JP3170373U - Emergency power supply and emergency power supply system - Google Patents

Abstract

An emergency power supply apparatus and an emergency power supply system that can contribute to information notification in the event of a power failure without consuming unnecessary power. An emergency power supply apparatus that supplies electric power to an electric device during a power failure of a commercial power source includes a storage battery that charges the power from the commercial power source, and a power failure determination unit that determines whether the commercial power source is energized or out of power. When a power failure is determined by the power failure determination unit 40, the power generation unit 30 that generates AC power from the output of the storage battery 20, and a power failure that outputs the AC power only when the power failure determination unit 40 determines that a power failure occurs Output terminal OUT2. [Selection] Figure 1

Description

  The present invention relates to an emergency power supply apparatus that assists power in an emergency when a commercial power supply fails, and an emergency power supply system using the emergency power supply apparatus.

  Conventionally, in an environment where electric equipment supplied with power from a commercial power source is used, emergency power supplies (Uninterruptible Power Supply: hereinafter referred to as UPS) A power supply device is used. In this case, at the time of a power failure of the commercial power supply, the emergency power supply device supplies power to the electrical equipment.

  However, although UPS and the like can automatically supply electric power to an electric device at the time of a power failure, conventionally, there is no device that turns on the lighting device when a power failure occurs at night. Thus, for example, Patent Document 1 discloses a technique of using a UPS to turn on a regular illuminator as an emergency by operating an auxiliary relay when an emergency occurs.

JP 2008-271766 A

  However, in the technique disclosed in Patent Document 1, since the regular illuminator is merely turned on for emergency even during a power failure, power is supplied even during energization other than during a power failure of the commercial power supply. Therefore, instead of a regular illuminator, for example, even if a device that wants to operate only during a power failure such as notification of information during a power failure is used, power is always supplied to the device, and wasteful power is consumed. There is a problem that it ends up.

  The present invention has been made in view of the above technical problems. According to some aspects of the present invention, it is possible to provide an emergency power supply device, an emergency power supply system, and the like that can contribute to information notification at the time of a power failure without consuming unnecessary power.

  (1) According to a first aspect of the present invention, an emergency power supply device that supplies electric power to a power source during a power failure of a commercial power source includes a storage battery that charges power from the commercial power source, and energization or power failure of the commercial power source. When the power outage determination unit determines that the power outage is determined by the power outage determination unit, the output power is generated only when the power outage determination unit determines the power outage from the output of the storage battery and the power outage determination unit. Output terminal during power failure.

  In this embodiment, AC power can be supplied to the outside only during a power failure through the output terminal during a power failure. Thus, for example, by connecting a notification device that performs information notification during a power failure to the output terminal during a power failure, it is possible to perform information notification during a power failure without consuming unnecessary power. Therefore, it is possible to provide an emergency power supply apparatus that contributes to information notification at the time of a power failure without consuming unnecessary power.

  (2) In the first aspect, the emergency power supply device according to the second aspect of the present invention is in a non-lighting state when determined to be energized by the power failure determination unit, and is determined as a power failure by the power failure determination unit. It includes a lighting section during power failure that is sometimes turned on.

  According to this aspect, the power failure lighting unit is provided, and when the commercial power supply is energized, it is turned off, and when the commercial power supply is turned off, it is turned on. Even so, sudden darkness can be resolved.

  (3) In the emergency power supply apparatus according to the third aspect of the present invention, in the second aspect, the lighting unit during a power failure is turned on using the power charged in the storage battery.

  According to this aspect, even if a power failure occurs at night or the like, the sudden darkness can be eliminated by providing a power failure lighting unit that is turned on using power stored in the storage battery even when the power of the commercial power supply is interrupted. Will be able to.

  (4) An emergency power supply apparatus according to a fourth aspect of the present invention includes an output switch circuit that switches between output and stop of the output power in any of the first to third aspects.

  According to this aspect, since the output switch circuit is provided and the output switch circuit is configured to switch the output or output of the output power from the output terminal at the time of power failure, it can be used according to the connection state of the equipment at the output terminal at the time of power failure. An emergency power supply can be provided.

  (5) According to a fifth aspect of the present invention, an emergency power supply system includes any one of the emergency power supply device described above and a notification device connected to the power failure output terminal. The output power is supplied via the power failure output terminal.

