KR101722749B1 - Intelligent surge monitoring system - Google Patents

Abstract

The present invention relates to an economical intelligent surge monitoring system which enables an SPD, a CT detection apparatus, a surge current confirmation apparatus, and a communication apparatus to be fastened in a detachable manner respectively such that different CT detection apparatuses, surge current confirmation apparatuses, and communication apparatuses can be used while being able to be replaced according to the type of the STD, and when some apparatuses are out of order, only the apparatuses which are out of order can be replaced. The present invention is characterized by comprising: an SPD (100) connected to a power terminal of a building or a facility, and blocking inflow of a surge current; a CT detection apparatus (200) connected to the SPD (100) in a detachable manner, detecting information about a surge current introduced from the outside, and providing the introduced surge current to the SPD (100); a surge current confirmation apparatus (300) fastened to the CT detection apparatus (200) in a detachable manner, and analyzing the surge current detected by the CT detection apparatus; and a communication apparatus (400) fastened to the surge current confirmation apparatus (300) in a detachable manner, and transmitting the analysis result of the surge confirmation apparatus (300) to the outside.

Description

[0001] Intelligent surge monitoring system [0002]

The present invention enables a SPD, a CT detection device, a surge current confirmation device, and a communication device to be detachably connected to each other in a connector shape, so that different CT detection devices, surge current confirmation devices, And an economical intelligent surge monitoring system that can replace only failed equipment if some equipment fails.

In general, the intrusion path of surge in various facilities such as communication devices, control devices, and power lines required for transmission and control of signals is very complex, and surge patterns are classified into conductive surge and inductive surge in terms of the protected device . In the surge path of the surge, when it is connected to the power source, input / output, ground wire, it may be caused by electromagnetic induction or electrostatic induction.

Accordingly, CT for checking the surge current flowing into the SPD (Surge Protective Device) and a varistor for processing the surge current were installed to confirm the surge current. It is also used as a basis to judge the replacement time of the SPD by analyzing the surge current confirmed by such CT.

To replace a conventional surge protection device, the surge protection device has to be replaced entirely or the surge protection device has to be turned off, and then the corresponding parts have to be removed and reinstalled. Replacement of such a surge protection device requires only a highly skilled technician to work without errors, which increases the cost and increases the OFF time of the surge protection device.

Korean Registration No. 10-1303202 (2013.08.28)

A problem to be solved by the present invention is to connect a SPD, a CT detection device, a surge current confirmation device, and a communication device in a connector shape in a removable manner so that different CT detection devices and surge current confirmation devices And it is possible to replace only the faulty equipment if some equipment fails, thereby providing an economical intelligent surge monitoring system.

The intelligent surge monitoring system of the present invention comprises: an SPD (100) connected to a power terminal of a building or a facility to block the inflow of a surge current; A CT detection device 200 detachably connected to the SPD 100 in a connector shape to detect information on a surge current flowing from the outside and to supply the introduced surge current to the SPD 100; A surge current confirmation device 300 for detachably fastening the CT detection device 200 in a connector shape and analyzing the surge current detected by the CT detection device; And a communication device (400) detachably fastened to the surge current confirmation device (300) in a connector shape and transmitting an analysis result of the surge current confirmation device (300) to the outside,
The SPD 100 includes a surge protection element 110 which is located inside the body and which prevents the device from being burned down by maintaining the surge voltage to be less than the withstand voltage of the device when an abnormal overvoltage occurs, and maintains normal operation; A surge current inflow part 120 which is detachably fastened and fixed to the CT detection device 200 in a connector shape and is supplied with current; (130) to which a power terminal for supplying power to an electronic facility or an electronic facility used in a building or facility is connected,
The CT detecting apparatus 200 includes a terminal 210 having an outer end extending from one side of the body to one end and having an inner terminal located at the other end inside the body; An extension part 220 located inside the body and having a cylindrical or quadrangular rod shape and having one end connected to the inner terminal; A CT (230) for measuring the magnitude of a surge current flowing into the outer terminal while surrounding the connection part in a ring shape of a cylinder and passing through the inner terminal through the connection part; A surge current output unit 240 that is detachably coupled to the SPD 100 in a connector shape and provides a surge current supplied from the outside to the SPD 100; And a CT information output unit (250) detachably fastened to the surge current check equipment (300) in a connector shape and providing information on the surge current measured by the CT (230) to the surge current check equipment (300)
The surge current confirmation device 300 includes a CT information receiver 310 detachably connected to the CT detection device 200 in a connector shape and provided with bibliographic information confirmed by the CT 230; A surge current verifying unit 320 for storing information on a surge current provided through the CT information receiving unit 310 and confirming information on a peak current, a ripping time, and a ripping time; A surge counting unit 330 for counting and storing the number of times of the surge current when information on the surge current information is received through the CT information receiving unit 310; A surge path verifying unit 340 for confirming an inflow path of the surge current among the surge current information measured by the CT 230; An energy amount confirmation unit 350 for converting the amount of energy contained in the surge current measured by the CT 230 and confirming the amount of inflow energy; An SPD replacement time confirmation unit 360 for checking the replacement time of the SPD 100 by comparing the surge current and the energy amount that have been input in accordance with the number of times of the surge current measured by the counting unit with the previously registered reference current value and the reference energy amount )Wow; A surge counting unit 330, a surge path verifying unit 340, an energy amount checking unit 350 and a SPD replacement unit 350. The surge current verifying unit 320, the surge counting unit 330, the surge path verifying unit 340, An SPD information output unit 380 for providing information on surge current and replacement information of the SPD 100 identified by the time checking unit 360 to the communication equipment 400; And a power connection unit (390) receiving power from outside and displaying the connection state of the power source with an LED on one side of the body,
The communication device 400 includes an SPD information receiving unit 410 detachably connected to the surge current checking device 300 in a connector shape and receiving information on the surge current and replacement information of the SPD 100; A communication unit 420 for transmitting the surge current provided through the SPD information receiving unit 410 and the replacement information of the SPD 100 to the outside; A communication status display part 430 formed on one side of the body and displaying the connection status of the communication line by an LED so that the communication status can be confirmed from the outside; And a power connection unit 440 that receives power from outside and displays the connection state of the power source with an LED on one side of the body.

