KR101811864B1 - Apparatus for generation using flow rate with wind speed - Google Patents

Abstract

The present invention relates to a power generating apparatus using a flow velocity and a wind speed which are installed on the roof of a river or a building and enable electric power to be stored by storing electricity generated and generated by the flow or wind, A plurality of impellers (110) and (120) rotated by the impeller; A rotating shaft 130 attached to the center of the impeller 110 (120) and rotated according to the rotation of the impeller 110 (120); A generator 140 connected to one side of the rotary shaft 130 to generate electric power by a rotational force transmitted from the rotary shaft 130; A battery 150 for storing electricity generated in the generator 140; An illumination device 160 that emits light in accordance with electricity supplied from the generator 140 or the battery 150; A switching unit 180 for switching the power of the generator 140 and the battery 150 supplied to the lighting device 160; A plurality of sensor units 191 and 192 for sensing external brightness; A focusing member 210 configured to be narrowed from the outside to the inside so as to be able to be converged by the impeller 110 (120) when the flow rate or the wind speed is inputted; A rotating member 220 that flows through the focusing member 210 and rotates to facilitate discharge of a flow velocity or an air velocity passing through the impeller 110 or 120; A protective member 230 for protecting the generator 140 and the battery 150 from the external environment; The impeller 110 is configured to surround the impeller 110 between the focusing member 210 and the protection member 230 and is configured to have a cylindrical shape so as to concentrate the flow velocity and wind speed. An impeller protective member 240 for protecting the impeller 240; And the power generated by the generator 140 and the power stored in the battery 150 are selectively supplied to the lighting device 160 according to a preset time or an external brightness sensed by the plurality of sensor units 191 and 192 And a control unit 260 for controlling the supply of the power to the power source.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to electric power generation using a flow velocity and a wind speed, and more particularly, The present invention relates to a power generation apparatus using a flow velocity and a wind speed.

The generator converts the kinetic energy of the power source of the internal combustion engine into electrical energy, such as a gravity turbine, a water turbine in a dam, a steam turbine driven by heat generated from the combustion of fossil fuels or heat generated from fission. The basic principles of generator operation are the Enper Law and Faraday's law of induction.

The first practical generator was the Gram, which was produced by Geneva Theophilgram in France in the late 1860s. The generator uses the principle that the voltage is induced in the coil when the number of magnetic flux lines connected to the coil or magnetic flux changes.

There are three types of generators: (1) the coil stops moving, (2) the magnetic force lines passing through it move relatively, (2) the magnetic force lines change as the coils move, and (3) all the coils and magnets are stationary and the rigid body moves within the magnetic force lines.

In recent years, eco-friendly power generation devices such as wind power, flow rate, and solar power generation have attracted attention as such generators.

However, most of them focus on power generation using wind turbines, wind speeds, and solar generators, and various studies are underway to apply this technology to actual life.

Patent Document 1: Korean Patent Publication No. 10-2011-0091607 - Pipe type wind turbine generator Patent Document 2: Korean Patent Laid-Open No. 10-2004-00778252 - Wind Power and Fluid Flow Generation System Patent Document 3: Korean Patent Laid-Open No. 10-2009-0097089 - Patent Document 4: Korean Patent Laid-Open No. 10-2009-0079446 - Power Generation Device Using Wind Power

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems and disadvantages of the related art, and it is an object of the present invention to provide a method of manufacturing a battery, which is installed in a small amount of a river or a roof, And it is an object of the present invention to provide a power generating device using a flow rate and a wind speed which can be used in various places.

In order to achieve the above object, the present invention provides a power generation apparatus using a flow velocity and a wind speed, comprising: a plurality of impellers (110) (120) rotated by a flow velocity and a wind speed; A rotation shaft 130 attached to the center of the impeller 110 (120) and rotated according to the rotation of the impeller 110 (120); A generator 140 connected to one side of the rotary shaft 130 to generate electric power by a rotational force transmitted from the rotary shaft 130; A battery 150 for storing electricity generated by the generator 140; An illumination device 160 which emits light according to electricity supplied from the generator 140 or the battery 150; A switching unit 180 for switching the power of the generator 140 and the battery 150 supplied to the lighting device 160; A plurality of sensor units 191 and 192 for sensing external brightness; A focusing member 210 configured to be narrowed from the outside to the inside so as to be able to be converged by the impeller 110 (120) when the flow rate or the wind speed is inputted; A rotating member 220 that flows through the focusing member 210 and rotates to facilitate discharge of a flow velocity or an air velocity passing through the impeller 110 or 120; A protective member 230 for protecting the generator 140 and the battery 150 from the external environment; The impeller 110 is configured to surround the impeller 110 between the focusing member 210 and the protection member 230 and is configured to have a cylindrical shape so as to concentrate the flow velocity and wind speed. An impeller protective member 240 for protecting the impeller 240; The power generated by the generator 140 and the power stored in the battery 150 are selectively supplied to the illumination device 160 according to a preset time or an external brightness sensed by the plurality of sensor units 191 and 192 A control unit 260 for controlling the power supply to be supplied; Month, day, hour, and minute, and the power stored in the battery 150 is supplied to the lighting device 160 in a season or month, (180) and senses this through the plurality of sensor units (191) and (192) when the weather is cloudy, such as when it is raining, snowing, If the power charged in the battery 150 is not enough to illuminate the lighting device 160, the power of the generator 140 is supplied to the lighting device 160 through the switching part 180 And a control unit 260 for directly controlling the supply of the dots to the display unit 160. The outer surface of the dots is formed between the stepping legs in the form of bricks of the stepping legs, dot) processing The battery 150 and the illumination device 160 are installed in the inside of the generator 140 and the generator 150. The generator 140, the battery 150 and the illumination device 160 are installed inside the generator 140, And a protection net 250 that charges the battery 150 through the discharge port 140 and protects the impeller 110 and the rotary member 220 from waste that may flow in the flow velocity or wind speed .

