KR20120100863A - Methord of tidal generating worked by drum-type rotor that is costructed with spiral tube, which convert a kinetic energy of tidal current to a spin energy of a spiral tubes - Google Patents

Abstract

PURPOSE: A Tidal power generation method which drives a drum rotor by utilizing the kinetic energy of tide is provided to produce electricity by rotating a spiral tube using the kinetic energy of the tide. CONSTITUTION: A tidal power generation method which drives a drum rotor by utilizing the kinetic energy of tide is as follows. The drum rotor(07) with a permanent magnet(09) rotates in a coil(10), and the kinetic energy of the tide is converted into the rotary energy of the rotor. A tidal power generator comprises the drum rotor and a programmed stress measuring device. The stress measuring device resists the pressure of the tide, uses hydraulic pressure and spring inertia to apply rotary force to a spiral tube.

Description

Method for tidal generating worked by drum-type rotor that is costructed with spiral tube, which convert a kinetic energy of tidal current to a spin energy of a spiral tubes}

The present invention relates to a new type of power generation method for extracting electrical energy from kinetic energy of algae.

There are two types of power generation methods using tidal current: HAT method, where the direction of rotation of the water and the rotor is parallel, and VAT method, where the direction of rotation of the water and the rotor is at right angles. Separated by.

In the United States, Verdant Power is installing and operating six HAT type algae generators on the eastern bottom of Manhattan. In Korea, VAT type algae generators have been installed in Uldolmok.

1. Using the kinetic energy of algae passing through the spiral pipe, induce the rotation of the spiral pipe, and use it to implement the power generation method to extract the electrical energy.

2. Overcoming the problems of the existing algae generator, where the propeller or helical turbine is cracked and deformed due to the direction and hardness of algae, parasitics of marine life and marine pollutants, resulting in rapid decrease in power generation efficiency.

3. Proposal of easy tidal current development

1. Using a Venturi tube principle in an algae where a constant flow rate exists, drop and fix a device that doubles the algae flow rate to face the direction of the algae.

2. Join the spiral tube where the central axis of the device coincides with the central axis of rotation as shown in the [Figure].

3. The algae compressed and assigned through the above process flow into the inlet of the spiral tube forming the rotational central axis, move along the spiral orbit, and then gradually decelerate through the exit of the spiral tube, the rotational axis on the opposite side, and return to the sea. Go through an irreversible process.

4. Protruding structure is installed to hinder the flow of algae in the spiral tube as shown in FIG.

5. Induce the spin movement of the spiral tube using centrifugal force by the central part of the algae moving along the spiral tube and the force acting on the protruding structure installed in the spiral tube through the spiral portion of the algae passing through the spiral tube.

6. A drum-shaped rotor is provided to fill the empty space around the spiral tube by using a light material (compression sponge or foam foam) and the inlet and outlet of the spiral tube as the center of rotation.

7. Permanent magnets are arranged and attached to the outer diameter of the drum, and the rotor can be rotated in the coil winding as shown in [Figure].

8. Implement the method of extracting electric energy from the kinetic energy of algae by rotating energy of spiral tube

1. A new power generation method that improves the problems of the existing algae generator by constructing the algae migration path with the algae acceleration and coupling structure that can be less affected by the algae direction and hardness and the pipe structure that is less affected by marine pollutants. avatar

2. Contribute to the development and activation of algae power, the future energy resource

3. Prevention of environmental pollution through onshore assembly, offshore installation and operation of facilities by simplifying and lightening power generation facilities

[Representative drawing] Overview of the power generation device of the present invention
1 is an exploded view of the spiral tube (internal structure of the spiral tube) used in the present invention

1. Drop and fix venturi tube structure as shown in (02) to face the direction of algae in the algae with constant flow velocity to induce the flow rate of algae and central axis formation of algae flow.

2. Configure the inlet 04 and outlet 05 of the spiral tube so that the central axis 01 of the apparatus 02 and the rotational central axis of the spiral tube coincide, and use the bearing coupling structure 06 to connect the spiral tube. Combine (03) and the device (02) at points (04) and (05)

3. installation of the projecting structure 12 in the spiral tube 03;

It refers to the protrusion structure provided in order to increase the rotational efficiency of the spiral tube used in the present invention is configured in the form of A, B, C-type and the like of Figure 1, in detail to form a spiral perpendicular to the direction of movement of the bird The structure (A-type) in which the donut-shaped circular metal plate 14 is attached to the inside of the tube, and the band-shaped metal plate configured to have an angle difference within 0 to 180 degrees with the direction of movement of the bird into a spiral shape (15). It refers to the structure (B-type) attached to the spiral tube and arranged, and the structure (C-type) in which a strip-shaped metal plate matching the length of the spiral tube is attached along the spiral tube in a spiral (16). .

4. Fill the empty space around the spiral tube with a light material (compression sponge or Styrofoam) and construct a drum (Drum, 07) with the inlet and outlet of the spiral tube as the central axis of rotation. The eccentricity of the drum was controlled by the method of driving the drum so that the drum could be rotated about the central axis of rotation without deviation.