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Preferably, the surge current check device 300 further includes a bibliographic information display unit 370 for displaying the replacement time of the SPD 100 confirmed by the SPD replacement time verifying unit 360 as an LED so that the replacement time can be checked from the outside .

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According to the present invention, since an SPD, a CT detection device, a surge current confirmation device, and a communication device can be detachably connected to each other in a connector shape, there is an advantage that an intelligent surge monitoring system can be manufactured in a customized manner by combining them.

In addition, if some of the devices constituting the intelligent surge monitoring system fail, it is economically advantageous to replace only the failed device.

In addition, SPD status, aging status, surge interruption, leakage current, etc. are displayed on the surface of the surge current check equipment and remotely provided through the communication equipment. .

1 is a schematic diagram of an intelligent surge monitoring system in accordance with the present invention;
2 is a block diagram of an SPD 100 in accordance with the present invention.
3 is a block diagram of a CT detection apparatus 200 according to the present invention.
4 is a block diagram of a surge current check equipment 300 according to the present invention.
5 is a block diagram of a communication device 400 in accordance with the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

As shown in FIG. 1, the intelligent surge monitoring system of the present invention is connected to a power terminal of a building or a facility and is detachably connected to an SPD 100 and an SPD 100, A CT detection device 200 for detecting information on the surge current flowing into the SPD 100 and providing the surge current to the SPD 100, a surge current detection device for detecting the surge current detected by the CT detection device while being detachably fastened to the CT detection device 200 And a communication device 400 for detachably connecting the surge current verifying device 300 and the surge current verifying device 300 to transmit an analysis result of the surge current verifying device 300 to the outside. Since the SPD 100, the CT detection device 200, the surge current confirmation device 300 and the communication equipment 400 are detachably fastened to each other, the present invention can be applied to different types of SPDs 100, It can be used while replacing the detection device 200 and the surge current confirmation device 300. If some devices fail, it is economical to use only the remaining devices while replacing the failed device.

As shown in FIG. 2, the SPD 100 includes a surge protection element 110, a surge current input unit 120, and an electronic equipment connection unit 130.

The surge protection element 110 is located inside the body and prevents the device from being burned down by restricting the surge voltage to below the withstand voltage of the device in case of abnormal overvoltage, and maintains normal operation. It is preferable that the surge protection element 110 is a barrier.

The surge current input unit 120 is connected to the CT detection equipment 200 to be described later and is supplied with a surge current. The surge current input unit 120 may be detachably coupled to the surge current output unit 240 of the CT detection device 200 in a connector shape having an input terminal,

The electronic equipment connection unit 130 is connected to a power terminal for supplying power to the electronic equipment or the electronic equipment used in the building or the facility.

In the present invention, the SPD can be easily separated and replaced with a CT detection device when a failure occurs in the equipment.

3, the CT detection apparatus 200 includes a terminal unit 210, an extension unit 220, a CT 230, a surge current output unit 240, and a CT information output unit 250.

The terminal portion 210 has an outer end extending from one side of the body to one end and an inner terminal located inside the body at the other end. The terminal portion 210 is formed in a number so as to accommodate single-phase / three-phase three-wire / three-phase four-wire depending on the application to be used. The terminal portions 210 are connected to the R, S, and T lines.

