KR101817964B1 - System for supplying a emergency power on household - Google Patents

Abstract

The present invention relates to a system for supplying emergency power in a household, capable of supplying emergency power in order to operate a means such as emergency facilities and fire fighting facilities provided in a building to respond to an emergency situation such as a power outage and a fire. A conventional emergency power system has a structure provided by an architecture company as a service, which has no ability to respond to a case of occurring of an actual emergency, or cannot exhibit a responding ability at emergency even if the responding ability is provided. As a main cause thereof, the conventional system for driving emergency power is not supplied with power due to an improper maintenance of equipment or power outage at emergency. To this end, according to the present invention, existing emergency power and an energy storage system (ESS) are used together, and thus, a structural capacity limit of the emergency power system is overcome. Also, power can be additionally supplied even if power outage and the like occur. The system of the present invention comprises: an emergency switching device; an ESS for transceiving power; a household load for receiving the power; and an emergency power source for supplying the power to the emergency switching device.

Description

SYSTEM FOR SUPPLYING EMERGENCY POWER ON HOUSEHOLD BACKGROUND OF THE INVENTION [0001]

The present invention relates to a system for supplying an emergency power source in a household, which can supply an emergency power source in such a manner that means capable of coping with similar situations of an emergency facility and a firefighting facility provided at a time of emergency such as power outage and fire are operable .

The conventional emergency power system is a service structure of an architect who does not have the ability to cope with the occurrence of a similar situation or coping ability in case of emergency can not be exhibited even if it has coping ability. The main reason for this is the lack of management of the equipment or the failure of the system to power the emergency power supply due to power failure in case of emergency.

Accordingly, the present invention overcomes the structural capacity limit of the emergency power supply system by using the existing emergency power supply and the ESS (Energy Storagrsystem) together so as to solve the above-described problem, and further, And to provide a system for supplying an in-house emergency power source.

In the case of a multi-family house such as an apartment, a power failure frequently occurs, though it is not frequent because the power source is limited in capacity. In addition, if a fire or other accident occurs due to the residence of multiple residents, it is likely that the neighboring households will become a serious accident, and the power of multiple households may be cut off.

In this case, since power in the household is cut off, it may take a long time for the residents to grasp the situation, and it is difficult for the residents of high-rise areas to get out of the elevator because escape becomes dark Can be.

The above-mentioned problems are problems that can be solved if the power supply in case of emergency can be continued, and in recent years, the emergency power supply is provided according to the Building Act, Electricity Business Act, and the Fire Service Act, so that emergency power can be supplied when the power is shut down.

However, there is a problem that the emergency power supply provided as above is often unmanaged equipment provided at the service level of an architect, and there is a capacity limit that can be held by the emergency power supply, so that the use of the emergency power supply is in fact insufficient .

In addition, the emergency power supply up to now is only a common power supply in multi-family houses such as apartments, and there is no tendency that the emergency power supply is directly supplied to the household within the household.

Due to such a situation, 1,007 accidents occurred due to the fire-fighting facilities inactivity according to the National Emergency Management Agency's (NEMA) in 2008. On September 15, 2011, in case of a power failure, emergency lifts and commercial elevators 1,902 cases of passengers and 2,901 cases of rescuers have been reported.

Accordingly, the present applicant has developed a technology capable of directly supplying emergency power into households, so that power supply within a household can be continued even during a power failure,

In order to overcome the capacity limitation of the emergency power supply, we propose a technology that can supply auxiliary power to the in-house load in conjunction with ESS (Energy Storage System).

Regarding the technology capable of supplying auxiliary power,

Japanese Laid-Open Patent Publication No. 10-2016-0005603 describes a power house power supply system. However, the above-described technique is different from the present invention in which an auxiliary power supply is provided within each household in a multi-family house.

Japanese Patent Application Laid-Open No. 10-1443875 discloses an elevator power supply system using an energy storage device, and Japanese Laid-Open Patent Publication No. 2007-238316 describes an emergency power supply system for an elevator.

However, this technique can not cope with the present invention because the auxiliary power is supplied not to each of the households included in the plurality of households, but to the common target.

On the other hand, Japanese Laid-Open Patent Publication No. 10-2014-0101932 discloses an emergency power supply system for a apartment house and a control method thereof.

