KR20190000154A - Light control system - Google Patents

Abstract

The present invention relates to a light control system. According to the present invention, the light control system comprises: an emergency situation notification unit receiving a detection signal from at least one detection sensor and generating an emergency occurrence notification signal; a malfunction prevention unit continuously transmitting a pulse signal having a predetermined period upon receiving the emergency occurrence notification signal from the emergency situation notification unit; an external contact input unit transmitting an emergency occurrence processing request signal including predetermined pattern information at a time point when the pulse signal is changed from one of a high state and a low state of the corresponding pulse signal to another state depending on the pulse signal received from the malfunction prevention unit; and a light control unit, when a request signal for turning on/off light is received from an external light control manual switch, transmitting a control signal for turning on or off an external light control device corresponding to the request signal for turning on/off light, when an emergency occurrence processing request signal is received from the external contact input unit, extracting a control target address corresponding to the pattern information included in the received emergency occurrence processing request signal, and transmitting a lighting control signal to each light control device corresponding to the extracted control target address. According to the present invention, it is possible to prevent light from being turned off due to manual switch operation by evacuees in case of emergency.

Description

[0001] LIGHT CONTROL SYSTEM [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light control system, and more particularly, to a light control system including a function of preventing a malfunction due to a switch operation of a pizza or the like in receiving an external signal (for example, an emergency situation, a timer, .

In order to facilitate evacuation of people in the event of an emergency, a system for automatically controlling a light is widely used.

For example, in the event of a fire, many systems are configured to automatically turn on the emergency lights to facilitate fire evacuation in the event of a fire.

However, such an emergency light is not usually configured to operate only when a fire occurs, but is usually constructed so that it can be turned on or off by the operation of a manual switch of a person.

For example, in places such as a large office building, a commercial building, a hotel, and the like, a disaster prevention room is provided in a separate space. In the event of a fire, the emergency lights of each floor are automatically turned on, When a switch provided on a wall or the like is operated, each emergency light corresponding to the switch is turned on or off.

However, conventionally, when the emergency light is used in the above-described manner, when the emergency light is automatically turned on when a fire occurs, for example, when the tenant erroneously operates the switch for fire escape, the emergency light is turned off.

That is, the conventional disaster prevention room system controls the emergency light to be turned on when a fire is detected by a fire sensor or the like, and turns off the corresponding emergency light when an unlit control signal is received by manual switch operation It is causing great damage.

Registration No. 10-0763823

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems of the prior art, and an object of the present invention is to provide a lighting device for a lighting device, such as a lighting device, And to provide a control system.

According to an aspect of the present invention, there is provided a light control system including an emergency situation notification unit for receiving a detection signal from at least one detection sensor and generating an emergency occurrence notification signal; A malfunction prevention unit for continuously transmitting a pulse signal having a predetermined period upon receiving the emergency occurrence notification signal from the emergency situation notification unit; An emergency occurrence processing request including pattern information set at a time point when the pulse signal received from the malfunction prevention unit changes from one of a high state and a low state of the corresponding pulse signal to another state, An external contact input unit for transmitting a signal; When an electric lighting control request signal is received from an external light control manual switch, a control signal for turning on or off is sent to an external electric lamp control device corresponding to the electric lamp on / off request signal, When receiving the process request signal, extracts a control target address corresponding to the pattern information included in the received emergency generation process request signal and transmits a lighting control signal to each of the lamp control devices corresponding to the extracted control target address, .

INDUSTRIAL APPLICABILITY As described above, according to the present invention, it is possible to prevent the electric lamp from being turned off due to manual switch operation by a pizza or the like in the event of an emergency.

In particular, the malfunction prevention unit that continuously transmits the pulse signal in the event of an emergency (for example, fire), automatically changes the pulse width or pulse period when the lamp control unit does not normally transmit the lamp lighting signal, The light-on signal can be continuously transmitted to the light control device.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a connection diagram of a building in a building including a light control system according to an embodiment of the present invention,
Fig. 2 is a functional block diagram of the light control system of Fig. 1,
3 is a functional block diagram of a light control system according to another embodiment of the present invention,
4 is a diagram showing an example of a pulse signal transmitted from the malfunction prevention unit included in the light control system of FIG.

