KR102187620B1 - Smoke and Fire Detection System - Google Patents

Abstract

The present invention relates to a smoke and fire detection system. According to the present invention, the characteristics of an object in a set space are made more intelligent for physical and chemical state detection, the detected information is transmitted to a person through a long-term evolution (LTE) mobile communication network, and thus communication between the object and the person can be performed without restricting space. The system includes: a detection unit (100) detecting a change in physical and chemical state in a set space, converting it into an electric signal, and transmitting the signal; a warning unit (200) receiving the electric signal and outputting danger and response signals using various multimedia such that recognition from the outside is possible when a change equal to or greater than a limit value occurs; a transmission unit (300) connected to an internet communication network and transmitting, in a set order, location information and the change in physical and chemical state as the danger signal is released from the warning unit multimedia; and a terminal unit (400) receiving the location information and the change in physical and chemical state transmitted through the transmission unit from the outside, recognizing the situation of the set space, and transmitting the response signal based on selection.

Description

Smoke and Fire Detection System

The present invention relates to a smoke and fire detection system, and more particularly, to detect a physical and chemical state by further intelligentizing the characteristics of objects existing in a set space, and to detect the detected information through a long term evolution (LTE) mobile communication network. It relates to a smoke and fire detection system that communicates between objects and people without space restrictions by sending them to a person.

In general, when a fire occurs, visually check within or around the fire site and report it to the fire department. In most cases, it is after the fire has already spread before visual inspection. At this time, if there is a rescued person at the fire site, the rescued person is unprotected and encroached by the fire, and life may be at risk.

Conventional fire detectors sound an alarm when a flame that has already spread greatly and excessive smoke is generated.This alarm method has already spread to some extent, resulting in damage to humans due to smoke inhalation, and collapse of a building due to the flame. It has a problem that it cannot be effectively prevented in a timely and in a timely manner.

A number of studies have been conducted to solve the above conventional problems. For example, the technical idea of a fire detection system using Bluetooth is published in Korean Patent Publication No. 10-2009-0037603. This technical idea has the advantage of sharing fire alarms in the case of fire through Bluetooth, which is capable of wireless communication, and enabling initial response to emergency situations by transmitting and receiving fire information to individuals related to the emergency center in the initial fire situation. As the limited and insecure connection network is used, space restrictions are inevitably set.

Publication Patent No. 10-2009-0037603 (Publication date 2009.04.16.)

The present invention was created to more actively solve the above problems, and detects the physical and chemical state of the setting space by reinforcing the intelligent characteristics of objects existing in the setting space, and detects it through a long term evolution (LTE) mobile communication network. Its purpose is to provide a smoke and fire detection system that communicates between objects and people without space restrictions by transmitting information to people.

In order to achieve the above problem, the configuration of the smoke and fire detection system proposed by the present invention is as follows.

The present invention includes a sensing unit 100 that detects a change in a physical and chemical state of a set space, converts it into an electrical signal, and transmits it; A warning unit 200 for receiving an electrical signal and outputting a danger signal and a response signal using various multimedia so that when a fluctuation occurs above the threshold value, it can be recognized from the outside; A transmission unit 300 connected to an Internet communication network and transmitting location information and changes in physical and chemical conditions in a setting order according to the emission of a danger signal from the warning unit multimedia; And a terminal unit 400 that receives the location information transmitted from the outside through the transmitter and the change of the physical and chemical state, recognizes the condition of the set space, and transmits a response signal according to the selection.

The detection unit 100 includes a smoke detection unit 110 for converting and transmitting an electrical signal by detecting whether smoke is generated in a set space using light scattering; As heat above a set temperature is generated, a heat sensing unit 120 for converting and transmitting an electrical signal by sensing expansion of air or deformation of metal;

The warning unit 200 includes an electric signal receiving unit 210 for receiving a smoke generation signal and an electric signal for heat generation above a set temperature and converting it into a danger signal; It consists of; a multimedia unit 220 for outputting the status of the set space while simultaneously emitting an alarm signal and a guide sound according to the danger signal.