  According to this aspect, when the commercial power source is energized, the power of the commercial power source is supplied to the electrical equipment, and only when the commercial power source is out of power, the power is output from the output terminal during a power outage to the notification device that performs information notification at the time of the power outage Is supplied. This makes it possible to provide an emergency power supply system that contributes to information notification at the time of a power failure without consuming unnecessary power.

The block diagram of the structural example of the emergency power supply device in 1st Embodiment. The block diagram of the structural example of the emergency power supply device in 2nd Embodiment. The block diagram of the structural example of the emergency power supply device in 3rd Embodiment. The block diagram of the structural example of the emergency power supply device in 4th Embodiment. The block diagram of the structural example of the emergency power supply system using the emergency power supply device in 1st Embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Note that the embodiments described below do not unduly limit the contents of the present invention described in the scope of claims for utility model registration. Moreover, not all of the configurations described below are indispensable constituent requirements for solving the problems of the present invention.

1. Emergency Power Supply Device 1.1 First Embodiment FIG. 1 is a block diagram showing a configuration example of an emergency power supply device according to a first embodiment of the present invention.

  The emergency power supply device 100 includes an input terminal IN, an output terminal OUT1, and a power failure output terminal OUT2. The emergency power supply apparatus 100 is supplied with power from a commercial power supply via the input terminal IN. An electrical device is connected to the output terminal OUT1, and power is supplied to the electrical device via the output terminal OUT1 during energization and power failure. A notification device that performs information notification or the like at the time of a power failure is connected to the output terminal OUT2 at the time of a power failure, and the notification device is supplied with output power via the output terminal OUT2 at the time of a power failure only during a power failure.

  Such an emergency power supply apparatus 100 includes a charging circuit 10, a storage battery 20, a power generation unit 30, a power failure determination unit 40, and a power failure switching circuit 50.

  The charging circuit 10 performs control for charging the storage battery 20 with the power of the commercial power supply supplied via the input terminal IN. The storage battery 20 charges the power of the commercial power source by the charging control by the charging circuit 10.

  The power generation unit 30 generates AC power as output power from the output of the storage battery 20 by known DC / AC conversion at the time of a power failure of the commercial power source. The output of the power generation unit 30 is supplied to the power failure switching circuit 50 and the power failure output terminal OUT2.

  The power failure determination unit 40 determines energization or power failure of commercial power supplied via the input terminal IN. Moreover, if the power failure determination part 40 determines the power failure of a commercial power supply, the power generation part 30 will be started. And when the power failure determination part 40 determines the power failure of a commercial power source, the power generation part 30 produces | generates said alternating current power. When the power failure determination unit 40 determines that the commercial power supply is energized, the power generation unit 30 stops its function and outputs a DC voltage of 0V.

  When the commercial power supply is energized, the power failure switching circuit 50 supplies the commercial power supplied via the input terminal IN to the outside via the output terminal OUT1. Moreover, the switching circuit 50 at the time of a power failure supplies the alternating current power produced | generated by the power supply production | generation part 30 to the exterior via the output terminal OUT1, when the commercial power supply has a power failure.

  From the output terminal OUT2 at the time of a power failure, AC power generated by the power generator 30 at the time of a power failure of the commercial power supply is supplied to the outside as output power.

  In such an emergency power supply apparatus 100 according to the first embodiment, when the commercial power supply is energized, the power of the commercial power supply is supplied to the outside through the output terminal OUT1 as output power by the power failure switching circuit 50. . At this time, the storage battery 20 is charged with power from a commercial power source. In addition, a DC voltage of 0 V is output from the power failure output terminal OUT2, and the device connected to the power failure output terminal OUT2 is not substantially supplied with power.

  And if the power failure determination part 40 determines the power failure of a commercial power source, the power generation part 30 will be started and alternating current power will be produced | generated from the electric power charged by the storage battery 20. FIG. The AC power is supplied to the outside through the output terminal OUT1 by the switching circuit 50 at the time of power failure and also supplied to the outside through the output terminal OUT2 at the time of power failure.

