KR102534178B1 - Fire detection method using indoor air purifier - Google Patents

Abstract

The present invention relates to a method for detecting a fire in an indoor space in which a wireless LAN (20) is formed. According to the present invention, a LAN terminal (30), such as a smartphone and the like, acquires the air quality detection information of an air quality device (10) connected to the wireless LAN (20) and transmits the detection information to a remote large-capacity detection server (21), and the detection server (21) connected to a detection database (22) processes the transmitted detection information to transmit appropriate situation information to the LAN terminal (30). Accordingly, early detection of fire signs can be performed in a general indoor wireless LAN (20) environment without any heat or smoke detection devices or expensive optical detection and associated signal processing devices.

Description

Indoor air quality-based fire sign detection method {FIRE DETECTION METHOD USING INDOOR AIR PURIFIER}

The present invention relates to a method for detecting a fire in an indoor space of a wireless LAN (20), wherein a LAN terminal (30) such as a smartphone obtains air quality detection information of an air quality device (10) connected to a wireless LAN (20). and transmits it to the large-capacity detection server 21 in a remote place, and the detection server 21 connected to the detection database 22 processes the transmitted detection information and transmits appropriate situation information to the LAN terminal 30.

As with other disasters, proper initial response to fire is a key factor in reducing damage, and various fire detection devices and techniques have been developed and utilized.

The operation method of the fire detection device can be largely classified into heat detection, smoke detection, and flame detection. Although these detection methods are usually mixed, as a means to immediately check whether a fire has occurred in the early stage is a flame detection method. That is, a method of detecting a flame is mainly used.

However, since the flame detection method has a characteristic of operating based on optical detection, it cannot escape the fundamental limitation that the detection effectiveness is seriously deteriorated in an indoor space partitioned by walls, etc. It is performed through smoke detection and heat detection.

In particular, in the indoor space fire detection of the above-mentioned smoke detection and heat detection methods, there is a significant difference in the effectiveness of each detection method, which is due to the characteristics of the room as a compartmentalized space. Since heat can be propagated or transferred by radiation or convection after the smoke has progressed, effectiveness in terms of early detection of fire is inevitably lacking, and a smoke detection method that detects relatively active transport and diffusion of smoke particles is advantageous. It can be done, and related prior art includes Patent No. 2359247 and the like.

Conventional indoor fire detection technology, including Patent No. 2359247, requires the installation and operation of a dedicated detection device as a basic requirement. It has the characteristics that require specialized skills.

That is, the conventional indoor fire detection technology can be applied only in a state in which a dedicated detection and control device, communication network, and alarm device are built, and is mainly applied only to large-scale indoor spaces such as public facilities or large buildings. In application to small indoor spaces such as homes or small buildings, practical limitations such as economic feasibility still exist.

However, the frequency of actual indoor fires is relatively frequent in general homes or small buildings, and fire response capabilities are inevitably insufficient compared to large-scale indoor spaces where management personnel reside. Detection may be more urgent.

In view of the above problems, the present invention was created to enable rapid and accurate detection of fire signs using only a general wireless LAN 20 and an air quality device 10 without the construction of an expensive dedicated detection means, and indoor air quality-based fire signs. In the detection method, an air quality device 10 equipped with an air quality sensor and a network adapter, a LAN terminal 30 connected to a wireless LAN 20, and a detection server connected to the wireless LAN 20 through the Internet ( 21), and a detection database 22 connected to the detection server 21 and containing identification information of the LAN terminal 30, model information and setting information of the air quality device 10 are configured, and the LAN terminal 30 Step of transmitting the identification information and type information to the detection server 21, and the detection server 21 records the identification information and type information in the detection database 22, and searches the detection database 22 with the type information to set information to the LAN terminal 30, the LAN terminal 30 generating call information using the setting information and transmitting the call information to the air quality device 10 through the wireless LAN 20; The device 10 transmits the detection information to the LAN terminal 30 through the wireless LAN 20, and the LAN terminal 30 transmits the detection information together with the identification information to the detection server 21; The detection server 21 searches the detection database 22 with the identification information and the detection information to generate situation information, and then transmits the generated situation information to the LAN terminal 30. A symptom detection method.

