KR20170065999A - wave power generator - Google Patents

Abstract

The present invention relates to a wave power generator, and more particularly, to a wave power generator having a wave guiding body having an upper portion opened, a lower portion closed, and a receiving space extended in the longitudinal direction, First and second front sprockets disposed in the accommodation space and rotatably installed, first and second rear sprockets, a first chain coupled through a first front sprocket and a first rear sprocket, A plurality of blades rotatably coupled to the chain linkage along a direction transverse to the second chain from the first chain and spaced apart from each other and having a second chain coupled through two rear sprockets; When the blade is moved from the front to the rear by interfering with the interference pin, the blade is upright in the direction perpendicular to the longitudinal direction, An upright / horizontal guide portion interposed in such a manner as to be able to move in a horizontally laid-down state along the extending direction of the first and second chains when the first and second front sprockets are moved; And a generator for generating electricity by receiving a rotational force from at least one of the generators. According to such a wave power generator, it is possible to maximize the contact area at the position where the blades that are circulated by the wave generated by the conversion into the wave breaking wave are converted to the coast wave and transmit the wave energy, The conversion efficiency can be improved.

Description

Wave power generator {wave power generator}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a wave power generator, and more particularly, to a wave power generator capable of generating waves by converting wave into a wave form.

Recently, a variety of alternative energy sources other than fossil energy have been developed to reduce the pollution of the global environment. Especially, there are various proposals for power generation methods using wind, tidal, and wave power that occur infinitely in nature.

Wave power generation is a method of producing electricity from wave energy of a wave of a sea or a large lake, and is variously disclosed in Korean Patent No. 10-1226014.

For wave power generation, there is a constant demand for a structure capable of further improving the power generation efficiency.

It is an object of the present invention to provide a wave power generator which is developed to solve the above-mentioned problems, and which can improve the power conversion efficiency by converting wave into a wave breaking wave form.

In order to achieve the above object, a wave power generator according to the present invention includes: a wave guiding body having an upper portion opened and a lower portion closed to allow waves to flow in, and a receiving space extending forwardly and backwardly along the longitudinal direction; First and second front sprockets disposed opposite to each other in a receiving space of the waveguide guide and rotatably installed, first and second rear sprockets spaced apart from the first and second front sprockets, A first chain rotatably coupled from the first front sprocket via the first rear sprocket; and a second chain rotatably coupled from the second front sprocket through the second rear sprocket; A plurality of blades rotatably coupled to the chain linkage along the direction transverse to the second chain from the first chain and spaced apart from each other; Wherein when the blades are moved by the first and second chains from the front to the rear by interfering with the interference fins formed on the blades, the blades are upright in a direction perpendicular to the longitudinal direction, And an upright / horizontal guide portion interposed in such a way as to be able to be moved horizontally and horizontally along the extending direction of the first and second chains when the second chain is moved by the second chain; And a generator for receiving electricity from at least one of the first and second front sprockets and the first and second rear sprockets to generate electricity.

A vertical ascending / descending portion for vertically moving the wave guiding guide in a vertical direction; A water level detection sensor for detecting a water level of the sea on which the wave guide member is installed; And a controller for controlling the vertical ascending / descending portion to be located at a position where the blade can interfere with the wave using the level information detected by the level detecting sensor.

Further, the blade is formed in a plate shape rotatable with respect to a coupling bar coupled to the chain ring, and the interference pin is formed to protrude outward at each corner of the blade, and the upright / The interference fins are received in a constrained state so that the blades can be adjusted to be upright or horizontal.

More preferably, the blades are provided with first and second interference fins positioned opposite to each other with respect to the coupling bar, and in a state in which the blades are laid in a horizontal state, the first interference fins and the second interference fins Are formed at positions different from each other in height.

According to the wave power generator of the present invention, the wave is converted into a coast wave and the contact area is maximized at the position where the blade, which is circulated by the wave generated by switching to the coast wave, receives the wave energy, The power conversion efficiency can be improved.

1 is a side view of a wave power generator according to the present invention,
Fig. 2 is a schematic plan view of the wave power generator of Fig. 1,
3 is a schematic cross-sectional view seen from the front of the wave power generator of Fig. 1,
Fig. 4 is a partially cutaway perspective view showing the coupling structure of the blade of Fig. 1,
5 is a block diagram showing a control channel of the wave power generator of FIG. 1,
6 is a cross-sectional view illustrating a generator coupling structure according to another embodiment of the present invention.

Hereinafter, a wave generator according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a side view showing a wave power generator according to the present invention, FIG. 2 is a schematic plan view of the wave power generator of FIG. 1, FIG. 3 is a schematic front view of the wave power generator of FIG. 1, 1 is a partial exploded perspective view showing the coupling structure of the blade of Fig.

1 to 4, a wave power generator 100 according to the present invention includes a wave guide 110, a circulation rotary unit 130, a blade 151, an upright / horizontal guide unit 160, (171) and a vertical ascending / descending portion (180).

