KR101279886B1 - Firefighter Location Tracking System - Google Patents

Abstract

The present invention enables the firefighter to track the position of the firefighter without a battery by self-powered generation using the output pressure generated in the oxygen tank by the positive pressure breathing of the firefighter by the oxygen respirator for fire, as well as the firefighter to immediately grasp the dangerous state of the firefighter A location tracking system.
The firefighter position tracking system proposed by the present invention includes an oxygen breathing apparatus 1 for fire fighting, a small self-powered fan 2, and a position tracking transmission chip 3. (1) is connected to the oxygen tank (11) connecting hose (14), the self-powered fan (2) is a positive pressure breathing of the firefighter wearing a positive pressure breathing mask (13) of the oxygen respirator (1) in the life-saving It is characterized in that it is driven, the transmission chip 3 is operated by the electric power generated by the drive of the self-powered fan (2).

Description

Fireman location tracking system

The present invention enables the firefighter to track the position of the firefighter without a battery by self-powered generation using the output pressure generated in the oxygen tank by the positive pressure breathing of the firefighter by the oxygen respirator for fire, as well as the firefighter to immediately grasp the dangerous state of the firefighter A location tracking system.

In general, there are many cases of deaths due to firefighters' accidents. In order to prevent this, various prior arts have been proposed to secure the safety of firefighters by employing advanced communication equipment such as voice communication and location tracking.

However, current firefighters have not been able to realize lifesaving with these advanced communications equipment. The reason is that in the case of voice communication, it is difficult for the voice communication to the outside after it is put into the fire site by hot heat of the fire site, smoke, noise, vibration, dropping, collapse of the building, and rapidly changing situation. to be.

Therefore, a location tracking system that can track the position of the firefighters are used a lot, the prior art related to such a location tracking Patent Application No. 2003-0006745, Patent Application No. 2008-0066101, Patent Application No. 2009-0077331 And Patent Application No. 2009-0080718, Patent Application No. 2009-0110507, and the like.

However, the prior art proposed in the prior art only provides a system or equipment on how to accurately track the position of the firefighters and should not be overlooked. There is a big problem in not knowing the state of the firefighter when faced and using the battery as a power source of the transmission chip which transmits the position of the fireman.

More specifically, in the first case, the control tower or the team leader of the team detects that a firefighter who has been put into life-saving through the location tracking terminal has stopped for a long time in one place and the elapsed time exceeds the predictable range. I often send a fellow firefighter under the presumption.

However, when the accident occurred, it is often too late. On the other hand, there is a case where an accident has not occurred, and another accident is caused by unnecessary rescue behavior.

Therefore, it is true that the firefighter's individual simply providing the transmission chip is only to predict the state or situation of the firefighter, and the reliability and dependence are low.

Next, in the second case, the use of the battery for driving the transmission chip, the fatal drawback of the first consumables, and the second hassle has to check the management, testing, remaining amount, etc. of the battery from time to time.

First of all, due to the nature of firefighters, the number of dispatches is not high except in special areas, and even when dispatched, it is rarely put into actual lifesavings, so it is virtually difficult to check the transmission chip driving battery.

As such, a battery that is not checked at any time may cause malfunction, malfunction, etc. due to corrosion, whitening, and the like, whereas frequent frequent checks may cause the battery to be easily consumed, and thus may not work properly in actual situations. .

Therefore, the use of a battery for driving a transmission chip as in the prior art has been avoided by firefighters because of troublesome inspection, anxiety about consumption, and low reliability of operation.

Thus, firefighters still express their intentions by making gestures or sounds without dispersing within the identifiable range by making lifesavings, and rely heavily on passive actions to check the condition, situation, etc. of colleagues. .

However, these behaviors will have to be improved in a primitive way, and in order to be able to improve them, the first step is to improve the reliability of the equipment that ensures the safety of firefighters, and to improve the problems associated with these equipment. Above all, the situation is urgent.

Accordingly, an object of the present invention is to enable an immediate grasp of a dangerous state of a firefighter and at the same time enable location tracking by driving a transmission chip with a sustainable power source instead of a power consumption.

In order to achieve the above object, the present invention is to install the oxygen respirator to be worn at the time of lifesaving, and to use the pressure generated in the oxygen tank by positive pressure breathing of the firefighter when wearing the oxygen respirator, The core of the present invention is to use a self-powered fan that is driven by using a blowing force, and a transmission chip that is operated by power generation electricity generated by driving the self-generated fan as a power source. have.

