KR20120022309A - Waves and current generator, and wind turbines - Google Patents

Abstract

PURPOSE: A wave, tidal current and wind power generator is provided to enhance output efficiency compared to a generator with the same volume and weight since the inner and outer diameters of a disc-type rotor are large. CONSTITUTION: A wave, tidal current and wind power generator comprises a plurality of drums(2), a plurality of fixing straps(4), a long lever, a crutch bearing(70), and an output shaft(76). The drums are arranged under a deck and enable the deck to float on the sea. The fixing strap blocks the deck from moving. A wave detecting plate and an oceanic-current detecting plate are installed on a position perpendicular to the flow of wave and tidal current. Great force is obtained with a long lever, and a crutch bearing inserted into the output shaft is connected. The lever makes vertical movement to operate the output shaft.

Description

Waves and current generators, and wind turbines}

The present invention relates to a generator using waves and tides and wind power of sea water,

More specifically, the wave and tide of the seawater are detected by the wave detection plate and the current detection plate, so that when the clutch bearing (unidirectional bearing) slightly caught in the output shaft is moved by the movement of the long lever, several detection plates, levers, The output shaft rotates slightly faster by using a clutch bearing, and the rotational force is large but the rotational force is weak, so that an increase gear for increasing the rotational speed is generated to generate power at a high speed rotation.

Since the rotational force can generate power only when the wave or tidal flow is large, the watermill turbine part is configured to generate more power;

By rotating the spiral screw of the submersible pump by the increased output of the above, the seawater is stored in a reservoir in a high place, and rotates the watermill turbine by using aberration to reduce the rotational force to the clutch shaft to generate sufficient power generation.

In addition, since the wind blows a lot of wind, it is possible to produce much more power as well as wind power generation. In general wind power generation, the vertically arranged rotary vanes are arranged on a high pylon-shaped column. In order to reduce the resistance of the long lever at the position, the wing on the back of the wind is a wind power system that rotates in the configuration of the folding decoration.

Conventional tidal power generation is a method of rotating the seawater generated by the tidal wave between tidal waves and turbines. It is attached to a screw or deteriorates its function, which requires frequent cleaning, and there is a problem of shortening the life due to corrosion.

However, the present invention uses a flat plate for lever submerged using a detection plate, and since the watermill turbine side also operates in the water, the maintenance is convenient and most importantly, the construction cost of the dike stacking facility is incomparable. It was.

And the conventional wind power is expensive to manufacture by installing a vertical wing in a high cylinder, the wind power generation of the present invention was configured to use a long wing on a low column by operating the automatic folding and straightening of the horizontal wing.

Patent No. 10-0904834 Patent No. 10-0904798

The present invention has a difficult problem of making a dike and a channel to widen the most expensive channel gap in tidal power generation,

The loss of seawater passing between turbines and scours between the wings is large, and there are difficulties in constructing a system that stores or amplifies the force detected.

In addition, there is a problem that is difficult to maintain due to the easy corrosion due to the large number of parts that are submerged in the water by turning the turbine or screw.

In addition, there is a problem in that maintenance is difficult for expensive equipment by using long vertical vanes in high tower pillars in a wind generator.

In the present invention, in order to solve the problems as described above, in order to float the deck fixed in the wide sea, drum drums are arranged on the lower side of the deck, fixed in the sea with a fixed rope, always slack without rest It detects waves and tidal currents using a detection plate and amplifies the lever by rotating the output shaft with a clutch bearing fitted to the output shaft, and generates power by increasing the slow rotation. It is characterized by simplifying the expensive system by rotating the watermill turbine by rotating the watermill turbine again.

In addition, it is possible to manufacture wind generators at low cost and maintenance by rotating horizontal long blades at low height.

The wave, tide and wind generator of the present invention can be a power source of the next generation can supply power at low cost in Korea, the three sides of the sea and the difference between tides are large.

