KR20180000111U - Emergency generating system - Google Patents

Abstract

The present invention relates to an emergency power generation system. One aspect of the emergency power generation system according to the embodiment of the present invention includes an emergency generator that generates an emergency power supplied to a fire load and at least one static load during power outage of a commercial power supply; One of the commercial power line supplying the commercial power and the emergency power line supplying the emergency power is selectively connected to the power load line supplying the commercial power or the emergency power to the fire load and the static load A switching switch for supplying the commercial power or the emergency power to the fire load and the static load; An emergency power source switch for selectively opening and closing the emergency power line and the power load line for supplying the emergency power source with the fire load and the static load; A fire load switch for selectively opening and closing a fire load line branched from the power load line and connected to the fire load; At least one static load switch for selectively opening and closing at least one static load line branched from the power load line and connected to the static load, respectively; And a control unit for controlling operation of the emergency generator; Wherein the emergency generator is started and operated at a relatively low rotation speed as compared with the rated rotation speed during the power generation operation for generating the emergency power source when it is determined that a fire has occurred even if the commercial power is supplied, And controls the generator to operate in a power generation operation mode at a rated rotation speed to generate the emergency power when it is determined that the commercial power is off in a state in which no fire has occurred.

Description

[0001] EMERGENCY GENERATING SYSTEM [0002]

The present invention relates to an emergency power generation system.

Emergency generators are generators that supply emergency power to various loads in case of power outage when the supply of power from commercial power is cut off. In this way, the emergency power generated from the emergency generator is divided into a fire load supplied to various fire extinguishing apparatuses for fire evolution and an emergency load other than a fire load, that is, an electrostatic load.

Generally, the emergency power generated from the emergency generator is controlled to be preferentially supplied to the fire load in comparison with the static load. Prior arts 1 and 2 disclose a technique for controlling so that the emergency power generated from the emergency generator is preferentially supplied to the fire load.

In the prior art document 1 (Korean Patent Registration No. 10-0954604), control is performed such that the main switch breaker is cut off preferentially by an overload according to the load value of the main power line, before the main switch breaks. Therefore, according to the prior art document 1, even if the load value exceeds the set value, the power supply to the fire load can be supplied.

In the prior art document 2 (Korean Patent Registration No. 10-1178607), when a power failure occurs, the emergency generator is started, and then the main switch of the main power source line is connected to the main power source line, and a fire power line and an uninterruptible power line The fire control switch and the power control switch are sequentially connected at predetermined time intervals. Therefore, according to the prior art document 2, it is possible to prevent the damage of the emergency generator due to the sudden supply of the fire load and the power load. In the prior art document 2, when the sum of the fire load and the electrostatic load exceeds a predetermined set capacity, the electrostatic power supply line for supplying power to the electrostatic load is sequentially cut off in accordance with the supply importance.

In the prior art 3 (Korean Patent Registration No. 10-0273501), if any one of the two external power supplies is in a power failure state, the generator is driven in a no-load state to stand by. When both power sources are in a power-off state, Thereby automatically supplying power to the generator. Therefore, in the prior art document 2, even when two commercial power sources are out of power, the power supply by the generator can be performed without momentary power failure.

However, the conventional emergency power generation system has the following problems.

Generally, the operation of the emergency generator can be classified into maneuver for preheating and power generation for power generation. In the past, when it is determined that a power failure has occurred, the emergency generator is activated and immediately undergoes power generation operation, so that the emergency generator is operated in a state in which it is not sufficiently preheated. As a result, the emergency generator may not be able to generate power to the normal output at the initial stage of power failure, or the emergency generator may fail to start, so that the emergency power supply may not be correctly supplied to the fire load and static load. Particularly, since the fire-fighting apparatus can not operate at the early stage of the fire, the fire can not be efficiently evolved. Of course, in the prior art document 3, when one of the two commercial power supplies is turned off, the generator is driven under no load, and power supply by the generator can be performed immediately after the power failure of the remaining commercial power. However, since the prior art 3 is applied only to a special case where power is supplied by two commercial power sources, it is generally not applicable to a case where power is supplied by one commercial power source.

