KR20150106060A - Energy monitoring control system diagnostics provided - Google Patents

Abstract

The present invention relates to an energy monitoring control device including a diagnosis function, capable of diagnosing abnormality by monitoring a real time load current amount and a start current amount of a load terminal, and making an alarm, shutting down power, and identifying a malfunction point according to a result of the diagnosis. To achieve the purpose, the present invention comprises: a load terminal comprising at least one load consuming electric energy; a load measuring part for measuring a current value of the load by being installed in each load of the load terminal; and a load terminal measuring part performing a control operation to diagnose and solve an abnormal state when a deviation between the total load current value and the start current value of the load terminal exceeds an allowable range. According to the technical formation, the present invention is capable of diagnosing the abnormality of a line or load by monitoring the real time load current amount and the start current amount of the load terminal, and making a warning, shutting down power, and restoring the situation, and therefore, safe accidents such as fire or electric shock are prevented and energy is efficiently managed through the diagnosis of energy waste factors by leaked currents.

Description

[0001] Energy monitoring control system diagnostics provided with a diagnostic function [

[0001] The present invention relates to an energy monitoring and controlling apparatus having a diagnostic function, and more particularly, to an energy monitoring and control apparatus having a diagnosis function, and more particularly, And an energy monitoring and control device provided with a diagnostic function capable of performing an advantage identification.

Generally, the power control apparatus monitors the power consumed in the lower end (lighting, electric heat, motor, fan, etc.), and controls power consumption unnecessarily by on / off control.

The following is an example of a power supply control apparatus in which a lower stage is constituted by illumination as a prior art.

Registered Patent Bulletin No. 10-1273220 (registered on Mar. 6, 2013), real-time measurement and monitoring of the power consumption of the LED lamp module reduces power consumption by turning off the lamps that are unnecessarily turned on, A power supply control apparatus capable of performing power supply control is disclosed.

In the conventional power supply control apparatus, a commercial AC power is supplied to a plurality of LED lamp modules connected to each other, the power consumption consumed by each LED lamp module is sensed and transmitted to the main management device, Power control means for controlling the LED lamp module in accordance with a dimming control command or an on / off control signal transmitted from the power management means, a display for communicating with the power management means by wireless communication, And a dimming control command or an on / off control signal input by the manager is transmitted to the power management unit via the wireless communication, thereby reducing the power consumption of the LED lamp module connected to the power management unit Real-time measurement and monitoring to turn off the lamps that are unnecessarily turned on to lower the power consumption.

According to the above-described technical configuration, the power control apparatus of the related art is expected to reduce the power consumption by turning off the lamps that are unnecessarily turned on by measuring and monitoring power consumed in the lower stage (LED lamp module) in real time.

However, the above conventional power control apparatus can only detect whether or not power consumption is being performed at the lower stage. Therefore, even if a leakage current or a ground fault occurs due to burnout, malfunction, And it was impossible to take measures to prevent safety accidents.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above-described problems, and it is an object of the present invention to monitor the amount of start current and the amount of real time load current at the lower end to diagnose an abnormality, and perform alarm, power shutdown, And an energy monitoring and control device provided with a diagnosis function.

In order to solve the above problems, the present invention provides a load measuring apparatus comprising: a load stage composed of one or more loads consuming electric energy; a load measuring unit provided in each of the loads on the lower stage to measure a current value of the load; And a load step side unit for comparing the total load current value measured and the start current value of the subordinate lower stage and comparing the measured total load current value with the start current value of the lower stage, and diagnosing the abnormal state when the deviation exceeds the allowable range, do.

Wherein the load at the lower end is composed of an LED for lighting, an LED lighting module including SMPS, DALI and the load measuring unit, and the load step side portion compares the total load current value of the load measuring unit with the starting current value at the lower end And performs a control operation of alarming to check if the deviation deviates from the first permissible range. When the deviation is out of the second permissible range, a control operation of shutting off the power of the lower stage is performed.

Wherein the load at the lower end is composed of an LED for illumination, an LED lighting module including a SMPS, a DALI, and the load measuring unit, and the load step side part calculates a load current value measured by the load measuring part, And if the deviation deviates from the first allowable range, a control operation for alarming the LED module is performed. If the deviation exceeds the second allowable range, the power of the corresponding LED module is cut off Thereby performing a control operation.

When the load step side performs an alarm operation for eliminating the abnormal state, the alarm is issued to the manager using at least one of a monitor, a buzzer, and a warning lamp, and the alarm condition is propagated by a character or voice to the designated telephone number And a central control unit is further provided.

