KR101089335B1 - An ocean current development device - Google Patents

Abstract

The present invention relates to a power generation apparatus using electric currents flowing in the water in the sea, which rotates according to the flow of the currents, but having a plurality of wing bodies rotatably and the rotating means provided therein Cover means for supporting both ends so that the central axis of the rotation means to rotate freely, provided between the rotation means and the cover means and switching means for selectively fixing the wing body of the rotation means, on the outer surface of the cover means It is provided with a power generation means that is generated by a rotating shaft formed on one side of the rotating means, and the fixing means for fixing the cover means on the sea floor so that the water can be located in the water, the switching means according to the flow direction of the current Optionally, some wing bodies of the plurality of wing bodies rotatably coupled to the rotating means are folded in the rotating means. It relates to the ocean current power generation apparatus is configured wherein the rotating means is rotatable in both directions according to the direction of the currents.

Current, Power Generation

Description

Ocean current development device

The present invention relates to a power generation device that generates power by using the current flowing in the water in the sea, and in particular, to convert the flow energy of the current flow into electrical energy to use as a power supply, natural resources that do not emit environmental harmful substances It relates to an environmentally friendly ocean current generator device using.

In general, sea currents are flows of seawater with a constant velocity in a constant direction. That is, it is somewhat different depending on the season or other conditions, but it is a large-scale and long-term flow of seawater moving in the vertical to horizontal direction.

Ocean currents are caused by not only wind stresses but also power imbalances due to differences in density of seawater, migration of broths, differences in water temperature inside the ocean, and differences in salinity. It is divided into branches.

Firstly, it is the current which is caused by the wind which continues to blow in a certain direction such as trade wind and western style wind. If the wind continues to blow in the same direction, the seawater moves along with the friction. These types of currents include the Budukdo Current, Namdukdo Current, and West Wind Current.

Second, it refers to the currents that occur according to density when there is a difference in density in seawater due to precipitation, evaporation or inflow of river water. These currents include the Oyashio Current, the Kuroshio Current, and the Gulf of Mexico.

Third, it refers to the currents formed to maintain the equilibrium of the pressure distribution in the sea caused by the slope when the slope occurs due to the air pressure, wind, river water inflow, etc. of the surface. A good example is the sea currents flowing from the Skagerrak Strait to the Baltic Sea.

Fourth, when the seawater of a certain place moves differently due to various reasons due to the retention (補 流), it means the currents that the seawater of another place moves to here by the continuous nature of the fluid. There is an equatorial regurgitation in this type of current, and uplift and downflow are also types of reserves.

This flow of seawater (hereinafter referred to as sea current) is denser than air and can generate large energy with less movement.

Accordingly, the conventional power generation device produces most of the power by a thermal power generator or a nuclear power generator, but since the electricity is generated by using fossil fuel rather than natural resources, its use is limited, and such generators are hazardous substances. It is a power generation device that should be avoided because it not only emits water but also impedes environmental friendliness.

Accordingly, in accordance with the above trends, in recent years, we have turned to the development of environmentally friendly generators such as ocean currents and wave power, and Korean Patent Application Publication No. 96-16078 (current generator) has been proposed. The saddle platform supported by the seabed and a number of turbines were installed to react according to the movement of the current.

However, the current generator is difficult to construct the structure, there is a problem that the installation cost is high.

In addition, the current flow is changed in the direction of the flow after a certain time, there is a problem that can not be utilized to the maximum.

The present invention is to overcome the conventional problems as described above, it is an object of the present invention to provide a simple current construction and simple structure in accordance with the position of the current flowing in the water underwater.

Another object of the present invention is to provide an ocean current generating device that can obtain a power generation power corresponding to the direction of the current current changes every predetermined time.