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

Hereinafter, embodiments of the present invention will be described in order to facilitate understanding of the present invention, and the present invention is not limited to these embodiments. Particularly, the present invention can be constituted by at least any one or more combinations of individual configurations or individual functions included in each embodiment.

A schematic configuration of an overall system including an emergency situation control system 100 according to an embodiment of the present invention is as shown in FIG.

In the present embodiment, the emergency situation control system 100 is an example of a light control system 100 that performs lighting processing of a light when an emergency occurs, but the present invention is not limited thereto.

Particularly, in the present embodiment, a description will be made mainly on a case where a fire has occurred, among other various emergency situations, and it goes without saying that the present invention can be applied to all emergency situations.

FIG. 1 schematically shows a signal line connection state of an entire building 10 equipped with the light control system 100.

Referring to FIG. 1, each layer is provided with lamps 210 and 220, lamp control units 410 and 420, and manual switches 310 and 320. Here, the lamp control units 410 and 420, For example, a relay, and the manual switches 310 and 320 may be connected to the lamps 210 and 220, respectively, according to the control of the light control system 100, as described later, The person manipulates the light to turn on or off the light.

That is, when the manual switches 310 and 320 are operated, the manual switches 310 and 320 output a signal (for example, a lamp lighting request signal or a lamp lighting request signal) And the light control system 100 performs appropriate processing according to the lamp on / off request signal received from the manual switches 310 and 320, which will be described later in more detail.

1, each of the lamps provided in each layer is turned on according to the control of the light control system 100 in an emergency, and may be, for example, an emergency induction lamp used in a fire situation. In this embodiment, As an example.

The detection sensors 510 and 520 detect the occurrence of various emergency situations and transmit a detection signal. For example, when the detection sensors 510 and 520 sense a specific spectrum of flame or detect a fire or a smoke, It is possible to detect a fire and transmit a detection signal.

The light control system 100 processes the lights on / off according to the signals received from the manual switches 310 and 320 and the sensing sensors 510 and 520. In the light control system 100, As shown in Fig.

As shown in the figure, the light control system 100 includes an emergency state notification unit 110, a malfunction prevention unit 120, an external contact input unit 130, a lamp control unit 140, and a signal detection unit 150 Lt; / RTI >

The emergency situation notification unit 110 receives a detection signal from at least one detection sensor 510 and 520 to generate an emergency occurrence notification signal. The emergency situation notification unit 110 may be a kind of fire In this case, the fire detection notification unit 110 receives a fire detection signal from at least one fire detection sensor 510 and 520, generates a fire occurrence notification signal, A fire occurrence notification signal can be transmitted.

In the following description of each component, an emergency situation of fire occurrence will be mainly described, but the present invention is not limited thereto as described above.

The malfunction prevention unit 120 continuously transmits a pulse signal having a predetermined period when receiving an emergency occurrence notification signal (for example, a fire occurrence notification signal) from the emergency situation notification unit 110. [ For example, when the malfunction prevention unit 120 receives the fire occurrence notification signal, the malfunction prevention unit 120 can continuously transmit the pulse signal having the cycle of 5 ms as shown in FIG. 4 (a).

The malfunction prevention unit 120 has an additional feature, which is related to the functions of other components to be described below, and a more detailed description thereof will be separately described below.

The external contact input unit 130 is preset at a time point when the pulse signal received from the malfunction prevention unit 120 changes from one of a high state and a low state of the corresponding pulse signal to another state And transmits the emergency occurrence process request signal including the pattern information (for example, a fire occurrence process request signal).

For example, when receiving a low signal from the malfunction prevention unit 120, the external contact input unit 130 maintains a standby state. When receiving a high signal from the malfunction prevention unit 120, When the pulse signal is continuously received from the malfunction prevention unit 120, the external contact input unit 130 outputs a signal indicating that the pulse signal is in a low state And sends a fire generation process request signal every time the time is switched to the high state.

