KR20150029477A - weight stack and lifesaving apparatus for a diver - Google Patents

Abstract

The present invention relates to a lifesaving apparatus used for a diver, functioning as a weight, and capable of securing an airway. The lifesaving apparatus (100) with multiple unit tube cells (10) connected to each other, receiving a gas therein, and discharging the gas therefrom is capable of providing buoyancy for the body of a diver (110) in order to quickly raise the body of a diver (100) to a water surface in case of emergency in water, so the life of the diver (100) can be maintained. A compressed-air container (20) supplying the gas into the unit tube cells (10) is connected to the unit tube cells (10) by gas supply tubes (40), and the gas supply tubes (40) and the unit tube cells (10) are connected to each other in parallel. When the compressed-air container (20) supplies the gas into the unit tube cells (10) simultaneously, the buoyancy of the body of the diver (110) wearing the lifesaving apparatus (100) can be quickly increased to raise the diver (110) to the water surface quickly. When gas tubes (11) formed in the unit tube cells (10) and filled with the gas are expanded by the gas flowing into the gas tubes (11), water filling the unit tube cells (10) is discharged to the outside through water outlets (12) and the buoyancy is generated to raise the body of a diver (110) to the water surface. The unit tube cells (10) are connected to a gas discharge pipe (50). When a gas discharge button (35) is pushed, the gas filling the gas tubes (11) is discharged to the outside through the gas discharge pipe (50) by negative pressures generated by a discharge pump (30), and negative pressures generated in the unit tube cells (10) allow the water to flow into the unit tube cells (10), so the buoyancy of the body of the diver (110) can be reduced, and, as a result, the lifesaving apparatus (100) can function as the weight to easily dive.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a diver liferaving apparatus for a diver,

[0001] The present invention relates to a diver's life saving diaper lifting device, and more particularly, to a diver life saving diver lifting device for diver lifting a diver when a diver is in danger of losing consciousness during diving, A diver's life-saving device having a function of securing the weight of the diaphragm to allow life of the diver's body to float on the water and to secure the airway by allowing buoyancy to be generated in the life-saving device worn by the diver .

Amateur divers, who work in relatively shallow water (between 2m and 5m depth), perform their intended underwater work while repeating diving and sleeping injuries with their own abandoned capacity without bringing expensive diving equipment.

However, his lung capacity is limited and his dysfunction and time loss are easily consumed by repeating diving and sleeping. Therefore, if the consciousness is dimmed by the underwater environment (water temperature 0 °, etc.) of diver, diving woman, etc., or rats are caused by their own physical exhaustion, Became dangerous equipment and prevented them from rising quickly to avoid dangers from drowning in the water.

In addition, the conventional weights are concentrated on the waist as a method of winding around the waist, which causes stress on the back, such as back pain, which causes frequent pain, and it is necessary to develop a device capable of solving the problem of interfering with diving Respectively.

Conventional personal life saving devices have a problem in that when a boat sinks while on a boat and sailing, the user must take it from the storage device and enter the life-saving device to start wearing the device, and there is almost no life-saving device for a diver or a diver .

In addition, it is not easy for such a personal life saving apparatus to provide a place to be stored separately for a ship or the like, and in particular, there is a problem that a water worker can not save himself or herself because there is no place or time to be worn in emergency situations.

In order to solve such a problem, Korean Patent No. 10-0938973 discloses a personal life saving apparatus coupled to a human body fastening means such as a backpack or a belt type by a simple operation of pulling an operation rope at the time of occurrence of an emergency in an aquarium, A personal survival device is developed as shown in Fig. 1, which can be deployed so that it can float safely even in the case of bad weather and severe waves and swirling.

Fig. 1 is an explanatory view showing a structure of a personal survival apparatus according to the prior art.

The personal survival apparatus according to the prior art can fix and utilize the personal survival apparatus according to the present invention in various types of human body wearing means 1. [ The personal life-saving device according to the present invention in this form has a squib 2b, which is a detonator operated by pulling the operating rope 2a, a sparking agent which is ignited thereby, The expansion means (2) constituted by the generator are provided as one module. Such a known structure is made almost the same as a car airbag.

The expansion means 2 is provided with a spray portion 2c through which the gas is sprayed so that the gas injected from the spray portion 2c can be supplied to the tube 3 A plurality of tubes 3 and a plurality of tubes 3 are connected by a connecting hose 31 capable of being stretched and folded and a plurality of tubes 3 and a connecting hose 3a are connected to each other, And is fixed to one side of the human body wearing means 1. In this case, as shown in Fig.