The control unit displays the load and the lower power consumption on the screen by receiving the power consumption of the load from the load step side portion and sets the permissible range value for diagnosing the abnormal state, And a touch panel provided with an operation key for releasing the power supply control and the abnormal state of the touch panel.

And the load step side portion stores the current value measured after the lapse of a predetermined time when the power is turned on at the lower end as a start current value.

According to the present invention, by monitoring the start current amount and the real time load current amount at the lower end and diagnosing the abnormality of the load or the line and by performing alarm, power cutoff and recovery for eliminating the abnormal state according to the result, It is possible to efficiently manage energy such as diagnosis of energy waste due to leakage current as well as prevention of safety accident.

Further, the present invention has the effect of facilitating maintenance and repairing by displaying DALI standard communication on the touch panel or monitor on the basis of the abnormal state diagnosis.

In addition, the present invention performs an alarm operation by a buzzer, a warning light, an SMS text, an automatic telephone voice alarm, and the like in order to allow the administrator to recognize the abnormal state. There is an effect that it is possible to prevent enlargement.

FIG. 1 is an example of an energy monitoring and controlling apparatus equipped with a diagnosis function according to the present invention,
FIG. 2 is a diagram illustrating an energy monitoring and control apparatus having a diagnosis function according to the present invention applied to a distribution board,
FIG. 3 is an exemplary diagram illustrating an energy monitoring and controlling apparatus having a diagnosis function according to the present invention applied to an illumination system,
4 is a diagram for explaining a process of performing an alarm operation by an energy monitoring and controlling apparatus having a diagnosis function according to the present invention.
FIG. 5 is a diagram illustrating an example in which a touch panel is applied to an energy monitoring and controlling apparatus having a diagnosis function according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of an energy monitoring and controlling apparatus having a diagnosis function according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the embodiment of the present invention is provided with a load terminal 100 composed of one or more loads consuming electric energy and a load 100a loaded on the load terminal 100, A load measuring unit 300 for measuring a load and a load current measuring unit 300 for comparing the total load current value measured by the load measuring unit 300 and the start current value of the stored load stage 100. If the deviation exceeds the permissible range, And a load step side part 200 for performing a control operation to solve the problem.

In the above technical construction, the lower end 100 may be any one of lighting, electric heat (outlet), and equipment. In a broad sense, the space 100 may be divided into a plurality of rooms, such as apartment houses It is possible.

Accordingly, the load at the lower end of the lighting unit is a lamp disposed in the lighting lighting circuit, the load at the lower end of the heating unit is an electric / electronic device connected to the outlet, the load at the lower end of the equipment is a fan, a motor, A computer, a washing machine, an air conditioner, a TV, and a microwave oven.

The load measuring unit 300 is installed in each of the loads as described above to measure the voltage and current values of the load in real time and transmit it to the outside or perform switching operation by an external control signal to control on / A communication unit is provided.

That is, the load measuring unit 300 includes a load voltage / current value measuring unit 310, a switching unit 320, and a communication unit 330.

The load step side portion 200 compares the start current value measured at the lower end of the illuminating portion, the lower end of the heating portion, the lower end of the equipment portion, and the lower end of the space portion with the total load current value measured by the load measuring portion 300 in real- And a control unit for diagnosing the abnormal state when the deviation is out of the allowable range and performing a control operation for resolving the abnormal state.

That is, the load step side portion 200 includes a voltage and current value measuring portion 210, a latching relay 220, a communication portion 230, and a control portion 240 at a lower stage.

More specifically, after a predetermined time (5 to 10 minutes) has elapsed by the control unit 240, the load step side unit 200 can measure the voltage applied to the load unit side through the measuring unit 210, The start current value of the lower stage 100 is measured and stored.

The control unit 240 periodically compares the total load current value measured by the load measuring unit 300 in real time with the starting current value, and diagnoses the abnormal state when the deviation exceeds the permissible range, and performs a control operation .

For example, when the individual load and the line of the lower stage 100 are in a normal state, the current flows constantly, which is measured and stored as the start current value. Then, because of the individual load or the line abnormality, It is possible to diagnose that there is an abnormality in the loading stage 100. In this case,

Therefore, when the terminal unit 100 is diagnosed as an abnormal state, the control unit 240 performs control operations such as alarm, power shutdown, and recovery as described later.

