KR20060091330A - An inteligent circuit breaking systems and operation methods thereof - Google Patents

Abstract

The intelligent circuit breaker system of the present invention comprises: switching means connected between a power line connected from a power supply unit for supplying power to a load consuming power to turn on / off power supply; Control means for controlling on / off of the switching means; Abnormal signal detection means connected to the power line to detect whether a power line abnormality is detected and report the abnormality to the control means; Data providing means for supplying data for determining the condition so that the control means can confirm whether a preset condition is completed; The control means receiving the abnormal signal detected by the abnormal signal detection means by the abnormal signal detection means to stop the power supply by turning off the switching means, and then from the data providing means When the condition is satisfied by receiving data related to the condition, the switching means is turned on to resume the power supply.

Description

Intelligent circuit breaking system and its operation method {AN INTELIGENT CIRCUIT BREAKING SYSTEMS AND OPERATION METHODS THEREOF}

1 is a block diagram of a basic embodiment of the present invention.

2 is a block diagram illustrating a state in which the embodiment of FIG. 1 is attached to a power system.

3 is a block diagram of an embodiment of the present invention when the abnormal signal is a surge.

4 is a block diagram of an embodiment of the invention in the absence of a first circuit breaker.

5 is a block diagram of an embodiment of the invention that is remotely controllable.

Figure 6 is a block diagram of an embodiment of the present invention further equipped with a surge protector.

7 is a block diagram of an embodiment of the invention in which a UPS is additionally mounted.

The present invention relates to a circuit breaker, and more particularly to an intelligent circuit breaker that can prevent the malfunction of the existing circuit breaker.

The general circuit breaker is composed of a switch such as a relay located between the power supply and the load. When an error occurs in the power supplied to the load, the power breaker that detects and supplies power to the power supply is turned off from the load ( off) means a circuit module to turn off.

Typical conditions under which these circuit breakers operate include excessive current from the power supply, power signals fed back from the load, or exceeding a preset threshold, or leakage current. If the power is supplied, the load may be fired or the machine may break down.

On the other hand, a phenomenon called surge means that an instantaneous impulse high current flows into a load through a power line, which is mostly caused by a lightning strike or a momentary malfunction of a power supply. The time that surge occurs is a very short moment, which can cause a fatal failure in the load circuit, but most of it flows into the ground wire by a surge breaker mounted at the load inlet, so it does not lead to a fatal fault in the load.

The problem is that when a surge flows into the load device equipped with the circuit breaker, in spite of the fact that no overcurrent flows to the device due to the surge breaker or the like, the circuit breaker indirectly checks for abnormal load by the feedback circuit mounted on the load side. The switch turns off while sensing. In this case, the device will stop working immediately due to the interruption of the current supply. If the administrator is located near the device, the circuit breaker can be switched on again to resume normal operation, otherwise the device will remain off. Will remain.

This phenomenon occurs frequently in devices outdoors, such as base stations and cells in radiotelephones, and this is solved by an operator who restarts the device each time, but this is quite cumbersome and expensive, and the device is turned off. If a service interruption or the like occurs during the service, a situation that is very inconvenient for the user is caused.

The present invention is to solve the above problems, and relates to an intelligent circuit breaker capable of actively responding to an abnormal symptom while preventing the circuit breaker from being switched off even when a surge or the like is detected.

The intelligent circuit breaker system of the present invention for achieving the above object is a switching means connected between the power line from the power supply for supplying power to the power consuming load connected to the power supply on (on) / off (off) ; Control means for controlling on / off of the switching means; Abnormal signal detection means connected to the power line to detect whether a power line abnormality is detected and report the abnormality to the control means; Data providing means for supplying data for determining the condition so that the control means can confirm whether a preset condition is completed; The control means receiving the abnormal signal detected by the abnormal signal detection means by the abnormal signal detection means to stop the power supply by turning off the switching means, and then from the data providing means When the condition is satisfied by receiving data related to the condition, the switching means is turned on to resume the power supply.

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

1 shows the configuration of the intelligent circuit breaker 100 of the present invention for each module, an abnormal signal detection module connected to a power line for detecting abnormal current, and a control module for reporting an abnormal signal flowing from the abnormal signal detection module. And a switch module controlled on / off by the control module and a data providing module for providing a condition value to the control module to turn on the switch module which is turned off according to a preset condition.

Based on FIG. 2 illustrating an embodiment of the present invention in case a strong surge flows in, the operation of the intelligent circuit breaker 100 of the present invention will be described in more detail.

2, the control module of FIG. 1 is a programmable logic controller (PLC), an abnormal signal detection module is a surge detector, a switch module is a relay, and a data providing module is a timer. An embodiment for an intelligent circuit breaker 100-A is shown.

