KR20020093707A - Compressed air motor generator system by hollow state deviation of cylindrical annular pendulum and fluidity of confined fluid - Google Patents

Abstract

[Technical field of invention]

The present invention relates to a compressed air motor generator system due to the hollow state deviation of a cylindrical ring tube moving under the influence of a conical pendulum movement, and the fluidity of the confined fluid. Conical Pendulum Motion Reciprocating Section ) Is the top dead center angle of the round-trip conical pendulum Cylindrical ring tube (10) cyclically reciprocating circularly to give fluidity to the fluid surface (11) trapped in the cylindrical ring tube weight to the right hollow state (9) of the cylindrical ring tube and the left axis hollow of the cylindrical ring tube weight While the hollow area of the state 18 becomes smaller and larger, it creates a pressure change in the hollow state and enters and exits the atmospheric air and compresses and releases it so that a small amount of kinetic energy is applied to the system so that the system continues the conical pendulum motion. Good efficiency

The present invention relates to a method of obtaining compressed air, and has a characteristic of providing a compressed air motor generator system due to the hollow state deviation of a cylindrical ring tube moving under the influence of a conical pendulum motion and the fluidity of the confined fluid.

Description

Compressed air motor generator system based on hollow state deviation and confined fluidity of cylindrical ring penetrates affected by conical pendulum movement, {omitted}

The present invention relates to a compressed air motor generator system due to the hollow state deviation of a cylindrical ring tube moving under the influence of a conical pendulum motion and the fluidity of the enclosed fluid, and more particularly, the upper support side of the system fixed at the top. Conical pendulum reciprocating section while maintaining a constant angle around (29) ( ) Is the top dead center angle of the round-trip conical pendulum Cylindrical ring tube 10 reciprocally moves in a circular manner to give fluidity to the fluid surface 11 confined to the cylindrical ring tube, so that the right hollow state of the cylindrical ring tube 9 and the left hollow of the cylindrical ring tube While the hollow area of the state 18 becomes smaller and larger, it is composed of a structure that inhales the atmospheric air, compresses, and releases the air by generating a pressure change in the hollow state, thereby applying a small amount of kinetic energy to the system to perform the conical pendulum motion. The present invention relates to a method of obtaining compressed air with high efficiency, and to provide a compressed air motor generator system based on the hollow state deviation of a cylindrical ring tube and the fluidity of the confined fluid.

Conventionally, in order to produce compressed air and use it industrially, it is driven by an engine or an electric motor to reciprocate the piston through a contacting rod to rotate the crank in the cylinder. Inhalation, compression, and release have been used industrially.

The disadvantage of this conventionally

First, a lot of energy is consumed to produce compressed air.

Second, no air compression piston has been developed that can generate a large amount of compressed air in a short time.

Third, there is no disadvantage that can not operate for a long time 365 days because the piston and cylinder for a long time to operate the system for the production of compressed air is overheated.

The present invention has been described by obtaining a method for solving such a closed end, the present invention relates to an air compressor system by the flow deviation of the fluid trapped in the cylindrical ring tube moving under the influence of the conical pendulum movement, more specifically Conical pendulum movement reciprocating section while maintaining a constant angle around the upper support shaft (29) ) Is the cone pendulum motion, and the top dead center angle of the reciprocating section ( Cylindrical ring tube 10 reciprocally moves in a circular manner to give fluidity to the fluid surface 11 confined to the cylindrical ring tube, so that the right hollow state of the cylindrical ring tube 9 and the left hollow of the cylindrical ring tube While the hollow area of state 18 becomes smaller and larger, it creates a pressure change in the hollow state and enters the atmospheric air and compresses and releases it, and applies a small amount of kinetic energy to the system to make the system conical pendulum. The present invention relates to a method of obtaining compressed air with high efficiency, and provides an air compressor system based on the hollow state deviation of a cylindrical ring tube moving under the influence of conical pendulum motion and the fluidity of the confined fluid. In order to operate the system for a long time, the conventional piston is not constructed and it does not overheat for 365 days. Provides a method of transferable talwol effects and to produce a large amount of compressed air for a brief moment is a description that a very effective to provide the necessary systems for industrial compressed air mass is consumed because the industrial applicability.

