KR101318735B1 - Apparatus for power generation using waterfall of reservoir water - Google Patents

Abstract

The present invention relates to a power generator using a low drop of water to be converted into mechanical power by using a drop or load according to the potential energy of the low water, the characteristic configuration of the present invention, the rotating shaft 12; A fixed part 14 fixed to the rotary shaft 12 in a cylindrical shape; And a power generator using a low drop of water having a rotary difference 10 consisting of a drip plate 18 is fixed in a radial arrangement at the surface position of the fixing portion 14 around the rotary shaft 12, A case having an inlet 30 and an outlet 28 through which water penetrates the upper side and the lower side, respectively, is formed in a cylindrical shape that supports both ends of the rotating shaft 12 so as to rotate. 20a, 20b).
According to this configuration, the water flowing through the inlet and accumulated on the drip tray cannot be leaked mostly by the narrow gap between the drip tray and the inner wall of the casing due to the phase difference caused by the rotation of the drip plate. The leaked water is also refilled between the previous drip plate and the inner wall of the case, so that the load is transferred to the rotational force of the rotating shaft through the drip plate, reducing the loss of potential energy of the water and improving efficiency by obtaining power. .

Description

Power generation device using water drop {APPARATUS FOR POWER GENERATION USING WATERFALL OF RESERVOIR WATER}

The present invention relates to a power generator using a low drop of water, and more particularly, to a power generating device using a low drop of water to convert to a mechanical power using a drop or load according to the potential energy of the low water.

In general, aberration has been widely used as a means of rotating a rotary wheel using a drop or load according to the potential energy of water or obtaining another form of mechanical power from the rotation.

The representative form of the aberration described above is that the drip trays arranged radially in correspondence with the lower side of the water drop are continuously rotated so that the aberration rotates due to the drop of water or the load of the water, or to obtain mechanical power of another form from the rotation. will be.

In the use of such aberration, it is used a lot as a sculpture of houses, commercial facilities, etc. in recent years.

However, aberration has an inefficient problem in that power generation is very low compared to potential energy of water.

In addition, in order to obtain a large power, not only a large amount of water is consumed in the fall, but also the size of the aberration is enlarged, and furthermore, there is a problem that water is scattered to the surroundings due to the driving of the aberration and the drop of water.

The present invention has been made to solve the problems of the prior art, to increase the efficiency of generating power relative to the potential energy of the stored water, and to prevent the damage caused by water in the surroundings as well as to facilitate the installation in a narrow space The present invention provides a power generator using a drop.

Characteristic configuration of the power generating device using a low drop of water according to the present invention for achieving the above object, the rotation shaft; A fixed part fixed to the rotating shaft in a cylindrical shape; And a power generation device having a low drop of water having a difference of rotation consisting of a drip plate fixed in a radial arrangement at a surface position of the fixing part about the axis of rotation, wherein both ends of the axis of rotation are supported while being rotated. Cylindrical shape surrounding the outside of the car is provided with a case each formed inlet and outlet through which water penetrates the upper side and the lower side, respectively.

In addition, the case is configured to be assembled to each other from the upper side and the lower side with the rotation difference therebetween, it is preferable to configure so that each edge portion of the drip plate in a state close to the inner wall of the case.

In addition, the case including the rotary difference is provided with a plurality of numbers, they are effective to be connected up and down in the shape that the lower portion of the outlet is fitted in the upper side of the inlet.

In addition, at each end of the rotary shaft protruding out of the cases, a power transmission means of any one of a sprocket wheel, a pulley, and a gear corresponding to the rotation direction of each rotary shaft is installed. In addition, it is preferable that the respective rotating shafts are configured to be connected to each other by connecting by any one kind of connecting means corresponding to each of the power transmission means adjacent to each other.

According to the configuration of the present invention, the amount of water flowing through the inlet and accumulated on the drip tray cannot be leaked by the gap between the drip tray and the inner wall of the casing most of the amount of water overflowed by the phase difference due to the rotation of the drip plate. The water leaked through the gap is also refilled between the previous drip tray and the inner wall of the case, so that the load is transferred to the rotational force of the rotating shaft through the drip tray to reduce the loss of potential energy of the water and improve the efficiency by obtaining power. Has

In addition, the case not only prevents secondary damage due to splashing of water or noise and scattering, but also creates an advantage of easy installation even in a narrow space having a height by guiding the water in one direction. .

