KR101547977B1 - Power generating apparatus used in water passage - Google Patents

Abstract

A lattice-like frame portion fixed between the water channel walls opposed to each other to form a channel, the lattice frame portion comprising a plurality of frames and having rails on both sides; A fixing part for fixing the frame part between the water channel walls; And a rail coupling part formed to be smaller in cross section along the flow direction of the fluid flowing along the water channel and coupled to the rail formed in the frame part; A power generating unit including a generator capable of generating power, a rotating shaft connected to the rotating body of the generator, and a power generating unit formed of a turbine fixed on the rotating shaft and capable of generating power efficiently And can be easily installed even when water flows through the drainage channel.

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.

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 generating device capable of effectively generating electricity even in the flow of water having a small amount of water, .

In order to solve the above-described problems, the present invention provides a lid comprising: a lattice-shaped frame portion which is fixed between water channel walls opposed to each other so as to form a channel and has a plurality of frames and has rails on both sides; A fixing part for fixing the frame part between the water channel walls; And a rail coupling part formed to be smaller in cross section along the flow direction of the fluid flowing along the water channel and coupled to the rail formed in the frame part; A power generator including a generator for generating electric power, a rotating shaft connected to the rotating body of the generator, and a turbine fixed on the rotating shaft and positioned on the water channel; And the flow rate of the water is increased.

Here, the fixing portion may be provided at a plurality of locations along the longitudinal direction of the frame portion so as to contact the water channel wall at a plurality of locations, so that the frame portion is fixed between the water channel walls.

The fastening bolts are inserted into a plurality of insertion holes formed at both sides of the frame, and the fastening bolts are fastened to the periphery of the frame formed with the insertion holes so as to be fastened and fixed to the insertion holes, And an elastic member provided at one end of the tightening bolt to fix the frame part between the channel walls by being in contact with the channel wall.

The rail includes a left rail and a right rail disposed upright on both sides of the front side of the frame along the flow direction of the fluid, and the rail coupling portion is disposed upright on both sides of the front side of the housing, A left rail coupling portion and a right rail coupling portion, respectively.

In addition, the front of the housing through which the fluid flows may be formed in a rectangular shape along the flow direction of the fluid, and the rear of the housing through which the fluid flows may be circular.

The generator includes a rotor fixed to the housing and having a hollow formed thereon, a stator installed on the inner circumferential surface of the rotor, a rotor connected to the rotor and installed in the hollow, the rotor having a diameter larger than that of the rotor, A rotor provided on an outer circumferential surface of the whole body and facing the stator; And a bearing installed between the rotating body and the fixed body and supporting the rotating body.

Further, for waterproofing the rotor and the stator, a waterproof seal may be provided on the front and rear of the hollow, respectively.

The present invention can effectively generate electricity even in the flow of water having a small amount of water, and can be easily installed even in a state where water flows into the drain.

1 is a perspective view showing a structure of a water-channel power generation apparatus according to an embodiment of the present invention,
Fig. 2 is a cross-sectional view showing the structure of the housing of the water-power generator shown in Fig. 1,
3 is a perspective view showing a structure of a fixed portion of the water-power generator shown in Fig. 1,
4 is an exploded perspective view showing the structure of the generator of the water-power generator shown in Fig. 1 in an exploded manner.

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

FIG. 1 is a perspective view showing the structure of a water-channel power generator according to an embodiment of the present invention, FIG. 2 is a cross-sectional view showing a structure of a housing of the water- FIG. 4 is an exploded perspective view illustrating the structure of the generator of the water-power generator shown in FIG. 1. FIG.

As shown in these figures, the water-channel power generation apparatus according to the present invention is fixed between water channel walls 1, which are mutually opposed to each other so as to form a channel, and is composed of a plurality of frames 110, A fixing part 200 for fixing the frame part 100 between the channel walls 1; a fixing part 200 for fixing the frame part 100 between the water channel walls 1 along a flow direction of the fluid flowing along the water channel; A housing 310 having a rail coupling portion 311 coupled to the rail 120 formed on the frame portion 100 and formed in the housing 310 so as to be able to generate electric power according to the flow of the fluid, A power generating unit 300 composed of a generator 320 enabling the generator 320 to rotate and a rotating shaft 331 connected to the rotating body 321 of the generator 320 and a turbine 330 fixed to the rotating shaft 331 and positioned on the water channel, .

The frame part 100 is provided to be fixed on the water channel so that the power generation part 300 is fixed on the water channel to generate electric power. The frame part 100 includes a plurality of frames 110, Respectively.

In order to fix the frame part 100 between the channel walls 1, an insertion hole into which a part of the fixing part 200 is inserted is formed at one side of the frame 110.