The transmitter 300 includes a GPS unit 310 connected to an Internet network to receive a signal transmitted from a satellite and calculate location information of a set space; A setup contact network transmission unit 320 for setting information on the human network and the safety report center and sequentially transmitting the location information and the dangerous signal calculated by the GPS unit to the human network and the safety report center while converting the danger signal of the warning unit into a character string; Make up.

The terminal unit 400 includes a signal receiving unit 410 for receiving position information converted into a character string and a change in a physical and chemical state; An output unit 420 for outputting the character string received by the signal receiving unit on the screen; A response signal transmission unit 430 for recognizing a situation output to the output unit and transmitting a response message to the warning unit 200 to be output through multimedia; It consists of.

The sensing unit 100 is a thermal camera unit 130 that performs an operation according to the state detected by the smoke detection unit 110 or the heat detection unit 120, tracks and photographs the heat generation area of the set space, and transmits the photographed image. Includes.

The warning unit 200 includes a screen output unit 230 that calculates an electric signal received by the electric signal receiving unit in a form of splitting a screen and outputs a predicted time and temperature increase value at which the set space is saturated with smoke. do.

The screen output unit 230 is characterized in that it communicates with the outside of the setting space by using the contrast of the screen brightness.

According to the present invention having the above-described configuration, the spread of fire can be actively prevented by allowing the situation of the fire site to be transmitted to the outside without space restrictions by using the Internet of Things (IOT) connected to a long term evolution (LTE) mobile communication network. I can.

In addition, fire-fighting rescuers are unnecessarily dispatched by sending a fire danger signal to the family, relatives, or apartment management offices who are rescuers first, and then sending it to the safety report center 119 when the brake is not applied to the transmission of the danger signal. Can be prevented.

In addition, in addition to the above emergency situations, it is also possible to obtain an advantage of being able to check the physical and chemical state of the setting space on the setting space or the mobile phone terminal.

1 is a configuration diagram configured according to a preferred embodiment of the present invention.
Figure 2 is a configuration diagram configured according to another embodiment of the present invention.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to embodiments described later in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms. However, this embodiment allows the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have, and the invention is only defined by the scope of the claims. In addition, the same reference numerals refer to the same elements throughout the entire specification.

Hereinafter, with reference to the accompanying drawings, the configuration of the present invention, and actions and effects thereof will be described collectively.

Conventionally, a Wi-Fi communication network was used for communication between an object existing in a setting space and an external person. Wi-Fi is blocked from transmitting and receiving data if it is out of its connection range.If data transmission and reception is blocked in an emergency such as a fire, the Internet of Things (IOT) technology that utilizes Wi-Fi is artificial. It is only an intelligent information and communication technology, and is a technical idea that is no different from a detector that emits only a simple warning sound.

In order to improve the above problems, the smoke and fire detection system of the present invention further intelligentizes the characteristics of objects existing in the setting space to detect the physical and chemical state of the setting space, and transmits the detected information to a long term evolution (LTE) mobile communication network. It should be noted that it is about a smoke and fire detection system that enables communication between objects and people without space restrictions by allowing them to be transmitted to people through space.

As shown in FIG. 1, the present invention includes: a sensing unit 100 that detects a change in a physical and chemical state of a set space, converts it into an electrical signal, and transmits it; A warning unit 200 for receiving an electrical signal and outputting a danger signal and a response signal using various multimedia so that when a fluctuation occurs above the threshold value, it can be recognized from the outside; A transmission unit 300 connected to an Internet communication network and transmitting location information and changes in physical and chemical conditions in a setting order according to the emission of a danger signal from the warning unit multimedia; And a terminal unit 400 that receives the location information transmitted from the outside through the transmitter and the change of the physical and chemical state, recognizes the condition of the set space, and transmits a response signal according to the selection.

