KR20120070412A - Access periodic maintenance method and system for storage battery of communication equipments - Google Patents

Abstract

PURPOSE: A periodical maintenance method and system for a storage battery in a communication facility are provided to improve battery performance by regularly charging a storage battery through a control unit of a rectifier used for a communication facility. CONSTITUTION: A control target battery setting unit registers a control target storage battery and corresponding check-out time to be inputted in a database(S10). A routine inspection is automatically performed according to the corresponding check-out time in each control target storage battery(S20). A remote performance inspection part determines the presence of a bad cell by analyzing informed inspection data. The remote performance inspection part can alarm the presence of the bad cell(S40). The remote performance test part can determine the presence of the bad cell(S50). An operator or an administrator replaces a corresponding cell or the storage battery(S60).

Description

Periodic Maintenance Method and System for Storage Battery of Communication Equipments

The present invention relates to a method and system for regularly checking a battery used in a communication facility such as a branch office and a base station. It analyzes the discharge test data and monitors the battery discharge remotely even in the operation center and alerts it to be dispatched and repaired immediately in case of abnormality, so that the power supply to the communication facility is interrupted due to poor performance and failure during the operation of the battery. The present invention relates to a method and a system for regularly checking storage batteries.

Telecommunication facilities such as branch offices and base stations are operated using the power of the power company.However, to prevent large accidents in which the operation of the communication facilities is stopped in case of unexpected power failures such as typhoon, heavy rain, and traffic congestion, reserve power equipment such as batteries Equipped. Nationwide, a telecommunications company operates thousands of telecommunications facilities, including branch offices and base stations.

Batteries installed in telecommunication facilities such as branch offices, base stations, etc., should be maintained and maintained at all times through regular performance tests. In general, telecommunications companies are dispatched to the site about once a year to perform battery discharge tests by hand and replace or activate battery cells to maintain battery performance. However, it is expensive and cumbersome to check frequently a large number of communication facilities by hand by a professional worker, and it is difficult to check frequently. If the inspection is late, there may be a large disaster due to the generation of defective cells.

Accordingly, an object of the present invention is to solve the above-described problems, and an object of the present invention is to improve the battery performance by regularly discharging and recharging and activating a battery through a control unit of a rectifier used in a communication facility. By analyzing the data, the operation center monitors battery discharge remotely and alerts them to start and recover immediately when an abnormality occurs. This can prevent large accidents when the power supply to the communication facility is interrupted due to poor performance or failure during battery operation. To provide a method and system for regular inspection of batteries.

First, to summarize the features of the present invention, in accordance with one aspect of the present invention, in the periodic inspection system, the periodic inspection method of the battery for regularly checking the battery via a network, is installed in a communication facility at the time of power failure under the control of the rectifier control unit Supplying reserve power to the communication equipment, registering a management target battery including a plurality of cells and setting an inspection time; Transmitting a discharge test control signal to the rectifier control unit at the check time; Discharging each of the plurality of cells in the rectifier control unit and notifying the periodic inspection system of test data; Analyzing the test data to determine whether a defective cell exists; And alerting an operator to cope with the presence of the defective cell.

The test data may include a load current during discharge, or a discharge voltage.

The battery regular checking method may further include transmitting a charge control signal for recharging the plurality of cells to the rectifier control unit if there is no defective cell after determining whether the defective cell exists.

The inspection time may include two predetermined times of the year.

In addition, the battery regular inspection system for regularly checking the storage battery through the network according to another aspect of the present invention, is installed in a communication facility and supplies a reserve power to the communication equipment at the time of power failure under the control of the rectifier control unit, a plurality of cells A management target battery setting unit which registers a management target battery including a and sets an inspection time; And a remote performance test unit which transmits a discharge test control signal to the rectifier control unit at the check time, wherein the remote performance test unit discharge tests and notifies test data for the plurality of cells, respectively, The remote performance test unit may analyze the test data to determine whether a defective cell exists, and alert an operator to cope with the presence of the defective cell.

The remote performance test unit may determine whether the defective cell exists and transmit a charge control signal for recharging the plurality of cells to the rectifier control unit if there is no defective cell.

