KR20100043445A - Tidal current power plant having an air floating type support for supporting a turbine - Google Patents

Abstract

PURPOSE: A tidal current power plant having an air floating type support for supporting a turbine is provided to allow a user to detect the position of a tidal current generator easily by flowing air into a turbine support on the surface through air inlet. CONSTITUTION: A tidal current power plant having an air floating type support for supporting a turbine includes a tide power generation turbine(10), a support body, a guide(30), a jamming unit, and an air inlet(40). The tide power generation turbine is installed under the water and is operated. A supporter supports the tide power generation turbine while having the air chamber therein. The guide guides the supporter up and down. The jamming unit prevents the separation of the supporter from the guide.

Description

TIDAL CURRENT POWER PLANT HAVING AN AIR FLOATING TYPE SUPPORT FOR SUPPORTING A TURBINE}

The present invention relates to an algae power generation apparatus, and relates to an algae power generation system in which the turbine and the turbine support are completely submerged on the sea bottom.

Among marine power generation apparatuses, algae generating apparatuses that generate power using kinetic energy of algae are known.

Turbine for tidal power generation has a high risk of corrosion and failure due to being installed in the water, when there is a problem that a diver or the like to work underwater or lift the turbine above the water surface if you want to maintain, repair or replace the turbine.

As such, in order to lift the turbine for tidal current generation above the water, a monopile 300 having a lifting device 200 for transporting the turbine 100 as shown in FIG. 1 is installed on the sea floor and protrudes out of the sea surface. After the installation, the turbine 100 was transferred through the elevator 200 out of the sea level. In addition, the turbine was lifted out of the sea level using a special lifting device consisting of a crane having a lifting shaft connected to the barge and the lifting rope floating on the sea.

However, the conventional lifting method as described above has the following problems. In other words, in the monopile lifting device, the monopile protrudes out of the sea surface, which is an obstacle to the vessel or various marine activities, and thus the risk of a safety accident remains. In addition, if a special lifting device is used to lift the tidal current generator system in which the turbine and the support are completely submerged on the sea floor, a separate special lifting device is required, and it is overturned due to a high flow rate or a center of gravity imbalance during the lifting operation. The problem arises.

The present invention has been made to solve the problems described above, the problem that the obstacles to the vessel or various sea activities due to the protruding above the sea level of the monopile, such as the monopile, and completely submerged the turbine and the support on the seabed The purpose of the present invention is to provide a tidal current generator that can stably lift a turbine for tidal current above sea level without using the special lifting device generated and overturning due to rapid flow velocity or center of gravity imbalance during the lifting operation.

The tidal current generator according to the present invention for achieving the above object is characterized in that it comprises a turbine for tidal power generation is installed and operated in the water, and a support having an air chamber therein to support the turbine for tidal power generation.

The buoyancy acting on the support is large enough to support the tidal power turbine and the support above the sea level due to the air chamber formed inside the support. There is an advantage that no lifting work is required.

The tidal current generator is provided with a guide for guiding the movement of the support in the vertical direction. In addition, it is provided with a locking means for preventing the support from being separated from the guide.

As a result, even if the turbine is operating normally in the seawater or the turbine is being lifted out of the sea level for maintenance, the turbine for tidal current generation is stable without problems of overturning due to the high velocity of the seawater or the imbalance of the center of gravity of the support. May be acted on or sustained.

In order to support the turbine, an opening through which seawater flows out of the air chamber when air is injected into the air chamber of the support is formed in the support.

In addition, the tidal current generator is provided with an air inlet tube communicating with the air chamber of the support and extending to the outside of the support. At this time, the end of the air injection pipe is preferably protruded on the water surface.

According to the present invention, there is no need for the underwater lifting work by a diver or the turbine lifting work using a special lifting device in order to maintain, repair or replace the turbine for tidal current installed in the water due to the provision of the air floating turbine support. have. In addition, there is an effect that can stably lift the turbine for tidal current above the sea level without the problem of overturning due to high flow rate or center of gravity imbalance during the lifting operation. Another effect of the present invention is to inject air to the turbine support on the sea surface through the air injection pipe protruding out of the sea surface, there is an effect that can easily grasp the position of the tidal current generator.

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

Figure 2 is a perspective view of a tidal current generator according to the present invention, Figure 3 is a view showing a normal operation state of the seawater of the tidal current generator according to the present invention, Figure 4 is supported by the sea level out of the tidal power generator according to the present invention It is a figure which shows the state.

The tidal current generator according to the present invention is composed of a turbine for tidal power generation 10, the support 20, the guide 30, the air injection pipe (40).

The tidal current turbine 10 is fixedly installed on the outer upper surface of the support 20, the turbine blade is rotated by the tidal power to generate power.

The support 20 has an air chamber 23 therein, and has a hardness enough to support the turbine 10. The size of the air chamber 23 should be such that sufficient buoyancy is obtained to lift the turbine 10 and the support 20 above sea level.

An opening 25 through which seawater 29 flows out of the air chamber 23 when the air is injected into the air chamber 23 is formed in the support 20.

