KR101986518B1 - Terminal Board for Measurement Continuity Electric Resistanc of Structure - Google Patents

Abstract

The present invention relates to a test terminal board for measuring continuity electrical resistance of a structure, which is configured to simply measure whether a continuity electrical resistance value is maintained to be equal to or less than 0.2 Ω in a joint part of a structure such as a column of a building. The test terminal board for measuring continuity electrical resistance of a structure comprises: an external box (10) installed at a predetermined height interval on a building, and having a door (15) which can be opened and closed; and a measurement terminal unit (20) installed inside the external box (10) to measure a current value, a voltage value, and a continuity electrical resistance value of a structure. The measurement terminal unit (20) consists of a first current terminal (C) and a first voltage terminal (V) connected to a structure of a lowermost layer of a building, and a second current terminal (C1) and a second voltage terminal (V1) connecting a structure of a target layer to be measured and a structure of an installation layer of a terminal board directly under the structure, wherein the first current terminal (C) and the first voltage terminal (V) are connected to an iron beam (35) of a steel structure (30), which vertically connects a lowermost layer and an upper most layer of a building, via a cable, and a second current terminal (C1) and a second voltage terminal (V1) of a terminal board of an upper layer and a second current terminal (C1) and a second voltage terminal (V1) of a terminal board directly under the terminal board are connected to each other by a cable and continuously connected to a second current terminal (C1) and a second voltage terminal (V1) of the lowermost layer.

Description

[0001] The present invention relates to a method of measuring electrical continuity of a structure,

More particularly, the present invention relates to a structure that can easily measure whether a continuity electric resistance value of 0.2 Ω or less is maintained at a junction of a structure such as a column of a building, The present invention relates to a test terminal for continuity resistance measurement.

In general, the building is equipped with lightning protection equipment to protect internal electrical equipment from lightning strikes. In other words, according to the International Technology Application Regulations (KS C IEC 62305) of the lightning protection equipment (lightning damage) of buildings, grounding facilities of lightning protection equipments of all buildings are required to construct equipotential grounding protection systems.

At this time, it is possible to substitute the structure as the grounding point of the lightning conductor and the electric system by bonding the grounding structure to the structure (steel frame, reinforcing steel, metal body) of the building, and the related contents are described in "KS C IEC 62305 4, 4-3 and Article 21 (3) of the Criteria for Electricity Facilities Standard. However, this is applicable only when the continuity electric resistance value of the connecting connection part is kept at 0.2 Ω or less.

On the other hand, during the construction of the building, the continuity electric resistance value of the connection part of the structure (steel, steel, metal body) was 0.2 Ω or less. However, as the time elapsed after completion of the building, Can be changed. Therefore, it is necessary to check whether the continuity electric resistance value of the connection part of the structure is maintained at 0.2 Ω or less at the time of 1 year, 5 years, 10 years, 20 years after the completion of the building.

However, if the terminal board is not installed to specify the continuity electrical resistance value when the building is constructed, the continuity electrical resistance value of the structure can not be measured after completion of the building. Nevertheless, there is no regulation or method to ensure the safety of the brain currents such as the lightning protection of the buildings, the grounding point of the electric wire system and the electric system.

Accordingly, in order to measure the continuity electrical resistance value of a structure after completion of a building, a structure of a part of the structure is ripped about every five layers, and then the upper and lower portions are connected to the measuring leads to temporarily measure them .

Accordingly, it is not easy to perform an operation of detecting the continuity electrical resistance value of the structure after the completion of the building, and there is a problem in that cost is lost due to seizure and restoration of the covering.

Meanwhile, as a result of investigation of domestic prior art related to the present invention, a large number of patent documents have been searched and some of them will be described as follows.

Patent Document 1 discloses a lightning rod; Grounding rods grounded; A lowering wire having one end connected to the lightning rod and the other end connected to the grounding bar and including a disconnecting part in the middle; A ground terminal box mounted on the disconnecting part and including a top terminal electrically connected to the lightning rod and a bottom terminal electrically connected to the ground bar; And a lightning stroke counter mounted on the ground terminal box and connected to the cutout portion. The lightning stroke counter includes a connecting member for connecting the upper terminal and the lower terminal of the ground terminal box, a body formed to surround the connecting member, The connecting member includes a first protrusion protruding from an upper portion of the body and connected to an upper terminal of the ground terminal box, and a second protrusion protruded to a lower portion of the body and connected to a lower terminal of the ground terminal box Discloses a lightning stroke counter system using a ground terminal box, including a second projection.

