KR20110035542A - Method for ground resistance measurement of concrete electric pole - Google Patents

Abstract

PURPOSE: A method for measuring a ground resistance of a concrete electric pole is provided to reduce the difference between a measured value and the real value of a resistance of a ground pole. CONSTITUTION: A first induced voltage is applied to the ground line(101) of a concrete electric pole. A first induced current is measured. The first induced current is an induced current related to the first induced voltage. A second induced current is measured. The second induced current is an induced current related to the first induced voltage. The second induced current is measured by the second induced voltage. The ground resistance of the concrete electric pole is calculated.

Description

Ground resistance measurement method of concrete pole {METHOD FOR GROUND RESISTANCE MEASUREMENT OF CONCRETE ELECTRIC POLE}

The present invention relates to a method for measuring the ground resistance of concrete poles, and more particularly, to a method for measuring the ground resistance of concrete poles in consideration of the structure grounding effect of the concrete pole for power distribution.

The pole is equipped with a ground resistance system to protect the facility from electrical damage, to protect people from electrical shock and to quickly discharge the impact current to the ground. Among the grounding systems used for this, Korea's distribution system uses neutral multiple grounding. Neutral multiple grounding method is to connect the neutral wire to the ground through the ground wire at regular intervals. The equivalent impedance of multiple grounded neutrals is assumed to be negligible compared to the ground resistance of a single ground electrode. Therefore, the conventional ground resistance measurement method applies an induced voltage to the ground wire connected to the ground rod of the pole. At this time, the resistance is calculated by measuring the current flowing through the ground wire, and this resistance is regarded as the ground resistance of the pole.

Concrete poles for power distribution contain reinforcing bars, and the embedded concrete pole part absorbs moisture and has low resistivity. That is, the concrete pole of the power distribution itself may perform a ground electrode function. By this phenomenon, there is a problem in that the ground resistance of the concrete pole cannot be accurately measured by the conventional method.

It is an object of the present invention to provide a method of measuring ground resistance of concrete poles which reduces the error between the measured value and the true value of ground rod ground resistance.

An object of the present invention is to provide a method for measuring the ground resistance of a concrete pole in consideration of the grounding effect of the pole structure.

An object of the present invention is to provide a method for measuring the ground resistance of concrete poles that can accurately measure the composite ground resistance of the pole structure and the ground rod.

According to an aspect of the invention, the step of applying a first induced voltage to the pole ground wire of the concrete pole. Measuring a first induced current which is an induced current of the pole ground line by the first induced voltage, measuring a second induced current that is induced current of the entire pole including the pole ground wire and the pole structure by the first induced voltage, and pole Applying the second induced voltage to the whole, measuring the second induced current by the second induced voltage and concrete pole through the first induced voltage, the second induced voltage, the first induced current and the second induced current It provides a method of measuring the ground resistance of the concrete pole comprising the step of calculating the ground resistance of the concrete pole.

The method of measuring ground resistance of concrete pole according to an embodiment of the present invention has an effect of reducing an error between the measured value and the true value of the ground rod ground resistance.

The method for measuring the ground resistance of concrete pole according to an embodiment of the present invention has an effect of measuring the ground resistance of the pole more precisely than the conventional one in consideration of the grounding effect of the pole structure.

The method of measuring ground resistance of concrete pole according to an embodiment of the present invention has the effect of accurately measuring the composite ground resistance of the pole structure and the ground rod.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description.

Hereinafter, a method for measuring ground resistance of concrete pole according to the present invention will be described in detail with reference to the accompanying drawings, and in describing with reference to the accompanying drawings, the same or corresponding components are given the same reference number and Duplicate explanations will be omitted.

1 is an exemplary view showing a flow of induced current of a pole according to an embodiment of the present invention.

1, when injecting a current (I) applied to the induced voltage (V _S) to the ground line 101 of the electric pole, and the ground line 101 and a pole structure 102 of the pole to the ground current flow. That is, the induced current due to the induced voltage (V _S ) can be divided into a ground line current I _E flowing through the ground wire 101 to the ground rod 103 and a structure current I _C flowing into the ground through the pole structure 102. Can be.

2A and 2B are exemplary diagrams illustrating an example of ground current measurement flowing through a ground line and a pole structure in a ground resistance measurement test according to an exemplary embodiment of the present invention.

2A and 2B, it can be seen that when the current I is injected into the electric pole, the injected current I is divided into the ground line current I _E and the structure current I _C to flow. .

Figure 3 is an exemplary view showing a ground resistance measuring method according to an embodiment of the present invention.

Referring to FIG. 3, a first clamped split core transformer 301, a second clamped split core transformer 302, and a first large diameter split core transformer 303 are used to measure ground resistance.

The first clamped split core transformer 301 is a clamped split core transformer for generating an induced voltage. The first clamped split core transformer 301 is installed on the ground wire 101 of the concrete pole. The first clamped split core transformer 301 installed at the ground line 101 generates a first induced voltage at the ground line 101.

