KR20190063316A - Ground terminal box with non-contact type ground resistance measurement equipment - Google Patents

Abstract

The present invention relates to a grounding terminal box having a non-contact grounding resistance measurement function, which includes a first through-hole type sensor, a second through-hole type sensor, a voltage output unit, a voltage measurement unit, and a microprocessor. By measuring the ground resistance of periodical grounding, the safety of the grounding can be detected in real time, thereby preventing an electronic safety accident in advance.

Description

[0001] The present invention relates to a ground terminal box having a non-contact type ground resistance measurement function,

The present invention relates to a ground terminal box having a non-contact type ground resistance measuring function, and more particularly, to a ground terminal box having a non-contact type ground resistance measuring function, By detecting the current value flowing through the second through-hole type sensor and the voltage measuring unit and measuring the grounding resistance value of the grounding line in the microprocessor based on the detected current value, it is possible to measure the grounding resistance value of the grounding line very easily In addition, it is possible to detect the safety of the ground in real time by measuring the grounding resistance of periodic ground by installing the equipment required for measurement in the grounding terminal box, so that the non-contact grounding resistance To a ground terminal box having a measurement function.

Normally, earth and ground connect electrical terminals to earth, and earth electrodes (ground rods) serve as electrical terminals. Whether electrical equipment is easily grounded on earth through the ground wire and earth electrode and flows into the ground through the electrodes depends on the ground resistance.

Therefore, grounding work is required to protect electric facilities and to prevent electric accidents, and it is necessary that the grounding works correctly so as to maintain a grounding resistance within a specified value.

On the other hand, the potential lowering method is used in a unilateral manner in which the grounding resistance is measured. In this potential lowering method, a current auxiliary pole is provided at a sufficiently far distance from the earth pole to measure a grounding resistance, a potential auxiliary pole is provided between the ground pole and the current auxiliary pole, A potential difference is generated between the ground electrode and the potential auxiliary pole. At this time, the ground resistance of the earth electrode is measured using the potential difference.

However, since the measurement of the ground resistance by the potential drop method as described above requires an additional current auxiliary pole and a potential auxiliary pole to be installed, it is not only inconvenient to measure, but also measures the ground resistance at the beginning of the grounding work, Since the poles and the potential auxiliary poles are recovered, it is difficult to measure the ground resistance periodically, so that the safety of the ground can not be detected after a long time, and there is a risk of being exposed to electrical safety accidents due to the ground fault.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve all of the above problems, and an object of the present invention is to provide a method and an apparatus for forcing a current through a first through-hole type sensor and a voltage output unit by a ground line electrically connected to a grounding electrode By detecting the current value flowing through the second through-hole type sensor and the voltage measuring unit and measuring the grounding resistance value of the grounding line in the microprocessor based on the detected current value, it is possible to measure the grounding resistance value of the grounding line very easily In addition, it is possible to detect the safety of the ground in real time by measuring the grounding resistance of periodic ground by installing the equipment required for measurement in the grounding terminal box, so that the non-contact grounding resistance And a ground terminal box having a measurement function.

Furthermore, the ground resistance of the ground wire measured in real time is outputted through the video output part, and it is outputted in the state of safety, caution, and alarm according to the ground state, so that the manager can easily recognize the state of ground, And a ground terminal box having a non-contact type ground resistance measurement function capable of inducing a ground contact resistance.

According to another aspect of the present invention, there is provided a ground terminal box having a non-contact type ground resistance measuring function, comprising: a ground terminal box having a plurality of ground terminals electrically connected to a ground line connected to a ground electrode,

A first through-hole sensor having a through-hole penetrating the inside thereof, a coil wire wound on a side thereof, and a grounding line vertically penetrating the center of the first through-hole sensor, A second through-hole sensor having a coil wire wound thereon, the grounding wire being vertically penetrated through the center of the coil, and a microprocessor controlled to apply a constant voltage to the coil line of the first through- A voltage measuring unit for measuring a voltage value induced to the coil line of the second through-hole sensor by a current flowing through the ground line; And a microprocessor for measuring a ground resistance value of the ground line by detecting a current value flowing through the ground line based on the measured voltage value at the voltage measuring unit And further comprising:

The microprocessor may further include an image output unit for outputting a ground resistance value of the ground line detected by the microprocessor as an image.

Also, the microprocessor sets the ground resistance value of the ground wire to be detected first, as a reference ground value, and sets the ground resistance value of the ground wire detected through real-time measurement as a real time ground value,

If the real time ground value exceeds 120% of the reference ground value, it outputs through the video output unit in a state of safety. If the real time ground value exceeds 120% of the reference ground value, And outputs an alarm state through the image output unit when the reference ground value exceeds 150% of the reference ground value.

In addition, the first through-hole type sensor is made of a ferrite material so that a current having a high frequency component can flow, and a gap is formed in the first through type sensor to prevent saturation of the first through type sensor at a high current .