  As described above, according to the first embodiment, AC power can be supplied to the outside only through a power failure output terminal OUT2 only during a power failure. Thus, for example, by connecting a notification device that performs information notification at the time of a power failure to the output terminal OUT2 at the time of a power failure, information notification at the time of a power failure can be performed without consuming unnecessary power. Therefore, it is possible to provide an emergency power supply apparatus that contributes to information notification at the time of a power failure without consuming unnecessary power.

  In addition, since power can always be supplied from the output terminal OUT1, the electric device connected to the output terminal OUT1 can be continuously operated even during a power failure.

  Such an emergency power supply apparatus 100 can be provided as a UPS or a backup power supply apparatus.

1.2 Second Embodiment FIG. 2 is a block diagram showing a configuration example of an emergency power supply device according to a second embodiment of the present invention. In FIG. 2, the same parts as those in FIG.

  Like the emergency power supply device 100, the emergency power supply device 100a includes an input terminal IN, an output terminal OUT1, and a power failure output terminal OUT2. Such an emergency power supply device 100a includes a charging circuit 10, a storage battery 20, a power generation unit 30, a power failure determination unit 40a, a power failure switching circuit 50, and a power failure illumination unit 60.

  The charging circuit 10 performs control for charging the storage battery 20 with the power of the commercial power supply supplied via the input terminal IN. The storage battery 20 charges the power of the commercial power source by the charging control by the charging circuit 10.

  The power generation unit 30 generates AC power as output power from the output of the storage battery 20 by known DC / AC conversion at the time of a power failure of the commercial power source. The output of the power generation unit 30 is supplied to the power failure switching circuit 50 and the power failure output terminal OUT2.

  The power failure determination unit 40a determines energization or power failure of the commercial power supplied via the input terminal IN. Moreover, the power failure determination part 40a will start the power supply production | generation part 30, if the power failure of a commercial power source is determined. And when the power failure determination part 40a determines the power failure of a commercial power supply, the power generation part 30 produces | generates said alternating current power. When the power failure determination unit 40a determines that the commercial power supply is energized, the power generation unit 30 stops its function and outputs a DC voltage of 0V. Moreover, the determination result of the power failure determination unit 40a is also notified to the lighting unit 60 at the time of power failure.

  When the commercial power supply is energized, the power failure switching circuit 50 supplies the commercial power supplied via the input terminal IN to the outside via the output terminal OUT1. Moreover, the switching circuit 50 at the time of a power failure supplies the alternating current power produced | generated by the power supply production | generation part 30 to the exterior via the output terminal OUT1, when the commercial power supply has a power failure.

  From the output terminal OUT2 at the time of a power failure, AC power generated by the power generator 30 at the time of a power failure of the commercial power supply is supplied to the outside as output power.

  When the power failure determining unit 40a determines that the commercial power supply is interrupted, the lighting unit 60 at the time of a power failure is turned on using the power charged in the storage battery 20. Moreover, the illumination part 60 at the time of a power failure will be in a non-lighting state, when energization of a commercial power supply is determined by the power failure determination part 40a.

  In the emergency power supply device 100a in the second embodiment, as in the first embodiment, when the commercial power supply is energized, the power of the commercial power supply is output as output power by the power failure switching circuit 50. It is supplied to the outside via OUT1. At this time, the storage battery 20 is charged with electric power from a commercial power source, and the power failure lighting unit 60 is in a non-lighting state. A DC voltage of 0 V is output from the power failure output terminal OUT2.

  And if the power failure determination part 40a determines the power failure of a commercial power supply, the power generation part 30 will be started and alternating current power will be produced | generated from the electric power charged in the storage battery 20. FIG. The AC power is supplied to the outside through the output terminal OUT1 by the switching circuit 50 at the time of power failure and also supplied to the outside through the output terminal OUT2 at the time of power failure. At this time, the lighting unit 60 during a power failure is turned on by the power charged in the storage battery 20.

  As described above, according to the second embodiment, similarly to the first embodiment, output power can be supplied to the outside only at the time of a power failure through the output terminal OUT2 at the time of a power failure. Thus, for example, by connecting a notification device that performs information notification at the time of a power failure to the output terminal OUT2 at the time of a power failure, information notification at the time of a power failure can be performed without consuming unnecessary power. In addition, since power can always be supplied from the output terminal OUT1, the electric device connected to the output terminal OUT1 can be continuously operated even during a power failure.

