KR101817983B1 - Management system for exit sign - Google Patents

Abstract

The present relates to a management system for a firefighting exit sign which can remotely sense an operation state of an exit sign installed in a stair or a hallway, a door, and so on of a building. More specifically, the present invention relates to a management system for a firefighting exit sign which can handle a safety accident by preventing an exit sign from malfunctioning or non-functioning since an operation state of the exit sign can be frequently sensed. To this end, the management system comprises: a sensing unit for sensing an operation of the exit sign; a transmitting unit for transmitting sensed data; a receiving unit for receiving and outputting the transmitted data; a server; and a monitoring unit.

Description

{MANAGEMENT SYSTEM FOR EXIT SIGN}

The present invention relates to an indicator light management system for a fire extinguisher that remotely senses whether or not an indicator light installed on a stairway, a corridor, a door or the like of a building is operated, and more particularly to an indicator light management system for sensing the operation of an indicator light, And a monitoring unit for monitoring the operation of the guide light to prevent the guide light from malfunctioning or malfunctioning in case of a fire, so as to cope with a safety accident, ≪ / RTI >

In general, a guide light is provided for guiding an emergency exit to the outside in the event of a fire or the like, and is normally prescribed to be lit continuously for 24 hours.

Therefore, commercial power is supplied at normal time, and power is supplied from the internal rechargeable backup battery automatically at the time of power failure.

However, since such a conventional emergency exit lamp circuit uses a general fluorescent lamp circuit, the power consumption by the ballast is large and the maintenance cost is large. Therefore, the user tends to violate the fire regulation and turn off the emergency exit lamp normally There was a problem in preventing the accident.

In addition, the conventional emergency exit lamp has a problem that the manufacturing cost is increased by using a fluorescent lamp and the brightness of light is gradually reduced during long-term use. However, there is a problem in that it is difficult to grasp whether the lamp is operated or not, No. 10-0996889 " Emergency exit light remote management system ".

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

A controller for detecting the operation of the guide light and a controller for transmitting the sensed operation data and detecting the operation of the guide light remotely through a transmitter, a receiver, a server and a monitoring unit for receiving and outputting the sensed operation data, And to provide a fire fighting light guide management system.

In addition, the sensing unit is provided with a sensor for monitoring the amount of light emitted from an induction lamp, thereby enabling a more accurate detection of a malfunction and failure of the induction lamp.

It is another object of the present invention to provide a fire guidance lamp management system which is further provided with an alarm unit and designed so that the manager can check the malfunction or the failure more quickly.

In order to achieve the above object, the fire fighting direction management system of the present invention comprises:

A sensing unit for sensing an operation of the guide light;

A transmission unit provided in the sensing unit for transmitting operation data of the guide light;

A receiver for receiving data transmitted from the transmitter;

A server for analyzing and storing data received by the receiver;

A monitoring unit for outputting data stored in the server;

And a control unit.

As described above, according to the present invention,

By detecting the light intensity of the guide light in real time, it is possible to send the sensed data and monitor the operation of the guide light at the separate fire control center. It is possible to prevent the guide light from operating normally in the event of an accident.

Particularly, in the case of the guide lamp, it is difficult to confirm whether the operation is normal unless the actual user confirms it from time to time, and it is difficult to grasp the light amount of the light. It is possible to accurately grasp whether or not the guide lamp malfunctions.

Further, since the detection unit is provided with the detection sensor for detecting the light amount, the light amount is converted into the numerical data and outputted, and it is possible to accurately confirm whether the guide light is normally operated remotely.

FIG. 1 is a block diagram of a fire fighting lamp control system according to the present invention
FIG. 2 is a diagram of a fire fighting lamp control system according to the present invention
FIGS. 3 to 5 are detailed views of the sensing unit of the fire fighting vehicle lighting management system according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described in detail with reference to the accompanying drawings.

While the present invention has been described in connection with certain embodiments, it is obvious that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. It is to be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but on the contrary, is intended to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

In the drawings, the same reference numerals are used for the same reference numerals, and in particular, the numerals of the tens and the digits of the digits, the digits of the tens, the digits of the digits and the alphabets are the same, Members referred to by reference numerals can be identified as members corresponding to these standards.