In more detail, the detection unit 100 detects the temperature of the set space and the presence or absence of smoke through a heat sensor, a smoke detection sensor, or the like.

That is, the detection unit 100 includes a smoke detection unit 110 for converting and transmitting an electrical signal by detecting the presence or absence of smoke in a set space using light scattering; As heat above a set temperature is generated, a heat sensing unit 120 for converting and transmitting an electrical signal by sensing expansion of air or deformation of metal;

The above cooperation between the smoke detection unit 110 and the heat detection unit 120 improves accuracy by detecting changes in the physical amount of smoke and temperature when a fire occurs, preventing the occurrence of errors and actively preventing the occurrence of accidents. prevent.

The warning unit 200 includes an electric signal receiving unit 210 for receiving a smoke generation signal and an electric signal for heat generation above a set temperature and converting it into a danger signal; It consists of; a multimedia unit 220 for outputting the status of the set space while simultaneously emitting an alarm signal and a guide sound according to the danger signal.

The electric signal receiving unit 210 converts the electric signal detected and transmitted by the sensing unit 100 into a dangerous signal when it exceeds a threshold value and transmits it to the multimedia unit 220.

The limit value refers to a limit value for the degree of expansion of air or deformation of metal as smoke is generated in a set space and heat above a set temperature is generated using light scattering.

The multimedia unit 220 notifies the fire situation to the outside through an alarm signal corresponding to the danger signal, for example, a siren or light emission, and emits a preset guide voice at a time. It is natural that a separate logical database (batabase) and a software server may be provided to implement this operation. The guide voice may be an evacuation instruction and a lifesaving procedure in the event of a previously recorded fire, and may be a message of a string transmitted through the response signal transmission unit 430 of the terminal unit 400 as another embodiment. The logical database (DB) described above is a method for implementing the corresponding operation.

The transmission unit 300 is connected to an Internet communication network and transmits location information and changes in physical and chemical conditions according to a setting sequence according to the emission of a danger signal from the warning unit multimedia, where the Internet communication network refers to a long term evolution (LTE) mobile communication network. As a result, since there is no connection range limitation due to the conventional Wi-Fi communication network, the stability of the communication network connection is secured.

In more detail, the transmitter 300 includes a GPS unit 310 connected to an LTE network to receive a signal transmitted from a satellite and calculate location information of a set space; A setup contact network transmission unit 320 for setting information on the human network and the safety report center and sequentially transmitting the location information and the dangerous signal calculated by the GPS unit to the human network and the safety report center while converting the danger signal of the warning unit into a character string; Make up.

The GPS unit 310 receives a signal transmitted from a satellite, calculates current location information of a set space, and transmits location information when a danger signal is generated.

The setting contact network transmission unit 320 is preset with a contact number of the owner of the setting space or a personal network of the user, such as family and relatives, and a safety report center number 119. In the event of a fire, data obtained by converting the location information and the danger signal of the GPS unit 310 into a character string according to the danger signal of the warning unit 200 are transmitted to family members, relatives, and apartment management offices. At this time, setting information is transmitted through the LTE mobile communication network, enabling fire response without interruption of data transmission and reception in case of fire.

If any braking is not applied to the operation of the warning unit 200 within a set time after transmitting the setting information to the family, relatives, and apartment management office, the setting contact network transmission unit 320 sends location information and messages to 119, a preset safety report center. Transmit.

In another embodiment, the setting information may be simultaneously transmitted to the terminals of family members, relatives, and apartment management offices. This aims to improve fire suppression and rescue probability.

The terminal unit 400 is an end point at which a danger signal message is transmitted through the setting contact network transmission unit 320, and may be a mobile phone terminal of a family or relative, an apartment management office, a safety report center, or a separate device connected to a wireless communication network.

