KR200384150Y1 - Submerged respirator's air inputting device - Google Patents

Abstract

  The present invention relates to an external air inlet device of the underwater respirator, which enables the external air to be breathed underwater.

  In more detail, an external air inlet device allows a diver to operate a short time (5 to 10 minutes) in a rather shallow water to easily receive aerobic air on the water by a manual method. It is about.

  Conventional divers breathe underwater by installing an air supply in a float or a boat floating in the water (on the water) by supplying the external aerobic air generated here through a connecting hose to the diver in the water (diver) Although it is possible to operate underwater for a long time, this method is not only expensive to purchase the equipment, but also complicated to structure the external air supply system and also requires maintenance of the air supply on the water. There was a lot of problems.

  The present invention has been devised to solve the above problems, the subject matter of the present invention is to introduce aerobic air generated in the buoyancy (15) installed in the water submerged by the underwater diver (13) manually supplied to the outside air inlet It relates to a device, the structure thereof is a cylindrical shape of the outer side of the supply device body (1) surrounded by a rubber cover (2) and the inside of the body (1) through a plurality of resilient springs (3) Install a middle pipe (4) in the transverse direction, one end of the pipe (4) is connected to the air inlet hose (9) connected to the buoyancy (15) on the water and the other end is a diver (13) ) Is connected to the flexible hose 10 is connected to the upper portion of the wearing hydraulic 14, and the two small diameter pipes (5) (6) are inserted into the inside of the medium diameter pipe (4) in the transverse direction, Piston valve (7) serving as a check valve on the small-diameter pipe (5) on one side ) Is built-in, and the rear end of the small-diameter pipe (6) of the other side is equipped with a flute valve (8) that is detachable from side to side, the present invention is a diver (13) working in shallow water underwater When breathing is a device that can inhale and breathe the outside air of the water by repeating the expansion and expansion by manually pressing the air inlet device body (1) with one arm, which is simple in structure and trouble-free There is a feature that allows easy outside air breathing underwater.

Description

Submerged respirator's air inputting device

  The present invention relates to an external air inlet device of an aquatic respirator worn by a diver, and more specifically, the diver can easily receive aerobic air on the water (water) by a manual method in a shallow water. To an external air inlet device.

  Conventional divers breathe underwater by installing an air supply on a floating boat and supplying the generated air to a diver in the water through a connecting hose, which allows the diver to be underwater for a long time. However, this method has a problem in that it is expensive to purchase the equipment, as well as the maintenance of the air as the personnel required to supply air separately.

  The present invention has been devised to solve the above problems, and the subject matter of the present invention is to divert the aerobic air generated in the buoyancy unit 15 of the rectangular parallelepiped 15 made of compressed styrofoam material installed on a shallow water depth. It relates to an external air inlet device that is supplied in a way to breathe underwater, the shape of which is a medium-diameter pipe (4) inside the cylindrical device body (1) surrounded by a rubber cover (2) on the outside Small-diameter pipe (5) having a check valve-type piston valve (7) and a fanggae valve (8) mounted at the rear end of the medium-diameter pipe (4) are installed in the transverse direction. 6) is inserted continuously in the transverse direction, when the diver 13 breathing underwater, the external air by repeating the expansion and expansion by manually pressing the feeder body (1) with one arm. It will have to be drawn to breathe.

  This will be described in detail based on the drawings.

  It is connected to the buoyancy 15 installed on the water (water level), the air supply hose (9) and the life rope (16), the outer air supply body (1) that the diver 13 wears on the side 1 is a cylindrical shape that surrounds the outer surface of the rubber cover 2, as shown in Figure 1, the inner diameter of the device body 1 through the upper and lower ends on the left and right side through the spring (3) sandwiched between the support section (3a) A pipe 4 of the middle side is installed in the transverse direction, and one end of the pipe 4 has an external air inlet port through which an air inlet hose 9 connected to the buoyancy unit 15 of the above water is fitted. (9a) and the other end is fitted with a flexible hose 10 which is connected to the upper portion of the water diameter 14 of the diver (13), and also a plurality of O-rings inside the medium diameter pipe (4) Insert two small diameter pipes (5) and (6) in the lateral direction via (11), and check the small diameter pipe (5) on one side. A piston valve 7 serving as a valve is built in, and a circular fang valve 8 is inserted into the rear end of the small-diameter pipe 6 on the other side, which is detachably operated in the front-rear direction (see Fig. 2). The medium-diameter pipe 4 at the point where the two small-diameter pipes 5 and 6 are connected to form a through hole 4a, through which the external aerobic air enters the inside of the apparatus body 1 through the through hole 4a. It is a structure that allows inflow and outflow.

