KR101110311B1 - parallel operating panel for multi-circuit of DC chargeable power supply - Google Patents

Abstract

The present invention relates to a parallel operation panel for multiplexing the uninterruptible charging power supply for DC. Specifically, the housing 110 is provided separately from the plurality of DC uninterruptible charging power supplies, and the plurality of input terminals 121a and 121b installed at one side of the housing and connected to the plurality of DC uninterruptible charging power supplies, respectively. 122a and 122b, a plurality of input wire breakers 131 and 132 connected to the plurality of input terminals and installed in the enclosure so as to cut off power supplied through the respective input terminals, and installed on the other side of the enclosure, Output terminals 141a and 141b for connecting the power supply of the input terminal to the load, and are installed between the respective input circuit breakers and the output terminal to transfer the DC power input from the input terminal to the output side in the forward direction and to block the input side in the reverse direction. Power diodes 161a and 162a and 161b and 162b. According to such a configuration, it is possible to increase the back-up time during a power failure and eliminate the need for a separate switching function and make it convenient and safe to check, test and repair the DC uninterruptible charging power supply.

Description

Parallel operating panel for multi-circuit of DC chargeable power supply

The present invention relates to a parallel operation panel for multiplexing an uninterruptible charging power supply for DC, and more particularly, a separate switching function is unnecessary while increasing the back-up time during a power failure, and an uninterruptible charging power supply for DC A parallel operating panel for the multiplexing of an uninterruptible charging power supply for DC, which makes the device convenient, safe to inspect, test and repair.

Recently, various semiconductor devices have been further refined due to the development of high-tech industries, and thus, a lot of instability factors have occurred.

To solve this problem, an uninterruptible power supply (charger or UPS: Uninteruptible Power Supply) is used. The AC uninterruptible power supply receives power and generator power, that is, alternating current (AC) power and changes the voltage and frequency of the input power momentarily. It is a device to supply stable power to the load at all times regardless of power outages and various power failures.

The AC uninterruptible power supply includes internal devices such as an inverter, a rectifier, and a storage battery. In normal operation, a forward conversion unit and a charger unit receiving commercial or backup power convert a AC into a DC to charge a storage battery, and at the same time, a DC conversion unit. It supplies power and converts it into stable AC power of constant voltage and constant frequency and supplies it to load equipment.

In case of power failure, when the power is outage, DC power is supplied to the reverse converter from the battery which was normally charged by the charger part to the non-sequential unit, and supplies high-quality AC power to the load equipment without any trouble during the discharge time.

When the used power, which was cut off during power failure recovery, is supplied to the forward conversion unit and the charging unit again, the discharge of the battery stops automatically, and the commercial power supplies the load to the load through the reverse conversion unit without any interruption, and the charger unit discharges the discharged capacitor. Recharge.

However, there is a case that the communication or control system that should be operated at all times is stopped due to an error in the internal device such as an inverter, rectifier or capacitor, or an interruption of power supply to the load during various checks and tests such as charge and discharge tests. There was a problem that caused a large social crowd such as the suspension of financial transactions.

In order to solve this problem, Korean Patent Laid-Open Publication No. 2006-0065181 discloses a UPS portion that supplies power while charging a battery, a bypass line that supplies power when an internal component of the UPS, such as an inverter, fails, Consists of a stackable switch that changes the connection status to the UPS section or bypass line, and connects the power supply line from each UPS and the bypass line divided into each UPS, but can be connected or disconnected manually. In addition, a circuit configuration is disclosed in which each supply line is connected to the front end of the connection part to be manually connected or disconnected so that an uninterrupted switching can be performed manually in case of a UPS failure.

However, the AC uninterruptible power supply is difficult to be applied to the multiplexing of the DC uninterruptible charging power supply as it is, and the development of a device for this is required.

And in case of using DC uninterruptible charging power supply as a power source, it is necessary to periodically conduct various inspections and tests such as charging and discharging test to increase the battery life and gain economically. In particular, since the power failure accidents occur frequently during the discharge test, it is not only able to increase the back-up time and periodically satisfy the need for convenient and safe charging and discharging tests. There was a problem such as the need for a transfer function.

Accordingly, the present invention was made to meet the above development demands and to solve the above problems, and an object of the present invention is to increase the back-up time during a power failure, and to perform a separate switching function and to perform an uninterruptible charging for DC. It is to provide a parallel operation panel for the multiplexing of the uninterruptible charging power supply for DC, which makes it easy and safe to check, test and repair the power supply.

Parallel operation panel for multiplexing the uninterruptible charging power supply for DC according to the present invention, the housing is provided separately from a plurality of uninterruptible charging power supply for DC, and the uninterruptible charging power supply for DC installed on one side of the enclosure A plurality of input terminals respectively connected to the plurality of input terminals, a plurality of input wire breakers connected to the plurality of input terminals to cut off the power supplied through the respective input terminals, and installed on the other side of the enclosure and the input terminals An output terminal for connecting a power supply to the load, and a power diode installed between each of the input wire breakers and the output terminal to transfer the DC power input from the input terminal to the output side in the forward direction and to block the input side in the reverse direction. .

Each input terminal is provided with an outlet to which a test device is connected to check or test the uninterruptible charging power supply for DC.

An output wire breaker is installed in the enclosure to be connected to the output terminal to cut off power output to the load through the output terminal.

The parallel operation panel for multiplexing the uninterruptible charging power supply for DC according to the present invention has a housing separately from the uninterruptible charging power supply for DC to facilitate replacement of the uninterruptible charging power supply for DC and the uninterruptible charging power supply for DC By easily connecting the load for the discharge test of the capacitor in the capacitor, it is possible to conveniently check, test and repair the DC uninterruptible charging power supply without the need for a separate switching function while increasing the back-up time in case of power failure. It's effective.

