KR200301007Y1 - Uninterruptible power supply - Google Patents

Abstract

The present invention provides an uninterruptible power supply, comprising: a first uninterruptible power supply to which commercial power is applied; And a second uninterruptible power supply connected symmetrically with the first uninterruptible power supply and to which commercial power from a different power station is applied to commercial power applied to the first uninterruptible power supply. According to the present invention, since the battery having a limited life is not included in the uninterruptible power supply, maintenance costs can be reduced, and the size and weight of the uninterruptible power supply can be reduced. In addition, by applying the commercial power of the different power station to the uninterruptible power supply device, even if one power station does not apply power to the load due to the power failure, the power of the other power station can be applied to the load, the load is stopped due to the power failure Can be prevented. Moreover, the uninterruptible power supply of the present invention includes a pair of uninterruptible power supplies (a first uninterruptible power supply and a second uninterruptible power supply), and even if one uninterruptible power supply fails, the other uninterruptible power supply Power can be applied from the load to the load.

Description

Uninterruptible Power Supply {UNINTERRUPTIBLE POWER SUPPLY}

The present invention relates to an uninterruptible power supply, and more particularly, to an uninterruptible power supply that can be used in a hybrid fiber and coaxial (HFC) network.

In general, an uninterruptible power supply is a device that supplies stable power without interruption to a load required even in an unstable state such as power failure, instantaneous voltage drop or overvoltage of a commercial power supply.

Such an uninterruptible power supply is classified into an offline method, an online method, and a line interactive method according to an operation method.

The offline method is a method of supplying commercial power directly to a load at the time of normal commercial power input and operating a converter only during a power failure, and is commonly used in a small capacity system such as a server.

The online method always drives chargers and converters, regardless of power input, to provide uninterruptible power to the system. This approach is particularly reliable because the load current is continually supplied by the converter, and this is almost the case for systems that require more than medium capacity.

The line interactive method is a charger function as a bridge rectification method through a diode in a converter module when a normal commercial power supply is input, and operates as a converter to supply output power during a power failure. There is a function.

However, since the conventional uninterruptible power supply of the above schemes use a battery having a limited lifetime, there is a problem in that regular maintenance is required and separate management is required.

In addition, the conventional uninterruptible power supply may be installed outdoors in order to apply power to a load (particularly, HFC network). Therefore, the conventional uninterruptible power supply device is not only bulky but also has a lot of weight. Therefore, when the uninterruptible power supply device is installed outdoors, a lot of space and effort are required.

In addition, the conventional uninterruptible power supply has a problem that frequently occurs because the charge / discharge circuit and the automatic switching function is complicated.

In order to solve the above problems, the present invention does not include a battery having a limited lifetime, the commercial power source of different power stations is applied to a pair of uninterruptible power supply unit power failure of any one power station or any one uninterruptible power supply unit When the power fails to apply the load to the load due to a failure, the remaining uninterruptible power supply in the standby state is to provide an uninterruptible power supply for applying the power to the load (for example, HFC network).

1 is a block diagram schematically showing an uninterruptible power supply device according to an embodiment of the present invention.

FIG. 2 is a block circuit diagram illustrating in detail the uninterruptible supply of one side of the uninterruptible power supply of FIG. 1. FIG.

* Description of the symbols for the main parts of the drawings *

10: uninterruptible power supply 11: first uninterruptible power supply

12 second uninterruptible power supply 13 load

21: earth leakage breaker 22: surge protection circuit

23: AC transformer 24: output control relay

25: protection fuse 26: automatic switching unit

261: DC power generator 262: output power detector

263: output power control unit

In order to achieve the above object, the present invention is an uninterruptible power supply, a first uninterruptible power supply unit to which commercial power is applied; And a second uninterruptible power supply symmetrically connected to the first uninterruptible power supply, and to which commercial power from a different power station is applied to commercial power applied to the first uninterruptible power supply.