A separate rail 120 is provided in front of the frame part 100 along the flow direction of the fluid so that the front of the power generation part 300 to be described later is fastened to the frame part 100. The rail 120 includes a frame part 100, And a left rail 121 and a right rail 122 disposed upright on both sides of the front side of the vehicle 100. [

The fixing part 200 is provided at a plurality of locations along the longitudinal direction of the frame part 100 and contacts the channel wall 1 at a plurality of locations so that the frame part 100 is fixed between the channel walls 1 It plays a role.

The fixing unit 200 includes a fastening bolt 210 inserted into a plurality of insertion holes formed at both sides of the frame 110 and fastening bolts 210 fastened to the fastening bolts 210 A fastening nut 220 screwed to the fastening bolt 210 so as to tighten the fastening bolt 210 in the opposite direction to the periphery of the frame 110 and a fastening nut 220 fastened to one end of the fastening bolt 210, And an elastic member (230) for fixing the frame part (100) between the channel walls (1).

The length of the fastening bolt 210 is preferably longer than the distance from the side of the frame 110 to the inner wall of the channel wall 1, So that they can be inserted into insertion holes to be fastened.

The head 211 of the fastening bolt 210 is formed with a flat surface so that the elastic member 230 can be attached to one side of the head 211. The diameter of the head 211 is smaller than the diameter of the elastic member 230.

The outer surface of the fastening bolt 210 is provided with a reinforcement nut 212 which is in contact with a side surface of the hate 211 to disperse a pressure acting on the head 211, (Not shown).

The fastening nut 220 is a pair of two fastening bolts 210 and fastened to the threads of the fastening bolts 210. The fastening nut 220 has two fastening nuts 220 So that the fixing nut 220 firmly fastens the frame 110 so that the fixing portion 200 is fixed to the frame portion 100.

The tightening nut 220 is fastened to the outer surface of the fastening bolt 210 so that the urging force of the elastic member 230 provided at one side of the fastening bolt 210 pushes the channel wall 1 outward It is preferable to arrange it at a certain position.

The elastic member 230 prevents the channel wall 1 from being damaged when the tightening nut 220 is fastened to the outer surface of the fastening bolt 210 and a repulsive force acts to push the channel wall 1 outwardly. And at the same time prevents slippage so that the frame part 100 is stably fixed between the channel walls 1. [

The power generation unit 300 includes a housing 310 that forms a large outer surface and a power supply unit 300 that is installed inside the housing 310. The power generation unit 300 is installed on a waterway between the waterway walls 1, And a turbine 330 connected to the generator 310 and the rotary shaft 331 so as to generate power from the generator 310.

The housing 310 is formed in a rectangular shape in front of which the water flowing along the water channel flows, and the rear portion of the housing 310 is formed into a circular shape to serve as an outlet side through which water flows into the outside.

In addition, it is preferable that the front height and width formed in a square shape are formed so as to gradually decrease toward the rear formed by the circular shape so that the flow rate introduced into the interior through the front becomes faster toward the rear, thereby enhancing power generation efficiency .

In addition, it is more effective that a diameter-reducing member 312 for reducing the diameter of the housing 310 and allowing the flow of the fluid to flow is provided on the inner side of the rear of the housing 310 along the flow direction of the fluid.

The outer surface of the diameter reducing member 312 is formed to be curved in a convex shape so as not to interfere with the flow of the fluid so that the flow velocity can be further increased.

In order to couple the housing 310 to the frame part 100, a rail engaging part 311 is provided in front of the housing 310, which is the inlet side of the fluid flowing into the housing 310 along the flow direction of the fluid do.

The rail coupling portion 311 includes a left rail coupling portion 311a and a right rail coupling portion 311b that are disposed on both sides of the front side of the housing 310 and are inserted into the left rail 121 and the right rail 122, Consists of.

The generator 320 includes a fixed body 321 fixed to the housing 310 and formed with a hollow 321a, a stator 322 provided on the inner circumferential surface of the hollow 321a, a hollow 321a connected to the rotating shaft 331, A rotor 324 and a rotating body 323 provided on the outer circumferential surface of the rotating body 323 and facing the stator 322 and a rotor 323 facing the stator 322. The rotating body 323 has a diameter larger than that of the rotating shaft 331, And a bearing 325 provided between the stationary body 321 and supporting the rotating body 323.

A waterproof seal 326 is preferably provided on the front and rear of the hollow 321a for waterproofing the rotor 324 and the stator 322, respectively.

The process of installing the water-channel power generation device according to an embodiment of the present invention having such a configuration on a waterway is as follows.

