KR200400587Y1 - Aerogenerator doubling wind power - Google Patents

Abstract

Wind turbine for doubling the present invention of the blade 110 and a plurality of blades 111 having a predetermined curved surface radially fixed so as to overlap a predetermined portion in a vertical downward direction about the rotation axis 112, and the wing 110 of The guide plate 160 coupled to the lower portion of the rotary shaft 112 to be tapered in the form of a seven-horn pyramid to guide the incoming wind upwards, and a seven-dimensional lower plate fixed to the bottom of the guide plate 160 ( 130 and the upper part of the rotating shaft 112 to be penetrated to be spaced apart from the lower plate 130 at a predetermined interval, and the inclined surface 121 is formed so that the edge tapered downward by a predetermined angle through the guide plate 160 Guides the introduced wind so that it can quickly escape to the outside through the wing 110, and forms a transmission network that forms a transmission network that serves as a passage through which the introduced wind is discharged to the outside. It is installed between the upper plate 120 and the spaced apart space of the upper plate 120 and the lower plate 130, one side is in close contact with the outer circumferential surface of the induction plate 160, and the other side is directed to the vertex portion of each hexagonal shape. It is composed of the partition wall 150 to be arranged in a radial shape to focus the wind toward the induction plate 160 side, by inducing and concentrating the wind blowing from the side and the bottom of the wind power generator through the induction plate and the partition wall to the wing side By providing a large amount of air flow has the effect of maximizing the power generation efficiency of the wind turbine.

Description

Wind generators for wind power doubling {AEROGENERATOR DOUBLING WIND POWER}

The present invention relates to a wind power generator for doubling wind power, and more specifically, to induce and concentrate the wind toward the wing side of the wind generator, and to induce the wind blowing downward of the wind generator to the upper wing side. The present invention relates to a wind power generator for doubling wind power to collect wind.

Common power generation methods include hydroelectric power generation using hydroelectric power, thermal power generation using fossil fuels, and nuclear power generation using nuclear power. However, these power generation methods require large-scale power generation facilities and huge amounts of energy to operate them.

In particular, fossil fuels such as petroleum and coal as energy sources used in thermal power generation are more dependent than other fuels, causing problems such as exhaustion of resources.

Moreover, fossil fuels such as petroleum and coal are the major causes of global warming by destroying the ozone layer. In addition, fossil fuels such as petroleum and coal cause environmental pollution, and in particular, fossil fuels such as petroleum and coal are highly dependent on other fuels, causing rapid depletion of resources and environmental pollution.

Therefore, fossil fuels such as petroleum and coal are used to prevent environmental pollution due to various global disasters and pollution caused by global warming caused by depletion of resources and combustion of petroleum and coal. There is a need for a breakthrough development method that does not require.

As described above, power generation methods that do not require fossil fuels such as petroleum or coal include solar power generation, tidal power generation, and wind power generation using solar energy, and the most easily applicable power generation method is solar heat using solar heat. It can be called wind power generation using power and wind power.

The above-mentioned wind power generation is a method of converting wind energy into mechanical energy by a windmill and turning the generator to generate electricity. The wind energy varies with the wind speed, and the wind energy radius is 1 m and the wind speed is about 1 kW at 10 m / s. Can be obtained.

There are two types of wind power generation systems, a direct use system using an alternating current wind power generator for a power system and a power storage use system in which electricity of a wind generator is stored in a storage battery and paralleled to a power system. While the former is directly affected by wind change, the latter can be used on average because it is supplemented with a battery even if the wind fluctuates, but the installation cost is high. A typical example of using wind energy as a power source is windmills in the Netherlands, with 100-1,000 kW class already being devised in the US and UK.

 Such wind power generation is a pollution-free energy source that does not involve waste, and is fully available on a personal scale. Wind power is used for power generation of lighthouses in remote windy islands.

In addition, the power generation facility is very simple to install compared with other power generation facilities and there is an advantage that no separate waste generated by the power generation.

In addition, in the case of the wind power generation described above, there is an advantage that the power generation facility can be installed very simply compared to other power generation facilities, and there is an advantage that no separate waste is generated due to power generation.

On the other hand, the above-described wind power generation, as shown in Figure 1, the wind power generator is installed on the shore or slump that the wind speed is always constant during the year, the installation of the support (15) fixed to at least 5m or more height At least two propellers 20 are rotatably provided at the upper end of the support 15.

The wind power generator 10 made as described above is generated by the generator 25 when the propeller 20 provided on the top of the support 15 by the wind is rotated, such a plurality of wind power generator 10 The power produced in the) is collected and charged to a capacitor, not shown, to be used where necessary.

However, the wind power generator 10 according to the prior art is rotated by the surface of the wind contact the propeller by installing a propeller of a certain size on one surface while exposing the propeller to the outside, which is the contact of the propeller even if the wind blows a lot As the area is limited, the wind power output state is determined according to the size of the propeller. Therefore, the only way to obtain larger wind power is to increase the size of the wind power generator. There was a problem.