This prior art personal survival device does not solve the problem of becoming a dangerous device for a diver or a diver in the event of an additional emergency weight due to the weight wound on a diver or a diver's body.

In addition, existing weights are usually made of lead, exposed to heavy metal contamination of diver and marine ecosystem during submergence in water, and existing weights may be exposed to the outside, And the wetsuit is usually made of buoyant material, so if the diver does not give strength to the body, it will float to the surface of the water, but if the face floats in water without ensuring airway for breathing In most cases, even if a diver is stunned and injured in the sea surface, at least efforts are needed to secure airway.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an apparatus and a method for controlling an object, such as a water diver or a diver, Which is capable of providing buoyancy to a diver or diver when the diver needs lifting, and has a function of securing an airway.

Another object of the present invention is to provide a personal life saving apparatus and a personal life saving apparatus in which a personal life saving apparatus, which is connected to a human body fastening means by a simple button operation or a detection signal of a heartbeat sensor, And is capable of floating on the water.

Another object of the present invention is to solve the problem that a load is concentrated on a weight added waist to be worn on a waist by a woman or a diver, thereby reducing a load burden, applying an even load to the body of the diver, To provide a buoyant diver life-saving device capable of providing buoyancy.

In order to accomplish the above object, according to the present invention, there is provided a diver lifter for use with a weight, comprising: a plurality of unit tube cells for introducing and discharging gas into and from each other to generate buoyancy when an emergency occurs in water; A compression gas passage for supplying a gas to the plurality of unit tube cells; A gas supply button for supplying a gas of the compressed gas cylinder to the plurality of unit tube cells by operation of the diver; A discharge pump for discharging gas supplied to the plurality of unit tube cells; A gas discharge button for operating the discharge pump to discharge the gas filled in the plurality of unit tube cells to the outside; A gas supply pipe connecting the plurality of unit tube cells to the compressor body; And a gas discharge pipe connecting the plurality of unit tube cells to the discharge pump.

According to an embodiment of the present invention, there is provided a diver life preserver, which is configured to output a heartbeat-undetectable signal when the heart of the diver is not sensed or is detected to be less than a predetermined heart rate, do.

According to another aspect of the present invention, there is provided a compressed gas container comprising: a storage container in which a light gas is compressed and stored; A gas supply button for discharging the compressed gas in the storage container; And a control unit for supplying air to the plurality of unit tube cells when the heartbeat detection sensor receives the heartbeat detection signal from the heartbeat detection sensor.

According to the temporary example of the present invention, the diver lifter for weight distribution is characterized in that buoyancy is uniformly generated in the center, upper and lower portions of the body of the diver, so that the diver lifter floats rapidly in a balanced posture in which the head and face are raised .

According to one embodiment of the present invention, a gas tube filled with gas is formed in the unit tube cell, and the gas tube is inflated by the introduced gas, so that the gas tube occupies the inside of the unit tube cell, Water is discharged to the outside through the water inlet and outlet, and at the same time buoyancy is generated by the gas filled in the gas tube.

According to one example of the present invention, a plurality of unit tube cells are connected to a gas discharge pipe. When the gas discharge button is pressed, the gas filled in the gas tube by the negative pressure generated by the discharge pump is discharged to the outside through the gas discharge pipe, And water is introduced into the unit tube cell through the entrance to fill the unit tube cell.

According to one embodiment of the present invention, the diver life preserver for weight addition is characterized in that a shoelace tube cell to be worn on the neck of the diver is added.

According to one embodiment of the present invention, a shawl tube cell includes a shawl portion formed of a plurality of tube cells and forming a shawl portion; A float completion sensor for detecting a floating state of a diver wearing a weight diver lifer for lifting water; An airbag that is installed in a neck portion of the shawl and inflates the airbag by receiving a float completion signal indicating that the diver floats on the water from the pressure sensor so that the head of the diver floats over the water, Device.

According to an embodiment of the present invention, a shawl 's airbag is mounted on the neck of a diver and includes a plurality of airbags installed in front, rear, left, and right.

According to an embodiment of the present invention, a plurality of unit pockets inserted in a plurality of unit tube cells are attached.