In the drawings, the components are expressed by exaggeratingly larger (or thicker) or smaller (or thinner) in size or thickness in consideration of the convenience of understanding, etc. However, It should not be.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the term " comprising " or " consisting of ", or the like, refers to the presence of a feature, a number, a step, an operation, an element, a component, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

The fire fighting direction management system according to the present invention includes a sensing unit 10, a transmitter 20, a receiver 30, a server 40 and a monitoring unit 50, and includes a sensing unit 10 and a transmitter 20 The receiving unit 30, the server 40 and the monitoring unit 50 are installed in a separate space, that is, in a facility such as a control center in a building, a firefighting center, etc., (50) will be described in more detail below, but it may correspond to a display for outputting data or a mobile device of an administrator, and the scope of the rights should not be construed to be limited.

Hereinafter, each configuration will be described in more detail with reference to FIG. 1 and FIG. 2,

As shown in FIG. 3, the sensing unit 10 is provided around the guide light to confirm the operation state of the guide light. The sensing unit 10 is formed of a housing H, H comprises a main body H1 with a housing part formed thereon, a lid H2 covering the housing part, and a detection sensor 11 provided on the housing part, as will be described in more detail below.

The detection sensor 11 measures the light amount of the guide light, and transmits the measured operation data, that is, the light amount data, to the control center.

To this end, the sensing unit 10 is provided with a transmitting unit 20, and the transmitting unit 20 is capable of transmitting data using wifi, Bluetooth or another Internet or Ethernet network.

The transmitting unit 20 includes a beacon 21 that is provided in the sensing unit 10 and transmits data, a node 23 that receives and transmits data transmitted from the beacon 21, And a gateway 25 for collecting data transmitted from the receiver 30 and transmitting the collected data to the receiver 30.

Here, the beacons 21 are provided in the respective sensing units 10,

The node 23 refers to a terminal of a communication network for transmitting data.

The gateway 25 receives the data transmitted through the plurality of nodes 23 and transmits the data to the receiving unit 30.

Generally, a single building is provided with a plurality of guide lights, each guide light has a beacon 21, and a gateway 25 for receiving operation data of the beacon through the node 23 is configured as a single unit , And the gateway 25 transmits each guide light operation data to the reception unit 30 provided in the control center or the like.

Also, it is preferable that each guide light is assigned a unique number so that the manager can match the data signal and the guide light to each other,

It is also possible to assign a certain number of guide lights to a specific group by assigning a specific zone.

Specifically, for example, when the manager divides a specific area and integrally manages a plurality of guide lights provided in the area, it detects a change in voltage or current supplied to the area, transmits the detected voltage or current to the server, .

That is, when 20 induction lamps are assumed to be one group, if one or more induction lamps fail to turn off the power supply, a change in the supplied current or voltage may occur, and if such change is detected, It is possible to confirm that there is an abnormality in the guide lamp, and it is also possible to grasp the trouble of the guide lamp and to cope with it promptly.

Furthermore, the gateway 25 may be provided with a plurality of guide lights according to the number of guide lights, that is, the amount of data to be processed.

Further, the collected data is transmitted through the gateway 25, and the received data can be received by the receiving unit 30 and transmitted to the server 40.

The receiving unit 30 and the server 40 may be installed in a control center located in a separate building, a nearby fire station, or the like.

The receiving unit 30 functions to receive data transmitted through the transmitting unit 20, and the received data is stored in the server 40 and analyzed.

The data analyzed by the server 40 is output through the monitoring unit 50. The monitoring unit 50 may be an output device such as a monitor or a television set installed in a specific area, It is also possible to transfer data directly to the administrator's mobile device, and the scope of the rights should not be limited.

In addition, the server 40 further includes an alarm unit 41. The alarm unit 41 is for outputting an alarm sound or a pop-up signal when the indicator lamp malfunctions. So that it is possible to take an immediate action.

