KR20140001001A - Life vest for detecting position - Google Patents

Abstract

The present invention relates to a life jacket capable of positioning, more specifically, a vest main body to be worn to protect the body, the vest main body is provided, a GPS module capable of transmitting and receiving position signals by GPS, the GPS module And a power supply unit for supplying power to the power supply unit, a power display unit for displaying the power amount of the power source unit from the outside, and a controller for controlling the power unit, the power display unit, and the GPS module.
According to the present invention as described above, the GPS module for sending and confirming the position of the wearer in an emergency situation is provided, as well as to make a quick structure, and to check the amount of power to the power supply for operating the GPS module as needed It is easy to manage and the survival rate can be improved by making proper use of the remaining power.

Description

Life vest for detecting position

The present invention relates to a life jacket, and more specifically, to send the current position information to the vest main body, in case of emergency, it is possible to check the position of the distress to improve the survival rate due to the prompt structure, sending the location information The present invention relates to a life jacket capable of confirming the location of the power to allow easy management before use.

In general, life jackets are used to protect the wearer in case of emergency in the sea or mountainous area. Especially, life jackets are used to prevent personnel accidents during leisure activities such as rivers, lakes and seas. It is produced.

When the life jacket is worn, a plurality of straps are formed at the lower end to prevent the body from being detached by buoyancy, but has been developed in various forms to minimize discomfort.

In one embodiment of such a life jacket, as disclosed in Publication No. 10-2009-00243368.

However, when distress is caused by a mountainous area or a marine accident with a strong pickling, there is a problem in that if the person or a rescue worker does not know the location of the distress, he or she may die as soon as possible.

In order to solve this problem, a radio rescue signal transmitter for use in a life jacket is disclosed in Korean Utility Model Publication No. 20-0186202.

The radio rescue signal transmitter can determine the location of the distress as the sensor unit for detecting distress, the transmitter for outputting the signal, and the transmission antenna for wirelessly transmitting the distress signal are selectively operated by the power supply unit.

However, when using the power of the power supply for transmitting the position, but when distressed after wearing a life jacket without power of the power supply, this becomes a useless problem that can not determine the location.

Of course, the power amount of the power supply unit can be confirmed in advance, but in an emergency, there is no room to check the power of the power supply unit, and the method of confirming it is not clear, so it is only enough to check whether it can be used.

For example, if a power supply unit is installed that can be used, but has a power level that does not exceed 3 to 5 minutes, even if it is initially operated, it cannot transmit a signal after all power is consumed and cannot be located. Problems can arise.

Accordingly, there is an urgent need for the development of a technology capable of easily grasping the amount of electric power as well as the function of the life jacket to maintain life and the location of the distress.

Accordingly, the present invention has been made to solve the above problems, the position of the wearer in real time with a power supply unit for supplying power to the GPS module and the GPS module that can transmit and receive the position signal by GPS in the vest body It is possible to have a speedy structure by transmitting, and it is easy to manage because it can check the power level of the power supply as needed by the power display part which displays the power amount of the power supply by checking the external power by selectively applying power by operating a switch. It is an object of the present invention to provide a life jacket capable of locating the remaining power which can be used properly to improve survival rate.

The present invention for achieving the above object, the vest body to be worn to protect the body, the vest main body is provided, a GPS module capable of transmitting and receiving position signals by GPS, a power supply for supplying power to the GPS module, And a control unit for controlling the power supply unit, the power display unit, and the GPS module.

Preferably, at least one of the GPS module and the power unit is provided with a power button, the power button is provided to be recessed in the vest body.

The power button is protected by a protective cover, which breaks the protective cover and presses the power button.

In addition, the power display unit is further provided with a switch to display the amount of power of the power supply unit as necessary.

When the pressure sensor is further provided to apply a pressure higher than a predetermined pressure, the controller controls the power supply unit and the GPS module.

In addition, if a humidity sensor is further provided to detect humidity above a predetermined humidity, the controller controls the power supply unit and the GPS module.

The power display unit is an LCD or an LED, and when power is applied, the power display unit is wiped out at predetermined time intervals.

The power display may change one or more of fluctuations in the emission color of the LCD or the LED or blinking intervals according to the amount of power of the power supply.

The blinking light emission color of the power display unit changes from green to orange to red as the power amount of the power supply unit decreases.

In addition, the blinking interval of the power display unit increases as the power amount of the power supply unit decreases.

