KR100918206B1 - Kinetic energy storage device - Google Patents

Abstract

The present invention is a storage device of the kinetic energy to be stored in the storage tank after changing the energy of nature into kinetic energy, in particular, the natural energy of wind power generated by a large force depending on the time and place, the energy of the wind To convert the kinetic energy into stored energy through air or fluid, and convert the stored energy into the storage tank, and then open the storage tank valve and use it as power if necessary. A storage device for energy.

Kinetic energy, potential energy, storage, piston

Description

Storage device for kinetic energy

1 is a schematic configuration diagram of a storage device for kinetic energy according to the present invention.

Figure 2 is a schematic diagram of the main components around the axis of rotation of the storage device of the kinetic energy according to the present invention.

delete

<Description of Symbols in Drawings>

One ; Storage tank 2; ventilation opening

3; Weight bearing 4; tube

6; exit

7; Switching valve value 8; Connection hose

9; Outlet valve spring 10; Suction Valve Spring

11; Discharge valve 12; Suction valve

13; Outlet 14; Inlet

15; Central axis 16; Semi-Rolling Roller

17; Bracket 18; Storage piston

19; Storage cylinder 20; Storage piston rod

21; Length adjusting cylinder 22; Length adjustment piston

23; Crank insert 24; crank

25; Fixed pin 26;

27; Dependent piston 28; Dependent piston rod

29; Crank right side 30; Crank piston rod

31; Crank piston 32; Frame

33; Opening and closing rod guide cover 34; fixed bracket

35; Opening and closing rod 36; Opening and closing spring

37; Distribution channel 38; Spindle piston

39; Spindle cylinder 40; Spindle piston rod

41; Reciprocating guide 42; wind gauge

43; Anemometer wings 44; Wing nut

45; Wing screw 46; Orbital protrusion

47; Flywheel 48; Windmill wings

49; Windmill

51; Blower 52; Drive shaft connection pin

53; Axis of rotation

delete

delete

delete

delete

delete

delete

delete

delete

delete

delete

delete

delete

delete

delete

The present invention is a storage device of the kinetic energy to be stored in the storage tank after changing the energy of nature into kinetic energy, in particular, the natural energy of wind power generated by a large force depending on the time and place, the energy of the wind To convert the kinetic energy into stored energy through air or fluid, and convert the stored energy into the storage tank, and then open the storage tank valve and use it as power if necessary. A storage device for energy.
In general, the storage of energy has been an endless effort by humans and will continue, but the effect is negligible. In view of the related art according to the prior art, Korean Patent Application No. 10-2005-0011658 (February 11, 2005) relates to energy for operating a computer as an input device using kinetic energy.
And the Republic of Korea Patent Application No. 10-1998-0033641 (August 19, 1998) is to use the surplus power to write and drive the compressor to generate compressed air to be stored in the compressed air storage tank, and thus stored compressed air With an oil tank; It is provided to be delivered to the covalent pressure converter connected to the pneumatic motor and the hydraulic motor. And the co-pressure converter generates a hydraulic pressure for the oil flowing into the oil tank using the compressed air delivered from the compressed air storage tank to drive the hydraulic motor, and also to send the compressed air to the pneumatic motor to drive the pneumatic motor It is provided. Thus, pneumatic and hydraulic motors are operated.
In addition, Korean Patent Application No. 10-1997-705434 (August 7, 1997) relates to a method of storing and using power generated by power generation, and to a method of storing using an inertial force on a flywheel. Korean Patent Application No. 10-1998-0039116 (September 21, 1998) is a method in which the force of wind is stored by a spring spring. I think it should be developed actively and effectively. Especially the absolute lack of energy; Pollution of fossil and nuclear energy; Danger from the nucleus; And there is a problem such as a high cost.

The present invention for solving the above problems is a device for converting and storing a large amount of natural energy by adding the potential energy to a storage tank having a large storage amount, by installing a tube in the tank in addition to the fixed tank to mediate air (fluid) It is intended to be stored as.
In addition, a weight load of a heavy load that can move up and down in accordance with the amount of air (fluid) in the tube is installed on the upper part of the tube, so that the force acting to lift the weight load is greater than the pressure according to the load of the weight load It is provided to be stored in the tank, and in such a storage device is provided for effective storage even when the strength of the natural energy is strong or weak, there is an object to be stored without loss even a small amount of energy.
In particular, the operation of the storage device is due to the operation of the piston, and the factors such as the size of the cylinder, the reciprocating distance of the piston, and the number of reciprocation per unit time are related to the weight loading load of the storage tank. Therefore, the purpose of the automatic adjustment of the size of the operating radius of the crank, so that the distance between the movement section reciprocating piston in the cylinder.