In addition, the surge detector is connected to the first circuit breaker and the first circuit breaker is connected to the power supply again. In addition, the relay is connected to the load, and the power supplied from the power supply unit to the load by the wiring is configured to be supplied through the first circuit breaker and the relay.

The operation of the intelligent circuit breaker 100 -A of FIG. 2 will be described in detail. In the steady state operation, the power supplied from the power supply unit is supplied to the load through the first circuit breaker and the relay in the on state to provide the load. It serves as the energy needed for operation.

However, when a surge flows from the power supply or the like, the surge current is detected by the surge detector through the first breaker which is in a normal ON state because the abnormal operation according to the surge current is not yet fed back from the load side.

When a surge detector detects a surge, it immediately reports it to a control module such as a PLC, and the PLC immediately turns off the relay to prevent this surge current from flowing to the load. In this situation, therefore, the power supply is momentarily interrupted even though the first circuit breaker is still on.

Then, in order to check whether a preset condition such as about 0.2 seconds has elapsed after the relay is turned off, the PLC which has reported the elapsed time from the timer turns on the relay again and takes measures to re-power the power supply to the load. That is, it is returned to the initial normal operation state.

In this case, if the surge current is a temporary phenomenon caused by a momentary lightning or the like, since the surge will not be detected any more, all the circuits will be kept in a normal state and the first circuit breaker will not be turned off.

The operation will be described once again. When an abnormal signal such as a surge is detected on the power line by the abnormal signal detecting means, the control means receives a report from the abnormal signal detecting means, and then the control means receives the switching means. To turn off the power supply. Then, when the control means receives the time data which is data related to the condition, i.e., the predetermined time, etc. from the data providing means, i.e., the timer, determines whether the condition is satisfied after the predetermined time has elapsed, and this condition is satisfied. The control means turns on the switching means to resume the power supply.

However, if a surge flows again within a predetermined time period, such as after a relay turns on, within a predetermined time period, the PLC no longer relays because this suggests that there may be some structural problem or repeated surges. The first circuit breaker, which has reported this situation through the sensing module, can be operated directly due to the abnormality caused by the surge without taking action to turn off. That is, in case of continuous abnormal situation, the intelligent circuit breaker of the present invention stops itself and transfers the circuit protection role to the first circuit breaker, which is the original circuit breaker.

Alternatively, if the relay is turned off by the first surge, and the relay is turned on again after a predetermined time, for example, 0.2 seconds described above, and the surge comes back within 1 minute, the relay is turned off again and the relay is turned on again after a predetermined time. After the circuit steady state is established, continuous monitoring is performed.

That is, the relay on / off may be configured to be repeated at least once or multiple times depending on the setting, in which case the intelligent circuit breaker stops itself and the circuit itself if the relay on / off is repeated three times or more, for example. It is also possible to pass the protective role on to the first circuit breaker, which is the original circuit breaker. This is because, in the event of multiple abnormal signal detections or malfunctions, turning off the power completely and inspecting it by an administrator can be a method of simultaneously seeking stability while ensuring the maintenance and efficiency of the equipment.

Specifically, once again, an abnormal signal is detected on the power line by the abnormal signal detecting means, the control means reports the presence of the abnormal signal from the abnormal signal detecting means, and the control means turns off the switching means. (off) the power supply is stopped, the control means receives data related to the condition from the data providing means, determines whether the condition is satisfied, and when the condition is satisfied, the control means causes the switching means. To turn on the power supply to be resumed every time the abnormal signal is detected.

Then, if the detection of the abnormal signal is repeated a predetermined number of times within a predetermined time period, after that, the switching means is completely turned off to stop the power supply to the load or the switching means is completely turned on. The circuit breaker detects the fault and processes it to be off.

Alternatively, as illustrated in FIG. 4, the circuit protection role may be performed only by the intelligent circuit breaker of the present invention without the above-described first circuit breaker. That is, in this case, after repeating relay on / off with the above logic in the case of continuous surge occurrence or other power system abnormality, if the predetermined condition of relay always off is satisfied, the relay is kept off and then in this state. It is to wait for the administrator to check and restart. This is because the relay does not have the first circuit breaker, so the relay performs it instead, and the relay is turned off as opposed to the above.

5 is another embodiment (100-B) of the intelligent circuit breaker of the present invention is configured to be able to communicate by wire or wirelessly with a remotely located management server by additionally mounting a communication module in the above-described configuration. In the case of wireless, for example, the WAP protocol may be used. In the case of a wired, the wireless communication may be controlled by a power line communication (PLC).

As described above, the remote server and the intelligent circuit breaker (100-B) of the present invention are capable of wired and wireless communication as follows.

