KR20160014342A - Electric power generating system using moving type water mill - Google Patents

Abstract

The present invention provides a power generation system using a movable water wheel which has a simple structure to reduce a size and is suitable for industrial or household purposes since a user can move the power generation system to a desired location. The power generation system using a movable water wheel comprises: a frame unit forming an outer frame; a water tank installed on the inside of the frame unit to store water; a water wheel installed on a water wheel shaft installed on an upper portion of the water tank and provided with a plurality of buckets disposed on an outer circumferential surface thereof to be rotated by dropping water thereon; a water supply means installed in the water tank to supply water to the water wheel; a pulley means installed on one side of the water wheel and linked to the water wheel to be rotated; a generator connected to the pulley means and linked to pulley rotation to generate power; and a transport means disposed on the lower end of the frame unit to transport the power generation system to a desired location.

Description

[0001] The present invention relates to a power generation system using a mobile aberration,

The present invention relates to a power generation system using a water turbine, and more particularly, to a power generation system using a water turbine to generate electric power by using a rotational force of a water turbine rotated by a dropping force of water, And a power generation system using mobile aberration.

Electricity in modern society is an essential element for sustaining society. It is not an exaggeration to say that living without electricity is very important factor in modern society.

Conventional electric power generation types include electric power generation using fossil fuels such as petroleum and coal, tidal power using tide, ebb and flow, wind power using wind, hydroelectric power installed in dams, Solar power generation using nuclear power, and nuclear power generation.

However, thermal power generation has a problem that alternative materials are required because of limited reserves of petroleum and coal. In addition, tidal power generation, solar power generation, wind power generation, hydroelectric power generation, etc., There is a problem that the time for development can be limited depending on weather conditions. In the case of nuclear power generation, there is a problem such that a large facility cost and management cost are required, and when the management is neglected, there is a danger of radioactive leakage and difficulty in disposing of nuclear waste.

In addition, a conventional aberration-based generator is mainly driven by a water turbine, which is rotated by the weight of the water in a bucket of an aberration, or rotated by the impact of the impact force of the fall by using a high drop.

In this case, the water contained in the bucket of the aberration is poured before reaching the ground, resulting in a loss of energy and lowering the power generation efficiency. When the aberration is rotated at a high speed, the water contained in the bucket bounces to the outside, Thereby causing an electric shock accident.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a power generation system which can be miniaturized and can be moved to a desired position, The present invention provides a power generation system using a mobile aberration suitable for a vehicle.

Another object of the present invention is to provide a power generation system using a mobile aberration capable of preventing an electric shock accident from occurring in addition to minimizing energy loss by preventing water contained in a bucket of an aberration from splashing out .

In accordance with one aspect of the present invention, there is provided a water tank including a frame part constituting an outer frame, a water tank provided inside the frame part for storing water, and a plurality of buckets disposed on the outer periphery of the water tank, A water supply means provided in the water tank for supplying water by the water turbine, a pulley means provided at one side of the water turbine and rotated to interlock with an aberration, And a conveying unit that is provided at a lower end of the frame unit and conveys the power generation system to a desired position.

In this case, the frame portion may include upper and lower frames constituting upper and lower ends, and a column frame for connecting the upper and lower frames.

The frame part may further include supporting frames provided at both side ends of the lower frame to support the water tub.

Further, both sides of the upper frame may further include a bearing block that supports the aberration axis and is rotatably coupled with the aberration.

The water supply means includes a first supply pipe installed in the water tank for supplying water to the aberration side, a first supply pump connected to the first supply pipe and supplying water to the first supply pipe, A second supply pipe installed to branch on one side to supply water to the first supply pipe side as needed and a second supply pump connected to the second supply pipe to supply water to the second supply pipe, .

Meanwhile, the water supply means may include a first control valve installed in the first supply pipe to adjust a flow rate to the first supply pipe, and a second control valve installed in the second supply pipe to adjust a flow rate of the water supplied into the first supply pipe through the second supply pipe. The second control valve may be further provided.

The pulley means includes a first pulley coupled to the aberration shaft to rotate in conjunction with the aberration, a second pulley rotated in association with the first pulley, and a second pulley coupled to the first pulley, A third pulley axially coupled to the second pulley and rotated in association with the second pulley, a fourth pulley coupled to the generator shaft and rotated in association with the third pulley, And a second belt for connecting the four pulleys.

Meanwhile, a water splash preventing guide may be provided on one side of the outer circumference of the water turbine to prevent the water of the bucket from splashing to the outside.

The generator may further include a battery connected to the generator for charging electricity generated from the generator.

And the moving means is characterized in that a plurality of casters provided under the frame portion are used.

Since the power generation system using the mobile aberration according to the present invention as described above is simple in structure of the power generation facility, there is no limit to the place or environment that can be installed, and the power generation system Can be provided.

 In addition, the portable power generation system using the mobile aberration according to the present invention is provided with a water splash preventive guide at one side of the aberration to prevent the falling water from splashing out, thereby minimizing energy loss, It is possible to provide an effect that can be prevented.