  In addition, according to the second embodiment, the lighting unit 60 at the time of power failure is provided, and when the commercial power source is energized, the lighting unit 60 is turned off, and when the commercial power source is powered off, the lighting state is turned on. But it will be able to eliminate sudden darkness.

1.3 Third Embodiment FIG. 3 is a block diagram showing a configuration example of an emergency power supply device according to a third embodiment of the present invention. In FIG. 3, the same components as those in FIG.

  The emergency power supply device 100b includes an input terminal IN, an output terminal OUT1, and a power failure output terminal OUT2 in the same manner as the emergency power supply device 100a. Such an emergency power supply device 100b includes a charging circuit 10, a storage battery 20, a power generation unit 30, a power failure determination unit 40a, a power failure switching circuit 50, a power failure lighting unit 60, and an output switch circuit 70. It has.

  The charging circuit 10 performs control for charging the storage battery 20 with the power of the commercial power supply supplied via the input terminal IN. The storage battery 20 charges the power of the commercial power source by the charging control by the charging circuit 10.

  The power generation unit 30 generates AC power as output power from the output of the storage battery 20 by DC / AC conversion at the time of a power failure of the commercial power source. The output of the power generation unit 30 is supplied to the power failure switching circuit 50 and the output switch circuit 70.

  The power failure determination unit 40a determines energization or power failure of the commercial power supplied via the input terminal IN. Moreover, the power failure determination part 40a will start the power supply production | generation part 30, if the power failure of a commercial power source is determined. And when the power failure determination part 40a determines the power failure of a commercial power supply, the power generation part 30 produces | generates said alternating current power. When the power failure determination unit 40a determines that the commercial power supply is energized, the power generation unit 30 stops its function and outputs a DC voltage of 0V. Moreover, the determination result of the power failure determination unit 40a is also notified to the lighting unit 60 at the time of power failure.

  When the commercial power supply is energized, the power failure switching circuit 50 supplies the commercial power supplied via the input terminal IN to the outside via the output terminal OUT1. Moreover, the switching circuit 50 at the time of a power failure supplies the alternating current power produced | generated by the power supply production | generation part 30 to the exterior via the output terminal OUT1, when the commercial power supply has a power failure.

  The output of the output switch circuit 70 is supplied to the outside from the power failure output terminal OUT2.

  When the power failure determining unit 40a determines that the commercial power supply is interrupted, the lighting unit 60 at the time of a power failure is turned on using the power charged in the storage battery 20. Moreover, the illumination part 60 at the time of a power failure will be in a non-lighting state, when energization of a commercial power supply is determined by the power failure determination part 40a.

  The output switch circuit 70 is provided so as to be inserted between the power supply generation unit 30 and the output terminal OUT2 during a power failure. The output switch circuit 70 switches between output and stop of the AC power (output power) generated by the power generation unit 30. Such an output switch circuit 70 can switch the output or stop of AC power according to the operation content of the user's switch operation.

  In the emergency power supply device 100b according to the third embodiment, as in the second embodiment, when the commercial power supply is energized, the power of the commercial power supply is output as output power by the switching circuit 50 during a power failure via the output terminal OUT1. Supplied to the outside. At this time, the storage battery 20 is charged with electric power from a commercial power source, and the power failure lighting unit 60 is in a non-lighting state. In addition, a DC voltage of 0 V is output from the output terminal OUT2 at the time of power failure regardless of the operation content of the user's switch operation.

  And if the power failure determination part 40a determines the power failure of a commercial power supply, the power generation part 30 will be started and alternating current power will be produced | generated from the electric power charged in the storage battery 20. FIG. When switched to output by the output switch circuit 70, this AC power is supplied to the outside via the output terminal OUT1 by the switching circuit 50 at the time of power failure and also supplied to the outside via the output terminal OUT2 at the time of power failure. Is done. On the other hand, when the output switch circuit 70 is switched to stop the output, this AC power is supplied to the outside by the power failure switching circuit 50 via the output terminal OUT1, but from the power failure output terminal OUT2 DC voltage 0V is output. At this time, the power failure lighting unit 60 is turned on by the power charged in the storage battery 20.

