KR200298307Y1 - Air compression supply system using wind wave and shoulder by forming hollow state inside breakwater - Google Patents

Abstract

[Technical field to which the design belongs]

Conventionally, in order to compress and use air by using an air compressor, power or oil energy for driving the air is required. Therefore, exhausting oil resources are stored, driving costs are high, and air is exhausted from an engine for compressing and supplying air. It is the main cause of environmental pollution of exhaust gas, which is harmful to the environment, and it was not effective in supplying compressed air in a short time.

[purpose]

This paper has been used as a means to solve this problem, using a large amount of compressed air supply in a short time and using the air compressor that operates this without the use of electric power or oil energy, using the wind and waves of infinite pollution-free natural energy In order to provide a function that does not incur operating expenses and does not exhaust the exhaust gas, air pressure supply using the wind and wave of the wave is formed by forming a hollow state inside the breakwater. To provide a system.

[Configuration]

The breakwater center shaft 21 is constructed in the breakwater, and the hollow (11) inside the breakwater is separated from the left and right sides of the breakwater central axis 21 to form a fluid (water) inlet and outlet reciprocating opening (8). Waves in contact with the left and right side walls of the breakwater, wave force or fluid (water) flows freely in and out of the breakwater, while giving pressure change to the space of the hollow state 11 inside the breakwater. 4) inside the breakwater, which is configured to use compressed air by injecting atmospheric air into the compressed air outlet 12 through the air discharge control jack valve body 14 by inducing the inlet of the atmospheric air. Air compression supply system using wind and wave of wave by forming hollow state in

[effect]

The breakwater center shaft 21 is constructed in the breakwater, and the hollow (11) inside the breakwater is separated from the left and right sides of the breakwater central axis 21 to form a fluid (water) inlet and outlet reciprocating opening (8). Waves in contact with the left and right side walls of the breakwater, wave force or fluid (water) flows freely in and out of the breakwater, while giving pressure change to the space of the hollow state 11 inside the breakwater. 4) Inside the breakwater, characterized in that it is configured to use compressed air by injecting atmospheric air through the air discharge control jack 12 through the air discharge control jack valve body (14) to guide the incoming air through It is effective to provide air compression supply system using wind wave and shoulder by forming hollow state in the

Description

Air compression supply system using wind and wave of wave by forming hollow state inside breakwater {omitted}

This paper is designed to solve the problems of the prior art. When compressing and supplying air, this paper is designed to be useful for industrial use by compressing and supplying a lot of air in a short time. It is designed to provide a function that does not use operating expenses and does not emit exhaust gas by using the wind and waves of infinite pollution-free natural energy without using it. The purpose is to provide an air compression supply system using the wind and wave of the wave by forming a hollow state in the breakwater.

Conventionally, in order to compress and use air by using an air compressor, power or oil energy for driving this is required, thus exhausting the oil resources stored therein, driving costs are high, and exhausting from the engine for compressing and supplying air. It is a major cause of environmental pollution of gas, which is harmful to the environment, and it was not effective in supplying compressed air in a short time.

First, due to these closed ends, the air breakwater can attenuate the wave by dispersing the energy of the wave by ejecting compressed air by raising many bubbles, but there is an air breakwater that is still in the experimental and research stage. By forming the air blowing supply system using the wind and the wave of the wave form, when applied to the air breakwater has an excellent effect of solving the conventional problems.

Second, it creates a hollow state inside the breakwater to provide an air compression supply system using the wind wave and the wave of the wave. Using the compressed air generated here, the electric generator is driven by an air impeller to generate electric energy. There is an excellent effect to use infinitely obtained.

In order to solve this problem, this paper is infinitely wide so that it can be used in abundance at sea, and it converts the waves of waves that are not depleted even if used as an energy source, and the fluctuating water gap of the water surface, to the energy, It is used as energy used to compress air, and the low and high water surface generated when the wave and the rock swell, flow into the fluid (water), flow into the discharge reciprocating zone (8), reciprocate and discharge the internal hollow state of the breakwater. (11) pressure change in the space to inhale the atmospheric air into the air intake (4) and then compressed in the breakwater internal hollow state (11) space to eject the compressed air to the compressed air outlet (12) industrial compression When operating the generator by using the damping device to reduce the wave force using air breakwater that requires air or by binding the generator to an air impeller driven by using compressed air. It forms a hollow state inside the breakwater, which can be used industrially by supplying the generated electric energy to produce pollution-free infinite electric energy. will be.