1 is a perspective view schematically showing a front view of a power generation system using a mobile aberration according to an embodiment of the present invention;
2 is a perspective view schematically showing a rear surface of a power generation system using a mobile aberration according to an embodiment of the present invention.
3 is a perspective view schematically illustrating the role of the water splash preventing guide according to the embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same components are denoted by the same reference symbols as possible in the accompanying drawings. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted.

FIG. 1 is a perspective view schematically showing a front view of a power generation system using a mobile aberration according to an embodiment of the present invention, FIG. 2 is a perspective view schematically showing a rear surface of a power generation system using a mobile aberration according to an embodiment of the present invention, 3 is a perspective view schematically showing the role of the water splash proof guide according to the embodiment of the present invention.

1 and 2, a power generation system using a mobile aberration of the present invention mainly includes a frame unit 100, a water tank 200, a water turbine 300, water supply means 500, A generator 600, a generator 700, and a transfer means 900. [

The frame unit 100 is provided to support aberrations 300 described below in addition to forming an outer frame of the power generation system and includes a lower frame 120, an upper frame 110, a lower frame 120, And a column frame (130) connecting the frame (110).

Further, the lower frame 120 may further include a support frame 140 for supporting the water tub 200 to be described later.

The water tank 200 is provided inside the frame, that is, on the support frame 140 and is provided to supply water to the water turbine 300.

The aberration 300 is installed on the aberration axis 310 installed on the water tub 200 and is rotatably installed by the drop of water supplied by the water supply means 500. A plurality of buckets 320 are installed on the outer circumference It has a shape like a spinning wheel.

At this time, the water dropped from each bucket 320 is collected again by the water tub 200 and then transferred to the upper portion of the water turbine 300 through the water supply means 500, thereby circulating the water.

The aberration axis 310 is installed on both sides of the upper frame 110. The aberration axis 310 is supported on both sides of the upper frame 110 and the bearing block 400 is coupled to the aberration 300, Can be installed.

 The water supply means 500 is provided in the water tank 200 to supply water to the water turbine 300. The water supply means 500 according to the embodiment of the present invention mainly includes a first supply pipe 510, A first feed pump 520, a second feed pipe 530, and a second feed pump 540.

One end of the first supply pipe 510 is connected to the first supply pump 520 and the other end of the first supply pipe 510 is installed on the upper side of the water turbine 300 to supply water to the water turbine 300 installed in the water tank 200. At this time, the first supply pump 520 is installed in the water tank 200 and serves to supply water to the first supply pipe 510.

The second supply pipe 530 may be branched to the first supply pipe 510 and may be connected to the second supply pump 540 to supply water to the first supply pipe 510. At this time, the second supply pump 540 is also installed inside the water tank 200 and serves to supply water to the second supply pipe 530.

The water supply means includes a first control valve 550 installed in the first supply pipe 510 for controlling a flow rate of the water flowing into the first pipe 510 and a second control valve 550 installed in the second pipe 530, The second control valve 560 may be further provided to regulate a flow rate of the refrigerant flowing into the first supply pipe 510 through the first control valve 530.

In order to increase the amount of water to increase the power of the generator 700, both the first control valve 550 and the second control valve 560 are opened to control the amount of water dropped to the aberration 300, The second control valve 560 is closed to reduce the amount of water flowing to the first supply pipe 510 to reduce the amount of water flowing to the first supply pipe 510 and conversely to lower the power of the generator 700, In order to make it possible.

Further, even when any one of the supply pumps is replaced or repaired, the remaining supply pump can be operated, so that water can be continuously supplied to the upper part of the auricle 300.

The pulley means 600 includes a first pulley 610 coupled to the aberration axis 310 to rotate in conjunction with the aberration 300, a second pulley 620 rotated in conjunction with the first pulley 610, A first belt 630 for connecting the first pulley 610 and the second pulley 620 and a third pulley 630 axially coupled to the second pulley 620 and rotated in conjunction with the second pulley 620, A fourth pulley 650 coupled to the shaft 710 of the generator 700 and rotated in conjunction with the third pulley 640 and a fourth pulley 650 coupled to the third pulley 640 and the fourth pulley 650, And a second belt 660 for the second belt 660.

The first pulley 610 is coupled to the second pulley 620 through the first belt 630 and the third pulley 640 coupled to the second pulley 620 is coupled to the second belt 660 The driving force transmitted to the first pulley 610 is transmitted to the fourth pulley 650 after passing through the second pulley 620 and the third pulley 640, Since the generator 700 is coupled to the shaft 710 in the fourth pool 650, the rotational driving force transmitted to the fourth pulley 650 is transmitted to the generator 700, And a constant power is produced from the increased rotational driving force.

 3, a power generation system using a mobile aberration according to an embodiment of the present invention includes a water splashing guide 800 for preventing splashing of water in each bucket 320 to the outside, May be further included.

