KR100491890B1 - Electric-leak location checking device and method by safety voltage - Google Patents

Abstract

The present invention relates to a position searching device and a method for detecting a short circuit and a bad luminaire using a safety voltage, and more particularly, when a plurality of luminaires such as a lamp of a street lamp is installed at a predetermined interval apart from the correct position of the short and poor luminaire It relates to a device and a method to find it.

The position retrieval apparatus of the electric leakage and defective luminaire of the present invention includes: i) a drive signal receiver; ii) a controller; i) a plurality of terminals including a power processor, a terminal transceiver, a terminal controller, a streetlight driver, and a drive detector; A street lamp driving system comprising a plurality of luminaires composed of a ballast, a lamp, and a remote control transceiver; A first Z-CT installed on a main line connecting the controller to the last terminal and detecting a short circuit, and a short circuit amount detected from the first Z-CT connected to the first Z-CT to set a short circuit sensitivity; A first leakage sensitivity setting unit which generates a signal when a leakage occurs at a predetermined level or more and transmits the signal to the terminal controller, and is installed between the streetlight driver and the luminaire to detect a leakage on the luminaire wire, and the second Z-CT. The second leakage sensitivity setting unit is connected to the CT and generates a signal when a leakage occurs at a predetermined level or more based on the amount of leakage detected from the second Z-CT, and transmits the signal to the terminal controller.

Description

Locating device and method of electric leakage and defective luminaire using safety voltage {Electric-leak location checking device and method by safety voltage}

The present invention relates to a position searching device and a method for detecting a short circuit and a bad luminaire using a safety voltage, and more particularly, when a plurality of luminaires such as a lamp of a street lamp is installed at a predetermined interval apart from the correct position of the short and poor luminaire It relates to a device and a method to find it.

Conventional streetlights cannot be recognized at the central control station even if some or all of the lamps are not lit due to breakage of the streetlight power lines or failure of the streetlight lamps.In particular, three-wire type bypasses even when overcurrent flows due to a short circuit during flooding. Due to the formation of the line, the earth leakage breaker (ELB) did not operate in a timely manner, causing a risk of electric shock.

In order to solve this problem, I have previously applied for a patent on the detection and driving system of street light disconnection using safety voltage (filed date: July 26, 2002, application number: 10-2002-0044298).

Looking at the configuration of the prior application patent with reference to the accompanying drawings, as follows.

A drive signal receiver 10, a controller 20, a terminal 30, a luminaire 40, and a detection signal transmitter 50 are comprised.

The driving signal receiver 10 receives a flashing light signal of a street lamp that is wirelessly or wired from the outside, such as a central control station.

The controller 20 converts a signal input from the driving signal receiver 10 into a street light control signal, generates a check signal for checking a street light line, and determines whether there is an abnormality of the street light and a street light, and the main control unit 21. And a controller transceiver 22, a power source switching unit 23, a power source detecting unit 24, a setting unit 25, and a display unit 26.

The main control unit 21 is operated based on the signal of the driving signal receiver 10 or disconnection of a signal or a line for turning on or off the lamp by a built-in timer based on a value set by the setting unit 25 to be described later, Generates a signal for checking whether the terminal 30 and the luminaire 40 are driven and sends it to the controller transceiver 22, or cuts the power output upon short circuit or short circuit based on the signal from the power detector 24, or the situation It performs a function reserved in advance, such as storing the signal, or analyzes the signal input from the controller transceiver 22 and sends it to the detection signal transmitter 50 when necessary.

The controller transceiver 22 transmits a signal input from the main controller 21 to the plurality of terminals 30 using a power line communication method or wireless communication, and receives a signal sent from the terminal 30 to receive the main controller ( 21).

The power supply switching unit 23 uses a signal of the main control unit 21 to turn on the street lamp driving voltage (voltage of AC 110 to 220V) when the street lamp is turned on, and a safety voltage for disconnection search when the street lamp is turned off (eg, the ground voltage is 30V or less). Optionally supply a power supply or power supply with a contact voltage of less than 50V AC or a DC voltage less than 120V).

The power detector 24 searches for and compares the amount of current flowing through each wire and determines whether there is a short circuit or a short circuit. When a short circuit occurs during the safety voltage transmission from the power switch 23, a current limiter circuit is used. The power is cut off and the short circuit is judged to be sent to the main control unit 21.

The setting unit 25 inputs signals and data necessary for controlling the controller, such as driving the controller 20, setting a timer, and a differential method.

The display unit 26 is a screen for displaying the operating status of the controller 20.

The terminal 30 receives and interprets a control signal received from the controller 20 and performs a corresponding function, and each includes a unique number.

The luminaire 40 is composed of a street lamp ballast and a street lamp, and is turned on by a driving signal of the terminal 30.

The detection signal transmitter 50 transmits to the central control center by wire or wirelessly when it is necessary to notify the external central control center such as disconnection or failure.

However, since the patent application is described as determining whether the electric leakage is detected by the power supply detecting unit 24, it is not described in detail how to find the location of the electric leakage and the defective luminaire by the method. And the location of the bad luminaire could not be retrieved.

Conventional street lamps cannot recognize this at the central control station even if some or all of the lamps are not lit due to breakage of the streetlight power lines or failure of the street lamps. Due to the formation of the line, the earth leakage breaker (ELB) did not operate in a timely manner, causing a risk of electric shock.

