KR101134470B1 - Electric power restoring control system and method there of - Google Patents

Abstract

PURPOSE: A power source recovery management system and a device thereof are provided to enable efficient recovery work by systematic administration on power source recovery. CONSTITUTION: A main server(1) controls monitoring and each power source recovery management device(3). The main server stores data created from each power source recovery management apparatus. A local server(2) communicates with multiple power source recovery management devices existing in sections and areas. The local server communicates with the main server. The power source recovery management device automatically restores the power source of an installation place. The power source recovery management device comprises a controller and a drive unit. The drive unit is coupled with an over-current breaker installed on site. The controller is connected to the local server and the external computer network.

Description

Power Recovery Management System and Its Device {ELECTRIC POWER RESTORING CONTROL SYSTEM AND METHOD THERE OF}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power recovery management system and apparatus thereof, and more particularly, to a power recovery management system and apparatus capable of being managed through control of an overcurrent breaker used for various devices using a power source.

Usually, overcurrent circuit breakers (circuit breakers) are installed in various devices and facilities that use a power source (control devices such as power transmission lines or railway lines, etc.) to prevent damage due to overcurrent supplied to circuits and the like. The overcurrent breaker automatically shuts off power when overcurrent is supplied to a circuit.

Such an overcurrent circuit breaker uses a method of forcibly recovering by a user or an administrator when the power supply is turned off due to an overcurrent.

However, when a plurality of overcurrent breakers such as distribution lines are used, it is difficult to manage them. Therefore, development of a power recovery management system is urgently required, and various types of power management systems have been developed.

Most of these power management systems are managed remotely from a single main system, which can simply perform monitoring or control the power ON / OFF remotely.

However, most of these management systems detected when the power supply was interrupted and put the manager in the field to restore them. Also, due to the malfunction of the detectors and management devices installed in the site, problems were difficult to manage due to malfunctions. .

In order to solve the above problems, an object of the present invention is to provide a power recovery management system for recovering power and systematic management.

In addition, another object of the present invention is to provide an efficient power recovery management device, it is possible to implement efficient power recovery management.

The present invention can be managed through the control of the overcurrent breaker used in the power recovery management system and various devices using the power as the device. In more detail, by providing a power recovery management system and a reliable power recovery management device for power recovery and systematic management, the main server (1) and the main for management so that efficient power recovery management can be implemented. A system that performs communication with a local server 2 interworking with the server 1 and a plurality of power recovery management apparatuses 3 for each section or region, and also performs communication with the main server 1; Used in the system, the central control unit 311 for controlling the drive unit 32 to increase the reliability, the power supply unit 312 for supplying the power required for operation, the operating state of the drive unit 32 and the blocking of the overcurrent breaker The status display unit 313, which displays the number of times, the state setting unit 314 for setting the operation of the driving unit 32, the motor control unit 315 for controlling the driving motor 323 of the driving unit 32, for control A control unit 31 comprising a communication port 316 for transmitting and receiving a call and a battery 317 for supplying power in an emergency, and a driving unit controlled by the control unit 31 and coupled to an overcurrent breaker installed in the field ( 32 is coupled to the bracket 321 and the case 322 inserted into the bracket 321, the drive motor 323 located on one side of the case 322 and the drive shaft of the drive motor 323 Gear 325 which operates in conjunction with the drive gear 324 and the screw 326 is coupled to the gear 325 and the nut block 327 is coupled to the screw 326, the inner side of the case 322 And coupled to the nut block 327, one side is composed of a switching lever 328 protruding to the outside of the case 322.

By providing the power recovery management system and the apparatus of the present invention, it is possible to systematically manage the power recovery, and by providing a reliable device, there is an effect that more efficient recovery management.

