KR101165680B1 - Wind power generation apparatus - Google Patents

Abstract

The present invention relates to a wind power generation device, and more particularly, a wind collecting device that collects the wind flowing around and simultaneously increases the flow rate of wind, and the power generation efficiency by increasing the rotational force of the central axis by combining the principle of the lever It relates to a wind power generator that can increase the.
The present invention relates to a wind power generator, comprising: a wind collecting device configured to collect winds at the same time as the blade is coupled to the outer circumference and rotates by wind; A central shaft on which the wind collecting device is installed; A reinforcing member connected between an inner surface of the wind collecting device and a central shaft; And a propeller coupled to the reinforcement member.

Description

Wind power generators

The present invention relates to a wind power generation device, and more particularly, a wind collecting device that collects the wind flowing around and simultaneously increases the flow rate of wind, and the power generation efficiency by increasing the rotational force of the central axis by combining the principle of the lever It relates to a wind power generator that can increase the.

In general, wind power is a pollution-free energy source in a natural state, which is the most economical energy source among alternative energy sources. Currently, wind power generation using such wind power converts the power of the wind into the rotational force. It is a technology that directly supplies power generated by converting to power system or consumer. If such wind power is used, the land use efficiency can be improved by utilizing sites such as mountains, coastal islands, and embankments.

Meanwhile, the wind power generator refers to a device that converts wind energy into mechanical energy using various types of windmills (propellers) and drives power generators to obtain electric power.

Wind power generation using this wind power generator is powered by wind, which is infinitely clean energy, and thus has no pollution such as heat pollution, air pollution, and radiation leakage due to heat generation, unlike conventional generation methods using fossil fuel or uranium. to be.

Korea also has a strong interest in wind power generation systems in order to cope with changes in the international environment such as the World Climate Change Convention, rising oil prices, and realistic problems that depend on imports for 96% of domestic energy use. In addition, the introduction of wind power generation systems has recently increased dramatically because the structure or installation is simple, so that it is easy to operate and manage, and unmanned and automated operation is possible.

However, the conventional wind power generator can theoretically convert only about 60% of the kinetic energy into electrical energy, which can only be used as electrical energy in consideration of mechanical friction and generator efficiency. There is a problem that the amount of power generation is smaller than the size of the facility.

As a conventional technology for solving this problem, Korean Patent Publication No. 10-654246 discloses a windmill for a wind power generator, the main configuration of which is provided with an external wind blower having a plurality of external wind plates installed at intervals on the outer circumferential surface of the housing. The outer wind passage formed in the outer wind member is composed of an inner wind member including a plurality of inner wind passages formed spirally on the upper and lower sides of the outer wind member to discharge the wind acting on the outer wind plate; Wind is introduced through the discharge to the inner wind passage formed in the inner wind member is characterized in that the power generation efficiency is improved by generating a rotational force to increase the rotational force of the windmill.

However, the configuration as described above is difficult to manufacture because the shape is complex, and simply increases the rotational force of the windmill, so there is a disadvantage in that the effect of improving the power generation efficiency is insufficient.

In order to solve such a problem, the applicant has applied for a wind power generator having a rotating wind turbine in 2007, as disclosed in Korean Patent Publication No. 10-0818161, which is shown in FIG. As shown, there is an advantage to increase the rotational force of the central shaft by installing a wind blower that is rotated by the wind on the front of the propeller, but because the rotational force of the propeller and the rotational force of the wind blower are acting separately, it does not achieve greater efficiency. There was a disadvantage.

The present invention has been made in order to solve the above problems, an object of the present invention is to install the propeller connected to the inner rear of the wind collecting device to be rotated by the wind, the rotational force of the wind collecting device and the rotational force of the propeller to act integrally It is to provide a wind power generator that can increase the rotational force of the central axis by allowing the axis to rotate.

In addition, the present invention is to provide a wind power generator that can increase the power generation efficiency by installing the propeller as far away from the central axis as possible by the effect of the wind collecting device can be added to the effect by the wind collecting device. have.

The present invention for achieving the above object,

A wind power generator, comprising: a wind turbine coupled to an outer periphery and configured to collect surrounding winds while rotating by wind; A central shaft on which the wind collecting device is installed; A reinforcing member connected between an inner surface of the wind collecting device and a central shaft; And a propeller coupled to the reinforcement member.

At this time, the propeller is characterized in that it is installed on one side edge of the reinforcing member.

In addition, the propeller is characterized in that coupled to surround the reinforcing member.

And, the number of propellers coupled to the reinforcing member is characterized in that from 8 to 12.

In addition, the wind collecting device is characterized in that it further comprises a support for fixing to the ground and the coupling means for rotatably coupling the central axis to the support.