In addition, the present invention provides an indoor air quality-based fire symptom detection method, comprising: an air quality device (10) equipped with an air quality sensor and a network adapter; a LAN terminal (30) connected to the wireless LAN (20); and the wireless LAN (20). ) and a detection server 21 connected through the Internet, and a detection database 22 connected to the detection server 21 and containing identification information of the LAN terminal 30, model information and setting information of the air quality equipment 10 is configured, and the LAN terminal 30 transmits identification information and type information to the detection server 21, and the detection server 21 records the identification information and type information in the detection database 22 and converts them into type information Inquiring the detection database 22 and transmitting the setting information including the limit information to the LAN terminal 30, and the LAN terminal 30 recording the limit information in the storage device and generating call information using the setting information and transmitting call information to the air quality device 10 through the wireless LAN 20; transmitting the detection information to the LAN terminal 30 by the air quality device 10 through the wireless LAN 20; After the terminal 30 receives the detection information and compares it with the limit information, transmitting the detection information together with identification information to the detection server 21 when the detection information is in a limit state, and the detection server 21 converts the detection information into identification information and detection information. It is an indoor air quality-based fire sign detection method characterized in that it consists of the steps of: querying the detection database 22 to generate situation information including cancellation information, and then transmitting the generated situation information to the LAN terminal 30.

Through the present invention, it is possible to detect signs of fire early in a general indoor wireless LAN 20 environment without an expensive optical detection and related signal processing device as well as any heat or smoke detection device.

In particular, by applying the present invention in building an indoor fire sign detection system, it is not necessary to install dedicated detection equipment, and high-level expertise is not required in building and operating the equipment, so system construction and operation costs are drastically reduced. This can be reduced by expanding the spread of the fire symptom detection system, thereby suppressing the occurrence of fire and reducing related damage.

1 is a configuration diagram of the present invention
2 is a sequence diagram of the present invention
3 is an exemplary diagram of a LAN terminal of the present invention
4 is a sequence diagram of a LAN terminal controlled embodiment of the present invention

The detailed configuration and execution process of the present invention will be described through the accompanying drawings.

First, FIG. 1 shows the basic configuration of a fire symptom detection system to which the present invention is applied. As shown, the present invention relates to an environment in which a general TCP/IP-based Wireless Local Area Network (20) is created. In , the air quality device 10 connected to the wireless LAN 20 and the LAN terminal 30, which is an information device also connected to the same wireless LAN 20, are also connected to the same wireless LAN 20 through the Internet. It is performed by a detection server 21 in a remote location and a detection database 22 logically connected to the detection server 21.

The air quality device 10 of the present invention is a device for adjusting and adjusting indoor air quality, and includes general air purifiers as well as air conditioners equipped with an air purifying function.

That is, the air quality device 10 of the present invention has a built-in filter or adsorber for filtering or adsorbing particulate impurities in indoor air, forcibly intakes indoor air, supplies it to the filter or adsorber, and discharges purified air. As a device equipped with an airflow generating device such as a blower, a commercially available air purifier may be applied, and an air conditioner equipped with other air purifying functions may also be applied.

In particular, as described above, the air quality device 10 in the present invention is a device capable of accessing the TCP/IP-based wireless LAN 20, and is equipped with a network adapter for connecting to the wireless LAN 20 and also equipped with an indoor air quality sensor. At the same time, it is a device equipped with a microcontroller unit (MCU) that drives and controls a filter or adsorbent that performs indoor air quality control, which is an inherent function of the air quality device 10, and an airflow generating device.

Of course, the MCU of the air quality device 10 of the present invention drives and controls the air quality sensor and network adapter of the air quality device 10 in addition to the basic function of controlling the physical operation of the air quality device 10. The air quality sensor is the air quality device. As basic information is required for controlling and controlling the operating state of (10), an air quality sensor and an MCU driving and controlling it can be said to be essential components of a general air quality device 10, and most air purifiers and Since the air cleaning air conditioner is manufactured to enable home automation or IoT organization, a network adapter for accessing the wireless LAN 20 can also be said to be a virtually essential component.

A LAN terminal 30 is configured as another wireless LAN 20 access device of the present invention applied system illustrated in FIG. 1, where the LAN terminal 30, as in its dictionary meaning, accesses the wireless LAN 20 As an information device as a terminal capable of this, that is, a wireless network access information device capable of user manipulation or input/output, as shown, a smartphone or a PC connected to the wireless LAN 20 can be applied, and these LAN terminals 30 Since access to the wireless LAN 20 and information processing are performed as original functions, the present invention can be performed without any modification or manufacturing of dedicated devices.

The LAN terminal 30 of the present invention communicates with the air quality device 10 and the detection server 21 in the process of carrying out the present invention, performs basic detection information processing, etc., and provides an input/output interface to the user. A dedicated program to be loaded as an application program of the operating system of the LAN terminal (30).