In addition, in the uninterruptible power supply, the first and second uninterruptible power supply may include a surge protection circuit for converting an instantaneous overvoltage generated at an input side of the uninterruptible power supply into heat to dissipate it; An AC transformer converting commercial power input into the uninterruptible power supply into a predetermined voltage; An output control relay for applying power output from the AC transformer to a load; And an automatic switching unit for monitoring the power applied to the load to control the output control relay.

In addition, in the uninterruptible power supply, when the first uninterruptible power supply applies power to the load, and the second uninterruptible power supply does not apply power to the load, the second uninterruptible power supply immediately. The power supply is characterized in being in a standby state for applying power to the load.

In addition, in the uninterruptible power supply, the automatic switching unit includes a direct current power generation unit converting the direct current power using the output power of the AC transformer; An output power detector for monitoring a power applied to a load and outputting a signal; And an output power control unit which receives the signal output from the output power detection unit and controls the output control relay.

In addition, in the uninterruptible power supply, the uninterruptible power supply may include: an earth leakage circuit breaker for blocking a short circuit by turning on / off power input to the uninterruptible power supply; And a protection fuse for preventing a failure due to an abnormal operation of the uninterruptible power supply.

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

1 is a block diagram schematically illustrating an uninterruptible power supply device according to an embodiment of the present invention.

In FIG. 1, the uninterruptible power supply 10 includes a pair of uninterruptible power supplies (a first uninterruptible power supply 11 and a second uninterruptible power supply 12), and a first uninterruptible power supply 11. And the second uninterruptible power supply 12 have the same configuration and are symmetrically connected as shown in FIG. 1.

In addition, commercial power sources of different power stations are applied to the first uninterruptible power supply 11 and the second uninterruptible power supply 12. For example, as shown in FIG. 1, commercial power of A power station is applied to the first uninterruptible power supply 11, and commercial power of B power station is applied to the second uninterruptible power supply 12.

Furthermore, the uninterruptible power supply, which operates first of the first uninterruptible power supply 11 and the second uninterruptible power supply 12, applies power to the load 13, and the remaining supply is in a standby state. For example, when the first uninterruptible power supply 11 is operated before the second uninterruptible power supply 12, the first uninterruptible power supply 11 applies power to the load 13 and the second uninterruptible power supply 12 is in a standby state that allows the second uninterruptible power supply 12 to apply power to the load immediately when the first uninterruptible power supply 11 does not apply power to the load.

With the above configuration, when the uninterruptible power supply that is applying power to the load 13 fails to apply power to the load 13 due to a failure or power failure, the remaining uninterruptible power supply in the standby state operates. Power is applied to the load 13. For example, when the first uninterruptible power supply 11 applying power to the load 13 fails to apply power to the load 13 due to a failure or power failure, the second uninterruptible power supply in a standby state. 12 operates to apply power to the load 13.

This will be described in more detail below with reference to FIG. 2.

FIG. 2 is a circuit diagram illustrating in detail the uninterruptible power supply units 11 and 12 of one side of the uninterruptible power supply device 10 of FIG. 1.

In FIG. 2, the uninterruptible power supply units 11 and 12 include an earth leakage breaker 21, a surge protection circuit 22, an AC transformer 23, an output control relay 24, a protection fuse 25, and an automatic switching unit ( 26). In addition, the automatic switching unit 26 includes a DC power generator 261, an output power detector 262, and an output power controller 263.

The earth leakage breaker 21 functions to turn off / on the power input to the uninterruptible power supply units 11 and 12 to cut off the short circuit, and the surge protection circuit 22 is connected to the AC input side of the uninterruptible power supply units 11 and 12. At the moment of occurrence, the overvoltage is converted into heat and extinguished

The AC transformer 23 converts the commercial power input to the uninterruptible power supply units 11 and 12 into AC of a predetermined voltage, for example, 60V, and the output control relay 24 is turned on when operating normally and the power is loaded ( 1, the power supply is turned off in the standby state, and power is not applied to the load (see FIG. 1).

The protection fuse 25 functions to protect the uninterruptible power supply units 11 and 12 when the uninterruptible power supply units 11 and 12 operate abnormally and a current higher than a predetermined current flows.

