KR101038955B1 - The air compressors use of wind - Google Patents

Abstract

The present invention relates to a wind compressed air generator that is installed on the roof of the building to obtain the pressure air by the wind, and more specifically, a pressure storage tank for storing the compressed air on the roof of the building without the use of anchor bolts. And installing a wind compressed air generator in the base pressure storage tank, wherein the wind compressed air generator obtains compressed air by wind, and the obtained compressed air is generated to store the compressed air in the base pressure storage tank. Relates to a device.

Such a wind compressed air generating device includes a fixed pad fixed to a rooftop floor of a building, a compression fastener attached to the fixed pad by removing the internal air to a vacuum state, and an anti-vibration action installed on the compressed fastener. Fixing device made of a fastener capable of height adjustment; A connection base fixed by the fixing device; A pressure storage tank for storing the compressed air installed in the connection base; A support installed in the base pressure storage tank; The wind support is rotated in a direction in which the wind blows, and consists of a compressed air generator having an air compressor for generating compressed air by the rotation of the rotary blades rotated by the wind.

Wind power, wind, compressed air, base pressure storage tank, building, rooftop

Description

The air compressors use of wind}

The present invention relates to a wind compressed air generator that is installed on the roof of the building to obtain the pressure air by the wind, and more specifically, a pressure storage tank for storing the compressed air on the roof of the building without the use of anchor bolts. And installing a wind compressed air generator in the base pressure storage tank, wherein the wind compressed air generator obtains compressed air by wind, and the obtained compressed air is generated to store the compressed air in the base pressure storage tank. Relates to a device.

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 the Mars fuel by exhausting a large amount of carbon dioxide during the combustion of the Mars fuel, the hydro power plant is a strong There is a disadvantage in that the installation place is limited, and the nuclear power plant has a disadvantage in that it is not easy to install because there is a danger of radiation and there are many costs and repulsion against local residents.

The tidal power plant should be installed in a place where the difference between tides occurs, and there is a disadvantage in that the algae change during installation to cause the deformation of the ecosystem and the shore.

Recently, various techniques for obtaining energy using wind have been developed, and the present invention also relates to an apparatus for acquiring pressure air using wind.

Conventionally, when installing on the roof of a building in order to obtain energy by using wind, an anchor bolt is usually installed on the bottom surface of the building to install a support, and a generator having a rotary blade is installed on the support.

Thus, by installing the support anchored by anchoring the anchor bolt on the roof of the building there is a disadvantage in that the impact on the building when the anchor bolt is installed to pose a problem to the safety of the building.

The present invention invented to solve the above problems, but installed on the roof of the building, can be installed without installing an anchor bolt on the floor of the roof, an object of the present invention is to provide a compressed air generator for storing wind compressed air. .

Wind compressed air generating device of the present invention to achieve the above object,

A fixed pad fixed to the rooftop of the building, a fixed fastener attached to the fixed pad by removing the internal air to be in a vacuum state, and a fastener capable of adjusting the vibration and height control installed on the top of the fixed fastener. An apparatus;

A connection base fixed by the fixing device;

A pressure storage tank for storing compressed air installed in the connection support and serving as a base;

A support installed in the base pressure storage tank;

The support is rotated in the direction of the wind blowing, it is configured to include a wind compressed air generator having an air compressor for generating compressed air by the rotation of the rotary blades to receive the wind.

The base pressure storage tank is provided with a plurality of supports, and each support is installed a wind compressed air generator, and the connection support is installed two pressure storage tanks for the base, the connection with the pressure storage tank for the base The pedestal is installed in the shape of '□' and the fixing device and the wind compressed air generator are installed in the corner part.

Wind compressed air generator of the present invention made as described above is characterized in that the structure can be installed on the roof of the building without pinching the anchor bolt, so that the impact generated during the installation of the anchor bolt is not applied to the building.

In addition, when the structure is installed in a building using a coupling member such as an anchor bolt, the concentrated load may act on the coupling member portion, which may affect the safety of the building. However, the fixing pad is fixed to the roof top of the building. There is an effect that can eliminate this concentrated load. In other words, the area of the fixing pad is wide to prevent the concentrated load.

In addition, compressed air obtained and stored by wind can be used directly in the compressed air in a place using a large amount of compressed air, such as a car center, or can be converted to electricity by driving a generator using the compressed air.

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.

Wind compressed air generating device of the present invention is a fixing device for fixing to the rooftop floor 11 of the building 10, such as apartments, buildings, as shown in Figure 1 and 2, and the connection support 50 is installed in the fixing device ), The base pressure storage tank 60 is installed on the connection support 50, the support 70 is installed on the base pressure storage tank 60, and the wind blows to the support 70 Compressed wind generator 80 is installed to rotate in the direction and the storage tank 90 for receiving and storing the compressed air in the pressure storage tank 60 for the base is installed on the roof of the building 10 to the wind To obtain compressed air.

The fixing device is a fixing pad 20 which is fixedly attached with an adhesive as shown in FIG. 5, a pressing fixture 30 attached to the fixing pad 20 by removing the internal air to a vacuum state, and the pressing fixture 30. The fastener 40 is installed on the upper part, and the fastener 40 is composed of a dustproof hole 41 and a height adjusting hole 45.