According to the present invention, by connecting the propeller to the inner rear of the wind blowing device to be rotated by the wind so that the rotational force of the wind blowing device and the rotational force of the propeller to act as a unit to rotate the central axis can not only increase the rotational force of the central axis In addition, by installing the propeller as far away from the central axis as possible so that the effect of the principle of the lever can be added to the effect of the wind collecting device has an excellent effect to increase the power generation efficiency in a simple configuration.

1 is a perspective view showing a wind power generator according to the present invention.
Figure 2 is an exploded perspective view showing a wind power generator according to the present invention.
Figure 3 is a side view showing a wind power generator according to the present invention.
Figure 4 is a side view showing another embodiment of a wind power generator according to the present invention.
5 is a perspective view showing a coupling relationship between the reinforcing member and the propeller of the present invention shown in FIG.
Figure 6 is a perspective view showing a wind power generator having a conventional wind collecting device.

Hereinafter, preferred embodiments of the wind power generator according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a wind turbine according to the present invention, Figure 2 is an exploded perspective view showing a wind turbine according to the present invention, Figure 3 is a side view showing a wind turbine according to the invention, Figure 4 Side view showing another embodiment of the wind power generator according to the invention, Figure 5 is a perspective view showing a coupling relationship between the reinforcing member and the propeller of the present invention shown in FIG.

The present invention can increase the power generation efficiency by increasing the rotational force of the central shaft 120 by combining the wind collecting device 110 and the lever principle to increase the wind flow speed at the same time to collect the wind flowing around the surroundings. Regarding the wind power generator 100 so that, as shown in Figures 1 and 2, the configuration includes a wind collecting device 110, a central shaft 120, a reinforcing member 130 and a propeller 140 large. It is configured by.

In more detail, the wind collecting device 110 is configured to collect the wind flowing in the periphery, and serves to add a rotational force of the propeller 140 installed inside, and is fitted to the central shaft 120. A coupling ring 122 is installed at the center portion to be coupled, and a plurality of reinforcement members 130 are formed at the outer circumferential surface of the coupling ring 122 to be coupled to the inner circumferential surface of the wind collecting device 110.

That is, the wind collecting device 110 is formed so that the front portion is wider and the inner diameter becomes narrower toward the rear, so as to increase the flow rate of the wind passing through the wind collecting device 110, the propeller ( It is possible to improve the rotation speed of 140).

At this time, a plurality of wings 112 are coupled to the front portion of the wind collecting device 110, that is, the outer periphery of the inlet portion where the wind enters, and the wings 112 serve to rotate the wind collecting device 110 by the wind. It is coupled to the wind collecting device 110 to be detachable by using a fastening means such as a bolt.

Therefore, the wind collecting device 110 increases the amount of wind for rotating the propeller 140 to be described later to collect the wind flowing through the surrounding and at the same time the inner diameter toward the rear (outlet) from the front (inlet) Is formed to be narrower to increase the rotational speed of the propeller 140 by increasing the flow rate of the wind passing through the wind collector 110, a plurality of wings 112 in the outer periphery of the wind collector 110 itself. By installing the wind collecting device 110 itself to rotate to maximize the rotational force to significantly increase the power generation efficiency.

Next, the central shaft 120 is inserted and coupled to the central portion of the wind collecting device 110 to serve to transmit the rotational force of the wind collecting device 110 and the propeller 140 to the power generator (not shown), the central axis ( One end of the 120 is connected to the support 150 to be described later to be installed so that the wind collecting device 110 is fixed to the ground.

In addition, the reinforcing member 130 is radially connected between the central shaft 120 and the inner surface of the wind collecting device 110 to transmit the rotational force of the wind collecting device 110 to the central shaft 120. By doing so, the reinforcing member 130 is coupled to the propeller 140 for increasing the rotational force of the central shaft (120).

That is, in the related art, by installing a wind collecting device 110 that is rotated by wind on the front of the propeller 140, the rotational force of the propeller 140 and the rotational force of the wind collecting device 110 are acted separately, so that power generation efficiency is reduced. Compared with the disadvantages, in the present invention, the propeller 140 and the wind collecting device 110 are integrally formed to enhance the rotational force of the central shaft 120, thereby improving power generation efficiency.

At this time, the reinforcing member 130 is formed inside the rear portion of the wind blowing device 110 so that the rotational force of the propeller 140 can be more strongly applied. That is, as described above, the wind flowing through the inside of the wind collecting device 110 is a flow rate is gradually increased by the shape of the wind collecting device 110 is formed in a wide front portion and a narrow rear portion, accordingly propeller 140 Is formed on the rear of the wind collecting device 110 is to be rotated by the increased flow rate is to increase the rotation speed.

