylindrical shape and has a bolt insertion hole 11a on one side, and fastens. A plurality of left and right blade uneven parts 12 and 13 are formed on the left and right outer peripheries of the cylindrical part 11, respectively, extending in the longitudinal direction, and the inside is filled and sealed with a grounding resistance reducing agent 14, and the left and right bolt holes are located on the left and right end surfaces. Upper and lower grounding rod bodies (10, 10a) formed at (15, 16), respectively;
It is a spring plate body made of an energized metal material that is buried in the ground (60) at a certain depth, stands vertically, has wave-shaped irregularities of a certain length continuously on the side, and forms a rectangular shape at the front. The rear corrugated irregularities ( 21) is formed, and a front wave-shaped uneven part 22 that protrudes in a semicircle toward the front is formed at the bottom of the rear wave-shaped uneven part 21, so that the rear wave-shaped uneven part 21 and the front wave-shaped uneven part 22 repeatedly extend a certain length. The upper grounding rod body (10) is located inside the rear corrugated concavo-convex portion (21) at the upper end, and the upper bolt (21b) is fastened to the bolt insertion hole (11a) through the upper fixing hole (21a), and the lower The lower ground rod body (10a) is located inside the front corrugated concavo-convex portion (22), and the lower bolt (22b) is fastened to the bolt insertion hole (11a) through the lower fixing hole (22a), and the rear corrugated concavo-convex portion at the upper end Inside the front wave-shaped uneven part 22 located between (21) and the lower front wave-shaped uneven part 22, the vertical reinforcing bars 23 and 23a are screwed together to stand vertically, a corrugated vertical fixture 20;
The ground wire 30 is electrically coupled to the left bolt hole 15 of the upper ground rod body 10 by a ground bolt 15a;
The right bolt hole (16) of the upper grounding rod body (10) is electrically coupled to the sensor bolt (16a), connected to the Internet, and transmits the measured voltage to the application (51) of the manager terminal (50) in real time through Wi-Fi. A communication equipment grounding rod that can be inspected at all times and is equipped with a voltage measurement IOT sensor (40).