  As described above, according to the third embodiment, similarly to the second embodiment, output power can be supplied to the outside only at the time of a power failure through the output terminal OUT2 at the time of a power failure. Thus, for example, by connecting a notification device that performs information notification at the time of a power failure to the output terminal OUT2 at the time of a power failure, information notification at the time of a power failure can be performed without consuming unnecessary power.

  In addition, according to the third embodiment, the lighting unit 60 at the time of a power failure is provided so that it is in a non-lighting state when the commercial power source is energized and is turned on when the commercial power source is blacked out. But it will be able to eliminate sudden darkness.

  Furthermore, in 3rd Embodiment, the output switch circuit 70 is provided and the output switch circuit 70 switches the output or stop of alternating current power from the output terminal OUT2 at the time of a power failure. Thereby, according to 3rd Embodiment, the emergency power supply device which can be used according to the connection state of the apparatus in the output terminal OUT2 at the time of a power failure can be provided.

1.4 Fourth Embodiment FIG. 4 shows a block diagram of a configuration example of an emergency power supply device according to a fourth embodiment of the present invention. In FIG. 4, the same components as those in FIG.

  The emergency power supply device 100c includes an input terminal IN, an output terminal OUT1, and a power failure output terminal OUT2 in the same manner as the emergency power supply device 100a. Such an emergency power supply device 100c includes a charging circuit 10, a storage battery 20, a power generation unit 30c, a power failure determination unit 40a, a power failure switching circuit 50, and a power failure illumination unit 60.

  The charging circuit 10 performs control for charging the storage battery 20 with the power of the commercial power supply supplied via the input terminal IN. The storage battery 20 charges the power of the commercial power source by the charging control by the charging circuit 10. The electric power charged in the storage battery 20 is supplied to the power generation unit 30c and the lighting unit 60 during a power failure.

  The power generation unit 30c generates AC power as output power from the output of the storage battery 20 by DC / AC conversion at the time of a power failure of the commercial power supply, and supplies the output of the storage battery 20 to the output terminal OUT2 at the time of power failure as DC power. The AC power generated by the power generation unit 30 is supplied to the switching circuit 50 during a power failure.

  The power failure determination unit 40a determines energization or power failure of the commercial power supplied via the input terminal IN. Moreover, the power failure determination part 40a will start the power supply production | generation part 30, if the power failure of a commercial power source is determined. And when the power failure determination part 40a determines the power failure of a commercial power supply, the power generation part 30 produces | generates said alternating current power. When the power failure determination unit 40a determines that the commercial power supply is energized, the power generation unit 30c stops its function and outputs a DC voltage of 0 V to the power failure switching circuit 50 and the power failure output terminal OUT2. Moreover, the determination result of the power failure determination unit 40a is also notified to the lighting unit 60 at the time of power failure.

  When the commercial power supply is energized, the power failure switching circuit 50 supplies the commercial power supplied via the input terminal IN to the outside via the output terminal OUT1. Moreover, the switching circuit 50 at the time of a power failure supplies the alternating current power produced | generated by the power supply production | generation part 30 to the exterior via the output terminal OUT1, when the commercial power supply has a power failure.

  The power charged in the storage battery 20 is supplied to the outside as DC power from the power failure output terminal OUT2.

  When the power failure determining unit 40a determines that the commercial power supply is interrupted, the lighting unit 60 at the time of a power failure is turned on using the power charged in the storage battery 20. Moreover, the illumination part 60 at the time of a power failure will be in a non-lighting state, when energization of a commercial power supply is determined by the power failure determination part 40a.

  In the emergency power supply device 100c according to the fourth embodiment, as in the second embodiment, when the commercial power supply is energized, the power of the commercial power supply is output as output power by the power failure switching circuit 50 via the output terminal OUT1. Supplied to the outside. At this time, the storage battery 20 is charged with electric power from a commercial power source, and the power failure lighting unit 60 is in a non-lighting state. A DC voltage of 0 V is output from the power failure output terminal OUT2.

  And if the power failure determination part 40a determines the power failure of a commercial power supply, the power generation part 30c will be started and alternating current power will be produced | generated from the electric power charged in the storage battery 20. FIG. This AC power is supplied to the outside through the output terminal OUT1 by the switching circuit 50 during a power failure. In addition, the power generation unit 30c outputs the power charged in the storage battery 20 as DC power to the outside through the power failure output terminal OUT2. At this time, the lighting unit 60 during a power failure is turned on by the power charged in the storage battery 20.

