KR100687098B1 - remote measuring system for earth resistance - Google Patents

Abstract

The present invention provides a remote grounding resistance measurement system that enables the remote measurement of the grounding resistance at any time.

The present invention for achieving the above object comprises a plurality of electrodes in the region for measuring the ground resistance, the measuring electrode to which the measurement voltage is applied between the power supply electrode and the power supply supplied by the power supply electrode field; A power supply unit supplying power to the power electrodes; A data collection unit to which the measurement voltage is input; Switching means for connecting the power electrodes of the plurality of electrodes to the power supply and the measurement electrodes to the data collector; A switching driver for driving the switching means; And a control unit for controlling the switching driver to select predetermined electrodes among the plurality of electrodes to operate as power electrodes and measurement electrodes.

Earth resistance, high earth resistance, data acquisition unit, communication network

Description

Remote measuring system for earth resistance

1 is a configuration diagram illustrating a conventional method for measuring earth resistance.

2 is a block diagram illustrating the entire system of the present invention.

3 is a circuit diagram illustrating an operation process of a switching device in the present invention.

4 is a circuit diagram illustrating a method of measuring ground resistance in accordance with FIG. 3.

The present invention relates to a remote grounding resistance measuring apparatus for remotely measuring the grounding resistance remotely, and more particularly, a grounding rod for supplying power from a remote ground to a plurality of grounding rods pre-installed in a measuring area and a grounding rod for measuring voltage. It relates to a remote ground resistance measuring device for controlling the.

Grounding work on electrical facilities and telecommunications equipment has affected the protection of equipment, the prevention of malfunction of equipment and the safety of people. It is regulated to be installed below the predetermined ground resistance.

The ground resistance of the ground installed in the facility is affected by the shape of the ground rod and also by the ground on which the ground rod is installed.

The development of the conventional grounding technique and construction method has been made to lower the ground resistance by improving the shape of the ground rod or by improving the construction method. However, even the ground construction, the ground resistance is changed according to the soil properties, climate, and temperature. This causes a lot of changes in ground resistance.

Even if the construction is within the ground resistance specified in the relevant electrical codes during construction, the ground resistance specified by climate change, etc. may be exceeded. In this case, equipment failure and personnel accidents may occur.

Therefore, it can be said that it is essential to measure the earth resistance that has the greatest effect on the grounding resistance in the area where the grounding work is already performed or the point where the grounding work should be performed.

1 is a configuration diagram illustrating a conventional method for measuring earth resistance.

FIG. 1 is based on the Wener electrode method. The potential electrodes P ₁ and P ₂ are placed on the inside of the measurement line in a straight line, and the current electrodes C ₁ and C ₂ are installed on the outside, and C ₁ -P ₂ , P ₁ -P ₂ , Make the distance a of P ₂ -C ₂ equally spaced.

A current I is injected into the external electrodes C ₁ and C ₂ , and the potential difference V between the internal potential electrodes P ₁ and P ₂ is measured, and the earth resistance is obtained from the following equation (1).

 R = V / I = ρ / σ (ρ: high dielectric constant, σ: constant)

In the case where the electrodes do not maintain equal intervals, the earth resistance is determined by Schlumberger equation, but is the same as the above equation and only the value of the constant σ is different.

In order to measure the earth resistance, earth resistance must be measured. In order to measure earth resistance, the four-pole measuring electrode must be measured by the Wenner method.

Since earth resistance is affected by soil temperature, soil humidity, and so on, it will be changed according to season and weather changes. Therefore, it is necessary to record the yearly measurement. Due to cost concerns these measures are avoided.

The present invention is to solve the above problems, an object of the present invention is to install a plurality of electrodes in the area for measuring the ground resistance, to supply power to the plurality of electrodes at a remote location, the measured voltage transmitted from the electrodes It is intended to provide a system for measuring ground resistance at a remote location by receiving data.