1 is a block diagram of a power recovery management system of the present invention.
2 is an exemplary view of a screen for management of the power recovery management system of the present invention.
3 is an exemplary view showing the use of the DB of the power recovery management system of the present invention.
Figure 4 is an exploded perspective view of the drive unit of the power recovery management apparatus of the present invention.
5 is a perspective view of a driving unit of the power recovery management apparatus of the present invention.
6 is a partial exploded view of a drive unit of the power recovery management apparatus of the present invention.
Figure 7 is another partial exploded view of the drive unit of the power recovery management apparatus of the present invention.
8 is a configuration diagram of a control unit of the power recovery apparatus of the present invention.

Hereinafter, the power recovery management system and apparatus thereof of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

1 is a configuration diagram of a power recovery management system of the present invention, Figure 2 is an exemplary view of the screen for the management of the power recovery management system of the present invention, Figure 3 shows the utilization of the DB of the power recovery management system of the present invention. Illustrated illustration.

1 to 3, the power recovery management system of the present invention comprises a main server 1, a local server 2 and a power recovery management device (3).

Here, the main server 1 is a main device for management, and can monitor and control each individual device and store data generated from each individual device.

The local server 2 interworking with the main server 1 performs communication with a plurality of power recovery management apparatuses 3 which exist for each section or region and also performs communication with the main server 1. .

The power recovery management apparatus 3 interworking with the local server recovers power automatically and can detect a situation of an installed place.

The power recovery management device 3 is composed of a control unit 31 and the drive unit 32, which will be described in more detail, to control the drive unit 32 and the drive unit 32 coupled to the over-current breaker installed in the field At the same time it is composed of a control unit 31 that can be linked to the communication with the local server and the external computer network.

The management method of the power recovery management system configured as described above allows the administrator to monitor the status of each power recovery management device 3 through the main server 1 and to control each power recovery management device 3. The communication network is used. In this case, the communication network is always managed through a dedicated communication network, but in an emergency, it is managed by using an external computer network, where emergency means a communication communication is interrupted by external factors (impacts such as natural disasters). The term 'external computer network' refers to a normal means such as the Internet.

As described above, the IP address of each local server 2 is received and stored at regular intervals during constant management through a dedicated communication network. When the next information is transmitted, the previously stored information is newly transmitted. Replaced. This is for communicating with the local server 2 through an external computer network in an emergency, because the IP address of the local server 2 uses a variable IP.

As described above, information on the operation state of the plurality of power recovery management apparatuses 3 interlocked with each local server 2 together with the IP address of the local server 2 is collected through the local server 2 and the main server. Is sent to (1).

In addition, the administrator controls the power recovery management device 3 connected to each local server 2 through the main server 1, which is to set the operating state of the power recovery management device (3). . In more detail, it is possible to set a manual mode or an automatic mode of the power recovery management device 3, the manual mode through the main server 1, the administrator controls the operation of the power recovery management device 3 from a remote location In the automatic mode, the power recovery management apparatus 3 performs an operation according to a processing method preset in the power recovery management apparatus 3. For example, when the overcurrent breaker operates, it detects this and transmits the operation state to the main server through the local server, and operates according to a preset management method.

Here, the operation method of the power recovery management device (3) is to detect the operation state of the overcurrent circuit breaker in the drive unit of the power recovery management device (3) installed in the overcurrent circuit breaker, when the overcurrent circuit breaker is turned off by an external shock such as lightning strike Before returning the information to the main server, the lever of the overcurrent breaker is restored to the ON state. At this time, if the cause of the interruption of the current is not solved, the overcurrent breaker is operated again to be in the OFF state, and a series of operations in which the power recovery management device 3 which detects this again restores the lever of the overcurrent breaker to the ON state Will be repeated. Such a series of operations are repeatedly performed up to the number of operations set by the user. When the overcurrent breaker 3 remains OFF even after the set number of operations is completed, the power of the overcurrent breaker is not supplied to the main server 1. You will be notified.

As described above, when the main server is notified that the power of the overcurrent circuit breaker is cut off, the administrator can be notified of this through various methods. For example, when the overcurrent breaker in a specific region is activated, the current state is displayed on the monitoring screen together with the recognition mark of the specific region, or the information is transmitted through a text notification service or a communication service, which is a preset notification method by the administrator. Will be.

