KR200310487Y1 - Uninterruptible power supplying circuit - Google Patents

Abstract

A plurality of battery chargers 21 to 26 connected to the commercial AC power source 10 and the commercial AC power source 10 for converting the power supplied from the commercial AC power source 10 into the DC power source; A plurality of batteries 31 to 36 connected in parallel to the battery chargers 21 to 26 of the battery, a voltage detector 50 for detecting a voltage level of the commercial AC power source 10, and the voltage The control unit 60 determines whether the power supply of the commercial AC power supply 10 is stopped by using the signal input from the detection unit 50 and accordingly outputs the switching control signal, and the switching control signal from the control unit 60 When turned on, the switching element 70 to turn off the power of the batteries 31 to 36 and the power input through the switching element 70 is prevented from being excessively applied to the power supply 90. Transient current room The branch unit 80 and the AC power input from the commercial AC power supply 10 described above, or the power of the batteries 31 to 36 input from the transient protection unit 80 described above are converted to DC power to display the electronic device (not shown). Power supply 90 for supplying the

After supplying the power supplied from the commercial AC power to a plurality of batteries after detecting the supply of the commercial AC power is stopped so that the power supply is maintained by continuously supplying power from the battery, Provide a power supply circuit for maintaining a power supply.

Description

Uninterruptible power supplying circuit

The present invention relates to the field of power circuits, and more specifically, to charge the power supplied from the commercial AC power in a plurality of batteries (battery) after the supply of the commercial AC power is detected and the above described The present invention relates to a power supply holding power supply circuit which maintains a supply of power by continuously supplying power from a battery.

In general, in order to operate an electronic device operated by a direct current power source, a power supply circuit for converting and supplying an alternating current source to a direct current power source is necessary.

The conventional power supply circuit includes a commercial AC power supply, which is usually supplied at 110V or 220V, and a power supply for converting and outputting the commercial AC power to DC power.

However, in the conventional power supply circuit, when the power supply is interrupted from the commercial AC power supply, the supply of power to the electronic device is interrupted and the operation of the electronic device is stopped, thereby ruining the work performed by the electronic device. There was this.

The object of the present invention is to solve such a conventional problem, and after detecting the supply of the commercial AC power is stopped after charging the power supplied from the commercial AC power to a plurality of batteries, the battery The present invention provides a power supply holding power supply circuit which maintains a supply of power by continuously supplying power from the power supply.

1 is a configuration diagram of a power supply holding circuit according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: commercial AC power source 21 ~ 26: battery charger

31 ~ 36: Battery 41, 42: Fuse

50: voltage detector 60: controller

70: switching element 80: transient protection unit

90: power supply R1, R2: voltage distribution resistor pair

DETAILED DESCRIPTION Hereinafter, the most preferred embodiments 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. . Other objects, features, and operational advantages, including the purpose, operation, and effect of this design, will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred embodiment from among the various possible examples to help those skilled in the art to understand, the technical spirit of the present invention is not necessarily limited or limited only by this embodiment In addition, various changes, additions and changes are possible within the scope without departing from the technical spirit of the present invention, as well as other embodiments that are equally clear.

As shown in FIG. 1, the configuration of a power supply holding power circuit according to an embodiment of the present invention is connected to a commercial AC power source 10 and the commercial AC power source 10 described above. A plurality of battery chargers 21 to 26 and a plurality of batteries 31 to 36 connected in parallel to the plurality of battery chargers 21 to 26, respectively, for converting the power supplied from 10 to a DC power source. And whether the power supply of the commercial AC power supply 10 is stopped by using the voltage detector 50 for detecting the voltage magnitude of the commercial AC power supply 10 and the signal input from the voltage detection device 50. The control unit 60 for determining and outputting the switching control signal accordingly, and the switching element 70 is turned on when the switching control signal is input from the control unit 60 so that the power of the battery (31 ~ 36) is discharged And the switching element 70 described above. Transient current prevention unit 80 for preventing excessive power input from being applied to the power supply 90, AC power input from the commercial AC power 10 or the above transient protection unit 80 It includes a power supply 90 for converting the power of the battery (31 ~ 36) input from the power supply to the electronic device (not shown) by converting the power to DC power.