As such, the LAN terminal 30 and the air quality device 10 of the present invention have a structure connected to the same wireless LAN 20, which is the same configuration as that of a general indoor wireless LAN 20, and the construction of the system of the present invention In addition to ensuring convenience in operation and operation, no dedicated equipment is required, so construction costs can be drastically reduced compared to conventional fire monitoring systems.

In particular, as illustrated in FIG. 1, a plurality of air quality devices 10 and a plurality of LAN terminals 30 can be simultaneously connected to a single wireless LAN 20, such as an indoor space in which a plurality of isolation spaces are partitioned, such as Even in an indoor space partitioned by walls or temporary walls, it is possible to relieve spatial restrictions in detecting signs of fire by operating separate air quality devices 10 for each partitioned space, and multiple LAN terminals 30, such as smart Stability of communication with the detection server 21 to be described later can also be secured through simultaneous wireless LAN access of the phone and the PC.

As shown in FIG. 1, the wireless LAN 20 of the present invention composed of an air quality device 10 and a LAN terminal 30 is connected to a remote detection server 21 through the Internet, and the detection server 21 The database 22 is connected. Here, the connection between the detection server 21 and the detection database 22 does not necessarily mean that the detection database 22 is separately built and connected to a communication network, but as shown by a virtual line in the figure. Likewise, the detection database 22 in the storage device of the detection server 21 is built, or the detection database 22 is built in a separate storage.

As such, in the present invention, in which the LAN terminal 30 is connected to the detection server 21 to which the detection database 22 is connected through the wireless LAN 20, as shown in FIG. 2, the LAN terminal 30 provides identification information and transmitting model type information to the detection server 21.

In each execution step of the present invention to be described later, the execution step of the LAN terminal 30 is performed by a dedicated program for performing the present invention loaded in the LAN terminal 30, that is, an application program of the operating system of the LAN terminal 30 described above. The execution step of the detection server 21 is also performed by the program dedicated to the execution of the present invention loaded on the detection server 21, and only the execution step of the air quality apparatus 10 is an air quality device other than the exclusive program of the present invention ( 10) It is performed by self-installed control and communication program.

As described above, the present invention is performed by participating in the air quality device 10 connected to the wireless LAN 20, and the air quality device 10 such as a commercially available air purifier includes a network adapter capable of accessing the wireless LAN 20 as well as Since the MCU controlling this is basically built-in, direct connection via the wireless LAN 20 of the air quality device 10 to the remote detection server 21 in a TCP/IP environment is not technically impossible.

Nevertheless, in the present invention, the reason why the direct connection of the air quality device 10 to the detection server 21 is excluded and the indirect connection of the detection server 21 by the LAN terminal 30 and the information transfer or mediation method is adhered to is the air quality device This is to enable detection of signs of fire only by installing an application program on the LAN terminal 30 without any hardware and software modifications to (10).

That is, since most air purifiers or air purifying air conditioners currently on the market are manufactured assuming a smartphone or PC connection through a wireless LAN 20, the connection between the air quality device 10 and the LAN terminal 30 of the present invention and information distribution can be performed without any modification of the air quality device 10, while a direct connection between the air quality device 10 and a remote server may involve extensive modification of the air quality device 10 hardware and software. Inevitably, considering this, in the present invention, information mediation or transmission by the LAN terminal 30 is performed.

In particular, through the LAN terminal 30 leading method of the present invention and the detection database 22 to be described later, the present invention can be applied to various air quality devices 10 from different manufacturers without difficulty, and thus, the air quality device 10 ), it is possible to build a fire sign detection system without restrictions on the type of fire.

Identification information transmitted to the detection server 21 in the initiation stage of the present invention is information for each LAN terminal 30 for identifying individual LAN terminals 30, which identifies individual users as well as self-identification of the indoor space. However, the identification information here is focused on distinguishing the indoor space where the fire symptom detection is performed rather than whether the user is qualified, and a plurality of identification information may be assigned to a single LAN terminal 30.

That is, when accessing different wireless LANs 20 even in the case of the same LAN terminal 30 or when a plurality of air quality devices 10 are connected to the same LAN terminal 30 as shown in FIG. 1, different identification information Alternatively, a plurality of identification information may be generated and distributed, and the processing of such distribution information is entirely performed by the above-described dedicated program loaded in the LAN terminal 30.

For example, when the same user's smart phone LAN terminal 30 is connected to the home wireless LAN 20 and the workplace wireless LAN 20, a dedicated program can generate different identification information.