1 is an exploded perspective view for explaining the configuration of the power generator using a low drop of water according to an embodiment of the present invention and the assembly relationship of these configurations.
2A and 2B are schematic cross-sectional views illustrating an installation example of a power generator using a low drop of water according to the present invention.
Figure 3 is a side view for explaining an interlocking relationship connecting the power generated from the power generating device using a drop of water according to the invention with gears.
4 is a front view illustrating a modification of the relationship in which the gears of FIG. 3 interlock.
Figure 5 is a side view for explaining the interlocking relationship connecting the power generated from the power generating device using a drop of water according to the present invention by a belt or chain.

Hereinafter, a power generating apparatus using a drop of water according to an embodiment of the present invention will be described with reference to the accompanying drawings.

Power generating apparatus using a low drop of water according to an embodiment of the present invention includes a rotor 10 as shown in FIG.

The rotary wheel 10 has a circular rod-shaped rotary shaft 12 having a predetermined length and rigidity, a cylindrical fixed portion 14 coupled to the rotary shaft 12 and the fixed portion about the rotary shaft 12 A plurality of drip trays 18 are disposed radially around the periphery 14.

One end of each of the plurality of drip plates 18 is connected to the fixing part 14, and the other end of the plurality of drip plates 18 extends in the outward direction of the fixing part 14.
And, the plurality of drip plate 18 has a constant inclination in any one rotation direction of the rotary wheel 10 with respect to the surface of the fixed portion 14 with respect to the central portion of the rotary wheel 10, respectively. desirable. Here, since the rotation direction of the rotary car 10 is made to the left or right with respect to the rotation shaft 12, any one of the above-described rotation directions may be understood as the left or right side of the rotation shaft 12.

The plurality of drip trays 18 preferably have a curved shape protruding in the direction of rotation of the rotor to accommodate a large amount of water.

In addition, the rotation wheel 10 further includes a pair of side plates 16 facing each other in the longitudinal direction of the fixing part 14. The pair of side plates 16 allow the drip plate 18 to be stably positioned on the fixing portion 14, and a storage space 19 in which water is received between the drip plates 18 adjacent to each other. To form.

From this, the rotating vehicle 10 has the storage space 19 having slopes 18 and the side plate 16 adjacent to each other with the fixing part 14 in accordance with the rotation of the rotating vehicle 10. As the water is stably received, the rotation can be made.

On the other hand, the power generator using the low drop of water further includes a case 20 surrounding the rotor 10 as shown in FIG.
The case 20 is assembled to correspond to each other from the upper side and the lower side with the rotary wheel 10 therebetween, and includes upper and lower cases 20a and 20b surrounding the outer side of the rotary wheel 10.
The upper and lower cases 20a and 20b are formed in a semi-cylindrical shape having both end surfaces, and are bound by clamps 22a and 22b to prevent water contained therein from flowing out.
The clamps 22a and 22b may be formed in a form corresponding to each of the upper and lower cases 20a and 20b to form a mutually binding form, and may be formed in various known forms.
Both ends of the rotation shaft 12 are positioned outside the case 20 through the case 20, and are rotatably coupled to the case 20 so that the rotation shaft 12 is not rotated together with the case 20. .
To this end, the pair of upper and lower cases 20b and 20a have support grooves 24 through which both ends of the rotation shaft 12 penetrate at both ends. The rotary wheel 10 is rotatably supported by the support shaft 24 while the rotary shaft 12 maintains a free rotation state inside the case 20.
In the upper case 20a, an inlet 30 is formed to allow water to flow from the outside into the upper predetermined position, and the water received at the lower predetermined position may be discharged to the lower case 20b. An outlet 28 is formed to make it.
The inlet 30 and the outlet 28 are preferably formed in a staggered position with respect to the rotation axis 12.
For example, when the inlet 30 is located on one side of the rotary shaft 12, the outlet 28 is located on the other side of the rotary shaft 12. Similarly, if the inlet 30 is located on the other side of the rotary shaft 12, the outlet 28 is of course located on one side of the rotary shaft 12.
As shown in FIG. 2A, the rotary car 10 includes all the water in the plurality of storage spaces 19 located at one side where the inlet 30 is positioned around the rotary shaft 12. The plurality of storage spaces 19 located at the other side where the outlet 28 is located is rotated in a state where all of the water is empty.
This is due to the load of the water accommodated in the rotary wheel while the rotation is made in the state that the maximum water is accommodated in the rotary wheel 10 until the water flowing into the inlet 30 is discharged to the discharge port 28 It can be understood to expect the rotational force of the rotor (10).
It is preferable that the separation distance between the inner circumferential surface of the case 20 and the drip plate 18 constituting the rotary difference 10 is in a close range in a range of 1 mm to 5 mm.
The reason for this is that there is no interference with the case 20 as the rotor wheel 10 rotates, and at the same time the water inlet is introduced into the storage space 19 while the water flows through the inlet 30. This is to prevent it from being easily poured due to the phase difference according to the rotation of (18).
As a result, the power generator using the low drop of water is easily accommodated in the gap between the case 20 and the rotor 10 by the water contained in the storage space 19 in accordance with the rotation of the rotor 10. By not being discharged, the rotational force of the rotary vehicle 10 can be expected by the load of the water contained in the rotary vehicle 10.