The second clamped split core transformer 302 is a clamped split core transformer for inductive current measurement. The second clamped split core transformer 302 is installed on the ground wire 101 of the concrete pole. The second clamp-type split core transformer 302 installed at the ground line 101 measures the first induced current (I _E ), which is a battery line current flowing through the ground line 101 by the first induced voltage.

The first large diameter split core transformer 303 is a large diameter split core transformer for inductive current measurement. The first large-diameter split core transformer 303 is installed in such a manner as to surround the entire concrete pole including the ground wire 101 and the pole structure 102. The first large-diameter split core transformer 303 measures a second induced current which is a structure current I _C flowing through the entire pole.

When the first induction voltage is applied to the ground line 101, the induction current flowing through the pole structure 103 is considered more accurately by measuring not only the first induced current of the ground line 101 but also the second induced current flowing through the entire pole. The ground resistance of the pole can be measured.

Figure 4 is an exemplary view showing a grounding resistance measuring method according to another embodiment of the present invention.

Referring to FIG. 4, a first large diameter split core transformer 303 and a second large diameter split core transformer 304 are used to measure ground resistance.

The first large diameter split core transformer 303 is a large diameter split core transformer for inductive current measurement. The first large-diameter split core transformer 303 is installed in such a manner as to surround the entire electric pole including the ground wire 101 and the electric pole structure 102 to measure the second induced current flowing through the entire electric pole.

The second large diameter split core transformer 304 is installed in such a manner as to surround the entire electric pole including the induced voltage ground line 101 and the electric pole structure 102. The second large-diameter split core transformer 304 installed in the entire pole applies the second induced voltage to the entire pole.

The second large-diameter split core transformer 304 applies a second induced voltage to the entire pole and measures the second induced current generated by the first large-diameter split core transformer 303.

3 and 4, when the first frequency and the second frequency generated by the first induced voltage and the second induced voltage are the same, the first induced voltage is measured by applying the first induced voltage, and then 2 The second induced current is measured sequentially by applying an induced voltage. In other words, after measuring the induced current of the ground wire 101, by measuring the induced current of the entire pole, the ground resistance is calculated using the measured induced voltage and the induced current. The first induced current and the second induced current are measured in the same order even when the first frequency and the second frequency generated by the first induced voltage and the second induced voltage are different.

In addition, when the frequencies of the first induced voltage and the second induced voltage are different from each other, the first induced current and the second induced current may be simultaneously measured. In other words, the first induced voltage and the second induced voltage having different frequencies are applied to the ground wire 101 and the entire pole, and the induced current of the entire pole of the ground wire 101 is simultaneously measured.

Figure 5 is a circuit diagram showing an equivalent circuit by the method of measuring the ground resistance according to an embodiment of the present invention.

Referring to FIG. 5, an equivalent circuit in the case where the second induced voltage is applied to the entire electric pole while applying the first induced voltage V _e1 to the ground line 101 is shown. Here, the equivalent circuit can be seen that the ground line 101 and the pole structure 102 are connected in parallel. The equivalent circuit of FIG. 5 will be described in detail with reference to FIGS. 6 and 7 by dividing each voltage.

6 is a circuit diagram illustrating an equivalent circuit with respect to the ground line induced voltage by the ground resistance measuring method according to an exemplary embodiment of the present invention.

FIG. 6 is an equivalent circuit diagram showing a case where a first induction voltage is applied to the ground line 101 using the first clamped split core transformer 301.

At this time, the equivalent circuit is represented by [Equation 1] and [Equation 2] below.

[Equation 1]

[Equation 2]

Here, R _C is the ground resistance of the pole structure 102, R _E is the ground resistance of the ground rod 103, Z _th is the equivalent impedance outside the neutral line, V _e1 is the first induced voltage, which is the induced voltage of the ground line 101, I ₁ is a first induced current flowing through the ground line 101, and Z ₁ is a first impedance which is an apparent impedance with respect to the ground line 101.

The true ground resistance true value R _TURE of the entire electric pole including the ground wire 101 is expressed as shown in [Equation 3].

[Equation 3]

At this time, it can be regarded that the true value of the first impedance of [Equation 2] and the electric pole ground resistance of [Equation 3] is the same under the conditions of R _C »Z _th and R _E >> R _C.

When an induced voltage is applied to the ground line 101, the current I 'flowing through the electric pole structure is represented by the following [Equation 4].

[Equation 4]

When the first induced voltage is applied to the ground line 101 using the first clamped split core transformer 301, the first induced current of the ground line 101 is measured through the second clamped split core transformer 302. can do. In addition, a second induced current, which is the sum (I ₁ + I ′) of the induced current flowing through the ground wire 101 and the induced current flowing through the pole structure 102, can be measured through the first large-diameter split core transformer 303. have. At this time, the ground resistance of the electric pole structure 102 is expressed as shown in [Equation 5] below.

[Equation 5]

(단,

)

(only,

)

Here, the K value is a value obtained by measuring the first induced current and the second induced current which are induced currents of the second clamp type split core transformer 302 and the first large diameter split core transformer 303.