The transmission of identification information and type information of the LAN terminal 30 may be performed as shown in the screen of FIG. 3, and when the step of transmitting the identification information and type information to the detection server 21 by the LAN terminal 30 is completed As shown in FIG. 2, the detection server 21 records the identification information and the type information in the detection database 22, searches the detection database 22 with the type information, and transmits the setting information to the LAN terminal 30. is performed

As described above, the detection database 22 connected to the detection server 21 contains various information required for the execution of the present invention, such as identification information, model information, setting information, detection information, and limit information and release information to be described later. As a database to be included, all information by manufacturer and model of existing air quality devices 10 is collected and built into a database, as well as continuously updated as new air quality devices 10 are released, and as a result, individual LAN terminals 30 Smooth and stable fire symptom monitoring becomes possible without frequent updates to the installed dedicated program.

Setting information that is searched in the detection database 22 by the detection server 21 and transmitted to the LAN terminal 30 refers to calling or controlling the air quality device 10 connected to the same wireless LAN 20 as the LAN terminal 30. As information, communication protocols and commands between the MCU of the air quality device 10 and the LAN terminal 30, which are set differently for each manufacturer as well as for each model, are included in the setting information, and the dedicated program loaded with the LAN terminal 30 is the setting information A command to be transmitted to the air quality device 10 is generated by utilizing .

As such, when the LAN terminal 30 acquires the setting information, the LAN terminal 30 generates call information using the setting information and transmits the call information to the air quality device 10 through the wireless LAN 20. As a result, an interconnection between the air quality device 10 and the LAN terminal 30 of the present invention and a substantial information circulation path are established.

Thereafter, a step is performed in which the air quality device 10 transmits the sensing information to the LAN terminal 30 through the wireless LAN 20, where the transmitted sensing information is a measurement value of an air quality sensor mounted in the air quality device 10 It is digitized information, and may include measurement values of gas sensors such as carbon dioxide and carbon monoxide as well as measurements of particle sensors that are basically installed in air purifiers or air purifying air conditioners.

Subsequently, after the LAN terminal 30 transmits the detection information together with the identification information to the detection server 21, the detection server 21 searches the detection database 22 with the identification information and the detection information to detect the situation. After generating the information, a step of transmitting the generated situation information to the LAN terminal 30 is performed, so that the user can check the situation information output through the LAN terminal 30 in real time, thereby identifying signs of fire. do.

The detection information relayed or transmitted to the detection server 21 by the LAN terminal 30 is processed by the above-described detection server 21-loaded dedicated program, which is digitized information. and identification information corresponding to the detected information to search the detection database 22, first identify the model of the air quality device 10 that generated the detected information, retrieve the reference information preset for the model, and then , By comparing with the detected information, whether or not there is a fire sign is created in the form of situation information.

That is, the detection server 21 retrieves fire sign discrimination standard information for each model based on the received detection information and identification information, compares the standard information and the detection information, and when the measurement value in the detection information exceeds the risk value in the standard information Circumstances that warn signs of fire are generated, and when the measured value in the detection information is less than the danger value in the reference information, the situation information in a normal state is generated and transmitted to the LAN terminal 30 .

In the above-described plurality of steps, steps after the step of transmitting call information from the LAN terminal 30 to the air quality device 10 through the wireless LAN 20 are periodically and repeatedly performed, thereby continuously monitoring signs of fire. This can be started and repeated only by the single driving of the dedicated program loaded on the LAN terminal 30. As described above, the dedicated program loaded on the LAN terminal 30 of the present invention performs a relay function of detection information It is focused on, and the required information capacity and communication load can be said to be extremely insignificant compared to other general application programs, and therefore, the computational resources consumed in the execution of the present invention can also be said to be extremely insignificant.

On the other hand, FIG. 4 shows a LAN terminal 30 controlled embodiment of the present invention, and communication load and detection between the wireless LAN 20 and the detection server 21 only with extremely simple supplementation of the LAN terminal 30 function. This is so that the processing capacity of the server 21 can be significantly reduced.

In the embodiment of FIG. 4, the overall system configuration and initiation steps are the same as those of the above-described embodiment of FIG. do.

That is, after the step in which the LAN terminal 30 transmits the identification information and the type information to the detection server 21, which is the initiation step of the invention, the detection server 21 records the identification information and the type information in the detection database 22, A step of inquiring the detection database 22 with model information and transmitting setting information including limit information to the LAN terminal 30 is performed. Here, the limit information is detection information received by a dedicated program of the LAN terminal 30. This is information that is a criterion for determining whether to transmit to the detection server 21.