The fixing pad 20 is made of a plate made of rubber or synthetic resin, and is fixedly attached to the rooftop surface 11 of the building 10 with an adhesive. The fixing pad 20 may be installed only in a portion where the pressing fixture 30 is installed as shown in FIG. 3, or may be integrally formed. Naturally, the larger the size (area) of the fixing pad 20 is, the higher the fixing force is.

The pressing fixture 30 is usually made of a metal material and is formed in the form of '∩' as shown in Figure 5, one side is formed with an air exhaust port (31). The pressing fixture 30 is attached to the pressing fixture 30 to the fixing pad 20 to form a vacuum state by removing the internal air with the air exhaust port (31).

The fastener 40 is installed between the crimping fixture 30 and the connection support 50, and to adjust the vibration and height, the fastener 40 is a dustproof hole 41 to the dustproof action as shown in FIG. ), And the height adjustment port 45 to adjust the height.

The connection support 50 is installed between the fixing device installed on the rooftop floor 11 of the building 10 and the pressure storage tank 60 for storing the compressed air, as shown in FIGS. 1 to 4. Connect the pressure storage tanks 60, 60 'for the two bases and secure them to the building with the fixing device.

The pressure storage tank 60 for the base stores the compressed air obtained by the wind compressed air generator 80, and serves as a base, as shown in Figures 2 and 3 usually two are connected to the connection support 50 The two base pressure storage tanks 60 and 60 'are installed together with the connection support 50 in the shape of' □ 'as shown in FIGS. 2 and 3.

2 and 3, the fixing device is installed at both ends of the connection support 50, so that the fixing device is installed at each corner portion of the '□', and the corner part of the building 10 as shown in FIG. Is installed on.

The support 70 is installed perpendicular to the pressure storage tank 60 for the base, the wind compressed air generator 80 is installed at the top. The support 70 is installed in plurality in the base pressure storage tank 60, as shown in Figure 1, are installed so that the height is different from each other.

The wind compressed air generator 80 is installed to rotate on the upper portion of the support 70 to rotate in the wind blowing direction.

The wind compressed air generator 80 is composed of a housing 82 having a rotary blade 81 and an air compressor 83 for generating compressed air by the rotation of the rotary blade 81, as shown in FIG. The compressed air generated by the air compressor 83 is supplied to the base pressure storage tank 60 through the air transfer pipe 84.

The storage tank 90 receives and stores compressed air stored in a plurality of base pressure storage tanks 60, and supplies compressed air in a more stable state to the user by the storage tank 90. Done.

The compressed air of the storage tank 90 may be directly converted to electrical energy using compressed air or by using a hydraulic motor and a generator.

Such a wind compressed air generator of the present invention is installed without an anchor bolt on the corner portion of the rooftop side of the building 10, the wind compressed air generator installed on the roof of the building 10 by the wind of the rotary blade 81 Compressed air is obtained in the air compressor 83 by rotation, and the obtained compressed air is moved to the air transfer pipe 84 and stored in the pressure storage tank 60 for the base.

The installation of the wind compressed air generator of the present invention will be described briefly.

The fixing pad 20 is fixedly attached to the rooftop floor 11 of the building 10 by using an adhesive, and the crimp fixture 30 is placed on the fixing pad 20 fixedly attached to the rooftop floor 11. To remove the internal air through the air vent 31 to fix the crimping fixture 30 on the fixing pad (20).

Install the fastener (40) consisting of the dustproof opening 41 and the height adjustment (45) to the crimping fixture 30, using the fastener 40 for the base installed in the lower connection base 50 Install the pressure storage tank (60).

The compressed air generator 80 is installed on an upper portion of the support 70 installed in the base pressure storage tank 60.

1 is a front view of a wind compressed air generating device showing an embodiment of the present invention.

Figure 2 is a plan view of a state in which the wind compressed air generator showing an embodiment of the present invention is installed in a building.

3 is a plan view of a wind compressed air generator showing an embodiment of the present invention.

Figure 4 is a side view of a wind compressed air generator showing an embodiment of the present invention.

FIG. 5 is a detailed view of portion A of FIG. 1; FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

10: building 20: fixed pad

30: crimping fixture 40: fastener

41: dustproof port 45: height adjustment

50: connecting base 60: pressure storage tank for the base

70: support 80: wind compressed air generator

Claims (3)

A fixing pad 20 fixed to the rooftop surface of the building, a pressing fixture 30 attached to the fixing pad 20 by removing the internal air to a vacuum state, and an upper portion of the pressing fixture 30. Fixing device consisting of a fastener (40) capable of being dustproof and height adjustment is performed; A connection pedestal 50 fixed to the fixing device; A pressure storage tank 60 for storing compressed air installed in the connection support 50 and serving as a base; A support (70) installed in the base pressure storage tank (60); Rotation in the direction of the wind blows on the support 70, and includes a wind compressed air generator 80 having an air compressor (83) for generating compressed air by the rotation of the rotary blade 81 that rotates in response to the wind. Wind compressed air generator, characterized in that. The method of claim 1, The base pressure storage tank 60 is provided with a plurality of supports (70, 70 '), each of the support (70, 70') is provided with a wind compressed air generator (80, 80 '), The compressed air generator, characterized in that the two base pressure storage tanks (60, 60 ') are connected to the connection support (50). 3. The method of claim 2, The base pressure storage tank (60, 60 ') and the connection support (50) is a compressed air generator, characterized in that installed in the' □ 'shape.

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