An object of the present invention devised to solve the above problems is, in the state of a street lamp driving power supply, the failure of luminaires such as ballasts, lamps, whether there is a short circuit, whether there is a disconnection and the location of each of them, as well as the location of the electric shock accidents during the day By using low voltage (safety voltage) without risk, it is possible to search the location of disconnection and earth leakage accurately, and even if the line or equipment is touched by the road due to road repair construction, etc. The present invention provides a location search apparatus and a method thereof.

In order to achieve the above object, the present invention provides a drive signal receiver, a controller, a power supply unit, a terminal transceiver, a terminal controller, a street lamp driver and a drive detector, a plurality of terminals, a plurality of luminaires, a remote control transceiver In the streetlight driving system consisting of;

On the terminal,

Z-CT installed between the two terminal blocks connecting the main line of the power line, and the two terminal blocks to detect a short circuit of the main line, and a short circuit detected from the Z-CT connected to the Z-CT by setting the leakage sensitivity If the amount is more than the set sensitivity is to provide a position detection device for leakage and poor luminaires using a safety voltage, characterized in that the leakage sensitivity setting unit for transmitting a signal to the terminal control unit is further configured.

In order to achieve the above object, the present invention provides a method for searching for a short circuit position in the above device:

The power is supplied only to the main line, the earth leakage search signal is transmitted while the luminaire is turned off, and the earth leakage position of the main line is searched based on the earth leakage signal detected through the Z-CT embedded in each terminal. If it is found, remove the earth leakage factor of the main line, then apply power to the line and send out the search signal while the luminaire is turned on, and the earth leakage of the luminaire line is based on the earth leakage signal detected through the Z-CT built in each terminal. Search for a location,

In the process of searching for a short circuit position of the main line, if a short circuit is searched through the Z-CT of the terminal from the controller to any i-th, and a short circuit is not searched through the Z-CT of the terminal from the (i + 1) th time onwards, determines that a short circuit has occurred in the main line between the i th and (i + 1) th terminals,

In the process of searching for a short circuit position of the luminaire line, a short circuit is searched through the Z-CT of the terminal from the controller to any i-th, and after a short circuit is not detected in the Z-CT of the terminal, a short circuit is detected in the i-th street light. An object of the present invention is to provide a method for retrieving a short circuit and a defective luminaire using a safety voltage.

In order to achieve the above object, the present invention provides a method for determining whether or not a failure of a street lamp composed of a ballast and a lamp:

After measuring the amount of current using CT installed on the power line connected to the ballast of the luminaire in the terminal, the current in the normal state and the current in the state where the current does not flow due to the failure of the ballast and the secondary short circuit current of the ballast due to the lamp failure The present invention aims to provide a method for retrieving a short-circuit and a defective luminaire using a safety voltage, which distinguishes a steady state, a ballast failure, and a lamp failure based on a difference in the amount of current flowing during generation.

Hereinafter, the configuration and operation of the present invention will be described with reference to the accompanying drawings.

In the present invention, the line of the power line is composed of the main line and the luminaire line, the main line is a line connecting the last n-th terminal 300 from the controller 200, the luminaire line is branched from the main line to stabilizer 410 and ramp It is the track leading to 420.

2 is a block diagram of an earth leakage position search apparatus according to the present invention.

The drive signal receiver 100, the controller 200, the terminal 300, the luminaire 400, and the remote control transceiver 500 are configured.

The driving signal receiver 100 receives a signal transmitted wirelessly or by wire for turning on and off the street lamp 420 from the outside such as a central control station.

The controller 200 includes a main controller 210, a controller transceiver 220, a power switch 230, a power detector 240, a setting unit 250, and a display unit 260. .

The main control unit 210,

Iii) generating a signal for turning on / off the street light based on a signal of the driving signal receiver 100 or a signal generated by a timer built in the setting unit 250 and a value set in the setting unit 250; Send to the controller transceiver 220,

Ii) On the basis of the value set by the setting unit 250 and the embedded program, whether the terminal 300 is normally driven, whether the main line is disconnected, whether the main line and the lamp 400 have a short circuit, or the luminaire 400 Generate a signal for searching whether the ballast 410 and the lamp 420 are normally driven, and transmit the signal to the controller transceiver 220 or receive the signal from the controller transceiver 220,

Ⅲ) Street lamp driving power (hereinafter referred to as ①) or safety voltage of AC 110-220V according to daytime, nighttime or operation situation ("Technical Guidelines for Prevention of Electric Shock Accident" by the Industrial Safety and Health Act (Ministry of Labor Notice 93-23). (F) Safety voltages of 30 V or less under the provisions of the Prevention of Electric Shock Hazards during Normal Operation and Failure of Article 4 or AC Voltages of less than 50 V with a Maximum Break Time of ∞ by Contact Voltage prescribed by Auto Shutdown of Article 8 Power. ", Hereinafter, the signal for connecting the power supply ②) to the power supply switching unit 230,

Iii) control the power output in case of short circuit or short circuit based on the input signal of power detector 240,

Iii) when communication with the remote control is required, sends a signal to the remote control transceiver 500 or receives a signal from the remote control transceiver 500,

Iii) The necessary items are stored in the recording device during the above operation and perform the reserved function.

The controller transceiver 220 transmits a signal input from the main controller 210 to the plurality of terminals 300 using a power line communication method or wireless communication, and receives a signal sent from the terminal 300 to control the main controller. Send to 210.

