KR102603056B1 - Apparatus for breathing underwater - Google Patents

Abstract

The present invention relates to an underwater breathing apparatus, comprising: a case; and a respirator that introduces and discharges air through a breathing hose connected to the case, wherein the inside of the case includes an air tank for supplying compressed air, an oxygen can for supplying high-pressure oxygen, and a respirator included during exhalation. It is characterized by including a breathing bag that supplies air from which carbon dioxide has been removed.

Description

Apparatus for breathing underwater}

The present invention relates to an underwater breathing device, and more specifically, to a device that allows breathing underwater using an oxygen supply device.

Activities in the water have a significant impact on the human body due to various environmental factors such as water temperature and pressure. In particular, in the event of a maritime disaster, underwater life-saving and search activities and activities such as underwater diving or diving require appropriate devices to support breathing.

Existing underwater breathing devices do not have an oxygen supply device or a rebreathing device, the air tank size is large and heavy, so mobility is low, and if the air tank size is small, the use time is short.

U.S. Patent Publication No. 2007/0051365 (2007.03.08.)

The purpose of the present invention to solve the above problems is to provide an underwater breathing device that can increase the operating efficiency of the equipment and increase the use time by connecting an air tank, an oxygen supply device, and a rebreathing device.

The underwater breathing apparatus of the present invention for achieving the above object includes a case; and

A respirator that introduces and exhausts air through a breathing hose connected to the case.

The inside of the case is characterized by including an air tank that supplies compressed air, an oxygen can that supplies high-pressure oxygen, and a breathing bag that supplies air from which carbon dioxide contained during exhalation has been removed.

An air inlet pipe is connected to one side of the top of the air tank, and a housing is coupled to the top of the air inlet pipe.

An air outlet pipe is formed on the side of the housing, a pressure gauge that displays the pressure state is formed on the upper side of the housing, and a regulator is formed on the front of the housing to control the pressure of the air coming out of the air tank and convert it into a breathable pressure. It is characterized by

The oxygen can is characterized by including a regulator that consistently supplies high-pressure oxygen.

The breathing bag is characterized in that it collects air from which carbon dioxide has been removed by supplying expiration from the respiratory tract to a carbon dioxide adsorbent through a second tube connected to the exhalation hose.

A relief valve is formed on one upper side of the breathing bag to prevent overpressure in the breathing line.

It is characterized in that it prevents air backflow during exhalation through a check valve coupled to the second tube.

The air from the air tank and breathing bag and the oxygen from the oxygen can are supplied to the respiratory system through an inhalation hose connected to the first tube.

It is characterized in that air backflow is prevented during inhalation through a check valve coupled to the first tube.

It is characterized by preventing backflow of air during inhalation through a check valve coupled to the air outlet pipe.

The case is characterized by being equipped with a buoyancy device on both sides of the case that can quickly rise to the surface when rescuing people in the water.

As described above, according to the present invention, the operating efficiency of the equipment can be increased and the use time can be increased by connecting the air tank, the oxygen supply device, and the rebreathing device, so it can be used for underwater life-saving and search activities in the event of a maritime distress accident.

Figure 1 is an internal perspective view showing an underwater breathing apparatus according to the present invention.

Below, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein.

Then, a preferred embodiment of the underwater breathing apparatus according to the present invention will be described in detail.

Figure 1 is an internal perspective view showing an underwater breathing apparatus using an oxygen supply device according to the present invention.

Referring to Figure 1, the underwater breathing apparatus according to the present invention includes a case 100 and a respirator 200 that introduces and discharges air through a breathing hose 300 connected to the case 100. . Here, the breathing hose 300 may include an exhalation hose 310 and an inhalation hose 320.

The case 100 may be made of a lightweight and high-strength carbon fiber material, but is not limited thereto.

The inside of this case 100 may include an air tank 110, an oxygen can 120, and a breathing bag 130.

The air tank 110 can store compressed air. At this time, it is desirable to store the air pressure at 3 bar, but it is not limited to this.

An air inlet pipe is connected to one side of the top of the air tank 110, and a housing 150 may be coupled to the top of the air inlet pipe. Here, an air outlet pipe 151 is formed on the side of the housing 150, a pressure gauge 152 indicating the pressure state is formed on the upper side of the housing 150, and a pressure gauge 152 is formed on the front of the housing 150 from the air tank 110. It is possible to form a regulator 153 that controls the pressure of the air coming out and converts it into a breathable pressure. At this time, the setting pressure of the regulator 153 is preferably set to 1.2 bar, but is not limited to this.

