KR20070046361A - A system generation of electric power - Google Patents

Abstract

The present invention relates to a power generation system for producing electric energy by using a windmill and a rotary weight, and in particular, to generate wind power by driving the prime mover initially, driving the prime mover in which mechanical energy is initially input by the operating principle of the windmill and the rotary weight. The present invention relates to a power generation system using windmills and rotary weights that can generate and supply electric power to environment-friendly electric power equipment by supplying electric power generated by amplified electric energy rather than energy.

The main features of the present invention and the wind turbine for generating wind; A windmill that receives the wind power from the wind generator and rotates and generates centrifugal force; A rotary weight that receives the driving force from the windmill and rotates and generates centrifugal force; A power generation unit configured to generate power by receiving a driving force from the rotary weight; The driving force of the windmill is characterized in that it is composed of a power transmission unit for transmitting and subtracting the driving force generated in the rotary weight to the power generation unit and the wind generator.

Windmill, rotary weight, power generation, blowing wing

Description

Power generation system using windmills and rotary weights {A system generation of electric power}

1 is an installation state of the overall system according to a preferred embodiment of the present invention

Figure 2 is a side view showing the installation state according to an embodiment of the present invention

Figure 3 is a side cross-sectional view showing a state of installation of the windmill in the embodiment of the present invention

4 is a front view showing a windmill in an embodiment of the present invention;

Figure 5 is a side cross-sectional view showing a windmill in an embodiment of the present invention.

Figure 6 is a front view showing the installation state of the rotary weight in the present invention

Figure 7 is a side view showing the installation state of the rotary weight in the present invention

8 is a side view showing main parts of the wind generator in an embodiment of the present invention;

9 is a partial front sectional view showing a wind turbine in an embodiment of the present invention;

10 is a block diagram showing a power transmission process of the front portion in the present invention

11 is a block diagram showing a power transmission process of the rear portion in the present invention

12 is a plan view showing the installation of the power transmission process in the present invention

{Description of symbols for main parts of the drawing}

10: wind generator 11: prime mover

12: original shaft 13: driven shaft

14: blowing wing 15: blowing holder

20: windmill 21: rim

22: arm 23: wings

30: rotating weight 31: the outer weight

32: weight 33: tranny

34: safety net 40: power train

40a: shaft 41: first driven shaft

42: second driven shaft 43: third driven shaft

50: power generation unit 51: generator

The present invention relates to a power generation system for producing electrical energy by using windmills and rotary weights that rotate in response to wind power, and in particular, mechanical energy due to the operation principle of windmills and rotary weights is generated by initially generating wind power by driving a prime mover. The present invention relates to a power generation system using a windmill and a rotary weight capable of producing and supplying power to an environment-friendly power facility by supplying power generated by electric energy amplified than driving energy of a prime mover.

In general, electricity used in houses and industrial sites is produced and supplied by thermal power plants using coal or petroleum as the main energy source, and nuclear power plants using uranium as the main energy source. These power facilities are coal, oil, and uranium. It is widely known as a technology for producing electric energy by driving a steam turbine with heat energy generated by using a lamp as an energy source.

However, the existing thermal and nuclear power plants are required to install a power plant, which requires enormous costs, and thus, it is a long-term investment plan. Increasingly, countermeasures are urgently needed.

In addition, the thermal power plant or nuclear power plant causes problems that the site is restricted by local residents or location due to the construction of the power plant, and causes air pollution and water pollution. In particular, nuclear power leaks radiation in the event of an accident. There is a problem of a safety accident that destroys the natural environment with enormous human damage.

Therefore, the power generation facilities are environmentally friendly without contaminating and destroying the natural environment, and are not only limited by the construction of the power generation facilities, but also the cost of the facilities is low, and most of all, the power generation can be safely supplied without problems of safety accidents. There is an urgent need for such measures.

The present invention has been made to improve the existing problems of producing and supplying power as described above, by generating wind power by the drive of the prime mover to operate the windmill and the rotor in order, the mechanical principle of the operation principle of the windmill and the rotary weight The main purpose is to provide a power generation system capable of producing and supplying power to environment-friendly and safe power facilities by supplying power by generating electric energy amplified from the driving energy of the prime mover initially injected.

