RU94950U1 - BREATHE-HELPING MACHINE - Google Patents

Abstract

 1. The breathing apparatus, including the inspiration system and the exhalation system, which is an air release valve, built into the regulator body, characterized in that it has an inspiration system, which is an air supply regulator, consisting of a body with a mouthpiece and a diaphragm valve, which together with the exhaust valve forms a breathing chamber, and a diaphragm valve with a ring and an integrated limit switch with an electric cable is fixed to the housing of the air supply regulator, to which through the air supply hose an electric pump is connected with an intake pipe fixed at the top with openings at the end, the electric pump made in the form of an air-tight float consisting of two parts connected by fasteners, a battery and a compressor with two inlet, two outlet valves and a movable membrane driven by an electric motor through the crankshaft and connecting rod. ! 2. The breathing apparatus according to claim 1, characterized in that the length of the intake pipe is 40-50 cm.! 3. The breathing apparatus according to claim 1, characterized in that the holes of the air intake tube are located on the side surface of the tube and their number may be 2-6.

Description

The invention relates to diving equipment, in particular to systems for supplying air from the surface of the water for breathing by a diver.

Known breathing apparatus [1], containing a floating inflatable chamber, an electric compressor with a surface inlet, a tank connected with its opening to the outlet of the electric compressor, a relay that controls the air pressure connected to the inlet of the tank by its inlet, a battery connected with its supplying leads to the powered leads of a compressor with an electric drive through the output contacts of a relay controlling air pressure, a hose supplying air to the water an element connected by its inlet to the opening of the tank. The floating inflatable chamber is made of two different volume insulated compartments in the form of a torus, the wall of the smaller compartment around the circumference of the outer diameter is the common wall around the circumference of the inner diameter of the larger compartment.

The disadvantage of this technical solution is the bulkiness and a sufficiently large (approximately 15 kg) weight of the product and the dependence of the diver on forced air supply.

Known diving breathing apparatus [2], containing a compressed air supply system from the surface of the water through a flexible tube, a breathing machine comprising a housing with air inlet and outlet, an input connected to the output of the flexible tube of the compressed air supply system from the water surface, a mouthpiece communicating with its opening with an internal cavity of the housing, an exhaust valve mounted at the outlet of the housing, a diaphragm mounted in the housing and sensing the pressure of its environment, an intake valve mounted at the entrance of the housing, growling d, the longest shoulder in contact with the diaphragm, mounted in the housing with the possibility of rotation around the point when the diaphragm deforms inside the housing, the shortest shoulder connected to the inlet valve with the ability to move and open the inlet valve of the housing entrance when the lever is rotated around the fulcrum. It is equipped with a diver’s system for diverting exhaled air to the surface of the water, containing a second diaphragm installed in the housing of the breathing machine and sensing the pressure of its environment, a second output of the breathing machine body, a second exhaust valve installed on the second output of the breathing machine body, the second lever, the longest connected by a shoulder with a securing means to the second diagram, mounted in the housing of the breathing machine with the possibility of rotation around the fulcrum when the second diaphragm the ragma to the outside of the breathing machine body, connected with the second exhaust valve with the shortest shoulder so that the second outlet valve can move and open the second output of the breathing machine body when the second lever is rotated around the fulcrum, the second flexible pipe located at its outlet above the water surface communicates with its entrance the second output of the breathing machine.

Known breathing apparatus [3], including the inspiration system and exhalation system. It is an air supply regulator consisting of a housing with a mouthpiece and a diaphragm forming a breathing chamber closed by a lid, a movable lever fixed in the breathing chamber, as well as a limit switch and an electric cable integrated into the air supply channel, which is blocked by an outlet valve. The outlet system is an air exhaust valve built into the regulator body and connected to the inlet openings, and the air supply regulator is connected to the electric pump and the float by means of air supply hoses, moreover, the float consists of a safety valve including a stop spring, a cup, a movable sleeve with output holes located in the thrust washer with a movable sealing gasket, and a rubber gasket is provided between the thrust washer and the cup.

The disadvantage of this technical solution is the complexity of manufacturing the product, the possibility of air entering the - respiratory system with a slight flooding of the float.

The technical task is to solve the problem of increasing the flow of air from the atmosphere using inspiratory forces and creating safe conditions for swimming and simplifying the design of the apparatus.

The problem is solved due to the fact that the breathing apparatus is equipped with an air supply regulator connected to the air supply hose with an electric pump in the form of a float, which takes air through an air intake pipe with holes at the end.

Figure 1 presents the claimed breathing apparatus containing an air supply regulator 4. placed in a housing with a mouthpiece 1 and a diaphragm valve 2 with a ring 8, forming a breathing chamber 5 with an air release valve 3 and an integrated limit switch 7 and an electric cable 6. In addition, the air supply regulator is connected to the air supply hose 9 with the body of the electric pump 10 in the form of a float, consisting of two parts connected by fasteners 12, with an intake pipe 14 fixed to the upper part with holes at the end 13. It comprises from electric battery 20, a compressor 16 fitted with two inlet 19 and outlet 21 valves and the movable membrane 18, driven by motor 11 through crankshaft 15 and connecting rod 17.

The breathing apparatus works as follows:

When a diver is inhaled through a mouthpiece, the diaphragm valve of the air supply regulator deforms, which closes the contacts of the electric cable passing inside the air supply hose connected to the electric pump. The electric pump, which injects air with the help of a compressor, is switched on through an air intake pipe with holes at the end. If the contact sticks during inspiration, the diver manually can use the ring to disconnect the contact in the limit switch to stop the air supply from the electric pump.

Compared with the prototype, the proposed technical solution is much simpler to manufacture, due to the exclusion of component parts of the product, it is much safer in the diver’s handling of the device due to the exclusion of water entering the human respiratory system with a slight flooding of the float or with a small wave.

Information sources

1. Patent for ПМ RU 73647 dated January 16, 2008. IPC В63С 11/02

2. Patent RU 2331544 dated December 21, 2006 IPC B63C 11/20

3. Patent RU 2321521 of 04/03/2006 IPC B63C 11/20 (Prototype)

Claims (3)

1. The breathing apparatus, including the inspiration system and the exhalation system, which is an air release valve, built into the regulator body, characterized in that it has an inspiration system, which is an air supply regulator, consisting of a body with a mouthpiece and a diaphragm valve, which together with the exhaust valve forms a breathing chamber, and a diaphragm valve with a ring and an integrated limit switch with an electric cable is fixed to the housing of the air supply regulator, to which through the air supply hose an electric pump is connected with an intake pipe fixed at the top with openings at the end, the electric pump made in the form of an air-tight float consisting of two parts connected by fasteners, a battery and a compressor with two inlet, two outlet valves and a movable membrane driven by an electric motor through the crankshaft and connecting rod. 2. The breathing apparatus according to claim 1, characterized in that the length of the air intake tube is 40-50 cm 3. The breathing apparatus according to claim 1, characterized in that the openings of the air intake tube are located on the side surface of the tube and their number may be 2-6.