Patent Document 2 discloses a structure in which a plurality of dipole electrostatic induction-type lightning arresters each provided at an upper corner of a building to form a rotary-arc type lightning protection structure, and a plurality of dipole electrostatic induction lightning protection devices each having a high- A ground terminal box for connecting an electronic device in the building having a low surge impedance conductor provided along a building and connecting the lightning protection device with the grounding terminal for equal potential and having a common terminal connected to the equipotential grounding body, A low-resistance grounding module made of carbon, connected to each vertex or intersection of the grounding body to facilitate surge current flowing through the grounding body through the ground, and a surge protector for preventing an induction rope from entering the electronic device Discloses an improved lightning protection system for a building employing a lightning protection triangle method.

However, the prior art described above can not solve the problem that the continuity electrical resistance value of the structure can not be detected after the completion of the construction of the building, and there is no terminal for testing the continuity electrical resistance of the structure to solve this problem.

The Applicant has thus filed a patent application for testing a continuity electrical resistance measurement terminal block of a structure which can easily measure whether the continuity electric resistance value at the junction of a structure such as a column of a building is maintained to 0.2 Ω or less, Patent No. 10-1812060. The present invention relates to an elevator car, comprising: an enclosure provided at a predetermined interval in a building and having a door that can be opened and closed; A terminal A connected to the structure of the lower half terminal mounting layer located immediately below the measurement target layer, a terminal B connected to the structure of the measurement target layer, and a terminal C connected to the structure of the lowest structure, And a terminal portion.

However, in the above-described invention, since the continuity electrical resistance value of the structure between the measurement target layer and the lowest layer and the continuity electrical resistance value between the measurement target layer and the lower half terminal mounting layer between the measurement target layer and the lowest layer are measured using the three terminals, There is a problem that the current value or the voltage value other than the resistance value can not be measured.

KR 10-1645226 B1 KR 10-0680644 B1 KR 10-1812060 B1 JP 20-2595432 Y1 JP 2003-208929 A

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a method and apparatus for continuously measuring the continuity electrical resistance value of a connecting connection portion of a structure even after completion of a building, The object of the present invention is to provide a structural continuity electrical resistance measurement terminal block which can satisfy the standard of the lightning protection equipment of buildings and establish safe lightning prevention facilities to ensure safety by supplying fault current of the electrical system to the ground.

It is another object of the present invention to provide a continuity electrical resistance measurement terminal block for a structure that can measure a current value and a voltage value acting on a measurement terminal portion of a measurement target layer in addition to the continuity electrical resistance value, .

According to an aspect of the present invention, there is provided an elevator comprising: an enclosure provided at a predetermined height on a building and having a door that can be opened and closed; And a measurement terminal unit installed inside the enclosure so as to measure a current value, a voltage value, and a structure continuity electrical resistance value,

The measurement terminal unit includes a first current terminal and a first voltage terminal connected to the structure of the lowest layer of the building and a second current terminal and a second voltage terminal connecting the structure of the measurement target layer and the structure of the lower and upper terminal half- In addition,

The first current terminal and the first voltage terminal are connected by a cable to a steel beam of a steel frame structure vertically connecting the lowest layer and the uppermost layer of the building. The second current terminal and the second voltage terminal of the upper- The second current terminal and the second voltage terminal are connected to each other by a cable, and the second current terminal and the second voltage terminal of the lowest layer are continuously connected.

According to the structure continuity electrical resistance test terminal of the present invention, a current is measured by connecting a current unit between the first current terminal and the second current terminal by a lead wire, and the current is measured at the first voltage terminal and the second voltage terminal Measure the voltage by connecting a voltmeter to the lead wire. Measure the continuity electrical resistance value between the measurement target layer and the lowest layer by connecting two cables connecting the first current terminal and the first voltage terminal to the steel beam of the steel structure with an electrical resistance meter. , And the cable connecting the second current terminal and the second voltage terminal to each other between the measurement target layer and the lower half terminal mounting layer is connected to the electric resistance meter to measure the continuity electrical resistance value between the measurement target layer and the lower half terminal half mounting layer .

According to the structure continuity electrical resistance test terminal of the present invention, the current meter and the voltmeter are integrated to constitute a meter for simultaneously measuring the current and the voltage.