In order to solve the above problems, the present invention rotates according to the flow of the current, but has a plurality of blades rotatably rotatable, and having the rotating means therein so that the central axis of the rotating means freely rotates Cover means for supporting both ends, the switching means provided between the rotating means and the cover means for selectively fixing the wing body of the rotating means, provided on the outer surface of the cover means and formed on one side of the rotating means It consists of a power generation means generated by the rotating shaft and a fixing means for fixing the cover means on the sea bottom so that the cover means can be located in the water, a plurality of the switching means rotatably coupled to the rotating means in the direction of the current flow Optionally, among the wing bodies, some wing bodies are fixed to the rotating means so that the rotating means is in the current direction. According to the present invention, there is provided an ocean current generator, which is configured to be rotatable in both directions.

The current generation apparatus of the configuration according to the present invention is simple in structure, low in cost to install, and environmentally friendly, and thus does not emit harmful substances, thereby greatly reducing the overall cost.

In addition, the present invention has the effect of obtaining a power generation irrespective of the direction of the current current changes every predetermined time.

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

1 is an exploded perspective view of the ocean current generating apparatus according to the present invention, Figure 2 is a perspective view of the coupled state of the ocean current generating apparatus according to the present invention.

Rotating means 100 to rotate in accordance with the flow of the current, but has a plurality of wing body 110 to be rotatable, and the rotating means (100) provided therein the rotating shaft 135 of the rotating means 100 Cover means 200 for supporting both ends so as to rotate freely, and switching means provided between the rotating means 100 and the cover means 200 to selectively fix the wing body 110 of the rotating means 100 300 and the power generating means 400 which is provided on the outer surface of the cover means 200 and is generated by the shaft extension 136 formed on one side of the rotating means 100, and the cover means 200 It consists of a fixing means 500 for fixing to the bottom surface 10 to be located in the water.

At this time, the switching means 300 of the plurality of wing body 110 that is rotatably coupled to the rotating means 100 in accordance with the direction of the current flow folded optionally the wing body 110 to the rotating means 100 It is configured to be fixed in a state so that the rotating means 100 can rotate in both directions in accordance with the current direction.

In addition, the rotating means 100 is formed integrally with the disk-like support 150 at both ends of the cylindrical rotating body 130 and the shaft 113 formed at both ends of the wing body 110 is the support ( The hinge body is configured to be hinged to the hole 153 formed in the 150, the blade body 110 is formed in the longitudinal direction on both ends of the blade 111 of a predetermined length in the longitudinal direction, but one end of the shaft 113 is A wing hinge shaft 113b that can be coupled to the hinge shaft hole 153b of the support 150 is formed, and the other end extends longer than the wing hinge shaft 113b to chamfer a portion of the circumference to fix the surface 117. Wing fixed shaft 113a having a) is coupled to the fixed shaft hole 153a of the support 150, the wing body 110 in the hole 153 formed along the periphery of the support 150 The wing hinge shaft 113b and the wing fixing shaft 113a are coupled to intersect selectively by the switching means 300. Dog 111 defendant constitutes part of the wing 111 is to be folded.

Here, the support 150 is integrally integrated with the wing stopper 165 on the inner surface so that the wing 111 abuts on the support 150 to limit the range of rotation of the wing body 110 is pivotally coupled. By forming the blade 111 is configured to rotate the rotating means 100 to resist the current.

In addition, the cover means 200 is formed of a semi-circular plate of a predetermined length to cover the circumferential cover body 230 to cover the circumference of the rotating means 100, and cover both ends of the rotating means 100 and the circumferential cover Consists of the side cover body 210 integrally coupled to both ends of the sieve 230, the circumferential cover body 230 to form a plurality of discharge holes 232 in the longitudinal direction and to collect currents at the end of the circumference The current flow guide plate 233 can be integrally formed to protrude and the outer plate 231 to cover the rotating means 100, and the opening and closing plate 235 of the circumference relatively smaller than the outer plate 231 to the discharge hole 232 Forming the opening and closing hole 236 of the same size as) is configured to selectively discharge the sea current by the switching means (300).