  As described above, according to the fourth embodiment, as in the second embodiment, DC power can be supplied to the outside as output power only at the time of a power failure through the output terminal OUT2 at the time of a power failure. become.

  In addition, according to the fourth embodiment, the lighting unit 60 at the time of power failure is provided, and when the commercial power source is energized, the lighting unit 60 is turned off, and when the commercial power source is powered off, the lighting state is turned on. But it will be able to eliminate sudden darkness.

2. Emergency Power System FIG. 5 is a block diagram showing a configuration example of an emergency power system according to the present invention. FIG. 5 shows an example of the emergency power supply device according to the first embodiment as an emergency power supply device employed in the emergency power supply system. However, the emergency power supply apparatus employed in the emergency power supply system in FIG. 5 may be the emergency power supply apparatus in any of the second to fourth embodiments described above.

  The emergency power supply system 200 includes an emergency power supply device 100, an electric device 110, and a notification device 120. The electric device 110 is supplied with power from the emergency power supply device 100 via the output terminal OUT1. Examples of such electrical equipment 110 include a desk lamp (fluorescent lamp, LED), a television set, a telephone device, a fan, a refrigerator, an electric blanket, a personal computer, a security system, and the like. The notification device 120 is supplied with power from the emergency power supply device 100 via the output terminal OUT2 during a power failure. Examples of such a notification device 120 include a display device that outputs information at the time of a power failure, a display lamp, and a rotating lamp.

  In the emergency power supply system 200, when the commercial power supply is energized, power from the commercial power supply is supplied to the electric device 110, and power is not supplied to the notification device 120. On the other hand, at the time of a power failure of the commercial power supply, power is continuously supplied from the storage battery to the emergency power supply device 100 and power is also supplied to the notification device 120.

  Thereby, starting of the notification apparatus 120 which performs the information notification at the time of a power failure, etc. can be simplified. At this time, since it can be started not by communication or the like but by power supply, it is possible to eliminate the standby power in the notification device 120. Moreover, since the emergency power supply apparatus 100 can reduce the function for performing the information notification at the time of a power failure with respect to the notification apparatus 120, it can achieve cost reduction.

  As described above, the emergency power supply device and the emergency power supply system according to the present invention have been described based on any one of the above embodiments, but the present invention is not limited to any of the above embodiments. For example, the present invention can be implemented in various modes without departing from the scope of the invention.

DESCRIPTION OF SYMBOLS 10 ... Charging circuit, 20 ... Storage battery, 30, 30c ... Power supply generation part,
40, 40a ... power failure determination unit, 50 ... switching circuit during power failure, 60 ... lighting unit during power failure,
70 ... Output switch circuit, 100, 100a, 100b ... Emergency power supply,
200 ... Emergency power supply system, 110 ... Electrical equipment, 120 ... Notification device,
IN ... input terminal, OUT1 ... output terminal, OUT2 ... output terminal at power failure

Claims (5)

An emergency power supply that supplies power to electrical equipment in the event of a commercial power failure.
A storage battery for charging power from the commercial power source;
A power failure determination unit for determining energization or power failure of the commercial power source;
When it is determined that the power failure is determined by the power failure determination unit, a power generation unit that generates output power from the output of the storage battery,
An emergency power supply apparatus comprising: a power failure output terminal that outputs the output power only when the power failure determination unit determines that a power failure has occurred. In claim 1,
An emergency power supply device including a power failure lighting unit that is in a non-lighting state when it is determined to be energized by the power failure determination unit and is in a lighting state when it is determined as a power failure by the power failure determination unit. In claim 2,
The power failure lighting part is
An emergency power supply device that is turned on using electric power charged in the storage battery. In any one of Claims 1 thru | or 3,
An emergency power supply apparatus comprising an output switch circuit for switching output or stop of the output power. The emergency power supply device according to any one of claims 1 to 4,
Including a notification device connected to the power failure output terminal,
The notification device includes:
The emergency power system, wherein the output power is supplied through the output terminal during the power failure.

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