According to the structure continuity electrical resistance test terminal of the present invention, when the continuity electrical resistance value of the structure is measured, the first current terminal and the second current terminal of the lowermost terminal group are connected to each other by the lead wire, The second voltage terminals are connected to each other by lead wires, and after the measurement is completed, the lead wires connecting them are removed.

According to the structure continuity electrical resistance test terminal of the present invention, the first and second current terminals and the first and second voltage terminals are electrically connected to each other by a bus bar, The terminals are electrically separated from each other by an insulation strip provided at a lower portion thereof, and the insulation strip is fixed to a lower stopper provided inside the enclosure.

According to the structure continuity electrical resistance test terminal of the present invention, the bus bar is plated in any one of copper plating, quartz plating and silver plating.

In addition, according to the present invention, the color of the first current terminal and the first voltage terminal, the second current terminal, and the second voltage terminal are made different from each other according to the testing terminal for continuity electrical resistance of the structure of the present invention.

According to the structure continuity electrical resistance test terminal of the present invention, the first current terminal and the cable connected to the first voltage terminal of the lowermost terminal group are formed as green ground lines.

In addition, according to the structure continuity electrical resistance test terminal of the present invention, the enclosure is exposed or installed on the outer surface of the wall.

In addition, according to the structure continuity electrical resistance test terminal of the present invention, the enclosures are installed at intervals of five layers from the position where the electrical distribution room is installed.

In addition, according to the structure continuity electrical resistance measurement terminal of the present invention, it is installed at the lowest layer, the uppermost layer, and the ground layer of the building, and is installed at the interval of five layers based on the ground layer.

In addition, according to the structure continuity electrical resistance test terminal of the present invention, the lower end of the steel beam of the steel structure body is connected to the grounding facility by a ground connection.

Since the present invention is installed for every certain layer of a building, it is possible to perform a continuity electrical resistance measurement test on connection connecting portions of a structure even after the completion of a building, so that a continuity electrical resistance measurement test can be performed very simply, It is possible to detect the abnormality of the measuring terminal portion by measuring the current value and the voltage value of the target layer, and it is possible to prevent the inconvenience and the economic loss that the covering portion of the structure must be broken and restored for the existing continuity electrical resistance measurement test, It is possible to help secure the lightning safety.

1 is a configuration diagram of a test terminal for testing continuity resistance of a structure according to the present invention.
2 is a photograph showing a measurement terminal unit according to the present invention.
3 is a conceptual diagram of measurement of current, voltage, and continuity electrical resistance using the measuring terminal part which is a substantial part of the present invention.
Figs. 4 and 5 are a front view and a side sectional view of a terminal assembly for testing continuity electrical resistance of a structure of the present invention. Fig.
6 is a reference view showing a configuration in which a terminal for testing a continuity electrical resistance of a structure according to the present invention is applied to a building.
7 is a conceptual diagram of a continuity electrical resistance measurement test of a building using a test terminal for testing continuity electric resistance of a structure of the present invention.

Hereinafter, with reference to the accompanying drawings, a description will be made of a test terminal for testing continuity of electrical resistance of a structure according to the present invention.

As shown in FIGS. 1 to 5, the terminal for measuring the continuity of electrical resistance of a structure according to the present invention comprises: an enclosure 10 provided at a predetermined height in a building and having a door 15 that can be opened and closed; And a measurement terminal unit 20 installed inside the enclosure 10 to measure a current value, a voltage value, and a continuity electrical resistance value of the structure.

At this time, the measurement terminal unit 20 connects the first current terminal C and the first voltage terminal V, which are connected to the structure of the lowest layer of the building, and the structure of the measurement target layer and the structure of the lower and upper terminal half- The first current terminal C and the first voltage terminal V are formed of a steel structure 30 which vertically connects the lowermost layer and the uppermost layer of the building And the second current terminal C1 and the second voltage terminal V1 of the upper layer terminal half and the second current terminal C1 and the second voltage terminal V1 of the lower half terminal group are connected by a cable, Are connected to each other by a cable, and are continuously connected to the second current terminal (C1) and the second voltage terminal (V1) in the lowest layer. It is more preferable that the cable uses a GV 6 mm 2 standard.

