KR20130050317A - Power generating equipment using wave and wind forces - Google Patents

Abstract

PURPOSE: A power generating device using wind-wave power is provided to generate power by using wind power and wave power, thereby obtaining more power. CONSTITUTION: A power generating device using wind-wave power comprises a marine supporting member(110), a wing assembly(115), a floating member(120), a holding member(125), a screw bar(130), a supporting member, and a power generating member. The marine supporting member is fixed to the bottom of sea bottom and protruded over the seawater surface. The wing assembly includes a plurality of wings and becomes installed on the top of the marine supporting member to be rotated by wind. The floating member moves vertically by the wave power. The power generating member includes a power generating unit, and the power generating unit generates power by using the torque of the screw bar or the wing assembly.

Description

Power generating equipment using wave and wind forces

The present invention relates to a power generator using wind force, and more particularly, a power generator using wind force to generate power by rotating a blade assembly with wind power, as well as rotating a screw with wave force. It is about.

A wave generator is a device that generates waves to convert into a useful energy such as electricity using a sea wave or an ocean wave. It is well known that sea waves constitute an almost infinite source of energy that can solve a significant portion of the world's energy problems if they are developed efficiently. Therefore, many applications have been filed at home and abroad for devices that generate electricity using sea waves. Korean Patent No. 10-0926463 is directed to a wave generator capable of generating power by using kinetic energy of a tide and a wave which are flow of seawater. 3 is a conceptual diagram of a wave generating device disclosed in Korean Patent No. 10-0926463. The conventional wave force generating device disclosed in FIG. 3 includes a screw bar 1, a first subfluid 3, a power converting means 5, a second subfluid 15, and a compressor 20. .

One end of the screw bar 1 is fixed to the seabed. The first part fluid (3) moves upward and downward along the screw bar (1) when the wave is hit and the wave is slack.

The power converting means (5) has a rotating portion and a linear motion portion (8). The rotating portion is constituted by a circular cam (7). The circular cam (7) is fixed to the upper part of the first float (3). Thus, when the first subfluid (3) moves up and down, the circular cam (7) also moves up and down. The circular cam (7) is engaged with the screw bar (1) so as to be able to rotate around the screw bar (1) during vertical movement. That is, the screw bar 1 is inserted through the circular cam 7. At this time, the screw bar (1) is inserted through the one side so as to be able to rotate about one side off the center of the circular cam (7).

The rectilinear motion part 8 serves to guide the rectilinear motion of the circular cam 7 during the rotational motion. To this end, an annular ring (9) and a power transmission shaft (11) are provided. The annular ring 9 surrounds the circular cam 7 as an elliptical shape. And the power transmitting shaft 11 engages with the annular ring 9. [ Therefore, when the circular cam 7 rotates, the power transmitting shaft 11 performs linear motion.

The compressor (20) is installed on the upper portion of the second float (15) and connected to the power transmission shaft (11). Thus, when the power transmission shaft 11 linearly moves, the fluid such as air or water is compressed.

When the wave (30) is hit, the wave is a sliver. Then, the first-order fluid (3) moves up and down in the direction of the arrow (31). When the first part fluid 3 moves up and down, the circular cam 7 rotates about the screw bar 1 in the direction of the arrow 33. When the screw bar 1 is rotated, the power transmission shaft 11 linearly moves in the direction of the arrow 35 to drive the compressor 20. At this time, the efficiency of driving the compressor (20) depends on the linear reciprocating distance of the power transmission shaft (11).

The conventional wave force generating device disclosed in FIG. 3 requires a first subfluid and a second subfluid to generate power by using a wave force, and the power conversion means is divided into a rotary motion part and a linear motion part, which causes a complicated configuration.

In addition, the conventional wave generating device disclosed in FIG. 3 has a problem in that power generated by using only wave power is weak.

The present invention is intended to solve the above problems. An object of the present invention is to provide a power generator with a simple configuration by generating power by wave force using a floating body and a screw bar.

In addition, an object of the present invention is to provide a power generator that can generate power using wind wave force by generating power using offshore wind power as well as wave power.

The power generating apparatus using the wind force according to the present invention includes an offshore support means, a wing assembly for wind power, a floating means, a restraining means, a screw bar, and a power generating means. The sea support means is fixed to the bottom of the sea and protrudes into the sea. The wing assembly is installed on the marine support means to be rotated by the wind. The floating means moves up and down by the force of the wave when the wave hits. The restraining means restrains the rotational movement of the floating means when the floating means moves up and down. The screw bar is coupled to the floating means so as to rotate when the floating means moves up and down. The power generating means has a power generating unit for generating power by the rotational force of at least one of the screw bar or the wing assembly.

In addition, the power generating device preferably further includes support means for supporting the screw bar, one end is fixed to the sea support means in order to prevent the screw bar is refracted.

In addition, in the power generating apparatus, the restraining means is fixed to the sea support means along the longitudinal direction, it is preferable to combine with the floating means so that the floating means can slide up and down along the restraining means. Do.

In addition, in the power generating apparatus, it is preferable that the restraining means is formed of a conductor so as to prevent the seafood from sticking so that electricity can be supplied.

In the power generator, the power generator is preferably a generator or a fluid compressor.

According to the present invention, power is generated using both the wind power and the wave power, so that a large power can be obtained.

In addition, according to the present invention, since a screw bar is used to generate power by using a wave force, not only the configuration thereof may be simplified, but also the installation may be facilitated.