The vest body further includes a luminous light emitting unit.

In addition, the vest main body, a heat generating portion is further provided, the heat generating portion reacts with moisture to generate heat.

And the GPS module, when operating, provides information about time.

In addition, the vest body further includes an auxiliary power supply unit to assist the power supply unit.

The auxiliary power supply is detachable and rechargeable.

As described above, according to the lifejacket capable of confirming the position according to the present invention, the GPS module for sending and confirming the position of the wearer in an emergency situation is provided, as well as the speedy structure, as well as operating the GPS module as needed It is a very useful and effective invention that makes it easy to manage the power amount of the power supply unit to make it easier to manage, and improves the survival rate by appropriately using the remaining power amount.

1 is a view showing a life jacket capable of positioning according to the present invention,
2 is a view showing a state in which the power button and the protective cover installed in accordance with the present invention,
3 is a block diagram of a life jacket capable of positioning according to the present invention;
4 is a view showing an operating state of the power display unit according to the present invention,
5 is a view showing another operating state of the power display unit according to the present invention,
6 is a view showing another operating state of the power display unit according to the present invention,
7 is a view showing a state in which the luminous light emitting unit is further provided in the life jacket capable of positioning according to the present invention,
8 is a view showing a state in which the heating portion is further provided in the life vest capable of positioning according to the present invention,
9 is a view showing a state in which the auxiliary power supply unit is further provided in the life jacket capable of positioning according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

It should be noted that the present invention is not limited to the scope of the present invention but is only illustrative and various modifications are possible within the scope of the present invention.

1 is a view showing a life jacket capable of positioning according to the present invention, Figure 2 is a view showing a state in which the power button and the protective cover according to the present invention is installed, Figure 3 is a position check according to the present invention A block diagram of a possible life jacket is shown. FIG. 4 is a view showing an operating state of a power display unit according to the present invention. FIG. 5 is a view showing another operating state of a power display unit according to the present invention. 6 is a view showing another operating state of the power display unit according to the present invention, Figure 7 is a view showing a state in which the luminous light emitting unit is further provided in the life jacket capable of positioning according to the present invention, Figure 8 9 is a view illustrating a state in which a heating part is further provided in the life jacket capable of positioning according to the present invention, and FIG. Diagram.

As shown in the figure, the life-saving vest 10 can be identified is composed of the vest main body 100 and the GPS module 200, the power supply unit 300, the power display unit 400 and the control unit 500.

The vest body 100 is to be worn to protect the body, it is fixed to the body using a binding member such as a strap and buckle.

And the GPS module 200 is provided in the vest body 100, and can transmit and receive the position signal by the GPS, so that the user can check the position information of the user wearing the vest body 100.

In other words, in case of an emergency, the user will be able to check and rescue the user in a short time as the user transmits the location using the GPS while wearing the vest body 100.

A power supply unit 300 for supplying power to the GPS module 200 is provided, and a power display unit 400 is provided to check the amount of power of the power supply unit 300.

Here, when the power display unit 400 is looked at in detail, the power amount of the power supply unit 300 is displayed so that it can be checked from the outside.

The power display unit 400 has its own switch 420, and operates the switch 420 to receive the power of the power supply unit 300 to display the amount of power of the power supply unit 300.

When wearing the vest main body 100 is distressed, when the power amount of the power supply unit 300 is insufficient or absent, the rescue time is delayed or is too late because the GPS cannot be used to transmit its location information. It is a case of being rescued or missing by the environment such as the current.

Accordingly, it is possible to check the amount of power of the power supply unit 300 provided in the vest body 100 by using the power display unit 400, the management is convenient, it can be used in emergency matters to improve the survival rate.

As the control unit 500 controls the power supply unit 300, the power display unit 400, and the GPS module 200, the controller 500 continuously transmits the position using the GPS.

Here, the power button 600 is provided at any one or more of the GPS module 200 and the power unit 300, the power button 600 is provided to be recessed in the vest body 100 is not urgent, such as carrying or gripping It is preferable to prevent the power button 600 from being pressed in the state.

This is to secure the power of the power supply unit 300 as much as possible because it cannot guarantee the time until rescue when distressed.

By pressing the power button 600 as needed by the user to operate the GPS module 200 will be of course to protect the life, of course.