Accordingly, a current can be measured by connecting the ammeter 41 with a lead wire between the first current terminal C and the second current terminal C1, and the first voltage terminal V and the second voltage terminal < RTI ID = The voltage can be measured by connecting the voltmeter 42 to the lead wire at the voltage V1. Two cables connecting the first current terminal C and the first voltage terminal V to the steel beam 35 of the steel frame structure 30 are connected to each other by an electric resistance meter 43, The continuity electrical resistance value of the structure is measured and a cable connecting the second current terminal C1 and the second voltage terminal V1 to each other between the measurement object layer and the lower half terminal half mounting layer is connected to the electric resistance meter 43 It is possible to measure the continuity electrical resistance value between the target layer and the lower half terminal mounting layer. At this time, it is a matter of course that the continuity electrical resistance value of the structure measured by the electrical resistance meter 43 should be maintained at 0.2 Ω or less.

When the continuity electrical resistance value of the structure is measured, the first current terminal C and the second current terminal C1 of the lowermost terminal half are connected to each other by the lead wire, and the first voltage terminal V and the second voltage terminal V1) should be connected to each other by lead wires so that current flows. It goes without saying that after the measurement of the continuity electrical resistance value of the structure is completed, the lead wires connecting them are removed.

The pair of compression terminals 21 connected to the first and second current terminals C and C1 and the first and second voltage terminals V and V1 are electrically connected to each other by the bus bar 22. [ It is preferable that the terminals are electrically separated from each other by an insulation strip 23 connected to a lower portion and the insulation strip 23 is fixed to a lower support 24 provided inside the enclosure 10 . The first current terminal C and the first voltage terminal V are electrically connected to the steel beam 35 of the steel frame structure 30 and the second current terminal C1 of the upper layer terminal half and the second current terminal C1 The second voltage terminal V1 can be connected to each other, and the respective terminals can be electrically insulated from each other. At this time, the bus bar 22 may be formed of copper or a copper alloy, or may be plated after being formed of an iron-based metal, and may be formed by various methods such as copper plating, quartz plating, and silver plating.

It is preferable that the colors of the first current terminal C and the first voltage terminal V, the second current terminal C1 and the second voltage terminal V1 are made different from each other to facilitate identification. Accordingly, it becomes easy to connect terminals necessary for continuity electrical resistance measurement. However, it is more preferable that the cable connected to the first current terminal (C) and the first voltage terminal (V) of the lowermost terminal group is formed as a green ground wire so that it can be immediately recognized as a ground wire.

4, the enclosure 10 may be exposed to the outside of the wall 50, and may be installed in the wall 50 as shown in FIG. The installation method is appropriately selected in consideration of the color of the wall, the shape of the enclosure 10, and the like. At this time, the enclosure 10 may be formed of a variety of materials such as plastic, iron, stainless steel, copper, and stainless steel. In the figure, the enclosure 10 has a rectangular shape. However, if the measurement terminal 20 can be installed, .

As shown in FIG. 6, the terminal blocks including the enclosure 10 may be installed at intervals of five layers from the position where the electric distribution room 32 is installed. Particularly, it is more preferable that they are installed in the lowermost layer, the uppermost layer, and the ground layer of the building, respectively, and that they are installed at intervals of five layers based on the ground layer. The lower end of the steel beam 35 of the steel structure 30 is preferably grounded to the grounding facility 31.

The continuous electrical resistance measurement test terminal of the present invention constructed as described above is installed for every certain layer of a building, and the structure continuity electrical resistance between the measurement target layer and the lower and lower terminal half mounting layers and the continuity electrical resistance between the measurement target layer and the lowest layer By checking the value, it is possible to confirm the abnormality of the lightning protection system in real time and to establish the countermeasure.

The second current terminal C1 and the second voltage terminal V1 of the measurement terminal unit 20 provided in each terminal half are connected to each other by an electric resistance meter 43 to measure the continuity electrical resistance between the measurement target layer and the lower half terminal half- And the electrical continuity resistance value between the measurement target layer and the lowest layer is measured by connecting the first current terminal C and the first voltage terminal V to the electrical resistance meter 43. [

At this time, if the measured continuity resistance value measured by the electric resistance meter 43 is less than 0.2?, It is determined as a normal state. If the measured value exceeds 0.2?, It is determined that there is an abnormality in the structure, so that a follow-up countermeasure can be established.

As described above, since the continuity electrical resistance measurement value of the structure and the current and voltage of the measurement target layer can be constantly measured even after completion of the construction using the plurality of terminal boards installed on the building, the safety of the building can be confirmed, It is possible to secure the safety of the building by establishing the measures at an early stage and by causing the fault current to flow into the ground.