The power switching unit 230 is based on the signal of the main control unit 210, the power ① (power required for the night street light driving or the line inspection under the street light driving power) or power ② (safety voltage for managing the line in the street light off state Optionally connect the power supply.

The power detector 240 has a built-in CT (or current transformer) or a photo coupler, and uses the built-in CT or photo coupler to determine the power being supplied (power ① or power ②), and Z-CT (Zero phase Current Transformer). Determining whether or not the line is short-circuited by using, and when the short circuit occurs during the power out of the power supply ② in the power switching unit 230, after determining whether the short circuit based on the amount of change in the amount of current or voltage, or cut off the power or main controller 210 Send the signal with.

The setting unit 250 inputs a timer setting necessary for driving the main controller 210, the number of installed street lights, a lighting method of the street lamps, and various data required for driving the system.

The display unit 260 is composed of a screen or LED for displaying the operation of the controller 200 and a high brightness lamp, a speaker, etc. installed in the street lamp distribution box so that the patrol manager can check the operation without opening the distribution box.

The terminal 300 has a built-in unique number, and analyzes the signal received from the controller 200 and performs the corresponding function, and whether or not a short circuit in the power ① or power ② state, the ballast 410 or the lamp 420 Sensors and other additional circuits can be installed to determine whether they are operating normally.

The luminaire 400 includes a ballast 410 and a lamp 420, and is driven by a driving signal of the terminal 300.

When the remote control transceiver 500 needs to notify the remote control station of the contents such as a short circuit, a disconnection, and a failure, the remote control transceiver 500 transmits the wired or wirelessly, and transmits the control signal received from the remote control station to the main control unit 210. do.

The remote control may be a PDA, a computer or a wireless terminal.

3 is a detailed block diagram of the terminal and the luminaire shown in FIG.

The terminal 300 has a unique number embedded therein, and receives and interprets a control signal from the controller 200 to perform a corresponding function, and includes a power processor 310, a terminal transceiver 320, a terminal controller 330, For determining whether the street lamp driving unit 340, the driving detection unit 350, two earth leakage sensitivity setting units 360a and 360b, the setting switch 370, the terminal display unit 380, and the luminaire 400 are normally driven. And the Z-CTs 361a, 362a, 361b, 362b, etc. for short-circuit detection of the CT 351, the main line and the luminaire.

The power processing unit 310 is a place for processing the power required for the operation of the terminal 300 by using the built-in self-power, or determine the power ① supplied when the lamp is turned on or the power ② supplied to turn off the terminal 300 of the The power supply is switched to the power required for driving, and the corresponding power state (power ① or power ②) is determined and sent to the terminal controller 330.

The terminal transceiver 320 receives a signal transmitted from the controller 200 through power line communication or wireless communication and transmits the signal to the terminal control unit 330 or transmits the signal received from the terminal control unit 330 using power line communication or wireless communication. The controller 200 sends the signal to the controller 200.

The terminal control unit 330,

Iii) driven by the power of the power processing unit 310,

Ii) The state of the setting switch 370 including the reception mode, the lighting mode, and the extinguishing mode is determined and driven based on the signal received from the controller 200 in the reception mode, and the power ② is input in the lighting mode. In this case, it ignores the reception signal and transmits a lighting signal to the street lamp driving unit 340, and in the light-off mode to always keep the light-off state,

I) determining whether the ballast 410 and the lamp 420 are normally driven and a ground fault state based on the signals of the driving detection unit 350 and the ground fault sensitivity setting units 360a and 360b,

I) sending the result of the determination to the terminal display unit 380,

I) A microprocessor which performs a function such as transmitting and receiving a control signal with the controller 200 through the terminal transceiver unit 320.

The street lamp driver 340 is configured as a relay (magnetic relay or SSR) for turning on or off the power to the ballast 410 based on the signal of the terminal controller 330 or the signal of the setting switch 370.

The driving detection unit 350 analyzes the amount of current flowing through the CT 351 to determine whether the ballast 410 or the lamp 420 has failed or is normally driven, and transmits a corresponding signal to the terminal controller 330.

That is, after measuring the amount of current flowing by installing the CT 351 in the power line connected to the ballast 410 of the luminaire 400 in the street lamp driver 340, the current amount in the normal state and the current amount in the ballast failure state, Based on the difference between the amount of current flowing in the second short circuit current of the ballast due to the lamp failure, the steady state, ballast failure and lamp failure are discriminated.

In particular, the amount of current in a steady state is determined using The primary power can be obtained by the formula, and considering the voltage fluctuation width, convert it to current to obtain the current range in the normal driving state.

The earth leakage sensitivity setting units 360a and 360b include a first earth leakage sensitivity setting unit 360a installed in a main line and a second earth leakage sensitivity setting unit 360b installed in a luminaire line. The Z-CTs 361a and 362a are provided. Since 361b and 362b generate a current in proportion to the amount of leakage when a short circuit occurs in the line, the current is output from the Z-CTs 361a, 362a, 361b and 362b to determine the level of the short circuit. The earth leakage sensitivity setting unit sets a reference value for generating an earth leakage generation signal when the amount of leakage current is more than.