3 to 5 illustrate a modification of the sensing unit 10 according to the present invention,

The sensing unit 10 includes a main body H1 having a storage unit H, a cover H2 covering the storage unit of the main body H1, and a detection sensor 11 provided on the storage unit. .

In the figure, the housing (H) is formed in a rectangular box shape. However, this embodiment shows only one embodiment, and it may have a cylindrical shape, and the scope of the right should not be limited. Furthermore, it is preferable that a separate light transmitting portion D is formed in the lid H2 to measure the light amount of the light emitted from the detecting sensor 11 in the receiving portion.

Further, in order to more conveniently engage and separate the main body H1 of the housing H and the casing, the present invention further includes a separate engaging means.

The coupling means 60 allows the lid H2 to be easily coupled to and detached from the main body H1 without a fastening tool such as a screwdriver and a bolt.

Referring to Figures 3 and 4, the coupling means (60)

An engaging plate 61 provided on both sides of the lid H2 in forward and backward directions,

A coupling block 62 coupled to both side walls of the main body H1,

A guide groove 63 formed in the front and rear direction on the surface of the coupling block 62,

A depth adjusting plate 66 disposed at the bottom of the guide groove 63 for adjusting the depth of the guide groove 63 so that the guide groove 63 can be deepened rearward,

An engaging ball 64 which moves along the guide groove 63,

And a cover 65 covering the coupling block 62.

It is preferable that the front side of the guide groove 63 is located lower than the rear side and the engaging ball 64 located in the guide groove 63 is moved forward by its own weight.

The cover 65 is formed with an insertion hole 65a through which the coupling plate 61 is inserted so that the coupling plate 61 is spaced apart from the coupling block 62 by a predetermined distance, So that the engaging ball 61 can be inserted and the engaging ball 64 is not detached from the guide groove 63.

An inclined block 67 having an inclined surface corresponding to the inclined surface of the inclined portion 66a is formed on the inner surface of the front side of the depth adjusting plate 66 by the guide groove 63, Backward grooves 63a formed on the bottom of the housing 62. [

The inclined block 67 is elastically supported in the forward and backward grooves 63a by a spring 68 so that it is normally advanced to push the inclined portion 66a. Thus, the front side of the depth adjusting plate 66 is supported at the bottom of the guide groove 63, and the guide groove 63 is deepened from the front to the rear.

A lever 67a is connected to the front of the inclined block 67 and the lever 67a is exposed through the coupling block 62 and the cover 65. [ When the exposed lever 67a is pressed, the inclined block 67 is moved backward in the forward and backward grooves 63a so as to be able to descend to the floor on the front side of the depth control plate 66. [

It is preferable that the engaging ball 64 and the engaging plate 61 have a strong frictional force so that engagement by the engaging ball 64 is not arbitrarily released.

The process of coupling and separating the lid H2 and the main body H1 through the coupling means 60 constructed as described above will be described with reference to FIG.

When the lid H2 is coupled to the main body H1, first, the engaging plate 61 of the lid H2 is pushed into the closing hole 65a of the cover 65 and pushed.

5, the coupling plate 61 inserted into the input hole 65a enters between the coupling block 62 and the cover 65 and moves rearward, and the coupling plate 61, which moves backward, 5, the guide groove 63 is deeper as it goes backward, so that the engaging rod is guided by the guide groove (not shown) without any resistance, 63 so as to allow the movement of the coupling plate 61.

The coupling plate 61 further moves rearward beyond the coupling ball 64 and the coupling ball 64 is clogged behind the guide groove 63. [

When the rearward movement of the coupling plate 61 is completed, the coupling ball 64 moves forward along the guide groove 63 due to its own weight, and stops at a position where it contacts the coupling plate 61.

Referring to FIG. 5C, when the lid H2 is pulled in this state, that is, when the coupling plate 61 is moved forward, the engaging ball 64 is guided by the frictional force of the guide groove 63 And the depth of the guide groove 63 is reduced toward the front so that the engaging ball 64 which moves forward pushes the engaging plate 61 and pushes the pressed platen toward the cover 65). As the engaging ball 64 moves forward of the guide groove 63, the pressing force becomes stronger.