Also, conventionally, the switching switch is switched from the commercial power source to the emergency generator after the power generating operation of the emergency generator and the power generating switch are turned on. Therefore, conventionally, there may occur a problem that the transfer switch is damaged by the spark generated in the process of transferring the transfer switch from the commercial power source to the emergency power source.

Conventionally, power supplied to the static electricity load is sequentially cut off according to the predetermined priority according to the sum of the fire load load and the static load load. Therefore, conventionally, there is a fear that the power generating switch is shut off in response to the instantaneous increase of the static load, thereby interrupting the supply of power to the fire load.

Also, conventionally, it is generally determined that a fire has occurred only when a fire occurrence signal is received from the fire fighting group. Therefore, if a fire occurs due to a malfunction of the fire fighting unit, and the fire occurrence signal is not received, a disadvantage that a fire can not be detected can not be detected.

(Prior art document 1) Korean Patent Registration No. 10-0954604 (design title: fire-fighting power conservation type self-generator) (Prior Art 2) Korean Patent Registration No. 10-1178607 (name of design: power supply control system for emergency generator power generator and feeder controller, recording medium therefor) (Prior Art 3) Korean Patent Registration No. 10-0273501 (name of design: automatic power switching device for securing electric power)

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide an emergency power generation system in which emergency power can be normally supplied at the beginning of a power failure.

Another object of the present invention is to provide an emergency power generation system configured to prevent damage to a transfer switch.

Another object of the present invention is to provide an emergency power generation system configured to continuously supply emergency power to a fire load in the event of a fire.

Another object of the present invention is to provide an emergency power generation system configured to more accurately determine whether or not a fire has occurred.

According to an aspect of the present invention, there is provided an emergency power generation system comprising: an emergency generator generating an emergency power supplied to a fire load and at least one static load during power outage of a commercial power supply; One of the commercial power line supplying the commercial power and the emergency power line supplying the emergency power is selectively connected to the power load line supplying the commercial power or the emergency power to the fire load and the static load A switching switch for supplying the commercial power or the emergency power to the fire load and the static load; An emergency power source switch for selectively opening and closing the emergency power line and the power load line for supplying the emergency power source with the fire load and the static load; A fire load switch for selectively opening and closing a fire load line branched from the power load line and connected to the fire load; At least one static load switch for selectively opening and closing at least one static load line branched from the power load line and connected to the static load, respectively; And a control unit for controlling operation of the emergency generator; Wherein the emergency generator is started and operated at a relatively low rotation speed as compared with the rated rotation speed during the power generation operation for generating the emergency power source when it is determined that a fire has occurred even if the commercial power is supplied, And controls the generator to operate in a power generation operation mode at a rated rotation speed to generate the emergency power when it is determined that the commercial power is off in a state in which no fire has occurred.

In an aspect of the embodiment of the present invention, when the commercial power is turned off in a state where the emergency generator is operating in a standby mode, the control unit controls the power generator to operate at a rated rotation speed To be operated.

In one aspect of the embodiment of the present invention, the control unit receives a fire occurrence signal from the fire fighting unit or determines that a fire has occurred when the load of the fire load is equal to or greater than a predetermined safety load amount.

In one aspect of the embodiment of the present invention, the control unit controls the emergency generator to operate in the power generation mode and to switch on the emergency power source switch only when the switch is switched from the commercial power source to the emergency power source.

According to the emergency power generation system according to the embodiment of the present invention, the following effects can be expected.

In the embodiment of the present invention, when a fire occurs irrespective of the power failure, the emergency generator is activated and the emergency generator is preheated in the standby operation state. Therefore, according to the embodiment of the present invention, it is possible to prevent the emergency power source from being normally supplied at the initial stage of the power failure due to the startup failure or the insufficient preheating of the emergency generator.

In addition, in the embodiment of the present invention, a commercial power switch or an emergency power switch for supplying a commercial power or an emergency power to a fire load and an electrostatic load after switching between a commercial power supply and an emergency power supply of an emergency generator by a switch . Therefore, according to the embodiment of the present invention, it is possible to prevent the changeover switch from being damaged due to a spark or the like generated when the transfer switch is switched in a state where the commercial power supply or the emergency power supply is supplied.