The present invention provides at least an oxygen passage, an oxygen opening / closing valve of the oxygen cylinder, a positive pressure breathing mask, a connection hose connecting the oxygen passage and a mask, a suspender for the firefighter to carry the oxygen cylinder, and an oxygen gauge displaying the remaining oxygen amount in the oxygen cylinder. Fire fighting oxygen respirator and

A small self-powered fan having at least a rotor blade and a power generating motor, capable of generating electricity by a predetermined wind power, and being sized to be inserted into the fire fighting oxygen respirator connection hose;

At least a transmitter and a power supply unit are provided, and have a unique code number and a location tracking transmitter chip capable of accurate location tracking at a control center or a location tracking terminal by a transmitted signal,

It is proposed a firefighter location tracking system characterized in that the self-powered fan is connected and installed so as to communicate with the connection hose of the oxygen respirator, and the power motor of the self-powered fan is connected to the power supply of the transmission chip.

The present invention as described above, the self-powered fan is driven by the pressure discharged from the oxygen cylinder by positive pressure breathing of the firefighter wearing a mask in the life-saving, by operating the transmission chip of the power generator of the self-generated fan generated here ,

As in the prior art, when a firefighter suddenly suffers an accident that the rescuer cannot send a rescue signal during a rescue, the transmitting chip can send a rescue signal by detecting abnormal breathing, so that the firefighter can immediately grasp the danger state. .

In addition, as in the prior art, since the operation of the transmission chip does not use a battery, there is an advantage in that it is not necessary to check at any time due to consumption.

In addition, the use of a semi-permanent power source semi-permanent operation of the transmission chip, it is possible to determine whether or not normal with the wearing of the oxygen respirator before being put into the field during the rescue, there is an advantage that no separate check is required.

Therefore, the present invention can improve the reliability of the equipment for the location tracking, and by solving the conventional problems that these equipment was accompanied by the practical use of the advanced communication equipment, as well as to ensure the safety of the firefighters, Moreover, there is an effect that can be performed efficiently, not only relying on passive actions for rescue and fire suppression.

1 is a simplified diagram of the present invention
Figure 2 is an illustration of a fire fighting oxygen respirator of the present invention
Figure 3 is an illustration of a small self-powered fan and a location chip transmission chip of the present invention and an example of a case equipped with the same
4 is another exemplary view of FIG.
5 is another exemplary view of FIG.
6 is another exemplary diagram of FIG. 3.

First of all, the present invention does not propose a system of how to accurately track the position of a firefighter, as in the prior art, which is proposed in the prior art, but consequently a system of how to drive a transmission chip that enables the tracking of the prior art. Would be suggested.

Hereinafter, specific examples for realizing the present invention will be described with reference to the accompanying drawings. It is to be understood, however, that the structures, operations, and effects of the prior art or ordinary technology may be out of the gist of the present invention before describing the present invention, .

As shown in FIG. 1, the present invention includes a fire fighting oxygen respirator 1, a small self-powered fan 2, and a position tracking transmission chip 3, and the self-powered fan 2 includes an oxygen respirator 1. It is connected to the oxygen tank 11 of the connection hose 14, the self-powered fan (2) is driven by positive pressure breathing of the firefighter wearing a positive pressure breathing mask 13 of the oxygen respirator (1) in the life-saving In addition, it is characterized in that the transmission chip 3 is operated by the electric power generated by the drive of the self-powered fan (2).

In the above, the fire fighting oxygen respirator 1, the small self-powered fan 2, and the position tracking transmission chip 3 are well known in the art.

As shown in FIG. 2, the fire fighting oxygen respirator 1 includes at least an oxygen cylinder 11, an oxygen opening / closing valve 12 of the oxygen cylinder 11, a positive pressure breathing mask 13, an oxygen cylinder 11, and a mask ( 13 is connected to the hose 14 and the oxygen tank 11, the firefighters can hold the suspenders 15, the oxygen gauge (16) is composed of an oxygen gauge (16) indicating the residual oxygen amount of the oxygen tank (11) 1) is preferred,

The small self-powered fan (2), as shown in Figure 3, at least the rotor blades 21, and the generator motor 22, it is possible to generate electricity generated only by a predetermined wind, oxygen fire respirator for fire (1) Small self-powered fan (2) is preferably small enough to be inserted into the connection hose 14,

As shown in FIG. 3, the position tracking transmission chip 3 includes at least a transmitter 31 and a power supply 32, and has a unique code number and is transmitted from a control center or a location tracking terminal by a signal transmitted. It is preferable to use a position tracking transmission chip 3 capable of accurate position tracking.