The kinetic energy storage device of the present invention for achieving the above object is provided so that the windmill blade 48 is rotated by the wind collector 51 fixed to the frame 32, by the windmill blade 48 The crank 24 is rotated together at the end of the rotating shaft 53 to be rotated, and the storage piston 18 connected to the storage piston rod 20 coupled to the crank 24 reciprocates in the storage cylinder 19. In the upper portion of the storage cylinder 19, the suction valve 12 to suck the fluid as the storage piston 18 is extended in the storage cylinder 19, and the storage cylinder 19 ) Is provided with a discharge valve 11 for discharging the fluid in the storage cylinder 19 as the storage piston 18 is compressed, and stored through a connection hose 8 connected to the discharge valve 11. Fluid in the cylinder 19 is stored in the storage tank (1) A flywheel 47 is coupled to the rotary shaft 53, and is connected to the connection hose 8 in the storage tank 1 so that the storage cylinder 19 and the storage piston 18 are connected to each other. An anemometer is provided such that the tube 4 into which the fluid is introduced is operated, and the weight box 3 is positioned at an upper portion of the tube 4, and reciprocates in the longitudinal direction of the rotation shaft 53. 42 is provided, the anemometer blade 43 is coupled to the outside of the anemometer 42, the spindle shaft 38 is provided to be coupled to the anemometer 42 to reciprocate in the rotation shaft 53 is provided A crank cylinder 31 ′ is provided on one outer surface of the rotary shaft 53, and the hydraulic fluid inside the rotary shaft 53 is coupled to the crank cylinder 31 ′ by the reciprocating operation of the main shaft piston 38. The crank piston 31 is provided to pressurize or depressurize, and the crank piston 31 The pressurized or reduced pressure is characterized in that the crank 24 connected to the crank piston 31 is provided so as to increase or decrease the rotation radius around the rotation shaft (53).
Hereinafter, with reference to the accompanying drawings in detail.
1 is a schematic configuration diagram of a storage device for kinetic energy according to the present invention, Figure 2 is a schematic configuration diagram of the main components around the axis of rotation of the storage device for kinetic energy according to the present invention, and FIG. 3 is a block diagram of another embodiment of the present invention, respectively.

That is, the storage device for kinetic energy according to the present invention, as shown in Figures 1 to 3, when explaining the content and arrangement connected to each part of the whole machine, wind collector 51 and the rotary shaft 53 to collect the wind ), And the main member such as the storage piston 18 is fixed by the brackets 34 to the frame 32 which is the overall expected frame.
And the storage tank 1 is shown in the vicinity of the left side of the frame 32 in the accompanying drawings, it can be provided to be installed in a proper position if it can be connected by adjusting only the connection hose (8) according to the actual environmental conditions. .
In addition, the wind collector 51 is provided to collect even a small amount of wind is transmitted to the windmill wings 48, the windmill is rotated along the wind direction, the windmill body is fixed to the rotating shaft 53 by the windmill fixing pin 49 The rotating shaft 53 is to be rotated. The rotary shaft 53 is provided with a flywheel 47 may be provided so that the energy is maintained by the inertial force.

The rotation shaft 53 is provided with an anemometer 42 and a crank 24, and the crank 24 has the same body, and the right side crank 29 and a distribution port 26 are formed on the right side. have. And the crank insertion opening 23 is formed in the length adjustment cylinder 21, the storage piston rod 20 connected to the length adjustment piston 22 in the length adjustment cylinder 21 is a storage piston (19) in the storage cylinder (19). 18).

In addition, the storage cylinder 19 is fixed to the anti-rotation roller 16 by the bracket 17, the anti-rotation roller 16 is to be rotated by both sides of the cylinder like a seesaw by the central axis (15) The connection hose 8 connected to the storage cylinder 19 is connected to the lower end of the storage tank 1, and the outlet 6 and the on / off valve 7 are installed at the other lower end of the storage tank 1. .
And the exhaust valve spring (9) blocks the fluid in the storage tank (1) to prevent the back flow, the intake valve spring (10) is contracted when the storage piston (18) is extended by the suction operation, the air is sucked in At the time of discharge, the spring expands to close the intake valve 12, thereby preventing the sucked fluid from being discharged in the reverse flow.
In addition, the air vent 2 allows air to enter and exit according to the storage amount of the storage tank 1. In addition, the tube 4 may be provided in various forms, and small tubes may be connected to each other, or a long hose may be used inherently.

