KR20180038772A - Rescue structure for marine distress structure and marine distress rescue system using it - Google Patents

Abstract

The present invention relates to a rescue apparatus for rapidly rescuing a victim in a maritime distress situation, and a maritime distress rescue system for rapidly notifying the distress situation using a low-power wide area network. The present invention applies the low-power wide area network technique to the maritime distress rescue system in order to minimize power consumption while transmitting and receiving simple signals. By doing so, rescue signals can be smoothly transmitted and received even under marine environment in which power supply and communication are unstable. Moreover, the present invention can rapidly and precisely request for rescue to neighboring maritime rescue teams or land rescue teams only by transmitting minimum information required for distress and rescue using a wide area signal. In addition, as the victim requests for rescue in the distress situation, the position of the victim can be precisely checked. Therefore, the victim can be quickly rescued in golden time.

Description

Marine rescue structure rescue system and marine rescue rescue system using the same

The present invention relates to a rescue system for rapidly rescuing a victim in a distress situation occurring at sea and a maritime distress rescue system capable of promptly informing a distress situation using a low power wide area communication network.

The LPWAN (Low Power Wide Area Network) is a mobile communication network for Internet devices. Most of the wireless wide area communication networks currently used are smart phones, mobile communication networks (3G, 4G Etc.).

Compared to mobile communication networks such as 3G and 4G and low-power local area networks like ZigBee, the most important feature of LPWAN is the ultra-low power mentioned in the name. Most service providers want to ensure at least a 1-20 year persistence. It also supports long distance range of 5-40km according to the name of wide area network. If there is no obstacle, there is a technology capable of 80km.

This low power wide area wireless communication technology has been standardized as almost all ICT technologies have been commercialized.

The LoRaWAN, developed jointly by SemTech and IBM, consumes a little more power than the UNB technology, but has the advantage of less radio interference. The speed can be up to 100Kbps. LoRa Aliance has formed and is leading standardization.

The Laura Alliance is a multi-national coalition organized for the development of low-power wide area networks (LPWANs) and products incorporating IOT dedicated communications technology that connect 'small objects'.

The Internet is a concept that extends the coverage of the Internet of Things (IoT) by connecting small objects, such as temperature, humidity, weight, and location, that measure small information to a wireless network. ) The idea is that small devices that measure and process simple information in the market are not suitable for LTE-class wireless communication technology to transmit data at a fixed time.

Such LoRa - based Internet Internet system is expected to be especially useful in marine environments where power supply is not smooth due to the advantages of low - power and long - distance communication and communication relay facilities are insufficient.

Registration No. 10-1632386 (June 15, 2016)

The problems to be solved in the present invention are as follows.

In other words, it combines the low power wide area network technology such as LoRaWAN with the maritime distress rescue system to minimize the power consumption while sending and receiving simple signals, and transmits the minimum information necessary for distress and structure with the wide area signal, And to provide a system capable of promptly and accurately requesting rescue.

We also propose a rescue system that can grasp the location of the victims at sea level by requesting rescue from the distress situation themselves.

In order to solve the above problems,

A rescue system (100) for a maritime distress rescue structure mounted on a water submerged resident in water, the rescue apparatus (100) comprising: a communication module (110) for transmitting a wide area signal or a short distance signal; The memory unit 130 storing at least one of the wearer's information of the request manipulation unit 150, the identification number of the rescue device, the wearer's name, the wearer's contact, and the wearer's position information, and the airbag 160 A housing 190 provided with an airbag deployment guide 191 that is opened to be opened to the outside of the structure device and a housing 190 housed in the housing 190 in a normally folded state, An inflated airbag 160 configured to be deployed to the airbag 160 to store compressed gas and to discharge the compressed gas to the airbag 160 so that the airbag 160 inflates when the rescue request manipulating portion 150 is manipulated The shaft gas cylinder 180 includes an airbag 160 that is deployed out of the structure and floats above the water surface by coupling the first end 170a with the structural device and the second end 170b with the airbag, And a status display unit 120 for displaying status information of at least one of a rope 170 connecting the battery 140, a battery 140 supplying power, a communication state of the communication module 110, and a state of charge of the battery 140 A rescue structure for marine distress,