A feature of the present invention for achieving the above object is a measurement that is installed in the area for measuring the ground resistance, the measurement voltage is applied between the electrodes by the power supply electrodes and the power supplied by the power supply electrodes A plurality of electrodes including electrodes; A power supply unit supplying power to the power electrodes; A data collection unit to which the measurement voltage is input; Switching means for connecting the power electrodes of the plurality of electrodes to the power supply and the measurement electrodes to the data collector; A switching driver for driving the switching means; And a control unit for controlling the switching driver to select predetermined electrodes from the plurality of electrodes to operate as power electrodes and measurement electrodes.

In the present invention, it is preferable that the data collecting unit converts the measured voltage into digital data.

In addition, in the present invention, it is preferable that a temperature sensor and a humidity sensor are installed in the plurality of electrodes in parallel and the detected value is input to the data collection unit.

In addition, in the present invention, it is preferable that an angle sensor and a distance sensor are installed in parallel with the plurality of electrodes so that a value sensed by the sensors is input to the data collection unit.

In addition, in the present invention, the ground resistance measuring system further includes a transmission means connected to the control unit for transmitting and receiving data to and from an external device through a wired or wireless communication network, the transmission means is the data collected by the data collection unit It is preferable to transmit to an external device.

In addition, in the present invention, the control unit preferably receives data for operating the switching driver from a remote location connected to a wired or wireless communication network, and controls the switching driver according to the received data.

Hereinafter, an embodiment of the present invention according to the accompanying drawings will be described in detail.

2 is a block diagram illustrating the entire system of the present invention.

The control unit 10 receives a control command from the input unit 11 as a microcontroller or a central processing unit (CPU) or receives a control command from the web server 20 to control various devices connected to the control unit 10. The web server 20 is equipped with TCP / IP for performing wired and wireless communication with the central server 200 connected by a wired or wireless communication network so that the control unit 10 is remotely controlled by the central server 200, the control unit 20 and Receives data from another device connected to the control unit 20 and transmits it to the central server (200). The control unit 10 and the web server 20 may be formed of a personal computer (PC) or an embedded computer, but may be formed in various forms without being limited thereto.

The control unit 10 is connected to the switching driver 30 to operate the switching elements 50 in response to a signal from the control unit 10 to connect two specified electrodes to the power supply unit 70, and to connect the other two electrodes to the data. Connect to the collection unit 40.

In addition, the control unit 30 is connected to the data collection unit 40, the data collection unit 40 converts and collects the voltage difference formed between the connected electrodes to digital data. In addition, the data collection unit 40 is connected to the humidity sensor, the temperature sensor 80 is installed for each electrode or independently installed in a predetermined area receives the detected humidity, temperature. In addition, the data collection unit 40 receives the distance and angle detected from the distance sensor, the angle sensor 90 installed in the electrode.

The distance sensor and the angle sensor are preferably installed in a straight line. However, the distance sensor and the angle sensor are used to calculate the exact separation distance between the electrodes when the topography cannot be installed in a straight line. By grasping the angle between the installation position and the horizontal plane by the angle sensor can obtain the actual separation distance.

In addition, the PC 100 or the central server 200 to calculate the ground resistance by dividing the measurement area by the data collected from the data collection unit 40, and to form the ground resistance, temperature, humidity as a database Application is provided.

3 is a circuit diagram illustrating an operation process of a switching device in the present invention, and FIG. 4 is a circuit diagram illustrating a method of measuring ground resistance according to FIG. 3.

Power lines (+) and (-) are drawn out from the power supply unit 70, and lead lines (+) and (-) are drawn out from the data collection unit 40, and switching elements SW1 and (SW2). ),… (SW11) has a power supply line (+), (-), a contact line (a), b, c, d connected to the lead line (+), (-) and a contact (k) connected to the electrode have. In addition, the switching elements are connected to one of the contacts k and the contacts a, b, c, and d by signals of the switching driver.