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The present invention has the following effects.

First, it can operate regardless of the depth and the height of the building. Generally, electricity is generated and charged to the battery. Lighting of the generator installed between the stepping stones using the electricity and the generator stored in the battery LED), so you can safely use stepping legs.

Secondly, a power generation device using flow velocity and wind speed can be directly installed and used in a place where a new stepping bridge is to be placed. In this case, the upper surface of the power generating device of the present invention can be safely used in the case of non-slip treatment.

Third, the generator can be used for ventilation facilities for wastewater around wastewater, sound supply to river walkway, playground, and building roof.

1 is a view for explaining the concept of a power generation apparatus using a flow velocity and a wind speed according to the present invention.
Fig. 2 is a block diagram of a power generation apparatus using the flow velocity and wind speed shown in Fig. 1. Fig.
Fig. 3 is a photograph showing the actual implementation of the power generation apparatus using the flow velocity and wind speed shown in Fig.
4 is a flowchart for explaining a power generation method using a power generation apparatus using a flow velocity and a wind speed according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In addition, although the term used in the present invention is selected as a general term that is widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, since the meaning is described in detail in the description of the relevant invention, It is to be understood that the present invention should be grasped as a meaning of a term that is not a name of the present invention. Further, in describing the embodiments, descriptions of technical contents which are well known in the technical field to which the present invention belongs and which are not directly related to the present invention will be omitted. This is for the sake of clarity of the present invention without omitting the unnecessary explanation.

FIG. 1 is a diagram for explaining the concept of a power generation device using a flow velocity and a wind speed according to the present invention, FIG. 2 is a block diagram of a power generation device using a flow velocity and a wind speed shown in FIG. 1, This is a real implementation of a power generation system using flow velocity and wind speed.

1 to 3, a power generator 100 using a flow velocity and a wind speed according to the present invention includes a plurality of impellers 110 and 120 rotated by a flow velocity and an air velocity, a plurality of impellers 110 and 120, And a generator 140 connected to one side of the rotary shaft 130 and generating electric power by a rotational force transmitted from the rotary shaft 130. The generator 130 is connected to one side of the rotary shaft 130 and rotates according to the rotation of the impeller 110 A battery 150 that stores electricity generated by the generator 140, an illumination device 160 that emits light in response to electricity supplied from the generator 140 or the battery 150, A switching unit 180 for switching the power source of the battery 150 and the generator 140 supplied to the lighting device 160 and a switching unit 180 for switching between a plurality of Sensor units 191 and 192, a power line 200 for supplying power to the illumination device 160, A condensing member 210 configured to be inwardly narrowed from the outside to be condensed by the impeller 110 and a flow rate passing through the impeller 110 and 120 through the condensing member 210, A protection member 230 for protecting the generator 140 and the battery 150 from the external environment, a focusing member 210, a protection member 230, An impeller protection member 240 configured to surround the impeller 110 and 120 and configured to concentrate the introduced flow velocity and wind speed and to protect the impeller 110 and 120, A protection net 250 for protecting the impeller 110 and the rotary member 220 from waste that may flow into the generator 140 and the power generated by the generator 140 and the power stored in the battery 150 According to the external brightness sensed by the first and second sensor units 191 and 192, It is configured to include a controller 260 for controlling so that the selectively supplying a value (160).

The control unit 260 of the power generation apparatus 100 using the flow velocity and the wind speed of the present invention stores a seasonal sunset and a sunrise time and has a built-in timer of year, month, day, hour and minute, The control unit 160 controls the switching unit 180 so that the power stored in the sensor unit 150 can be supplied to the illumination device 160 or the plurality of sensor units 2 sensor unit 191 (192)) to control the power supplied to the illumination device 160. [0050] To this end, a plurality of sensor units 191 and 192 and a control unit 260 constitute a transmission line for transmitting sensing data. When the power charged in the battery 150 is not sufficient to illuminate the illumination device 160, the power of the generator 140 is controlled to be directly supplied to the lighting device 160 through the switching unit 180 can do.

