KR101049452B1 - Wind power system - Google Patents

Abstract

PURPOSE: A wind power generation system is provided to heighten the air inflow concentration efficiency to two wind power generation units arranged horizontally, and to maximize high-efficiency electric energy generation efficiency. CONSTITUTION: A wind power generation system comprises: a post(10) having a shaft(13); a wind power generation unit(20) coupled to the shaft to be rotatable; an electricity generation unit connected with the wind power generation unit to generate electricity when the wind power generation unit rotates; and a cover(40) having a front air inflow unit(41) and a rear air exhaust unit(42) and arranged to cover the wind power generation unit, wherein a guide plate(43) is provided to two ends of the air inflow unit of the cover to guide influent air to be concentrated to first and second wind power generation units(21,22) of the wind power generation unit.

Description

Wind Power System {WIND POWER SYSTEM}

The present invention relates to a wind power generation system for generating electricity by wind power, and more particularly, to a wind power generation unit which is rotated by the introduced air, an electricity generating unit for generating electricity therefrom, and the wind power generation unit. The present invention relates to a wind power generation system including a cover having an induction plate for concentrating introduced air.

Among various technologies related to wind power generation systems,

Korean Patent Registration No. 10-0490683 (registered on May 11, 2005, hereinafter referred to as 'advanced technology') `` Vertical axis wind power generation device '' is proposed,

The prior art provides a generator, a rotational center portion which transmits rotational force to the generator and is vertically disposed, and winds arranged at equal intervals while being vertically placed in a longitudinal direction on a circumference centered on the rotational center portion. A rotor portion comprising a plurality of blades for generating rotational force, a plurality of connecting members having one end connected to a rotational axis of each blade of the rotor portion, and an action point of each blade spaced apart by a predetermined interval in the width direction of the blade, and each of the connecting members The other end is connected to the center of the rotation center portion as a reference position, and the rotating member and the connecting member connected to the rotating body by rotating and rotating the center of the rotating body, such as the rotor portion from the reference position is the pitch of the blade The magnitude of the angle is sinusoidal as the blade rotates A pitch having an adjusting means including a guide part for guiding the rotating body in a straight line and a guide part fixed to rotate the guide part. It is a technique comprised by a control part and the drive means for driving the said pitch control part.

As in the prior art, when the blade is open in all directions, there is no interference with the rotational motion when the wind is blown in only one direction, but the rotational motion is caused when the blades are rotated by the winds respectively blowing in two directions. There is a problem that the interference to the wind power usage efficiency is lowered.

In addition, the configuration of a pitch control unit for generating high efficiency energy and a driving means for driving the same is very complicated, causing a high failure rate and increasing the cost of wind power facilities.

Wind power generation system according to the present invention to solve the above problems,

A strut having an upper shaft;

A wind power generation unit rotatably coupled to the shaft;

An electricity generation unit connected to the wind power generation unit to generate electricity when the wind power generation unit rotates; And

A cover having a front air inlet and a rear air exhaust, the cover being arranged to surround the wind power generation unit;

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Both ends of the front air inlet part of the cover are provided with guide plates for guiding the introduced air into the wind power generation unit.

And the shaft is made of two powders,

The wind power generation unit includes first and second wind power generation units coupled to each of the powders, wherein each of the wind power generation units is radially arranged on the coupling shaft and the coupling shaft of the corresponding shaft of the shaft. It is characterized by consisting of a plurality of blades.

In addition, each of the blades in the first and second wind power generation units of the wind power generation unit is characterized in that the opposite wind so that each of the wind power generators are rotated by the opposite direction.

On the other hand, the shaft is connected to the support so as to be arranged in a position eccentric from the support, the weight is biased toward the air exhaust side than the air inlet side of the cover relative to the support,

The prop is composed of a lower support and an upper support rotatably coupled thereto, characterized in that the wind power generation unit is connected to the upper support.

Wind power generation system according to the present invention,

By increasing the air inlet concentration performance of the two wind turbines arranged in a horizontal direction, by providing an automatic switching function such that the air inlet can always look toward the wind direction, there is an effect of maximizing the efficiency of generating high-efficiency electric energy.