The terminal unit 400 includes a signal receiving unit 410 for receiving position information converted into a character string and a change in a physical and chemical state; An output unit 420 for outputting the character string received by the signal receiving unit on the screen; A response signal transmission unit 430 that recognizes a situation output to the output unit and transmits a response message to the warning unit 200 to be output through multimedia.

The signal receiving unit 410 receives the danger signal of the character string transmitted from the transmitting unit and exposes it to the output unit 420. The user of the terminal may separately report to the safety report center 119 after recognizing the situation exposed to the output unit 420. Separately, when a response message is created and transmitted, it may be transmitted to the multimedia unit 220 of the warning unit 200 through an Internet communication network to be emitted as a voice message. Through this, it is possible to actively prevent the casualties of victims at the fire site.

Hereinafter, to avoid overlapping descriptions with the above-described configuration, another embodiment of a smoke and fire detection system according to the present invention will be described with reference to FIG. 2.

The sensing unit 100 is a thermal camera unit 130 that performs an operation according to the state detected by the smoke detection unit 110 or the heat detection unit 120, tracks and photographs the heat generation area of the set space, and transmits the photographed image. Includes.

The thermal camera unit 130 is operated according to the fluctuation signal of the physicochemical state, and before the signal is generated, the thermal camera unit 130 may be in a power saving mode or a power failure state to reduce power consumption. When a danger signal is generated, the thermal camera unit 130 operates to first photograph the set space as a whole, photographs a particularly high temperature side, and then encodes an image and decodes it into JPG and transmits it to the terminal unit 400 through an Internet communication network. At the same time, the warning unit 200 described above; A transmission unit 300; Since the operation is performed at the same time, the cause of the fire and location information can be checked in the terminal unit 400.

The warning unit 200 calculates an electric signal received from the electric signal receiving unit and the multimedia unit in a form of splitting a screen into a number, and outputs a predicted time and temperature increase value at which the set space is saturated with smoke. ). The screen output unit 230 performs flash communication with the outside of the set space using the contrast of the screen brightness.

The warning unit 200 may be provided with a display means, which is referred to as a screen output unit 230.

The screen output unit 230 is provided with a logical database, calculates the electric signal received by the electric signal receiving unit as a numerical value, outputs a predicted time when the set space is saturated with smoke, and outputs a temperature increase value in real time.

In addition, image information decoded as a jpg image is output from the thermal camera unit 130 so that a rescued person isolated at the fire site checks the origin of the fire so that the initial response can be appropriately performed. In addition, the response signal transmission unit 430 transmits the scene trying for the rescued from the outside and outputs it on the screen output unit 230, thereby increasing the mental stability of the rescued person isolated at the fire site. have.

The screen output unit 230 may be appropriately utilized in addition to the above-described situations, and this allows the brightness contrast of the screen output unit 230 to be adjusted when a fire occurs to enable flash communication with the outside.

The flash communication is a communication method in which a light is flickered and the meaning is transmitted by the length and the number of times of the time. The brightness of the screen output unit 230 is controlled, that is, a fire situation is notified to the outside through blinking. At this time, the period may be configured the same as the SOS signal of the Morse code, and this can be sufficiently realized if the danger signal acts as an input to the logical database and induces a short-circuit of power through the output.

The sensing unit 100 of the present invention; A warning unit 200; The transmission unit 300 is interlocked to share information, and in sharing the information collected by the detection unit 100 through the transmission unit 300 using an LTE mobile communication network, the sharing terminal transmits a fire situation due to power problems. Even if it cannot be done, it is possible to actively prevent the spread of fire by transmitting the situation of the fire site to a shared terminal that has been set first.

The fire site situation information sharing process is transmitted to a personal network such as family, relatives, or apartment management offices first, and then to the safety report center 119 when no brake is applied. In other words, even if there is no power in the mobile phone terminals of family members or relatives, the spread of fire can be prevented by sending them to the safety report center after the apartment management office.