FIG. 7 is a circuit diagram illustrating an equivalent circuit with respect to the ground line induced voltage by the ground resistance measuring method according to another exemplary embodiment.

FIG. 7 is an equivalent circuit diagram illustrating a case where an induced voltage is applied using a second large diameter split core transformer 304 surrounding the entire electric pole including the ground wire 101.

At this time, the equivalent circuit is represented by the following [Equation 6] and [Equation 7].

[Equation 6]

[Equation 7]

Where I ₂ is the second induced current flowing through the entire pole, and Z ₂ is the apparent impedance of the entire pole.

Z ₁ , the first impedance of FIG. 6, may be derived by substituting Equation 5 into Equation 7 above. That is, Z ₁ may be expressed as shown in [Equation 8] below.

[Equation 8]

In Equation 8, the equivalent impedance Z _th outside the neutral line can be summarized as shown in Equation 9 below.

[Equation 9]

In addition, by substituting the above [Equation 9] into [Equation 7], R _C which is the ground resistance of the electric pole structure 102 can be obtained. That is, R _C is represented by the following [formula 10].

[Equation 10]

In addition, by substituting [Formula 9] and [Formula 10] into [Formula 5], R _E which is the ground resistance of the ground rod 103 can be obtained. That is, R _E is represented by the following [Equation 11].

[Equation 11]

or

Here, K, Z ₁ and Z _{2 which} are variables of the above [Equation 11] are all the values obtained by a measurement.

The value of R _E can be obtained by substituting the values of K, Z ₁ and Z _{2 which} are variables which are values obtained by the measurement in the above [Equation 11]. Once the value of R _E is determined, Z _th value can be obtained by the above [Equation 8]. In addition, when the values of R _E and Z _th are determined, the value of R _C can be obtained by [Equation 5]. Therefore, by substituting R _E and R _C obtained as described above in [Equation 3], R _TURE which is the pole resistance of the entire pole including the ground wire and the pole structure can be obtained.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art to which the present invention pertains without departing from the spirit and scope of the present invention as set forth in the claims below It will be appreciated that modifications and variations can be made.

1 is an exemplary view showing a flow of induced current of a pole according to an embodiment of the present invention.

2A and 2B are exemplary diagrams illustrating an example of ground current measurement flowing through the ground wire and the pole structure during the ground resistance measurement test according to an exemplary embodiment of the present invention.

Figure 3 is an exemplary view showing a ground resistance measuring method according to an embodiment of the present invention.

Figure 4 is an exemplary view showing a grounding resistance measuring method according to another embodiment of the present invention.

5 is a circuit diagram showing an equivalent circuit according to the ground resistance measuring method according to an embodiment of the present invention.

Figure 6 is a circuit diagram showing an equivalent circuit for the ground line induced voltage by the ground resistance measuring method according to an embodiment of the present invention.

Figure 7 is a circuit diagram showing an equivalent circuit for the ground line induced voltage by the ground resistance measuring method according to another embodiment of the present invention.

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

101: ground wire

102: structure

103: ground rod

301 302: Clamped Split Core Transformer

303 304: Large Diameter Split Core Transformer

Claims (9)

Applying a first induced voltage to the pole ground line of the concrete pole; Measuring a first induced current which is an induced current of the pole ground line by the first induced voltage; Measuring a second induced current which is an induced current of the entire pole including the pole ground line and the pole structure by the first induced voltage; Applying a second induced voltage across the entire pole; Measuring a second induced current by the second induced voltage; And And calculating the ground resistance of the concrete pole based on the first induced voltage, the second induced voltage, the first induced current, and the second induced current. The method of claim 1, When the first frequency and the second frequency generated by the first induced voltage and the second induced voltage are the same, And measuring the first induced current by applying a first induced voltage, and then measuring the second induced current by applying a second induced voltage. The method of claim 1, When the first frequency and the second frequency generated by the first induced voltage and the second induced voltage are different, And measuring the first induced current by applying a first induced voltage, and then measuring the second induced current by applying a second induced voltage. The method of claim 1, After applying a first induced voltage and a second induced voltage having a different frequency, the ground resistance measuring method of the concrete pole, characterized in that to measure the first induced current and the second induced current at the same time. The method of claim 1, And measuring the ground resistance of the entire pole in the state in which the pole ground wire and the pole structure are connected in parallel. The method of claim 1, Wherein the first induced voltage is applied to the ground resistance measuring method of the concrete pole characterized in that the applied by the clamp split core transformer. The method of claim 1, The method of measuring the ground resistance of the concrete pole, characterized in that the second induced voltage is applied by a large diameter clamp type split core transformer. The method of claim 1, The method of measuring ground resistance of concrete poles, characterized in that the first induced current is measured by a clamped split core transformer. The method of claim 1, The method of measuring ground resistance of concrete poles, characterized in that the second induced current is applied by a large diameter clamp type split core transformer.

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