KR101975021B1 - Fire-fighting safety management system using communication facility of apartment house - Google Patents

Abstract

The present invention relates to a firefighting safety management system using a communication facility of an apartment house, which allows a fire for each household of an apartment house to be sensed and propagated based on a sensing signal of a home fine dust measurer installed at each household of an apartment house and a communication facility of a corresponding apartment house. According to the present invention, the firefighting safety management system using a communication facility of an apartment house comprises a fine dust measurer, a household intercom, a household indoor air measurement value database server, a firefighting control server, an intercom system, a robot cleaner, and a mobile smart device. According to the present invention, the fire in the corresponding household is sensed based on a sensing signal of a fine dust measurer installed in each household of an apartment house to normally maintain a 24-hour operation status, thereby fundamentally solving the mismanagement of a corresponding sensor due to dependency only on an existing firefighting-dedicated sensor and a non-operation phenomenon caused thereby.

Description

Fire-fighting safety management system using communication facility of apartment house}

The present invention is based on the detection signal of the household fine dust meter installed in each generation of the apartment house in the field of firefighting technology and communication of the apartment house to enable fire detection and propagation of each generation of the apartment house based on the communication facility of the apartment house It is about firefighting safety management system using facility.

In general, apartments refer to apartments, officetels, townhouses and multi-family houses, and these apartments are equipped with a fire fighting system for detecting and extinguishing fires.

In addition, the above-described fire-fighting system is usually a detection unit for detecting the occurrence of fire, a control unit for operating the alarm device or operating a sprinkler and fire shutter, etc. when the fire is detected in the detection unit, sprinkler and fire shutter operated by the control unit It consists of firefighting equipment departments.

However, the conventional fire fighting system is installed only in the corridor and emergency stairs of the multi-family house, and is not installed in each generation of the multi-family house, which can lead to a large fire without the rapid response to the elementary fire in the household.

In addition, the conventional fire fighting system is a method that can not continuously check whether the operation of the detection unit is normally performed, and thus, when the fire occurs, the detection unit of the fire fighting system does not operate normally, so that the entire fire fighting system is often inoperable. It is occurring. In detail, the fire protection system is regularly inspected for the reasons described above, but abnormality of the detection unit may occur during the regular inspection day, and there is a possibility that the detection unit may not operate normally in the event of a fire.

On the other hand, in recent years, the inflow of smog from China has increased significantly, and the frequency of inflow is also increasing. Accordingly, the concentration of fine dust and ultrafine dust in the air is often high or very high.

Therefore, the interest in people's air quality is increasing, which leads to the interest in indoor air in the home as well as outdoor air, and it is expected that the use of household fine dust meters will be widely used as well.

Accordingly, the present applicant has been focused on the fact that the household fine dust measuring device is normally operated for 24 hours in each household of the apartment house and that the communication facility connecting the guard room or the management room and each household is installed in the apartment house. The invention was proposed.

Korean Patent Registration No. 10-1926746 (August 7, 2018.), “Fire safety system using electric and communication facilities of public housing” Korean Patent No. 10-1852397 (April 27, 2018 announcement), “Fire fighting fire suppression system using electricity and communication facilities of public housing”

An embodiment of the present invention is a communication facility of a multi-family house to enable fire detection and propagation of each generation of a multi-family house on the basis of the detection signal of the household fine dust meter installed by each generation of the multi-family house and the communication facility of the corresponding multi-family house Provides a fire safety management system.

In addition, an embodiment of the present invention is a robot cleaner installed in each generation of a multi-family house operating in accordance with the remote control signal of the fire control server based on the detection signal of the household fine dust meter installed in the household suspected fire of the household To obtain the video information of the site in the event of a fire, and to transmit the acquired video information to the security room, the management room or the mobile smart device carried by the residents of the household through the communication facility of the apartment. Provide fire safety management system.