The automatic switching unit 26 controls the output control relay 24 by monitoring the power applied to the load (see Fig. 1; 13).

The DC power generator 261 converts the output power of the AC transformer 23 into DC power for driving the output power detector 262 and the output power controller 263. The output power detector 262 monitors the power applied to the load (see FIG. 1; 13) and detects when the output power falls below a predetermined voltage, and transmits a signal to the output power controller 263. Upon receiving this signal, the output power control unit 263 turns off the output control relay 24 in the on state so that power is not applied to the load (see FIG. 1; 13).

For example, when the first uninterruptible power supply 11 applying power to the load 13 does not apply power to the load (see FIG. 1; 13) due to a failure or power failure, the output power detector 262. ) Detects this to stop the first uninterruptible power supply 11, and the output power detector 262 of the second uninterruptible power supply 12 in the standby state also detects the second uninterruptible power supply 12. Operation to apply power to the load 13.

Therefore, even if the uninterruptible power supply to which the power is applied does not operate, the uninterruptible power supply in the standby state can operate immediately to apply power to the load.

In the above embodiment, the uninterruptible power supply 10 includes a first uninterruptible power supply 11 and a second uninterruptible power supply 12 to which commercial power from different power stations is applied, and includes a first uninterruptible power supply 11 and The second uninterruptible power supply 12 is symmetrically connected, but is not limited thereto. For example, a power source to which commercial power is applied to the first and second uninterruptible power supplies 11 and 12 and a commercial power source of another power station include a third uninterruptible power supply, so that the first and second uninterruptible power supply due to a failure or power failure. When the power supplies 11 and 12 cannot apply power to the load, the third uninterruptible power supply in the standby state may apply power to the load.

As described above, according to the present invention, since the battery having a limited life is not included in the uninterruptible power supply, maintenance costs can be reduced, and the size and weight of the uninterruptible power supply can be reduced. In addition, by applying the commercial power of the different power station to the uninterruptible power supply device, even if one power station does not apply the power to the load due to the power failure, it is possible to immediately apply the power of the other power station to the load, Stoppage can be prevented. Moreover, the uninterruptible power supply of the present invention includes a pair of uninterruptible power supplies (a first uninterruptible power supply and a second uninterruptible power supply), and even if one uninterruptible power supply fails, the other uninterruptible power supply Power can be applied from the load to the load.

The present invention has been shown and described with respect to certain preferred embodiments. However, the present invention is not limited to the above-described embodiment, and those skilled in the art to which the present invention belongs, variously without departing from the spirit of the technical idea of the present invention described in the utility model registration claims below It will be possible to carry out the change.

Claims (5)

Uninterruptible power supply, A first uninterruptible power supply to which commercial power is applied; And And a second uninterruptible power supply symmetrically connected to the first uninterruptible power supply and to which commercial power from a different power station is applied to commercial power applied to the first uninterruptible power supply. The method of claim 1, wherein the first and second uninterruptible power supply unit A surge protection circuit for converting an instantaneous overvoltage generated at an input side of the uninterruptible power supply into heat to dissipate it; An AC transformer converting commercial power input into the uninterruptible power supply into a predetermined voltage; An output control relay for applying power output from the AC transformer to a load; And And an automatic switching unit for monitoring the power applied to the load and controlling the output control relay. The uninterruptible power supply of claim 1, wherein the first uninterruptible power supply unit applies power to a load, and the second uninterruptible power supply unit immediately supplies the power to the second uninterruptible power supply unit. Uninterruptible power supply, characterized in that the standby state for applying power to the load. The method of claim 2, wherein the automatic switching unit A DC power generating unit converting the DC power into the DC power using the output power of the AC transformer; An output power detector for monitoring a power applied to a load and outputting a signal; And And an output power control unit which receives the signal output from the output power detection unit and controls the output control relay. The uninterruptible power supply of claim 2, wherein An earth leakage breaker for blocking an electric leakage by turning on / off power input to the uninterruptible power supply; And Uninterruptible power supply, characterized in that it further comprises a protective fuse for preventing a failure due to the abnormal operation of the uninterruptible power supply.