The means for detecting the operation state of the overcurrent circuit breaker by the power recovery management apparatus 3 uses two methods of detecting an electrical signal and a method of detecting a mechanical signal. Here, the electrical signal is to supply the power necessary for the operation of the power recovery management device using the secondary power of the power supplied to the over-current breaker, if the supply of the secondary power as described above to detect this Will be. In addition, the mechanical signal is detected by the addition of a separate mechanical sensing means adjacent to the lever of the over-current circuit breaker when the over-current circuit breaker operates, and more stable operation state through the detection of the electrical signal and the mechanical signal. Can be detected.

In addition, the power recovery management system as described above can be connected to a communication network (dedicated communication network or external communication network) by a worker other than the administrator through a predetermined security procedure, which is a field worker connected to the communication network, selectively receiving the desired DATA This is to ensure that appropriate responses can be made according to the cause of disability before arriving at the site.

Here, the worker must go through a security procedure when connecting to the communication network, the security procedure used here after inputting the unique identification code and identification password of the worker, after requesting the administrator of the main server to approve the connection, the administrator of the main server is wired Or, after confirming the accessor through the personal communication terminal on the wireless will be approved. The access security procedure as described above may be variously attempted in the scope of the technical idea, but is not limited thereto.

As described above, a worker who has been approved for connection can receive and use only necessary data, and is not given the authority to change the setting of the power recovery management apparatus installed in the field.

As described above, when the worker accesses and stores the data stored in the communication network, the identification code and the date and time of the visitor are transmitted to the main server 1 and stored. Information such as the processing result is also transmitted to and stored in the main server.

In addition, power recovery management can be more efficiently by utilizing various DATA transmitted to and stored in the main server. For example, the situation and regional information such as season, time, climate, etc. can be stored and analyzed for various situations. By providing managers with information to anticipate accidents that can occur or to overcome the problems that occur, shorten the response time for accidents or prevent accidents from being repeated.

Figure 4 is an exploded perspective view of the drive unit of the power recovery management device of the present invention, Figure 5 is a perspective view of the drive unit of the power recovery management device of the present invention, Figure 6 is a partial exploded view of the drive unit of the power recovery management device of the present invention, 7 is another partial exploded view of the driving unit of the power recovery management apparatus of the present invention, Figure 8 is a block diagram of a control unit of the power recovery apparatus of the present invention.

4 to 8, the power recovery management system of the present invention requires a reliable power recovery management apparatus for more efficient and stable power recovery management. Therefore, the power recovery management apparatus of the present invention is composed of a control unit 31 for control by the requirements and a drive unit 32 that operates in conjunction with the control unit 31, respectively.

The control unit 31 is a central control unit 311 for controlling the driving unit 32, a power supply unit 312 for supplying the power required for operation, the operating state of the driving unit 32 and the number of times of overcurrent breaker is displayed Status display unit 313, the state setting unit 314 to set the operation of the drive unit 32, the motor control unit 315 for controlling the drive motor 323 of the drive unit 32, transmitting and receiving signals for control Comprising a communication port 316 and a battery 317 for supplying power in an emergency, the drive unit 32 is controlled by the control unit 31, coupled to the over-current breaker installed in the field is a bracket 321 and It is interlocked with the case 322 inserted into the bracket 321, the drive motor 323 located on one side of the case 322 and the drive gear 324 coupled to the drive shaft of the drive motor 323. The operating gear 325 and the screw 326 to which the gear 325 is coupled; Is coupled to the pre-screw 326, the nut block 327 and the nut block 327 is located inside the case 322, one side of the switch lever 328 protrudes out of the case 322 It is composed.

The switching lever 328 is coupled to the lever 410 of the overcurrent circuit breaker 40 to control the operation of the lever 410. When the overcurrent circuit breaker is cut off by external shock such as a lightning strike, the overcurrent circuit breaker In the characteristic of the lever 410 is operated to move to the OFF position. When the lever 410 is operated to the OFF position as described above, the switching lever 328 is sensed by this operation to force the lever 410 of the overcurrent circuit breaker 40 to the ON position.