On the other hand, the start current value of the load step side portion 200 may be set from the preceding data or from the allowable current value input by the user, in addition to the above method.

Next, an example in which the load stage side portion 200 is provided in the branch circuit of the distribution board 10 and the load measurement portion 300 is installed in the load connected to the branch circuit, respectively, will be described with reference to Fig. In the drawing, NFB is a wiring breaker.

First, when power is applied to the branch circuit, the load measuring unit 300 measures the real time current value of the load, the load step side unit 200 adds the load current value measured by the load measuring unit 300, And then compares it with the pre-stored starting current value.

In this case, when the deviation between the total load current value and the starting current value is out of the permissible range, for example, when the total load current value is out of the range of ± 10 to 20% of the starting current value, It is diagnosed that an abnormality has occurred on the image and a control operation is performed to solve it.

For example, the load step side portion 200 performs a control operation of performing an alarm notifying the inspection of the load connected to the branching circuit or operating the latching relay 220 to shut off the power supply of the branching circuit.

Next, an example in which the present invention is applied to the illumination system will be described with reference to FIG.

The load of the load stage 100 is composed of an LED lighting module 150 including an LED 151 for illumination, an SMPS 152, a DALI 153 and a load measuring unit 300, The total load current value measured by the load measuring unit 300 is compared with the start current value of the previously stored lower end to perform an alarm operation to check if the deviation exceeds the first allowable range (± 10%), And to perform a control operation of shutting down the power supply of the loading stage 100 when the deviation exceeds the tolerance range (± 20%).

In detail, the lighting module 150 is installed with 1 to N (natural number) lighting modules 150, which are loads of the lighting unit lower end 100. Each lighting module 150 is connected to an illumination LED (bulb or fluorescent lamp type) 151 and an SMPS A switching mode power supply 152, a digital addressable lighting interface 153, and a load measuring unit 300 whose functions are limited by a measuring unit for measuring voltage and current values of the lighting LED.

That is, since the SMPS 152 and the DALI 153 communication functions are implemented in the illumination system, unlike the load measuring unit described above, the load measuring unit 300 applied to the illumination system has the measuring unit for measuring the current value of the load, Or may be manufactured as a separate part and mounted on the lighting module 150. [

For reference, the DALI 153 communication standard assigns an address to each lighting module 150, and can monitor the state of the lighting module 150 according to a control signal and control (on / off switching, illumination control).

The SMPS 152 converts AC power to DC power in a switching manner, supplies power to the lighting LED 151, and is controlled through the DALI 153 communication standard.

The load step side portion 200 is provided in the branching circuit for lighting of the distribution board 10 and the load measurement portion 300 is provided in each lighting module 150 of the illumination lighting circuit.

The load measuring unit 300 measures the real time current value of the lighting LED 151 and the load step side unit 200 measures the current value of the lighting LED 151 in the load measuring unit 300 through the DALI 153 communication standard The measured load current value is added to calculate the total load current value, and then compared with the stored starting current value.

In this case, the load step side portion 200 may be configured such that when there is no separate power control for the lighting module 150 and the deviation between the total load current value and the starting current value is out of the permissible range, If it is out of the range of ± 10 to 20%, it is diagnosed that an abnormality has occurred on the lighting module 150 or the illumination lighting circuit, and a control operation for eliminating the abnormality is performed.

For example, the load step side portion 200 performs a control operation to perform an alarm operation notifying the inspection of the lighting module 150 connected to the illumination lighting circuit, or to operate the latching relay 220 to cut off power to the illumination lighting circuit .

Thus, even if a leakage current or a ground fault occurs on the illumination module 150 or the illumination lighting circuit, a control operation for eliminating the abnormal state can be performed quickly and accurately, thereby preventing an electric fire or an electric shock accident and reducing energy waste.

Referring to FIG. 4, when the load step side 200 performs an alarm operation for eliminating an abnormal state, the alarm 410 is activated using any one of the monitor 410, the buzzer 420 and the warning light 430, And a central control unit (400) for transmitting an alarm situation to a designated telephone number by text or voice.

More specifically, the load step side portion 200 is communicably connected to the central control unit 400, and the central control unit 400 receives a control signal for solving the abnormal state from the control portion 240 of the load step side portion The manager monitor 410 displays a high priority in response to the control signal or performs an alarm operation through the buzzer 420 and the warning light 430. If necessary, And the alarm condition is transmitted to the stored telephone number by text or voice.