At this time, even though the conditions of occurrence of a short circuit are different according to the magnitude of the voltage applied to the line, the leakage current is different, the leakage sensitivity setting unit (360a, 360b) according to the state of the power supply (power ① or power ②) There is a built-in circuit for applying different sensitivity.

For example, if the legal standard for leakage is defined as 30mA in the street lamp driving power AC 220V (power ①), the ground fault sensitivity circuit of power ① is set in consideration of deviation based on 30mA, and AC 30V for line inspection. The earth leakage sensitivity circuit in (Power ②) should be set in consideration of the deviation based on 4.09mA ≒ 30mA × (30V ÷ 220V).

That is, if the legal threshold for leakage protection is 30mA at AC 220V (power ①), the earth leakage sensitivity circuit under power ①, which is the streetlight driving power, is set in consideration of the deviation based on the legal threshold (eg 30mA). In the state, the leakage sensitivity circuit sets the leakage sensitivity in consideration of the deviation based on the legal standard value × (voltage of the power source ② ÷ voltage of the power source ①) to comply with the legal standard.

In summary, the ground fault sensitivity setting circuit for power ① and the ground fault sensitivity setting circuit for power ② are differently installed in the ground fault sensitivity setting units 360a and 360b.

That is, the earth leakage sensitivity setting circuit for power ① receives the current output from the Z-CTs 361a and 361b used in power ① to determine whether a short circuit occurs and sends a signal to the terminal controller 330. ② circuit leakage sensitivity setting circuit receives the current output from the Z-CT (362a, 362b) used in the power supply ② to determine whether a short circuit occurs and sends a signal to the terminal control unit (330).

In more detail, the first leakage sensitivity setting unit 360a may have a short circuit when the magnitude of current generated from the Z-CT 361a and 362a installed between the terminal blocks (terminal buses 391 and 392) to which the main lines are connected. Each reference value is set whether to generate a signal indicating that the signal has been detected.

For example, if the Z-CT 361a detects a short circuit in the power ① state and the Z-CT 362a detects a short circuit in the power ② state, the Z-CT 361a is the first earth leakage sensitivity setting unit 360a. ) Is connected to the earth leakage sensitivity setting circuit for power ①, and Z-CT 362a is connected to the earth leakage sensitivity setting circuit for power ②.

The second earth leakage sensitivity setting unit 360b is installed between the streetlight driver 340 and the ballast 410, and the second earth leakage sensitivity setting unit 360b is also set in accordance with the first earth leakage sensitivity setting unit 360a.

For example, if the Z-CT 361b detects a short circuit in the power ① state and the Z-CT 362b detects a short circuit in the power ② state, the Z-CT 361b includes the second earth leakage sensitivity setting unit 360b. ) Is connected to the earth leakage sensitivity setting circuit for power ①, and Z-CT 362b is connected to the earth leakage sensitivity setting circuit for power ②.

In summary, the Z-CT 361a short-circuits the main line occurring in the state of power ① and the Z-CT 362a short-circuits the main line occurring in the state of AC power ②. 361b) is used to detect a short circuit in the luminaire line occurring in the state of power ①, and Z-CT 362b is used to detect a short circuit in the luminaire line occurring in the state of AC power ②.

When the ballast 410 is composed of lottery transformers in which primary and secondary lines are separated, the Z-CTs 361b and 362b are positioned between the ballast 410 and the lamp 420.

In the above, it is assumed that the short circuit is detected using the Z-CT 361a and 361b in the state of the power source ①, and the short circuit is detected using the Z-CT 362a and 362b in the state of the AC power source ②.

In another method, an AD converter is installed in the ground fault sensitivity setting units 360a and 360b so that the ground fault sensitivity is detected by a detection level (eg, 30 mA) for a street lamp driving power (power ①) and a detection level for a safety voltage (power ②). E.g., 4.09mA), and apply one Z-sensitivity by selectively applying the electric leakage sensitivity according to the power state (power ① or power ②) applied to the line based on the amount of leakage detected from one Z-CT. CT can also be applied in both power states.

The setting switch 370 determines a driving mode of the terminal 300 and includes a receiving mode, a lighting mode, and an off mode.

The reception mode of the setting switch 370 is a mode driven by the control signal of the controller 200, and the lighting mode is neglected from the power processing unit 310, ignoring the control situation of the controller 200 when necessary, such as communication failure. It is driven according to the input power state.

Lights out mode is always off.

That is, when the setting switch 370 is in the lighting mode and the street lamp driving power is applied, the terminal controller 330 ignores the control signal from the controller 200 and outputs the lighting signal to the street lamp driving unit 340.

If the setting switch 370 is in the unlit mode, it is always kept unlit regardless of the power state.

The terminal display unit 380 displays whether the terminal 300 is normally driven, whether the ballast 410 or the lamp 420 is broken, or whether the short circuit occurs by using an LED or a speaker. Make it easy to locate.

The terminal blocks 391 and 392 are installed in the main line as being installed to facilitate the line connection and the line inspection work.

The lamp 400 includes a ballast 410 driven by a driving voltage (power source ①) of the street lamp driver 340, and a lamp 420 driven by driving of the ballast 410.

FIG. 4 is a block diagram of the power processing unit 310 shown in FIG. 3, and is a circuit diagram when a power source of a street lamp driving voltage (power source ①) and an AC safety voltage (AC power source ②) is used.