The above-described technique has a battery in which an emergency power supply device is installed as an emergency power source for each generation, control means for controlling the discharging operation and the emergency power supply operation of the battery, and after the voltage starts to be discharged from the battery to the inverter, The output of the inverter is cut off according to the control signal outputted from the control means when the residual voltage of the inverter becomes less than the first set voltage stored in advance in the control means.

Although it is determined that the above-described technology is most similar, the corresponding technology is also deemed different because it can not correspond to the switching scenario described in the present invention.

Published Japanese Patent Application No. 10-2016-0005603 (Jan. 15, 2016) Registered Patent Publication No. 10-1443875 (published on September 24, 2014) Japanese Patent Application Laid-Open No. 2007-238316 (September 20, 2007) Japanese Patent Application Laid-Open No. 10-2014-0101932 (Aug. 21, 2014)

An object of the present invention is to provide a system for supplying an emergency power source in a household, which can supply an emergency power source so that means capable of coping with emergency situations in fire situations, .

The conventional emergency power system is a service structure of an architect who does not have the ability to cope with the occurrence of a similar situation or coping ability in case of emergency can not be exhibited even if it has coping ability. The main reason for this is the lack of management of the equipment or the failure of the system to power the emergency power supply due to power failure in case of emergency.

Accordingly, it is a main object of the present invention to overcome the structural capacity limit of the emergency power system by using an existing emergency power supply and an ESS (Energy Storagr System) together so as to solve the above-mentioned problem, And to provide a system for supplying an in-house emergency power source that can additionally supply power even if the power is supplied.

According to an aspect of the present invention, there is provided a system for supplying an in-house emergency power supply, the system comprising: an emergency switching device installed in a distribution board in a household and supplied with power from a normal power source; An ESS connected to the power source and capable of transmitting and receiving power, and a household load connected to the emergency switching device and supplied with power from the emergency switching device.

Further, the present invention is characterized by further comprising an emergency power source for supplying power to the emergency switching device.

In addition, the ESS includes a charging converter for converting the AC power of the constant power source to DC, a battery for receiving the power via the charging converter, and a battery for charging the DC power to the various devices in the household. And a discharge-specific converter for converting the output voltage of the battery to a predetermined voltage.

The emergency switching device may further include: a first relay for determining that power to be supplied to the generation load is supplied from the ESS or the constant power source; And a second relay for determining whether power of the ESS is to be supplied to the generation load.

In this case, the emergency switching device further includes a third relay for determining whether the emergency power supply is supplied to the household load when the emergency switching power supply is connected to the emergency power supply.

The conventional emergency power system is a service structure of an architect who does not have the ability to cope with the occurrence of a similar situation or coping ability in case of emergency can not be exhibited even if it has coping ability. The main reason for this is the lack of management of the equipment or the failure of the system to power the emergency power supply due to power failure in case of emergency.

On the other hand, according to the system for supplying the in-house emergency power supply according to the present invention, by using the existing emergency power supply and the ESS (Energy Storagrsystem) together, it is possible to overcome the structural capacity limit of the emergency power supply system, And to provide a system for supplying an in-house emergency power source, which can additionally supply power even when the power is supplied.

Accordingly, when a household load is an illumination light, household residents can safely escape, and in the case of a boiler, heating can be continued even during a power failure, and it is helpful to prevent frost. In case of home network equipment, It is possible to allow the additional function of the home network equipment to operate normally.

Furthermore, when the household load is an elevator, residents of high-rise buildings can be quickly escaped through the elevator even during a power failure.

FIG. 1 shows a configuration of a system for supplying an in-house emergency power source according to the first embodiment of the present invention.
2 is a wiring diagram of a system for supplying an in-house emergency power supply according to the first embodiment of the present invention.
3 is a schematic diagram of the emergency switching device of the system for supplying the in-house emergency power supply according to the first embodiment of the present invention and an operation scenario of the emergency switching device.
FIG. 4 shows a configuration of a system for supplying an in-house emergency power supply according to a second embodiment of the present invention.
5 is a wiring diagram of a system for supplying an in-house emergency power supply according to a second embodiment of the present invention.
6 is a diagram showing the connection of the emergency switching device of the system for supplying the in-house emergency power supply according to the second embodiment of the present invention and the operation scenario of the emergency switching device.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor can properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and drawings are only the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents And variations are possible.

Before describing the present invention with reference to the accompanying drawings, it should be noted that the present invention is not described or specifically described with respect to a known configuration that can be easily added by a person skilled in the art, Let the sound be revealed.