And a relay unit 200 for receiving the local signal transmitted from the structural apparatus by the communication module 210 and sending the local signal to the local signal. The communication module 110 includes a structure requesting unit 150 One or more pieces of wearer information stored in the memory unit 130 may be transmitted to one or more of the communication module 210 of the relay unit, the wide area communication module 310 of the maritime reception unit, and the wide area communication module 410 of the land- A wide area communication module 111 for transmitting the distress information and the wearer information in a wide area signal to the communication module, a short distance communication module 112 for transmitting the distress information and the wearer information as a short distance signal, The communication module 210 of the relay unit includes a short distance communication module 212 for receiving the distress information and the wearer information in a short distance signal, And a wide area communication module (211) for transmitting the distress information, the wearer information, and the position information of the relay unit in a wide area signal, Or a wide area communication module (310) for receiving a wide area signal transmitted from the relay unit (300); And a terrestrial receiving unit 400 for receiving a wide area signal transmitted from the rescue unit or the repeater unit by the terrestrial wide area communication module 410. The communication module 310 of the coast receiving unit receives the distress information And a wide area communication module (310) for receiving the wearer information by a wide area signal or receiving distress information from the relay unit and the wearer information or the position information of the relay unit. The communication module (410) And a wide area communication module (410) for receiving the wearer information by a wide area signal, or receiving distress information, wearer information or position information of the relay part from the relay part.

The present invention has the following effects.

In other words, by combining low-power wide-area network technology with maritime disturbance rescue system, it minimizes power consumption while sending and receiving simple signals, so that it can send and receive rescue signals smoothly even in marine environment where power supply and communication are not stable. In addition, it has the merit that it can send out the minimum information necessary for the distress situation and the structure with the wide-area signal and promptly and accurately request the rescue team or the land rescue team nearby.

In addition, the victims themselves can request the rescue in the event of a distress situation, so that the position of the victim can be accurately grasped even at sea level, so that the victims in Golden Time can be quickly rescued.

1 is an exploded view of a rescue structure for maritime distress.
FIG. 2 is a view showing the state of use of the rescue apparatus according to the distress situation; FIG.
3 is an exemplary view of the configuration of a maritime distress rescue system.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the scope of the present invention should be understood from the description of the claims. Further, the description of known technology which obscures the gist of the present invention is omitted.

The structure for rescue structure for maritime distress structure according to the present invention is mounted on an underwater person 1 and includes a communication module 110, a status display unit 120, a memory unit 130, a battery 140, 150, an airbag 160, a rope 170, a compressed gas cylinder 180, and a housing 190. An underwater activist (1) means a person who resides in the water, such as a skin scuba or a sea lady, mainly by diving.

The term short-range communication referred to in the present invention refers to a low-power communication technique having a communication radius of several tens to several hundreds of meters, such as Bluetooth, Wi-Fi, etc. Wide-area communication is a low-power wireless communication with a communication radius of several to several tens of kilometers Wide Area Network). Particularly in the LPWAN, the LoRa method is preferable in terms of low power and wide range.

The structure request operation unit 150 is operated by the wearer 1 in order to request a rescue structure in case of a distress. That is, when a person who is active in the sea enters the water while the rescue apparatus 100 is mounted, he manipulates the rescue request manipulation unit 150 to request the rescue state by informing the distress situation. Although FIGS. 1 and 2 illustrate a pull type as in the case of a lever, they may be configured in a button manner, but the present invention is not limited thereto.

The memory unit 130 stores wearer information of at least one of the identification number of the rescue apparatus, the wearer's name, the wearer's contact information, and the wearer's position information. The identification number of the rescue apparatus is a unique number given to each rescue apparatus 100 and can be stored together with the name of the wearer, the contact information (emergency contact) of the wearer, and the like. This information can be stored in a wired or wireless connection with a separate programming device before the structural device is worn. On the other hand, the identification number of the rescue device and the name of the wearer or the wearer's information matched with the contact can be stored in an external device or server capable of communicating. In this case, even if only the identification number of the rescue device transmitting the distress information is grasped, You will be able to see his emergency contact right away.

The housing 190 serves as a case of the structure device and is provided with an airbag deployment guide 191 that is opened to open the airbag 160 to the outside of the structure device when the structure request operation portion 150 is operated. In the case of a wearer having a lot of activity such as a skin scuba, a wrist band may be attached to the housing 190 to wear the wrist on the wrist as shown in FIG. In addition, a wearer who is reluctant to attach an auxiliary equipment such as a diving woman can attach and detach a separate detachable member to the housing, as the detachable attachment to the wetsuit is suitable instead of the wrist band. It may also be designed to integrate the housing into a life jacket worn by a person who wears water leisure or fishing.

The airbag 160 is stored in the structural device at all times in a collapsed state instead of in a distress situation and is deployed to the outside of the structural device when the rescue request manipulation part 150 is operated (distress situation). For example, . In the distress situation, if the victim pulls the rescue request manipulation unit 150 to float the airbag 160 above the sea surface as shown in FIG. 2, even if a distress situation occurs under the sea surface, the position can be correctly announced. Particularly, when two or more workers are boarded on the trunk line 2 and one of them is diving and working, when the airbag 160 floats, another crew member aboard the trunk line can confirm it and immediately grasp the distress situation. This is to enable the user to notify the distress situation by floating the airbag 160 on the surface of the water by a simple operation without having a separate means for communicating the diver below the sea surface and the crew on the sea surface.