As described above, according to the ground terminal box having the non-contact type ground resistance measuring function according to the present invention, a current is forcibly flowed through the first through-hole type sensor and the voltage output portion through the ground line electrically connected to the earth electrode grounded to the ground, By detecting the current value flowing through the second through-hole type sensor and the voltage measuring unit and measuring the grounding resistance value of the grounding line in the microprocessor based on the detected current value, it is possible to measure the grounding resistance value of the grounding line very easily In addition, since the equipment required for measurement is installed in the ground terminal box, it is possible to detect the safety of the ground in real time by measuring the grounding resistance of the grounding periodically, so that the electric safety accident can be prevented in advance .

Furthermore, the ground resistance of the ground wire measured in real time is outputted through the video output part, and it is outputted in the state of safety, caution, and alarm according to the ground state, so that the manager can easily recognize the state of ground, Can be induced.

1 is a conceptual diagram of a ground terminal box having a non-contact type ground resistance measurement function according to an embodiment of the present invention.
2 is a view for explaining ground resistance measurement of a ground wire through a ground terminal box having a non-contact type ground resistance measurement function shown in FIG. 1

A ground terminal box having a non-contact type ground resistance measurement function according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

1 and 2 illustrate a ground terminal box having a non-contact type ground resistance measurement function according to an embodiment of the present invention. FIG. 1 is a conceptual diagram of a ground terminal box having a non-contact type ground resistance measurement function according to an embodiment of the present invention, FIG. 2 is a view for explaining ground resistance measurement of a ground wire through a ground terminal box having the non-contact type ground resistance measurement function shown in FIG.

As shown in the figure, the ground terminal box 100 having the non-contact type ground resistance measuring function according to the embodiment of the present invention includes a plurality of ground terminals 1 electrically connected to the ground line 2 connected to the ground electrode 1, In the ground terminal box 3 having the ground terminal 3a,

And further includes a first through-hole type sensor 10, a second through type sensor 20, a voltage output unit 30, a voltage measuring unit 40, and a microprocessor 50.

As shown in FIG. 1, the first through-hole sensor 10 penetrates the inside of the first through-hole sensor 10, and a coil wire 11 is wound on a side surface thereof.

Here, the first through-hole type sensor 10 is made of a ferrite material so that a high-frequency current can flow therethrough. In order to prevent magnetic flux saturation of the first through-type sensors 10 and 20 due to a high current, It is needless to say that the cavity 70 is formed in the first through-hole type sensor 10. However, it is needless to say that it is not limited to these materials and structures.

As shown in FIG. 1, the second through-type sensor 20 is located at a lower portion of the first through-type sensor 10 and penetrates the inside of the first through-type sensor 10, and a coil wire 21 is wound on a side surface thereof , And the ground wire (2) penetrates vertically through the inner center.

As shown in FIG. 1, the voltage output unit 30 operates through control of the microprocessor 50 to be turned on. The voltage output unit 30 is connected to the coil line 11 of the first through- So that a current flows from the ground line 2 to the earth electrode 1 by an electromagnetic induction action.

Here, the voltage applied by the voltage output unit 30 is a voltage that is arbitrarily applied to induce a current to flow through the ground line 2 in order to measure the ground resistance of the ground line 2, When the voltage V1 is applied from the voltage output unit 30 to the coil line 11 of the first through sensor 10 as shown in FIG. The current Ig flows through the ground line 2 in the direction of the earth electrode by an electromagnetic induction action.

1, the voltage measuring unit 40 measures a voltage value induced in the coil line 21 of the second through-hole sensor 20 by a current flowing in the ground line 2 .

That is, as shown in FIG. 2A, the current Ig flowing to the ground line 2 forms a magnetic flux, and the magnetic flux thereof is linked with the coil wire 21 wound on the second through-type sensor 20, A voltage Vo for the current flowing in the ground line 2 is generated in the front line 21 and a voltage Vo generated at this time is measured by the voltage measuring unit 40 and transmitted to the microprocessor 50 .

1, the microprocessor 50 detects a current value flowing through the ground line 2 based on a voltage value measured by the voltage measuring unit 40 and outputs a ground resistance of the ground line 2 Measure the value.

That is, the microprocessor 50 detects the value of the current Ig flowing in the ground line 2 based on the voltage Vo generated by the second through-hole sensor 20, (Voltage (V1) / current (Ig)) of the ground line through the value (Ig) of the ground line and the voltage (V1) value applied from the voltage output unit 30. [

The detection of the value of the current Ig flowing in the ground line 2 with respect to the voltage Vo generated in the second through-hole type sensor 20 is repeatedly performed through the second through- And the current value information flowing through the ground line 2 with respect to various voltage values generated in the second through-hole sensor 20 is stored and stored, and the ground line 2 And the current value is detected.

1, an image output unit 60 for outputting a ground resistance value of the ground line 2 detected by the microprocessor 50 as an image and providing the same, The administrator can explicitly recognize the ground resistance value of the ground line 2 based on the image output through the video output unit 60. [

In addition, the microprocessor 50 sets the ground resistance value of the ground wire 2, which is detected first, as a reference ground value, and the ground resistance value of the ground wire 2 detected through real- Respectively,

As shown in FIG. 2B, if the real time ground value is less than 120% of the reference ground value, it is output through the video output unit 60 in a safe state. If the real time ground value exceeds 120% If the real-time grounding value exceeds 150% of the reference grounding value, the alarming state is output through the image outputting unit 60 to allow the administrator to clearly recognize the grounding state .