Features according to an embodiment of the present invention for achieving the desired object as described above;

A wind generator for generating wind power; A windmill that receives the wind power from the wind generator and rotates and generates centrifugal force; A rotary weight that receives the driving force from the windmill and rotates and generates centrifugal force; A power generation unit configured to generate power by receiving a driving force from the rotary weight; The driving force of the windmill is characterized in that it is composed of a power transmission unit for transmitting and subtracting the driving force generated from the rotary weight to the power generation unit and the wind power generation unit.

Referring to Figures 1 to 12 shown in the drawings the configuration according to a preferred embodiment of the present invention in more detail as follows.

In the embodiment of the present invention, the main configuration is the wind generator (10) for initially generating the wind by rotating the wind blades 14 by the drive of the prime mover (11); A windmill 20 which rotates in response to the wind blown by the wind generator 10; A rotary weight 30 that generates centrifugal force while rotating by receiving the driving force of the windmill 20; A power generation unit (50) for generating electric power by receiving mechanical energy due to the driving force generated by the rotary weight (30); The driving force of the windmill 20 is transmitted to the rotary weight 30 and consists of a power transmission unit 40 for transmitting the driving force generated in the rotary weight 30 to the power generation unit 50 and the wind power generation unit 10.

In the above, the wind generating unit 10, the windmill 20, the rotary weight 30, the power transmission unit 40, the power generating unit 50 is installed in the upper space in the form in which the space ( 3) the base structure 2 is made of concrete or the like, and the frame 1 is installed on the structure 2 in the vertical or horizontal direction.

The windmill 20 that rotates in response to wind power is rotatably installed on the frame 1 such that the center shaft 40a is positioned horizontally in front and rear, and the wind generator 10 is provided on both sides of the upper and lower portions of the windmill 20. A pair of rotary weights 30 are installed in the front and rear portions of the windmill 20, respectively, and a power transmission unit 40 including a plurality of driven shafts and pulleys and a power generation unit 50 for generating power. ) Is placed.

In the above, the windmill 20 has a plurality of arms 22 installed radially on a relatively large rim 21 as shown in FIGS. 4 and 5 while being inclined at a predetermined angle on the outer circumference of the rim 21. A plurality of wings 23 are mounted, the flange 24 for mounting and fixed to the shaft (40a) in both directions in the central portion is mounted, both shafts (40a) are rotatably installed on the frame (1) It is placed in the space 3 of the structure 2.

On the other hand, the wind generator 10 for applying wind to the windmill 20 is disposed on both sides of the upper and lower windmill 20, as shown in Figure 8 and 9, the wind generator 10 is located at the bottom Initially, the drive shaft 12 rotates by the drive of the prime mover 11, and the driven shaft 13 in which the driving force is transmitted from the drive shaft 12, and the blowing blades 14 are mounted at one end where the windmill 20 is located. ) And a conical blower holder 15 which surrounds the blower wing 14 and gradually narrows the space.

The prime mover 11 may apply a motor or an engine, and the prime mover 12 mounted to the frame 1 transmits a driving force from the prime mover 11 through the pulleys (a) and (b), and the prime mover 12 ) Through another pulley (c) (d) is transmitted to the driven shaft (13) mounted on the holder 17, the blowing blade 14 rotates to generate a strong wind through the blow holder (15) Blowing to the wings 23 of the windmill (20).

In addition, the reducer 16 is attached to the frame 1, the belt is wound around the pulley f of the reducer 16 and another pulley e mounted on the prime shaft 12, and the prime shaft 12 is installed. At the inner side of the pulleys (b) and (e) installed at both ends, the clutches 12a and 12b are mounted so as to interrupt the power from the prime mover 11 and the reducer 16.

Meanwhile, as shown in FIG. 1, in the wind generator 10 positioned on the upper side of the windmill 20, the power transmitted to the speed reducer 18 through the power transmission unit 40 is blown by a blower blade ( It is transmitted to the rotating shaft of 14a, and a conical blower holder 15a is installed in the direction in which the windmill 20 is located in the blower blade 14a.