Referring to the process of automatically adjusting the section length of the piston movement in the cylinder in Figure 2, the rotating shaft 53 is rotated in direct proportion to the speed of rotation in accordance with the wind energy force. A flywheel 47 is installed on one side of the rotating shaft 53 to conserve rotational energy, and an anemometer 42 is installed on one side of the flywheel 47.
The anemometer 42 is fastened to the anemometer blade 43 by the wing screw portion 45 to the body of the anemometer 42, the direction of the anemometer wing 43 will be determined to be fixed to the wing nut 44. Thus, the direction of left and right movement of the anemometer 42 is determined according to the direction of the anemometer blade 43. And in the center of the anemometer 42 is fixed to the orbital projection 46 to move along the reciprocating guide 41 is located in the reciprocating guide (41).

And the anemometer 42 moves along the guide 41, the inside of the anemometer 42 has a spindle piston rod 40 and the spindle cylinder 39, the spindle cylinder 39 in the spindle shaft rod 40 There is a spindle piston 38 connected with the hydraulic fluid is filled in the spindle cylinder (39). On the left side thereof, there is a distribution port 37, a distribution opening 37 is provided with an opening and closing bar 35, the opening and closing bar 35 is directed upward by the opening and closing bar spring 36, and the distribution opening 37 The left and right sides of the c) are blocked (black diagonal lines) so that they can be distributed only to the distribution port 37. And the upper and lower ends of the opening and closing rod spring 36 and the opening and closing rod 35 is provided with a fixing bracket 34 for fixing the opening and closing rod guide cover 33 and the rotating shaft 53.

The left side of the distribution port 37 is provided in a cylindrical shape in which the hydraulic fluid is built, so that the hydraulic fluid flows into the rotating shaft 53, and the crank cylinder and the crank piston 31 above the rotating shaft 53. ) Is coupled, and the crank piston rod 30 is fixed to the crank 24 to the crank piston 31. The crank right side 29 is blocked by a membrane (cross diagonal of black lines in Fig. 2).
On the left side of the crank right side 29, the slave piston 27, the cylinder, and the slave piston rod 28 are located, and the slave piston rod 28 is fixed to the rotation shaft 53, and the crank 24 is distributed. There is a sphere 26, the left end of the distribution port 26 is blocked, and is provided with a fixing pin 25 for preventing the departure.
The crank insertion hole 23 of the length adjustment cylinder 21 is coupled to the fixing pin 25 and the distribution port 26 is coupled to the length adjustment piston 22. The storage piston 18 is coupled to the opposite end of the storage piston rod 20 connected to the length adjustment piston 22 coupled to the length adjustment cylinder 21.
The storage piston 18 is coupled to the storage cylinder 19. Therefore, the storage piston 18, the storage cylinder 19, the length adjustment piston 22, the length adjustment cylinder 21, etc. which are different pistons and cylinders are provided in both sides of the same piston rod used as the storage piston rod 20. . In addition, the outlet 13 and the inlet 14 of the storage piston 18, and the discharge valve 11 is coupled to the outlet 13, the suction valve 12 is coupled to the inlet 14 is provided.

Referring to the function of each member of the storage device of the kinetic energy according to the present invention provided in this way, first, the inside of the rotating shaft 53 is formed in a hollow like a pipe, the role of the main cylinder cylinder 39 is coupled to the main shaft piston 38 Will be
The piston in the present invention includes a main shaft piston 38 in the rotation shaft 53, a crank piston 31 on the right side of the crank 24, a slave piston 27 on the left side of the crank 24, Storage piston rods (20) on both sides of the storage piston 18 and the length adjustment piston 22, etc. are provided, the spindle piston 38, the crank piston 31, the slave piston 27, the length adjustment piston 22 The four pistons are hydraulic pistons, and the hydraulic fluid is filled.

When the windmill rotates in the rotational direction of the windmill blade 48 of FIG. 1, the rotation shaft 53 also rotates, and the anemometer 42 of FIG. 2 also rotates in the same direction. At this time, the anemometer 42 moves in the axial direction of the rotation shaft 53 from side to side in accordance with the direction of the wind speed vane 43, and the driving force is also determined according to the rotation speed. That is, when the anemometer blade 43 is installed so that the anemometer 42 moves to the left side, the hydraulic fluid acts on the left side by the pressure of the spindle piston 38 of the spindle cylinder 39.
Such hydraulic fluid pressurizes the crank piston 31 of the crank cylinder located on the opposite side outward, so that the crank 24 gradually moves away from the rotation shaft 53, and the rotation radius of the crank 24 becomes large.
Along with this, the slave cylinder and the slave piston 27 also extend, and the hydraulic fluid in the length adjustment cylinder 21 moves to the slave piston 27 through the distribution port 26, and eventually the length adjustment cylinder ( The length adjustment piston 22 coupled to 21 is pulled by the decrease in flow rate. Thereby, the total length from the main rotation shaft 53 to the storage cylinder 19 is always constant.