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Referring to the power generating device using a drop of water according to the present invention in detail, the rotary wheel 10 is freely rotatably disposed in the case 20, as shown in Figure 2a to the inlet (30) The water is dropped through the rotation is sequentially received in a plurality of the storage space (19).
The water contained in the storage space 19 changes in phase as the other end of the drip plate 18 constituting the storage space 19 is gradually rotated downward from the state substantially parallel to the rotation shaft 12. Should be poured into, but because the separation distance between the case 20 and the rotary car 10 is formed in the range of 1mm to 5mm is not easily discharged.
In addition, the plurality of storage spaces 19 and the discharge port 28 in which the water is accommodated in accordance with the rotation of the rotary car 10 sequentially communicate with each other through the discharge port 28 Discharged.

Accordingly, the case 20 prevents the water contained in the storage space 19 from being poured until the moment when the storage space 19 and the discharge port 28 communicate with each other according to the rotation of the rotor wheel 10. It may be understood to function as a drip wall.

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On the other hand, in the power generator using the low drop of water, as shown in Figure 2a, a plurality of the rotary car 10 is disposed in the vertical direction, the plurality of the rotary car 10 is a plurality of cases, respectively It forms the form wrapped by 20.
The plurality of cases 20 may be configured in such a way that the outlet 28 and the inlet 30 are fitted between the cases adjacent to each other.
For example, the plurality of cases 20 are disposed downward from the top, and the lower portion of the discharge port 28 is fitted to the upper portion of the inlet port 30 between the cases adjacent to each other.
At this time, the plurality of cases 20 is preferably the position of the inlet 30 and the discharge port 28 between the cases adjacent to each other symmetric about the rotation axis (12). Correspondingly, it is preferable that the rotation directions between the plurality of rotation wheels 12 and the rotation wheels adjacent to each other are arranged opposite to each other about the rotation shaft 12.
2A, the inlet 30 and the outlet 28 are arranged on the same vertical line by aligning the plurality of cases 20 positioned at one side and the other side with respect to the rotation shaft 12. It can be understood to make it possible. At this time, the flow of water passing through the plurality of rotary wheels 10 is of course zigzag form.

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As shown in FIG. 2B, the plurality of cases 20 may be formed so that the respective rotation directions of the plurality of rotor wheels 10 may be identically disposed in relation to the flow of water.
In this case, each of the plurality of cases 20 is preferably formed with the inlet 30 and the outlet 28 to form the same inclination in one or the other direction with respect to the rotation shaft 12. In addition, it may be selected by the correlation between the power transmission means (32a, 32b) and the connecting means 34 to be described later.
As a result, the plurality of rotary wheels 10 may be disposed in the same shape in the plurality of cases 10 as well as rotated in the same direction.
The power generator using the low drop of the power source is a power source for rotating the second, third, and other rotary cars 10, the water is passed through the rotary car 10 located first from the top and installed in succession downward direction By repeating this process sequentially, the free fall energy of the water can be used continuously without ending with a single use.

In the power generating apparatus using the drop of the reservoir, as illustrated in FIGS. 2A to 2B, a reservoir 1 for storing water is provided on an upper portion of a facility (not shown) including a building.