In addition, the propeller 140 is installed at a position spaced apart from the central axis 120 as far as possible from the edge of one side of the reinforcing member 130, that is, the rear wind blowing device 110, the reason for the propeller ( This is to maximize the force applied to the central axis 120 by the rotation of the 140. That is, as the propeller 140 is installed farther from the central axis 120 according to the principle of the lever, the force applied to the central axis 120 becomes larger, so that the propeller 140 may be installed within the range from which the propeller 140 may be installed. Install as far apart as possible.

On the other hand, the propeller 140, as shown in Figure 5, may be coupled to surround the reinforcing member 130, which is to be able to enhance the rotational force transmitted to the central axis by the rotation of the propeller 140 For sake. That is, one end of the propeller 140 is bent to surround the reinforcing member 130, and the end of the bent portion is coupled to the lower surface of the reinforcing member 130 by welding to rotate the propeller 140 When the force acting on the reinforcement member 130 becomes stronger, it is possible to reinforce the rotational force transmitted to the central axis 120.

In addition, the reinforcement member 130 and the propeller 140 coupled to the reinforcement member 130 are installed between the central shaft 120 and the inner surface of the wind collecting device 110 is that 8 to 12 are installed. It is preferable, because the propeller 140 is less than 8 is installed, it is difficult to obtain the desired rotational force, if more than 12 is installed because the weight goes out a lot because the rotational efficiency is lowered.

Next, a support 150 is installed to fix the wind collecting device 110 to the ground. The support 150 is combined with a central shaft 120 on which the wind collecting device 110 is installed. 110) to be firmly installed on the ground to support.

At this time, the upper portion of the support 150 is provided with a coupling means 160 for rotatably coupling the central axis 120 to the support, the coupling means 160 as shown in Figure 1 and 2 , A fixing plate 162 installed on the upper portion of the support 150 by a fastening means such as a bolt, and an earth bearing 164 installed on the fixing plate 162 to which the central shaft 120 is fitted. The earth bearing 164 supports the central axis 120 that rotates at high speed, prevents vibration, and has an oil supply mechanism (not shown) in itself to minimize the reduction of rotational force due to friction. The effect of maintaining a stable performance for a long time, it is configured to firmly support the central axis 120 by installing two to be spaced apart a predetermined distance on the upper portion of the fixed plate 162.

In addition, as shown in FIG. 4, the coupling hole 152 is formed on the support 150, and the central shaft 120 is fitted into the coupling hole 152 to support the wind collecting device 110. In this case, a bearing 166 is inserted into and coupled to the inside of the coupling hole 152 such that the central shaft 120 is inserted into and coupled to the bearing 166 to rotate the wind collecting device 110 and the propeller 140. The rotation of the central shaft 120 is configured to be made smoothly.

And, a configuration for generating electricity by using the rotational force of the central shaft 120 by the rotation of the wind collecting device 110 and the propeller 140 is a technique that is currently used in general, and is not intended to claim in the present invention Detailed description thereof will be omitted.

Therefore, according to the wind power generator 100 according to the present invention configured as described above, by connecting the propeller 140 to the inner rear of the wind collecting device 110 rotated by the wind, the rotational force and propeller of the wind collecting device 110 As the rotational force of the 140 acts integrally to rotate the central axis 120, the rotational force of the central axis 120 may be increased, and the propeller 140 may be spaced apart from the central axis 120 as far as possible. It is possible to add the effect of the principle of the lever to the effect of the wind-up device 110 to increase the power generation efficiency to have various advantages.

Although the above-described embodiments have been described with respect to the most preferred embodiments of the present invention, it is apparent to those skilled in the art that the present invention is not limited to the above embodiments, and various modifications can be made without departing from the technical spirit of the present invention. will be.

The present invention relates to a wind power generation device, and more particularly, a wind collecting device that collects the wind flowing in the surroundings and increases the flow rate of the wind at the same time, the power generation efficiency by increasing the rotational force of the central rod by combining the principle of the lever It relates to a wind power generator that can increase the.

100: wind power generator 110: wind collecting device
112: wing 120: central axis
122: coupling ring 130: reinforcing member
140: propeller 150: support
152: coupling hole 160: coupling means
162: fixed plate 164: earth bearing
166: Bearing

Claims (5)

In the wind power generator,
A wind collecting device configured to collect the surrounding winds at the same time as the wings are coupled to the outer periphery to rotate by the wind;
A central shaft on which the wind collecting device is installed;
A reinforcing member connected between an inner surface of the wind collecting device and a central shaft;
It is configured to include; a propeller coupled to the reinforcing member,
The propeller is coupled to the one side edge of the reinforcing member to be wrapped to surround the reinforcing member.
delete delete The method of claim 1,
The number of propellers coupled to the reinforcing member is a wind power generator, characterized in that 8 to 12.
The method of claim 1,
A support for fixing the wind collecting device to the ground;
Wind turbines, characterized in that further comprises a coupling means for rotatably coupling the central axis to the support.

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