In the above situation, when the relay of the intelligent circuit breaker maintains the off state waiting for the inspection of the manager, if the manager determines that there is no problem after checking the load terminal or the power supply at a long distance, the manager of the circuit breaker may You can command the relay to turn on. In other words, the administrator can directly check the power supply, etc., but can be checked at a long distance by another sensing module (not shown), and if it is determined to be a temporary phenomenon according to the inspection, the remote control can be controlled again. It is to be a safe unmanned management system.

In this case, since the first breaker, which can be composed of an ELB (Earth Leakage Breaker), which performs a mechanical switching trip, is used, instead of using an electric relay-type switch controlled by a PLC or the like, such remote control is used. Nevertheless, remote control is possible even if a mechanical circuit breaker is used together. In other words, if the switch that can control the electrical on / off directly or indirectly, such remote control is possible.

FIG. 6 illustrates another embodiment of the present invention in which a surge breaker is included in addition to a surge detector. In addition to the above-described method of detecting a surge when a surge occurs, the surge is turned on / off, and the like. In order to minimize this, additional surge suppressors are requested. Therefore, the generated surge is emitted through the ground line immediately after sensing and does not flow toward the circuit.

FIG. 7 illustrates another embodiment of the invention in conjunction with an Un-interruptible Power Supply (UPS).

As is known, a UPS is a device that emergencyly supplies preloaded electricity to a load in the event of a power outage and is always in charge mode when power is normally supplied.

If the UPS is used with a conventional mechanical circuit breaker, if the breaker is turned off by a short fault, then the UPS will stop operating after supplying all charged power to the load. Then, the administrator must switch the breaker on again to replenish the power of the exhausted UPS while the normal power is supplied, which is very exhaustive as described above.

The configuration of the present invention can be combined with this to prevent this problem. That is, when configured as shown in Figure 7, when the relay is turned off according to the power line failure, the power is supplied from the UPS to the load end immediately so that the operation of the load does not interfere, if the intelligent circuit breaker of the present invention no longer determines Normalizing the power supply again, the UPS will return to charge immediately after a very short discharge. Therefore, the combination of the present invention and the UPS is to provide a basis for the normal operation of the load at all times in abnormal situations, and also to improve the efficiency of the unmanned system.

The present invention relates to an intelligent circuit breaker, the use of the device of the present invention can solve the passive and inefficient state waiting for the administrator's action after the breaker unconditionally trips, even if the abnormal state of the power supply system occurs.

In addition, since the device of the present invention is configured to detect a dangerous situation and to operate a mechanical circuit breaker or to maintain a continuous power interruption state when a preset condition is reached, it is configured not to be more disadvantageous than the conventional one in terms of safety. .

These configurations of the present invention are more useful when combined with a telecommunications module, surge protector and / or UPS, and those skilled in the art will readily consider various modifications within the technical spirit of the present invention. I will be able to make it. Accordingly, all such simple variations or substitutions are intended to be included in the following claims.

Claims (17)

