KR20100118622A - Wind power turbines - Google Patents

Abstract

PURPOSE: A wind power generator is provided so that air current, which is generated due to the altitude difference between balloons far from the ground and balloons close to the ground, is used to generate the power. CONSTITUTION: A plurality of large balloons(1) are flown in the air at different heights. A Y-shape channel is connected to a wire rope(2), a power wire and an extending wire(3) and is floated in the air. A floating generator is installed at the center of the channel. One side of a crank rod(5) moves according to the tensile force of a balloon, which is adjusted to a suitable height by increasing/decreasing the length of the power line and the extending line. A weight(19), which has the same load to the buoyancy of the balloon, is assembled on the opposite side of the crank rod. A center shaft is inserted into left/right supports. The left/right supports are connected to left/right guides(8), which vertically stand on both sides of the center of the base on the ground. A spur gear, which is connected to the crank rod, is engaged with left/right pinion gears, which are fixed to left/right generators(7).

Description

Wind Power Generators {Wind Power Turbines}

The present invention relates to a wind power device that generates electricity by using energy from the wind and wind movement from nature, and converts the rotor into mechanical energy by rotating the rotor using the aerodynamic properties of the energy of the air flow. This is a technology for supplying the induction electricity generated by this mechanical energy to the power system or the consumer. The wind energy is converted into electric energy using the wing. At this time, only 60% of the wind energy of the wing can be converted into electric energy. In consideration of efficiency, mechanical friction, generator efficiency, etc., only 20-40% of the energy can be used as electrical energy.

After the first wind turbines appeared about 50 years ago, after the oil shock of the 70's, design technology has made great strides, and large-scale wind turbines have been developed around Europe. According to the horizontal and vertical type according to the rotor (blade and hub) consisting of a rotor and a gearbox to increase the speed (Gear box), a generator for generating electricity (Generator) a control device for controlling various safety devices And power control device.

Representative characteristics of wind power generation among renewable energy resources include the fact that the specifications and economics of the facility can be severely changed depending on the amount and characteristics of the wind resources of the installation site, and the initial investment cost is high, but the international environment for preventing global warming As the most active countermeasure against protection regulations, there is no pollution emission, so the cleanliness and eco-friendliness are very good.

However, wind power generation technology using wind must consider safety by combining construction technology considering the performance and load of system by combining algorithms with various components according to optimal conditions.

In Korea, since the development history of wind power generation system is short and the operation and basic data of self-developed system are lacking, it is mainly imported from overseas or commissioned to overseas specialized companies for assembly production. It's happening.

Windmill-type rotary blades, which are the representative means of wind power generation, have low energy density. Therefore, if the wind is scarce, it is impossible to generate power. The scale is divided into ultra-small, small, medium, large, and super-large, and it is divided into self-generation and commercial power generation by use. Currently, it has high price competitiveness and can expect huge power generation by installing at sea. It has developed into a very large wind power generation system. In Korea, research began for the need for new regenerative energy sources and mainly for independent power sources such as remote islands after the oil wave in the 1970s. Has focused on development, but systematic and continuous R & D There is a study coming Oda leads to circumstances that did not gotta progress in recent noticeable more vitality to the development and progress.

<Technical Problems to be Invented>

Under these conditions, wind power generation is a task that needs to be properly developed considering the topography and environment of Korea. There are not many regions with good wind and wind speed except for the eastern coastal region and some mountainous regions of Gangwon-do.

However, using the balloon over the existing iron poles, the balloon is floated at a high altitude on the ground, and the generator mounted on the Y-shaped channel is rotated to produce electricity and to energize the movement of wind in which air flow is formed. The main point of the present invention is to install the power generation unit alone or a large-capacity complex is possible and can be manufactured by capacity and size.

