KR101577723B1 - Power generating apparatus used in water passage - Google Patents

Abstract

A water generating power generating device capable of effectively generating electricity in a water channel through which a small amount of water flows is disclosed. The water-channel power generation device includes: a plurality of rails installed toward the lower side from the upper side facing the waterway; And a power generator installed vertically up and down along the rail. Wherein the power generating body comprises: a housing having an inlet through which water flows, a passage communicating with the inlet, and an outlet communicating with the passage to discharge water; A generator positioned in the flow passage and fixed to the housing; A rotating shaft connected to the rotating body of the generator; And a turbine fixed to the rotating shaft and positioned on the flow path. And a rail coupling portion formed on the outer side of the housing so as to be slidably coupled to the rail, the inlet passage being formed to have a cross sectional area wider than the passage on the outlet side. Therefore, it is possible to effectively generate electricity even in the flow of the water of the ownership amount, and can be easily installed even in the state where the water flows in the drainage passage.

Description

[0001] The present invention relates to a water generating apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power generation device, and more particularly, to a power generation device capable of efficiently generating electricity in a water channel through which a small amount of water flows.

Hydropower refers to the generation of electrical energy by using the flow of water generated by the potential energy of water flowing from high to low, or by rotating the turbine using the flow of water generated by the pressure difference of water.

Unlike thermal power generation or nuclear power generation, such hydroelectric power generation has the advantage of not discharging environmental pollutants, but there are environmental destructive factors such as the construction of large dams or the construction of seawalls in order to generate a large water flow. In addition, there is a disadvantage in that it is difficult to guarantee stable electricity production if there is a seasonal flow rate difference, as in the case of Korea.

The disadvantage of such a hydroelectric power generation is that it is generated by a generator which is inefficient to produce economical development with a large amount of flow. If it can effectively develop the flow of proprietary water, it will be able to develop using a variety of water streams that are abandoned without destroying the environment, such as small-scale water storage facilities, general river water, and water and sewage.

Therefore, development of a power generation device capable of effectively generating power even in the flow of the water of the ownership is urgently required.

In addition, in order to install a power generation facility in a drainage line such as a drainage line of a thermal power plant or the like, it is necessary to install a separate bypass drainage path in the drainage of the sewage end treatment plant where the continuous water is drained, A countermeasure is needed.

1. Korean Patent Publication No. 10-2013-0040534 (filed on April 24, 2013: Application No. 10-2011-0105381)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a water-channel power generator capable of effectively generating electricity even in the flow of water having a small amount of water and being easily installed even in a state where water flows in the water channel.

In order to solve the above-described problems, an embodiment of the present invention provides a railway vehicle comprising: a plurality of rails installed from the upper side toward the lower side to face a waterway; And a foot which is vertically lifted and raised along the rail, wherein the foot body includes an inlet through which water flows, a flow path communicated with the inlet, and an outlet through which water flows in communication with the flow path, ; A generator positioned in the flow passage and fixed to the housing; A rotating shaft connected to the rotating body of the generator; And a turbine fixed to the rotating shaft, the turbine being positioned on the flow path, the flow path on the inlet side being formed to have a cross sectional area wider than the flow path on the outlet side, And a rail coupling portion formed to be slidable in the axial direction.

The rail includes an inlet-side rail provided on an inlet side of the housing; And an outlet side rail provided on an outlet side of the housing, wherein the rail coupling portion comprises: an inlet side rail coupling portion coupled to the inlet side rail; And an outlet side rail coupling portion coupled to the outlet side rail.

The plurality of rails are formed so that the width of the rails is narrower from the upper side to the lower side.

Further, it is preferable to further provide a reinforcing member that is fixed to the rails facing both ends to reinforce each other.

It is preferable that the housing has a shape in which a cross-sectional shape at the inlet side is engaged with a cross-sectional shape of the channel, and a cross-sectional shape at the outlet side is circular.

It is effective that the cross-sectional shape at the entrance side is a rectangular shape.

It is effective that the lower surface facing the bottom surface of the water channel of the housing is formed flat in the longitudinal direction and the upper surface of the housing facing the lower surface is inclined downward from the inlet toward the outlet.

As described above, according to the present invention, various effects including the following can be expected. However, the present invention does not necessarily achieve the following effects.