In addition, in addition to the above emergency situation, it is also possible to obtain an advantage of being able to check the physical and chemical state of the setting space on the setting space or the mobile phone terminal.

It will be apparent that a separate database and server may be provided in order to implement the present invention described above, and descriptions of facts that are obvious in the art may be omitted.

It has been described with reference to the exemplary embodiment illustrated in the drawings above, but this is merely exemplary, and it should be clarified that various modifications and other equivalent exemplary embodiments are possible from those of ordinary skill in the art. Accordingly, the true technical protection scope of the present invention should be interpreted by the appended claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: detection unit 110: smoke detection unit
120: thermal sensing unit 130: thermal camera unit
200: warning unit 210: electric signal receiving unit
220: multimedia unit 230: screen output unit
300: transmitter 310: GPS unit
320: setting contact network transmission unit 400: terminal unit
410: signal receiving unit 420: output unit
430: response signal transmission unit

Claims (5)

A sensing unit 100 that detects a change in the physical and chemical state of the set space, converts it into an electrical signal, and transmits it;
A warning unit 200 for receiving an electrical signal and outputting a danger signal and a response signal using various multimedia so that when a fluctuation exceeding the threshold value occurs, external recognition is possible;
A transmission unit 300 connected to an Internet communication network and transmitting position information and changes in physical and chemical conditions in a setting order according to the emission of a danger signal from the warning unit multimedia;
A terminal unit 400 that receives the location information transmitted from the outside through the transmission unit and the change of the physical and chemical state, recognizes the situation of the set space, and transmits a response signal according to the selection,
The sensing unit 100,
A smoke detection unit 110 for converting and transmitting an electrical signal by detecting the presence or absence of smoke in a set space using light scattering;
Consists of; a heat sensing unit 120 for converting and transmitting an electrical signal by sensing expansion of air or deformation of metal as heat above a set temperature is generated, and
The warning unit 200,
An electrical signal receiving unit 210 for receiving a smoke generation signal and an electrical signal for heat generation above a set temperature and converting it into a danger signal;
It consists of; a multimedia unit 220 outputting the status of the set space while simultaneously emitting an alarm signal and a guide sound according to the danger signal,
The transmission unit 300,
A GPS unit 310 which is connected to an Internet network and receives a signal transmitted from a satellite and calculates location information of a set space;
A setup contact network transmission unit 320 for setting information on the human network and the safety report center and sequentially transmitting the location information and the dangerous signal calculated by the GPS unit to the human network and the safety report center while converting the danger signal of the warning unit into a string. Configure,
The terminal unit 400 is
A signal receiving unit 410 for receiving location information converted into a character string and a change in a physical and chemical state;
An output unit 420 outputting a character string received by the signal receiving unit on the screen;
Consists of; a response signal transmission unit 430 that recognizes the situation output to the output unit and transmits a response message to the warning unit 200 to be output through multimedia,
The sensing unit 100 further includes a thermal camera unit 130, and the thermal camera unit 130 is operated in accordance with a fluctuation signal of a physical and chemical state, and before the signal is generated, a power saving mode or a power failure state for reducing power consumption When a danger signal occurs, the thermal camera unit 130 operates to first take a picture of the set space as a whole, and in particular, the high temperature side, and then image encoding and decoding into JPG and transmitted to the terminal unit 400 through the Internet communication network. And
Image information decoded as a jpg image is output from the thermal camera unit 130 so that a rescued person isolated at the fire site can check the origin of the fire so that the initial response can be properly performed, and the response signal transmission unit 430 Through the transmission of the scene working for the rescued from the outside and outputting it on the screen output unit 230, the mental stability of the rescued person isolated in the fire scene can be increased,
The screen output unit 230 can be appropriately utilized in addition to the above circumstances, which is a smoke and fire detection characterized in that when a fire occurs, the brightness contrast of the screen output unit 230 is adjusted to enable flash communication with the outside. system. delete delete delete delete

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