Although the first sensor unit 191 and the second sensor unit 192 are shown as two, a plurality of the sensor units 191 and 192 may be formed on the outer surface of the power generator 100.

The present invention has the problem that when the family moves along the river in the evening, the surroundings are too dark to cross the stepping bridge in the river. Since water flows through the river, it is possible to illuminate the light by using the flow rate and wind speed have. At this time, for example, the outer surface of the power generation apparatus 100 is formed of a single brick like a stepping leg, and a generator 140, a battery 150, and a lighting device 160 are installed in the brick, It can be constructed between stepping legs or directly in the form of stepping legs.

On the other hand, in the case of a direct stepping leg configuration, it is desirable to add a slip prevention structure to the outer side surface. At this time, it is also possible to perform dots treated with an urethane to prevent the surface from slipping, or to perform a transparent rubber or a silicone treatment.

The present invention can operate by wind as well as water, so that when the river or stream of water is dried, it can operate by wind speed, and the electricity generated during the day is stored. At night, It is possible to illuminate the illumination device 160 (e.g., LED) configured in the illumination device 100 and to pass the stepping bridge safely at night thanks to the illuminated device 160 that has been revealed.

In addition, when the power generation apparatus 100 of the present invention is installed on the roof, electricity generated by the wind is generated, and the generated electricity is stored in the capacitor and used to emit LEDs constituting the lighting apparatus 160 through stored electricity.

4 is a flowchart for explaining a power generation method using a power generation apparatus using a flow velocity and a wind speed according to the present invention.

As shown in FIG. 4, the lighting method using the flow velocity and the wind speed according to the present invention can be implemented by installing the power generation apparatus 100 using the flow velocity and the wind speed as shown in FIG. 1 to FIG. 3 as a conventional stepping bridge, A stepping stone bridge, or a generator on the rooftop of the building, and the generator is driven by the velocity of the wind and the wind speed (S100).

Then, the battery is charged with the power generated from the generator (S110).

When an event occurs (S120), the controller controls the switching unit for supplying power to the lighting apparatus according to whether the set time is equal to or less than a preset brightness (S130). At this time, if the power of the battery is enough to supply to the lighting apparatus, it is possible to supply power to the battery, and otherwise, to directly supply power to the generator.

This operation is continued until a new event occurs (S140).

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the examples disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: power generation device 110, 120: impeller
130: rotation shaft 140: generator
150: Battery 160: Lighting device
170: translucent member 180:
191, 192: sensor unit 200: power line
210: focusing member 220: rotating member
230: protective member 240: impeller protective member
250: Protection net 260:

Claims (3)

A plurality of impellers 110 and 120 rotated by a flow velocity and an air velocity;
A rotating shaft 130 attached to the center of the impeller 110 (120) and rotated according to the rotation of the impeller 110 (120);
A generator 140 connected to one side of the rotary shaft 130 to generate electric power by a rotational force transmitted from the rotary shaft 130;
A battery 150 for storing electricity generated by the generator 140;
An illumination device 160 which emits light according to electricity supplied from the generator 140 or the battery 150;
A switching unit 180 for switching the power of the generator 140 and the battery 150 supplied to the lighting device 160;
A plurality of sensor units 191 and 192 for sensing external brightness;
A focusing member 210 configured to be narrowed from the outside to the inside so as to be able to be converged by the impeller 110 (120) when the flow rate or the wind speed is inputted;
A rotating member 220 that flows through the focusing member 210 and rotates to facilitate discharge of a flow velocity or an air velocity passing through the impeller 110 or 120;
A protective member 230 for protecting the generator 140 and the battery 150 from the external environment;
The impeller 110 is configured to surround the impeller 110 between the focusing member 210 and the protection member 230 and is configured to have a cylindrical shape so as to concentrate the flow velocity and wind speed. An impeller protective member 240 for protecting the impeller 240; And
Month, day, hour, and minute, and the power stored in the battery 150 is supplied to the lighting device 160 in a season or month, (180) and senses this through the plurality of sensor units (191) and (192) when the weather is cloudy, such as when it is raining, snowing, If the power charged in the battery 150 is not enough to illuminate the lighting device 160, the power of the generator 140 is supplied to the lighting device 160 through the switching part 180 And a control unit (260) for directly controlling the supply of power to the power source
The outer surface of which is constituted by stepping bridges in the form of bricks of the stepping legs or directly made of stepping legs and is subjected to a dot treatment or a transparent rubber or silicone treatment for preventing slippage, A battery 150 and a lighting device 160 are installed to charge the battery 150 through the generator 140 according to the flow rate of the stream or the water of the stream or the wind speed when the water is dried, And a protection net (250) for protecting the impeller (110) (120) and the rotary member (220) from waste that can flow in the wind direction or the wind speed. delete delete

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