Here, as shown in Figure 2, the power button 600 is protected by a protective cover 610, when the shock is applied to the protective cover 610 to a predetermined pressure or more, breaks the power button 600 You can press.

The protective cover 610 indicates that the life jacket is not used, it can be worn in the emergency situation without additional confirmation.

In addition, the protective cover 610 is preferably formed of a transparent material, it may be formed in a circle, oval, square, and the like.

On the other hand, life-saving vest 10 that can be confirmed is preferable to maintain the state of consciousness of the user, it is preferable to be able to operate automatically in case of emergency.

As shown in FIG. 3, the pressure sensor 700 or the humidity sensor 800 may be used to automatically control the operation of the GPS module 200.

In one embodiment for this purpose, when the pressure sensor 700 is further provided to apply a pressure above a predetermined pressure, the control unit 500 controls the power supply unit 300 and the GPS module 200.

In other words, a user may lose consciousness by colliding with an object or lose consciousness by hitting the surface. In this case, the GPS module 200 may not be operated, thereby preventing the user from being rescued within a time that does not interfere with life. To do this.

In addition, in another embodiment for automatic operation, when the humidity sensor 800 is further provided to detect the humidity of a predetermined humidity or more, the control unit 500 controls the power supply unit 300 and the GPS module 200.

The life jacket 10 is mainly used in water, so that when the user falls into the water, it is provided to automatically operate by this water.

Of course, in storing the life jacket 10, in the rainy season or in a region with high humidity, it may be a malfunction, when the humidity sensor 800 detects humidity above a certain humidity, the operation of such a constant humidity It is natural to use the standard adjusted according to season or location.

In addition, the power display unit 400 is an LCD or LED, and when the power is applied, the power amount can be checked as it disappears at regular time intervals.

As an example, when the power display unit 400 is an LCD, the case where the power amount of the power supply unit 300 is the maximum is 100, and the current power amount of the power supply unit 300 is displayed numerically.

Of course, when operating the GPS module 200 using the current amount of power of the power unit 300, the available time is also an advantage that can be displayed.

However, although the LCD window is relatively large, the power consumption is higher than that of the LED, and thus the usable time is shortened. However, the advantages described above can be fully utilized, which is useful.

On the other hand, when the power display unit 400 is an LED, there is an advantage that can be used for a long time because the power consumption is less than the LCD.

Of course, there is a disadvantage in that the amount of power of the power supply unit 300 can not be quantified, but the amount of power may be divided by blinking at a predetermined time interval.

Here, the power display unit 400 may check the amount of power of the power supply unit 300 by varying at least one of changing the light emission color of the LCD or LED or changing the blinking interval.

First, the light emission color of the LCD or the LED of the power display unit 400 is different from that of the power supply unit 300, as shown in FIG.

As a result, the amount of power of the power supply unit 300 can be easily confirmed, and a countermeasure according to the situation can be taken.

In other words, when the power button 600 is pressed again, the power supply may be cut off to save power supplied to the GPS module 200.

For example, when there are a plurality of users who are not alone together, some GPS module 200 is used to send the location information, and when the power being used is exhausted, another user uses the GPS module 200 to locate the location. As information continues to be sent, the chances of rescue will increase, even with longer distress times.

In addition, the blinking interval of the LCD or the LED of the power display unit 400 is varied, as shown in FIG. 5, as the amount of power of the power supply unit 300 decreases, the blinking interval increases.

For example, when the amount of power of the power supply unit 300 is 70 ~ 100%, it is blinking every 30 seconds, if it is 30 ~ 70%, it is blinking every 3 minutes, in the case of 0 ~ 30%, every 5 minutes It can be easily confirmed by making it blink.

Here, the percentage of the displayed power amount does not overlap with each other, it is natural that either side is included.

At this time, as shown in Figure 6, the power supply display unit 400 can be more easily identified by changing the light emitting color of the LCD or LED, and at the same time changing the flashing interval.

The change of the emission color and the variation of the flashing time are as described above, and the description thereof will be coped with the above description.

In addition, the life jacket 10 capable of positioning is further provided with a luminous light emitting unit 900. As shown in FIG. 7, the position of the lifejacket can be more easily found along with the positioning by the GPS module 200. .

In addition, as shown in FIG. 8, the vest main body 100 is further provided with a heat generating unit 910, and the heat generating unit 910 generates heat by reacting with moisture.