1 is a configuration diagram of the wave and tidal current and seawater generator of the present invention.
Figure 2 is a wind turbine arrangement configuration using the sea breeze of the present invention.
3 is a configuration of the lever reduction ratio according to the configuration of the A, B lever.
4 is a configuration diagram of a wave detector.
5 is an operation view of the lever and the clutch bearing.
6 is an exploded perspective view of the generator of the present invention
7 shows a stator core of a generator.
8 is a power generation operation diagram according to Fleming's right-hand rule.
9 is a coil winding configuration diagram of a generator stator.
10 is a simple battery charging circuit with a generation voltage output.

Hereinafter, with reference to the accompanying drawings will be described a preferred configuration and operation of the present invention for achieving the above object.

1 is a deck (3) is floating on the water in the sea where the tidal wave and the wave is floating in the drum (1), or a floating object can be installed, the deck (3) is not swollen, Four fastening lines (4) to be slightly locked in using the fixing body 16 of the sea (15) to connect four or more fixing lines at fixed intervals.

1 and 4 together to explain;

In order to detect the force of the wave continuously continually, a wave detection plate (10, which is selected according to the horizontal or vertical conditions) bent at the V-shape is applied to a strong spring (20) at the end of the long lever (30). ) To detect both waves in a right angle (or horizontal) arrangement, and when the waves are pushed, the detection plate is pushed and pushes the lever upwards, which moves the clutch bearing 70 slightly to clockwise the output shaft 76. Rotate a bit.

Since a plurality of detectors, levers, and clutch bearings disposed on the left and right sides are installed to lift the levers upwards at different moments, the output shaft 76 rotates clockwise.

And, on the sea surface, current flow detection plates 28 and 29 for detecting the flow of algae are arranged, which are also connected using levers 35 and 36, and the springs 25 and 26 are used to maintain neutrality, By moving the belt (74, 75) to move the respective clutch bearings 70 fitted to the output shaft 76 to rotate the output shaft 76 in the clockwise direction by the clutch operation.

The clutch operation is operated at slightly different moments from each other, and the output shaft rotates, but the force is high, but the rotation speed is slow, so that the speed increase is performed at the speed increase unit connected to the reducer.

In the speed increasing operation, the gear 2 (97) is rotated by the speed increasing belt 1 92 to rotate the gear 1 96 fitted to the output shaft to rotate the speed increasing belt 2 93, and the gear 3 ( 98) to rotate, and to increase the gear belt 3 (94) and gear 4 (99), if the speed ratio is four times a total of 64 times the speed is increased.

If the output shaft 76 has a speed of 50 R.P.M, the motor rotates at 3200 R.P.M at 64 times the speed, and the rotational force as a generator is sufficient.

However, when the waves and tides are still, the speed is slow and the amount of power generation is insufficient. The construction to compensate for this is the construction of a watermill turbine using drops.

Initially, the power generation pump does not use the pump to raise the sea water;

In order to form the dropping force unit 400, the reservoir support 401 is installed on the deck 3, the reservoir 420 is fixed, and the increased speed of the output shaft is increased for the pump operation to the reservoir 1. ), The belt 4 404 and the gear 5 405 rotate.

Two spiral skews 407 and 408 rotate together while the rotating shaft 2 406 in the submerged pipe 409 rotates, so that the seawater fills the reservoir 420 and exits the outlet 421. The turbine 430 rotates and the watermill turbine shaft 432 also rotates.

The conversion belt 433 of the watermill turbine shaft 432 is connected to the output shaft 76 to be clutched so that the rotation of the output shaft is increased faster.

The water coming out of the watermill turbine can be designed to make the wave detection plate 10 close together, and the watermill turbine can be installed in sets of two to produce a greater power at higher torque.

When the several clutch operations are operated at the same moment, only the fastest clutch bearings perform the clutch operation, and one output shaft 76 is operated under the common load.

2 is a wind turbine 500, the support 401 is positioned slightly higher on the deck 3, connecting the lever 5 (505) to the wing fixing disk 501 and attaching a folding wing 502 to the end side , Wings to rotate while holding the wind 501 wings are unfolded by the force of the wind, the wings back to the wind became a folded wing 506 to minimize the resistance of the wind.