Fire safety management system using a communication facility of a multi-unit house according to an embodiment of the present invention, is installed in the unit (10) in units of households 11, one or more units per household (11) is installed in the household (11) The concentration of fine dust and ultrafine dust in indoor air is measured at 1 hour intervals, and the unique value of the corresponding generation 11 is included in the measured value of the fine dust and ultrafine dust and transmitted to an external receiving target. Fine dust measuring device 100 and the fine dust measuring device 100 is installed so as to be connected to the fine dust measuring device 100 by wire or wirelessly for each generation (11) in which the fine dust measuring device 100 and Generation interphone 200 for receiving the measurement value of the ultra-fine dust, and transmits the detection signal of the received fine dust measuring device 100 to the intercom system 500 of the multi-family house 10, and the fine dust measuring device ( The ball measured through 100) The fire determination reference concentrations of the fine dust and the ultrafine dust in the indoor air of each household 11 in the house 10 are mapped and stored with the unique identification information of the corresponding household 11, and the fire determination reference concentration is the generation (11). The average concentration of the hourly air on the basis of 24 hours per day based on the concentration of fine dust and ultrafine dust in the indoor air measured in units of 1 hour through the fine dust measuring device 100 for a predetermined reference measurement period Household indoor air measurement value database server 300, which is a value, is connected to the intercom system 500 of the multi-family house 10, and is connected to the generation indoor air measurement value database server 300, and the multi-family house 10 Fine dust threshold and ultra-fine dust threshold for determining whether the generation of fire in each generation is set, the fine dust transmitted through the generation interphone 200 and interphone system 500 When the measured value of the measuring device 100 and the fire determination reference concentration of the household stored in the household indoor air measurement value database 300 are compared and the difference exceeds at least one of the fine dust threshold and the ultra fine threshold. It is determined that a fire has occurred in the household 11, and generates a fire generation signal according to the determination, and generates the fire generation signal by including the unique identification information of the household 11 in the intercom system 500. Fire control server 400 to be transmitted to the fire control server 400, and the measurement value of the fine dust measuring unit 100 is relayed to, the fire control signal from the fire control server 400 receives the display panel Externally outputs through at least one of the 510, the speaker 520 and the alarm device 530, the three fire signal received from the fire control server 400 The interphone system 500 relayed to the interphone 200 and the generation interphone 200 of the corresponding household 11 are provided for each generation 11 of the multi-unit house 10 in which the fine dust measuring device 100 is installed. Receiving the fire generation signal of the fire control server 400 is received and transmitted through), the mobile smart device 700 includes a connection 610 that is mechanically and electrically detachable, the fire of the fire signal The movement path according to the reception is set in advance, and when the fire occurrence signal is received, the movement path is moved along the preset movement path, and at the same time, a photographing control signal is transmitted to the mobile smart device 700 through the connection unit 610, thereby transmitting the mobile signal. Peripheral images are captured by the camera module 710 of the smart device 700, and photographing of the camera module 710 transmitted from the mobile smart device 700. Information can be transferred to the generation of video intercom 200 of the generation include a robot cleaner 600 to be transmitted to the video intercom system 500.

According to an embodiment of the present invention, the fire detection and propagation of each generation of the multi-family house can be made on the basis of the detection signal of the household fine dust meter installed for each generation of the multi-family house and the communication facility of the multi-family house.

In addition, the robot cleaner installed in each generation of the apartment house operates according to the remote control signal of the fire control server based on the detection signal of the household fine dust meter installed in the household, so that the site can be used in a fire suspect or fire situation of the household. Video information is transferred to the mobile smart device carried by the security office, the management room or the residents of the household through the communication facilities of the apartment house, so that the security room of the apartment house, the management room and the household of the household Residents can better understand the fire situation and take action.

1 is a configuration diagram schematically illustrating a fire safety management system using a communication facility of a multi-unit house according to an embodiment of the present invention.
Figure 2 is a block diagram of a fire safety management system using a communication facility of a multi-unit house according to an embodiment of the present invention
3 is a diagram illustrating a data storage method of a generation indoor air measurement value database server in a fire safety management system using a communication facility of a multi-unit house according to an embodiment of the present invention.
And
Figure 4 is a flow chart illustrating the operation flow of the fire safety management system using a communication facility of a multi-unit house according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following detailed description of the present invention refers to embodiments in which the present invention may be practiced and to the accompanying drawings, which are shown by way of illustration of the embodiments. These embodiments are described in detail sufficient to enable those skilled in the art to practice the invention. It is to be understood that the various embodiments of the invention are different, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention with respect to one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each described embodiment may be changed without departing from the spirit and scope of the invention.