1 is a side view of the present invention to form a fluid surface (11) confined to a cylindrical ring tube in the cylindrical ring tube 10 to confine the fluid to the right hollow state of the cylindrical ring (9) and the cylindrical ring The left hollow state of the tube 18 is formed to combine with the bearing 20 and the binding pin 21 on the upper support shaft 29 of the system to facilitate the conical pendulum movement in the cylindrical ring tube 16. As illustrated in (a) and (b) of the present invention, various effects due to the mechanical operation of the air resistance system applied to the cylindrical ring tube 10 when the cylindrical ring tube 10 acts by the conical pendulum motion In order to prevent the conical pendulum motion from stopping slowly due to the resistance, a concave groove 23 is formed on the cylindrical ring tube support shaft 19 and the fluid 26 is reciprocated by the fluid return 27 so that the hydraulic piston 25 Hydraulic piston reciprocating section The hydraulic piston 25 is coupled to the upper portion of the cylindrical ridge support shaft 19 by inserting the hydraulic piston binding pin 22 so that the hydraulic piston 25 can be delivered by applying the force of the circular cone. Hydraulic piston (25) to the action is the way to ensure that the force of the reciprocating motion is transferred to the cylindrical ring tube (101).

In addition, the cylindrical ring tube (10) conical reciprocating section ( The top dead center angle of the conical electromagnetic reciprocating section When the reciprocating motion is repeated repeatedly up to), FIG. 3 shows the fluid surface 11 trapped in the cylindrical ring tube as shown in (A) and (B) as illustrated in the operation diagram of the present invention. This acts to form a horizontal plane and causes some rumble.

At this time, the space between the right hollow state (9) of the cylindrical ring tube and the left hollow state (18) of the cylindrical ring tube becomes smaller and larger, causing a change in pressure in the hollow state, and allowing the air to the left air suction check valve (17). The air is sucked and compressed by the right air intake check valve (6) and compressed to be discharged via the right air release jack valve (7) and the left air release jack valve (16) to discharge the air. The compressed air is moved into the compressed air expansion primary tank 14 through the compressed air right moving path 8 and the compressed air left moving path 15 by moving the compressed air to the compressed air motor power casing ( 1) inflow of compressed air to drive the air motor rotary fan (3) to rotate the generator (2) bound thereto to produce electrical energy, and to release the compressed air through the compressed air outlet (28) It's a way to deliver great effects.

1 is a side view of the present invention

2 is a perspective view of the present invention

3 is a working degree of the present invention

(A) The state of action when the system of the present invention is moved to the left of the center line by conical pendulum motion

(B) Action state when the system of the present invention is moved to the right side of the center line by conical pendulum motion

※ Explanation of relief for the main parts of the drawings

One . Air Motor Generator Casing

2 . generator

3. Air motor rotation 홴

4 . Valve type, closed spring

5. Air flow meter, lung valve

6. Right air intake check valve

7. Right air release check valve

8 . Compressed Air Right Path

9. Right hollow state of cylindrical ring tube shaft

10. Cylindrical ring weight

11. Fluid surface confined to a cylindrical ring tube

12. Fluid Drain and Inlet

13. Compressed Air Expansion Primary Tank Outlet

14. Compressed air expansion primary tank

15. Compressed Air Left Passage

16. Left air release check valve

17. Left Air Suction Check Valve

18. Left Hollow State of Cylindrical Annulus

19. Cylindrical annulus support shaft

20. bearing

21. Binding pin

22. Hydraulic piston binding pin

23. Groove

24. Hydraulic cylinder

25. Hydraulic piston

26. Fluid

27. Fluid return

28. Compressed air outlet

29. System Top Support Shaft

: Air flow direction

: Hydraulic piston reciprocating section

: Conical Pendulum Motion Reciprocating Section

: Top dead center angle of reciprocating cone pendulum

1 is a side view of the present invention to form a fluid surface (11) confined to a cylindrical ring tube in the cylindrical ring tube 10 to confine the fluid to the right hollow state (9) of the cylindrical ring tube and the cylindrical ring By forming the left hollow state (18) of the tube, the system, the upper support shaft (29) by coupling with the bearing 20 and the binding pin (21) is configured to smooth the conical pendulum motion on the cylindrical ring tube (16) Figures (a) and (b) of the present invention, as illustrated in (b) due to the mechanical action of the air resistance system applied to the cylindrical ring tube 10 when the cylindrical ring tube 10 is acted by the conical pendulum motion In order to prevent the conical pendulum movement from slowing down due to various resistances, a concave groove 23 is formed on the cylindrical ring support shaft 19, and the fluid 26 is reciprocated by the fluid return 27. Hydraulic piston reciprocating section The hydraulic piston 25 is coupled to the upper portion of the cylindrical corrugated support side 19 by inserting the hydraulic piston binding pin 22 so that it can be delivered by applying a force of). Hydraulic piston (25) so that the force of the reciprocating motion is transmitted to the cylindrical ring tube 10.