The ground terminal box 100 having the noncontact type ground resistance measurement function of the present invention having the above-described structure is connected to the first through-hole type sensor 10 and the second type through the ground line 2 electrically connected to the ground electrode 1, A current is forcedly flowed through the voltage output unit 30 and the current value is detected through the second through-hole type sensor 20 and the voltage measurement unit 40. Based on the detected current value, The ground resistance of the ground wire 2 is measured by the microprocessor 50 so that it is possible to measure the ground resistance value of the ground wire 2 very easily and conveniently, 3), it is possible to detect the safety of the ground in real time by periodically measuring the grounding resistance of the grounding, so that the electric safety accident can be prevented in advance.

Furthermore, the ground resistance value of the ground wire 2 measured in real time is output through the video output unit 60, and is output in a safe, careful, and alarmed state according to the ground state so that the administrator can easily recognize the ground state So that it is possible to induce a very effective control of the grounding.

The ground resistance R of the ground wire 2 is measured through the ground terminal box 100 having the non-contact type ground resistance measurement function according to the embodiment of the present invention as follows.

2A, the microprocessor 50 applies a predetermined voltage V1 to the coil line 11 of the first through-hole sensor 10 through the voltage output unit 30 to form the ground line 2, So that a constant current (Ig) flows.

For example, when the voltage V1 applied through the voltage output unit 30 is 100 V and the resistance due to the coil wire 11 of the first through-hole sensor 10 is 1 OMEGA, And a current Ig induced by the 100A current I1 flowing through the coil wire 11 flows to the ground line 2. In this case,

2A, the current Ig flowing to the ground line 2 forms a magnetic flux and the flux thereof is linked to the coil wire 21 wound on the second through-hole type sensor 20, A voltage Vo for the current flowing in the ground line 2 is generated in the front line 21 and the voltage Vo generated at this time is measured by the voltage measuring unit 40 and transmitted to the microprocessor 50.

Then, the microprocessor 50 detects the value of the current Ig flowing in the ground line 2 based on the voltage Vo generated by the second through-hole sensor 20, (Voltage (V1) / current (Ig)) of the ground line through the value (Ig) of the ground line and the voltage (V1) value applied from the voltage output unit 30. [

For example, if the voltage Vo measured by the voltage measuring unit 40 is 50 V and the current Ig flowing through the ground line 2 is 10 A, the grounding resistance R of the ground line 2 is set to 10 A, Is detected as 10 OMEGA by 100 V / 10A.

As shown in FIG. 2B, the ground resistance R of the ground line 2 detected as described above is output as an image to the administrator through the image output unit 60.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. Ground pole 2. Ground wire
3. Grounding box 3a. Grounding terminal
10. First through-hole sensor 11, 21. Coil line
20. Second through-hole sensor 30. Voltage output section
40. Voltage output section 50. Microprocessor
60. Video output section 70. Air gap
100. Ground terminal box with non-contact ground resistance measurement function

Claims (4)

A ground terminal box (3) having a plurality of ground terminals (3a) electrically connected to a ground wire (2) connected to a ground electrode (1)
A first through-hole sensor 10 through which a coil wire 11 is wound on a side surface, and the ground wire 2 passes vertically through an inner center;
A first through-hole type sensor 10 which is located below the first through-hole sensor 10 and which penetrates the inside thereof, a coil wire 21 wound on a side thereof, and a second through- (20);
And is operated through the control of the microprocessor 50 so that a constant voltage is applied to the coil line 11 of the first through sensor 10 so that the electric current flows from the ground line 2 to the earth electrode 1, A voltage output unit (30) for flowing a voltage;
A voltage measuring unit 40 for measuring a voltage value induced in the coil line 21 of the second through-hole sensor 20 by a current flowing through the ground line 2; And
And a microprocessor (50) for detecting a current value flowing through the ground line (2) based on the voltage value measured by the voltage measuring unit (40) and measuring a ground resistance value of the ground line (2) Ground terminal box with non-contact ground resistance measurement feature.
The method according to claim 1,
And a video output unit (60) for outputting a ground resistance value of the ground line (2) detected by the microprocessor (50) as an image and providing the ground resistance value to the ground terminal.
3. The method of claim 2,
The microprocessor 50 sets the ground resistance value of the ground wire 2 that is detected first to the reference ground value and sets the ground resistance value of the ground wire 2 detected through real- In addition,
If the real time ground value is less than or equal to 120% of the reference ground value, the video output unit 60 outputs a safe state. If the real time ground value exceeds 120% of the reference ground value, And when the real-time grounding value exceeds 150% of the reference grounding value, the alarming state is outputted through the video outputting unit 60 in an alarm state.
3. The method according to claim 1 or 2,
The first through-hole type sensor 10 is made of a ferrite material so that a current having a high frequency component can flow therethrough. The first through-type sensor 10 is connected to the first through- And a gap (70) is formed in the ground terminal (10).

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