KR102370005B1 - Fire sensing device having peltier element - Google Patents

Abstract

The present invention provides a fire detector capable of detecting a fire without an external power supply or its own power supply.
A fire detector according to an aspect of the present invention includes a heat collecting unit that receives and transmits heat, a Peltier element connected to the heat collecting unit and generating a potential difference by the heat transferred from the heat collecting unit, and when a current is generated in the Peltier element, fire detection It includes a transmitter for transmitting a radio signal for, and a receiver for receiving the radio signal transmitted from the transmitter and notifying the occurrence of a fire.

Description

FIRE SENSING DEVICE HAVING PELTIER ELEMENT

The present invention relates to a fire detector and more particularly to a fire detector having a Peltier element.

In general, a fire detection device is used for the purpose of preventing human damage by sounding an alarm when a fire occurs in a building.

Such a fire detection device is divided into a device for detecting heat, a device for detecting smoke, and a device for detecting a flame when a fire occurs, and is fixed and installed on the ceiling of a building.

In addition, fire detection devices are legally required to be installed in buildings of a certain size or larger. However, the conventional fire detection device has a problem in that it is difficult to install the fire detector where there is no wiring because the wiring method is installed in a certain area of the building.

In addition, since multiple fire detection devices are connected in one circuit, in the event of a fire, the management office of the building is alerted only that a fire has occurred in the relevant area, and it is not known which of the multiple fire detection devices has been operated, so the manager can go to the scene of the fire. There was a problem that had to go out and find it with the naked eye.

Korean Patent Registration No. 1853919 (multi-purpose fire alarm) discloses a multi-purpose fire alarm capable of preventing not only fire, but also earthquake and theft, and performing self-inspection.

In addition, Republic of Korea Patent No. 1261883 (fire detection device using a heat sensing diode) relates to a fire detection device using a heat sensing diode, by detecting the ambient temperature using the voltage displacement of the heat sensing diode to determine whether a fire occurs , Disclosed is a fire detection device using a heat-sensing diode capable of simplifying the structure to facilitate manufacturing, reducing manufacturing cost, and improving durability.

Republic of Korea Patent Publication No. 2017-0008404 (wireless fire alarm using network communication) communicates with a smartphone through a communication module such as Wi-Fi mounted in a battery so that it can be immediately alerted to a smartphone in case of a fire, so that it is possible to take immediate action in case of a fire Disclosed is a wireless fire alarm using the Internet of Things (IOT).

An object of the present invention is to provide a fire detector that can be installed in a place where wiring is not installed, and can detect a fire without external power supply or self power supply.

A fire detector according to an aspect of the present invention includes a heat collecting unit that receives and transmits heat, a Peltier element connected to the heat collecting unit and generating a potential difference by the heat transferred from the heat collecting unit, and a fire detection when a current is generated in the Peltier element It includes a transmitter for transmitting a radio signal for, and a receiver for receiving the radio signal transmitted from the transmitter and notifying the occurrence of a fire.

The fire detector according to an aspect of the present invention further includes a control unit connected to the Peltier element and the transmitter, wherein the controller detects a voltage generated in the Peltier element to determine whether a fire exists, and transmits a signal to the transmitter there is.

The controller according to an aspect of the present invention may determine that a fire has occurred when a preset voltage is maintained for a preset time, and transmit a fire signal to the transmitter.

The transmitter according to an aspect of the present invention may transmit a radio signal at a natural frequency, and the receiver may display a number or location corresponding to the received frequency.

A plurality of heat collecting fins for collecting heat are installed in the heat collecting part according to an aspect of the present invention, the heat collecting part and the Peltier element are connected via a plurality of heat conductive rods, and the heat conductive rod is the Peltier A heat dissipation unit connected to one side of the device and emitting heat may be installed on the other side opposite to the one side.

According to an embodiment of the present invention, when a fire occurs, the Peltier element generates a potential difference by the heat transferred from the heat collecting unit and determines the presence or absence of a fire by the potential difference. I never do that. In addition, since the transmitter transmits a radio signal at the natural frequency of the fire alarm, the receiver can accurately indicate the location of the fire.

1 is a view showing a fire detector according to an embodiment of the present invention.
2 is a view showing a fire detector according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part "includes" a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated. In addition, terms such as “…unit”, “…group”, and “module” described in the specification mean a unit that processes at least one function or operation, which may be implemented as hardware or software or a combination of hardware and software. there is.

1 is a view showing a fire detector according to an embodiment of the present invention.

Referring to FIG. 1 , the fire detector 101 according to the present embodiment may include a heat collecting unit 10 , a Peltier element 20 , a control unit 30 , a transmitting unit 40 , and a receiving unit 50 . there is. The fire detector 101 is not connected to a separate power source and may be attached to a wall or the like inside a building.

The heat collecting unit 10 collects heat when a fire occurs and transfers it to the Peltier element 20 . To this end, the heat collecting unit 10 may include a support plate 11 and a plurality of heat collecting fins 12 protruding from the support plate 11 . Accordingly, the heat collecting unit 10 has a larger area for absorbing heat, so that the heat can be quickly collected and transferred to the Peltier element 20 . The heat collecting part 10 may be made of copper, aluminum, or the like having excellent thermal conductivity.

The Peltier element 20 is an element having a heat absorbing surface and a heat generating surface, and when a current is applied by the Peltier effect, one side is heated and the other side is cooled. In addition, the Peltier element 20 generates a voltage and a current when heat is transferred without a current applied thereto. The Peltier element 20 may be bonded to the heat collecting unit 10, and preferably may be bonded via a thermally conductive adhesive.