In addition, the propeller 20 may partially prevent the overload of the propeller 20 rotation when the contact surface with the wind is narrow and a certain amount of strong wind is generated, but when the wind strength is weak, the rotational force is rather high. There is a problem in that the power generated by the rapid fall falls significantly below the reference value of the self-generation, such that the strength of the wind is not effectively used.

In addition, the propeller 20 is installed on the upper end of the support (15) is exposed so as to be in direct contact with the outside, when the object is blown by an unexpected strong wind or gusts, such as direct impact with the propeller 20, external damage to the propeller In addition, the wind power generator 10 caused serious functional problems.

Therefore, the main purpose of the present invention is to install the wing rotatably in the vertical direction, but to guide and concentrate the wind blowing from the side and bottom of the wind turbine to the wing side through the induction plate and partition wall inside to provide more air volume In order to maximize the power generation efficiency of the wind turbine.

In addition, another object of the present invention is to install a protective net to the outside of the wing to block all dangerous goods that can be introduced into the wing by the wind from the outside to prevent external damage of the wing.

In order to achieve the object of the present invention, the wind turbine for doubling the wind power generator of the present invention is a blade which is fixed radially to overlap a predetermined portion of the plurality of blades having a constant curved surface vertically downward with respect to the axis of rotation, and the lower part of the axis of rotation of the blade Combined to penetrate through the tapered pyramid shape to guide the induction plate to guide the incoming wind to the upper, the lower plate of the hexagonal shape fixed to the lower end of the guide plate and the upper part of the rotating shaft through the bottom plate and mutually Spaced at regular intervals, the inclined surface is formed so that the rim tapered at a certain angle downward to guide the wind flows through the guide plate to quickly escape to the outside through the wing, the passage through which the introduced wind is discharged to the outside The upper part of the hexahedral shape forming a penetrating network It is installed between the plate and the spaced space between the upper plate and the lower plate, one side is in close contact with the outer circumferential surface of the guide plate and the other side is arranged radially to face the vertex portion of each hexagonal shape to concentrate the wind toward the guide plate side. It is composed of bulkheads.

In addition, by installing a grid-type protection net on the outer edge surface of the upper plate, the lower plate can be configured to protect the wing from the object flying from the outside.

In addition, it may be characterized in that the pillar is fixed to the lower center of the lower plate vertically placed on the ground further configured.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention configured as described above are as follows.

Figure 2 is a perspective view showing a wind power generator of the present invention, Figure 3 is an exploded perspective view showing a wind power generator of the present invention, Figure 4 is a front view showing a wind power generator of the present invention, Figure 5 shows a wind generator of the present invention 6 is a side sectional view showing a wind turbine of the present invention, and FIG. 7 is a front view showing a state where the wind turbine of the present invention is installed on the ground.

First, as shown in FIGS. 2 to 7, the wind power generator for doubling the wind of the present invention is fixed radially to overlap a plurality of blades 111 having a predetermined curved surface vertically downward with respect to the rotation axis 112. Induction plate 160 and coupled to the lower portion of the blade 110, the rotating shaft 112 of the blade 110 to be penetrated in the form of a seven-horn pyramid guides the incoming wind to the top, and the induction plate ( The lower plate 130 is fixed to the lower end of the 160 and the rotating shaft 112 is coupled to the upper through the lower plate 130 and spaced apart from each other at regular intervals, the inclined surface 121 to taper a certain angle downward. Form a) guides the wind introduced through the induction plate 160 to quickly exit the outside through the wing 110, the passage in which the introduced wind is discharged to the outside It is installed between the upper plate 120 and the spaced apart space of the upper plate 120 and the lower plate 130 to form a transmission network to play a role, one side is in close contact with the outer peripheral surface of the induction plate 160 The side surface is composed of the partition wall 150 to be disposed radially to face the vertex portion of each hexagonal to focus the wind toward the induction plate 160, the grid on the outer edge surface of the upper and lower plates (120, 130) It may be configured to further protect the wing 110 from the object flying from the outside by installing a protective net 180 of the form, fixed to the center of the lower end of the lower plate 130 is vertically placed on the ground 140 ) May be further configured.

Furthermore, the wires 170 are fixed to the corresponding sides of the upper and lower fixing plates 120 and 130 so as to cross each other so that the protection net 180 is supported therein so that the strength of the protection net 180 can be guaranteed. do.

In addition, as shown in Figures 4 and 7, in a place where the wind is constant, the pillars 140 are placed on the ground so that the wind generator 100 is installed at a high position so that the constant wind can be provided more efficiently at all times. In areas where strong winds, gusts, and typhoons are frequent, the generator 25 is installed on the ground, and then the wind generator 100 is installed close to the top of the generator 25 to minimize the installation height with the ground. It is possible to prevent the bending phenomenon of the 140 or the overload of the wind turbine (100).