The battery regular check system may further include an inquiry unit for supporting the remote state tester to inquire battery state information stored in a database according to the discharge test result through a user interface.

According to the method and system for regularly checking the battery according to the present invention, through the control unit of the rectifier used in the communication facility, the battery can be regularly discharged, recharged, and activated to improve the battery performance, and analyze and operate the discharge test data. By monitoring the battery discharge remotely at the center and alerting the user to start and recover immediately when an abnormality occurs, it is possible to prevent a large accident that the power supply to the communication facility is interrupted due to poor performance or failure during battery operation.

1 is a view for explaining a communication environment in which the battery regular check system according to an embodiment of the present invention is used.
2 is a view for explaining a battery regular check system according to an embodiment of the present invention.
3 is a flowchart illustrating an operation of a battery periodic inspection system according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

1 is a view for explaining a communication system 100 in which a battery regular inspection system according to an embodiment of the present invention is used.

As shown in FIG. 1, the communication system 100 includes communication facilities 130 such as branch offices and base stations distributed in various places, and communicates with communication facilities 130 through a network such as WCDMA, WiFi, WiBro, and wired Internet. It includes an operation center that communicates to monitor and manage the failure status of the operation equipment for the Internet or mobile communication. User terminals such as a mobile terminal such as a smartphone, a desktop PC, a notebook PC, and an IPTV may be connected to the communication facilities 130 to receive mobile communication or Internet service. In the operation center can receive alarm information according to the failure state from many communication facilities 130, the equipment maintenance personnel of the operation center is ready for dispatch immediately for repair or replacement of the corresponding equipment with a failure.

In particular, the communication facilities 130 may drive the communication equipment 131, such as L2 equipment, L3 equipment, switches, controllers to support the mobile communication or Internet services as described above, the rectifier 132 is the communication facilities 130 Supplies stable power with constant voltage maintained. The rectifier 132 is rectified by the power of a power company, such as KEPCO under the control of the control unit, and supplies stable power to the communication facilities 130, and in case of unexpected power failure such as typhoon, heavy rain, and traffic congestion, The reserve power source 133 may be used to supply power to the communication facilities 130.

In the present invention, the control unit (included in the rectifier) of the rectifier 130 used in the communication facility 130 can improve the battery performance by regularly discharge and recharge the battery, and analyze the discharge test data to the operation center In addition, by monitoring the battery discharge remotely and alarming to recover immediately when an abnormality occurs, it is possible to prevent the large-scale accidents in which the power supply to the communication facility is interrupted due to poor performance and failure during battery operation.

The battery regular inspection system according to an embodiment of the present invention, which may be provided in an operation center, registers a battery installed in the communication facility 130, which is a storage battery for management, which is distributed and distributed in various places, and checks the inspection time in advance as the minimum time. Discharge test is performed through the control unit of the rectifier 132 when the set time is checked and the presence or absence of a defective cell is detected according to the discharge test data at this time, and an expert is dispatched to replace or have no defective cell. In order to improve the performance by activating the cells of the battery.

Here, a storage battery installed in the communication facility 130 as a storage battery for the regular inspection of the storage battery will be described as an example. However, the present invention is not limited thereto. The battery regular check operation method of the present invention may be similarly applied to other battery to be managed of other manned or unmanned equipment required.

Hereinafter, an operation of the periodic inspection system 200 according to an embodiment of the present invention will be described in more detail with reference to the storage batteries installed in the communication facility 130 as storage batteries for management of periodic inspection operations.

2 is a view for explaining a battery periodic inspection system 200 according to an embodiment of the present invention.

2, the battery regular check system 200 according to an embodiment of the present invention, the control unit 210, the database 211, the user interface 220, the remote performance test unit 230, the inquiry unit ( 240, and a storage battery setting unit 250. The battery periodic inspection system 200 may further include means for supporting wired and wireless communication with a device connected through the network 120. The components of the battery periodic inspection system 200 may be hardware, software, or the like. It can be implemented in combination.