In addition, the switching means 300 is provided between the rotating means 100 and the side cover body 210 symmetrically about the rotating means 100 and the wing body 111 of the rotating means 100 and It is configured to switch the opening and closing plate 235 of the cover means 200, the switching means 300 is the current flow direction plate 311 is located at a constant interval with the rotating means 100 is the flow of current As the direction is changed, the plurality of wing bodies 110 provided in the rotating means 100 is folded and unfolded by operating the wing switching bodies 330 provided at both ends of the rotating means 100 by changing the direction. By operating the switch opening and closing plate 350 is provided separately to switch the opening and closing plate 235 is configured to change the direction of the discharge of the current.

3 is a cross-sectional view of the ocean current generator according to the present invention.

As shown in the drawings, the rotating shaft 135 of the rotating means 100 is coupled to the shaft rotatable to the side cover body 210 and the switching means 300 to the rotating shaft 135, wing switching body ( 330 is coupled through and the operating bar 311 protruding from the lower side of the current direction plate 310 is coupled to the rotation shaft 211 formed inside the side cover 210 to rotate the rotation shaft 211. At least one pivoting bar 313 is installed to extend at a center thereof, and the end of the rotation bar 313 is spaced apart from each other to fix the vane fixing shaft 113a so as to move in the axial direction of the rotation shaft 135. The protrusion 315 is formed.

Thus, the fixing plate 331 is formed in the circumferential direction of the fixing groove 333 of a predetermined depth on the surface facing the support 150 so that the blade fixing shaft 113a can be inserted into the fixing groove 333. Forming a clearance groove 335 having an inclined surface 337 inward on the surface where the clearance projection 315 is in contact with the clearance projection 315 as the pivoting bar 313 rotates. The fixing plate 331 is installed to be moved forward and backward in the direction of the supporter 150 by the inclined surface 337 of 335.

At this time, the coil spring 339 is installed on the rotating shaft 135 between the fixing plate 331 and the side cover body 210 so as to elastically restore the fixing plate 331 advanced by the play protrusion 315.

In addition, the opening and closing plate 235 is switched by the switching plate 350 in a manner that can be applied in a variety of ways, such as a joint method, coupling method, gear method, preferably connected to the roller and the band 355 In this way, the rotating roller 351 is installed on one side of the rotating shaft 211 and the driven roller 353 is installed on the opposite side around the rotating shaft 135 and driven roller 353 by the rotating roller 351. ) Is connected to the band 355 to be driven.

At this time, the opening and closing plate connector 357 is installed on one side of the driven roller 353 so that the opening and closing plate 235 is rotated.

Figure 4a, b is a view showing the operating state of the switching means 300 of the current generating apparatus according to the present invention according to the change in the current direction, Figure 5 is a perspective view showing the switching means 300 of the current generating apparatus according to the present invention. 6 is an operational state diagram of the rotating means 300 of the current generation apparatus according to the present invention.

Hereinafter, as shown in the figure, it is a view showing a state in which the wing body 110, the switching means 300, the opening and closing plate 235 and the like move in accordance with the direction of the current.

4A and 4B, a rotation bar 313 formed at the other side of the operation bar 311 around the rotation shaft 211 is rotated by the fixed plate 331 in the direction of the current flow. 135 is driven to move forward and backward about the center, and driven driven roller 353 connected to the band 355 by the rotating roller 351 formed on the rotating shaft 135 to discharge holes formed in the circumferential cover body 230 The opening and closing plate 235 is rotated to selectively open and close 232.

FIG. 6 illustrates that the fixing surface 117 of the wing body 110 is fixed to the fixing plate 331 among the plurality of wing bodies 110 pivotally coupled to the support 150 as the fixing plate 331 moves forward and backward. The blade 111 is folded by being fixed by the formed fixing groove 333, and the remaining wing body 110 is freely rotatable, so that the rotor 130 is rotated under the influence of the current flowing through the power generating means 400. It drives the generator 410 provided in).

7 is an installation state diagram that preferably installs the current generating apparatus according to the present invention.

Preferably, the fixing means 500 is fixed to the post 510 of a predetermined length to the sea bottom surface 10 is fixed to the outer surface of both sides of the side cover body 210 is installed in the position where the current flow .

1 is an exploded perspective view of the ocean current generator according to the present invention.

Figure 2 is a perspective view of the coupled state of the current generation apparatus according to the present invention.

