JP5073087B1 - Water current generator, tidal current generator and tidal current power generation method using the same - Google Patents

Abstract

An object of the present invention is to provide a water current generator, a tidal current generator, and a tidal current power generation method using the same, which can efficiently generate power even with a small and simple configuration.
[Solution]
In order to solve the above problems, a water current generator 1 of the present invention includes a turbine 2 having a rotation shaft in the same direction as the water flow, a conical water collecting member 3 provided coaxially with the turbine 2, and an upper portion of the turbine 2. And a chain 5 that is applied to the outer periphery of the turbine 2 and transmits the rotation of the turbine 2 to the generator 4.
[Selection] Figure 1

Description

The present invention relates to a technique for generating power using a water flow, and particularly to tidal current power generation.

The expansion of conventional thermal power generation becomes difficult due to the problem of global warming, and further, the development of renewable natural energy is desired in the midst of the radioactive contamination caused by the nuclear accident. Moreover, cheap natural energy is desired instead of high-cost renewable energy as in the past.

Patent Document 1 discloses a hydroelectric power generation including an impulsive water turbine having a rotary shaft that is orthogonal to the water flow and parallel to the water surface and in which both ends of the rotary shaft are rotatably supported. An apparatus is described. In this way, attempts have been made to use the water flow as an energy source by the water wheel, but the water wheel used has a rotation axis that is orthogonal to the water flow and parallel to the water surface.

Japanese Patent No. 4653036

A conventional water turbine such as the hydroelectric generator described in Patent Document 1 has a rotation axis that is orthogonal to the flow and parallel to the water surface, and receives the water flow only at the lower end of the water wheel. Therefore, even a large water wheel can use only a small amount of water. Moreover, in such a water turbine, only one direction of water flow can be used. If it always flows in the same direction as in a river, that may be sufficient, but if the fullness changes by time, such as in a tide, only one of the flows can be used.

An object of the present invention is to provide a water current generator, a tidal current generator, and a tidal current power generation method using the same that can efficiently generate power even with a small and simple configuration.

In order to solve the above problems, a water current generator according to the present invention includes a turbine having a rotation shaft in the same direction as the water flow, a conical water collecting member provided coaxially with the turbine, and a power generation provided at an upper portion of the turbine. And a chain that is applied to the outer periphery of the turbine and transmits the rotation of the turbine to the generator.

A tidal current generator according to the present invention includes a turbine having a rotating shaft in the same direction as the water flow, a conical water collecting member provided coaxially with the turbine before and after the turbine, and a generator provided at the upper portion of the turbine. A chain that is applied to the outer periphery of the turbine and transmits the rotation of the turbine to the generator, a float that floats the turbine and the generator, and an anchor.

Furthermore, the tidal current power generation method of the present invention generates power by installing a plurality of the above tidal power generators in the sea.

The water current generator of the present invention installs a turbine having a rotating shaft in the same direction as the water flow, receives the water flow from the entire surface of the turbine, and uses it for power generation. . Installation and movement are easy, and the power generation scale can be selected flexibly according to the installation location and power demand.

It is a front view which shows a water current generator. It is the same right view. It is the same top view. It is a front view which shows the principal part of a water current generator. It is the same right view. It is a front view which shows a tidal current power generation method.

EMBODIMENT OF THE INVENTION The form for implementing this invention is demonstrated in detail based on drawing. FIG. 1 is a front view showing a water current generator, FIG. 2 is a right side view thereof, and FIG. 3 is a plan view thereof. 4 is a front view showing the main part of the water current generator, and FIG. 5 is a right side view thereof.

The water current generator 1 includes a turbine 2 having a rotation axis in the same direction as the water flow, a conical water collecting member 3 provided coaxially with the turbine 2, a generator 4 provided on the upper portion of the turbine 2, and a turbine A chain 5 is provided on the outer periphery to transmit the rotation of the turbine 2 to the generator 4.

Here, the water current generator 1 is provided with conical water collecting members 3 before and after the turbine 2 so that the water current generator 1 can be used as a tidal current generator. When used in a river, it should be provided only upstream.

The turbine 2 has a plurality of turbine blades 6. A hollow portion 7 having no turbine blade is formed in the central portion. A cylindrical outer frame 8 is attached to the outer periphery of the turbine 2, and a cylindrical inner frame is also attached to the inner peripheral portion. Furthermore, a square-shaped turbine support frame 9 is provided outside the outer frame 8. The turbine support frame 9 is in contact with the outer frame 8 of the turbine 2 from the outside, and supports the turbine 2 so that the axial movement of the turbine 2 is restricted but the turbine 2 is freely rotatable.

Moreover, the outer periphery of the turbine 2 is a sprocket, and the chain 5 is wound around it. This chain 5 is in contact with two intermediate sprockets 10 directly above the turbine 2, and is wound around a generator-side sprocket 11 that is coaxially connected to the upper generator 4. Therefore, the rotation of the turbine 2 is transmitted to the generator 4 via the chain 5.