The air injection pipe 40 communicates with the air chamber 23 and extends to the outside of the support 20. An end portion of the air injection pipe 40 protrudes above the sea surface to be coupled to the external injection hole 43. When the air inlet pipe 40 is coupled to the air chamber 23, it should be able to move together when supporting the support 20 may be made of a flexible material or bellows-shaped tube.

However, as shown in FIG. 5, in the case where the hard air inlet pipe 40 extends through the sea bottom to the upper portion of the inside of the air chamber 23 of the support 20, the support 20 is supported. The air injection pipe 40 inserted accordingly is gradually exposed to the outside of the air chamber 23. At this time, the air injection pipe 40 inserted into the air chamber 23 preferably has a length enough to be inserted into the air chamber 23 even when the support 20 rises to the sea level. However, when the tidal current generator is installed in a deep water depth, since the length of the air injection pipe 40 inserted into the air chamber 23 is not sufficient, only a part inserted into the air chamber 23 may be manufactured of a soft material. will be.

Referring to FIG. 6, when the hard air inlet pipe 40 is located below the opening 25 formed at the lower end of the support 20 through the sea bottom, the air inlet pipe 40 is the air chamber 23. It does not combine with, the air exiting the air injection pipe 40 when the air is injected upwards is injected into the air chamber 23 through the opening 25.

The guide 30 is a rectangular member, which is placed on the sea bottom but does not protrude above the sea surface, and a projection 27 installed on the outer surface of the support 20 is inserted into the groove 33 on the side wall of the guide 30. It is installed. In this case, the protrusions 27 may be manufactured to be fastened to each other in a ring form in addition to the shape of being inserted into the grooves 33, and the protrusions 27 may be installed in the guides 30, or the support 20 and the guides 20 30) It may be installed at all.

When the support 20 is normally operated in seawater or is supported for maintenance, repair or replacement, a plurality of guides 30 may be installed to stabilize the support 20.

The operation of the tidal current generator according to the present invention having such a structure is as follows.

When the tidal current generator operates normally in the seawater, the seawater 29 is filled in the air chamber 23 of the support 20, and the projections 27 provided on the outer surface of the support 20 are formed on the sidewalls of the guide 30. It is inserted into the groove 33 so that the support 20 is stably positioned on the sea bottom. In addition, there is an effect that the imbalance of the support 10 due to vibration generated as the blade of the turbine 10 installed on the upper surface of the support 10 rotates is also removed.

Air is injected through the air inlet pipe 40 into the air chamber 23 of the support 20 during the operation to float above the sea surface in order to maintain, repair or replace the tidal wave turbine 10 installed in the water. At this time, the worker moves to the place where the end of the air injection pipe 40 protruding on the sea surface using the work line is connected to the work line through the external injection pipe 43 coupled to the end of the air injection pipe 40. Air is injected using the provided compressor.

Since the end of the air injection pipe 40 protrudes on the sea surface, it is not necessary to work underwater when injecting air for the turbine 10 support, and it is possible to easily grasp the position of the tidal current generator in the sea water. There is an advantage.

When air is injected into the air chamber 23 of the support 20 through the air injection pipe 40, the seawater 29 filled in the air chamber 23 is externally opened through the opening 25 formed in the support 20. As the seawater 29 flows out of the air chamber 23, the weight of the air chamber 23 becomes lighter, and thus the magnitude of buoyancy acting on the support 20 and the turbine 10 is increased. It becomes larger than the weight, and the turbine 10 fixed to the upper surface of the support body 20 and the support body 20 floats on the sea surface.

When lifting, the projections 27 installed on the outer surface of the support 20 are moved along the grooves 33 on the sidewalls of the guide 30 so that the birds are stably without overturning due to rapid flow velocity or center of gravity imbalance during the lifting operation. Turbine for power generation 10 has the advantage that can be supported above the sea level.

Although the embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and those skilled in the art can make various modifications within the scope of the present invention. Of course, such modifications fall within the scope of the present invention described in the claims of the present invention.

1 is a schematic diagram of a tidal flow generator of the monopile type.

2 is a perspective view of a tidal current generator according to the present invention.

3 is a view showing a normal operating state of seawater of the tidal current generator according to the present invention.

Figure 4 is a view showing a state floated out of the sea level of the tidal current generator according to the present invention.

5 is a view showing a tidal current generator having a hard air inlet pipe inserted into the air chamber.

6 is a view showing a state in which air is introduced into the air chamber from the air injection pipe of the hard material.

<Explanation of symbols on main parts of the drawings>

10 turbine 20 support

23: air chamber 25: opening

27: turning 30: guide

40: air injection pipe

Claims (6)

Turbine for power generation installed and operated in the water; And An algae generator comprising: a support having an air chamber therein and supporting the turbine for algae power generation. The method of claim 1, And a guide for guiding movement in the vertical direction of the support. The method of claim 1, And a catching means for preventing the support from being separated from the guide. The method of claim 1, An algae generator, characterized in that the opening is formed in the support for the sea water flows out when the air is injected into the air chamber of the support. The method of claim 1, And an air injection tube communicating with the air chamber of the support and extending to the outside of the support. The method of claim 5, An end of the air injection pipe is a tidal current generator, characterized in that protruding above the water surface.

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