Accordingly, even if the manager is located at a remote location, it is possible to quickly respond to the abnormal state of the terminal 100. [

5, the power consumption of the load is received from the load step side portion 200, the power consumption of the load and the lower end is displayed on the screen 510, and the allowable range value for diagnosing the abnormal state is set The touch panel 500 further includes an operation key 520 for releasing the power control of the lower stage 100 and the abnormal state in the control operation due to the diagnosis of the abnormal state.

The touch panel 500 is communicably connected to the load step side portion 200. Therefore, it is possible to calculate the power consumption of the load based on the voltage and current values of the load measured by the load measuring unit 300, calculate the total power consumption of the load 100 from the calculated load, Power consumption can be displayed.

In addition, the touch panel 500 sets a start current value and an allowable range value for diagnosing the load terminal 100 to an abnormal state in the load step side portion 200 and inputs the start current value and the allowable range value for the control due to the abnormal state of the load terminal 100 An operation key 520 for releasing power control and an abnormal state of the lower stage 100 is provided.

In detail, when it is diagnosed that an abnormal state has occurred in the lower stage 100, the control unit 240 of the load stage side performs a control operation for eliminating the abnormal state. At this time, the alarm signal is transmitted to the touch panel 500 .

As the alarm signal is inputted, the touch panel 500 operates the latching relay 220 of the load step side according to the programming control order to cut off the power of the lower stage 100, Turn on the power again.

At this time, the touch panel 500 operates the latching relay 220 to protect the load and the line when the alarm signal is inputted from the load step side portion 200 within a predetermined time after the power is turned on again at the lower end 100 The power source of the loading stage 100 is completely cut off and is put in a waiting state until a key signal for canceling the abnormal state is inputted by the manager.

On the other hand, the load step side portion 200 compares the current value of each load measured by the load measuring portion 300 with the average current value of the load, and when the current value of the specific load increases the average current value by a predetermined value or more, And transmits the code of the load to the touch panel 500 based on the DALI communication standard.

Accordingly, the touch panel 500 displays a unique code or a circuit diagram of a load in an abnormal state on the screen 510, so that the administrator can easily grasp the advantages.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. will be.

10: Distribution board
100:
100a: load
150: Lighting module
151: Lighting LED
152: SMPS
153: DALI
200: load step side
210: Voltage and current value measuring section
220: latching relay
230:
240:
300: load measuring section
310: voltage and current value measuring section
320:
330:
400: central control unit
410: Monitor
420: buzzer
430: Warning light
440: SMS text notification system or emergency telephone system
500: Touch panel
510: Screen
520: Operation keys

Claims (6)

A load stage consisting of one or more loads that consume electrical energy,
A load measuring unit installed in each of the loads at the lower end to measure a current value of the load,
A load step side unit for comparing the total load current value measured by the load measuring unit and the start current value of the subordinate lower stage and comparing the deviation of the total load current value with a start current value of the subordinate lower stage and diagnosing the abnormal state, Wherein the energy monitoring and controlling device is provided with a diagnosis function. The method according to claim 1,
Wherein the load at the lower end is composed of an LED for illumination, an LED lighting module including SMPS, DALI, and the load measuring unit,
The load step side part performs a control operation of comparing the total load current value of the load measuring part with the start current value of the lower end and alerting the deviation to check if the deviation exceeds the first allowable range, Wherein the control unit performs a control operation to shut off the power supply at the lower end of the energy monitoring and control unit. The method according to claim 1,
Wherein the load at the lower end is composed of an LED for illumination, an LED lighting module including SMPS, DALI, and the load measuring unit,
The load step side portion compares each load current value measured by the load measuring section with the load average value obtained from the start current value at the lower end and, when the deviation deviates from the first allowable range, The control unit performs a control operation to shut off the power supply to the corresponding LED lighting module when the control unit performs the control operation to shut off the LED lighting module. The method according to claim 1,
When the load step side performs an alarm operation to resolve the abnormal state,
And a central control unit for issuing an alarm by using any one of a monitor, a buzzer and a warning lamp, and for transmitting an alarm condition to a designated telephone number by a character or voice. The method according to claim 1,
And a controller for receiving the power consumption of the load from the load step side to display the load and the lower power consumption on the screen and setting a permissible range value for diagnosing the abnormal state and a control operation Further comprising a touch panel having a power control unit and an operation key for releasing an abnormal state. The method according to claim 1,
Wherein the load step side portion stores a current value measured after a predetermined time elapses when the power is turned on at the lower end as a start current value.

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