The relay driver 311a is set to be driven by a voltage in a predetermined range (ie, AC power ②), and when the voltage of the power input from the controller 200 is included in the predetermined range (AC power ②), the relay 312a is provided. To switch the contact point from the basic contact point (b contact point) to the contact point a, and if the voltage of the input power supply falls outside the set range (power source ①), the contact of the relay 312a is maintained as the basic contact point (b point point). Do it.

Typically, the relay 312a maintains a basic contact (contact b) below a certain voltage required for driving, and is switched to contact a when a high voltage required for driving is applied.

Therefore, when there is no relay driver 311a, the relay 312a switches to the contact a when the street light driving voltage (power source ①) is input.

The relay 312a is a relay operated by a driving signal of the relay driver 311a (a contact connection). The relay 312a maintains the contact b when the power ① is input and is switched to the contact a when the AC power ② is input.

The switching regulator 313a switches and converts the power ① input through the contact b into a DC power supply having a predetermined voltage necessary for driving the terminal controller 330, and then outputs the converted power.

The AC-DC rectifier circuit 314a rectifies and outputs the AC safety voltage of the AC power source ② input through the contact a to a predetermined DC voltage necessary for driving the terminal controller 330.

Looking at the operation according to the configuration of the present invention described above, when it is time to turn on or off the street lamp first, when the street lamp is turned off at the external central control station, the drive signal receiver 100 receives.

Alternatively, the setting unit 250 sets a time for turning on and off the street light.

At this time, it is set to generate a turn off signal at a predetermined time, or set to generate a turn off signal when a constant solar altitude is reached by converting the time into a solar altitude.

When the lighting signal is received by the driving signal receiver 100 or the lighting time is set by the data set by the setting unit 250, the main control unit 210 generates a signal for lighting the controller transceiver 220 The controller transceiver 220 transmits the data to the terminal 300 using a power line communication method or wireless communication.

At this time, the main control unit 210 drives the power switching unit 230 before the lighting control signal is sent to the terminal 300 to supply the selected street light driving voltage (power ①) through two or two wires in advance, The power processing unit 310 of the terminal 300 uses a built-in self-power or receives the power ① of the power switching unit 230 and converts it to a power required for driving the terminal 300.

The terminal transceiver 320 of the terminal 300 receives a signal from the controller transceiver 220 of the controller 200 and transmits the signal to the terminal controller 330, and the terminal controller 330 interprets the received signal. Optionally, the lamp 420 is turned on by applying a street light driving voltage to the ballast 410.

In this case, when the setting switch 370 is installed, it is confirmed that the reception mode is set in advance.

If the setting switch 370 is set to the lighting mode and the power determination signal of the power processing unit 310 corresponds to the power ①, the street light driving voltage is supplied to the ballast 410 regardless of the control signal of the controller 200. Is authorized.

Subsequently, the main controller 210 waits for a predetermined time to stabilize the ballast 410 and the lamp 420, and then determines whether the terminal is normally operated, whether the line is disconnected, whether the ballast or the lamp is broken, or whether a short circuit occurs. To generate a check signal for transmitting to the controller transceiver 220, the controller transceiver 220 transmits it to the terminal 300 using a power line communication method or wireless communication, the terminal 300 of the When the terminal controller 330 detects whether the ground fault, the ballast, and the lamp are normally driven, the terminal controller 330 replies through the terminal transceiver 320, and the main controller 210 of the controller 200 receives the controller 220 through the controller transceiver 220. do.

In addition, the power detector 240 determines the state of the power applied to the line using a built-in CT or photocoupler, and after determining whether or not a short circuit in the power detector 240 through a separate Z-CT not shown, It sends to the part 210.

Subsequently, the main controller 210 determines whether the terminal is normally operated, whether the luminaire 400 is normally driven, whether the line is disconnected, based on a signal returned through the controller transceiver 220 and a signal from the power detector 240. After determining a situation such as a short circuit, the corresponding matter (occurrence time, release time, terminal number, location, etc.) is stored, and if necessary, the remote control transceiver 500 through the wired or wireless to the remote control station.

Referring to the method of searching for a short circuit position in the state that the power ① is supplied as described above is as follows.

First, in the case where all Z-CTs 361a and 361b for detecting a short circuit in the main line and the luminaire line in the state of power ① are installed and the power source connected to the luminaire 400 is connected to the rear terminal block 392. For example, when a short circuit occurs in the luminaire line installed in the terminal 5, the short circuit is detected in the Z-CT (361a) embedded in the terminals 1 to 5, including the power detection unit 240 of the controller 200. In addition, since a short circuit is detected in the Z-CT 361b installed to search for a short circuit of the luminaire line in the terminal 5, it is easy to determine that a short circuit occurs in the luminaire line installed in the terminal 5.

Alternatively, when a short circuit occurs in the main line between the terminal 5 and the terminal 6, the ground fault is transmitted through the Z-CT (361a) embedded in the terminals 1 to 5, including the power detection unit 240 of the controller 200. Since the short circuit is not detected in the Z-CT 361a of the terminal after the number 6, the main control unit 210 of the controller 200 has a short circuit in the main line between the terminal 5 and the terminal 6 based on the received signal. It can be seen that.

Next, the Z-CT 361b which detects a short circuit of the luminaire line in the power ① state is not installed, and only the main line is installed with the Z-CT 361a and the power connected to the luminaire 400 is connected to the rear terminal block 392. When connected, the power is first applied only to the main line in a state in which the power of the lamp 400 is turned off, and then the controller 200 sends a short circuit search signal.