The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined only by the appended claims, along with the full scope of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

The terms used in the present invention have been selected as widely used general terms as possible in consideration of the functions in the present invention, but this may vary according to the intention or precedent of the person skilled in the art, the emergence of new technologies and the like. In addition, in certain cases, there is also a term arbitrarily selected by the applicant, in which case the meaning will be described in detail in the description of the invention. Therefore, the terms used in the present invention should be defined based on the meanings of the terms and the contents throughout the present invention, rather than the names of the simple terms.

In the present invention, when a part of the whole "includes" a certain component, this means that unless otherwise stated, it may further include other components, not to exclude other components. In addition, the “…” described in the specification. Wealth ”, The term “module” refers to a unit that processes at least one function or operation, which may be implemented in hardware or software, or a combination of hardware and software.

1 to 4 will be described a fire safety management system using a communication facility of a multi-unit house according to an embodiment of the present invention.

1 is a block diagram schematically illustrating a fire safety management system using a communication facility of a multi-unit house according to an embodiment of the present invention, Figure 2 is a fire fighting using a communication facility of a multi-unit house according to an embodiment of the present invention 3 is a block diagram of a safety management system, and FIG. 3 is a diagram illustrating a data storage method of a generation indoor air measurement value database server in a fire safety management system using a communication facility of a multi-family house according to an embodiment of the present invention.

As shown, the fire safety management system using a communication facility of a multi-unit house according to an embodiment of the present invention, the fine dust measuring device 100, household interphone 200, household indoor air measurement database server 300, fire fighting The control server 400, the interphone system 500, the robot cleaner 600, and the mobile smart device 700 are configured to be included.

The fine dust measurer 100 is installed in units of units 11 in apartments, officetels, tenement houses, and multi-family houses (hereinafter, collectively referred to as “public housing”). The fine dust measurer 100 is One or two or more units are installed for each household 11 to measure the concentration of fine dust and ultrafine dust in the indoor air of the household 11 at an interval of 1 hour. In addition, the fine dust measuring unit 100 includes the unique identification information of the corresponding generation 11 in the measured value of the fine dust and ultra-fine dust and transmits it to an external receiving target. In other words, the fine dust measurer 100 transmits the measurement values of the fine dust and the ultra fine dust including the unique identification information of the corresponding generation 11 to the generation interphone 200 which will be described later.

Generation interphone 200 is installed so as to be wired or wirelessly connected to the fine dust measuring device 100 for each generation (11) where the fine dust measuring device 100 is installed of the fine dust and ultra-fine dust of the fine dust measuring device 100 Receives the measurement value, and transmits the detection signal of the fine dust measuring device 100 to the intercom system 500 of the multi-family house 10 in real time.

The generation indoor air measurement value database server 300 has a fire determination reference concentration of the fine dust and the ultra fine dust among the indoor air of each household 11 in the multi-family house 10 measured by the fine dust measurer 100. It is mapped and stored in the unique identification information of (11). Here, the fire determination reference concentration is 24 hours per day based on the concentration of fine dust and ultrafine dust in the indoor air measured in units of 1 hour through the fine dust measuring device 100 during a predetermined reference measurement period for each generation (11) The concentration value is averaged by hourly unit.

The fire control server 400 is connected to the intercom system 500 of the multi-family house 10 and to the household indoor air measurement value database server 300. And the fire control server 400 is set the fine dust threshold and ultra-fine dust threshold for determining whether the generation of fire in the apartment house 10.

Accordingly, the fire control server 400 stores the measured value of the fine dust measurement device 100 transmitted through the generation interphone 200 and the interphone system 500 and the generation fire of the corresponding household stored in the household indoor air measurement value database 300. It is determined that a fire has occurred in the household 11 when the difference is greater than at least one of the fine dust threshold and the ultrafine dust threshold. The fire control server generates a fire occurrence signal according to the determination that the fire has occurred as described above, and generates the fire occurrence signal by including the unique identification information of the corresponding household 11 in the fire occurrence signal. Send to 500.

The interphone system 500 of the multi-family house 10 relays the measurement value of the fine dust measurement device 100 to the fire control server 400 and receives the fire occurrence signal from the fire control server 400 to display the display panel 510. ), An external output through at least one of the speaker 520 and the alarm device 530. In addition, the intercom system 500 relays the fire occurrence signal received from the fire control server 400 to the generation interphone 200.

