KR101047504B1 - Wind generators using compressed air - Google Patents

Abstract

The present invention relates to a wind power generator for generating power by using wind, and in particular, by rotating a rotary blade to the wind to drive the compressor to form compressed air, the compressed air is stored in the compressed air storage tank, Compressed air storage tank is installed in a stable structure is used as the basis of the wind power generator, and relates to a wind power generator using compressed air made easy to transport and install.

The wind power generator using the compressed air of the present invention, the compressed air for storing the compressed air generated from the compressor is a wind-compressed air generator having a rotary blade and a compressor connected to the rotary blade to generate compressed air. Installed above the storage tank,

The compressed air storage tank,

Cylindrical central compressed air storage tank having both ends blocked by a spherical cap, and one end installed on the side of the central compressed air storage tank is blocked by a spherical cap, and the other end is a side compressed air in which a connection plate for fastening is formed. Consisting of a storage tank,

The central compressed air storage tank is provided with a pair of fastening fasteners corresponding to the outer surface in the longitudinal direction, and the connection plate for fastening the side compressed air storage tank is coupled to the fastening fastener so as to be perpendicular to the central compressed air storage tank. Side compressed air storage tank is installed.

Compressed air storage tank, wind power generator, rotary vane, compressor

Description

The air compressors use of wind

The present invention drives the rotary blades by using the wind, by operating the compressor by the drive of the rotary blades to store the compressed air in a storage tank and then to the wind generator using the compressed air to use a variety of the stored compressed air It is about.

In general, electricity is a thermal power plant using Mars fuel, a hydro power plant using water, and a nuclear power plant using nuclear reactors. Recently, tidal power plants using a tidal wave and wind power generation using wind have been developed and provided.

The thermal power plant is to obtain the electrical energy by burning the Mars fuel, there is a problem of global warming and exhaustion of Mars fuel by exhausting a large amount of carbon dioxide during the combustion of the Mars fuel, the hydro power plant is a strong The installation place is limited, the installation cost is high, and recently, there is a disadvantage of receiving strong protest from environmental groups due to the problem of changing the ecosystem, and the nuclear power plant has a risk of radiation, There is a disadvantage that the installation is not easy because of the cost and backlash against local residents.

The tidal power plant has to be installed in the place where the difference between the tidal power only occurs, the installation cost is high, there is a disadvantage that causes the deformation of the ecosystem and the shore by changing the algae during installation.

Recently, various techniques for energy acquisition using wind have been developed, and the present invention also relates to a device for obtaining pressure air with a compressor that rotates a rotary blade using wind and is connected to the rotary blade to operate. will be.

The present invention has been invented to solve these disadvantages, the present invention is to generate compressed air by using the intermittent or periodically blowing wind that does not continuously blow into the wind without intermittently blowing the continuous power generation The purpose of the present invention is to provide a wind power generator using compressed air to store power in a compressed air storage tank and drive air motors or drive generators to generate power.

The wind power generator using the compressed air is such that the storage tank for storing the compressed air is made to support the wind compressed air generator having a rotary blade and a compressor installed in connection with the rotary blade to generate compressed air,

The compressed air storage tank is to be formed in any one form of 'c' or '+' or 'ㅏ' in order to have a stable structure, the purpose is to provide a structure that is easy to move for installation. .

Wind power generator using the compressed air of the present invention to achieve the above object, the air of the compressed air generated by the wind compressor air generator having a rotary blade, a compressor installed in connection with the rotary blade to generate compressed air from the compressor Is installed on the upper side of the compressed air storage tank for storing the

The compressed air storage tank,

Cylindrical central compressed air storage tank having both ends blocked by a spherical cap, and one end installed on the side of the central compressed air storage tank is blocked by a spherical cap, and the other end is a side compressed air in which a connection plate for fastening is formed. Consisting of a storage tank,

The central compressed air storage tank is provided with a pair of fastening fasteners corresponding to the outer surface in the longitudinal direction, and the connection plate for fastening the side compressed air storage tank is coupled to the fastening fastener so as to be perpendicular to the central compressed air storage tank. The side compressed air storage tank is installed in the direction.

The compressed air storage tank is formed of any one of the letter 'c', '+' or 'ㅏ'.

The connection plate for fastening is formed to be in close contact with the outer surface of the central compressed air storage tank.