In the embodiment of the present invention, in the case of a fire, the power supply for supplying the emergency power to the static load according to the predetermined priority in proportion to the ratio of the total load of the fire load and the static load or the ratio of the fire load to the total load Switches off sequentially. Therefore, according to the embodiment of the present invention, it is possible to prevent the emergency power source switch from being shut off in response to a sudden increase in the emergency load amount, thereby preventing the supply of the emergency power source to the fire load.

Further, in the embodiment of the present invention, a fire occurrence signal is received from a fire fighting unit or a fire load is compared with a predetermined load amount to determine whether or not a fire occurs. Therefore, according to the embodiment of the present invention, it is possible to judge whether or not a fire has occurred more accurately.

1 and 2 are diagrams showing an emergency power generation system according to an embodiment of the present invention.

Hereinafter, an emergency power generation system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are diagrams showing an emergency power generation system according to an embodiment of the present invention.

1 and 2, the emergency power generation system according to the present embodiment includes an emergency generator 100, a transfer switch 200, an emergency power switch 300, a commercial power switch 400, a fire load switch 500 At least one static load switch 600, an emergency load meter 700, a fire load meter 800, and a controller 900. [

More specifically, the emergency generator 100 supplies the fire load 20 or the fire load 20 and the static load 30 when the power supply from the commercial power supply 10 is cut off, Thereby generating an emergency power source. Since the emergency generator 100 is substantially limited depending on the purpose of supplying power in the event of a power failure, the emergency generator 100 will be constructed in the same manner as a general generator for converting mechanical energy into electrical energy. Substantially the emergency power source is supplied to the fire load 20 and the static load 30 via the emergency power line L20 and the power load line L30.

Here, the fire load 20 means a load for the operation of a firefighting facility installed for fire alarm, evacuation, evacuation and fire fighting activities. In general, the matters relating to the fire load 20 are specified in the fire-fighting laws or set as a serious requirement. The static electricity load (30) means an emergency electric power load except for the fire load (20) for the sake of broad sense. Excluding the loads specified in the laws and ordinances such as the fire fighting ordinance, May be defined as the power load defined by < RTI ID = 0.0 > However, in the present embodiment, the electrostatic load 30 includes the first to Nth electrostatic loads, for example, the first to third electrostatic loads 31, 32, and 33. Here, the first to third electrostatic loads 31, 32, and 33 are classified according to the order in which the emergency power is cut off. That is, the first electrostatic load 31 may be a power load that is not related to the fire fighting activity and is not affected by the fire fighting activity even if it is immediately shut off, such as an air conditioning system or a cooling / heating device. The second static electricity load 32 has a relatively higher priority than the first static electricity load 31, and may mean a power source load indirectly related to a fire fighting activity such as illumination. The third electrostatic load 33 has a relatively higher priority than the first and second electrostatic loads 31 and 32. For example, when the supply of commercial power is interrupted, An uninterruptible power supply (UPS) or the like, which enables stable use of electricity even when a fault such as a variation occurs, may be included in the third static electricity load 33. [

The switching switch 200 switches the supply of the commercial power supply 10 or the emergency power supply to the fire load 20 and the static load 30. That is, the transfer switch 200 connects the power supply load line L30 to the commercial power supply line L10 or the emergency power supply line L20.

The transfer switch 200 may further include a transfer switch control unit 210. The transfer switch control unit 210 controls the operation of the transfer switch 200. That is, when the commercial power supply 10 is normally supplied, the transfer switch control unit 210 switches the transfer switch 200 to the commercial power supply 10, and when the commercial power supply 10 is turned off That is, in the case of a power failure, the switching switch 200 is switched to the emergency power source. The emergency switch 100 is operated for power generation and the emergency power switch 300 is turned on after the emergency switch 100 is turned on, And controls the transfer switch 200 to be switched to the power source.

The emergency power switch 300 selectively opens and closes the emergency power line L20 and the commercial power switch 400 selectively opens and closes the commercial power line L10. In practice, the emergency power switch 300 is turned on to supply the emergency power via the emergency power line L20. On the contrary, the commercial power switch 400 is turned on when the commercial power supply 10 is normally supplied, and the commercial power is supplied through the commercial power supply line L10.