At this time, the switching lever 328 is coupled to one side of the nut block 327, the nut block 327 is coupled to the screw 326, when the screw 326 is rotated, the screw thread of the screw 326 Along the straight motion. The switching lever 328 is operated in the same manner as described above. Here, the linear movement of the switching lever 328 using the screw 326 as described above is to overcome the disadvantage that the existing power recovery devices forcibly operate the lever of the overcurrent circuit breaker by rotating the arm provided in the crank shaft. When the lever 410 of the overcurrent circuit breaker 40 is forcibly operated from the OFF state to the ON state, excessive power is momentarily supplied to the contact portion of the lever 410 so that an accident that the contact is broken frequently occurs. It is to prevent. In more detail, when the lever of the current circuit breaker is operated by an arm provided in the crankshaft, a force is applied from a part of the contact surface of the lever by the arm rotating about a certain axis. This causes damage by electric shock and pressure applied to a part.

In addition, when the power supplied is high voltage, the force that must be applied externally to operate the lever of the over-current breaker is also increased. Therefore, it is to operate the lever by using a screw 326 that can transmit a relatively large force, because it is located in a poor outside because durability must also be combined.

As described above, the conversion lever 328 coupled to the nut block 327 is formed to adjust the length in the lateral direction. In more detail, by adjusting the length of the switching lever 328, it is possible to select whether the contact with the lever 410. For example, when the switch lever 328 is extended toward the lever 410, the switch lever 410 is in contact with the lever 410, thereby controlling the lever 410, and the switch lever 328 toward the nut block 327. When it is reduced by moving, it is separated from the lever 410 to control the lever 410 manually.

This is to enable the field operator to manually test the operation of the lever 410 without interference of the switching lever 328.

The central control unit 311 of the control unit 31 for controlling the driving unit 32 as described above processes a command for controlling the driving unit 32.

The power supply unit 312 is to use the power of the site where the over-current breaker is installed, the power used in the power supply unit 312 is to use the secondary power. The power supply unit 312 as described above is provided with two transformers to convert the power supplied from the outside. This is converted to a desired voltage through a primary transformer (not shown) in the event that the power supplied from the outside is unstable, and then again converted through a secondary transformer (not shown). Through such two conversion operations, the control unit 31 is prevented from being impacted by the unstable power supplied from the outside.

At this time, the power unit 312 is connected to a separate battery 317 for use as an emergency power source. This is to supply power charged in the battery 317 when the power supplied from the outside is not supplied in an emergency.

The state display unit 313 is a portion for displaying the operation state of the driving unit 32 and the number of times of overcurrent circuit breaker interlocked with the control unit 31.

The state setting unit may be set by the control unit 31 and set the operation of the drive unit 32 to be interlocked to set the manual or automatic operation, and transmits the state signal to the main server 1 according to the number of times of the over-current circuit breaker It is to set the number of times of signal transmission cutoff.

In addition, it is also possible to set the time difference between the shut-off recovery operation when the power supply automatic recovery. In more detail, it is also possible to set the time difference until the drive unit 32 starts to operate after the first cutoff. For example, after the overcurrent circuit breaker is turned off due to an external shock such as a lightning strike, the OFF state is set. If the time is set for 10 seconds, the driving unit 32 operates 10 seconds after the initial overcurrent circuit breaker 40 is cut off. Starting to force the lever 410 of the overcurrent circuit breaker. This is because the external shock such as a lightning strike occurs instantaneously and the cause is solved after a certain time so that the time can be set.

Here, setting the initial driving time as described above is to set the optimal model using the data stored in the main server (1).

Further, in addition to the function of setting the time during which the driving unit 32 operates after the initial blocking, the time between the respective operations may be set when the driving unit 32 set by the user is repeated. For example, if the user sets a total of three motion repetitions and sets the time difference between each motion to 1 minute, after the first first motion is performed, the second motion is performed after 1 minute, and again. One minute later, the third operation is performed.