The wave guiding body 10 has a cross section of a 'C' shape having an open top and a closed bottom so that a wave can flow in. The wave guiding body 10 has a receiving space 112 .

That is, the wave guide member 110 is formed in a structure having side walls 113 and 114 and a bottom surface 116 arranged opposite to each other to form a receiving space 112.

An inflow guide plate 115, which is inclined downward from the bottom surface, is formed in front of the wave guide body 110.

The inlet guide plate 115 is formed longer than the width of the side walls 113 and 114 along the width direction of the opposed side walls 113 and 114 of the receiving space.

Here, the front of the wave guide body 110 refers to a front end that faces the direction in which the wave advances.

The inlet guide plate 115 of the wave guide member 110 functions to convert the wave proceeding in the form of a sinusoidal wave into the wavefront of the coastal wave in which the wave force in the horizontal direction is further increased.

Generally, when a wave having a floor and a valley approaches the coast and the depth of the water reaches a shallow place less than half of the wavelength, the bottom wave is absorbed by the wave, and a change in cycle, wavelength, etc. occurs and so-called wave breaking is changed.

The inflow guide plate 115 has a function of forcibly lowering the depth of the water depth when the wave progresses, thereby converting the wave into a coasting wave having a large energy in the horizontal direction to increase the power generation efficiency .

The inlet guide plate 115 may be omitted, in which case the bottom surface 116 serves to induce the formation of a coasting breaking wave.

The circulating and rotating part 130 is installed in the receiving space 112 of the wave guide member 110 so as to circulate and rotate the blade 151 described later.

The circulating and rotating part 130 includes first and second front sprockets 131 and 132, first and second rear sprockets 141 and 142, and first and second chains 134 and 144.

The first front sprocket 131 and the second front sprocket 132 are disposed opposite to each other in a direction orthogonal to the longitudinal direction of the wave guide member 110 so as to be rotatably installed on the wave guide member 110 .

The first front sprocket 131 is rotatably installed on one side wall 113 of the wave guide member 110 and the second front sprocket 132 is rotatably mounted on the other side wall 131 of the wave guide member 110. [ (Not shown).

The first rear sprocket 141 and the second rear sprocket 142 are disposed opposite to each other in a direction orthogonal to the longitudinal direction of the wave guide member 110 at a position spaced rearward from the first front sprocket 131 And is rotatably installed on one side wall 113 and the other side wall 114 of the wave guide body 110.

The first chain 134 is rotatably coupled to the first front sprocket 131 through the first rear sprocket 141.

The second chain 144 is rotatably coupled through the second rear sprocket 142 from the second front sprocket 132.

The blade 151 is rotatably coupled to the chain link 135 along the direction transverse to the second chain 144 from the first chain 134.

The plurality of blades 151 are disposed apart from each other along the extending direction of the chains 134 and 144.

The blade 151 is rotatably formed in a rectangular plate shape with respect to the coupling bar 137 coupled to the chain link 135.

The first and second interference fins 156 and 157 positioned opposite to each other with the coupling bar 137 as a center are disposed at the corner portions of the side faces of the blade 151 facing the chains 134 and 144, Respectively.

Here, the first interference pin 156 refers to the upper end when the blade 151 is in the upright state, and the second interference pin 157 refers to the lower end when the blade 151 is in the upright state.

The first interference fins 156 and the second interference fins 157 are formed at positions where the heights of the blades 151 are different from each other in a state where the blades 151 are laid flat.

In this case, the upright / horizontal guide unit 160, which will be described later, can be easily constructed so that the first and second interference fins 156 and 157, which will be described later, are transported upright and horizontally along mutually independent trajectories have.

The upright / horizontal guide unit 160 interferes with the first and second interference fins 156 and 157 formed on the blade 151 so that the blade 151 is moved from the front side to the rear side in the first and second chains 134, When the blade 151 is moved from the upper side with respect to the center line connecting the center of the first front sprocket 131 and the center of the first rear sprocket 141 by the spring 144, 144 and 144 so as to be able to be moved horizontally along the extending direction of the chains 134 and 144 when they are moved from the lower side with respect to the center line by the first and second chains 134 and 144, As shown in FIG.

The upright / horizontal guide portion 160 includes a first guide guide portion 160a for interfering with the first interference pin 156 formed at both ends of the upper side when the blade 151 is in an upright state, The second guide guide portion 160a interferes with the second interference pin 157 formed at both ends of the lower side.

The first and second guide guide portions 160a and 160b are configured such that the first and second interference fins 156 and 157 are accommodated in a constrained state so that the blade 151 can be vertically or horizontally adjusted.

The first guide guide portion 160a is formed in a shape of a lung track having a cross section of a 'C' shape to open a portion into which the first interference pin 156 enters.

The second guide guide portion 160b is also formed in a shape of a lung track having a 'C' -shaped cross section to open a portion into which the second interference pin 157 enters.

1, the first guide guide portion 160a and the second guide guide portion 160b are moved in an upright state when the blade 151 is moved from front to back, It may be arranged along an orbit that can interfere with the first and second interference fins 156 and 157 so that the first and second interference fins 156 and 157 can be moved horizontally.