The fire load switch 500 selectively opens and closes the power load line L30 and the fire load line L40 branched from the power load line L30 and connected to the fire load 20 . The static load switch 600 includes first to third static load switches 610, 620 and 630. The first through third static load switches 610 620 and 630 are connected to the power supply load line L30 and the capacitive load 30 branched from the power supply load line L30, And selectively opens and closes the first to third static load lines L51, L52, and L53. The first to third static load switches 610, 620 and 630 substantially correspond to the first to third static load lines L51, L52 and L53 in accordance with the load of the fire load 20, As shown in Fig.

On the other hand, the emergency load measuring instrument 700 measures a power load supplied to the fire load 20 and the static load 30 through the emergency power line L20. The fire load measuring device 800 measures a power load supplied to the fire load 20 through the fire load line L40. That is, the emergency load meter 700 measures the load (hereinafter, referred to as "total load") of the fire load 20 and the static load 30, and the fire load meter 800 measures the load (Hereinafter, referred to as "fire load load") of the fire load 20 can be measured.

In this embodiment, the control unit 900 controls the operation of the emergency generator 100 and the transfer switch 200 depending on whether a fire occurs and / or a power failure occurs. The control unit 900 controls the operation of the static load switch 600 according to the total load measured by the emergency load meter 700 and the fire load measured by the fire load meter 800. [

More specifically, when the control unit 900 determines that a fire has occurred due to a fire occurrence signal received from the fire fighting unit 40, for example, irrespective of the power failure, the emergency generator 100 is activated So as to operate in the standby mode. Here, the 'standby mode' means a state in which the emergency generator 100 is operated at a relatively low number of revolutions in comparison with the rated number of revolutions during the power generation operation for generating the emergency power. Therefore, the emergency generator 100 can be preheated in the standby mode. The control unit 900 controls the emergency generator 100 to generate power to generate an emergency power when a power failure occurs in such a state.

Also, even when the fire signal is not received from the fire fighting unit 40, the control unit 900 can determine that a fire has occurred when the fire load amount is equal to or greater than a predetermined safety load amount. Here, the 'safe load amount' can be set to a predetermined value in consideration of the load required for the operation of various fire-fighting facilities constituting the fire-fighting load 20. That is, in the present embodiment, even if a fire occurs but the control unit 900 can not receive a fire occurrence signal from the fire fighting unit 40, It is possible to deduce from the operation that the fire has occurred.

In other words, in contrast to the prior art in which the emergency generator 100 is operated in accordance with a power failure, in the present embodiment, the control unit 900 controls the standby state of the emergency generator 100 Mode operation. Of course, the controller 900 controls the emergency generator 100 to generate power regardless of whether a fire occurs or not when a power failure occurs. The control unit 900 controls the emergency generator 100 to generate power when a power failure occurs in a state in which the emergency generator 100 is operating in a standby mode due to the occurrence of a fire. Therefore, according to the present embodiment, in the case of a simple power failure in which the power supply is interrupted by the time difference between the power supply of the commercial power supply and the power supply by the emergency generator 100, Energy loss due to the standby mode operation is prevented and the emergency generator 100 is operated in the standby mode in advance in the event of a fire regardless of the power failure so that safety problems such as suppression of fire or escape of personnel may occur The interruption of the act can be prevented.

The controller 900 controls the first static electricity load 31 such that the supply of the emergency electric power is interrupted by the first static electricity load 31 having a relatively lower priority among the static electricity loads 30 when a fire or a power failure occurs, And controls the operation of the switch 610. In other words, when the fire or the power failure occurs, the control unit 900 cuts off the supply of the emergency power source to the first static load 31, which is relatively independent of the evolution of the fire, The emergency power line L20 and / or the fire load line L40 can be prevented from being disconnected from the power line 300 and / or the fire load switch 500.

The control unit 900 may be configured to control the static load 30 such that the static load 30 has a relatively low priority according to the total load measured by the emergency load meter 700 and the fire load measured by the fire load meter 800 The operation of the static load switch 600 is controlled so that the supply of the emergency power supply to the first static load 31 is sequentially interrupted. For example, the control unit 900 compares the total load amount with a predetermined reference load amount, and when the total load amount is equal to or greater than the reference load amount, the control unit 900 compares the fire load amount with predetermined first and second predetermined load amounts, (620) 630 so that the emergency power is supplied or sequentially blocked by the first and second electrostatic loads 32, 33 and the second electrostatic load 32, 33, And controls the operation of the second and third static load switches 620 and 630 so that the emergency power is supplied to the second and third static loads 32 and 33 when the load is less than the load.