The compressed gas cylinder 180 is always storing compressed gas such as compressed carbon dioxide and discharges the compressed gas to the airbag 160 so that the airbag 160 is inflated when the rescue request operation unit 150 is operated. That is, in a distress situation, the compressed gas in the compressed gas cylinder 180 is discharged to the airbag 160 simultaneously with the operation of the rescue request manipulation unit 150, and the airbag 160 expands. The compressed gas is preferably carbon dioxide or the like.

The rope 170 is a string having a length of several meters to several tens of meters and has a first end 170a coupled to the structural device and a second end 170b coupled to the airbag, Lt; RTI ID = 0.0 > 160 < / RTI > As the inflated airbag 160 in the distress floats to the surface of the water, the victim (wearer) may grab the rope 170 and float on the surface of the water. However, if the victim is not caught in a rock or seaweed deep in the sea, The position of the victim can be grasped by the position of the airbag 160 placed on the victim.

The battery 140 supplies power to each configuration of the structure device 100.

The status display unit 120 displays status information of at least one of a communication status of the communication module 110 and a battery status of the battery 140. The status display unit 120 displays status information such as communication connection status, Can be informed of the status information of the terminal.

The communication module 110 transmits one or more pieces of wearer information stored in the memory unit 130 to the communication module 210 of the relay unit, the wide area communication module 310 of the maritime reception unit, And transmits it to one or more communication modules among the wide area communication modules 410 of the terrestrial reception unit and includes a wide area communication module 111, a short distance communication module 112, and a GPS module 113.

The wide area communication module 111 transmits distress information and wearer information in a wide area signal.

The short-range communication module 112 transmits distress information and wearer information as a near-field signal.

The GPS module 113 receives a signal from the GPS satellite and acquires position information of the wearer. The obtained location information can be transmitted in real time through the wide area communication module 111 or the short distance communication module 112 and stored in the memory unit 130 to be transmitted to the wide area communication module 111 or the short distance communication module 112 Or accumulated in the memory unit 130 so as to grasp the movement of the wearer later.

The communication module 110 may be mounted on the airbag 160. In this case, when the airbag 160 floats above the water surface, the communication module 110 can smoothly communicate with other communication modules 210, 310, 410 or GPS satellites Communication becomes possible.

The maritime distress and rescue system of the present invention comprises the structure 100 and the relay 200 as shown in FIG. 3 and may further include a maritime reception unit 300 and a land receipt unit 400.

The relay unit 200 is provided in the trunk line 2 and receives the local signal transmitted from the structure apparatus by the communication module 210 to transmit the local signal in a wide area signal. The trunk line 2 may be a small ship carrying the wearer 1 of the structure apparatus 100 to the sea, or a buoy floating near the dive woman when it is made of material.

The communication module 210 includes a wide area communication module 211, a short distance communication module 212, and a GPS module 213. The short distance communication module 212 receives the distress information and the wearer information as a short distance signal, and the GPS module 213 receives the signal from the GPS satellite to acquire the position information of the relay unit. The wide area communication module 211 receives the distress (Requesting the rescue) of the fact, the wearer information, and the position information of the relay unit in a wide area signal.

The short-range communication module 212 receives short-range signals from the short-range communication device 100, but short-range communication with other short-range communication devices such as the smart devices of the second- .

As another example, in the case of a person who is engaged in diving for a long time such as a skin scuba or a sea lady, the user continuously communicates with the local communication module of the rescue device, and if the local signal is interrupted, the wearer is moving away from the trunk line 2, A wide-area signal can be transmitted.

Meanwhile, the relay unit 200 may further include a display 220 for outputting the distress information and the wearer information received on the screen. Therefore, a person aboard the trunk line 2 can grasp the distress situation in real time and can additionally take appropriate measures.

The marine receiver 300 may be provided in the marine structure line 3 and includes a marine wide area communication module 310 receiving a wide area signal transmitted from the structure unit or the relay unit.

A third private ship having a wide-area communication module 211 as well as a sea-view light having a wide-area communication module 310 is included.

The wide area communication module 310 receives the distress information and the wearer information from the rescue device in a wide area signal, or receives the distress information, the wearer information, and the location information of the relay part from the relay part.