The present invention relates to a system for supplying an emergency power source in a household, which can supply an emergency power source in such a manner that means capable of coping with similar situations of an emergency facility and a firefighting facility provided at a time of emergency such as power outage and fire are operable .

The conventional emergency power system is a service structure of an architect who does not have the ability to cope with the occurrence of a similar situation or coping ability in case of emergency can not be exhibited even if it has coping ability. The main reason for this is the lack of management of the equipment or the failure of the system to power the emergency power supply due to power failure in case of emergency.

Accordingly, the present invention overcomes the structural capacity limit of the emergency power supply system by using the existing emergency power supply and the ESS (Energy Storagrsystem) together so as to solve the above-described problem, and further, And to provide a system for supplying an in-house emergency power source.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be described with reference to the accompanying drawings in the form of a first embodiment and a second embodiment.

Referring to these first and second embodiments,

The first embodiment describes an embodiment in which auxiliary power is supplied within a generation in cooperation with an ESS without using an emergency power source,

The second embodiment describes an embodiment in which the emergency power is first used by using the ESS and the emergency power, and the auxiliary power is supplied in the generation in cooperation with the ESS when a problem occurs in the emergency power.

In other words, although the first embodiment and the second embodiment are categorized in this specification, this is for the sake of easy understanding of the present invention, and actually, it can be designed at once in the first embodiment and the second embodiment It should be understood by those skilled in the art that the ESS may be operated using only the ESS even if the ESS and the emergency power supply are both provided.

Example  1. Emergency ESS  Systems using power

First, FIG. 1 shows a configuration of a system for supplying an in-house emergency power supply according to the first embodiment of the present invention.

Referring to FIG. 1 of the accompanying drawings, there is shown an EAS (hereinafter referred to as an "emergency switching device") installed in an in-house distribution panel and supplied with power from a normal power source, and connected to the emergency switching device and the constant- (Eg, a boiler, a network equipment, a refrigerator, etc.) that is connected to the emergency switching device and receives power from the emergency switching device.

The ESS can be charged by supplying power from the power source at all times, and includes a charging converter (charger) for converting AC into DC, a battery for receiving power through the charging converter, and a power source for charging the battery And includes a discharge converter that converts DC to AC for supply to various devices within the household.

In addition, the ESS is provided with a protection circuit for protection against overload of charge and discharge.

Meanwhile, the ESS may be charged by receiving power from an eco-friendly charging means as shown in FIG. 1 of the accompanying drawings (see FIG. 4 in the second embodiment). In this case, through the converter for converting DC to DC To be charged.

At this time, eco-friendly charging means all things known as solar charging, wind power charging, and hydraulic charging.

The emergency switching device is provided in the in-house distribution board as described above, and receives power from the power source at all times and also receives power from the ESS.

To this end, the emergency switching device performs a switching operation for switching the power source for power supply, which will be described later with reference to FIG.

Referring to FIG. 2, a wiring diagram according to the above structure can be referred to.

2 is a wiring diagram of a system for supplying an in-house emergency power supply according to the first embodiment of the present invention.

According to Figure 2 of the accompanying drawings,

The emergency switching device is provided with a total of two relay switches. The relay 2 (upper end) is a relay switch for determining power supply of the ESS to various devices (household loads) in the household,

Relay 1 (lower) is a relay switch that determines the power supply of the ESS or the constant power source to various devices (generation loads) within the household.

In addition, the ESS has a circuit breaker, which functions to determine that the supplied constant power is supplied to the ESS.

That is, when the normally power source N and the constant power source L of the relay 2 are connected and the breaker is connected, the power source of the charging means using the constant power source or the environmentally friendly power is supplied to the ESS and the relay 2 is switched as shown in FIG. , The power of the ESS is supplied to the generation load.

When the relay 1 is switched as shown in FIG. 2, the power of the ESS is supplied to the household load, and when the normally power N and the constant power L of the relay 1 are switched, the constant power can be supplied to the household load .

However, as is the case with conventional distribution boards provided in a household, the distribution board may be equipped with a circuit breaker capable of determining the power supply supplied to the household load.

In FIG. 2, two circuit breakers are shown in the wiring supplied to the household load. However, the circuit breaker is illustrated as an example of a refrigerator, a boiler, a lamp, and the like as shown in FIG. It is natural to have.