1 is a conceptual diagram of an embodiment of a power generator using the wind force according to the present invention,
Fig. 2 is a conceptual diagram of the power generating means of the embodiment shown in Fig. 1,
3 is an embodiment of a conventional wave power generator.

1 and 2 will be described an embodiment of a power generating apparatus using a wind wave according to the present invention. Power generating apparatus using the wind force according to the present invention is the marine support means 110, wing assembly 115, floating means 120, restraining means 125, screw bar 130, support means And a power generating means 140.

The sea support means 110 is fixed to the bottom of the sea and protrudes into the sea.

The wing assembly 115 has a plurality of wings and is installed on the upper portion of the marine support means 110 to be rotated by the wind.

Floating means 120 is formed of a floating body to move up and down by the force of the wave when the wave hits.

The restraining means 125 serves to restrain the rotational movement of the floating means 120 so that the floating means 120 only moves up and down by waves. To this end, the restraining means 125 is fixed to the sea support means 110 in the longitudinal direction, and the floating means 120 is inserted into one side of the floating means 120 to slide up and down along the restraining means 120. . At this time, since the restraining means 125 is installed on the sea, seafood such as seaweed may adhere to the restraining means 125. In this case, it is difficult for the floating means 120 to slide along the restraining means 125. Therefore, the restraining means 125 is preferably formed of a conductor through which current can flow, so that a minute current is supplied to the restraining means 125. When the micro current is supplied, the seafood can be prevented from sticking to the current. The fine current may be supplied from the power generating means 40. On the other hand, seaweeds and the like may also adhere to the contact surface of the floating means 120 in contact with the restraining means 125, so that the contact surface of the floating means 120 also serves as a conductor to prevent the seaweeds from sticking to the contact surface of the floating means 120. You can.

The screw bar 130 is coupled to the floating means 120 so as to rotate by the floating means 120 when the floating means 120 moves up and down. In the present embodiment, the screw bar 130 is vertically installed at the side of the sea support means 110 is coupled to the floating means 120, it is fixed to the sea support means 110 by the support means 135.

The support means 135 serves to prevent the screw bar 130 from refracting. To this end, the support means 135 is fixed at one end to the marine support means 110, and the other end supports the screw bar 130. In this case, the support means 135 may be coupled to the screw bar 130 and the bearing to support the screw bar 130. In the present embodiment, a plurality of support means 135 is installed along the longitudinal direction of the screw bar 130, and serves to fix the screw bar 130 to the marine support means 110.

The power generating unit 140 includes a power generating unit, and the power generating unit serves to generate power by the rotational force of the screw bar 130 or the wing assembly 115. Such a power generator may be used a generator or a fluid compressor. The generator or the fluid compressor may be installed in the screw bar 130 and the wing assembly 115, respectively, or may be installed as one and driven by the screw bar 130 and the wing assembly 115. For example, in the case of a generator, a generator driven by the screw bar 130 and a generator driven by the wing assembly 115 are installed, respectively, or one generator is installed to be driven by the screw bar 130 or the wing assembly 115. Can be. Meanwhile, when a fluid compressor is used, a generator capable of generating electricity by the fluid compressor may be used. The electricity produced by the power generating unit may be supplied to the land and used, and a part thereof may be supplied to the restraining means 125 so that seafood is not attached to the restraining means 125. On the other hand, the power generating means 140 may be provided with a separate solar power plate, such as to supply a fine current to the restraining means 125.

In the present embodiment, since the wing assembly 115 is installed on the upper portion of the marine support means 110, when the wind blows, the wing assembly 115 rotates. When the wing assembly 115 is rotated to drive the power generating means 140 to generate electricity. Since the wing assembly 115 of the present embodiment is installed at sea, the ground friction force of the wind is smaller than that of the land, and thus, the wing assembly 115 may receive a larger wind than the land. So it is easier to generate power than onshore wind turbines.

In addition, the sea support means 110 is supported by a screw bar 130, the floating means 120 is installed to move up and down along the screw bar 130. So when the wave hits the floating means 120 moves up and down. At this time, the floating means 120 is constrained by the rotation means by the restraining means 125 and only vertical movement. The screw bar 130 rotates by the vertical movement of the floating means 120. When the screw bar 130 rotates, the power generating unit 140 may be driven to produce electricity.

Therefore, in this embodiment, since both the wind power and the wave power are used, the efficiency of power generation can be improved.

110: sea support means 115: wing assembly
120: floating means 125: restraining means
130: screw bar 135: support means
140: power generating means

Claims (5)

A sea support means fixed to the bottom of the sea and projecting to the sea;
A wing assembly for wind power installed in the marine support means to rotate by wind;
Floating means for moving up and down by the force of the wave when the wave hits,
Restraining means for restraining the rotational movement of the floating means when the floating means moves up and down;
A screw bar coupled with the floating means so as to rotate when the floating means moves up and down;
And a power generating means having a power generating unit for generating power by the rotational force of at least one of the screw bar and the wing assembly. The method of claim 1,
In order to prevent the screw bar is refracted, one end of the power generating apparatus using wind wave force, characterized in that it further comprises a support means for supporting the screw bar is fixed to the marine support means. The method of claim 2,
The restraining means is fixed to the sea support means in the longitudinal direction, the power generating apparatus using wind wave force, characterized in that coupled to the floating means so that the floating means can slide up and down along the restraining means. The method of claim 3,
The restraining means is formed of a conductor in order to prevent seafood from sticking to the power generating device using wind power, characterized in that the electricity can be supplied. 5. The method according to any one of claims 1 to 4,
The power generator is a power generator using a wind wave, characterized in that the generator or a fluid compressor.

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