In addition, the cylindrical ring tube (10) conical reciprocating section ( Top and bottom angle of conical pendulum motion When the reciprocating motion is repeated repeatedly up to), FIG. 3 shows the fluid surface 11 trapped in the cylindrical ring tube as shown in (A) and (B) as illustrated in the operation diagram of the present invention. This acts to form a horizontal plane and causes some rumble.

At this time, the space between the right hollow state (9) of the cylindrical ring tube and the left hollow state (18) of the cylindrical ring tube becomes smaller and larger. Air suction is sucked and compressed with the air suction check valve (6) and compressed and discharged via the right air discharge jack valve (7) and the left air discharge jack valve (16) to release the air flow direction ( The compressed air is moved to the compressed air right-side movement path 8 and the compressed air left movement path 15 through the compressed air expansion primary tank 14. Compressed air is introduced into (1) to drive the air motor rotary fan (3) to rotate the generator (2) bound thereto to produce electrical energy, and to release the compressed air through the compressed air outlet (28). It is a method to provide an excellent effect, and the fluid discharge port and the inlet (12) is configured to assemble and control the fluid discharge and injection to facilitate the fluid volume control of the fluid surface 11 confined to the cylindrical ring tube, Hollow state of the cylindrical ring tube moving under the influence of the conical pendulum movement, which is characterized by a method of constructing and acting to facilitate the adjustment of the air compression force and to provide an excellent effect in compressing a large amount of air. A compressed air system of the motor generator to the fluid confined Bi and tea,

The present invention relates to a method for obtaining a compressed air motor generator system by fluidity of a fluid contained in a cylindrical annulus that is moved under the influence of conical electron motion. Conical pendulum movement reciprocating section while maintaining a constant angle about the upper support shaft (29) of the system ( ) Is the conical electron motion, and the top dead center angle of the reciprocating section ( Cylindrical ring tube 10 is circularly reciprocated in a circular manner to give fluidity to the fluid surface 11 confined to the cylindrical ring tube weight and to the left hollow state of the cylindrical ring tube and the left hollow of the cylindrical ring tube weight. While the hollow area of the state 18 becomes smaller and larger, it is composed of a structure that inhales and compresses and releases atmospheric air by applying a pressure change to the hollow state, thereby applying a small amount of kinetic energy to the system so that the system performs a conical pendulum motion. The present invention relates to a method of obtaining compressed air with high efficiency, and provides a compressed air motor generator system based on the hollow state deviation of a cylindrical ring tube moving under the influence of conical pendulum motion and the fluidity of the confined fluid.

It uses 365 days of continuous service because it does not overheat because the piston is not configured to produce conventional compressed air even if the system is operated for a long time to produce electrical energy by driving the generator combined with the air motor using compressed air. It provides a method of extraordinary effect that can be operated, and it generates a large amount of compressed air in a short time and develops it by describing the outstanding effect of the essential system used in industry.

It is effective to provide the compressed air motor generator system by the hollow state spatial deviation of the cylindrical ring tube moving under the influence of the conical pendulum movement and the fluidity of the confined fluid.

In addition, the cylindrical ring in order to prevent the conical pendulum movement to stop slowly due to various resistances due to the mechanical operation of the system under the air resistance applied to the cylindrical ring tube 10 when the cylindrical ring tube 10 acts by the cone pendulum motion A hydraulic insertion reciprocation section of the hydraulic piston 25 is formed by forming a lubricate groove 23 on the support shaft 19 and reciprocating the fluid 26 with the fluid return 27. The hydraulic piston 25 is fitted on the cylindrical ridge support shaft 19 by inserting the hydraulic piston binding pin 22 so that the hydraulic piston 25 can be delivered by applying the force of) and the conical pendulum movement of the cylindrical ring observation 16 does not stop continuously. The hydraulic piston (25) reciprocating force is transmitted to the cylindrical ring tube (10) to act, characterized in that the hollow space spatial variation of the cylindrical ring tube moving under the influence of the conical pendulum movement and trapped fluid Has the effect of providing compressed air motor generator system, by fluidity