Figure 1 is a side view of this draft

2 is a perspective view of the present article

3 shows the air compression supply function in this paper.

4 is the air inhalation function of this paper

※ Explanation of Relief for Main Parts of Drawing

One . Air suction adjustment jack valve body flange

2 . Air suction adjustment jack valve body flange bolt hole

3. Safety net

4 . Air intake

5. Dustproof Rubber Ring

6. Inhalation Control Jack Valve Valve

7. Air suction adjustment jack valve body right insertion slot

8 . Fluid inlet and outlet reciprocating openings

9. Breakwater

10. Air suction adjustment jack valve body

11. Breakwater Inner Hollow

12. Compressed air outlet

13. Cuff ring

14. Air Vent Control Jack Valve Body

15. Air Vent Control Jack Valve Valve

16. Air exhaust adjustment jack valve body flange bolt hole

17. Air Vent Control Jack Valve Body Flange

18. Air Flow Guide Tube Hurenji

19. Breakwater

20. Air Intake Jack Valve Body

21. Breakwater central axis

22. Left Breakwater Wave Blue, Fluid Water Level Ship by Balance

23. The inner fluid level of ship in the hollow state inside the left breakwater wall

24. Right Breakwater Wall Wave Blue, Fluid Level by Ship

25. Right inner breakwater Inner hollow inner fluid surface ship

26. Left barrier wall wave blue, fluid surface low ship

27. Left-wall breakwater Inner hollow fluid surface

28. Inner fluid surface low shipbuilding in hollow state inside the right breakwater wall

29. Right Breakwater Wave Blue, Fluid Surface Low Shipbuilding by Balance

Fluid discharge action

Fluid inflow

: Air flow direction

The breakwater center shaft 21 is constructed in the breakwater, and the hollow (11) inside the breakwater is separated from the left and right sides of the breakwater center axis 21 to form the fluid (water) inlet and outlet reciprocating openings (8). Waves in contact with the left and right side walls of the breakwater, wave force of the wave or fluid (water) flows freely in and out, while giving pressure change to the space inside the breakwater hollow state (11). 4) inside the breakwater, which is configured to use compressed air by injecting atmospheric air through the air discharge control jack 12 through the air discharge control jack valve body 14 to guide the inflow of atmospheric air. The air compression supply system using the wind wave and wave of the wave is provided by forming hollow state in the

Hereinafter, an embodiment of the present invention will be described based on the accompanying drawings. FIG. 1 shows a side view according to the present invention. The breakwater center axis 21 is constructed in the breakwater and the hollow state 11 in the breakwater is constructed. Air inlet jack having air suction control jack valve body right side insertion hole (7) and air suction control jack valve body left insertion hole (10) formed on the top of the breakwater (19). Insert the valve body (20) into the air suction control jack valve body right insertion hole (7) and the air suction control jack valve body left insertion hole (10), respectively, to facilitate the attachment and detachment, and the air suction control jack valve body flange (1) And air intake adjustment jack bolt body flange bolt hole (2), insert the bolt into the jack bolt body flange bolt hole (2) and attach it to the lower position of the breakwater upper part (19) to cover the safety net (3) with a nut sin It is designed to be easy to attach and detach by adjusting the air, and to cover the safety net (3) so that people or foreign substances are not sucked from the outside when the air is inhaled through the air inlet (4).

In addition, the fluid (water) inlet and discharge return (8) is formed in the lower portion of the hollow state 11 inside the breakwater, and the air flow guide pipe flange (18) is inserted into the upper portion of the hollow state (11) inside the breakwater to release the air. The adjustment jack valve valve (15) and the air discharge control jack valve body flange (17) are configured to be bolted into the air discharge control jack valve body flange bolt hole (16) for easy assembly, removal and cuff ring (13). In order to facilitate the attachment and detachment of the air transfer hose for industrial use, the compressed air ejected to the compressed air outlet 12 is combined to act.

Figure 4 shows the air intake action according to the present invention, the wind wave caused by the wave, the surface of the wave while the surface of the breakwater wave left blue wave, the fluid surface bottom line 26 and the right breakwater wall wave wave blue, When it reaches the low water level 29 of the fluid surface by the fluid, the fluid (9 water) inflow and discharge discharge (8) formed under the hollow state 11 inside the breakwater is discharged into the fluid ( As the fluid (water) is discharged and the surface of the fluid falls on the inner fluid surface bottom ship (27) in the inner hollow state of the right breakwater wall and the inner fluid sleep bottom ship (28) in the hollow state of the left breakwater wall In the hollow state (11), while the hollow state of the large area is secured, the suction force is generated inside the air discharge control jack valve valve (15) is closed (closed), and the air suction control jack valve valve (6) is open (open) (4) through the air flow direction ( The air is easily filled with a large amount of atmospheric air into the hollow state 11 space inside the breakwater. Atmospheric air that has been sucked into the hollow interior of the breakwater (11).