The transient protection unit 80 passes through the reverse electromotive force prevention diodes D1, D2, D3, and D4, the voltage distribution resistor pairs R1 and R2, and the voltage distribution resistor pairs R1 and R2. A capacitor C1 for charging an input voltage, a transistor TR1 for outputting a voltage input to the capacitor C1 through the voltage-sharing resistor pairs R1 and R2, and the switching element Relay elements L1 and SW1 for passing power input from 70 are included.

It is more preferable to provide the overcurrent protection fuses 41 and 42 at the output terminals of the batteries 31 to 36.

The operation of the power supply holding circuit according to the embodiment of the present invention by the above configuration is as follows.

When the commercial AC power source 10 is applied to the power supply 90, the power supply converts the AC power source to the DC power source and outputs the electronic device (not shown) to operate the electronic device.

At the same time, the commercial AC power source 10 is applied to a plurality of battery chargers 21 to 26 and converted into DC power by the battery chargers 21 to 26, and then to the battery chargers 21 to 26. The batteries 31 to 36 are charged by being applied to a plurality of batteries 31 to 36 that are connected in parallel, respectively.

On the other hand, when the power supply of the commercial AC power source 10 is stopped, the voltage detector 50 detects this and informs the controller 60, and the controller 60 operates the switching element 70 to operate the battery. The power charged in the 31 to 36 is applied to the transient protection unit 80 via the fuses 41 and 42.

When power is applied to the transient protection unit 80 as described above, a current flows through the coil L1 constituting the relay element of the transient protection unit 80 to generate a magnetic force, thereby forming a relay element. The switch SW1 is turned on so that the power output from the batteries 31 to 36 is supplied to the power supply 90.

In this case, a temporary voltage drop occurs for a time required for the relay element to operate. When a power is applied to the transient protection unit 80, a voltage appears in the voltage distribution resistor pairs R1 and R2. TR1 is turned on to compensate for the power output from the batteries 31 to 36 to be supplied to the power supply 90. The voltage appearing in the voltage distribution resistor pairs R1 and R2 is charged in the capacitor C1 so that the transistor TR1 is continuously operated.

Thus, even when the power supply of the commercial AC power supply 10 is interrupted by supplying power to the power supply 90 from the batteries 31 to 36, the electronic device (not shown) continues to operate by the power supply 90. To be possible.

As described in the above embodiments, the present invention is configured to detect when the supply of the commercial AC power is stopped after charging the power supplied from the commercial AC power to a plurality of batteries, and the power is continuously supplied from the battery. By supplying to the power supply has the effect of maintaining the supply.

Claims (2)

A plurality of battery chargers 21 to 26 connected to the commercial AC power source 10 and the commercial AC power source 10 for converting the power supplied from the commercial AC power source 10 into the DC power source; A plurality of batteries 31 to 36 connected to the plurality of battery chargers 21 to 26 in parallel, respectively; A voltage detector 50 for detecting a voltage level of the commercial AC power supply 10; A control unit 60 which determines whether the supply of the commercial AC power supply 10 is stopped by using the signal input from the voltage detector 50 and outputs a switching control signal accordingly; A switching element 70 which is turned on when a switching control signal is input from the control unit 60 so that power of the batteries 31 to 36 is released; A transient current prevention unit 80 for preventing the power inputted through the switching element 70 from being excessively applied to the power supply 90; The AC power input from the commercial AC power source 10 or the power of the batteries 31 to 36 inputted from the transient current prevention unit 80 is converted into DC power and supplied to an electronic device (not shown). A power supply holding power supply circuit, characterized in that it comprises a power supply (90). 2. The power supply holding circuit as claimed in claim 1, wherein an overcurrent protection fuse (41, 42) is provided at the output terminals of the batteries (31 to 36).