1 is a plan view showing a wind power generation system according to the present invention;
2 is a side configuration view showing a wind power generation system according to the present invention;
3 is an operating state diagram by the wind power,
4 is a schematic view illustrating an operation corresponding to the wind direction.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Prior to the description, the wind power generation unit side is determined as the upper side or the upper side, the opposite of the holding ground side is determined as the lower side or the lower side, the air inlet side is defined as all (front) or front side, The base side is defined as the rear or the rear.

In addition, "A" of Figure 1 is a three-dimensional configuration diagram for the first and second wind power generation unit of the wind power generation unit.

As shown in Figure 1 to 4, the wind power generation system according to the present invention,

It is composed of the strut 10, the wind power generation unit 20, the electricity generating unit 30 and the cover 40.

Looking at each configuration,

Prop 10

As shown in FIG. 2,

Lower column 11 is installed on the ground,

An upper column 12 rotatably coupled to an upper portion of the lower column 11, and

Shaft 13 connected to the upper column 12

It is made, including.

In this case, a bearing (B) may be provided at a coupling portion of the lower support 11 and the upper support 12.

In addition, a supporter 14 for supporting the lower column 11 and the upper column 12 may be provided.

And each of the lower column 11 and the upper column 12 is formed with cable passages (111, 121) interconnected therein,

In particular, the cable passage 121 of the upper column 12 is formed so that the cable drawn from the electricity generating section 30 can be drawn.

The shaft 13 is composed of two powders 13A and 13B branched from the upper column 12.

Wind power generation unit 20

As shown in Figs. 1 and 2,

Is rotatably coupled to the shaft 13 to be rotated by the introduced air,

First and second wind turbines 21 and 22 coupled to each of the powders 13A and 13B of the shaft 13.

It is made, including.

In this case, each of the wind power generators 21 and 22 includes a plurality of radially arranged coupling shafts 211 and 221 with the corresponding powders of the shaft 13 and the coupling shafts 211 and 221. Blades 212 and 222.

Here, the 'corresponding powder' refers to one powder 13A to which the first wind power generator 21 is coupled, and the other powder 13B to which the second wind power generator 22 is coupled. Likewise, it means a powder to which each wind power generator 21, 22 is coupled.

As shown in FIG. 1, each of the blades 212 and 222 in each of the wind turbines 21 and 22 faces each other so that the wind turbines 21 and 22 may rotate in opposite directions by the introduced air. Is formed.

As a result, the blade 212 of the first wind power generator 21 is formed to rotate in a counterclockwise direction, and the blade 222 of the second wind power generator 22 is formed to rotate in a counterclockwise direction.

Each of the powders 13A and 13B of the shaft 13 may include a bearing B contacting the upper and lower portions of the coupling shafts 211 and 221 of the respective wind turbines 21 and 22 coupled thereto. Can be.

Electricity generation unit 30

As shown in FIG. 2,

Is connected to the wind power generation unit 20 has a conventional generator structure for generating electricity during the operation (when rotating) the wind power generation unit 20,

It is connected to the coupling shafts 211 and 221 of the wind power generation unit 20 to generate electricity.

As an example of the connection structure between the wind power generation unit 20 and the electricity generating unit 30,

A generator (not shown) having a pulley (not shown) coupled to the coupling shafts 211 and 221 of each of the wind power generators 21 and 22, and a corresponding pulley connected to the pulley by a belt, generated from the generator. It is made of an electric cable or the like connected so that electricity can be supplied to the outside.

This is an example, the connection structure of the wind power generation unit 20 and the electricity generating unit 30 to generate electricity by the rotation operation of the wind power generation unit 20 is to be variously changed and modified It is self-evident.

In addition, the electricity generation unit 30 may include a power storage unit (not shown) for power storage of generated electricity.

The cover 40

As shown in Figs. 1 and 2,

Front air inlet (41), and

Rear air exhaust part (42)

It includes, and is mounted to the upper support 12 of the support 10 in the form surrounding the wind power generation unit 20.