The side of the water collecting member 3 facing the turbine 2 is the same as or slightly larger than the diameter of the turbine 2. And it is the shape which the diameter expanded toward the other side.

A substantially rectangular main body frame 12 is provided on the upper portion of the turbine 2. A turbine support frame 9 that supports the turbine 2 is supported by the main body frame 12. The water collecting member 3 and the generator 4 are also supported by the main body frame 12. A plurality of floats 13 are attached to the main body frame 12, and the entire water current generator is levitated. An anchor 14 is connected to the lower part of the main body frame 12.

Next, the operation of the water current generator 1 and the power generation method will be described. The water current generator 1 is installed at a location where there is a water flow. Here, it installs so that the rotating shaft of the turbine 2 may follow the flow direction of water. The length of the chain of the float 13 and the anchor 14 is adjusted as appropriate, and the depth is set so that a good water flow can be obtained.

The water flowing in from the inlet of the water collecting member 3 is collected and sent to the turbine 2 to rotate the turbine 2. Since all the turbine blades are in water, even if they are small, they can receive water flow effectively. Further, since the cavity 7 is formed at the center of the turbine 2, when the amount of inflow is large, a part of the water passes through the cavity 7 so that excessive force is not applied to the turbine blade. Yes. In addition, suspended matters in the water also pass through the cavity 7 and are not easily entangled with the turbine blade.

The turbine blades 6 arranged in a propeller shape can rotate regardless of the direction of water flow. Therefore, when installed in the sea, the water flow is reversed when the tide is low and when the tide is full, but the turbine 2 rotates regardless of which water flow is received.

The generator 4 is installed so as to come out on the water. The rotation of the turbine 2 is transmitted to the water generator 4 through the chain 5 to generate power. When equipment using electric power is nearby, power may be generated using an AC generator and the electricity may be used on the spot. Moreover, if it is a certain distance, you may transmit to a consumption place with a power transmission line. Alternatively, the storage battery may be charged by generating a direct current using a direct current generator.

In the example shown in FIGS. 1 to 5, the outer diameter of the blade 2 is 800 mm, the diameter of the cavity 7 is 400 mm, the diameter of the opening of the water collecting member 3 is 1460 mm, and the entire apparatus has 1600 mm on one side. It is supported by a square body frame 12. In this case, the maximum power generation amount is about 3 kW.

FIG. 6 is a front view showing an example of a tidal power generation method. A plurality of water current generators 1 are installed side by side in a sea area where there is sufficient tidal current. What is necessary is just to select suitably the magnitude | size and number of this water current generator 1 according to the magnitude | size of the sea area, the amount of tidal currents, and also the desired power generation amount.

Since the water current generator 1 of the present invention can generate enough power even with one unit, it can be used in various places. In the ocean, there are restrictions on fishery rights, ship operation rights, and other laws, and the available space and conditions may change, but by increasing or decreasing the water current generator 1, power generation suitable for each place can be performed .

Moreover, since the water current generator 1 of this invention is easy to install and remove, it can be used in a limited season. Furthermore, when the ocean current changes depending on the season, it is possible to generate electricity while moving it to the optimum position.

As described above, by implementing the water current generator of the present invention as a tidal power generator, it is possible to generate power in a wide range of seas extending around Japan. Since the power generation uses tidal currents, it does not emit carbon dioxide and does not deteriorate the surrounding environment.

1. Water current generator 2. Turbine 3. 3. Water collecting member Generator 5. Chain 6. Turbine blade 7. Cavity 8 Outer frame 9. Turbine support frame 10. Intermediate sprocket 11. Generator-side sprocket 12. Main body frame 13. Float 14. anchor

Claims (3)

A turbine having a rotation axis in the same direction as the water flow, a conical water collecting member provided coaxially with the turbine, a generator provided at the upper part of the turbine, and the rotation of the turbine applied to the outer periphery of the turbine to the generator to have a chain, in the center of the turbine have cavities no turbine blades are formed on the outer periphery of the turbine is mounted a cylindrical outer frame, the inner frame inner periphery portion is also cylindrical turbine A turbine support frame is provided on the outer side of the outer frame, and the turbine support frame is in contact with the outer frame of the turbine from the outside so that the axial movement of the turbine is restricted but the rotation is free. A water current generator that supports the turbine . A turbine having a rotation axis in the same direction as the water flow, a conical water collecting member provided coaxially with the turbine before and after the turbine, a generator provided at the upper part of the turbine, and a rotation applied to the outer periphery of the turbine a chain for transmitting the power generator, a float levitate the turbine and generator, have a anchor, the central portion of the turbine have cavities no turbine blades are formed, an outer cylindrical on the outer circumference of the turbine A frame is attached, a cylindrical inner frame is also attached to the inner periphery of the turbine, and a turbine support frame is provided outside the outer frame. The turbine support frame is in contact with the outer frame 8 of the turbine from the outside. A tidal current generator that supports the turbine so that the axial movement of the turbine 2 is restricted but can rotate freely . A tidal power generation method for generating power by installing a plurality of tidal power generators according to claim 2 in the sea.

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