The lower part of the facility is provided with a collecting well (2), such as a drainage facility in which the water in the reservoir (1) is discharged and collected, the plurality of cases (between the reservoir 1 and the collecting well (2) 20 is provided with a frame 3 fixedly installed in up and down directions.
The reservoir (1) and the sump (2) are connected by a pipe (8), the pump (8) for circulating water in the direction of the reservoir (1) from the sump (2) to the pipe (7) ) Is connected.
The rotary wheels 10 installed in a plurality of up and down directions each have a power transmission means 32a or 32b of any one of a sprocket wheel, a pulley, and a gear on the rotary shaft 12. ) Is installed.
And each of the power transmission means (32a, 32b) adjacent to each other is connected to each other by a connection means 34 of any one type of chain, belt, gear corresponding to each other.
At this time, the power obtained by the power transmission means (32a, 32b) and the connecting means 34 is the sum of the rotational forces of the plurality of wheels (10), and is also accommodated in the plurality of cases (20) It is made of force comparable to the load of water.
For example, the power transmission means 32a may be formed of a gear of a general type as shown in FIGS. 3 to 4, and the power transmission means 32a may be adjacent to each other as shown in FIG. 2A. Corresponding to the rotation direction of the (10) is made in the opposite direction to each other and at the same time transfer the force.
The power transmission means 32b is made of a sprocket wheel or pulley as shown in FIG. 5, and the connection means 34 may be made of a chain, a belt or a timing belt. And, as shown in Figure 2b the power transmission means 32b is interlocked with each other for the same rotational direction of the rotary car 10 adjacent to each other and at the same time transmits the force.
The plurality of rotor wheels 10 are disposed in the up and down directions from the first rotor wheel positioned adjacent to the reservoir 1 to the last rotor wheel positioned adjacent to the sump well 2, and the last rotor wheels thereof. The power converter 6 is connected. The power converter 6 can be understood as a generator of the general type and can be connected to the last turning wheel by a belt 5 and a pulley 4.
Therefore, the power generator using the low drop of water can utilize the rotational force generated from the plurality of rotary wheels () as an energy source.
In addition, the power generator using the drop of the water can be used as a sculpture for the facility, the water stored in the sump (2) through the pipe (8) in accordance with the drive of the pump (7) As it moves back to the reservoir (1) it is possible to allow energy to be generated from the power generator using the drop of the reservoir.

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10: rotary wheel 12: rotary shaft
14: fixing part 16: side plate
18: drip tray 19: storage space
20: case 20a: upper case
20b: lower case 22a, 22b: clamp
24: support groove 28: outlet
30: inlet 32a, 32b: power transmission means
34: connecting means

Claims (6)

A power generator using a low drop of water having a rotary wheel rotated by water supplied from the outside,
The power generator using the low drop of water,
The upper case in which the water inlet is formed is formed, and the lower case in which the inlet is discharged water is formed, the upper case and the lower side are coupled to each other detachably coupled by a clamp further comprises a case surrounding the rotor wheel,
The rotary difference is,
A rotating shaft having both ends rotatably coupled to the case;
A fixed part having both ends and coupled to the rotating shaft;
A plurality of drip trays having one end connected to the fixed part, the other end extending outwardly, disposed radially about the rotation axis, and protruding in both directions between the ends to form a curved shape; And
It is installed so as to face both ends of the fixing portion, and comprises a pair of side plates to block both sides between the adjacent drip plate to form a storage space for receiving the water,
The inlet and the outlet are formed in a staggered position with respect to the rotation axis, the separation distance between the case and the rotary car is formed in a state close to the range of 1mm to 5mm, the case including the rotary car respectively inside It is arranged in a plurality of up and down directions,
Each of the plurality of cases,
The outlet and the inlet are fitted between the cases adjacent to each other,
A power generator using a low drop of water, characterized in that the power converter is connected to the rotary vehicle included in the inner case disposed at the bottom of the plurality of cases. delete delete delete The method of claim 1,
At each end of the rotating shaft 12 protruding out of the cases 20a and 20b, a sprocket wheel, a pulley, and a gear correspond to the rotation direction of each of the rotating shafts 12. Any one of the power transmission means 32a, 32b is provided, and connected to one of the connection means 34 of any one of chain, belt, and gear corresponding to each of the power transmission means 32a, 32b adjacent to each other. The power generating device using the drop of the drop, characterized in that each of the rotary shaft 12 is configured to interlock with each other. The method of claim 1,
The rotation difference,
If the rotation direction between the rotation difference adjacent to each other inside each of the plurality of cases is arranged differently,
The plurality of cases,
Positions of the inlet and the outlet are symmetric about the rotation axis between the cases adjacent to each other,
The rotation difference,
When the rotation direction between the rotation difference adjacent each other is arrange | positioned inside each of the said several case,
The plurality of cases,
Each of the inlet and the outlet is a power generator using a drop of water, characterized in that formed in the same inclination in one direction or the other direction around the rotation axis.

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