In the embodiment of the present invention is installed in a pair of the front and rear portions of the windmill 20, respectively, the rotary weight 30 to generate a centrifugal force while being rotated by receiving the driving force of the windmill 20 is 6 and 7 in the drawings As described above, the circular rims 33 and 33a are respectively provided on the outer side and the inner side with a diameter close to half of the windmill 20, and the outer vertebrae 31 and the inner vertebrae 32 which generate centrifugal force while rotating therein are Each of the driven shafts 44 is rotatably installed on the frame 1, wherein the driven shafts 44 on which the outer stems 31 and the inner stems 32 are mounted are constituted by dual axes, and two on the same axis The shaft is installed in a structure in which the shaft is coupled to each other and freely rotates.

The outer weight 31 and the inner weight 32 configured in the rotary weight 30 may be formed in a straight shape, the outer weight 31 and the inner weight 32 are centrifugal weights each weighting one end of the straight shape (31a) (32a) is provided, the centrifugal weight (31a) (32a) can be installed by varying the weight in accordance with the amplification of the centrifugal force, the safety net on the outer periphery of the rim (33) (33a) located on the outside and the inside, respectively Install 34.

Therefore, in the rotary weight 30, the outer weight 31 and the inner weight 32 are respectively mounted on the driven shaft 44 freely rotating, so that the centrifugal force is increased by the centrifugal weights 31a and 32a while freely rotating without mutual interference. It will work.

In addition, in the embodiment of the present invention transmits the driving force of the windmill 20 to the rotary weight 30 and the power of the configuration for transmitting the driving force generated in the rotary weight 30 to the power generation unit 50 and the wind power generation unit 10 10 to 12, the transmission part 40 includes a shaft 40a which is a rotation shaft of the windmill 20, a first driven shaft 41, and second and third driven shafts 42 and 43. ) And the fourth and fifth driven shafts 44 and 45 which are driven shafts of the rotary weights 30 arranged in pairs in the front part or the rear part of the windmill 20, and also in the rotary weights 30. Composed of sixth to eighth driven shafts 46, 47, 48 for transmitting the generated driving force to the power generation section 50 and the wind power generation section 10, each shaft 40a and driven shaft 41 42, 43, 44, 45, 46, 47, and 48 are equipped with a large number of pulleys of large and small diameters to transfer and amplify and amplify the rotational speed and driving force.

The driving force of the shaft 40a generated by the rotation of the windmill 20 is transmitted to the first driven shaft 41 through the pulley and the belt, and the second driven shaft from the first driven shaft 41 to the pulley and the belt. The driving force is transmitted to the 42, and the driving force is transmitted from the second driven shaft 42 to the fourth driven shaft 44, which is the driven shaft of one of the rotary weights 30, from the second driven shaft 42 to the pulley and the belt. In this case, the fourth type consisting of a second driven shaft 42 and a double shaft so that the driving force is applied to the outer weight 31 and the inner weight 32, respectively freely rotated in the fourth driven shaft 44 of the rotary weight 30 Two pulleys and a belt are mounted on the coaxial 44, respectively, and the driving force is transmitted to the outer weight 31 and the inner weight 32 of the rotary weight 30.

On the other hand, the driving force is transmitted from the second driven shaft 42 to the third driven shaft 43 by the pulley and the belt, and the fifth type which is the driven shaft of the rotary weight 30 installed on the other side of the third driven shaft 43. The driving force is transmitted to the coaxial 45, and as described above, two pulleys and a belt are mounted to the third driven shaft 43 and the fifth driven shaft 45, respectively, to the vertebrae 31 of the rotary weight 30. And driving force is transmitted to the inner and inner pulsation 32, and driving force is transmitted from both the fourth driven shaft 44 and the fifth driven shaft 45 to the sixth driven shaft 46 by both the pulley and the belt, respectively. At 46, a driving force is applied to the power generation unit 50.