The generator 171 is combined with the first front sprocket 131 to generate electricity.

The generator 171 is constructed so as to be able to convert the rotational force generated by any one of the second front sprocket 132, the first and second rear sprockets 141 and 142 into electric energy differently from the illustrated example Of course.

More preferably, as shown in FIG. 6, the first front sprocket 131 and the second front sprocket 132 are adjusted so that the load balance due to the power generation of the first front sprocket 131 and the second front sprocket 132 is uniformly adjusted. First and second relay gears 173a and 173b interlocked with the first and second relay gears 173a and 173b are formed on the intermediate shaft 174 and interlocked with the first and second relay gears 173a and 173b respectively by a chain, The structure in which the third and fourth relay gears 173c and 173d are applied and the generator 171 is coupled to the relay shaft is applied.

The relay shaft 174 is rotatably installed on the wave guide member 110 along a direction parallel to the direction in which the first front sprocket 131 and the second front sprocket 132 are connected to each other, 3 and fourth relay gears 173c, 173d.

Therefore, since the load generated by the generator 171 is divided into the first front sprocket 131 and the second front sprocket 132, the structural safety can be improved.

On the other hand, the vertical ascending / descending portion 180 is provided on the ground so that the wave guide body 110 can be vertically moved up and down.

The vertical ascending / descending portion 180 is coupled to the front and rear positions of the wave guide member 110 to apply the cylinder 181 for moving the rod 182 forward and backward to raise and lower the wave guide member 110.

As shown in FIG. 5, the vertical ascending / descending portion 180 may be formed by using the water level information detected by the water level detecting sensor 191 that detects the water level of the sea where the wave guide member 110 is installed, And is controlled by the control unit 193 so as to be positioned at a position where it can be moved from front to back.

Here, the water level detection sensor 191 may be installed on the wave inlet guide 110 so as to detect the water level difference from the water level or the water level from the ground surface to the predetermined position of the wave inlet guide body 110.

The control unit 193 controls the vertical ascending / descending portion of the blade 151 such that the wave guide member 110 is located at a position where the wave can hit the blade 151 in an upright state using the information detected from the water level detecting sensor 191 180 in the set period unit.

According to such a wave generator 100, when the blade 151 interferes with the blades to move backward and then moves forward, the wave generator 100 can be moved in a lying state so that the interference resistance is minimized, thereby improving power generation efficiency.

Meanwhile, when the wave generator 110 has a small wave height and the bird moves to the coast, the wave guide 110 is lowered to be completely immersed in water, and the blade 151 is rotated by the bird Of course it is.

110: wave guide member 130: circulating rotary part
151: blade 160: upright / horizontal guide portion
171: Generator 180: Vertical ascending / descending section

Claims (4)

A wave guiding body having an upper portion opened and a lower portion closed so that the wave can be introduced therein, and a receiving space extending in the longitudinal direction so as to be opened front and rear;
First and second front sprockets disposed opposite to each other in a receiving space of the waveguide guide and rotatably installed, first and second rear sprockets spaced apart from the first and second front sprockets, A first chain rotatably coupled from the first front sprocket via the first rear sprocket; and a second chain rotatably coupled from the second front sprocket through the second rear sprocket;
A plurality of blades rotatably coupled to the chain linkage along the direction transverse to the second chain from the first chain and spaced apart from each other;
Wherein when the blades are moved by the first and second chains from the front to the rear by interfering with the interference fins formed on the blades, the blades are upright in a direction perpendicular to the longitudinal direction, And an upright / horizontal guide portion interposed in such a way as to be able to be moved horizontally and horizontally along the extending direction of the first and second chains when the second chain is moved by the second chain;
And a generator for receiving electricity from at least one of the first and second front sprockets and the first and second rear sprockets to generate electricity. [2] The apparatus of claim 1, further comprising: a vertical ascending / descending portion for vertically ascending / descending the wave guide member;
A water level detection sensor for detecting a water level of the sea on which the wave guide member is installed;
And a control unit for controlling the vertical ascending / descending unit to be positioned at a position where the blade can interfere with the wave using the level information detected by the level detecting sensor. The blade according to claim 2, wherein the blade is formed in a plate shape rotatable with respect to a coupling bar coupled to the chain ring, the interference pin is formed to protrude outward at each corner of the blade, Wherein the horizontal guide guide portion is accommodated in the constrained state so that the blade can be adjusted to be upright or horizontal. [5] The apparatus of claim 3, wherein the blades are provided with first and second interference fins positioned opposite to each other with respect to the coupling bars, and the first interference fins and the second interference fins The interference fins are formed at different heights,
And an inflow guide plate sloped downward from a bottom surface forming the accommodation space at a front side of the wave guide member,
First and second relay gears interlocked with the first front sprocket and the second front sprocket, respectively;
And third and fourth relay gears interlocked with the first and second relay gears respectively by chains and coupled to the relay shaft,
Wherein the generator is coupled to the relay shaft to generate electric power.

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