The present invention provides at least an oxygen cylinder 11, an oxygen opening / closing valve of the oxygen cylinder 11, a positive pressure breathing mask 13, a connection hose 14 connecting the oxygen cylinder 11 and the mask 13, A fire fighting oxygen respirator 1 composed of a suspender 15 through which the firefighter can carry the oxygen tank 11, an oxygen gauge indicating a residual amount of oxygen in the oxygen tank 11,

At least the rotary blade 21 and the power generating motor 22 is configured, the electric power can be generated even with a predetermined wind power, the degree to be inserted into the fire hose oxygen breathing apparatus 1 connection hose 14 Small size self-powered fan (2),

At least the transmission unit 31 and the power supply unit 32 are provided, and have a unique code number and a position tracking transmission chip 3 capable of accurate positioning at a control center or a location tracking terminal by a signal transmitted. So,

The self-powered fan 2 is connected and installed so as to communicate with the connection hose 14 of the oxygen respirator 1, and the power supply unit 32 of the power generator 32 of the self-powered fan 2 is transferred. ),

The self-powered fan 2 is driven by the pressure discharged from the oxygen cylinder 11 by positive pressure breathing of the firefighter wearing the mask 13 during lifesaving, and the transmission chip 3 is operated by the generated electricity. A firefighter location tracking system is proposed.

The connection hose 14 of the oxygen respirator 1, the self-powered fan 2 in communication with the connection hose 14, and the transmission chip 3 connected to the self-powered fan 2, respectively, After individual configuration, connections can also be made with hoses or cables.

However, it is most preferable that the self-powered fan 2 and the transmission chip 3 are configured in one case 4 and then connected to the connection hose 14 of the oxygen respirator 1.

2, in the present invention, the self-powered fan 2 is installed inside a predetermined case 4, and a transmission chip 3 is installed at one side of the inside of the case 4. It is preferable to connect electric wires to the power generation motor 22 of the fan 2 and the power supply 32 of the transmission chip 3.

At this time, the case 4 is connected to the connection hose 14 of the oxygen respirator 1, so that the coupling end portion 41 is configured at both ends, and the coupling end portion 41 is a conventional oxygen respirator ( It is preferable to have the same structure as the coupling end portion 41 of the connecting hose 14 of the oxygen respirator 1 so that the connection assembly can be performed as it is in 1), preferably having different male and female structures at one end and the other end.

The case 4 is provided with a sturdy outer shell 43 that is not easily damaged by an impact, and a shock absorbing material 44 therein so that an external impact is not transmitted to an internal self-powered fan 2, a transmission chip 3, or the like. The buffer member 44 is preferably made of a refractory material that can withstand high temperature heat.

Thus, the case 4 may be provided between the open / close valve of the oxygen respirator 1 and the connection hose 14, or may be provided between the connection hose 14 and the mask 13. Preferably, it is most ideal to install in the middle of the connection hose 14 located on the shoulder strap of the suspenders 15 to facilitate the operation, status identification, etc. of the firefighter.

The self-powered fan (2), as shown in Figure 3, may be installed orthogonal to the inside of the communication pipe path 42 is connected to the connecting hose 14, the rotary blade 21, as shown in Figure 4 communication pipe path 42 It may also be installed so as to be eccentric. In this way, it is possible to install a larger one than the one installed inside the communication pipe passage 42, thereby improving the amount of electricity produced.

Meanwhile, in the present invention, the storage battery 5, the timer 6, the conversion switch 7, the light emitting lamp 8, the charging terminal 9, the connecting cable 91, a charger, and the like may be additionally configured. .

First, the storage battery 5 and the timer 6 are connected to the transmission chip 3, and when the transmission chip 3 is driven, the storage battery 5 is also charged at the same time.

 This means that when the breathing stops due to the fireman's accident, the timer 6 is automatically operated to immediately send a rescue signal from the transmitting chip 3.

The storage battery 5 is intended to ensure a reserve power for this because no electricity generation is generated based on the state in which the firefighter's breathing is stopped.

Next, the conversion switch 7 is connected to the transmission chip 3, the conversion switch 7 is transmitted when the firefighter is conscious of the dangerous situation, or to request the help of fellow firefighters in the local situation, The signal conversion of the chip 3 can be operated manually.

Next, the light emitting lamp 8 is connected to the transmitting chip 3, the light emitting lamp 8 is to be able to identify the transmission signal or status check of the transmitting chip 3 or the position of the surrounding firefighter.

The light emitting lamp 8 may use one lamp that can emit multi-color light such as red or green by itself, or may use a plurality of lamps having respective colors.

Next, the charging terminal 9 is connected to the power generation motor 22, the charging terminal 9 to charge the storage battery 5 in the charger by the connection of a separate charger (not shown) and the connection cable 91. I would have to.