First, it can effectively generate electricity even in the flow of the water of the ownership, and can be easily installed even when the water flows in the drain.

Further, a rail coupling portion is formed on the inlet side and the outlet side, so that the generator can be stably supported.

Further, since the upper rail is formed to have a wide width, it is possible to stably install the power generator even in a water channel whose width increases toward the upper side.

Further, the inlet is formed in accordance with the shape of the cross section of the channel, and the outlet is formed in accordance with the rotational shape of the turbine, thereby further increasing the power generation efficiency.

Further, the lower surface of the housing is formed flat and the upper surface is formed obliquely, thereby not only further increasing the power generation efficiency but also allowing the water to be effectively drained when the water quantity is large.

1 is a perspective view of a water-channel power generating apparatus according to a first embodiment of the present invention,
Fig. 2 is a perspective view of the installation process of the water-
Fig. 3 is a plan view showing a state in which only one power generating body of Fig.
Fig. 4 is a perspective view of the foot of Fig. 1
5 is a side view of Fig.
6 is a perspective view showing the installation of the water-channel power generation device of the second embodiment of the present invention
7 is a front view of Fig. 6

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings.

Fig. 1 is a perspective view of a water-channel power generating apparatus according to a first embodiment of the present invention, Fig. 2 is a perspective view of the installation process of the water-power generator shown in Fig. 1, Fig. 3 is a plan view with only one power- 4 is a perspective view of the foot of Fig. 1, and Fig. 5 is a side view of Fig.

As shown in these drawings, the water-power generator of the first embodiment of the present invention comprises a plurality of rails 110 installed facing from the upper side to the lower side facing the water channel 1, And a power generator 200 installed to be lifted and lowered.

The water channel (1) means a place where water is constantly discharged such as an agricultural waterway, a drainage of a power plant, and a drainage pipe of a sewage end treatment plant, and may be used for any purpose. In the first embodiment of the present invention, the shape of a cross section of a drainage passage in which a plurality of waterways (1) are arranged is a quadrangle shape.

Generally, the water channel 1 is formed of a concrete structure, and may be formed in a U-shape with an open upper part, or in a pipe line with four sides closed. 1, the side wall 2 is exposed to the outside. The water-channel power generator of the present invention is installed in the side wall 2 of the discharge port of the water channel 1, and is characterized in that it is not necessary to disassemble the existing water channel.

The power generator 200 includes an inlet 201 through which water flows, a flow passage 203 communicated with the inlet 201, and an outlet 202 communicating with the flow passage 203 to allow water to flow therebetween A rotating shaft 230 connected to the rotating body of the generator 220 and a rotating shaft 230 connected to the rotating shaft 230. The rotating shaft 230 is connected to the rotating shaft 230, And a turbine (240) fixed on the flow path (203).

The housing 210 is formed such that the flow passage 203 of the inlet side 201 is formed so as to have a cross sectional area wider than the flow passage 203 of the outlet 202 side and the shape of the cross section at the inlet side is a cross- And a cross-sectional shape is formed in a circular shape at the outlet side. That is, in the embodiment of the present invention, since the cross-sectional shape of the channel is a quadrangular shape, the cross-sectional shape at the inlet 201 side is formed in a rectangular shape, and the flow passage 203 at the outlet 202 side is formed in a circular shape . By forming in this way, most of the water flowing in the channel can be used for power generation.

The turbine 240 of the generator 200 is disposed at the outlet side where the shape of the flow path is circular and the generator 220 is positioned between the inlet 201 and the turbine 240. As a result, by placing the turbine 240 on the circular flow path, not only the flow of water not contributing to the power generation can be minimized, but also the flow of the flow velocity with the smallest area becomes the fastest part, Can be increased. Further, the generator 220 can be positioned at a portion having a large cross-sectional area of the flow path, so that the loss of the flow velocity can be minimized.

The lower side 212 of the housing 200 facing the bottom surface of the water channel 1 is formed flat in the longitudinal direction and the upper side 211 of the housing facing the lower side 212, Is formed to be inclined downward from the inlet toward the outlet. That is, referring to FIG. 5, the lower side 212 is formed straight and flat, while the upper side 211 is formed to be inclined. As such, since the turbine 240 is positioned at a position close to the bottom surface of the water channel and is highly immersed in water, the power generation efficiency can be improved. In addition, So that it can be easily discharged to the rear.