In addition, the wind generator 100 as described above may be installed in a plurality of selectively to the pillar 140 placed on the ground to improve the electricity generation efficiency of the wind.

Referring to the operation of the present invention is as follows.

First, the conventional wind power generator 10 is limited to the direction of rotation as the propeller 20 is directly exposed to the outside is installed on one surface of the wind power generator using only wind blowing to the side of the wind power generator 10 Generated.

On the other hand, the wind turbine generator 100 of the present invention is a wing 110 to the wind blowing upwards from the side and bottom of the wind generator 100 by the induction plate 160 formed in the shape of a pyramid on the lower portion of the wing 110 By concentrating the wind through the partition wall 150 while installed is to rotate the wing 110 to provide more air volume to the wing 110 side to maximize the generation of wind power.

In addition, the wind introduced to the wing 110 through the guide plate 160 and the partition wall 150 rotates the wing 110 so that it can naturally escape to the outside along the inclined surface 121 of the upper plate 120. To maintain a rapid supply and discharge cycle of wind.

In addition, the wind generator 100 is installed by the protection net 180 on the space border spaced between the upper and lower plates (120, 130) by the strong winds such as gusts or typhoons flying birds or other dangerous objects wings (110) It is blocked from the outside so as not to flow into the side to prevent damage to the wing (110).

At this time, the wire 170 is fixed to the inner side surface of the protection net 180 to cross the side cross-sections of the upper plate 120 and the lower plate 130 to cross the letter X to reinforce the strength of the protection net 180.

In the wind generator 100 as described above, in a place where strong winds such as strong winds or typhoons are frequently generated without notice, the generator 25 is installed on the ground, and then the wind generator 100 is installed close to the upper surface of the generator 25. To prevent external damage of the wind power generator 100 due to strong winds, and in a place where the wind strength is constant, a pillar 140 is placed on the ground so that the wind power generator 100 is always installed at a higher position. You can also be provided with.

As described above, the wind turbine for doubling the wind power generator of the present invention is installed to rotate the wing in the vertical direction, but guides and concentrates the wind blowing from the side and the bottom of the wind turbine to the wing side through the induction plate and the partition wall inside By providing more air volume there is an effect that can maximize the power generation efficiency of the wind turbine.

In addition, by installing a protective net to the outside of the wing has the effect of preventing any external damage of the wing by blocking all dangerous objects that can be introduced into the wing by the wind from the outside.

1 is a perspective view showing a wind power generator according to the prior art.

2 is a perspective view showing a wind power generator of the present invention.

Figure 3 is an exploded perspective view showing a wind power generator of the present invention.

Figure 4 is a front view showing a wind turbine of the present invention.

Figure 5 is a plan sectional view showing a wind turbine of the present invention.

Figure 6 is a side cross-sectional view showing a wind turbine of the present invention.

Figure 7 is a front view showing a state installed on the ground the wind power generator of the present invention.

Explanation of symbols on main parts of drawing

10: wind power generator 15: prop

20: propeller 25: generator

100: wind power generator 110: wing

111: blade 112: rotation axis

120: upper plate 121: inclined surface

122: transmission network 130: lower plate

140: pillar 150: bulkhead

160: induction plate 170: wire

180: protection net

Claims (3)

Wings 110 fixed radially to overlap a portion of the plurality of blades 111 having a predetermined curved surface vertically downward with respect to the rotation axis 112, Induction plate 160 coupled to the lower portion of the rotating shaft 112 of the wing 110, but tapered in the form of a seven-horn pyramid to guide the incoming wind to the top, By coupling the lower plate 130 and the rotating shaft 112 of the hexahedral shape fixed to the lower end of the guide plate 160 to penetrate through the lower plate 130 at regular intervals from each other, the rim tapered at a certain angle downward Forming the inclined surface 121 to guide the wind introduced through the induction plate 160 to quickly exit to the outside through the wing 110, the permeation through which the inlet wind is discharged to the outside An upper plate 120 having a mesh shape, and It is installed between the spaced space between the upper plate 120 and the lower plate 130, one side is in close contact with the outer peripheral surface of the guide plate 160 and the other side is arranged radially to face the vertex portion of each hexagonal wind Wind generator for doubling the wind, characterized in that consisting of the partition wall 150 to be concentrated to the induction plate 160 side. The method of claim 1, Wind turbine for doubling the wind power generator, characterized in that configured to protect the wing 110 from the object from the outside by installing a grid-type protection net 180 on the outer edge of the upper plate, the lower plate (120, 130). The method according to claim 1 or 2, Fixed to the bottom center of the lower plate 130 is a wind power generator for doubling wind turbines, characterized in that further comprises a pillar (140) vertically entered into the ground.