In this case, since power is not applied to the luminaire 400, only a short circuit occurring in the main line is searched. For example, when a short circuit occurs in the main line between terminal 5 and terminal 6, the power detector of the controller 200 is detected. Since a short circuit is detected through the Z-CT 361a installed in terminals 1 to 5, including the 240, and a short circuit is not detected in the Z-CT 361a installed in the terminal after 6, the controller 200 of the controller 200 is disconnected. The main controller 210 may know that a short circuit occurs in the main line between the terminal 5 and the terminal 6 based on the received signal.

Thereafter, after removing the leakage factor of the main line, it is confirmed that the short circuit is not detected on the main line, and when the power is connected to the luminaire 400 through the street lamp driving unit 340, and then transmitting the short circuit search signal again, this occurs. Since a short circuit is generated only in the luminaire line, for example, when a short circuit occurs in the luminaire line installed in terminal 5, Z is installed in the main lines 1 to 5 including the power detection unit 240 of the controller 200. Since a short circuit is detected in the CT 361a, the short circuit generated at this time may be a short circuit of the 5 luminaire line.

At this time, if the power source connected to the luminaire 400 is not connected to the rear terminal block 392 and is connected to the front terminal block 391, a short circuit occurs in the luminaire line installed in the terminal 5, so that 1 to 4 Since a short circuit is detected only in the Z-CT 361a installed in the terminal up to the terminal, it may be determined that a short circuit has occurred in the luminaire line connected to the terminal 5.

That is, when the power supplied to the luminaire 400 is connected to the front terminal block 391, the short circuit of the luminaire line of the corresponding number is not detected in the terminal 300 of the corresponding number, the power supplied to the luminaire 400 is rear When the terminal block 392 is connected, a short circuit is detected in the terminal 300 of the corresponding number.

At this time, when the A-D converter capable of classifying the amount of leakage is built in the leakage sensitivity setting units 360a and 360b of the terminal 300, the occurrence of the leakage is determined based on the leakage current value for the power ①.

In particular, when a short circuit exceeding a legal standard occurs in a street lamp driving state, a ground fault breaker (ELB) pre-installed in the distribution box is operated and the power is cut off.

At this time, by connecting the bypass circuit so as not to go through the ELB and driving the system in the above manner by applying power, it is possible to accurately determine the location of the short circuit.

On the other hand, when the unlit signal is received by the driving signal receiver 100 or the unlit time is set by the data set by the setting unit 250, the main control unit 210 transmits the unlit signal or the power switching unit 230. By turning off the power supply of the streetlight driving voltage (power ①) that is being supplied.

Then, when the street light is turned off, the main controller 210 drives the power switching unit 230 to supply the selected AC power source ② to the two-wire or two-wired power line.

At this time, the power detector 240 determines whether the AC power ② is driven and judges the short circuit by judging the current or voltage fluctuation, and in the AC power ② state through the built-in Z-CT for the AC power ② not shown. Judging whether or not the short circuit is sent to the main control unit 210.

In addition, the main controller 210 generates a check signal for determining whether the street light line is disconnected, whether the terminal 300 is normally driven or short-circuited, and transmits a check signal to the controller transceiver 220, and in the controller transceiver 220. This is transmitted to the terminal 300 using a power line communication method or wireless communication, and determines whether the terminal 300 is normally operated and whether the street lamp line is disconnected through bidirectional communication with the terminal 300.

In this case, the power processor 310 of the terminal 300 uses its own power source or receives the AC power ② supplied from the power switching unit 230 to switch to the driving power of the terminal 300 to operate the terminal 300. Use as a power source for

Subsequently, the main controller 210 detects a short circuit or a short circuit in the power detector 240, or analyzes a signal received from the terminal 300 to determine that the circuit is short, a terminal fault, a short circuit, or the like. , Time of release, terminal number, location, etc.), and if necessary, transmits to an external central control center via wired or wirelessly through the remote control transceiver 500.

A method of searching for a short circuit position in the AC power ② state as described above is as follows.

The AC power supply ② detects a short circuit using Z-CT (362a, 362b) and detects a ground fault for the AC power supply ② set in the ground fault sensitivity setting unit 360a, 360b, that is, (legal reference value × (power supply voltage ÷ street light driving voltage). )) Use a circuit.

In the case where the Z-CT 362a and 362b are installed in both the main line and the luminaire in the AC power ② state, and the power connected to the luminaire 400 is connected to the rear terminal block 392, for example, When a short circuit occurs in a luminaire line installed in terminal 5, a short circuit is detected in the Z-CT 362a installed in terminals 1 to 5, including the power detecting unit 240 of the controller 200, and the terminal 5 is detected. Since a short circuit is detected in the Z-CT 362b detecting a short circuit of the installed luminaire, it is easy to determine that a short circuit occurs in the luminaire 5.

If a short circuit occurs in the main line between the terminal 5 and terminal 6, the ground fault is detected through the Z-CT (362a) of terminals 1 to 5, including the power detection unit 240 of the controller 200, Since the short circuit is not detected in the Z-CT 362a of the terminal after the number 6, the main controller 210 of the controller 200 indicates that the short circuit occurs in the main line between the terminal 5 and the terminal 6 based on the received signal. Can be.