As shown in FIG. 4, when SW1 is connected to bk, SW2 is ck, SW3 is dk, and SW4 is ak according to the driving signal of the switching driver, the power supply voltage Vp1 is applied to the electrodes Id1 and Id4, and the electrode Id2 and the electrode. The measurement voltage Vc1 is generated between Id3 and the measurement voltage is applied to the data collection unit 40. Therefore, the resistivity ρ and earth resistance R of the earth are calculated between the electrodes Id1 and Id4, and the ground resistance is calculated in consideration of the constant value according to the shape of the electrode from the earth resistance.

In addition, when SW2 is connected to bk, SW3 is ck, SW4 is d-k, and SW5 is ak, the power supply voltage Vp2 is applied to the electrodes Id2 and Id5 by the drive signal of the switching driver. The voltage Vc2 is generated, and the measured voltage is applied to the data collector 40. Therefore, the specific resistivity p of the earth is calculated between the electrodes Id2 and Id5.

As such, when two of the plurality of electrodes are selected as a power supply electrode and power is applied, and two of the remaining electrodes are selected as the measurement electrode, the resistance between the various electrodes can be measured. Earth resistance and ground resistance can be measured.

Hereinafter, the operation of the present invention will be described in detail.

When the web server 20 is connected to the web server 20 from the central server 200 through the wired / wireless network and the data specifying the power electrodes and the measurement electrodes for measuring the ground resistance are input to the controller 10, the controller 10 may include a switching driver ( By transmitting a control command to 30, the switching driver 30 operates the switches such that the designated electrodes are operated as the power supply electrode and the measurement electrode as shown in FIG.

When power is applied from the power supply unit to the power electrodes, a measurement voltage is applied between the measurement electrodes, and the measurement voltage is converted into digital data by the data collection unit 40.

At this time, the data detected from the humidity sensor, the temperature sensor, the distance sensor, the angle sensor installed in parallel with the specified electrodes are transmitted to the data collection unit 40.

When the power supply voltage is applied to the plurality of other electrodes in the region and the measurement voltage is measured, the ground resistance in the region can be measured.

According to the present invention having the above object and configuration, since the earth resistance which has the most influence on the earth resistance can be measured at a convenient time at all times, the safety accident can be reduced against the seasonal change and weather change of the earth resistance. In addition, it can protect the electrical equipment and has the effect of reducing the protection and noise of the communication equipment.

Claims (6)

A plurality of electrodes installed in an area for measuring ground resistance, the plurality of electrodes including power electrodes to which power is supplied and measurement electrodes to which a measurement voltage is applied between the electrodes by power supplied by the power electrodes; A power supply unit supplying power to the power electrodes; A data collection unit to which the measurement voltage is input; Switching means for connecting the power electrodes of the plurality of electrodes to the power supply and the measurement electrodes to the data collector; A switching driver for driving the switching means; And a control unit for controlling the switching driver to select predetermined electrodes from the plurality of electrodes to operate as power electrodes and measurement electrodes. The remote ground resistance measurement system as claimed in claim 1, wherein the data collection unit converts the measurement voltage into digital data. The remote ground resistance measurement system according to claim 1 or 2, wherein the plurality of electrodes are provided with a temperature sensor and a humidity sensor in parallel and the detected value is input to the data collection unit. The remote ground resistance measurement system of claim 3, wherein an angle sensor and a distance sensor are installed in parallel with the plurality of electrodes, and a value detected by the sensors is input to the data collection unit. The method of claim 1, wherein the ground resistance measuring system further comprises a transmission means connected to the control unit for transmitting and receiving data to and from the external device through a wired or wireless communication network, the transmission means for transmitting the data collected by the data collection unit Remote ground resistance system, characterized in that for transmitting to the external device. The remote ground resistance system of claim 1, wherein the controller receives data for operating the switching driver from a remote location connected to a wired / wireless communication network, and controls the switching driver according to the received data.

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