3, the switching operation scenario of the emergency switching device will be described as follows.

3 is a schematic diagram of the emergency switching device of the system for supplying the in-house emergency power supply according to the first embodiment of the present invention and an operation scenario of the emergency switching device.

Referring to Figure 3,

In the relay 1 and relay 2 in the constant power state, the connection of the relay 1 is switched to the constant power source N and the constant power source L so that the constant power source is directly supplied to the generation load. At this time, relay 2 switches the ESS N and ESS L to be connected to the ESS to prevent the ESS power from discharging.

Thereafter, when the ESS power supply must be used in accordance with the occurrence of a similar situation, the relay 1 is switched so that the relay 1 is disconnected from the normal power supply.

Secondarily, by disconnecting relay 2 from ESS N and ESS L, relay 1 and relay 2 are connected so that the power of the ESS can be supplied to the generation load.

However, as described above, it is possible to use an emergency power supply previously provided together with the ESS power supply, which will be described in the second embodiment.

Example  2. Emergency power supply ESS  Systems using power

First, FIG. 4 shows a configuration of a system for supplying an in-house emergency power supply according to a second embodiment of the present invention.

According to FIG. 4 of the accompanying drawings, an emergency power source is further connected to the emergency switchgear (EAS) so that power can be supplied.

In this case, as shown in FIG. 5 of the accompanying drawings, the relay 3 may further be included in the emergency switching device so as to switch the switching to the emergency power source. In the case of FIG. 5, However,

If an emergency power supply is desired, the switching of relay 2 can be wired to ESS N and ESS L, and the switching of relay 3 can be wired to the emergency power supply N and the emergency power supply L to supply the emergency power supply to the generation load .

5 is a wiring diagram of a system for supplying an in-house emergency power supply according to a second embodiment of the present invention.

Specifically, the emergency power source is used first when an emergency situation occurs, and when the emergency power source has a problem, the ESS power source can be used, which will be described with reference to FIG. 6 of the accompanying drawings.

6 is a diagram showing the connection of the emergency switching device of the system for supplying the in-house emergency power supply according to the second embodiment of the present invention and the operation scenario of the emergency switching device.

According to Figure 6 of the accompanying drawings,

6, when power is supplied to the household load using the constant power source, the relay 2 is connected to the ESS N and the ESS L, the relay 3 is switched to be separated from the emergency power source N and the emergency power source L, 1 is connected to the constant power source N and the constant power source L so that the constant power source is supplied to the generation load.

When the emergency power supply is used due to an abnormality in the supply of the constant power supply, the switching switching of the relay 3 is connected to the emergency power supply N and the emergency power supply L as shown in the first stage of FIG. 6 so that the emergency power supply is supplied as the generation load.

6, the emergency switching power supply N separates the emergency power supply N and the emergency power supply L from the switching power supply, and the ESS N of the relay 2 and the ESS L so that the ESS power is supplied to the generation load.

According to the second embodiment configured as described above, when the constant power source is supplied to the generation load, the emergency power source may be charged with the ESS power source, or the emergency switching device may be switched to charge the ESS power source with the emergency power source have.

In the description of the first and second embodiments described above, sensing means (sensing sensor or circuit-based sensing configuration, which is not described but capable of detecting abnormal supply of the constant power source and emergency power source, It is natural that there can be more.

That is, the emergency switching device may include the above-described sensing section for performing the above-mentioned function, a relay switching control section including a relay 1 control module, a relay 2 control module and a relay 3 control module, and a distribution board interlocking section, The distribution board may include a breaker control for controlling the breaker.

Depending on the design conditions, the emergency switching device may cause the emergency power source to perform an anomaly detection again, in addition to the above-described technical aspects using the ESS power supply if an error occurs in the emergency power supply.

This allows the switching operation to be wired for a predetermined time (for example, 3 to 5 seconds) in the switching state in which the emergency power source N and the emergency power source L are separated from the relay 3 and judges whether the emergency power source is properly applied through the sensing unit, It is necessary to perform the abnormality detection of the power source again.

If it is determined that the emergency power source is normally supplied as a result of the re-detection of the emergency power source, the emergency switching device determines the time at which power is supplied from the ESS to the household load or the amount of power charged in the ESS, If the ESS power supply is less than the power supply, or if the ESS power is supplied to the household load for a predetermined time or longer, the emergency power supply is switched to be supplied to the generation load. For this purpose, And an interlocking portion for enabling the operation.