When only the Z-CT 362a is installed in the main line under the AC power ② state, and the power connected to the luminaire 400 is connected to the rear terminal block 392, first, the power line connected to the luminaire 400 is connected. After the power is applied only to the main line in the off state, the search signal is sent.

At this time, since the power is not applied to the lamp 400, the short circuit is detected only in the main line. For example, when a short circuit occurs in the main line between the terminal 5 and the terminal 6, the power detecting unit 240 of the controller 200 ), And a short circuit is detected through the Z-CT 362a of the terminals 1 to 5, and a short circuit is not detected in the Z-CT 362a of the terminal after 6, so that the main control unit 210 of the controller 200 is detected. ), It can be seen that a short circuit occurred in the main line between terminal 5 and terminal 6 based on the received signal.

Then, after eliminating the leakage factor of the main line, and then connecting the power to the luminaire 400 through the street lamp driving unit 340 again and sends out a search signal, the leakage occurs at this time, the leakage is only detected in the luminaire line, for example When a short circuit occurs in a luminaire line in which terminal 5 is installed, a short circuit is detected in the Z-CT 362a installed in terminals 1 to 5 including the power detector 240 of the controller 200. It can be seen that a short circuit occurred in a luminaire line installed in terminal 5.

At this time, if the power connected to the luminaire 400 is not connected to the rear terminal block 392, and is connected to the front terminal block 391, the short circuit is detected only in the Z-CT built in terminals 1 to 4 It is possible to determine that a short circuit has occurred in the luminaire line 5.

That is, when the power supplied to the luminaire 400 is connected to the front terminal block 391, the short circuit of the luminaire line of the corresponding number is not detected in the terminal 300 of the corresponding number, the power supplied to the luminaire 400 is rear When the terminal block 392 is connected, a short circuit is detected in the terminal 300 of the corresponding number.

As described above, at night, the lamp 420 is turned on by the street lamp driving voltage (power source ①) and the luminaire 400 is normally driven, the line is disconnected, and the leakage is shorted. It is possible to reduce the cost of maintenance of the luminaire 400 by searching for disconnection, short circuit and short circuit of the line, and normal operation of the terminal.

In addition, there is no risk of electric shock because the track is supplied with a safety voltage even if the track is contacted due to road repair work during the weekly inspection process.

In addition, when the summer flooding, bypass circuits are not formed and the earth leakage breaker operates on time to eliminate the risk of electric shock.

As described above, according to the present invention, by using a low voltage (safety voltage) without the risk of electric shock accident, it is possible to search the location of the short circuit and poor luminaires, and the equipment or human life contact the track due to road repair work, etc. There is no risk of electric shock.

1 is a block diagram of a street light disconnection detection and driving system using a conventionally filed safety voltage.

2 is a block diagram of a search apparatus for a short circuit and a failure lamp according to the present invention.

3 is a detailed block diagram of the terminal and the streetlight mechanism shown in FIG.

4 is a detailed block diagram of the power processing unit shown in FIG. 2.

<Description of the symbols for the main parts of the drawings>

100: drive signal receiver 200: controller

210: main controller 220: controller transceiver

230: power switching unit 240: power detection unit

250: setting unit 260: display unit

300: terminal 310: power processing unit

320: terminal transceiver unit 330: terminal control unit

340: street light driving unit 350: driving detection unit

351: Current Transformer

360a, 360b: leakage sensitivity setting unit

361a, 362a, 361b, 362b: Zero phase current transformer (Z-CT)

370: setting switch 380: terminal display unit

391,392: Terminal Bus

400: luminaire 410: ballast

420: lamp 500: remote control transceiver

Claims (11)