At both outer sides of the housing, a rail coupling part 250 is formed which is coupled to the rail 110 to be slidable. The rail coupling portion 250 includes an inlet side rail coupling portion 251 coupled to the inlet side rail 111 and an outlet side rail coupling portion 252 coupled to the outlet side rail 112.

The rail assembly 110 includes the rail 110 and the rail frame 100 for supporting the rail 100 on the side wall 2 of the water channel 1. The rail assembly 100 includes the rail assembly 100, (120).

The rail 110 includes an inlet-side rail 111 provided at an inlet side of the housing and an outlet-side rail 112 provided at an outlet side of the housing.

The rail 110 and the rail coupling portion 250 may be formed in any shape as long as they can slide relative to each other. That is, one of them is formed as a 'C' channel shape, and the other is formed as a protrusion that can be fitted into the groove of the channel.

2, the rail coupling portion 250 is aligned with the upper end of the rail 110, and then the power generator 200 is gradually lowered to complete the installation as shown in FIG. That is, in a state in which water flows in the water channel 1, the power generator 200 can be gradually lowered by using the rails to complete the installation.

FIG. 6 is a perspective view of an installation of a water-power generator according to a second embodiment of the present invention, and FIG. 7 is a front view of FIG.

The water channel generator of the second embodiment has a rail coupling portion 1250 formed only on the inlet side of the generator 1200 and the rail 1110 is also connected to the inlet of the generator 1200 of the side wall 2 of the channel 1. [ And is not formed on the outlet side of the generator body 1200. [ As such, the rail supporting frame 120 having a complicated structure is not necessary as in the first embodiment. However, since the supporting force is weaker than that of the first embodiment, a stiffener 1120 is further provided to be fixed to the rails opposed to each other at both ends thereof.

7, when the width d1 of the upper end of the water channel is wider than the width d2 of the lower end of the water channel, the widths of the rails 1110 can be varied from the upper side to the lower side, It is preferable that it is formed narrowly. Thus, it can be stably fixed and installed from the top of the rail at the time of installation.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

1: channel 110, 1110: rail
200, 1200: Foot body 201: Entrance
203: Euro 202: Exit
210: housing 220: generator
230: rotating shaft 240: turbine
250, 1250: rail coupling portion 111: inlet side rail
112: outlet side rail 251: inlet side rail coupling portion
252: an outlet-side rail coupling portion 1120: a stiffener
212: lower side 211: upper side

Claims (7)

A plurality of rails installed toward the lower side from the upper side facing the water channel; And
A foot body installed up and down along the rail;
/ RTI >
The power generating body includes:
A housing having an inlet through which water flows, a passage communicated with the inlet, and an outlet communicating with the passage to allow water to flow out;
A generator positioned in the flow passage and fixed to the housing;
A rotating shaft connected to the rotating body of the generator; And
A turbine fixed to the rotating shaft and positioned on the flow path;
/ RTI >
Wherein the flow path on the inlet side is formed to have a cross sectional area wider than the flow path on the outlet side,
A rail coupling portion formed on both outer sides of the housing so as to be able to slide on the rail;
Further comprising:
The housing includes:
The shape of the cross section at the inlet side is formed into a shape engaging with the cross-sectional shape of the channel,
And the shape of the cross section at the outlet side is circular.
The method according to claim 1,
The rail
An inlet side rail provided on an inlet side of the housing; And
An outlet side rail provided on an outlet side of the housing;
/ RTI >
Wherein the rail-
An inlet side rail coupling portion coupled to the inlet side rail; And
An outlet side rail coupling portion coupled to the outlet side rail;
Wherein the power generating device comprises:
The method according to claim 1,
Wherein the plurality of rails are formed so that the width of the rail is narrower from the upper side toward the lower side.
The method of claim 3,
A reinforcing member fixed to and reinforced by the rails opposed to each other at both ends thereof;
Further comprising: an electric power generating unit for generating electric power by the electric power generating unit;
delete The method according to claim 1,
Wherein a cross-sectional shape at the inlet side is a rectangular shape.
5. The method according to any one of claims 1 to 4,
Wherein a lower surface of the housing facing the bottom surface of the channel is formed flat in the longitudinal direction,
And the upper surface of the housing facing the lower surface is formed to be inclined downward from the inlet toward the outlet.

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