This can be achieved by further including a power amount detecting unit capable of detecting the ESS power amount of the emergency switching device or a power supply time measuring unit capable of measuring the power supply time based on the real time.

In the case where the power supply of the emergency power supply is again controlled to be supplied to the generation load from the ESS power supply as in the above-mentioned case, by providing the reverse current prevention diode in the wiring circuit between the ESS and the emergency power supply, Switches the connection of relay 2 to be separated from ESS N and ESS L,

The power of the emergency power source can be partially supplied to the ESS so that the ESS power can be charged again. If the ESS has a self-generating structure at this time, the power can be further charged through self-generation during ESS unused.

If the emergency power supply fails again, the emergency switching device is operated so that the ESS power is supplied to the generation load.

According to this structure, there is an advantage that the time for power supply in the household can be prolonged even if the time for generating an abnormality in the constant power source is prolonged.

According to another design condition, if the emergency power source uses the ESS power supply due to the capacity limit, the back-up prevention diode is provided on the ESS and the emergency power source wiring circuit,

When the ESS power is supplied to the generation load, the relay 3 may be switched to connect with the emergency power supply N and the emergency power supply L so that a part of the ESS power supply is supplied to the emergency power supply to be charged.

According to this structure, there is an advantage that the power supply time in the household can be extended even if the time for generating an abnormality in the constant power source is prolonged.

According to another design condition, when there is a device (interphone, network terminal, etc.) for managing a home network among various devices in a household, the switching operation of the emergency switching device is visually displayed At the same time as zooming, the amount of power of the ESS, the amount of power of the emergency power source and the state of the emergency power can be visually displayed. However, it is a matter of course that the indication of such information is displayed so that it can be easily judged by a householder who is a non-specialist.

This allows the resident in the household to manually switch the emergency switch operation based on the remaining power of the ESS or the emergency power source. That is, the emergency switching device can be configured to be controlled to be able to communicate with the terminal, and may further include a communication unit and a terminal interlocking unit.

If a passive input signal of a resident within the household is confirmed, it can be operated in preference to the automatic control. If the passive input signal is confirmed and manually controlled, If there is no manual input, it can be controlled automatically according to the specified scenario.

It is apparent that the present invention is not limited to the configuration of the drawings, as described above with reference to the drawings, only the main points of the present invention are described, and various designs can be made within the technical scope thereof.

Claims (4)

An emergency switching device installed in a distribution board in a household and supplied with power from a normal power source;
An emergency switching device (ESS) connected to the emergency switching device and the constant power source to transmit and receive power,
A generation load connected to the emergency switching device and supplied with power from the emergency switching device;
And an emergency power source for supplying power to the emergency switching device,
(a)
A charging converter for converting AC of the constant power source into DC,
A battery for receiving and charging power through a charging converter,
And a discharging converter for converting DC to AC to supply the battery-charged power to various devices in the household,
(b) The emergency switching device comprises:
- using the ESS power supply if an error occurs in the emergency power supply and performing an anomaly detection of the emergency power supply again,
If it is determined that the emergency power source is normally supplied, it is determined whether the ESS has supplied power to the household load or the amount of power charged in the ESS. If it is determined that the power of the ESS is less than the predetermined power amount, When the ESS power is supplied to the household load for a predetermined time or more, the emergency power is supplied to the household load,
- a communication unit and a terminal interlocking unit,
The terminal interlocking unit may cause the terminal to visually display the switching operation of the emergency switching device, the power amount of the ESS, the power amount of the emergency power, and the state of the emergency power,
The emergency switching operation can be manually controlled by the user of the terminal,
Characterized in that, when the manual control is confirmed, the emergency switching operation is performed in preference to the automatic control of the emergency switching operation, and the emergency switching operation is automatically performed when the manual switching control is not confirmed For the system.
The method according to claim 1,
The emergency switching device includes:
A first relay for determining that the power to be supplied to the household load is supplied from either the ESS or the constant power source; And
And a second relay for determining whether power of the ESS is to be supplied to the generation load.
The method of claim 2,
The emergency switching device includes:
And a third relay for determining whether the emergency power is supplied to the generation load,
Wherein the first relay determines that the power to be supplied to the generation load is to be supplied from either the emergency power supply, the ESS or the constant power supply. delete

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