KR20100089921A - Power plant with powers of waves - Google Patents

Abstract

PURPOSE: A wave power generating station is provided to produce electricity by converting the potential energy of a floating power plant into rotational motion through a rack gear, a projection gear, and a projection pin gear. CONSTITUTION: In a wave power generating station, a connection rod(3) combined with a rack gear(1) of a generator facility(11) is fixed to the bottom of an underwater fixed plate. The electricity is produced using the buoyancy and gravity of a floating power plant. Provided is a facility changing reciprocation into the rotational motion in the power plant. The facility is made of a rack gear, a projection gear, and a projection pin gear.

Description

Wave Power Plants {POWER PLANT WITH POWERS OF WAVES}

A power plant that uses the buoyancy and gravity of a ship to produce power with the force of waves.

In the past, the production of primary energy by the force of the wave, after the second generation with the energy stockpile energy generated more losses and large capacity is not possible, but the present invention is a power source itself is a source of energy, so the loss is small and large capacity is possible.

We want to get a lot of energy for free from nature with one investment like solar and wind power.

Even though there is a tidal power plant by seawater, the construction cost is excessive, the efficiency is low, and there are environmental problems, but the present invention installs a wave power plant, which is advantageous in terms of cost, efficiency, and environment.

Wind and solar power plants are not capable of large capacity, but wave power plants are capable of large capacity, so if the wave conditions are met, it can be built innumerably on our coast or on the high seas, and we can obtain enough clean energy.

For example, the theoretical output (assuming no loss)

Potential energy of power line is as below.

M K S Unit

M (double weight) * G (gravity acceleration) * H (wave height) * M (speed) / 1000 (converts W to KW) = output (KW)

100,000,000 * 0.98 * 1 * 10 / 1,000 = 980,000 (KW) = 980 (MW)

100,000,000 * 0.98 * 2 * 10 / 1,000 = 1,860,000 (KW) = 1,860 (MW)

100,000,000 * 0.98 * 3 * 10 / 1,000 = 2,790,000 (KW) = 2,790 (MW)

The ship's weight is 100,000 tons, and the rising and falling speed of the power generation line is always assumed to be 10M per second (36KM per hour).

** Reference ** (Shingori Nuclear Power Plant 1,2 Examples)

Output: 1,000MW, Construction cost per unit: 1 trillion won, Construction period: 6.4 years, Later: Building can be removed after 100 years

Briefly described by Figures 1 and 2

The present invention couples the connecting rod (3) coupled to the rack gear (1) in the power plant (11) to the bottom fixing plate (9) to fix the buoyancy and gravity of the power line 10 by fixing to the bottom (20) It is a facility that generates electric power by using the driving power of the generator (11).

Specific details

In the present invention, when the sea level 19 rises due to the force of the wave in FIG. 2, the power generation line 10 rises due to buoyancy while the rack gear 1 in the power generation facility 11 and the jaw gear 2-1, 2-2) and the pin of the chin pin gear reciprocating by the compression spring 17 which is a part of the chin pin gear 15 is fixed to the generator shaft (7) by the bolt 14 ( 16) The jaw gear (2-1) is caught on the jaw to rotate the generator shaft (7), but the jaw gear (2-2), the pin 16 of the jaw pin gear 15 is the jaw of the jaw gear (2-2) It is not possible to rotate the generator shaft (7) by rotating in the sliding direction rather than

In addition, when the sea level 19 descends after the wave passes in FIG. 2, the power generation line 10 descends by gravity while the rack gear 1 in the power generation facility 11 and the jaw gears 2-2 and 2-2 are pulled down. The pin 16 of the chin pin gear reciprocating by the compression spring 17 which is a part of the chin pin gear 15 which is rotated and is fixed by the bolt 14 to the generator shaft 7. While rotating the generator shaft (7) by hanging on the jaw gear (2-2), the jaw gear (2-1) is the direction in which the pin (16) of the jaw pin gear (15) hangs the jaw of the jaw gear (2-1). Because it does not rotate the generator shaft (7) by rotating in the sliding direction

Therefore, the generator shaft 7 is always rotated by the chining gear 2-1 when the power line 10 rises by buoyancy and the chining gear 2-2 when the power line 10 descends by gravity. Since the generator shaft (7) rotates, as long as there is a wave generator shaft (7) always rotates, the power generation continues.

1 is a perspective view of the internal parts of the power plant after opening the enclosure partially.

Figure 2 is an elevational view of the power plant is installed on the power line to open a portion of the power generation line is fixed to the seabed by combining the bottom fixed rod of the rack gear that is part of the power plant with the subsea stationary support.

Figure 3 is a front sectional view showing two states of the rack gear and the chin gear, chin pin gear.

(A) Rotational indication of chin pin gear by chin gear when rack gear is raised

(B) Rotational indication of the chin pin gear by the chin gear when the rack gear is lowered

4 is a jaw gear display

(A) Floor plan (B) Rear view (C) Perspective

5 is a view of the rack of gears

(A) Perspective view (b) Side view (c) Front view

6 is a view of the jaw pin pin gear

(A) Perspective view (b) Front view (c) Cross section (d) Elevation view (e) Cross section without parts

Fig. 7 is a view showing pins that are part of the jaw pin pin gear

(A) Perspective view (b) Front view (c) Back view

8 is a view showing the compression spring that is a part of the jaw pin pin gear

(A) Elevation (B) Floor Plan

Figure 9 is a bolt to secure the generator shaft and the pull pin pin gear which is a part of the pull pin pin gear

10 is a generator and generator shaft display

(A) Perspective view (b) Front view (c) Back view

11 is a view of a circular spring pin

(A) Floor plan (B) Elevation

[Description of Code for Major Parts of Drawing]

DESCRIPTION OF SYMBOLS 1 Rack gear 2-1, 2-2 Chin pull gear 3 Rack gear lower fixing rod 3-1 Rack gear upper fixing rod

4: Rack gear fixing rod departure prevention tube 5: Generator 6: Generator support

7: Hole for the end of the bolt (14) to secure the generator shaft 7-1: 15 to the generator 8: Circular spring pin

8-1: Plate for fixing grooves 9: 3 to the seabed 10: Power line 11: Power plant

12 Power Line 13 Peking for Watertight 14 Bolt 15 Chin Pin Gear 15-1 Chin Hanging 17

15-2: Hole where 17 and 16 are inserted 15-3: Bolt hole where 14 is inserted 16: Pin of chin-up pin gear

16-1: Jaw hanging 17: 17 Compression spring into 15-2 19: Sea level 20: Bottom

21: Power line anti-rotation structure 22: 21 fall prevention and power line reciprocating guide pipe

C: ellipsis

Claims (2)

Fixing connecting rod (3) combined with the rack gear (1) of the generator facility (11) on the seabed surface (20) to the subsea stationary plate (19) to produce and process the power using the power line (10) buoyancy and gravity Or mobile power line equipment. Equipment for converting reciprocating motion into rotational motion in power generation equipment (combination of rack gear and chin gear and chin gear pin).

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