The control unit 30 is electrically connected to the Peltier element 20 to measure the voltage generated by the Peltier element 20 . The controller 30 may determine that a fire has occurred when the voltage of the Peltier element 20 is greater than or equal to the preset voltage for a preset time. When it is determined that a fire has occurred, the controller 30 transmits a fire occurrence signal to the transmitter 40 . Here, the voltage may vary according to the driving characteristics of the Peltier element 20 . For example, if the voltage of the Peltier element is 3V or more for 3 seconds, the controller 30 may determine that a fire has occurred.

The transmitter 40 transmits a signal through wireless communication when the fire occurrence signal is transmitted from the controller 30 . The transmitter 40 may transmit a signal through RF communication, Bluetooth communication, Wi-Fi communication, or the like. The transmitter 40 may transmit a signal with a preset natural frequency. When a plurality of transmitters 40 are installed inside a building, each of the transmitters 40 may generate signals of different frequencies.

Separate power is not connected to the Peltier element 20 , the controller 30 , and the transmitter 40 , and the transmitter 40 and the controller 30 are driven by the current generated by the Peltier element 20 .

The receiver 50 receives the signal transmitted from the transmitter 40, recognizes the frequency of the received signal, and displays a number or location corresponding to the frequency. Accordingly, through the receiver 50, the manager can quickly determine at which location the fire occurred.

As described above, the fire detector 101 according to this embodiment transmits a fire signal wirelessly using the Peltier element 20, so it can be easily installed even in a place where an electric wire is not installed, and heats up even without an external power supply. It can be used to generate an electric current and transmit a fire signal. In addition, the receiver 50 displays the number or location of the point where the fire occurred so that the manager can recognize the location of the fire, evacuate personnel quickly, and extinguish the fire.

2 is a view showing a fire detector according to another embodiment of the present invention.

Referring to FIG. 2 , the fire detector 102 according to the present embodiment includes a heat collecting unit 60 , a Peltier element 20 , a thermally conductive rod 65 , a heat dissipation unit 70 , a control unit 30 , a transmitter 40 , a receiver 50 , and a repeater 80 may be included. The fire detector 102 according to this other embodiment is the same as the fire detector according to the above-described embodiment except for the heat collecting part 60 , the thermal conductive rod 65 , the heat dissipation part 70 , and the repeater 80 . Since it has a structure, a duplicate description of the same configuration will be omitted.

A plurality of grooves 61 are formed in the heat collecting unit 60 , and the grooves 61 may have a honeycomb structure. Accordingly, since the heat absorbing area increases while preventing damage to the heat collecting unit 60 , heat can be quickly absorbed and transferred to the Peltier element 20 .

The thermally conductive rod 65 thermally connects the heat collecting part 60 and the Peltier element 20, and a plurality of thermally conductive rods 65 may be installed between the heat collecting part 60 and the Peltier element 20. . The thermally conductive rod 65 may be made of a material having higher thermal conductivity than the heat collecting part 60 . For example, the heat collecting part 60 may be made of aluminum and the thermally conductive rod 65 may be made of copper. When the thermally conductive rod 65 is installed in this way, since the distance between the heat source and the Peltier element 20 increases, the time at which the Peltier element 20 is damaged by heat can be delayed. At this time, the Peltier element 20 may be attached to the wall or inserted into the wall.

The thermally conductive rod 65 may be connected to one side of the Peltier element 20 and the heat dissipation unit 70 may be connected to the other side of the Peltier element 20 . The heat dissipation unit 70 includes a plurality of heat dissipation fins 71 , and the heat dissipation fins 71 may protrude to the outside of the wall to radiate heat. Accordingly, heat is transferred to the Peltier element 20 through the heat collecting unit 60 , and heat is emitted through the heat dissipating unit 70 , so that it is possible to more easily generate voltage and current.

The repeater 80 receives a signal from the transmitter and transmits the received signal to the receiver 50 . Accordingly, even when the distance between the transmitter 40 and the receiver 50 is long, the signal can be easily transmitted using the repeater 80 .

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention as defined in the following claims are also provided. is within the scope of the right.

101, 102: fire detector
10, 60: heat collecting unit
20: Peltier element
30: control unit
40: transmitter
50: receiver
65: thermally conductive rod
70: heat dissipation unit
80: repeater

Claims (5)

a heat collecting unit that receives and transmits heat;
a Peltier element connected to the heat collecting part and generating a potential difference by the heat transferred from the heat collecting part;
a transmitter for transmitting a radio signal for fire detection when a current is generated in the Peltier element; and
a receiving unit for receiving the radio signal transmitted from the transmitting unit and notifying the occurrence of a fire;
includes,
Further comprising a control unit connected to the Peltier element and the transmitter,
The control unit detects the voltage generated by the Peltier element to determine whether there is a fire, and transmits a signal to the transmitter,
The control unit determines that a fire has occurred when the preset voltage is maintained for a preset time, and transmits a fire signal to the transmitter,
The transmitter transmits a radio signal with a natural frequency, and the receiver displays a number or location corresponding to the received frequency,
The heat collecting part and the Peltier element are connected via a plurality of thermally conductive rods,
The thermally conductive rod is connected to one side of the Peltier element, and a heat dissipation unit for emitting heat is installed on the other side opposite to the one side,
A plurality of the thermally conductive rods are installed between the heat collecting part and the Peltier element, and the thermally conductive rods are made of a material having higher thermal conductivity than the heat collecting part,
A plurality of grooves are formed in the heat collecting part, and the grooves have a honeycomb structure. delete delete delete delete

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