Here, the pattern information included in the fire occurrence process request signal is information indicating that the fire is generated in various emergency situations. For example, although not shown in FIG. 2, the external contact input unit 130 receives a signal informing emergency situations from various devices At this time, the external contact input unit 130 extracts pattern information corresponding to each emergency situation, and generates and transmits an emergency situation processing request signal including the extracted pattern information. That is, the fire occurrence process request signal is an example of the emergency situation process request signal.

When the lamp control unit 140 receives the lamp turn on / off request signal from the external lamp control manual switches 310 and 320, the lamp control unit 140 turns on / off the external emergency lamp controllers 410 and 420 corresponding to the lamp turn on / And transmits a control signal for extinguishing. Here, when the lamps 210 and 220 controlled by the lamp control unit 140 are emergency lights, the lamp control unit 140 may be referred to as an emergency light control unit.

That is, in the event of a fire or other emergency, commercial power is cut off to the lamps 210 and 220 provided in each floor of the building, and emergency power generation electricity may be provided. The lamp control unit 140 of the present invention, The control method of the lamps 210 and 220 of the respective layers may be different depending on whether the emergency power source is supplied or the commercial power source is supplied.

For example, even if the same emergency situation occurs, the light control unit 140 controls all of the lamps 210 and 220 of each layer to be turned on when the commercial power is supplied. On the other hand, when the emergency power is supplied, Only a part of all of the lamps 210 and 220 may be turned on.

Whether the commercial power source and the emergency power source are supplied may be determined by a method of measuring a voltage of a corresponding port or a method of judging by using information provided from the outside.

1, the lamp control device 410 is configured separately from the lamp (i.e., the emergency lamp). However, it goes without saying that the lamp control devices 410 and 420 may be integrally formed with the emergency lamp.

In general, it may be necessary to turn on / off the emergency light according to the selection of the occupant of the building 10 in general. The light control unit 140 controls the emergency light control request switches 310 and 320, The control signal for turning on the emergency light is transmitted to the emergency light control devices 410 and 420. When the emergency light off request signal is received, the control signal for turning off the emergency light is transmitted to the emergency light control devices 410 and 420 .

When the emergency control unit 130 receives an emergency generation process request signal (a fire generation process request signal in the case of a fire) from the external contact input unit 130, the light control unit 140 controls the control corresponding to the pattern information included in the received emergency generation process request signal Extracts a target address, and transmits a lighting control signal to each of the lamp controllers 410 and 420 corresponding to the extracted control target address.

That is, the control target address corresponding to each pattern information may be stored in the light control unit 140. For example, the address of each of the emergency lights 210 and 220 for controlling when a fire occurs (more precisely, The address of the emergency light adjusting devices 410 and 420 may be registered in correspondence with the fire occurrence pattern information.

For example, when a fire occurrence process request signal is received from the external contact input unit 130 in a state where the addresses of the emergency light control units 410 and 420 of the second to fifth layers are registered in the fire occurrence pattern information, The control unit 140 extracts the addresses of the emergency light controllers 410 and 420 from the second to fifth layers and controls the emergency lights 210 and 220 of the second to fifth layers to be lighted It is.

The light control unit 140 can control the emergency lights 210 and 220 to be turned on or off according to the user's operation on the emergency light control manual switches 310 and 320. If a fire occurs The malfunction prevention unit 120 continuously transmits the pulse signal and the external contact input unit 130 periodically transmits a fire generation process request signal to the lamp control unit 140. As a result, 140 also periodically transmit a lighting control signal to each of the emergency light control devices 410 and 420. When the emergency light control switches 310 and 320 operate to turn off the emergency light 210 and 220 So that the lighting can be performed immediately.

That is, even if the emergency state notifying unit 110, the external contact input unit 130, and the light control unit 140 use a conventional technique as shown in FIG. 2, a malfunction prevention unit 120 It is possible to solve the problem caused by manual switch operation such as fire emergency of users.

In particular, the malfunction prevention unit 120 may be detachably mounted in the fire emergency light control system 100 described above, and may be easily installed in a system for controlling conventional fire emergency light.