Figure 3 shows the air pressure supply action according to this paper, the wind wave caused by the wave, the surface of the surface of the wave breaks while the surface of the breakwater wall wave blue, the surface of the water surface of the breakwater 22 due to the wave wave wave blue, Fluid (water) flows into the fluid (water) inlet and discharge reciprocation (8) formed under the breakwater's internal hollow state (11) when the fluid level rises, such as the position of the fluid sleep vessel (24).

Fluid inflow Inside the breakwater wall as the fluid surface rises to the position of the inner fluid water level vessel 25 in the hollow state on the right side of the breakwater wall and the inner fluid water level vessel 23 in the hollow state on the left side of the breakwater wall. The air intake control jack valve valve (6) is closed (closed) and the air is compressed to open the air discharge control jack valve valve (15).

flow of air( ) Acts by flowing air in the direction of the compressed air outlet (12) so that the air is ejected, and repeatedly compresses and supplies the air to build an air breaker to reduce the wave power. By driving the air impeller to bind the generator to drive the electric generator,

It generates a large amount of pollution-free electric energy

It can be used significantly in industry.

The breakwater center shaft 21 is constructed in the breakwater, and the hollow (11) inside the breakwater is separated from the left and right sides of the breakwater center axis 21 to form a fluid (water) inlet and outlet reciprocating opening (8). Waves in contact with the left and right walls outside the breakwater, and wave force or fluid (water) flowing in and out of the breakwater freely flow in and out, while giving a pressure change to the space inside the breakwater's hollow state (11). 4) Breakwater characterized in that it is configured to use the compressed air by injecting the air through the air inlet through the compressed air outlet 12 through the air discharge control jack valve body (14) By forming a hollow state inside, there is an effect of providing an air compression supply system using the wind and wave of the wave.

Claims (3)

The breakwater center shaft 21 is constructed on the breakwater, and the hollow (11) inside the breakwater is separated from the left and right sides of the breakwater center shaft 21 to form a fluid (water) inlet and outlet reciprocating opening (8). Waves in contact with the left and right side walls of the breakwater, wave force or fluid (water) flows freely in and out of the breakwater while the pressure changes to the space of the hollow state 11 inside the breakwater to provide air intake ( 4) Inside the breakwater, characterized in that it is configured to use compressed air by injecting atmospheric air through the air discharge control jack 12 through the air discharge control jack valve body (14) to guide the incoming air through Forming a hollow state in the air, the air supply system According to claim 1 Forming the breakwater inner hollow state (11) and forming the air intake control jack valve body right side opening (7) and the air intake control jack valve body left insertion opening (10) on the top of the breakwater (19) air intake control jack valve valve (6) The air inlet jack valve body 20, which is configured in the main body, is inserted into the air suction control jack valve body right insertion hole 7 and the air intake control jack valve body left insertion port 10, respectively, to facilitate attachment and detachment. The adjustable jack valve body flange (1) and the air suction control jack valve body flange bolt hole (2) are formed, and the bolt is inserted into the jack bolt body flange bolt hole (2) to be mounted at the position below the breakwater upper part (19). (3) Covered and assembled with nuts for easy attachment and detachment, and the safety net (3) is overlaid so that people or foreign matters can not be sucked from the outside when air is sucked in through the air inlet (4). Forming a hollow state inside the breakwater characterized in that the air storm supply system using the wind wave, the shoulder, In accordance with claim 2 Insert the air flow control pipe flange (18) into the upper part of the hollow state (11) inside the breakwater to form an air discharge control jack valve valve (15) and an air discharge control jack valve body flange (17) The bolt is inserted into the body flange bolt hole 16 to be assembled and detached for easy attachment and detachment. The cuff ring 13 is combined to allow the compressed air ejected through the compressed air outlet 12 to be used industrially. To facilitate the attachment and detachment of the transfer hose The air compression supply system using the wind and the wave of the wave by forming a hollow state inside the breakwater characterized by the configuration,