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

1 is a block diagram showing a parallel operation panel for multiplexing the uninterruptible charging power supply for DC according to the first embodiment of the present invention, two DC uninterruptible charging power supply (10, 20) is connected to the input side It is a block diagram which shows, as an example, the parallel operation board which the load 30 of is connected to the output side. As illustrated, the parallel operation panel 100 to which the present invention is applied is provided with a housing 110 separately from the DC uninterruptible charging power supply devices 10 and 20, and one side of the housing 110 has the DC uninterruptible power supply. First and second input terminals 121a and 121b and 122a and 122b connected to the charging power supply devices 10 and 20 are installed, respectively, and the first and second input terminals 1 are provided at one side of the enclosure 110. First and second input wire breakers 131 and 132 connected to 121a and 121b and 122a and 122b to cut off power supplied through the respective input terminals 121a and 121b and 122a and 122b. No fuse breaker is installed, and the output terminal 141a, which is connected to the load 30 by adding the power of the first and second input terminals 121a, 121b, 122a, 122b to the other side of the enclosure 110, 141b is installed, and an output wiring breaker 151 connected to the output terminals 141a and 141b on the other side of the enclosure 110 to cut off power output to the load through the output terminals 141a and 141b.And a DC power source input from the first and second input terminals 121a and 121b and 122a and 122b between the first and second input circuit breakers 131 and 132 and the output circuit breaker 151. The power diodes (161a, 162a) for transmitting the output in the forward direction and the input side in the reverse direction is installed.

The enclosure 110 is grounded through the ground terminal 111.

Outlets 171 to which first and second input terminals 121a and 121b and 122a and 122b are electrically connected to test equipment (not shown) to inspect or test the DC uninterruptible charging power supply devices 10 and 20. 172 is provided.

The output side of the second input wire breaker 132 is connected to a wire between the first input wire breaker 131 and the output wire breaker 151.

The first and second input terminals 121a and 121b and 122a and 122b and the output terminals 141a and 141b may be detachably attached to the enclosure 110. As such, the configuration in which the input terminal and the output terminal are detachable facilitates the replacement of the DC uninterruptible charging power supplies 10 and 20 and the housing 110.

The first embodiment of the present invention uses the DC uninterruptible charging power supply of the common system, wherein the power diodes 161a and 162a of the first embodiment have first and second input terminals 121a and 121b. An example is provided in the-line to transfer the DC power input at 122a and 122b to the output side forward direction and to block the input side reverse direction.

On the other hand, the second embodiment of the present invention, as shown in Fig. 2 shows a case of using the uninterruptible charging power supply for DC of the common system. In the second embodiment, the power diodes 161b and 162b provided between the first and second input circuit breakers 131 and 132 and the output circuit breaker 151 have the first and second input terminals 121a. And 121b) 122a, 122b are provided on the + line so as to transfer the DC power inputted in the output side forward direction and cut it in the input side reverse direction. Since the rest of the configuration of the second embodiment is the same as that of the first embodiment, the same reference numerals as in the first embodiment will be given, and detailed description thereof will be omitted.

Figure 3 is a perspective view showing the appearance of a parallel operating panel 100 to which the present invention is applied. According to the parallel operation panel for multiplexing the uninterruptible charging power supply for DC according to the present invention configured as described above, by connecting the test equipment to the outlet (171, 172) of the capacitor in the DC uninterruptible charging power supply (10, 20) Easy to discharge test and easy connection of load, no need of separate switching function while increasing the back-up time during power failure, convenient and safe checking, testing and Make it repairable.

The parallel operation panel of the present invention is not limited to the above embodiment, but may be implemented in a configuration connected to a plurality of (three or more) uninterruptible charging power supplies for DC and a plurality of (one or more) loads.

1 is a block diagram showing a parallel operation panel for multiplexing the uninterruptible charging power supply for DC according to a first embodiment of the present invention;

2 is a block diagram showing a parallel operation panel for multiplexing the uninterruptible charging power supply for DC according to a second embodiment of the present invention;

Figure 3 is a perspective view showing the appearance of a parallel operating panel to which the present invention is applied.

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

100: parallel operation panel 110: enclosure

121a, 121b: first input terminal 122a, 122b: second input terminal

131: first input wiring breaker 132: second input wiring breaker.

141a, 141b: output terminal 151: output wiring breaker

161a, 162a, 161b, 162b: power diode

171, 172: outlet

Claims (3)

delete A housing connected to a plurality of uninterruptible charging power supplies for DC, a plurality of input terminals provided on one side of the enclosure and connected to the plurality of uninterruptible charging power supplies for DC, respectively, and connected to the plurality of input terminals, respectively. A plurality of input wire breakers installed in the enclosure to cut off power supplied through the terminal, an output terminal installed on the other side of the enclosure and connecting power supplied through the respective input terminals to a load as one output, Installed between each input circuit breaker and the output terminal includes a power diode for transmitting the DC power input from the input terminal in the forward direction of the output side, and cuts in the input side reverse direction, The enclosure is provided separately from the uninterruptible charging power supply for the plurality of DC, Each input terminal has a parallel operation panel for multiplexing the uninterruptible charging power supply for DC, characterized in that the outlet is connected to the test equipment to check or test the uninterruptible charging power supply for DC. The method according to claim 2, Parallel operation panel for multiplexing the uninterruptible charging power supply for DC, characterized in that the output wiring breaker is installed in the housing to be connected to the output terminal to cut off the power output to the load through the output terminal.

Images