According to one embodiment of the present invention, a shawl airbag comprises a shoelace consisting of a plurality of airbags and forming a shawl portion; A floatation detection sensor for detecting a floating state of the diver on the water; A plurality of airbags in the shovel portion are inflated to receive the float completion signal indicating that the diver floats above the water from the floatation detection sensor installed in the neck portion of the shawl portion so that the head of the diver is turned back And an airbag device.

According to the present invention, the weight of the weight can be uniformly dispersed throughout the body of the diver by being fastened to the body wearing means such as a suspenders, and the buoyant force acts on the entire body of the diver when buoyancy is generated, And the diving operation and the rising motion on the water are facilitated, and the lifesaving device is immediately operated only by the simple operation of pressing the button, so that the consciousness in the underwater work site becomes faint, By having the function of securing the airway quickly and safely in a situation, it is possible to effectively save the valuable person through breathing and to reduce the buoyancy acting on the body of the diver during the submergence, You can save the physical strength needed for diving, Time to go to work from you to save dive time can be increased.

1 is an explanatory view showing a structure of a personal survival device according to a conventional technology,
FIG. 2 is a worn state view showing a state in which a diver's lifter for use with weight according to the present invention is worn by a diver,
FIG. 3 is a perspective view illustrating a connection state of a plurality of unit tube cells, a gas supply pipe, and a gas discharge pipe according to the present invention,
4 is an enlarged view of a unit tube cell, a gas supply pipe and a gas discharge pipe according to the present invention,
5 is a perspective view illustrating another embodiment in which a shoehorn tube cell is added to a weight diaphragm survival device according to the present invention,
6A and 6B illustrate a third embodiment in which a shoehorn airbag is added to a diver's life-saving device for weight-
FIG. 7 is a partially enlarged view "A" of a fourth embodiment in which a weight absorbing bag is combined with a weight absorbing diaphragm survival device according to the present invention.

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

FIG. 2 is a view showing a wearing state of the diver lifter for use with a weight according to the present invention, in a state where the diver wears it.

The diver life preserver 100 according to the present invention has a shape such as a ball, a square box, and the like so that the diver 110 can float on the surface of the water quickly when an emergency occurs in the water, A plurality of unit tube cells (10) flowing in and out and connected to each other; A compressed gas cylinder (20) for supplying gas to the plurality of unit tube cells (10); A gas supply button (25) for supplying gas of the compressed gas cylinder (20) to the plurality of unit tube cells (10) by operation of the diver (110); A discharge pump (30) for discharging the gas supplied to the plurality of unit tube cells (10); A gas discharge button 35 for operating the discharge pump 30 to discharge the gas filled in the plurality of unit tube cells 10 to the outside; A gas supply pipe (40) connecting the plurality of unit tube cells (10) and the compressed air cylinders (20); A gas discharge pipe (50) connecting the unit tube cell (10) and the discharge pump (30); And a heartbeat detection sensor 80 for detecting a heartbeat of the diver 110 or a heartbeat non-sensing signal when the heartbeat is detected to be less than a predetermined heartbeat.

As shown in FIG. 2, the diver lifer 100 according to the present invention is designed to be worn in the form of a waistband and a suspenders. However, the diaper liferaft 100 according to the present invention may be worn in various forms such as a backpack, a life jacket, It can be fixed to the means.

 The diver lifter for use with a weight according to the present invention 100 according to the present invention has a structure in which air of a compressor body 20 operated to discharge a compressed gas when the gas supply button 25 is depressed is supplied to the plurality of unit tube cells 10, So that the body of the diver 110 wearing the diver lifting apparatus 100 for weight accumulation according to the present invention can be lifted up by buoyancy to the water Let it rise.

In addition, if the diver 110 is unconscious in the water and is unable to breathe or the heart is slowed down, the heart rate sensor 80, which senses the heart rate, can not detect the heart rate, A signal that is the same as when the gas supply button 25 is depressed is applied to the compressor body 20 so that the air in the compressor body 20 flows into the plurality of unit tube cells 10, So that the buoyant force is rapidly increased on the body of the diver 110 wearing the weight-bearing diver lifer 110, and is floated on the water at a high speed.

The compressed gas cylinder 20 includes a storage container 21 in which a light gas such as air, helium, or argon is compressed and stored; A gas supply button 25 for discharging the compressed gas from the storage container 21; And a control unit (not shown) for allowing the air in the compressed gas cylinder 20 to be supplied to the plurality of unit tube cells 10 upon receipt of a heartbeat detection signal from the heartbeat detection sensor 80 The compressed gas discharged from the storage container 21 is supplied to the plurality of unit tube cells 10 through the gas supply pipe 40 because the gas supply pipe 40 and the plurality of unit tube cells 10 are connected in parallel, Simultaneously.