When the position of each piston is adjusted while the hydraulic fluid flows between many pistons provided in the rotating shaft 53, the crank 24, etc. in the above description, it is a case where the opening-and-closing rod 35 escape | released the distribution port 37, and the position Is made when the opening and closing bar 35 is in a different direction from the opening and closing rod guide cover 33 by the rotation of the rotary shaft (53). And when the opening and closing rod (35) is located in the opening and closing rod guide cover 33 when pressed to block the distribution port 37, at this time the flow of hydraulic fluid is stopped, the position of the crank 24 is fixed, the rotation radius is constant The pressing force is applied between the storage cylinder 19 and the storage piston 18 by the rotational force of the crank 24, so that the fluid is stored in the storage tank 1.

In the above description, the diameters (sizes) of the crank piston 31, the slave piston 27, and the length adjusting piston 22 must be the same so that the distance from the rotation shaft 53 to the storage cylinder 19 of the storage piston 18 is equal. Can be kept the same, and the crank 24 will work without being twisted.
On the other hand, the size of the storage piston 18 should be larger than the pressure of the load of the loading box 3 of the storage tank 1, but when the kinetic energy is very small, the windmill cannot turn. After that, when the wind strength, which is natural energy, increases during the operation of the machine, the rotation of the rotating shaft 53 is increased, and thus the radius of rotation of the crank 24 is also increased, and thus, the storage piston 19 is stored in the storage cylinder 19. 18) the movement width of the reciprocating movement is also increased, and as the size of the rotation radius of the crank 24 increases, a large amount of fluid may be stored. On the contrary, when the energy of the wind strength decreases, the opposite phenomenon occurs. will be.

delete

delete

delete

delete

The present invention provided as described above is a device for converting and storing a large amount of natural energy by adding the potential energy to the storage tank having a large storage amount, so as to install a tube in the tank in addition to the fixed tank to be stored through the air (fluid) It is effective.
In addition, a weight load of a heavy load that can move up and down in accordance with the amount of air (fluid) in the tube is installed on the upper part of the tube, so that the force acting to lift the weight load is greater than the pressure according to the load of the weight load It is provided to be stored in the tank, and in such a storage device is provided to effectively store the movement even when the strength of natural energy is strong or weak, there is an effect that even a small amount of energy is stored without loss.
In particular, the operation of the storage device is due to the operation of the piston, and the factors such as the size of the cylinder, the reciprocating distance of the piston, and the number of reciprocation per unit time are related to the weight loading load of the storage tank. Therefore, there is an advantage in that the size of the operating radius of the crank is automatically adjusted so that the distance between the movement section of the piston reciprocating in the cylinder.

Claims (4)

delete delete The windmill blades 48 are rotated by the collector winder 51 fixed to the frame 32, The crank 24 is provided to rotate together at the end of the rotating shaft 53 rotated by the windmill blade 48, The storage piston 18 connected to the storage piston rod 20 coupled to the crank 24 is provided to reciprocate in the storage cylinder 19, In the upper portion of the storage cylinder 19, the suction valve 12 to suck the fluid as the storage piston 18 is extended in the storage cylinder 19, and in the storage cylinder 19 As the storage piston 18 is compressed, a discharge valve 11 is provided to discharge the fluid in the storage cylinder 19. The fluid in the storage cylinder 19 is stored in the storage tank 1 through the connection hose 8 connected to the discharge valve 11, The rotary shaft 53 is provided with a flywheel 47 is coupled, In the storage tank (1) is connected to the connection hose (8) is provided so that the tube (4) into which the fluid is introduced by the operation of the storage cylinder 19 and the storage piston 18 is provided, the tube ( The upper portion of the 4) is provided so that the weight loading box (3) is located, An anemometer 42 reciprocating in the longitudinal direction of the rotary shaft 53 is provided, An anemometer blade 43 is coupled to an outer side of the anemometer 42, and a main shaft piston 38 is coupled to the anemometer 42 to reciprocate in the rotation shaft 53. A crank cylinder 31 'is provided at one outer surface of the rotating shaft 53, and a crank cylinder in which the hydraulic fluid inside the rotating shaft 53 is coupled to the crank cylinder 31' by the reciprocating operation of the main shaft piston 38. It is provided to pressurize or reduce the piston 31, Kinetic energy characterized in that the crank piston 31 is pressurized or decompressed so that the crank 24 connected to the crank piston 31 is provided to increase or decrease the rotation radius around the rotation shaft 53 Storage. delete

Images