Since the output of most of the generators as well as the generators of the present invention is very sensitive to the wind speed of the region, the wind map is the most essential wind resource research analysis and prediction technology to determine the optimal output state, which is the end result of wind power generation. Based on reliable data such as wind speed and wind distribution for building a wind map, the detailed elements should be compounded. In particular, a very important solution for determining the set height and spacing of the large-sized balloon of the present invention can be obtained.

The wind blows due to temperature change or climate change at room temperature, or in coastal areas, the wind blows towards the cool sea due to the rise of the ground temperature due to the sunlight during the day, and the temperature of the sea surface that maintains a constant temperature at night after sunset is always Due to the extinction of light, the low temperature of the ground can cause sea breezes to blow towards the land and change the direction of the wind.

In the present invention, the generator is placed at a high altitude using a large balloon to generate power according to the difference in altitude in the terrain of temperature, and the tension is generated by appropriately utilizing the buoyancy of the large balloon to generate a seesaw ( It provides a way to generate power by increasing the speed after interlocking movement like Seesaw). It is possible to generate power at the point where the air flow is formed at a very high altitude compared to the method installed and operated on the iron pillar as in the conventional method.

However, in order to expect a certain amount of wind required for wind power generation, an appropriate amount of wind must be present. Therefore, a specific area with a lot of wind must be selected.

However, if you go up the trail to go hiking on the weekends, you can see that the wind volume and the wind speed change every few meters above the ground and become more abundant.

Therefore, even in the same place, the airflow that appears differently according to the height is used as the point of wind power generation to access and use the electricity production energy. The purpose is to.

<Configuration and Functions of the Invention>

At different heights, one side is high, the other side is low, and a large number of large balloons float in the air at a relatively high altitude, generating electricity by rotating a generator mounted on a channel, and freeing them according to the air flow in the air or the direction of the wind. Large balloons float or descend to repeatedly move up and down, causing tension and buoyancy to move the V-shaped cranks connected to the wire rope to rotate the spur gear connected to the central axis to connect with the small pinion gear. It is designed to produce efficient electricity by high speed rotation of the generator.

1 is an overall perspective view showing in order to explain the installation state of the present invention clearly.

As shown in the figure, a plurality of large balloons (1) in the air at different heights and the wire rope (2) is a Y-shaped channel 38 with a generator 30 in the center, power line, extension line (3) and hook (4) shows the structure that is fixed to the crank rod (5) to move to the right and left to adjust to the appropriate height by properly adding or subtracting the length of the power line and extension line (3).

Then, the two left and right generators 7 and 10 on the base 9 fixed to the ground are engaged with the c-shaped crank rod 5 so as to move the crank rod according to the movement of the large balloon 1. 5) is configured to repeat the up and down movement that slowly descends to the left and then descends to the right.

However, it is desirable to change the distance and altitude difference between the plurality of large-sized balloons (1) according to the installation location and the weather conditions of the day, and the altitude of the large-sized balloon (1) is sufficiently sufficient in calm weather with little wind. It may be necessary to adjust the altitude of the balloon very low or fix it to the ground in severe weather when the weather is too high or the weather is excessively rainy due to high altitude difference between both ends.

Therefore, when the scale of the wind turbine generator of the present invention is largely configured or collectively operated, monitoring and diagnostic techniques of the apparatus are required, and related monitoring techniques must be performed in parallel, and an integrated system through advanced sensors and algorithms. It is to be developed in parallel with various initiatives such as techniques that have already been put into practical use or upgraded and developed.

In the accompanying drawings, Figure 2 shows the installation of the flotation generator in the present invention, in the center of the Y-shaped channel 38, the flotation generator 30 and the rudder 34, in which three blades 35 are combined, are integrally provided. Rope (2) is fastened to each connecting ring (36), and the produced electricity is connected to the power line and extension line (3) and sent down to the faucet side. Indicates.

In FIG. 3, the side of the flotation generator is shown, and the horizontal balloon is horizontally symmetrical with the flotation generator 30 and the rudder 34 connected to the rope 2. 1) The focus is on the proper center of gravity to maintain horizontal level even if it moves up, down, left and right.