In addition, when the system acts while performing a conical pendulum motion, FIG. 3 shows the surface of the fluid confined to the cylindrical ring tube as shown in (A) and (B) of the present invention. The property to achieve is formed to form a horizontal plane and some slump occurs

At this time, the space between the right hollow state (9) of the cylindrical ring tube and the left hollow state (18) of the cylindrical ring tube becomes smaller and larger, causing a change in pressure in the hollow state, and allowing the air to the left air suction check valve (17). The air is sucked and compressed by the right air intake check valve (6) and compressed to be discharged via the right air release jack valve (7) and the left air release jack valve (16) to discharge the air. The compressed air is moved to the compressed air right-side movement path 8 and the compressed air left movement path 15 through the compressed air expansion primary tank 14. Compressed air is introduced into (1) to drive the air key motor rotary fan (3) to rotate the generator (2) bound thereto to produce electrical energy, and to release the compressed air through the compressed air outlet (28). It is a method to provide an excellent effect, and the fluid discharge port and the inlet (12) is configured to assemble and control the fluid discharge and injection to facilitate the fluid volume control of the fluid surface 11 confined to the cylindrical ring tube, Hollow state section of a cylindrical ring tube moving under the influence of a conical pendulum movement, which is characterized by a method of constructing and acting to facilitate adjustment of the air compression force and to provide an excellent effect on compressing a large amount of air. Has the effect of providing compressed air motor generator system, by the dynamics of cars and confined fluids

Claims (2)

Form the fluid surface 11 confined to the cylindrical ring tube 10 in the cylindrical ring tube 10 to confine the fluid to form the right hollow state (9) of the cylindrical ring tube and the left hollow state (18) of the cylindrical ring tube It is coupled to the upper support shaft 29 as a bearing 20 and the binding pin 21 to facilitate the conical pendulum movement in the cylindrical ring tube 16, the cylindrical ring tube 10 to act by the conical pendulum movement In order to prevent the conical pendulum movement from stopping slowly due to the air resistance applied to the cylindrical ring tube 10 and various resistances due to the mechanical operation of the system, the indentation groove 23 is formed on the cylindrical ring support shaft 19. The hydraulic piston reciprocating section of the hydraulic piston 25 by reciprocating the fluid 26 with the fluid reciprocating opening 27 The hydraulic piston 25 is fitted on the cylindrical ridge support shaft 19 by inserting the hydraulic piston binding pin 22 so that the hydraulic piston 25 can be delivered by applying the force of the circular cone. Step of the method to ensure that the force of the hydraulic piston 25 reciprocating motion to the cylindrical ring tube 10 to act, Cylindrical ring tube (10) is a conical pendulum Top and bottom angle of conical pendulum motion Repeatedly reciprocating periodically to), the fluid surface (11) confined to the cylindrical ring tube has the property of forming a horizontal plane in the direction of gravity acting so that the fluid surface (11) confined to the cylindrical ring tube to form a horizontal plane Using this property, it causes slight fluctuations. At this time, the space between the right hollow state (9) of the cylindrical ring tube and the left hollow state (18) of the cylindrical ring tube becomes smaller and larger, causing a pressure change in the hollow state. Air is sucked into the left air intake check valve 17 and the right air intake check valve 6 and compressed to be discharged via the right air release jack valve 7 and the left air release jack valve 16 to release the air. Flow direction ( Compressed air brought into the compressed air expansion primary tank (14) via the compressed right air movement path (8) and the compressed air left movement path (15) by moving the compressed air to the air motor power generation casing. (1) to drive the air motor rotation fan (3) to rotate the generator 2, which is bound thereto, to produce electrical energy and to release the compressed air through the compressed air outlet (28) Steps of how to give an effect, The present invention, which is influenced by the conical pendulum movement, is characterized in that the compressed air motor generator system is caused by the hollow state deviation of the cylindrical ring tube and the dynamics of the enclosed fluid. According to claim 1, By constructing and assembling the fluid inlet and inlet 12 to control fluid ingress and infusion to facilitate the control of the fluid volume of the fluid surface 11 trapped in the cylindrical annulus, it is easy to control the air compression force of the system and Compressed air motor generator due to the hollow state deviation of the cylindrical ring tube and the dynamics of the enclosed fluid, which are influenced by the conical pendulum movement, characterized by the steps of a method of constructing and acting to provide an excellent effect in compressing air. system,