The control unit 210 is responsible for the overall control of the components of the battery regular check system 200, the database 211, the setting, registration performed by the remote performance test unit 230, and the management battery set unit 250 to manage Information such as, changes, or test data and other work results are stored. The inquiry unit 240 supports to search the above information stored in the database 211 through the user interface 220. The user interface 220 includes a display device, key input means, and the like, for connecting to the periodic inspection system 200.

The management target battery setting unit 250 is installed in the communication facility 130 to supply the preliminary power to the communication equipment at the time of power failure under the control of the control unit of the rectifier 132, and registers the management target battery including a plurality of cells Set up an inspection time (for example, a predetermined time of March, a few days in September, etc.). Information registered and set at this time is recorded and managed in the database 211. A storage battery is a rechargeable secondary battery, which is composed of a plurality of cells (for example, 24 volts) outputting a small voltage (for example, 2 volts), and the plurality of cells are connected in series to provide a constant output power source ( For example, 48 volts).

The remote performance test unit 230 transmits a discharge test control signal to the rectifier 132 control unit at the check time set as described above, and accordingly, the rectifier 132 control unit discharges and tests the plurality of cells of the battery, respectively. As the data (for example, the load current during discharge or the discharge voltage) is notified, the remote performance test unit 230 analyzes the notified test data to determine the presence of a defective cell, and the operator in the presence of the defective cell. The user interface 220 may alert the user to cope with the problem. Test data, alarm information, and the like are recorded and managed in the database 211.

In addition, the remote performance test unit 230 may determine that the defective cells of the battery to be managed, and if there are no defective cells, may transmit the charge control signal to the control unit of the rectifier 132 to allow the cells of the battery to be managed to be recharged. .

The inquiry unit 240 may query the battery state information such as the discharge test data stored and managed in the database 211 through the user interface 220 and the alarm information generated by the remote performance test unit 230 accordingly. Support. For example, the operator can use the battery status information as battery status, battery time, inspection time, discharge test results (normal / bad), discharge test data (data can be viewed for each defective cell), alarm action, and whether a defective cell is replaced. And the like can be checked and monitored through the display means of the user interface 220.

Hereinafter, the operation of the battery periodic inspection system 200 according to an embodiment of the present invention will be described in more detail with reference to the flowchart of FIG. 3.

First, the administrator of the operation center or the like executes an application program for supporting regular checks of the battery through the user interface 220, and registers the battery to be managed on a predetermined display screen and inputs the corresponding check time, thereby managing the battery to be managed. 250 registers and manages the input management target battery and the corresponding inspection time in the database 211 (S10). The battery to be managed is installed in communication facilities 130 such as branch offices and base stations that are distributed and distributed in several places (for example, thousands), and reserves power to the corresponding communication equipment in case of power failure under the control of the rectifier 132 control unit. In the database 211, the installation position of each battery to be managed, the inspection time, the discharge test results (normal / bad), the discharge test data (data for each cell), the alarm action, whether the replacement of defective cells And the like can be managed.

At this time, the inspection time for the management target battery, etc. can be added, modified, deleted, etc. at any time. Afterwards, it can be operated so that regular checks are made automatically in accordance with the corresponding check time of each management target storage battery (S20). For example, the inspection time of each battery to be managed may be set to a predetermined time (for example, 01:40 to 02:10) of several days in March and September, which is predetermined as the minimum time, for example. By selecting a time without great inconvenience in communication can be properly registered for each battery to be managed.

 When the check time comes (S30), the remote performance test unit 230 transmits a discharge test control signal to the rectifier 132 control unit, whereby the rectifier 132 control unit discharges each of a plurality of cells of the storage battery. As the test is performed and the test data (for example, the load current during discharge or the discharge voltage) is notified, the remote performance test unit 230 analyzes the reported test data to determine whether or not there is a bad cell. If present, the operator may alert through the user interface 220 or the like (S40). Test data, alarm information, and the like are recorded and managed in the database 211.

A storage battery is a rechargeable secondary battery, which is composed of a plurality of cells (for example, 24 volts) outputting a small voltage (for example, 2 volts), and the plurality of cells are connected in series to provide a constant output power source ( For example, 48 volts). The rectifier 132 control unit starts the automatic discharge program in accordance with the discharge test control signal, and discharge test data (data for each cell), for example, a load current during discharge, for each of a plurality of cells of the battery. The discharge voltage may be checked and notified to the remote performance tester 230.