The present invention made as described above is the compressed air storage tank consisting of the central compressed air storage tank and the side compressed air storage tank is made of any one of the letter 'c' or '+' or 'ㅏ' character It can be easily installed in a stable structure on the roof.

In addition, the compressed air storage tank is composed of a central compressed air storage tank and a side compressed air storage tank, separated into a pair of fastening fasteners formed in the central compressed air storage tank and a coupling connection plate formed in the side compressed air storage tank. By doing so, it is possible to eliminate the inconvenience of moving by being separated and moved to the central compressed air storage tank and the side compressed air storage tank during the movement.

In other words, in order to achieve a stable structure of the wind compressed air generator installed in the upper portion, the compressed air storage tank changes depending on the size of the wind compressed air generator, but its size is formed to a relatively large size. If the compressed air storage tank is formed of any one of the letter 'c' or '+' or 'ㅏ' character will have a great inconvenience due to the movement. Therefore, when the compressed air storage tank is separated into the central compressed air storage tank and the side compressed air storage tank can be moved very easily.

In addition, the compressed air tank formed in a cylindrical shape is maintained in a structurally stable state because the central compressed air storage tank and the side compressed air storage tank are installed to cross each other.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 and 2, the wind power generator using the compressed air of the present invention, the wind compressed air generator 20 for generating compressed air by rotating the rotary blades using the wind, and the wind compressed air generator 20 It consists of a compressed air storage tank 10 for supporting and storing the generated compressed air.

Wind generators using such compressed air are usually installed on the roof of a building or on the ground (floor) at the intersection of rice fields and fields to generate compressed air to the wind compressed air generator 20 by wind, and to generate the compressed air. Air is stored in the compressed air storage tank 10, and the air stored in the compressed air storage tank 10 generates electric power by driving an air motor to produce electric power or supplies compressed air to farm equipment equipped with the air motor. It is used as a power source for operating farm equipment, or supplied to a hand tool using compressed air and used as a power source of the hand tool.

The wind compressed air generator 20 is a support for the support 21 is installed perpendicular to the ground as shown in Figure 1, a rotary support is installed on the top of the support 21 is rotated in the direction of the wind 23 is installed And a compressor 24 connected to the rotary blade 23 to generate compressed air by the rotation of the rotary blade 23.

That is, a compressor is used in place of a generator that generates electricity by the rotation of a rotary blade in a conventional wind turbine.

The wind compressor 20 is a rotary support 22 is rotated in accordance with the direction of the wind rotates the rotary blade 23 by the wind, the compressor 24 due to the rotation of the rotary blade 23 is compressed Air is generated and supplied to the compressed air storage tank 10 through the supply hose (25).

One or a plurality of the wind compressed air generators 20 are respectively provided in the compressed air storage tank 10 including the central compressed air storage tank 10a and the side compressed air storage tank 10b, which are installed as shown in the accompanying drawings. Is installed.

The compressed air storage tank (10) receives compressed air generated by the compressor (24) of the wind compressed air generator (20), stores compressed air, and is used as a base body (base). Is formed.

The compressed air storage tank 10 having the closed cylindrical shape has a cylindrical compressed air storage tank 10a having both ends closed by a spherical cap, and the central compressed air storage tank as shown in FIGS. 5 and 6. One end of which is installed on the side of the (10a) is blocked by a spherical cap, the other end is composed of a side compressed air storage tank (10b) formed with a connecting plate 11 for fastening, as shown in Figure 2 '+' As shown in Figure 3 '등' or as shown in Figure 4 'c' is formed in various forms.

Usually, the '+' or 'ㅏ' shape is suitable for the road of intersection as shown in FIGS. 2 and 3, and the 'c' shape is suitable for the roof of a building as shown in FIG. 4.

In general, the compressed air storage tank 10 having a cylindrical shape is directly seated on the ground (bottom surface) or mounted on a pedestal 12 installed on the ground (bottom surface), and the wind compressed air generator 20 is disposed on the upper portion. ) Is installed, the wind compressed air generator 20 due to the wind should try to rotate the compressed air storage tank 10 by applying a force (moment) to the compressed air storage tank 10, a lot of effort should be made. .

However, the compressed air storage tank 10 is composed of a central compressed air storage tank 10a and a side compressed air storage tank 10b in a direction orthogonal to the side surface of the central compressed air storage tank 10a. Or in the case of forming any one of the '+' or 'ㅏ' character can be installed more easily in a stable structure.