In addition, the driving force is transmitted from the second driven shaft 42 to the seventh driven shaft 47 from the pulley and the belt, where the driving force is transmitted to the eighth driven shaft 48, and through the plurality of driven shafts, pulleys and belts. The driving force is transmitted to the pulley (g) mounted on the speed reducer 16 of the wind generator 10 to generate wind power by rotating the blower blades 14, and a power transmission unit installed at the rear part of the windmill 20. 40 is a driving force is transmitted from the eighth driven shaft 48 to the reducer 18 installed on the upper side of the windmill 20 through a plurality of driven shafts, pulleys and belts to rotate the wind blades 14a to generate wind power. Generate.

In the embodiment of the present invention, the power generation unit 50 is for producing electric power using a driving force amplified by centrifugal force, and the pulley generator 51 mounted on the sixth driven shaft 46 in the power transmission unit 40. It can be installed by connecting, in this case can be produced by using the driving force generated by the operating principle of the centrifugal force in the windmill 20 and the rotary weight 30, and is not limited to the generator 51 that requires power It can be used by transmitting driving force to industrial machine.

Meanwhile, the first driven shaft 41 and the sixth driven shaft in the power transmission unit 40 to control the driving force of the windmill 20, the driving force of the rotary weight 30, and the driving force applied to the generator 51 in the present invention. Ideally, the clutch 46 is mounted to the 46th and seventh driven shafts 47 so that power can be interrupted.

Looking at the operation of the power generation system according to an embodiment of the present invention made of such a configuration as follows.

First, the first driven shaft 41, the sixth driven shaft 46, and the seventh type in the clutch 12b and the power transmission unit 40 mounted on the prime shaft 12 of the wind turbine generator 10 at the beginning of operation. In a state where all the clutches mounted on the coaxial 47 are blocked, only the clutch 12a of the prime shaft 12 is connected, and then the prime mover 11 is operated to apply power to the driven shaft 13 through the prime shaft 12. By providing a blower wing 14 by rotating a strong wind to the windmill 20 through the blower holder 15.

When the strong wind is applied to the blade 23 of the windmill 20, the windmill 20 is slowly rotated by the strong wind applied by the wind generator 10 reaches a predetermined number of times, the power transmission unit 40 In connection with the clutch mounted on the first driven shaft 41, the driving force of the windmill 20 is transmitted to the outer weight 31 and the inner weight 32 of the rotary weight 30 to rotate.

When the outer vertebrae 31 and the inner vertebrae 32 of the rotary weight 30 are rotated by the driving force transmitted from the windmill 20 to reach a predetermined rotational speed, and the driving force is amplified by the operation principle of the centrifugal force, the wind power generation unit ( At the same time, the clutch 12a, which was connected at the prime shaft 12 of the vehicle 10, was shut off, and the prime mover 11 was stopped. Then, the clutch 12b on the opposite side was connected. When the clutch of the coaxial 47 is connected, the driving force is transmitted to the reduction gears 16 and 18 of the wind power generator 10 through the eighth driven shaft 48 so that the blowing blades 14 and 14a rotate and are strong. Generate wind power.

As a result, the driving force amplified by the centrifugal force generated in the windmill 20 and the rotary weight 30 in the state where the power of the prime mover 11 is cut off is transmitted to the eighth driven shaft 48 through the clutch of the seventh driven shaft 47. To generate strong wind power by rotating the blower blades 14 and 14a through the reduction gears 16 and 18, the prime shaft 12, and the driven shaft 13 of the wind generator 20. When the windmill 20 receives wind power, the driving is continuously performed, and in this state, when the windmill 20 and the rotary weight 30 perform a smooth operation, the power transmission unit 40 is connected to the sixth driven shaft 46. By connecting the mounted clutch to transmit the driving force to the generator 51 to produce power.

Therefore, the embodiment of the present invention amplifies the driving force by the operation principle of the centrifugal force generated in the windmill 20 and the rotary weight 30 to continuously carry out the operation to the energy amplified than the driving energy of the prime mover put into the initial operation To generate power from the generator 51.

The preferred embodiments of the present invention have been described above with reference to the present invention, and are not limited to the above embodiments, and those skilled in the art through the above embodiments do not depart from the gist of the present invention. Can be implemented in a variety of changes.