The extension 220 is located inside the body and has a cylindrical or quadrangular rod shape and is connected at one end to the inner terminal.

The CT 230 surrounds the connection portion in the form of a ring of a cylinder, flows into the outer terminal, and measures the magnitude of the surge current passing through the connection portion through the inner terminal. The CT 230 is given unique identification information.

The surge current output unit 240 is formed on one side of the body and provides the surge current supplied from the outside to the SPD 100. The surge current output unit 240 is preferably formed in a connector shape to be coupled to the SPD 100 and has an output terminal for providing a current flowing into the SPD 100 on the outer surface or the inner surface.

The CT information output unit 250 is formed on one side of the body and provides information on the surge current measured by the CT 230 to the outside. It is preferable that the CT information output unit 250 is formed in a connector shape to be fastened to the surge current verifying apparatus 300 and that an output terminal is provided on the outer surface or the inner surface.

Such a CT detection device can be easily replaced without needing a new design even if the SPD increases or the number of connected wires increases.

4, the surge current verifying apparatus 300 includes a CT information receiving unit 310, a surge current verifying unit 320, a surge counting unit 330, a surge path verifying unit 340, An SPD replacement time confirmation unit 360, a bibliographic information display unit 370, an SPD information output unit 380, and a power connection unit 390.

The CT information receiving unit 310 is connected to the CT information output unit 250 of the CT detection device 200 and receives the bibliographic information confirmed by the CT 230. It is preferable that the CT information receiving unit 310 is detachably fastened to the CT information output unit 250 in the form of a connector having an input terminal formed therein.

The surge current verifying unit 320 stores information on the surge current supplied through the CT information receiving unit 310 in the surge current information DB. Through the surge current information measured by the CT 230, information on the peak current, the ripping time, the ripping time, and the like can be confirmed.

When the surge counting unit 330 receives information on the surge current information through the CT information receiving unit 310, the surge counting unit 330 counts the number of times the surge current is measured and stores it together with the surge current DB. The number of times of the surge current flowing by the counting unit can be confirmed.

The surge path verifying unit 340 confirms the inflow path of the surge current from the surge current information measured by the CT 230. That is, the identification information of the CT 230 including the surge current information can be checked and the path through which the surge is introduced can be confirmed.

The energy amount checking unit 350 checks the amount of energy input by converting the amount of energy contained in the surge current measured by the CT 230. The cumulative energy amount of the surge current introduced by this amount of input energy can be confirmed.

The SPD replacement time confirmation unit 360 compares the surge current and the amount of energy introduced in accordance with the number of times of the surge current measured by the counting unit with the previously registered reference current value and the reference energy amount to determine the replacement time of the SPD 100 Check.

The bibliographic information display unit 370 displays the replacement time of the SPD 100 confirmed by the SPD replacement time confirmation unit 360 with an LED so that it can be checked from the outside. Therefore, when the blue LED is displayed, the SPD (100) can be confirmed as normal, and when the red LED is displayed, it can be confirmed when the SPD (100) is to be replaced.

The SPD information output unit 380 is formed at one side of the body and includes a surge current verifying unit 320, a surge counting unit 330, a surge path verifying unit 340, an energy amount verifying unit 350, And provides the external information about the surge current and the replacement information of the SPD 100 identified in step 360. It is preferable that the SPD information output unit 380 is formed in a connector shape so as to be fastened to the communication equipment 400, and an output terminal is provided on the outer surface or the inner surface.

The power connection unit 390 receives the use power from the outside and displays the connection state of the power supply with an LED on one side of the body.

Such surge current verification equipment can be easily replaced without the need for a new design, even if the SPD is increased or the line connected is increased.

5, the communication device 400 includes an SPD information receiving unit 410, a communication unit 420, a communication status display unit 430, and a power connection unit 440.

The SPD information receiving unit 410 is connected to the SPD information output unit 380 of the surge current verifying apparatus 300 and receives information on the surge current and replacement information of the SPD 100. It is preferable that the SPD information receiving unit 410 is detachably fixed to the SPD information output unit 380 in the form of a connector having an input terminal formed therein.

The communication unit 420 transmits the surge current provided through the SPD information receiving unit 410 and the replacement information of the SPD 100 to the outside. At this time, the communication unit 420 may use a communication line such as Ethernet or RS-485.

The communication status display part 430 is formed on one side of the body and displays the connection status of the communication line with an LED so that it can be checked from the outside.

The power connection unit 440 receives the use power from the outside, and displays the connection state of the power supply with an LED on one side of the body.

Such communication equipment is detachable and connected to the surge current checking equipment, so that it can be removed if it is not necessary and used only when necessary.