Accordingly, buoyancy is generated in the suspenders and the waistbands, so that buoyancy is generated evenly around the center, upper and lower portions of the body of the diver 110, so that the head and the face are in a balanced posture Headed posture, etc.) to quickly float over the water.

When the head of the diver 110 is lifted out of the water by floating on the water by a balanced posture in which the head and face are raised, the breathing nose and mouth can be maintained in the air.

FIG. 3 is a perspective view showing a connection state of a plurality of unit tube cells, a gas supply pipe and a gas discharge pipe according to the present invention, and FIG. 4 is an enlarged view of a unit tube cell, a gas supply pipe and a gas discharge pipe according to the present invention .

3 and 4, between the compressor body 20 and the plurality of unit tube cells 10 so that the gas discharged from the compressor body 20 can be simultaneously supplied to the plurality of unit tube cells 10, The gas supply pipe 40 is connected in parallel.

A plurality of unit tube cells 10 are formed in the shape of a rectangular box and connected to the gas supply pipe 40 and the inlet connection portion 41 at the lower right side thereof and connected to the unit tube cell 10 through which the inlet connection portion 41 is connected An inflow valve 15 is provided at the lower portion of the inner right side so that the gas supply button 25 is opened so that the gas of the compressed gas cylinder 20 flows into the unit tube cell 10 through the gas supply pipe 40 .

A gas tube 11 filled with a gas is formed in the lower part of the unit tube cell 10 and expanded by the gas flowing through the inlet valve 15 so that the inside of the unit tube cell 10 is filled with the gas tube 11, The water filled in the unit tube cell 10 is discharged to the outside through the water inlet / outlet 12.

Accordingly, buoyancy is generated by the gas filled in the gas tube 11 as the water filled in the plurality of unit tube cells 10 is discharged, so that the diver life-saving device 100 for weight accumulation according to the present invention is worn So that the body of the diver 110 floats on the water by buoyancy.

The lower portion of the left side surface of the unit tube cell 10 is connected to the gas discharge pipe 50 through the discharge connection portion 51 and is connected to the lower portion of the inner left side surface of the unit tube cell 10 to which the discharge connection portion 51 is connected. The gas exhaust tube 30 is opened so that the gas exhaust tube 30 is opened and the gas filled in the gas tube 11 is discharged to the outside through the gas exhaust tube 50 by the negative pressure generated by the exhaust pump 30 .

Since the negative pressure is generated inside the unit tube cell 10, water is introduced into the unit tube cell 10 through the water inlet 12 to fill the unit tube cell 10, so that the body of the diver 110 The buoyancy is reduced and it acts like a weight to facilitate diving.

5 shows another embodiment in which a shoehorn tube cell is added to a weight diver's life preserver according to the present invention.

The diaper lifer 200 according to the embodiment of the present invention is attached to the shoulder portion of the left and right suspenders to be worn on the shoulder of the diver 110 by adding a shawl tube cell 60 to be worn on the neck of the diver 110.

Here, the left and right suspenders are the same as the suspenders that are worn on the shoulder of the weight diver lifter 100, and the rest are the same. In other words, a shoelace tube cell 60 is additionally attached to the shoulder portion of the weight diver lifter 100, and as shown in FIGS. 3 and 4, a plurality of unit tube cells 10 are provided with a gas supply pipe 40 And the gas exhaust pipes 50 are simultaneously connected in parallel.

The shawl tube cell 60 comprises a shawl portion 61 composed of a plurality of tube cells 10 and forming a shawl portion; A float completion detecting sensor 62 for detecting a state in which the diver 110 wearing the weight diver lifer 200 is floated on the water; The airbag 63a is inflated by receiving a float completion signal indicating a state in which the diver 110 is floated on the water from the pressure sensor 62 installed in the neck portion of the shawl portion 61, And an airbag device (63) for allowing the head of the airbag (110) to be bent backward while being floated above the water.

As described above, when the gas supply button 25 is pressed, the gas of the compressed gas cylinder 20 is supplied to the inside of the unit tube cell 10 through the gas supply pipe 40, When the gas discharge button 35 is depressed, the gas filled in the gas tube 11 by the negative pressure generated by the discharge pump 30 is discharged to the outside through the gas discharge pipe 50 , Water is introduced into the plurality of unit tube cells (10) through the water inlet (12) to reduce the buoyancy of the body of the diver (110).