delete I) a drive signal receiver; i) a controller; i) a plurality of terminals comprising a power processing unit, a terminal transceiver unit, a terminal control unit, a street lamp driving unit and a driving detection unit; I) a streetlight driving system composed of a remote control transceiver; On the terminal, A first Z-CT installed on a main line connecting the controller to the last terminal to detect a short circuit, and connected to the first Z-CT to set a ground fault sensitivity to a predetermined level based on a short circuit detected from the first Z-CT. A first earth leakage sensitivity setting unit generating a signal when the earth leakage occurs and transmitting the signal to a terminal controller, a second Z-CT installed between the street lamp driver and the luminaire to detect a short circuit on the luminaire wire, and the second Z-CT; Leakage and failure luminaires using safety voltages further comprising a second leakage sensitivity setting unit configured to generate a signal when a leakage occurs above a predetermined level based on the leakage current detected from the second Z-CT and to transmit a signal to the terminal controller. Location Locator. The method according to claim 2, Safety is characterized in that the AD converter is installed in each of the leakage sensitivity setting units and selectively applies the leakage sensitivity according to the power state applied to the line based on the leakage amount detected from the first or second Z-CT when the leakage occurs. Location search device for electric leakage and poor luminaire using voltage. The method according to claim 2, Each Z-CT consists of a driving voltage Z-CT for detecting a short circuit in the power ① state, and a safety voltage Z-CT for detecting a short circuit in the power ② state when the street light is extinguished. The part has a sensitivity setting circuit for driving voltage and a safety setting sensitivity circuit for safety voltage. The leakage sensitivity is set based on a legal reference value with respect to the driving voltage sensitivity setting circuit connected to the Z-CT for driving voltage, and the legal reference value is set for the safety voltage sensitivity setting circuit connected to the Z-CT for safety voltage. An earth leakage and fault luminaire location search device using a safety voltage according to the state of the power supply. The power processing unit of claim 2, After setting the voltage of constant magnitude between power ① and power ② as the reference voltage, it is determined that the voltage of the power input from the controller is above or below the reference voltage and is above the reference voltage (power ①). Relay drive unit to maintain the contact point and to switch the relay contact point from the basic contact point to another contact point (a contact point) when the reference voltage is lower than the reference voltage; A relay for maintaining a basic contact (b contact) or switching from a basic contact to a contact as a drive signal of the relay driver. A switching regulator for outputting after switching and converting the power inputted through the basic contact (b contact) into a DC power supply having a predetermined voltage necessary for driving the terminal controller; And a AC-DC rectifying unit configured to rectify and output the power input through the contact a as a DC voltage having a constant voltage required for driving the terminal controller. The method of claim 2, wherein the terminal further comprises a setting switch for determining the driving mode of the terminal, The driving mode of the terminal includes a reception mode driven by a control signal of a controller, a lighting mode driven according to a power state input from a power processing unit ignoring the control state of the controller when necessary, such as communication failure, and a power state Regarding the position detection device of a short circuit and a bad luminaire using a safety voltage, characterized in that it is in a light-off mode that is always off. The method according to claim 2, The terminal further includes a terminal display unit for notifying the administrator of whether the terminal is normally driven, whether the luminaire is broken, or whether the electric leakage is short, based on a signal from the terminal controller. Location Locator. I) a drive signal receiver; i) a controller; i) a plurality of terminals comprising a power processing unit, a terminal transceiver unit, a terminal control unit, a street lamp driving unit and a driving detection unit; Iv) a remote control transceiver, Ⅵ) a first Z-CT installed on a main line connecting the terminal to the last terminal and detecting a short circuit, and iii) a short circuit sensitivity connected to the first Z-CT. In the method for retrieving the electric leakage position in the device consisting of a streetlight driving system comprising a first electric leakage sensitivity setting unit for generating a signal when the electric leakage occurs more than a predetermined level on the basis of the electric leakage detected from the first Z-CT , Apply power to the main line only, send out an earth leakage search signal while the luminaire is off, and search for an earth leakage position of the main line on the basis of the earth leakage signal detected through the 1Z-CT built in each terminal, In the process of searching for the short circuit position of the main line, if the short circuit is searched through the terminal from the controller to any i-th and the short circuit is not searched through the terminal from (i + 1) to the next, i-th and (i + 1) ) A method for retrieving a location of a short circuit and a bad luminaire using a safety voltage, characterized in that a short circuit occurs in a main line between terminals. In the method of claim 2, The power is supplied to the main line and the luminaire, and a search signal is transmitted to detect a short circuit on the main line through the 1Z-CT built in each terminal, and the luminaire line through the second Z-CT embedded in each terminal. Search for leaks, In the process of searching for a short circuit position of the luminaire, a short circuit is searched through the first Z-CT embedded in the terminal from the controller to an i th terminal, and a short circuit is also searched through the second Z-CT of the i th terminal. Determine that a short circuit has occurred in the i luminaire, After removing the earth leakage factor generated in the luminaire line, the power of the luminaire line is cut off and power is supplied only to the main line, and in the process of re-searching the earth position of the main line again, the first Z of the terminal from the controller to any i th If a short circuit is detected through -CT and the short circuit is not detected through the 1Z-CT built into the (i + 1) th terminal or more, a short circuit has occurred in the main line between the i-th and (i + 1) th terminals. A method for retrieving a location of a short circuit and a bad luminaire using a safety voltage characterized by discriminating. The apparatus of claim 2 further comprises a CT installed in a line connected from the terminal to a luminaire comprising a ballast and a lamp, and after measuring the amount of current flowing in the line using the CT, the current amount and the ballast in a steady state. Based on the difference between the amount of current in the state where the current does not flow due to defect and the amount of current flowing in the second short circuit current of the ballast due to the failure of the lamp, the leakage current using the safety voltage is characterized by discriminating the steady state and the ballast failure and lamp failure. How to find the location of a bad luminaire. I) a drive signal receiver; i) a controller; i) a plurality of terminals comprising a power processing unit, a terminal transceiver unit, a terminal control unit, a street lamp driving unit and a driving detection unit; Iv) a remote control transceiver, Ⅵ) a first Z-CT installed on a main line connecting the terminal to the last terminal and detecting a short circuit, and iii) a short circuit sensitivity connected to the first Z-CT. In the method for retrieving the electric leakage position in the device consisting of a streetlight driving system comprising a first electric leakage sensitivity setting unit for generating a signal when the electric leakage occurs more than a predetermined level on the basis of the electric leakage detected from the first Z-CT , If a short circuit is detected in the main line, remove the short circuit factor of the main line, apply power to the line, and send a search signal while the luminaire is turned on to detect the short circuit signal detected through the 1Z-CT built into each terminal. Based on the location of the shorted luminaire track, In the process of searching for a short circuit position of the luminaire track, a short circuit is searched through the terminal from the controller to any i-th terminal, and if a short circuit is not detected from the terminal afterwards, it is determined that a short circuit has occurred in the i- luminaire line. Location search method of leakage and defective luminaire using safety voltage.