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 easy to understand. If the practice of such improvement, alteration, substitution or addition is within the scope of the following claims, the technical idea is also deemed to belong to the present invention.

100: SPD 110: Surge protection element
120: surge current inflow part 130: electronic equipment connection part
200: CT detection device 210: terminal part
220: extension part 230: CT
240: Surge current output unit 250: CT information output unit
300: Surge current check equipment 310: CT information receiver
320: surge current checking unit 330: surge counting unit
340: surge path checking unit 350: energy amount checking unit
360: SPD replacement timing confirmation unit 370: Bibliographic information display unit
380: SPD information output unit 390: Power connection unit
400: communication equipment 410: SPD information receiving unit
420: communication unit 430: communication status display unit
440: Power connection

Claims (8)

An SPD (100) connected to a power terminal of a facility or a facility to block the introduction of a surge current; A CT detection device 200 detachably connected to the SPD 100 in a connector shape to detect information on a surge current flowing from the outside and to supply the introduced surge current to the SPD 100; A surge current confirmation device 300 for detachably fastening the CT detection device 200 in a connector shape and analyzing the surge current detected by the CT detection device; And a communication device (400) detachably fastened to the surge current confirmation device (300) in a connector shape and transmitting an analysis result of the surge current confirmation device (300) to the outside,
The SPD 100 includes a surge protection element 110 which is located inside the body and which prevents the device from being burned down by maintaining the surge voltage to be less than the withstand voltage of the device when an abnormal overvoltage occurs, and maintains normal operation; A surge current inflow part 120 which is detachably fastened and fixed to the CT detection device 200 in a connector shape and is supplied with current; (130) to which a power terminal for supplying power to an electronic facility or an electronic facility used in a building or facility is connected,
The CT detecting apparatus 200 includes a terminal 210 having an outer end extending from one side of the body to one end and having an inner terminal located at the other end inside the body; An extension part 220 located inside the body and having a cylindrical or quadrangular rod shape and having one end connected to the inner terminal; A CT (230) for measuring the magnitude of a surge current flowing into the outer terminal while surrounding the connection part in a ring shape of a cylinder and passing through the inner terminal through the connection part; A surge current output unit 240 that is detachably coupled to the SPD 100 in a connector shape and provides a surge current supplied from the outside to the SPD 100; And a CT information output unit (250) detachably fastened to the surge current check equipment (300) in a connector shape and providing information on the surge current measured by the CT (230) to the surge current check equipment (300)
The surge current confirmation device 300 includes a CT information receiver 310 detachably connected to the CT detection device 200 in a connector shape and provided with bibliographic information confirmed by the CT 230; A surge current verifying unit 320 for storing information on a surge current provided through the CT information receiving unit 310 and confirming information on a peak current, a ripping time, and a ripping time; A surge counting unit 330 for counting and storing the number of times of the surge current when information on the surge current information is received through the CT information receiving unit 310; A surge path verifying unit 340 for confirming an inflow path of the surge current among the surge current information measured by the CT 230; An energy amount confirmation unit 350 for converting the amount of energy contained in the surge current measured by the CT 230 and confirming the amount of inflow energy; An SPD replacement time confirmation unit 360 for checking the replacement time of the SPD 100 by comparing the surge current and the energy amount that have been input in accordance with the number of times of the surge current measured by the counting unit with the previously registered reference current value and the reference energy amount )Wow; A surge counting unit 330, a surge path verifying unit 340, an energy amount checking unit 350 and a SPD replacement unit 350. The surge current verifying unit 320, the surge counting unit 330, the surge path verifying unit 340, An SPD information output unit 380 for providing information on surge current and replacement information of the SPD 100 identified by the time checking unit 360 to the communication equipment 400; And a power connection unit (390) receiving power from outside and displaying the connection state of the power source with an LED on one side of the body,
The communication device 400 includes an SPD information receiving unit 410 detachably connected to the surge current checking device 300 in a connector shape and receiving information on the surge current and replacement information of the SPD 100; A communication unit 420 for transmitting the surge current provided through the SPD information receiving unit 410 and the replacement information of the SPD 100 to the outside; A communication status display part 430 formed on one side of the body and displaying the connection status of the communication line by an LED so that the communication status can be confirmed from the outside; And a power connection unit (440) for receiving a power supply from outside and displaying a connection state of the power supply with an LED on one side of the body. delete delete The intelligent surge monitoring system according to claim 1, characterized in that unique identification information is assigned to the CT (230). delete The surge current verifying apparatus (300) according to claim 1, wherein the surge current verifying apparatus (300) comprises a bibliographic information display unit (370) for displaying the replacement time of the SPD (100) Wherein the intelligent surge monitoring system comprises: delete delete

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