 The float completion detection sensor 62 senses the pressure due to the water pressure when the diver 110 is in the water and senses that the water is in the water. When the diver 110 floats on the water, only the atmospheric pressure is detected without the water pressure, When it is sensed, it senses the state of floating on the water through the pressure and outputs a float completion signal to the airbag device (63).

However, the float completion detection sensor 62 is not limited to the pressure sensor but may be an oxygen sensor for sensing oxygen in the air, a contact sensor for detecting the capacitance in the water and the capacitance in the air, Can be detected.

The airbag device 63 inflates the airbag 63a by inflating the airbag 63a when the float completion signal is received from the flood completion detection sensor 62 to push the neck of the diver 110 to return the neck of the diver 110 to the back Maintain a tilted position so that mouth and airways are not obstructed.

6A and 6B show a third embodiment in which a shoelace airbag is added to a diver's life-saving device for weighing according to the present invention.

The diver life preserver 300 according to the present embodiment includes four airbags 71, 72, 73, and 74 installed on the neck of the diver 110 and disposed at front, back, left, And is attached to the shoulder portion of the left and right suspenders to be worn on the shoulder of the diver 110 as in the second embodiment.

The shawl airbag 70 according to the present embodiment includes a shoelace 75 including four airbags 71, 72, 73, 74 and forming a shawl portion; A float completion detecting sensor 62 for detecting a state in which the diver 110 wearing the weight diver lifer 300 is floated on the water; A float completion signal indicating a floating state of the diver 110 from the float completion detecting sensor 62 and a signal indicating that the diver 110 has floated on the water is received from the float part 61 of the shawl part 61, And an airbag device (76) for inflating the airbags (71, 72, 73, 74) so that the head of the diver (110) is turned backward.

The four airbags 71, 72, 73 and 74 of the shovel portion 75 are installed respectively in the front, rear, left and right rooms around the head of the diver 110, The gas is supplied and expanded.

When the four airbags 71, 72, 73, and 74 are inflated, the neck of the diver 110 is supported in four directions, so that the airbag 71 is supported in a balanced posture in which the head and face are upright And the neck of the diver 110 can be stably supported in four directions at which time the front airbag 71 is inflated to a greater or greater extent than the rear airbag 72, Make the size different so that the throat is tilted back and is installed to maintain the airway attitude.

Thereby, when the four airbags 71, 72, 73, 74 are inflated, the neck of the diver 110 is supported in four directions so that the front airbag 71 expands larger or higher than the rear airbag 72 The head of the diver 110 is allowed to come out of the water and at the same time to be turned back so that the airway can be secured.

Fig. 7 shows a fourth embodiment and a partially enlarged view "A" in which a weight absorbing bag is coupled to a weight saving life diver lifting device according to the present invention.

As shown in the figure, the weight bag 90 is attached to the life-preserver 100 according to the present invention, and the diver takes a long time to dive to a desired depth due to insufficient weight for diving when using only the life-saving device.

The weight pouch 90 of the present embodiment includes a plurality of unit pouches 91 to which a weight 92 made of heavy metal (for example, lead, iron, etc.) is inserted and fixed; A bag cover 93 installed at the entrance of the plurality of unit bags 91 to cover the inlet of the unit bag 91 so as not to be removed when the weight 92 is inserted; A hooked Velcro tape 94 attached to the inside of the pocket cover 93; And a looped Velcro tape portion 95 attached to the upper surface of the unit bag 91 and coupled to the hooked Velcro tape 94.

Here, not only the hook-and-loop fasteners 94 and the hook-and-loop fasteners 95 but also other fasteners, strings, and the like can be used as the fastening means for attaching the bag cover 93 to the unit bag 91.

The weight absorbing bag 90 of the present embodiment includes a plurality of unit bags 91 so that the weight 92 can be selectively inserted into all or a part of the plurality of unit bags 91 according to the weight of the diver 110 have.

The diaper 110 moves a part of the weights 20 inserted in the plurality of unit bags 91 constituting the suspenders to a plurality of unit bags 91 constituting the waist belt so that the weights 92 are inserted By weighting the waist and submerging swim, the diver 110 can hold his or her posture balanced during the dive.

