KR101358025B1 - Electrical continuity assessment device - Google Patents

Abstract

The present invention relates to an apparatus for evaluating electrical continuity, and an object of the present invention is to provide a device that can easily determine whether electrical continuity is secured based on measured electrical resistance values between objects.
The present invention for achieving this object is a measuring device for energizing the measurement object and measuring and displaying the resistance value; And an enclosure accommodating the measuring device; .
According to the present invention described above, the equipotential bonding method, the measurement of the continuity between the ground terminal and the non-system conductive portion, the exposed conductive portion, the exposed conductive portion and the non-system conductive portion, the ground terminal and the exposed conductive portion, the electrical continuity of the steel frame The electrical continuity evaluation regarding evaluation, etc. has the effect which is easy, and it is also easy to carry and carry out the field measurement by accommodating an enclosure.

Description

ELECTRICAL CONTINUITY ASSESSMENT DEVICE

The present invention relates to an apparatus for evaluating electrical continuity, and more particularly, to an apparatus for measuring electrical resistance, such as a building ground, in a field ranging from several micro ohms to several hundred ohms using a four-terminal method.

Grounding refers to electrically connecting electrical equipment and other electronic equipment to the ground for safe use of electrical energy, and the connection terminal with the ground is called a ground electrode. Except in special cases, for the efficient and safe use of electrical energy, electrical equipment and equipment must be grounded by electrical equipment technical standards.

Equipotential bonding method, between ground terminal and off-grid conductive part, between exposed conductive part and exposed conductive part among the grounding system installed at the construction site to identify and analyze the improvement model of the grounding system based on the electrical equipment technical standard and IEC standard. Continuity measurements between parts and off-grid conductive parts, between ground terminals and exposed conductive parts, and evaluation of electrical continuity of steel frameworks can be made through field measurements.

On the other hand, the electrical resistance measuring device is described in part in the spring meeting of the Proceedings of the Korean Institute of Electrical Engineers 2004, "Live ground resistance measurement and field demonstration of large scale ground network" (hereinafter referred to as 'prior literature') The electrical resistance measuring apparatus according to the prior art is characterized by measuring the ground resistance of a large-scale ground network.

However, the electrical resistance measuring apparatus as in the prior art had a limit in easily grasping whether or not electrical continuity is secured between objects.

Proceedings of the Proceedings of the Proceedings of the Korean Institute of Electrical Engineers, Korea (Apr. 28, 2008 ~ May 29, 2004).

The present invention has been made in view of the above problems, and an object of the present invention is to provide an apparatus that can easily determine whether electrical continuity is secured based on measured electrical resistance values between objects.

The present invention for achieving the above technical problem relates to an electrical continuity evaluation device, the measuring device for energizing the measurement object and measuring and displaying the resistance value; And an enclosure accommodating the measuring device; .

In addition, the measuring device, the measuring range setting unit for setting the measuring range of the electrical resistance; A large current generator for generating a current and applying the current to a measurement object; A resistance value measurement unit connected to the measurement objects through a cable to measure a resistance value, and determining whether the measured electrical resistance value exceeds a preset value; And a display unit for displaying various kinds of information regarding the electrical resistance measurement including an alarm notification signal and a normal signal. And a control unit.

When the measured resistance value exceeds the preset value, the resistance value measurement unit determines that the electrical continuity between the measurement targets is not secured and generates an alarm notification signal. When the resistance value measurement unit does not exceed, the electrical continuity between the measurement targets is determined. It is determined that this is secured, characterized in that to generate a normal signal.

According to the present invention as described above, the equipotential bonding method, between the ground terminal and the non-system conductive portion, between the exposed conductive portion, between the exposed conductive portion and the non-system conductive portion, the continuity measurement between the ground terminal and the exposed conductive portion, the electrical of the steel frame The electrical continuity evaluation regarding continuity evaluation etc. has an effect which is easy.

In addition, by being accommodated in the enclosure, there is also an effect of easy portability and field measurement.

1 is a detailed block diagram of a measuring device according to the present invention.
2 is an actual view of an enclosure according to the present invention.
Figure 3 is an exemplary view showing the appearance of measuring the continuity of the motor enclosure-1 and the enclosure-2 using the electrical continuity evaluation device according to the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

The electrical continuity evaluation device A according to the present invention will be described with reference to FIGS. 1 to 3 as follows.

Electrical continuity evaluation device (A) according to the present invention comprises a measuring device 100 and the enclosure 200.

The measuring apparatus 100 performs a function of measuring and displaying a resistance value by energizing a measurement object. As shown in FIG. 1, the measurement range setting unit 110, the large current generating unit 120, and the resistance value measuring unit are shown. 130 and the display unit 140.