Here, the 'reference load amount' is set at a predetermined ratio to the rated output or the maximum output of the emergency generator 100, and may be set to, for example, 80% of the rated output of the emergency generator 100 . However, this is an illustrative example, and the reference load amount may be set to a different value according to the rated output of the emergency generator 100 and the absolute value of the total load. Therefore, in the present embodiment, when the total load is relatively low as compared with the rated output of the emergency generator 100, the second and third static loads 32 and 33, Power is supplied.

The first and second set load amounts are set to a predetermined ratio with respect to the total load amount. For example, the first set load amount is set to 80% of the total load amount, May be set to 60% of the total load. This is one of various examples of the first and second set load amounts, and the first and second set load amounts may be set to different values for the total load amount. However, the first set load amount is set to a high ratio of the total load amount to the second set load amount. More specifically, the control unit 900 compares the fire load amount with the first predetermined load amount when the total load amount is equal to or greater than the reference load amount, and when the fire load amount is equal to or larger than the first predetermined load amount, 630 and 630 so that the supply of the emergency power source to the third and fourth static load resistors 32, 33 is interrupted. The control unit 900 compares the fire load amount with the second predetermined load amount when the fire load amount is less than the first predetermined load amount, and when the fire load amount is equal to or greater than the second predetermined load amount, The operation of the second static load switch 620 is controlled so that the supply of the emergency power source to the first static load switch 32 is interrupted. Therefore, in the present embodiment, when the total load is relatively high as compared with the rated output of the emergency generator 100, the second and third static loads 32, The supply of the emergency power source to the battery 33 can be sequentially cut off according to a predetermined priority.

It should be understood that many other variations are possible for those of ordinary skill in the art within the scope of the basic technical idea of the present invention and that the scope of the present invention is interpreted based on the scope of the appended utility model registration claim something to do.

10: Commercial power supply 20: Fire load
30: static charge load 40: fire fighting
100: Emergency generator 200: Transfer switch
210: transfer switch control unit 300: emergency power source switch
400: commercial power switch 500: fire load switch
600: Static load switch 700: Emergency load meter
800: fire load measuring instrument 900: control unit
L: track

Claims (3)

An emergency generator (100) for generating an emergency power source supplied to a fire load (20) and at least one static load (30) during power outage of the commercial power source (10);
Wherein one of the commercial power supply line L10 for supplying the commercial power supply 10 and the emergency power supply line L20 for supplying the emergency power supply is connected to the commercial power supply (10) or an emergency power source to the fire load (20) and the static load (30) so as to be selectively connected to a power load line (L30) for supplying the emergency power source 200);
An emergency power source switch 300 for selectively opening and closing the emergency power line L20 and the power load line L30 for supplying the emergency power to the fire load 20 and the static load 30;
A fire load switch 500 for selectively opening and closing a fire load line L40 branched from the power load line L30 and connected to the fire load 20;
At least one static load switch (600) for selectively opening and closing at least one electrostatic load line (L50) branched from the power load line (L30) and connected to the electrostatic load (30), respectively; And
A controller 900 for controlling the operation of the emergency generator 100; Lt; / RTI >
The control unit (900)
If it is determined that a fire has occurred in the state where the commercial power supply 10 is supplied, the emergency generator 100 is started and operated at a relatively low number of revolutions in comparison with the rated number of revolutions during the power generation operation for generating the emergency power supply To be operated in the standby mode,
Wherein the emergency generator (100) controls the power generator to operate at a rated rotational speed to generate the emergency power source when it is determined that the commercial power source (10) is out of power in the absence of a fire.
The method according to claim 1,
When the commercial power supply 10 is turned off while the emergency generator 100 is operating in the standby mode, the control unit 900 controls the emergency generator 100 to operate at a rated rotation speed Emergency power generation system that controls power generation to be operated.
The method according to claim 1,
The control unit 900 receives a fire occurrence signal from the fire fighting unit 40 or determines that a fire has occurred when the load of the fire load 20 is equal to or greater than a predetermined safety load amount.

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