5. The permanent magnets 09 are arranged along the outer diameter of the drum to form the rotor 07 of the power generator, and the generator is configured to surround the drum with terminals formed of coil windings 10.

6. Programmed stress device applying hydraulic or spring inertia to spin-induce spiral thread by responsive to incidence angle and pressure in the spiral tube at the outlet side (05) of spiral tube (08) It was configured to double the rotational motion 13 of the spiral tube.

7. When the algae compressed and accelerated through the venturi tube are introduced through the spiral tube inlet 04 and move along the spiral tube at a high speed, the movement of the water particles constituting the central part is performed. Water particles in the outer part of the algae having the centrifugal force and the momentum of the straight propagation tend to induce rotational motion of the spiral tube by using the force acting on the protruding structure 12, and the inlet (04) and the outlet (05) of the spiral tube Spiral tube having a bearing coupling 06 to the structure 02, the bearing interface to the structure 02, the rotating shaft is supported so as to rotate the rotation (13) about the rotation axis (01).

8. Through the above process, the kinetic energy of the algae is converted into the rotational energy of the spiral tube, and the drum-shaped rotor (09) coiled with the spiral tube embedded therein and the permanent magnets arranged and attached to the outer diameter By configuring to rotate within (10), it was possible to implement a new type of power generation that the present invention had as a subject.

The present invention is the South coast of Korea [Uldolmok helical algae power generation (2003 ~ 2009), Yeosu cemetery HAT floating algae power generation (2006-2008), Hadong Drainage helical algae power generation (2006), Wando cross-gauge algae power generation (2008) In view of the reality that the plan to install algae by installing propellers and helical turbines under the sea level in Korea, etc., suffered from the problems of cracks and deformations of the propellers and helical turbines mentioned above, I think it could be suggested as a new alternative for development.

Description of symbols used in the [representative diagram] and [FIG. 1] is as follows.
(01) the central axis of the venturi tube structure and the rotation center axis through the inlet and outlet of the spiral tube used in the present invention
(02) Venturi tube-type structure used in the present invention
(03) Spiral tube used in the present invention and an actual view thereof
(04) the inlet portion of the spiral tube combined with the venturi tube-type structure and a bearing;
(05) The outlet portion of the spiral tube combined with the venturi tube-type structure and the bearing
(06) Bearing coupling structure for connecting the venturi tube and the spiral tube
(07) The drum-shaped rotor of the present invention is formed by enclosing the spiral tube with a compressed sponge or sponge foam to form a drum shape, and then attaching a permanent magnet.
(08) Programmable stress devices constructed by applying hydraulic or spring inertia to impose spin motives on spiral pipes in response to incidence angles and pressures in tidal flow tubes
(09) Permanent magnets arranged and attached to the outer diameter of the drum
(10) Coil windings arranged and arranged on the inner side of the cylinder surrounding the rotor for generating power using the rotation of the drum-type rotor
(11) Direction of movement of water particles in the central part of algae flowing along the spiral tube
(12) Protruding structure in the spiral tube provided to induce a drag against the direction of the flow of the bird and induce rotational movement of the spiral tube.
(13) Rotational movement of spiral tubes induced by the movement of tidal currents and their direction of rotation
(14) A-type protruding structure consisting of a donut-shaped circular metal plate attached to a spiral tube perpendicular to the direction of movement of the algae.
(15) B-type projecting structure (B-type) in which a strip-shaped metal plate configured to have an angle difference between the direction of movement of the bird and the angle within 0 to 180 degrees is attached to the spiral tube in a spiral shape.
(16) C-type protruding structure in which a strip-shaped metal plate coinciding with the length of the spiral tube is spirally attached along the spiral tube.

Claims (1)

Coupling a spiral tube 03 having an inlet 04 and an outlet 05 at both ends of the central axis 01 of the venturi tubular structure 02 provided to accelerate the flow rate of the tidal current using a bearing 06. The spiral tube 03 is filled with a compressed sponge or a sponge foam to form a drum shape, and a metal piece is used to adjust the eccentricity of the drum, and then a permanent magnet 09 is formed at the outer diameter thereof. Attached and arranged drum rotors 07;
Forces of the algae water particles having the centrifugal force and the linear tendency momentum of the water particles due to the spiral tube motion 11 of the algae accelerated by the structure 02 acting on the protruding structure 12 in the spiral tube 03. It is configured to allow the spiral tube to rotate 13 by the sum of the vectors, while on the other hand, it repels the incidence angle and pressure of the algae flowing into the inlet 04 of the spiral tube 03, and gives spin synchronous to the spiral tube. Including a programmed stress device (08) provided by applying hydraulic and spring inertia to
The drum-type rotor (07) having a permanent magnet (09) rotates in the coil winding (10) surrounding it, thereby converting the kinetic energy of the tidal current into the rotational kinetic energy of the drum-type rotor with a spiral tube. (TMethord of Tidal Generating worked by drum-type rotor that is costructed with), which uses the kinetic energy of the tidal flow through the spiral tube to produce electricity therefrom. spiral tube, which convert a kinetic energy of tidal current to a spin energy of a spiral tubes)

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