As described above, according to an embodiment of the present invention, by amplifying the mechanical energy by the operation principle of the centrifugal force generated from the windmill and the rotary weight to receive the wind power to perform continuous operation to amplify the driving energy input to the initial operation It is environmentally friendly without polluting and destroying the natural environment by generating and supplying electric energy by producing the generated electric energy, and it is not only limited by the construction of power generation facilities, but also the cost of equipment is low and it is possible to produce and supply electric power with safe power equipment. To provide the effect.

Claims (12)

Wind generator 10 for generating wind power; A windmill 20 that receives the wind power from the wind generator 10 and rotates and generates centrifugal force; A rotary weight 30 that receives the driving force from the windmill 20 to rotate and generate centrifugal force; Power generation unit 50 for receiving the driving force from the rotary weight 30 to produce power; The driving force of the windmill 20 is transmitted to the rotary weight 30 and is composed of a power transmission unit 40 for transmitting the driving force generated in the rotary weight 30 to the power generation unit 50 and the wind power generation unit 10 Power generation system using a windmill and a rotary weight, characterized in that. The method of claim 1; Wind power generation unit 10 is a wind power generation system using a windmill and a rotary weight, characterized in that arranged on both sides of the top and bottom of the windmill (20). The method of claim 2; Wind power generation unit 10 generates a wind power by the rotation of the wind blades (14) (14a) by generating wind power to the windmill 20, characterized in that the wind power generation system using a rotary weight. The method according to any one of claims 1 to 3; Wind power generation unit 10 is initially driven by the drive of the prime mover 11, the driving force is transmitted from the driving shaft 12 and the driving shaft 12, the clutch 12a, 12b is mounted, and the blowing wing 14 Power generating system using a windmill and a rotating weight, characterized in that the driven shaft (13) equipped with, and the blower holder (15) of the cone-shaped surrounding the blowing wing (14) is gradually narrowed space is installed. The method of claim 1; The windmill 20 is provided with a plurality of arms 22 radially on the rim 21, while a plurality of wings 23 inclined at a predetermined angle on the outer circumference of the rim 21, the shaft in the horizontal direction in the center Power generation system using a windmill and a rotary weight, characterized in that 40a is installed. The method of claim 1; Rotating weight 30 is installed in a pair of the front and rear of the windmill 20, respectively, a power generation system using a windmill and a rotary weight, characterized in that to generate a centrifugal force while receiving the driving force of the windmill 20 to rotate. The method of claim 6; The rotary weight 30 has circular rims 33 and 33a installed on the outside and the inside thereof, and the outer weight 31 and the inner weight 32 are rotatable on the frame 1 with the driven shaft 44 therein, respectively. Power generation system using a windmill and a rotary weight, characterized in that installed. The method of claim 7; The outer vertebrae 31 and the inner vertebrae 32 of the rotary weight 30 are each formed in a straight shape, and each of the windmill and the rotary weight, characterized in that the centrifugal weights 31a and 32a for weighting each end are installed. Used power generation system. The method of claim 7; The driven shaft 44 on which the outer vertebrae 31 and the inner vertebrae 32 of the rotary weight 30 are mounted is installed in a structure in which two shafts are coupled to each other on the same axis by dual bearings and are freely rotated. Power generation system using a windmill and a rotating weight characterized in that. The method of claim 1; The power transmission unit 40 transmits a driving force from the shaft 40a of the windmill 20 to the driven shafts 44 and 45 of the rotary weight 30 through a plurality of driven shafts 41 and 42 and 43. The driving force is transmitted from the rotary weight 30 to the power generation unit 50 through the driven shaft 46, while the rotary weight 30 passes through the plurality of driven shafts 42, 43, 47 and 48. Power generation system using a windmill and a rotary weight, characterized in that the driving force is transmitted to the wind turbine generator (10). The method of claim 10; The driving force of the driving force of the windmill 20 from the power transmission unit 40 is transmitted to the rotary weight 30, and the driving force of the rotary weight 30 is transferred to the wind power generation unit 10 and the power generation unit 50. Power generation system using a windmill and a rotary weight, characterized in that the clutch is attached to each driven shaft (46) (47) to be transmitted. The method of claim 1; Power generation unit 50 is a power generation system using a windmill and a rotary weight, characterized in that installed by connecting the generator 51 to the power transmission unit (40).

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