Here, the air outlet pipe 151 may supply air to the respirator 200 through the inhalation hose 310 connected to the first tube 140.

The oxygen can 120 can constantly supply high-pressure oxygen to the first tube 140 through the oxygen outflow pipe 122 in an amount that the user can breathe through the regulator 121. At this time, oxygen can be supplied to the respiratory tract 200 through the inhalation hose 310 connected to the first tube 140.

The breathing bag 130 can collect air from which carbon dioxide contained during exhalation has been removed. That is, when the breathing bag 130 supplies the air contained during exhalation from the respirator 200 to the second tube 160 connected to the exhalation hose 320, the carbon dioxide adsorbent ( 131), the air from which carbon dioxide has been removed can be collected. Here, the air from which carbon dioxide has been removed can be supplied to the respirator 200 through the first tube 140 connected to one side of the breathing bag 130 and the inhalation hose 310 connected to the first tube 140.

Here, a relief valve 133 may be formed on one upper side of the breathing bag 130 to prevent overpressure in the breathing line.

The check valve 141 coupled to the first tube 140 and the check valve 154 coupled to the air outlet pipe 151 can prevent backflow of air during inhalation, and the check valve 141 coupled to the second tube 160 The check valve 161 can prevent air backflow during exhalation.

Meanwhile, goggles can be mounted on the respirator 200, and the case 100 may be in the form of a bag that can be worn on the shoulder. On both sides of the case 100, it is possible to quickly rise to the surface when rescuing people in the water. A buoyancy device can be installed. For example, by installing a buoyancy device using carbon dioxide gas, you can turn the buoyancy device off when descending into the water and turn it on when rising to the surface.

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

100: case 110: air tank
120: Oxygen can 121,153: Regulator
122: oxygen outflow pipe 130: breathing bag
131: carbon dioxide adsorbent 132: relief valve
140: first tube 141,154,161: check valve
150: Housing 151: Air outlet pipe
152: pressure gauge 160: second tube
200: Respirator 300: Breathing Hose
310: Inhalation hose 320: Exhalation hose

Claims (11)

case; and
Including a respirator that introduces and exhausts air through a breathing hose connected to the case,
Inside the case,
an air tank supplying compressed air,
An oxygen can that supplies high-pressure oxygen, and
It includes a breathing bag that supplies air from which carbon dioxide contained during exhalation is removed,
An air inlet pipe is connected to one side of the top of the air tank,
A housing is coupled to the top of the air inlet pipe,
An air outlet pipe is formed on a side of the housing,
A pressure gauge is formed on the upper side of the housing to display the pressure state,
An underwater breathing device, characterized in that a regulator is formed on the front of the housing to control the pressure of the air coming out of the air tank and convert it into a breathable pressure. delete delete According to paragraph 1,
The oxygen can is an underwater breathing device characterized in that it includes a regulator that consistently supplies high-pressure oxygen. According to paragraph 1,
The breathing bag is an underwater breathing device characterized in that it collects air from which carbon dioxide has been removed by supplying exhalation from the respirator to a carbon dioxide adsorbent through a second tube connected to the exhalation hose. According to paragraph 1,
An underwater breathing device, characterized in that a relief valve is formed on one upper side of the breathing bag to prevent overpressure in the breathing line. According to clause 5,
An underwater breathing device, characterized in that it prevents backflow of air during exhalation through a check valve coupled to the second tube. According to paragraph 1,
An underwater breathing device, characterized in that air from the air tank and breathing bag and oxygen from the oxygen can are supplied to the respiratory tract through an inhalation hose connected to the first tube. According to clause 8,
An underwater breathing device, characterized in that it prevents air backflow during inhalation through a check valve coupled to the first tube. According to paragraph 1,
An underwater breathing device characterized in that it prevents backflow of air during inhalation through a check valve coupled to the air outlet pipe. According to paragraph 1,
An underwater breathing device, characterized in that both sides of the case are equipped with buoyancy devices that can quickly rise to the surface when rescuing people underwater.