The robot cleaner 600 is provided for each generation 11 of the multi-unit house 10 in which the fine dust measuring device 100 is installed, and is received and transmitted through the household interphone 200 of the household 11. Receive the fire occurrence signal. In addition, the robot cleaner 600 includes a connection part 610 to which the mobile smart device 700 is mechanically and electrically detachable, and a movement path for receiving the fire occurrence signal of the fire control server 400 may be previously set. Is set.

Accordingly, when the robot cleaner 600 receives the fire occurrence signal of the fire control server 400, the robot cleaner 600 moves along the preset movement path and simultaneously transmits a shooting control signal to the mobile smart device 700 through the connection unit 610. The surroundings are photographed by the camera module 710 of the mobile smart device 700. In addition, the robot cleaner 600 transmits photographing information of the camera module 710 transmitted from the mobile smart device 700 to the intercom system 500 of the household 10 to the interphone system 500 of the multi-family house 10. To be.

In addition, the fire safety management system using a communication facility of the multi-unit housing according to an embodiment of the present invention is installed for each household 11 of the multi-family house 10 fire fighting received through the household interphone 200 of the household 11 The control server 400 may further include an alarm device, a sprinkler and a fire shutter (not shown) that operate according to a fire occurrence signal.

By the above-described configuration, the fire detection and propagation of each generation of the multi-family house can be made on the basis of the detection signal of the household fine dust meter installed for each generation of the multi-family house and the communication facility of the multi-family house. In particular, as the fire detection of the household is made based on the detection signal of the fine dust measuring device installed in the unit of households and maintained for 24 hours, the sensor is managed only by relying on the existing fire sensor only. Insolvency and thus non-operation can be fundamentally solved.

In addition, the robot cleaner installed in each generation of the apartment house operates according to the remote control signal of the fire control server based on the detection signal of the household fine dust meter installed in the household, so that the site can be used in a fire suspect or fire situation of the household. Video information, and the video information is transferred to the security room, management room or the mobile smart device carried by the residents of the household through the communication facility of the apartment, the guard room, management room and the corresponding Residents of households will be able to better understand the fire situation and take action.

Figure 4 is a flow chart illustrating the operation flow of the fire safety management system using a communication facility of a multi-unit house according to an embodiment of the present invention.

Referring to this, in step (S100), the concentration of fine dust and ultrafine dust in the indoor air for each generation of the multi-family house is measured in a 1 hour period through the fine dust meter in the household.

In step S120, the measured value measured in step S110 is transmitted in real time to the intercom system of the apartment house through the household interphone of the household.

In step S130, the interphone system transmits the measurement value of the fine dust meter received through step S120 to the fire control server.

In step S140, the fire control server compares the measured value of the fine dust measuring device received through step S130 and the fire determination reference concentration of the corresponding household stored in the generation indoor air measurement value database server.

In step S150, the fire control server in the fine dust that the difference between the fine dust measurement value of the fine dust meter according to the step (S140) and the fire determination reference concentration for the fine dust is preset in the fire control server It is determined whether the threshold value is exceeded, and if it is exceeded, the fire control signal is generated by the fire control server and is transmitted to the intercom system (S170). If it is not exceeded, the process proceeds to step S160.

In step S160, in the fire control server, the difference between the ultra-fine dust measurement value of the fine dust measurer according to step S140 and the fire determination reference concentration for the ultra fine dust is preset in the fire control server. It is determined whether the ultra-fine dust threshold is exceeded, and if exceeded, the fire control signal is generated and transmitted to the intercom system (S170). If not, the process returns to the previous step (S110).

In step S170, a fire occurrence signal is generated through the fire control server and transmitted to the intercom system.

In step S180, the intercom system transmits the fire occurrence signal received through step S170 to the generation interphone of the household, and also sends the fire occurrence signal to the outside through at least one of the display panel, the speaker, and the alarm device. Output

In step S190, the generation interphone receiving the fire generation signal according to step S180 transmits the fire generation signal received to the robot cleaner provided in the household.

In operation S200, a photographing control signal is transmitted to the mobile smart device through the connection of the robot cleaner.

In step S210, the mobile smart device photographs the inside of the household through the camera module according to the shooting control signal according to step S200.

In operation S220, an internal image of the corresponding generation captured by the camera module of the mobile smart device is transmitted to the intercom system through the robot cleaner and the intercom.