  Then, the buoyancy unit 15 cuts two-thirds of the height of the compressed styrofoam into a rectangular parallelepiped shape (400 × 400 × 200 m / m), and then forms vent holes 15a on left and right sides thereof to the outside thereof. The air can be introduced into the buoyancy 15 and the inner surface of the central portion thereof is dug to form an air collecting portion (15b), the lower end of the air supply hose (9) is fitted and connected, of the buoyancy (15) On the outside, the life rope 16 is cross-bundled and connected to the device body 1 mounted on the body of the diver 13 together with the air inlet hose 9 to be used as a life rope 16 in case of emergency. It was made possible. (See Fig. 3)

  An embodiment of the present invention configured as described above is as follows.

  In the case where the diver 13 in the shallow water is to breathe air, the diver body 13 is compressed by a manual method of simply pressing the device body 1 worn by the elbow of one arm. The external aerobic air generated in the buoyancy unit 15 in the water phase is introduced as the piston valve 7 mounted in the small diameter pipe 5 moves forward as the spring 2 in the cylinder expands. And into the air pocket 12 in the body 1, and the outside air in the air pocket 12 is introduced into the water tank 14 of the underwater diver 13 while pushing forward the lagoon valve (8) Diver 13 is able to breathe the external aerobic air with the nose, when the diver 13 exhales anaerobic air in the body, the eighth valve valve (8) is backwards to the air bag formed in the device body (1) 12 passages Oxygen-free air discharged from the body of the diver 13 as it is prevented from entering into the air pocket 12 of the device body 1, but the diver 13 can exhale through the mouth, in this case The piston valve (7) acts as a check valve so that the external aerobic air can be introduced into the device body (1) bar of the present invention independently for a short time of about 5 to 10 minutes in water without external help Is the passive respiration of oxygen-containing outside air.

  As described above, the present invention relates to an external air inlet device of an aquatic respirator capable of breathing by injecting external air of the water in a manual manner. Not only can it be used independently by manual method but also the equipment purchase cost is low and it is very practical and economical effect.

1 is a cross-sectional view of the present invention

2 is an enlarged view of a portion “A” of FIG. 1;

3 is an embodiment of the present invention

※ Explanation of symbols for main parts of drawing

1-Body 2-Rubber Cover 3-Spring 3a-Support

4-medium-diameter pipe 4a-hole 5, 6-small-diameter pipe

7-Piston Valve 8-Cotter Valve 9-Air Inlet Hose

9a-Air inlet 10-Flexible hose 11-O-ring 12-Airbag

13-Dive 14-Hydroponic 15-Buoyant 15a-Ventilator

15b air collection 16-life rope

Claims (1)

  The configuration of the external air inlet device body 1, which draws in the external air generated by the buoyancy unit 15 on the water, has a left and right side inside the cylindrical device body 1 with the rubber cover 2 enclosed therein. At the upper and lower ends, a medium-diameter pipe 4 is installed laterally via a spring 3 fitted to the support section 3a, and at one end of the pipe 4, the above-described buoyancy unit The air inlet hose (9) connected to the (15) is fitted to the external air inlet (9a) is fitted, the other end is fitted with a flexible hose (10) connected to the water diameter of the diver 13, the medium diameter pipe Inside (4), two small-diameter pipes (5) and (6) are inserted laterally through a plurality of O-rings (11), but one small-diameter pipe (5) has a piston valve (7) embedded therein and the other side. The rear end of the small-diameter pipe 6 is fitted with a flute valve 8 detachable from side to side. External air inlet device of the underwater respirator, characterized in that the through-hole (4a) is formed in the medium-diameter pipe (4) of the point where the frame (5) (6) is connected.