At this time, the cover 40 allows the air introduced at both ends of the air inlet 41 to be concentrated in the first and second wind turbines 21 and 22 of the wind turbine unit 20. A guide plate 43 for guiding is provided.

The induction plate 43 is formed in a shape having an inclined portion 431 facing each of the wind turbines 21 and 22.

In addition, the cover 40 is further formed with an extension inclined portion 432 connected to the inclined portion 431 of the guide plate 43 to extend rearward,

As shown in Figure 1, the inclined extension portion 432 is formed to be inclined in the opposite direction of the inclined portion 431 is arranged in a form surrounding the respective wind turbines (21, 22), the induction plate 43 Along with the inclined portion 431 of the cover 40 to guide the flow of air to the air exhaust portion 42 side.

In addition, the cover 40 further includes a tail wing 44 extending rearward from both ends of the air exhaust part 42 to guide the exhaust flow of the introduced air so as to smoothly exhaust the air.

Meanwhile, as in FIGS. 1 and 4,

The two powders 13A and 13B of the shaft 13 are connected to the upper support 12 so as to be arranged in an eccentric position from the upper support 12 of the support 10, thereby referring to the support 10. As a result, the weight is biased toward the air exhaust portion 42 side than the air inlet portion 41 side of the cover 40, and as described above, the upper support 12 is rotatable to the lower support 11. By combining, the air inlet portion 41 of the cover 40 will be able to always look towards the wind (air) blowing.

Therefore, the wind power generation system according to the present invention can flexibly respond to the wind direction to maximize the wind power generation efficiency.

In the above description of the present invention with reference to the accompanying drawings, a description of the "wind power generation system" having a specific shape and structure, but the present invention can be variously modified and changed by those skilled in the art, such variations and modifications the present invention It should be interpreted as falling within the protection scope of.

10: prop
11: lower column 111: cable passage
12: upper column 121: cable passage
13: shaft 13A, 13B: powder
14: supporter
20: wind power generation unit
21: first wind power generation unit 211: coupling shaft
212: blade
22: second wind power generation unit 221: coupling shaft
222: Blade
30: electricity generating unit
40: cover
41: air inlet 42: air exhaust
43: guide plate 431: inclined portion
432: extension slope 44: tail wings

Claims (4)

A support 10 having a shaft 13;
A wind power generation unit 20 rotatably coupled to the shaft 13;
An electricity generation unit 30 connected to the wind power generation unit 20 to generate electricity when the wind power generation unit 20 rotates; And
A cover (40) having a front air inlet (41) and a rear air exhaust (42) and arranged to surround the wind power generation unit (30);
Including but not limited to,
The support 10 is composed of a lower support 11, which is installed on the ground, and an upper support 12 rotatably coupled to an upper portion of the lower support 11 and to which the shaft 13 is connected.
Both ends of the front air inlet part 41 of the cover 40 are provided with a guide plate 43 for guiding the introduced air into the wind power generation unit 30.
The shaft 13 is composed of two powders 13A and 13B branched at an eccentric position from the upper support 12 to be connected to the upper support 12, so that the cover (based on the upper support 12) The weight is biased toward the air exhaust portion 42 side than the air inlet portion 41 side of the 40 so that the air inlet portion 41 of the cover 40 is always looking toward the wind blowing,
The wind turbine unit 20 includes first and second wind turbines 21 and 22 coupled to each of the powders 13A and 13B, respectively, wherein each of the wind turbines 21 and 22 includes the shaft. Consisting of a plurality of blades (212, 222) arranged radially on the coupling shaft (211, 221) and the coupling shaft (211, 221) with the powder of the (13),
The cover (40) further comprises a tail wing (44) extending rearward from both ends of the air exhaust (42).
delete The method of claim 1,
In each of the blades 212 and 222 of the first and second wind turbines 21 and 22 of the wind turbine unit 20, the respective wind turbines 21 and 22 are opposite to each other by the introduced air. Wind power generation system characterized in that it is formed to be opposed to rotate. delete

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