The coupling plate 61 is inserted between the coupling block 62 and the cover 65 through the hole 65a without any resistance so that the lid H2 and the main body H1 are coupled to each other. Even if the coupling plate 61 moves a little away from the input hole 65a, the coupling ball 64 strongly pressurizes the coupling plate 61 so that the coupling plate 61 is no longer separated and separated.

When separating the bracket 57 from the casing 51, the bracket 57 may be pulled by pressing the lever 67a.

5, when the lever 67a is depressed, the depth adjusting plate 66 is lowered to the front side to deepen the front side depth of the guide groove 63, 63 and does not press the coupling plate 61, the coupling plate 61 is separated and separated without any resistance.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Changes and substitutions are to be construed as falling within the scope of protection of the present invention.

10: Detection part H: Enclosure
11: Detection sensor H1:
H2: cover D: transparent portion
20: Transmitter 21: Beacon
23: node 25: gateway
30: Receiving unit 40: Server
41: alarm unit 50: monitoring unit

Claims (4)

A sensing unit 10 for sensing the operation of the guide light;
A transmitting unit 20 for transmitting operation data of the guide light collected by the sensing unit 10;
A receiving unit 30 for receiving data transmitted from the transmitting unit 20;
A server 40 for analyzing and storing data received by the receiving unit 30;
A monitoring unit 50 for outputting data stored in the server 40; And

The sensing unit 10
A main body H1 which is fixed to the mounting surface and forms a receiving portion therein; a cover H2 which opens and closes the receiving portion of the main body H1 and on which the transparent portion D is formed; (H) including a sensing sensor (11) for sensing light emitted from the induction lamp through a light source (D)
An engaging plate 61 provided on both sides of the lid H2 in forward and backward directions,
A coupling block 62 coupled to both side walls of the main body H1,
A guide groove 63 formed in the front and rear direction on the surface of the coupling block 62 and deepening in the backward direction,
A depth adjusting plate 66 disposed at the bottom of the guide groove 63 for adjusting the depth of the guide groove 63 so that the guide groove 63 can be deepened rearward,
An engaging ball 64 which moves along the guide groove 63,
And a cover 65 covering the coupling block 62,

When the engaging plate 61 moves between the engaging block 62 and the cover 65 and moves backward, the engaging ball 64 contacts the engaging plate 61 and moves along the guide groove 63 Is pushed rearward to allow the engagement plate 61 to advance,
When the engaging plate 61 moves forward, the engaging ball 64 which is in contact with the engaging plate 61 moves forward along the guide groove 63 to press the surface of the engaging plate 61 To refuse to leave
And a coupling means (60)
The cover 65 is provided with an insertion hole 65a through which the coupling plate is inserted so that the coupling plate 62 is spaced apart from the coupling block 62 by a predetermined distance and the coupling plate 61 is inserted And,
An inclined portion 66a is formed on the inner surface of the front surface of the depth adjusting plate 66 so that an inclined block 67 having an inclined surface corresponding to the inclined surface of the inclined portion 66a is formed on the bottom of the guide groove 63 Is housed in the forward / backward groove (63a) such that it can move back and forth,
The inclined block 67 is elastically supported in the forward and backward groove 63a by a spring 68 so that the depth of the inclined block 66a is normally advanced to push the inclined portion 66a. (63), and the guide groove (63) is configured to be deep from the front to the rear,
A lever 67a is connected to the front of the inclined block 67 and the lever 67a is exposed through the coupling block 62 and the cover 65. When the lever 67a is pressed, (67) is retracted within the forward and backward groove (63a) so as to descend to the front floor of the depth control plate (66). The method according to claim 1,
The sensing unit 10
And a detection sensor (11) for measuring a light amount of the guide light is provided. 3. The method of claim 2,
In the server 40,
Further comprising an alarm unit (41) for receiving malfunction data and outputting the malfunction data when the indicator lamp malfunctions. delete

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