As described above, the present invention has been described in detail by specific embodiments such as specific components and the like, but the drawings are provided to help a more general understanding of the present invention, and the present invention is limited to the above embodiments. In other words, various modifications and variations are possible to those skilled in the art to which the present invention pertains.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and should not be defined, and not only the claims to be described later but all the equivalents or equivalent modifications to the claims shall fall within the scope of the present invention.

10: Apartment 11: household
100: fine dust meter 200: intercom
300: indoor indoor air measurement database server 400: fire control server
500: intercom system 510: display panel
520: speaker 530: alarm device
600: robot cleaner 610: connection
700: mobile smart device 710: camera module

Claims (1)

It is installed in the unit (10) unit of household (11), one or two or more per household (11) fine dust measuring device for measuring the concentration of fine dust and ultra-fine dust in the indoor air of the household (11) ( 100);
The fine dust measuring device 100 is installed to be wired or wirelessly connected to the fine dust measuring device 100 for each generation 11 on which the fine dust measuring device 100 is installed to receive the measurement values of the fine dust and the ultra fine dust of the fine dust measuring device 100. Generation interphone 200 for real-time transmission of the received detection signal of the fine dust measuring device 100 to the intercom system 500 of the multi-family house (10);
A fire control server 400 connected to the intercom system 500 of the multi-family house 10 and connected to a generation indoor air measurement database server 300;
The measurement value of the fine dust measuring device 100 is relayed to the fire control server 400, and a fire occurrence signal is received from the fire control server 400 to display the display panel 510, the speaker 520, and the alarm device. An intercom system 500 for externally outputting through at least one of 530 and relaying a fire occurrence signal received from the fire control server 400 to the generation interphone 200;
Of the fire control server 400 is provided for each generation 11 of the multi-unit house 10 is installed fine dust measuring unit 100 is received and transmitted through the generation interphone 200 of the household 11 In the fire safety management system comprising a robot cleaner 600 for receiving a fire occurrence signal, the movement path according to the reception of the fire occurrence signal is set in advance and moved according to the predetermined movement path when the fire occurrence signal is received. ,
The fine dust measuring device 100 measures the concentration of fine dust and ultra fine dust at an interval of 1 hour, and includes externally unique identification information of the corresponding generation 11 in the measured value of the fine dust and ultra fine dust. To the destination,
The generation indoor air measurement value database server 300 is the fire determination reference concentration of the fine dust and ultra-fine dust of the indoor air of each generation 11 in the apartment house 10 measured by the fine dust measuring device 100 Is stored mapped to the unique identification information of the household 11, the fire determination reference concentration is measured indoor unit by the hour 1 through the fine dust measuring unit 100 for a predetermined reference measurement period for each generation (11) Based on the concentration of fine dust and ultrafine dust in the air, the concentration value is averaged every hour based on 24 hours per day.
The fire control server 400 has a fine dust threshold value and an ultra fine dust threshold value for determining whether a fire occurs by generation in the multi-family house 10, and through the generation interphone 200 and the interphone system 500. The measured value of the fine dust measurer 100 transmitted and the fire determination reference concentration of the household stored in the household indoor air measurement value database 300 are compared and the difference is at least one of the fine dust threshold value and the ultra fine dust threshold value. If more than one, it is determined that a fire has occurred in the household 11 and generates a fire generation signal according to the determination, but generates the fire generation signal by including the unique identification information of the household 11 in the intercom. To the system 500,
The robot cleaner 600 includes a connection part 610 in which the mobile smart device 700 is mechanically and electrically detachable, and is moved according to the predetermined movement path when the fire occurrence signal is received. The photographing control signal is transmitted to the mobile smart device 700 through the camera module 710 of the mobile smart device 700 to photograph the surroundings, and the camera module transmitted from the mobile smart device 700. Transmits the photographing information of 710 to the intercom system 500 of the corresponding generation to be transmitted to the intercom system 500,
The detection signal of the fine dust measuring device 100 is installed for each generation 11 of the multi-unit house 10 and the communication facility of the multi-unit house 10 including the generation interphone 200 and the interphone system 500 Fire safety management system using a communication facility of the multi-family housing, characterized in that the fire detection and propagation for each generation (11) of the multi-family housing (10) based.

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