The water splashing guide 800 may cause the water to fall outside the aberration 300 as the water drops when the water in the bucket 320 of the aberration 300 is dropped and rotated. In this case, in addition to causing energy loss, a failure and an electric shock accident may occur due to the water on the generator 700 installed on the outside, and this is provided in order to prevent this.

The conveying means 900 is provided to the lower frame 120 to convey the generator 700 including the aberration 300 to a desired position. The conveying means 900 according to the embodiment of the present invention includes the lower frame 120, A plurality of casters 910 provided on the lower side of the cabinet 120 are installed. That is, the power generation system is provided to move the power generation system to a desired position by using the caster 910, which is the transfer means 900, to produce electric power.

The battery 700 may further include a battery 1000 connected to the generator 700 to charge the electricity generated from the generator 700. That is, the battery 1000 is chargeable, and can be connected to the generator 700 to charge the electricity generated by the generator 700, and to provide commercial electricity such as a home or a factory.

Hereinafter, the operation of the power generation system using the mobile aberration will be described, and the present invention will be further detailed.

1 and 2, when electric current is supplied to each supply pump to operate the power generation system using the mobile aberration of the present invention, and each supply pump is operated, water in the water tank 200 is aberrated through each supply pipe (300) to rotate the aberration (300).

When the water of the bucket 320 is dropped while the aberration 300 is rotated, the water splash prevention guide 800 prevents the water from splashing outside.

At this time, the driving force corresponding to the rotation of the aberration 300 is transmitted to the first pulley 610 coupled to the airstream axis 310.

The driving force transmitted to the first pulley 610 is transmitted to the fourth pulley 650 through the second and third pulleys 620 and 640 while the generator 700 is transmitted to the fourth pulley 650 through the shaft 710, The driving force transmitted to the fourth pulley 650 is transferred to the generator 700 to produce a certain amount of power from the increased driving force transmitted from the generator 700. [

At this time, the electric power generated from the generator 700 is collected and stored in the battery 1000, and the electric power stored in the battery 1000 is provided to the electric power sales company so as to be utilized as part of the main electric power supplied from the electric power sales company. And can be used as a commercial electricity for use in a factory or the like.

Although the present invention has been described by way of examples, the present invention is not limited thereto, and modifications and variations are possible within the scope of the technical idea of the present invention.

100: frame part 110: lower frame
120: upper frame 130: column frame
140: Support frame 200:
300: aberration 310: aberration axis
320: bucket 400: bearing block
500: water supply means 510: first supply pipe
520: first supply pump 530: second supply pipe
540: second supply pump 550: first control valve
560: second control valve 600: pulley means
610: first pulley 620: second pulley
630: first belt 640: third pulley
650: Fourth pulley 660: Second belt
700: Generator 710: Axis
800: Water splash prevention guide 900: Feeding means
910: Caster 1000: Battery

Claims (10)

A frame part forming an outer frame;
A water tub installed inside the frame and storing water;
An aberrator provided on an aberration shaft provided on an upper portion of the water tank and provided with a plurality of buckets on an outer circumferential surface thereof,
A water supply means installed in the water tank for supplying water by the aberration;
A pulley means installed on one side of the aberration and rotated to interlock with the aberration;
A generator connected to the pulley means and generating power in conjunction with rotation of the pulley; And,
And a conveying unit provided at a lower end of the frame unit for conveying the power generation system to a desired position. The method according to claim 1,
The frame portion
An upper / lower frame constituting upper and lower ends; And
And a column frame for connecting the upper frame and the lower frame. 3. The method of claim 2,
The frame portion
And a support frame provided at both ends of the lower frame for supporting and supporting the water tub. 3. The method of claim 2,
Further comprising a bearing block mounted on both sides of the upper frame for supporting the aberration axis and rotatably coupled to the aberration. The method according to claim 1,
The water supply means
A first supply pipe installed in the water tank for supplying water to the aberration side;
A first supply pump connected to the first supply pipe to supply water to the first supply pipe;
A second supply pipe installed to branch to one side of the first supply pipe and supply water to the first supply pipe side if necessary; And,
And a second supply pump connected to the second supply pipe to supply water to the second supply pipe. 6. The method of claim 5,
The water supply means
A first control valve installed in the first supply pipe to adjust a flow rate of the flow to the first supply pipe, and a second control valve installed in the second supply pipe, The power generation system further comprising: The method according to claim 1,
The pulley means
A first pulley coupled to the aberrational axis to rotate in conjunction with the aberration;
A second pulley rotated in association with the first pulley;
A first belt for connecting the first pulley and the second pulley;
A third pulley axially coupled to the second pulley and rotated in association with the second pulley;
A fourth pulley coupled to the generator shaft and rotated in conjunction with the third pulley; And,
And a second belt for connecting the third pulley and the fourth pulley. The method according to claim 1,
Further comprising a water splash preventing guide for preventing water in the bucket from splashing to the outside on one side of the outer circumferential surface of the aberration. The method according to claim 1,
Wherein the generator further comprises a battery connected to the generator for charging electricity generated from the generator. The method according to claim 1,
Wherein the moving means is a plurality of casters installed below the frame portion.

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