The motor controller 315 controls the drive motor 323 of the driver 32.

The communication port 316 is divided into a dedicated communication port (not shown) and an external computer network port (not shown). Here, the dedicated communication port is for connecting to a dedicated communication network used for a specific facility such as a railroad, and the external computer network port is used for using an external computer network such as the Internet. This is to perform communication with the main server 1 by performing a communication using a dedicated communication network while bypassing the external communication network when the dedicated communication network cannot be used in an emergency.

In addition, according to the site situation, if the dedicated communication network is not available, it is to enable the external computer network.

The battery 317 is a normal rechargeable battery. When the supply of main power is cut off in an emergency, the battery 317 is used for emergency driving using a charged power.

The control unit 31 and the drive unit 32 of the present invention configured as described above are installed to be spaced apart from each other in consideration of stability in the field installation, in more detail, the drive unit 32 is located on one side of the over-current breaker installed in the field Combined, the control unit 31 is installed separately inside the main box, such as a control device installed in the field, to minimize the problem that the control unit 31 is damaged by an external impact.

When the driving unit 32 is coupled to one side of the overcurrent circuit breaker located in the field, the lever 410 of the overcurrent circuit breaker is installed in contact with the switching lever 328. The switching lever 328 using the above method is installed. By controlling the operation of the lever (410).

In addition, when the driver 32 is coupled with the overcurrent circuit breaker 40, a sensing for detecting the operation of the lever 410 of the overcurrent circuit breaker 40 between the driver 32 and the overcurrent circuit breaker 40. The part 50 is further provided. Here, the sensing unit 50 is a mechanical sensing means, which is attached adjacent to the lever 410 of the overcurrent circuit breaker 40 to sense that the lever 410 operates. In addition to the mechanical sensing means as described above, since the electrical sensing means is further provided to detect that the power is cut off in a double, it is possible to operate more stably.

1: main server 2: local server
3: power recovery management device 31: control unit
32: drive unit 311: central control unit
312: power supply unit 313: status display unit
314: state setting unit 315: motor control unit
316: communication port 317: battery
321: bracket 322: case
323: drive motor 324: drive gear
325: gear 326: screw
327: nut block 328: switching lever

Claims (15)