The heating unit 910 prevents the temperature of the distress from dropping and prevents death due to hypothermia, and prevents the situation from worsening even when the rescue time is increased.

As a result, the survival rate becomes higher.

In addition, the GPS module 200 transmits information on time together with location information at the time of operation, so that time information and location information at which a signal is sent are simultaneously provided, so that the GPS module 200 can predict an environment in which the distress is in distress.

In other words, after receiving the first signal from a marine accident victim and receiving the second signal, the speed and wind speed of the ocean current can be predicted by comparing the difference in time and position of receiving the signal. You can go to the rescue operation.

In addition, when the distress is killed, if the remote is separated from the accident site by the current or current, it may be possible to trace back to the accident site by using the first time information sent from the GPS module 200 worn by the distress person have.

Of course, in the event of an accident, it is desirable to rescue all the displaced people as soon as possible, but it is to prepare for the case as no situation can be confirmed at the accident site.

As shown in FIG. 9, the power supply unit 300 may further include an auxiliary power supply unit 310. When the power supply unit 300 runs out of power, the control unit 500 of the auxiliary power supply unit 310 may be used. The power is used to connect the GPS module 200 and the power display unit 400.

The auxiliary power supply 310 is installed to be connected to the power supply unit 300 is installed on the vest body 100 or is provided to be detachable from the power supply unit 300.

The auxiliary power source 300 is, for example, a lithium battery, can be used to charge as needed, it is preferably provided with a plurality.

In addition, the vest main body 100 is further provided with a waterproof bag (not shown) for accommodating the auxiliary power source 310 to accommodate a predetermined number of auxiliary power source to cope with an emergency situation.

10: life jacket 100: vest body
200: GPS module 300: power supply
310: auxiliary power unit 400: power display unit
500: control unit 600: power button
610: protective cover 700: pressure sensor
800: humidity sensor 900: luminous light emitting unit
910: heating unit

Claims (15)

A vest body worn to protect the body;
A GPS module provided in the vest body and capable of transmitting and receiving a position signal by GPS;
A power supply unit for supplying power to the GPS module;
A power display unit which displays the amount of power of the power supply unit so as to be confirmed from the outside; And
Life jacket capable of positioning comprising a control unit for controlling the power unit, power display unit and the GPS module.
The method of claim 1,
At least one of the GPS module and the power unit is provided with a power button,
The power button is a life jacket capable of positioning, characterized in that provided with the vest main body.
The method of claim 2, wherein the power button,
Life jacket protected by a protective cover, characterized in that by pressing the power button to damage the protective cover.
The method of claim 1, wherein the power display unit,
Life jacket capable of positioning, further comprising a switch to display the amount of power of the power supply if necessary.
The method of claim 1,
When the pressure sensor is further provided to apply a pressure of a predetermined pressure or more, the control part is a life jacket capable of positioning, characterized in that for controlling the power supply unit and the GPS module.
The method of claim 1,
When the humidity sensor is further provided to detect a humidity above a predetermined humidity, the control unit is a life jacket capable of positioning, characterized in that for controlling the power supply and the GPS module.
The method of claim 1, wherein the power display unit,
Life-saving life-saving vests, characterized in that the LCD or LED, and when the power is applied, it is wiped out at regular intervals.
The method of claim 7, wherein the power display unit,
Life jacket capable of positioning, characterized in that for changing the emission color of the LCD or LED or the interval at which the flashing is changed according to the amount of power of the power supply unit.
The method of claim 8, wherein the light emission color of the power display blinking,
Life jacket capable of positioning, characterized in that the power is changed from green to orange through red as the amount of power is reduced.
The method of claim 8, wherein the interval of the flashing of the power display unit,
Life jacket capable of positioning, characterized in that increases as the power amount of the power supply unit decreases.
According to claim 1, wherein the vest body,
Life jacket capable of positioning, characterized in that the luminous light emitting unit is further provided.
According to claim 1, wherein the vest body,
Life-saving life jacket further comprises a heat generating portion, the heat generating portion reacts with moisture to generate heat.
The method of claim 1, wherein the GPS module,
Positionable life jacket, characterized in that it provides information about time during operation.
According to claim 1, wherein the vest body,
Life jacket capable of positioning, characterized in that the auxiliary power supply is further provided to assist the power supply.
The method of claim 14, wherein the auxiliary power supply unit,
Detachable, life-saving vest, characterized in that the charge possible.

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