It is possible to replace the battery of the personal equipment by charging the storage battery 5 of the charger when the battery is unexpectedly consumed in personal equipment such as a lantern during lifesaving.

It is possible to fast charge the oxygen of the oxygen cylinder 11 by the forced discharge, and it is charged by exhausting the oxygen of the oxygen cylinder 11, so it is suitable for emergency because it is necessary to exchange its life and the charge of the battery during lifesaving. When the oxygen content of the oxygen cylinder 11 is large after the completion of the situation, or for other purposes, it may be used.

In general, the fire fighting oxygen respirator 1 discharges all of the oxygen in the oxygen cylinder 11 after one use and then recharges it to use. At this time, the remaining amount of oxygen remaining in the exhaust can be recycled for battery charging. .

As described above, the charging terminal 9 is installed on one side of the case 4, so that it is possible to charge by the connection of a separate charger and a connection cable is most preferred for reducing the volume of the case (4), The case 4 itself may be configured in the form of a charger.

5 and 6, the storage battery 5, the timer 6, the conversion switch 7, the light emitting lamp 8, and the charging terminal 9 are preferably configured in the case 4. Accordingly, all of the above additional components may be installed in the case, or selectively installed. Alternatively, the above additional components may be separately provided, such as a charger, for reasons of volume reduction of the case 4, and then connected and used. have.

Although the preferred embodiments for realizing the present invention have been described above, the present invention is not limited to these embodiments. Accordingly, those skilled in the art will appreciate that the drawings presented in the present invention can be sufficiently realized, and various modifications and changes may be made to the embodiments of the present invention.

1: Fire Fighting Oxygen Respirator 11: Oxygen Tank
12: oxygen opening and closing valve 13: positive pressure breathing mask
14: connecting hose 15: suspenders
16: Oxygen Gauge 2: Small Power Fan
21: rotor blade 22: power motor
3: Transmission chip for position tracking 31: Transmitter
32: power supply 4: case
41: fastening end 42: communication pipe
43: jacket 44: cushioning material
5: battery 6: timer
7: changeover switch 8: light emitting lamp
9: charging terminal 91: connecting cable

Claims (3)

At least the oxygen cylinder 11, the oxygen opening and closing valve of the oxygen cylinder 11, the positive pressure breathing mask 13, the connecting hose 14 connecting the oxygen cylinder 11 and the mask 13, and the oxygen cylinder 11. A fire fighting oxygen respirator 1 comprising a suspender 15 which can be fired by a firefighter, an oxygen gauge indicating a residual amount of oxygen in the oxygen cylinder 11,
At least the rotary blade 21 and the power generating motor 22 is configured, the electric power can be generated even with a predetermined wind power, the degree to be inserted into the fire hose oxygen breathing apparatus 1 connection hose 14 Small size self-powered fan (2),
At least the transmission unit 31 and the power supply unit 32 are provided, and have a unique code number and a position tracking transmission chip 3 capable of accurate positioning at a control center or a location tracking terminal by a signal transmitted. So,
The self-powered fan 2 is connected and installed so as to communicate with the connection hose 14 of the oxygen respirator 1, and the power supply unit 32 of the power generator 32 of the self-powered fan 2 is transferred. ),
The self-powered fan 2 is driven by the pressure discharged from the oxygen cylinder 11 by positive pressure breathing of the firefighter wearing the mask 13 during the lifesaving, and the transmission chip 3 is operated by the generated electricity. Firefighter location tracking system, characterized in that.
The method of claim 1,
The self-powered fan (2) and the transmission chip (3) is installed inside the case (4), the case (4) is fastened to be coupled to the connection hose 14 of the fire fighting oxygen respirator (1) at both ends An end portion 41 is formed, a self-powered fan 2 is installed in the communication pipe line 42 inside the fastening end portion 41, and a transmission chip 3 is installed at one side of the communication pipe line 42. The firefighter position tracking system, characterized in that the electric wire is connected to the power generator (22) of the self-powered fan (2) and the power supply unit (32) of the transmission chip (3).
The method of claim 2,
In the case 4, the storage battery 5 capable of charging the generated electricity of the self-powered fan 2 and the generated electricity of the self-powered fan 2 can be charged by connecting a cable to a battery of a separate charger. It is connected to the charging terminal (9), the transmission chip 3 to be installed, the timer for detecting the transmission signal of the transmission chip (3) for a certain period of time and control the transmission chip 3 to transmit as a rescue signal (6) ), A conversion switch 7 for converting a transmission signal of the transmission chip 3 into a distress signal for transmission, and a light emitting lamp for indicating the state of the transmission chip 3, an identification color of the transmission signal, and its own position ( 8) Optionally comprising a firefighter positioning system.

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