For reference, all terms used herein, including technical or scientific terms, unless otherwise defined herein, are used interchangeably with what is commonly understood by one of ordinary skill in the art. It should also be understood that terms such as those defined in commonly used dictionaries are to be construed to have meanings consistent with the meanings in the context of the relevant art and, unless expressly defined herein, are interpreted in an ideal or overly formal sense .

It is to be understood that the present invention includes all modifications, equivalents, and alternatives falling within the scope and spirit of the present invention, which may have various modifications and various embodiments.

10 ... enclosure
15 ... door
20 ... measuring terminal
21 ... Crimp terminal
22 ... booth bar
...
24 ... bottom bracket
30 ... steel frame
31 ... grounding facilities
32 ... electric distribution room
35 ... steel beam
40 ... Instruments
41 ... ammeter
42 ... low pressure gauge
43 ... electrical resistance meter
50 ... wall
C ... first current terminal
C1 .. Second current terminal
V ... first voltage terminal
V1 ... second voltage terminal

Claims (12)

An enclosure 10 provided at a predetermined height in the building and having a door 15 that can be opened and closed and a measurement terminal unit 20 installed inside the enclosure 10 for measuring a current value, (20)
The measurement terminal unit 20 includes a first current terminal C and a first voltage terminal V connected to the structure of the lowest layer of the building and a second current terminal C connected to the structure of the measurement target layer and the structure of the lower half terminal half- A current terminal C1 and a second voltage terminal V1,
The first current terminal C and the first voltage terminal V are connected by a cable to the steel beam 35 of the steel structure 30 vertically connecting the lowermost layer and the uppermost layer of the building,
The second current terminal C1 and the second voltage terminal V1 of the upper layer terminal half and the second current terminal C1 and the second voltage terminal V1 of the lower half terminal half are connected to each other by a cable, 2 current terminal C1 and the second voltage terminal V1,
The ammeter 41 is connected between the first current terminal C and the second current terminal C1 by a lead wire to measure a current,
The voltage is measured by connecting the voltmeter 42 at the first voltage terminal V and the second voltage terminal V1 with a lead wire,
Two cables connecting the first current terminal C and the first voltage terminal V to the steel beam 35 of the steel frame structure 30 are connected to each other by an electrical resistance meter 43 so that the continuity of the structure between the measurement target layer and the lowermost layer The electrical resistance value was measured,
A cable connecting the second current terminal (C1) and the second voltage terminal (V1) to each other between the measurement target layer and the lower half terminal mounting layer is connected to the electric resistance meter (43) The continuity electrical resistance value of the structure was measured,
The ammeter (41) and the voltmeter (42) are integrated to constitute a meter (40) for simultaneously measuring current and voltage,
A pair of compression terminals 21 connected to the first and second current terminals C and C1 and the first and second voltage terminals V and V1 are electrically connected by the bus bar 22 ,
Characterized in that the terminals are electrically separated from each other by an insulation strip (23) provided at the bottom and the insulation strip (23) is fixed to a lower support (24) provided inside the enclosure (10) Measurement test terminals.
delete delete 2. The method according to claim 1, wherein when measuring the continuity electrical resistance value of the structure, the first current terminal (C) and the second current terminal (C1) of the lowermost terminal half are connected to each other by lead wires,
Wherein the first voltage terminal (V) and the second voltage terminal (V1) are connected to each other by a lead wire, and after the measurement is completed, the lead wire connecting them is removed.
delete The structure of claim 1, wherein the bus bar (22) is plated in one of copper plating, quartz plating, and silver plating.
The organic light emitting diode display according to claim 1, wherein the first current terminal (C) and the first voltage terminal (V) are different in color from the second current terminal (C1) and the second voltage terminal (V1) Continuous electrical resistance measurement test terminal.
8. The terminal of claim 7, wherein the cable connected to the first current terminal (C) and the first voltage terminal (V) of the lowermost terminal half is formed by a green ground wire.
The structure of claim 8, wherein the enclosure (10) is exposed or embedded in the outer surface of the wall (50).
10. The terminal of claim 9, wherein the enclosures (10) are spaced five layers apart from the location where the electrical distribution room (32) is installed.
10. The terminal of claim 9, wherein the enclosure (10) is installed at the lowest layer, the uppermost layer, and the uppermost layer of the building, and is installed at five layers with respect to the ground layer.
The structure of claim 1, wherein a lower end of the steel beam (35) of the steel frame structure (30) is grounded to the grounding facility (31).

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