In the accompanying drawings, Figure 4 is shown in order to clearly explain the combined state of the crank rod and the generator in the present invention, the central axis 15 orthogonal to both sides in the center of the crank rod 5 is the center of the base 9 installed on the ground It is inserted into the left and right supports (6) and 16 which are connected to the left and right guides (8) and (18), which are fixed to both sides upright, and one side of the crank rod (5) is buoyancy of the large balloon (1). A plurality of weights 19 of the same weight are assembled to the fixing bolts 24, and spur gears connected to the central shaft 15 have left and right generators installed at both bottom sides of the base 9. 7) (10) and the left / right pinion gears (17) and (20) are fixed to each other.

Crank rods (5) fixed by hooks (4) are tied to power lines and extension lines (3) by generating a tensile force as the plurality of large balloons (1), each spaced at different altitudes and directions, rise or fall according to airflow and buoyancy. Pulling one side of the ascends and then rebounds down with the weight of the weight 19, repeating the vertical movement from side to side like a seesaw and spur gear 12 according to the movement of the crank rod 5 about the central axis 15. ) Rotates the left / right pinion gears 17 and 20 while rotating left or right to configure high-speed rotation of the left / right generators 7 and 10 to produce electricity.

According to the movement of the large-sized balloon 1, the spur gears each time a lower end of one side of the crank rod 5 comes into contact with the ground, or whenever a continuous motion of rising and falling occurs due to a small amount of momentum. 12) and the left and right pinion gears 17 and 20 are gear ratios of at least 10: 1 to increase the speed so that the left and right pinion gears 17 and 20 can be increased even at a small rotation ratio of the spur gear 12. ) Is designed to rotate at high speed, and in detail, it consists of coupling, spindle bearing, high speed shaft, etc., including the main shaft, and related drive system components are composed of the conventional complex technology that is implemented as one system.

In addition, the two left and right generators (7) and (10) rotate in opposite directions, in which the electric control method of the winding type induction generator is applied in connection with the related electric control method, and in particular, the polarity of the current required by the power control device. Power conversion technologies such as potential difference, frequency or power storage technology are made possible by existing modular hybrid technology and automatic voltage control device.

On the other hand, Figure 5 is shown in order to explain the side structure of the wind generator of the present invention for easy explanation, the crank rod 5 is inserted on the same axis as the central axis 15, left / right support (6) (16) ) Is connected side by side and is connected to the right generator 10, the spur gear 12 and the pinion gear 20 installed on the ground and the fixed base (9).

The wind power generator of the present invention configured as described above is capable of producing electricity efficiently and economically even in topographical conditions, such as inland areas or agricultural land, where wind is not suitable for use. It is installed in dense mountainous regions, highlands or coastal islands to supply nature-friendly clean energy. It relates to wind power generators that can be installed with a relatively simple structure and low production cost compared to existing wind power facilities.

1 is an overall perspective view of the present invention

2 is a perspective view of the flotation generator of the present invention

3 is a side view of the flotation generator of the present invention

4 is a front view of the crank rod and generator

5 is a side view of the crank rod and generator

Claims (1)

Floating generator 30 is installed in the center of the Y-shaped channel floated by a plurality of large balloons (1) in the air at different heights and connected with wire ropes (2), power lines and extension lines (3) and each connection Hook 36 and hook (4) and by adjusting the length of the power line and extension line (3) to be adjusted to the appropriate height to move one side according to the tension of the balloon, the other side and the buoyancy of the balloon (1) Left and right guides connected to the crank rod 5 constructed by assembling the weight 19 of the same weight and perpendicular to both sides are fixed to both sides at the center of the base 9 installed on the ground. 8) The spur gear 12, which is inserted into the left and right supports 6 and 16 in contact with (18) and is in contact with the crank rod 5, is fixed to the left and right generators 7 and 10. Wind turbines characterized in that the structure is meshed with the left and right pinion gear (17) (20).

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