First, a position to install the water-channel power generator is selected on the water channel, and then the housing 310, in which the generator 320 and the turbine 330 are installed, is seated at the above-mentioned position.

The frame part 100 is lowered from the upper side of the housing 310 to the lower side so that the rail coupling part 311 provided in the housing 310 is inserted into the rail 120, So that the power generator 300 is coupled to the power generator 100.

The fixing part 200 is fastened to both sides of the frame part 100 along the longitudinal direction of the frame part 100 and the fixing part 200 is fastened to the frame part 100 The frame portion 100 should be fastened to the frame portion 100 so that the frame portion 100 can be inserted between the water channel walls 1. [

That is, the end of the fastening bolt 210 of the fixing part 200 is not fastened to the insertion hole of the frame 110 but the fastening bolt 210 of the frame part 100, The coupling between the rail 110 and the rail coupling portion 311 of the housing 310 is performed.

When the fastening nut 220 of the fastening portion 200 is used to rotate the fastening nut 220 so that the elastic member 230 of the fastening portion 200 comes into contact with the channel wall 1, Is gradually drawn out to the outside of the frame portion 100.

Here, it is preferable that the fastening bolts 210 of the fixing portions 200 provided on both sides of the frame portion 100 are respectively adjusted so that the frame portion 100 is arranged in the central region with respect to the width direction of the water channel, It is effective in height.

When the frame part 100 is secured between the frame part 100 and the power generation part 300 and the frame part 100 is fixed between the water channels by the elastic member 230, And the coupling nut 220 and the coupling nut 220 are firmly engaged with the outer surface of the frame 110 by moving to the coupling nut 220 side.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: frame part 110: frame
120: rail 200:
210: fastening bolt 220: fastening nut
230: elastic member 300:
310: housing 320: generator
330: Turbine

Claims (8)

A lattice-shaped frame part 100 fixed between the water channel walls 1 which are mutually opposed to each other so as to form a channel, the lattice frame part 100 being composed of a plurality of frames 110 and having rails 120 on both sides;
A fixing part (200) for fixing the frame part (100) between the channel walls (1);
A housing 310 having a rail coupling part 311 formed to be smaller in cross section along the flow direction of the fluid flowing along the water channel and coupled to the rail 120 formed on the frame part 100, A rotating shaft 331 connected to the rotating body 321 of the generator 320 and a rotating shaft 331 fixed to the rotating shaft 331. The rotating shaft 331 is fixed to the rotating shaft 331, And a turbine (330) positioned on the channel; Including,
The fixing part 200 includes a fastening bolt 210 inserted into a plurality of insertion holes formed at both sides of the frame 110 and fastening bolts 210 fastened to the fastening bolts 210, A fastening nut 220 screwed to the fastening bolt 210 so as to tighten the fastening bolt 210 in a direction opposite to the periphery of the frame 110 with the ball formed thereon, And an elastic member (230) for fixing the frame part (100) between the water channel walls by being in contact with the water channel (1)
The rail 120 is composed of a left rail 121 and a right rail 122 disposed upright on both sides of the frame 100 along the flow direction of the fluid and the rail coupling portion 311 A left rail coupling portion disposed in front of both sides of the housing so as to be erected and inserted into the left rail and the right rail, respectively, and a right rail coupling portion. The method according to claim 1,
The fixing part 200 is provided at a plurality of locations along the longitudinal direction of the frame part 100 and is in contact with the channel wall 1 at a plurality of locations so that the frame part 100 contacts the channel wall 1, To be fixed between the first and second flow paths. delete delete The method according to claim 1,
Wherein the front of the housing (310) through which the fluid flows is formed in a rectangular shape along the flow direction of the fluid, and the rear of the housing (310) through which the fluid flows out is formed in a circular shape. . The method according to claim 1,
The generator 320 includes a fixed body 321 fixed to the housing 310 and formed with a hollow 321a, a stator 322 installed on the inner peripheral surface of the hollow 321a, A rotor 324 provided on the outer circumferential surface of the rotating body 323 and facing the stator 322; a rotor 323 disposed on the hollow 321a and having a diameter larger than the rotating shaft 331; ; And a bearing (325) installed between the rotating body (323) and the fixing body (321) and supporting the rotating body (323). The method according to claim 6,
Wherein a waterproof seal (326) is provided at the front and rear of the hollow (321a) for waterproofing the rotor (324) and the stator (322). The method according to any one of claims 1, 2, and 5 to 7,
And a diameter reducing member (312) disposed inside the housing (310) along the flow direction of the fluid to reduce the diameter of the housing (310) so that the flow of the fluid is accelerated. .

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