Thereafter, the LAN terminal 30 records the limit information in its storage device, uses the setting information to generate call information, and transmits the call information to the air quality device 10 through the wireless LAN 20; A step in which the device 10 transmits detection information to the LAN terminal 30 through the wireless LAN 20 is performed.

Subsequently, when the LAN terminal 30 receives the detection information and compares it with the limit information, a step of transmitting the detection information together with the identification information to the detection server 21 is performed when the LAN terminal 30 is in a limit state, whereby the LAN terminal 30 It is determined primarily whether the detection information is abnormal, and the detection information and the like are transmitted to the detection server 21 through subsequent steps only in an abnormal state of the detection information, that is, in a suspected fire sign state.

As such, when the detection information is transmitted to the detection server 21 along with the identification information as the preliminary determination of the sign of fire is made because the measurement value in the detection information exceeds the threshold value in the limit information, the detection server 21 detects the identification information and A step of inquiring the detection database 22 with the detection information to generate situation information including release information and then transmitting the generated situation information to the LAN terminal 30 is performed. As shown in FIG. 4, valid release information is performed. Continuous reception and delivery of sensing information is performed until is received.

That is, once the detection information exceeds the limit information and the LAN terminal 30 transmits the detection information to the detection server 21, the detection information transmitted to the detection server 21 by the LAN terminal 30 as shown in FIG. Delivery is continuously repeated at a predetermined period, and as the detection server receives the continuously transmitted detection information and determines whether there is a fire sign, appropriate situation information is generated and transmitted to the LAN terminal 30.

Therefore, when a sign of fire is suspected based on the continuously received detection information, the detection server 21 generates situation information warning of signs of fire and transmits it to the LAN terminal 30, and when there is no risk of fire, the release information The included situation information is generated and transmitted to the LAN terminal 30, and the LAN terminal 30 stops the repeated transmission of the above-described detection information and switches to the normal state only after receiving the situation information including the release information. It will do.

In this way, the LAN terminal 30 primarily determines the dangerous situation, rather than always delivering the detection information, and entrusts the final determination to the detection server 21, while maintaining detection sensitivity and accuracy, Consumption can be minimized.

10: Air quality equipment
20: wireless LAN
21: detection server
22: detection database
30: LAN terminal

Claims (2)

In the method for detecting signs of fire based on indoor air quality,
An air quality device 10 equipped with an air quality sensor and a network adapter, a LAN terminal 30 connected to the wireless LAN 20, a detection server 21 connected to the wireless LAN 20 through the Internet, and detection A detection database 22 connected to the server 21 and containing identification information of the LAN terminal 30, model information and setting information of the air quality device 10 is configured;
Transmitting, by the LAN terminal 30, identification information and type information to the detection server 21;
the detection server 21 recording identification information and model information in the detection database 22, querying the detection database 22 with the model information, and transmitting setting information to the LAN terminal 30;
generating call information by the LAN terminal 30 using the setting information and transmitting the call information to the air quality device 10 through the wireless LAN 20;
transmitting, by the air quality device 10, detection information to the LAN terminal 30 through the wireless LAN 20;
transmitting, by the LAN terminal 30, detection information together with identification information to the detection server 21;
The detection server 21 searches the detection database 22 with the identification information and the detection information to generate situation information, and then transmits the generated situation information to the LAN terminal 30. Sign detection method.
In the method for detecting signs of fire based on indoor air quality,
An air quality device 10 equipped with an air quality sensor and a network adapter, a LAN terminal 30 connected to the wireless LAN 20, a detection server 21 connected to the wireless LAN 20 through the Internet, and detection A detection database 22 connected to the server 21 and containing identification information of the LAN terminal 30, model information and setting information of the air quality device 10 is configured;
Transmitting, by the LAN terminal 30, identification information and type information to the detection server 21;
The detection server 21 records identification information and type information in the detection database 22, searches the detection database 22 with the type information, and transmits setting information including limit information to the LAN terminal 30;
the LAN terminal 30 storing limit information in a storage device, generating call information using the setting information, and transmitting the call information to the air quality device 10 through the wireless LAN 20;
transmitting, by the air quality device 10, detection information to the LAN terminal 30 through the wireless LAN 20;
After the LAN terminal 30 receives the detection information, compares it with the limit information, and transmits the detection information together with the identification information to the detection server 21 when the detection information is in a limit state;
The detection server 21 searches the detection database 22 with the identification information and the detection information to generate context information including release information, and then transmits the generated context information to the LAN terminal 30. A method for detecting signs of fire based on indoor air quality.

Images