The rectifier 132 normally supplies an output voltage of 48 volts or more, but the control unit lowers the output voltage to 47 volts during the discharge test, so that the load current during discharge or discharge voltage (voltage after discharge) for each cell under load connection. Equal discharge test data can be checked.

Accordingly, the remote performance test unit 230 may analyze the reported test data and determine that a defective cell exists when the load current during discharge of each cell, or the discharge voltage (voltage after discharge) or the like is less than or equal to a threshold ( S50). In the presence of a defective cell, the administrator can alert the display means such as LED, LCD, etc. of the user interface 220 so that the operator can respond, and the operator or the administrator dispatches a specialist to the installation location to cover the entire cell or battery. It can cope with the mating (S60).

The remote performance test unit 230 may determine whether a defective cell exists in the battery to be managed, and if there is no defective cell, may transmit a charge control signal to the rectifier 132 control unit, whereby the rectifier 132 control unit may charge control. It can be activated by recharging the cells of the battery by starting the automatic charging program according to the signal.

The inquiry unit 240 may query the battery state information such as the discharge test data stored and managed in the database 211 through the user interface 220 and the alarm information generated by the remote performance test unit 230 accordingly. Support. For example, the operator can use the battery status information as battery status, inspection time, discharge test results (normal / bad), discharge test data (data can be viewed for each bad cell), active charge, alarm action, Whether or not a defective cell is replaced may be checked and monitored through the display means of the user interface 220.

As such, the battery can be improved by regularly discharging and recharging the battery through the control unit of the rectifier for all the managed batteries installed in the communication facility, and analyzing the discharge test data remotely from the operation center. By monitoring the discharge of the battery and alerting it so that it can be repaired immediately when an abnormality occurs, it is possible to prevent the large-scale accidents in which the power supply to the communication facility is interrupted due to poor performance and failure during the operation of the battery.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

Communication Equipment (131)
Rectifier (132)
Storage battery (133)
Storage Battery Regular Inspection System (200)
Control unit 210
Database (211)
User interface (220)
Remote Performance Test Unit 230
Views 240
Managed storage battery setting unit 250

Claims (7)

In the periodic inspection system, the periodic inspection method of the battery for regularly checking the battery through the network,
Installed in a communication facility and supplying preliminary power to the communication equipment in the event of a power failure under the control of a rectifier control unit, registering a management target battery including a plurality of cells and setting an inspection time;
Transmitting a discharge test control signal to the rectifier control unit at the check time;
Discharging each of the plurality of cells in the rectifier control unit and notifying the periodic inspection system of test data;
Analyzing the test data to determine whether a defective cell exists; And
Alerting an operator to cope with the presence of the defective cell
Storage battery regular check method comprising a. The method of claim 1,
And the test data includes a load current during discharge or a discharge voltage. The method of claim 1,
Transmitting a charge control signal for recharging the plurality of cells to the rectifier control unit if there are no defective cells after determining whether the defective cells exist.
Battery regular check method, characterized in that it further comprises. The method of claim 1,
The inspection time is a regular check method of the battery, characterized in that it comprises a predetermined time of the year. In the battery regular inspection system for regularly checking the battery through the network,
A management target battery setting unit installed in a communication facility and supplying preliminary power to the communication equipment in case of power failure under the control of a rectifier control unit, registering a management target battery including a plurality of cells and setting an inspection time; And
A remote performance test unit for transmitting a discharge test control signal to the rectifier control unit at the check time;
The remote performance test unit discharge rectifier control unit for each of the plurality of cells and notify the test data, the remote performance test unit analyzes the test data to determine the presence of a defective cell, Battery regular check system, characterized in that the alarm to alert the operator when present. The method of claim 5,
And the remote performance test unit transmits a charge control signal for recharging the plurality of cells to the rectifier control unit if there are no defective cells after determining whether the defective cells exist. The method of claim 5,
An inquiry unit supporting the remote performance test unit to inquire battery state information stored in a database according to the discharge test result through a user interface
Battery regular check system, characterized in that it further comprises.

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