In the power recovery management system comprising a main server, a local server linked to the main server and a management device installed in the field to automatically restore power,
A main server (1) capable of monitoring and controlling each power recovery management device (3) and at the same time storing data generated from each power recovery management device (3); and
A local server (2) interworking with the main server (1) and performing communication with a plurality of power recovery management apparatuses (3) existing for each section or region and at the same time for communicating with the main server (1); And
Automatically recover the power of the installation place, can detect the situation of the installation site, and consists of a control unit 31 and the drive unit 32, the drive unit 32 and the drive unit coupled to the over-current breaker installed in the field ( 32) and a power recovery management system, characterized in that it is composed of a control unit (31) capable of interworking with the communication with the local server (2) and an external computer network.
The method according to claim 1, wherein when controlling the power recovery management device (3) through the main server (1) and the local server (2), this is performed using a communication network, and the communication network is always managed through a dedicated communication network. Power recovery management system, characterized in that the use of an external computer network in the event of an emergency, such as a network failure due to the impact of natural disasters.
The main server (1) according to claim 2, wherein the main server (1) periodically performs communication with the local server (2) with respect to the IP address of the local server (2) and the operation state and site situation of the power recovery management apparatus (3). Power recovery management system, characterized in that for transmitting to the main server (1).
The power recovery management apparatus (3) according to claim 1, wherein the administrator controls the operation state of the power recovery management apparatus (3) through the main server (1) according to an administrator's command through the main server (1). A power recovery management system, characterized in that it is possible to select and apply an automatic mode that can be operated automatically by the method set in the manual mode and the power recovery management device (3) that can operate.
The power recovery management apparatus (3) according to claim 1, wherein the power recovery management apparatus (3) detects an operation state of an overcurrent circuit breaker installed in the field, restores power according to a set recovery method, and simultaneously transmits information to the main server (1). When the overcurrent breaker installed at the site is turned off due to an external factor such as a lightning strike, it detects this and restores the power the set number of times when the cause of the interruption of current is not solved when the lever of the overcurrent breaker is restored to the ON state. After repeating the operation, the power recovery management system, characterized in that for transmitting to the main server (1).
The method according to claim 5, wherein when a signal is transmitted from the power recovery controller 3 installed in the specific region in the main server 1, the current state is displayed on the monitoring screen together with the recognition mark of the specific region or set by the administrator. Power recovery management system, characterized in that for transmitting information through a text notification service.
The method of claim 1, wherein when the field worker connects to the power recovery management system through a communication network, the operator of the main server is wired or wireless after inputting a worker's unique identification code and identification password and requesting the main server administrator to grant access. Power recovery management system, characterized in that for confirming the accessor through the personal communication terminal on the terminal to approve the connection.
According to claim 1, When the field worker is connected to the power recovery management system through the communication network, and download the data, the identification code and date and time information of the accessor is transmitted to the main server and stored, and the field worker occurred in the field After resolving the problem and reporting it to the administrator of the main server (1), the power recovery management system, characterized in that the information on the situation of the area where the problem occurred and the processing result by the operator is transmitted to the main server and stored.
The method according to any one of claims 1 to 8, wherein by using various DATA transmitted to and stored in the main server (1), the surrounding situation and regional information such as season, time, climate, etc. are stored and analyzed for various situations. It is possible to reduce the time to respond to an accident or to prevent the same repeated accidents by providing a manager with information that can predict an accident that can occur or overcome the problems caused by the power supply. Recovery management system.
In the power recovery management device installed in the field using the power to automatically recover and manage the power,
Central control unit 311 for controlling the driving unit 32, the power supply unit 312 for supplying the power required for operation, the status display unit 313 that displays the operating state of the driving unit 32 and the number of times of overcurrent breaker, A state setting unit 314 capable of setting an operation of the driving unit 32, a motor control unit 315 for controlling the driving motor 323 of the driving unit 32, and a communication port 316 for transmitting and receiving signals for control. And a control unit 31 consisting of a battery 317 for supplying power in an emergency;
The case 322, which is controlled by the controller 31 and coupled to an overcurrent circuit breaker installed in the field, is inserted into the bracket 321 and the inside of the bracket 321, and located at one side of the case 322. A screw 326 and the screw 326 in which the gear 325 and the gear 325 are coupled to operate with the driving motor 323 and the driving gear 324 coupled to the driving shaft of the driving motor 323 are coupled. Is coupled to the nut block 327 located inside the case 322 and the nut block 327, and a driving part configured of a conversion lever 328 protruding to the outside of the case 322. Power recovery management device, characterized in that consisting of 32).
11. The power recovery management apparatus according to claim 10, wherein the control unit (31) and the driving unit (32) are separately installed to be spaced apart from each other when installed in the field.
The switching lever 328 coupled to the nut block 327 has a length in the lateral direction in which the nut block 327 is located so as to select whether to contact with the lever of the overcurrent circuit breaker installed in the field. Power recovery management device, characterized in that adjustable.
The power recovery management apparatus according to claim 10, wherein the power supply unit 312 uses two transformer processes using two transformers consisting of a primary transformer and a secondary transformer to convert power supplied from the outside. .
11. The method of claim 10, wherein the state setting unit 314 may set a manual or automatic operation of the drive unit 32 controlled by the control unit 31, so as to notify the administrator according to the number of times of interruption of the over-current breaker A power recovery management device, characterized in that the time difference between the number of signal transmission interrupts and the interrupt recovery operation when the power is automatically restored.
15. The power recovery management apparatus according to any one of claims 10 to 14, wherein the communication port (316) comprises a dedicated communication port and an external computer network port.

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