3 is a cross-sectional view of the ocean current generator according to the present invention.

Figure 4a, b is an operating state diagram according to the change of the current direction of the switching means of the current generation apparatus according to the present invention.

5 is a perspective view showing a switching means of the current generation apparatus according to the present invention.

6 is an operational state diagram of the rotating means of the current generation apparatus according to the present invention.

7 is an installation state diagram that preferably installs the current generating apparatus according to the present invention.

<Description of the code | symbol about the principal part of drawing>

100: rotation means 110: wing body

130: rotating body 150: support

200: cover means 210: side cover body

230: circumferential cover body 300: switching means

310: current direction direction plate 330: wing switching body

350: switching plate switching body 400: power generation means

500: fixing means

Claims (4)

Rotating means 100 to rotate in accordance with the flow of the current, but has a plurality of wing body 110 to be rotatable, and the rotating means (100) provided therein the rotating shaft 135 of the rotating means 100 Cover means 200 for supporting both ends so as to rotate freely, and switching means provided between the rotating means 100 and the cover means 200 to selectively fix the wing body 110 of the rotating means 100 300 and the power generating means 400 which is provided on the outer surface of the cover means 200 and is generated by the shaft extension 136 formed on one side of the rotating means 100, and the cover means 200 It consists of a fixing means 500 to be fixed to the sea bottom surface 10 to be located in the water; The switching means 300 is selectively folded part of the wing body 110 in the rotating means 100 of the plurality of wing body 110 rotatably coupled to the rotating means 100 in the direction of the current flow It is fixed so that the rotation means 100 is configured to be rotatable in both directions in accordance with the direction of the current current. The method of claim 1, The rotating means 100 is formed integrally with the plate-shaped support 150 at both ends of the cylindrical rotating body 130 and the shaft 113 formed at both ends of the wing body 110 is the support 150 Is hinged to the hole 153 formed in the configuration The wing body 110 may form shafts 113 at both ends of the wing 111 of a predetermined length in the longitudinal direction, but one end of the shaft 113 may be coupled to the hinge shaft hole 153b of the supporter 150. The wing hinge shaft 113b is formed, and the other end portion is provided with a wing fixing shaft 113a which extends longer than the wing hinge shaft 113b to chamfer a portion of the circumference to form a fixed surface 117. Coupled to the fixed shaft hole (153a) of (150), The wing hinge shaft 113b of the wing body 110 and the wing fixing shaft 113a intersect with the hole 153 formed along the circumference of the support 150 to be selectively selected by the switching means 300. Part of the wing 111 is the current generation device, characterized in that the wing is configured to fold some wings (111). The method of claim 1, The cover means 200 is formed of a semi-circular plate of a predetermined length to cover the circumference cover body 230 to cover the circumference of the rotating means 100, and to cover both ends of the rotation means 100 and the circumferential cover body ( 230 is configured as a side cover body 210 integrally coupled to both ends; The circumferential cover body 230 forms a plurality of discharge holes 232 in the longitudinal direction and integrally forms the current guide plate 233 capable of collecting currents at the end of the circumference to cover the rotating means 100 The outer plate 231 and the opening and closing plate 235 having a smaller circumference than the outer plate 231 form an opening and closing hole 236 having the same size as the discharge hole 232, thereby being selectively selected by the switching means 300. An ocean current generator, characterized in that configured to discharge the current. The method of claim 1, The switching means 300 is provided between the rotating means 100 and the side cover body 210 symmetrically about the rotating means 100 to the wing body 111 and the cover of the rotating means 100 Configured to switch the opening and closing plate 235 of the means 200; The switching means 300 is provided at both ends of the rotation means 100 by changing the direction as the current flow direction of the current direction direction plate 311 is maintained at a constant distance from the rotation means 100 Operate the wing switching body 330 to fold and release the plurality of wing body 110 provided in the rotating means 100, and operates the opening and closing plate switching body 350 provided separately to open and close the opening and closing plate 235 An ocean current generator, characterized in that configured to change the direction of the discharge of current current by switching.

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