Meanwhile, the signal detector 150 performs a function of detecting various signals transmitted from the light controller 140 or input to the light controller 140 in the middle.

Specifically, the signal detector 150 can detect whether the light controller 140 is transmitting a light control signal to the emergency light controllers 410 and 420, and the emergency light control manual switches 310 and 320 can detect whether the light controller It may detect the emergency light on / off request signal transmitted to the controller 140 in the middle.

The malfunction prevention unit 120 may perform the following additional functions according to the detection result of the signal detection unit 150.

First, if the control signal detector 150 does not detect that the light control signal is transmitted by the light controller 140 even though the pulse controller 120 continuously transmits the pulse signal to the external contact input unit 130, At least one of the pulse width and the pulse period can be changed according to a predetermined algorithm and transmitted.

For example, the light control unit 140 or the external contact input unit 130 may erroneously process a signal received from an external source at a time interval that is too short, by its own algorithm or its own configuration. The light control unit 140 may not transmit the light control signals 410 and 420 to the emergency light control unit even if the malfunction prevention unit 120 continuously transmits the pulse signal.

As described above, the emergency light may be turned off by the operation of the emergency light control manual switches 310 and 320 by the user when a fire occurs. In order to prevent such a situation, the malfunction prevention unit 120 includes a signal detection unit The control unit 140 monitors whether the light control unit 140 continuously transmits a light control signal to the emergency light control units 410 and 420 through the LEDs 150 and 150. If the light control unit 140 does not transmit the light control signal, And changing the period to transmit.

For example, the malfunction preventing unit 120 does not transmit the lighting control signal to the emergency light adjusting units 410 and 420 in the light control unit 140 even though the pulse signal having the pulse width of 5 ms is continuously transmitted as shown in FIG. 4 (a) It is possible to transmit a pulse signal having a pulse width of 300 ms as shown in FIG. 4 (b).

In addition, when the signal detector 150 detects the emergency light on / off request signal while continuously transmitting the pulse signal to the external contact input unit 130, the malfunction prevention unit 120 may include the emergency light on / off request signal And generates and transmits a fire victim position notification signal including the extracted control target address information.

That is, the malfunction prevention unit 120 continuously transmits the pulse signal to the external contact input unit 130 in order to automatically turn on the emergency light due to the occurrence of a fire. At this time, the user intentionally or accidentally manipulates the emergency light The fact that the request signal or the emergency light off request signal has been generated means that the fire victim is located at the corresponding position. Therefore, the malfunction prevention unit 120 determines that the control object address information included in the emergency light on / Information), and generates and transmits a fire victim position notification signal including the extracted control target address information.

In this case, the emergency light control switch is used not to turn on / off the emergency light but to inform the position of the fire victim.

In particular, the malfunction prevention unit 120 may transmit a fire victim position notification signal in order based on the priority of the preset address book. Here, the fire victim position notification signal may be a text message or a malfunction prevention unit 120 And an ARS (Auto Response System) function.

The transmission of the text message and the call connection technique to the ARS system are well known in the art and will not be described in detail.

In the above-described embodiment, the fire occurrence situation is assumed to be an example, but the present invention is not limited thereto.

That is, the emergency situation control system 100 according to the present invention can be configured as shown in FIG.

3 illustrates a configuration of a system 100 'provided in an emergency room or the like. In FIG. 3, a fire receiver 110', an external contact input device 130 ', a controller 140' 160 'may correspond to a configuration included in, for example, a conventional disaster prevention room system.

The present invention can be operated in a configuration in which the malfunction prevention unit 120 described above is additionally provided, and further, the signal detection unit 150 can be further constructed and operated.

3 will be described by referring to the emergency situation notification unit 110 of FIG. 2, the external contact input device 130 'of FIG. 3 is connected to the emergency situation notification unit 110 of FIG. 2 may correspond to the external contact input unit 130, and the control unit 140 'of FIG. 3 may correspond to the light control unit 140 of FIG.