In the emergency, the weight pouch 90 can be detached from the life preserver 100, and the weight pouch 90 and the life preserver 100 can be fastened to the diver using the fastening and detachable fastening means such as Velcro tape. The weight bag 90 can be separated from the life preserver 100 and floated on the water at a high speed in an emergency such as a rat in the water.

Therefore, the diver 110 can adjust the dive speed using the weight-absorbing bag 90 together with the life-saving device 100 according to the present invention, and can float at a desired speed even when it floats on the water.

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, Should be interpreted as falling within the scope of.

10: unit tube cell 11: gas tube
12: Water inlet 20: Compressor body
21: storage container 25: gas supply button
30: exhaust pump 35: gas exhaust button 40: gas supply pipe 41:
50: gas discharge pipe 51: discharge connection part
60: shawl tube cell 61: shawl part
62: Injury completion sensor 63: Airbag device
70: Shawl airbags 71, 72, 73, 74:
75: shawl 76: airbag device
80: heart rate sensor 90: weight pouch
91: unit bag 92: weight weight
100, 200, 300: Weight diver lifter

Claims (11)

A plurality of unit tube cells into which gas is introduced and discharged and connected to each other to generate buoyancy when an emergency occurs in water;
A compression gas passage for supplying a gas to the plurality of unit tube cells;
A gas supply button for supplying a gas of the compressed gas cylinder to the plurality of unit tube cells by operation of the diver;
A discharge pump for discharging gas supplied to the plurality of unit tube cells;
A gas discharge button for operating the discharge pump to discharge the gas filled in the plurality of unit tube cells to the outside;
A gas supply pipe connecting the plurality of unit tube cells to the compressor body;
And a gas discharge pipe connecting the plurality of unit tube cells to the discharge pump. The method according to claim 1,
And a heartbeat detection sensor outputting a heartbeat non-detection signal when the heartbeat of the diver is not sensed or the sensed heartbeat is below the set heartbeat rate. 3. The method according to claim 1 or 2,
The compressed gas container includes: a storage container in which a light gas is compressed and stored; A gas supply button for discharging the compressed gas in the storage container; And a control unit for supplying air to the plurality of unit tube cells when the heartbeat detection sensor receives the heartbeat detection signal from the heartbeat detection sensor. Life preserver. 3. The method according to claim 1 or 2,
Wherein a buoyancy is uniformly generated in the center, upper and lower portions of the body of the diver, so that the diver floats on the water in a balanced posture in which the head and face are raised upward. 3. The method according to claim 1 or 2,
Since the gas tube is filled in the unit tube cell and expanded by the introduced gas, the gas tube occupies the inside of the unit tube cell, so that the water filled in the unit tube cell flows through the water inlet and outlet And the buoyant force is generated by the gas filled in the gas tube at the same time. 3. The method according to claim 1 or 2,
The plurality of unit tube cells are connected to the gas discharge pipe. When the gas discharge button is depressed, the gas filled in the gas tube by the negative pressure generated by the discharge pump is discharged to the outside through the gas discharge pipe, Wherein the unit tube cell is filled with the water to be introduced into the inside of the tube cell. 3. The method according to claim 1 or 2,
Wherein the diver's life saving diver lifting device is provided with a shovel tube cell to be worn on the neck of the diver. 8. The method of claim 7,
The shawl tube cell comprises a shoelace consisting of a plurality of tube cells and forming a shawl portion; A float completion sensor for detecting a floating state of a diver wearing a weight diver lifer for lifting water; An airbag that is installed in a neck portion of the shawl and inflates the airbag by receiving a float completion signal indicating that the diver floats on the water from the pressure sensor so that the head of the diver floats over the water, And a diaphragm storage device having a function of securing the weight of the diaphragm. The method according to claim 1,
Wherein a diaphragm airbag is mounted on the neck of the diver and includes a plurality of airbags mounted on front, rear, left, and right sides of the diver. The method according to claim 1,
And a plurality of unit bags inserted in the plurality of unit tube cells are attached to the diver tube unit. 10. The method of claim 9,
The shawl airbag comprises a shoelace consisting of a plurality of airbags and forming a shawl portion; A floatation detection sensor for detecting a floating state of the diver on the water; A plurality of airbags in the shovel portion are inflated to receive the float completion signal indicating that the diver floats above the water from the floatation detection sensor installed in the neck portion of the shawl portion so that the head of the diver is turned back Wherein the airbag device is configured to include an airbag device.

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