Switching means connected between a power line that supplies power from a power supply unit for supplying power to a load consuming power to turn on / off power supply; Control means for controlling on / off of the switching means; Abnormal signal detection means connected to the power line to detect whether a power line abnormality is detected and report the abnormality to the control means; Data providing means for supplying data for determining the condition so that the control means can confirm whether a preset condition is completed; As configured to include, When an abnormal signal is detected on the power line by the abnormal signal detecting means, the control means which has been notified of the error signal is turned off to stop the power supply, and then provides data related to the condition from the data providing means. And if the condition is satisfied, turning on the switching means to restart the power supply. The abnormality signal detecting means detects an abnormal signal again within a predetermined time after the power supply is restarted by turning on the switching means when the condition is satisfied. Reporting to the means, the control means receives the data from the data providing means after turning off the switching means, and keeps the switching means in the off state even when the condition is satisfied again. Intelligent circuit breaker system. The abnormality signal according to claim 1, wherein when the condition is satisfied, after the power supply is restarted by turning on the switching means, the abnormality signal is repeated a predetermined number of times within a predetermined time period, and the abnormality signal is preset. When detected by the detecting means, the control means receives the data from the data providing means after finally switching off the switching means, and keeps the switching means in the off state even when the condition is satisfied again. Intelligent circuit breaker system. The abnormality signal detecting means detects an abnormal signal again within a predetermined time after the power supply is restarted by turning on the switching means when the condition is satisfied. Reporting to the means, wherein the control means maintains the on state regardless of whether the condition is satisfied after turning on the switching means. The abnormality signal according to claim 1, wherein when the condition is satisfied, after the power supply is restarted by turning on the switching means, the abnormality signal is repeated a predetermined number of times within a predetermined time period, and the abnormality signal is preset. And when detected by the detecting means, the control means maintains the on state regardless of whether the condition is satisfied after the switching means is finally turned on. 6. The power supply from any one of claims 4 and 5, wherein the power is coupled from the power supply to the load after the switching means is on, and coupled at the power line at a position ahead of the switching means toward the power supply. An intelligent circuit breaker system further comprising a mechanical circuit breaker to turn off the internal switch to stop the supply. The communication device according to any one of claims 1 to 5, further comprising communication means for providing a signal to the control means to communicate with a remote server capable of remotely controlling the on / off of the switching means. Intelligent circuit breaker system. 6. The device of claim 1, further comprising an uninterruptible device (UPS) which auxiliaryly supplies power to the load until the switching element is off and then on again. 7. Intelligent circuit breaker system characterized in that. A surge protector according to any one of claims 1 to 5, further comprising a surge protector connected to the power line to allow the high current to flow toward ground when the abnormal signal is a surge of pulse type high current. Intelligent circuit breaker system. The method of any one of claims 1 to 5, wherein the abnormal signal detecting means is a surge detector, the data providing means is a timer, the provided data is time, and the condition is a lapse of a predetermined time. Intelligent circuit breaker system. 6. The intelligent circuit breaker system according to any one of claims 1 to 5, wherein the switching means is a relay electrically controlled on / off. The intelligent circuit breaker system according to any one of claims 1 to 5, wherein the load is a communication relay device used outdoors. Switching means connected between the power line from the power supply for supplying power to the load consuming power to turn on or off the power supply, control means for controlling the on / off of the switching means, the power line An abnormal signal detection means for detecting whether a power line abnormality is detected and reporting an abnormality to the control means, and data for determining the condition so that the control means can confirm whether a preset condition is completed. In the operating method of the power cut-off system comprising a data providing means for supplying, Detecting an abnormal signal on the power line by the abnormal signal detecting means; Receiving, by the control means, the presence of an abnormal signal from the abnormal signal detecting means; The control means turning off the switching means to stop the power supply; The control means receiving data related to the condition from the data providing means and determining whether the condition is satisfied; Causing the control means to turn on the switching means to resume the power supply when the condition is satisfied; Method of operating a power cut off system comprising a. Switching means connected between the power line from the power supply for supplying power to the load consuming power to turn on or off the power supply, control means for controlling the on / off of the switching means, the power line An abnormal signal detection means for detecting whether a power line abnormality is detected and reporting an abnormality to the control means, and data for determining the condition so that the control means can confirm whether a preset condition is completed. In the method of operating a power cut system comprising a data providing means for supplying, (a) detecting an abnormal signal on the power line by the abnormal signal detecting means; (b) receiving, by the control means, the presence of an abnormal signal from the abnormal signal detecting means; (c) the control means turning off the switching means to stop the power supply; (d) the control means receiving data related to the condition from the data providing means and determining whether the condition is satisfied; (e) causing the control means to turn on the switching means to resume the power supply when the condition is satisfied; And performing the steps (a) to (e) every time the abnormal signal is detected, and if the abnormal signal is repeated a predetermined number of times within a predetermined time, the step (c) during the subsequent steps is performed. The method of operating a power interruption system, characterized in that to stop further supply to stop the power supply to the load. Switching means connected between the power line from the power supply for supplying power to the load consuming power to turn on or off the power supply, control means for controlling the on / off of the switching means, the power line An abnormal signal detection means for detecting whether a power line abnormality is detected and reporting an abnormality to the control means, and data for determining the condition so that the control means can confirm whether a preset condition is completed. A data providing means for supplying a power supply, coupled to the power line at a position earlier in the direction of the power supply than the switching means, and switching off the internal switch to stop supplying power from the power supply to the load after the switching means is turned on. Method of operation of a power interruption system comprising a mechanical circuit breaker (off) To (a) detecting an abnormal signal on the power line by the abnormal signal detecting means; (b) receiving, by the control means, the presence of an abnormal signal from the abnormal signal detecting means; (c) the control means turning off the switching means to stop the power supply; (d) the control means receiving data related to the condition from the data providing means and determining whether the condition is satisfied; (e) causing the control means to turn on the switching means to resume the power supply when the condition is satisfied; And performing the steps (a) to (e) every time the abnormal signal is detected, and if the abnormal signal is repeated a predetermined number of times within a predetermined time, the step (b) during the subsequent steps is performed. And the mechanical circuit breaker is turned off after stopping further processing to stop supplying power to the load. 16. The method according to any one of claims 13 to 15, wherein the abnormal signal detecting means is a surge detector, the data providing means is a timer, the provided data is time, and the condition is that a predetermined time has elapsed. A method of operating a power interruption system, characterized in that 15. The communication system according to any one of claims 13 to 14, further comprising communication means for communicating with a remote server capable of providing a signal to said control means to remotely control on / off of said switching means, Receiving, by the control means, a control signal of the remote server after performing all the above steps; The control means turning on the switching means; Operation method of a power cut off system characterized in that it further comprises.

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