In particular, in FIG. 3, the external contact input device 130 'receives not only the signal received from the fire receiving module 110' but also the external contact signal device 160 '(for example, Can also be input.

3, the malfunction prevention unit 120 is provided between the fire receptor 110 'and the contact signal device 160' to solve the problem caused by the manual operation of the user's switch in other emergency situations The malfunction prevention unit 120 may be provided only between the specific device (for example, the fire reaction unit 110 'except the other contact signal unit 160') and the external contact input unit 130 ' Of course it is.

Meanwhile, it goes without saying that the process of performing each of the above-described embodiments can be performed by a program or an application stored in a predetermined recording medium (for example, a computer-readable). Here, the recording medium includes an electronic recording medium such as a RAM (Random Access Memory), a magnetic recording medium such as a hard disk, and an optical recording medium such as a CD (Compact Disk).

At this time, the program stored in the recording medium may be executed on hardware such as a computer or a smart phone to perform each of the above embodiments. In particular, at least one of the functional blocks of the fire emergency light control system according to the present invention described above can be implemented by such a program or an application.

The present invention is not limited to the above-described specific embodiments, and various modifications and changes may be made without departing from the gist of the present invention. It is to be understood that such variations and modifications are intended to be included in the scope of the appended claims.

100: fire emergency light control system 110: fire detection notification unit
120: Malfunction prevention part 130: External contact input part
140: Emergency light controller 150: Signal detector

Claims (5)

An emergency situation notification unit for receiving a detection signal from at least one detection sensor and generating an emergency occurrence notification signal;
A malfunction prevention unit for continuously transmitting a pulse signal having a predetermined period upon receiving the emergency occurrence notification signal from the emergency situation notification unit;
An emergency occurrence processing request including pattern information preset at a time point when a pulse signal received from the malfunction prevention unit changes from one of a high state and a low state of the corresponding pulse signal to another state, An external contact input unit for transmitting a signal;
When an electric lighting control request signal is received from an external light control manual switch, a control signal for turning on or off is sent to an external electric lamp control device corresponding to the electric lamp on / off request signal, When receiving the process request signal, extracts a control target address corresponding to the pattern information included in the received emergency generation process request signal and transmits a lighting control signal to each of the lamp control devices corresponding to the extracted control target address, And a control unit for controlling the light control unit. The method according to claim 1,
Wherein the emergency situation notification unit is a fire detection notification unit for receiving a fire detection signal from at least one fire detection sensor and generating a fire occurrence notification signal,
The malfunction prevention unit continuously transmits a pulse signal having a predetermined period upon receiving the fire occurrence notification signal from the fire detection notification unit,
Wherein the external contact input unit transmits a fire generation process request signal including predetermined pattern information,
The light control unit transmits a control signal for turning on or off the external emergency light control device corresponding to the emergency light on / off request signal from the external emergency light control manual switch, When a fire occurrence request signal is received from the input unit, extracts a control destination address corresponding to the pattern information included in the received fire occurrence request signal, and outputs a light emission control signal to each of the emergency light control apparatuses corresponding to the extracted control destination address And transmits the light control signal. 3. The method of claim 2,
Further comprising a signal detector for detecting a signal transmitted from the emergency light controller to the outside,
Wherein the malfunction prevention unit is configured to control the pulse width of the pulse signal to be at least one of the pulse width and the pulse period of the pulse signal when the control signal detection unit does not detect that the light control signal is transmitted by the emergency light control unit while the pulse signal is continuously transmitted to the external contact input unit And changing one of the plurality of light control signals according to a predetermined algorithm. 3. The method of claim 2,
Further comprising a signal detector for detecting an emergency light on / off request signal transmitted from the emergency light control manual switch to the emergency light controller,
The malfunction prevention unit extracts control target address information included in the emergency light on / off request signal when the signal detection unit detects the emergency light on / off request signal while continuously transmitting the pulse signal to the external contact input unit And generates and transmits a fire victim position notification signal including the extracted control target address information. 3. The method of claim 2,
Wherein the malfunction prevention unit transmits the fire victim position notification signal in order based on the priority of the preset address book.

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