Specifically, the measurement range setting unit 110 sets the measurement range of the electrical resistance.

In general, since the measurement range of the measurement object is very wide, it should be possible to set multiple measurement ranges in order to precisely maintain the measurement error range.

The large current generating unit 120 generates a current and applies it to the measurement object.

At this time, the current may not be properly applied due to the voltage drop caused by the measurement object and the measurement accessory. Therefore, the large current generating unit 120 generates a sufficiently large current and applies it to the measurement object.

The resistance value measuring unit 130 is connected to the measurement objects through the cable 131 to measure the resistance value, and determines whether the measured electrical resistance value exceeds a preset value.

As a result of determination, when the measured electrical resistance value exceeds a predetermined value, the resistance value measuring unit 130 determines that the electrical continuity between the measurement targets is not secured and generates an alarm notification signal. It determines that electrical continuity between objects is secured and generates a normal signal.

The display unit 140 displays various kinds of information regarding the electrical resistance measurement, including an alarm notification signal and a normal signal.

In addition, the enclosure 200 accommodates the measurement apparatus 100 as shown in FIG. 2 and is manufactured to be easy to carry.

On the other hand, in evaluating the continuity of the protective conductor including the main and auxiliary equipotential bonding, the following resistance value is measured by using AC or DC no-load voltage 4 ~ 24 [V], in which case the minimum current is 0.2 [A ] Is preferred.

-Between the main earth terminal and the conductive part

-Between exposed conductive parts, between exposed conductive parts and off-grid conductive parts

-For TT systems, between the main ground terminal and the exposed conductive parts

-TN system, between neutral point and exposed conductive part

 As a criterion for this, it is recommended that the resistance values of the main equipotential bonding, the auxiliary equipotential bonding, and the protective conductor be less than 1 [kPa]. Field measurements were carried out based on criteria for determining the continuity of primary equipotential bonding conductors, auxiliary equipotential bonding conductors and protective conductors specified in IEC 60364. If the potential of the auxiliary equipotential connection is suspected, the resistance R ≤ 50 / Ia (Ia: operating current of the protector, which is the operating current of the protector, is specified in the international standard IEC 60364 in the case of an earth leakage breaker). The sensitivity current IΔn and the overcurrent protector must be satisfied.

The main equipotential bonding is the most important technology for the safety of the electrical equipment inside the building. The equipotential bonding is achieved by connecting the conductive parts out of the system to the main ground terminal of the facility. The main equipotential bonding reduces the risk of electric shock in the electrical installation regardless of the type of the grounding system. It has the effect of reducing it.

Figure 3 is an exemplary view showing the appearance of measuring the continuity of the motor enclosure-1 and the enclosure-2 using the electrical continuity evaluation device (A) according to the present invention.

As shown, the electrical continuity between the motor enclosure, which is an exposed conductive part, was measured to be 0.034 [m], indicating that auxiliary equipotential bonding was performed.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. Accordingly, all such appropriate modifications and changes, and equivalents thereof, should be regarded as within the scope of the present invention.

A: electrical continuity evaluation device
100: measuring device 200: enclosure
110: measuring range setting unit 120: large current generating unit
130: resistance value measuring unit 140: display unit

Claims (3)

Apparatus for evaluating electrical continuity of protective conductors including primary and auxiliary equipotential bonding,
A measuring device 100 that energizes the measurement object and measures and displays a resistance value; And
An enclosure 200 accommodating the measurement device 100; ≪ / RTI >
The measuring device 100,
A measurement range setting unit 110 for setting a measurement range of the electrical resistance;
A large current generator 120 generating a current having a magnitude that can be applied even when the voltage is dropped by the measurement object and the measurement accessory and applying the current to the measurement object;
A resistance value measuring unit 130 connected to the measurement objects through the cable 131 to measure a resistance value, and determining whether the measured electrical resistance value exceeds a preset value; And
A display unit 140 for displaying various kinds of information regarding the electrical resistance measurement including an alarm notification signal and a normal signal; And,
The resistance value measuring unit 130,
If the measured electrical resistance value exceeds the preset value, it is determined that the electrical continuity between the measured objects is not secured, and generates an alarm notification signal. If not, the normal signal is determined by determining that the electrical continuity between the measured objects is secured. Characterized in that to generate,
The auxiliary equipotential bonding,
The resistance R ≤ 50 / Ia (Ia: the operating current of the protector as the operating current of the protector, IΔn, which is the rated sensitivity current in the case of an earth leakage breaker, and the current which can be operated for 5 seconds in the case of an overcurrent protector) Electrical continuity evaluation device, characterized in that. delete delete

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