In addition, the marine receiver 300 may further include a display 320 for outputting distress information, wearer information, or relay position information. Accordingly, a person aboard the maritime rescue line 3 can grasp the distress situation in real time and take additional appropriate measures.

The terrestrial receiving unit 400 may be provided in the land area rescue 4 and includes a terrestrial wide area communication module 410 for receiving a wide area signal transmitted from the rescue unit or the relay unit.

The wide area communication module 410 receives the distress information and the wearer information from the rescue device in a wide area signal, or receives the distress information, the wearer information, and the location information of the relay part from the relay part. In addition, it is also possible to receive signals from the rescue unit or the relay unit at the first line from the marine rescue line and to receive the broadband signal from the marine rescue line at the second level from the land rescue team, so that even when the victim is more than several hundred kilometers away from the land, I can inform the situation.

The terrestrial reception unit 400 may further include a display 420 for outputting the distress information, the wearer information, or the repeater location information. The terrestrial reception unit 400 may identify the distress situation in real time on the land and input the rescue personnel.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be clear to those who have knowledge.

100: Rescue device
110: communication module
111: Wide area communication module
112: Local area communication module
113: GPS module
120: Status indicator
130: memory unit
140: Battery
150: Rescue Request Operator
160: air bag
170: rope
180: Compressed gas cylinder
190: housing
191: Airbag deployment guide
200:
210: Communication module
211: Wide area communication module
212: Local area communication module
213: GPS module
220: Display
300:
310: Wide area communication module
320: Display
400: Land Receiver
410: Wide area communication module
420: Display
1: The Predator
2: Trunk line
3: Maritime lines
4: Athletic rescue team

Claims (3)

A rescue structure for a maritime distress rescue installed by an underwater resident staying in water,
The structure (100)
A communication module 110 for transmitting a wide area signal or a short distance signal,
A rescue request manipulating unit 150 for manipulating the wearer to request a rescue in case of a distress,
A memory unit 130 for storing wearer information of at least one of an identification number of the rescue apparatus, a wearer's name, a wearer's contact information, and a wearer's position information,
A housing 190 having an airbag deployment guide 191 that is opened to allow the airbag 160 to be deployed outside the structure when the rescue request operation unit 150 is operated,
An inflatable air bag 160 housed in the housing 190 in a normally folded state and configured to be deployed outside the housing 190 when the rescue request manipulation unit 150 is operated,
A compressed gas cylinder 180 for storing the compressed gas at all times and for discharging the compressed gas to the airbag 160 so that the airbag 160 is inflated when the rescue request operation unit 150 is operated,
A rope 170 that couples the airbag 160 floating over the surface of the structure to the underwater rescue device as the first end 170a is engaged with the rescue device and the second end 170b is engaged with the airbag, ,
A battery 140 for supplying power,
And a status display part (120) for displaying status information of at least one of a communication status of the communication module (110) and a charging status of the battery (140)
Rescue structures for maritime distress.
A structural device as claimed in claim 1,
And a relay unit (200) for receiving the local signal transmitted from the rescue device by the communication module (210) and sending it out as a wide area signal,

The communication module (110)
When the rescue request operation unit 150 is operated, one or more pieces of wearer information stored in the memory unit 130 together with the distress information are transmitted to the communication module 210 of the relay unit, the wide area communication module 310 of the maritime reception unit, 410 to one or more communication modules,
A wide area communication module 111 for transmitting distress information and wearer information in a wide area signal,
A short range communication module 112 for transmitting distress information and wearer information in a short distance signal,
And a GPS module (113) for receiving a signal from a GPS satellite and acquiring position information of the wearer,

The communication module 210 of the relay unit
A short range communication module 212 for receiving the distress information and the wearer information in a short distance signal,
A GPS module 213 for receiving a signal from a GPS satellite and acquiring position information of the relay unit,
And a wide area communication module (211) for transmitting the received distress information, the wearer information, and the position information of the relay unit in a wide area signal
Maritime distress rescue system.
The maritime distress rescue system of paragraph (2)
A marine receiver (300) for receiving a wide area signal transmitted from the rescue device or the relay unit at the marine wide area communication module (310); or
And a terrestrial receiving unit (400) for receiving a wide area signal transmitted from the rescue unit or the relay unit, on the land wide area communication module (410)

The communication module 310 of the maritime reception unit
And a wide area communication module (310) for receiving the distress information and the wearer information from the rescue device in a wide area signal, or receiving the distress information and the location information of the wearer information or the relay part from the relay part,

The communication module 410 of the land-
And a wide area communication module (410) for receiving the distress information and the wearer information from the rescue device in a wide area signal, or receiving the distress information and the wearer information or the location information of the relay part from the relay part
Maritime distress rescue system.

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