Referring to the attached air storage tank in detail with reference to the accompanying drawings, the compressed air storage tank 10 as shown in Figures 5 and 6, the central compressed air storage tank (10a) and the central compressed air storage tank (10a) Composed of side compressed air storage tank (10b) is installed in the direction orthogonal to the side of),

The central compressed air storage tank (10a) and the side compressed air storage tank (10b) is a pair of fastening fasteners (31) formed corresponding to the outer surface of the compressed air storage tank (10a) in the longitudinal direction, and the side It is integrally formed by the coupling means 30 made of a flange portion 32 formed at the end of the connecting plate 11 for fastening formed on one side of the compressed air storage tank (10b). The fastening fastener 31 and the flange portion 32 are fastened by bolts and nuts or rivets as fastening means.

In this way, the central compressed air storage tank 10a and the side compressed air storage tank 10b which are integrally formed by the coupling means 30 enable on-site assembly.

The fastening connecting plate 11 is installed on the outer circumferential surface of the central compressed air storage tank 10a and is formed to correspond to the outer circumferential surface of the central compressed air storage tank 10a as shown in FIG. 5.

The fastening connecting plate 11 is formed so as to be attached to the outer peripheral surface of the central compressed air storage tank (10a) is installed so that the load acting on the connecting plate 11 for fastening the outer peripheral surface of the central compressed air storage tank (10a) It is possible to ensure safety by acting on.

The central compressed air storage tank (10a) and the side compressed air storage tank (10b) has a pressure valve (not shown), a pressure gauge (not shown), and the pressure air accommodated therein, respectively, for adjusting the pressure of the compressed air. A discharge port (not shown) for drawing out and using is provided.

As described above, the center compressed air storage tank 10a and the side compressed air storage tank 10b can be easily integrated in the field by the coupling means 30 formed of the fastener 31 and the flange portion 32 as described above. Since there is an advantage that the movement is easy to move by separating the center compressed air storage tank (10a) and the side compressed air storage tank (10b) during movement.

This ease of movement can be a great advantage when considering the skyrocketing domestic roads. That is, when the central compressed air storage tank (10a) and the side compressed air storage tank (10b) is formed integrally in the factory and moved, considering the conditions of the road, it is almost impossible to move. In addition, welding in the field is almost impossible considering the fact that the pressure tank is required to carry out the inspection and pressure test of the weld.

1 is a front view of a wind turbine using compressed air showing a preferred embodiment of the present invention.

Figure 2 is a plan view of a wind turbine using compressed air showing a preferred embodiment of the present invention.

Figure 3 is a plan view of a wind turbine using compressed air showing another embodiment of the present invention.

Figure 4 is a plan view of a wind turbine using compressed air showing another embodiment of the present invention.

5 is a partial cross-sectional view of a wind turbine using compressed air showing a preferred embodiment of the present invention.

6 is a partial perspective view of a wind turbine using compressed air showing a preferred embodiment of the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

10, 10a, 10b: pressure air storage tank

11: connection plate for fastening

20: wind compressed air generator

30: coupling means

31: fastener for fastening 32: flange

Claims (3)

A wind compressed air generator 20 having a rotary blade 23 and a compressor 24 connected to the rotary blade 23 to generate compressed air stores the compressed air generated from the compressor 24. Is installed on the upper side of the compressed air storage tank 10, The compressed air storage tank 10, Cylindrical central compressed air storage tank 10a having both ends blocked by a spherical cap, and one end provided on the side of the central compressed air storage tank 10a are blocked by a spherical cap, and the other end is fastened. Composed of a side compressed air storage tank (10b) formed with a connecting plate (11), The central compressed air storage tank 10a is provided with a pair of fastening fasteners 31 corresponding to the outer surface in the longitudinal direction, and fastening of the side compressed air storage tank 10b to the fastening fasteners 31. The wind generator using the compressed air, characterized in that the side connection air storage tank (10b) is installed in the orthogonal direction to the central compressed air storage tank (10a) is coupled to the connection plate (11). The method of claim 1, The compressed air storage tank 10 is a wind power generator using the compressed air, characterized in that formed in any one of the letter 'c' or '+' or 'ㅏ'. The method of claim 1, The fastening connecting plate (11) is a wind power generator using compressed air, characterized in that formed in close contact with the outer surface in the central compressed air storage tank (10a).

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