Although not shown in the figure, the lever is also configured to minimize the resistance when the wind is backed, and the power transmission of the rotating wind shaft 507 is increased in the transmission of the right angle power to the worm gear and is transmitted to the clutch bearing of the output shaft 76. Was done.

The wings that are folded in accordance with the direction of the wind are automatically operated because the spring is unfolded even in the small wind when the wind is held, and the back is made of a weak spring that is folded at the wind. Unfolded into less wind loss.

The number of wings is large and the length of the lever is large, so it is good to have 6 to 8 pieces.

FIG. 3 is a drawing of the principle of the lever B which can increase the reduction ratio slightly even though B is half the length of A. Detailed descriptions can be easily seen from the drawings and thus will be omitted.

4 is a configuration of rotating the output shaft by the action of each clutch using two types of deceleration levers in pairs, when moving the lever 2 (32) up, the motion transmission unit 38 is reduced to about 8: 1 Raise the motion transmission table 1 (51) upward, move the secondary lever 1 (61) upward, and slightly move the clutch bearing 1 (71) clockwise (CW), so that the output shaft 76 also rotates slightly. do.

The lever 2 (32) on the right side performs the same operation, but the positions of the fixing part 2 (42) and the movement transmission shaft 2 (39) of the lever are changed, and the clutch operation is performed at different moments in the above-described configuration. The output shaft then rotates.

FIG. 5 shows that the lever 30 is connected to the clutch bearing (unidirectional bearing 70) fitted to the output shaft 76. When the lever is moved up and down, the clutch bearing inserted in the clockwise direction is moved by the clutch action when the lever is moved upward. It rotates, but it does not slip even 0 degrees and it acts as a clutch. When the lever is moved downward, it moves as a bearing without any resistance.

When riding a bicycle, the pedals are rattling at the beginning, which is the sound of a catching crush caused by the flywheel's clutch movement on the rear wheel axle. In addition, the operation of rotating the output shaft can be a reason for use in the present invention.

The clutch bearings are noise-free, low-volume and low-cost, making them a useful part for deceleration.

6 is an exploded perspective view of the generator,

When the power generation shaft 230 extended to the gear 4 (99) is rotated at high speed, the rotor magnet 206 rotates as well and gives a magnetic change by a right angle bridge to the stator cores 211 and 212 on both sides of the rotor. According to the right hand law, the voltage is generated on the coils 214 and 215 wound around the stator core.

The magnet 206 of the rotor is neodium having a large magnetic force, which has a high Gaussian, thereby increasing the power generation voltage. The higher the magnetic force, the torque rippled during no load and under load.

When the generator is rotated with bare hands at no load, the larger the gap between the slots, the more the magnets will be squeezed by the force of pulling the metal by the force like the number of slots.

If the number of slots is large, the amount of tolk ripple is slightly low, but generators using carbon brushes generate spark splashing, heat and noise, and have a short lifespan.

In the present invention, a skew inclined between the N and S magnetic poles of the rotating magnet 206 is applied to the yoke space portion 207 to reduce the tolk ripple.

7 is a power generation stator core, which is rolled up like a clockwork to form a perforated coil for winding a coil without using a central portion of the cylindrical core, and the inner diameter of the disk rotor is enlarged to increase the inner diameter of the same volume, There is an advantage that can produce a larger output than the conventional generator of the same system.

The rolled core as shown in FIG. 7 has an advantage of easy coil winding and low manufacturing cost.

FIG. 8 is a drawing in which power generation voltage may be generated by the right hand rule of Fleming. When a strong magnetic force rotates on the upper side of the slot of the stator 210, the change of the magnetic force is intersected at right angles. The direction of movement of the magnetic lines of force is formed in the S pole, and when the rotating magnet 206 moves one slot, an opposite magnetic path is formed, and the stator coils 214 and 215 are operated at right angles. Is formed.

9 shows that three-phase AC voltage is generated in UVW, and this voltage can be used for industrial and household power. When the generated voltage is high, the battery is charged through a three-phase rectifier circuit. This is a rectifier circuit that can be used in direct current equipment or by battery power.

Such waves, tide and wind generators are easy to manufacture because of their low cost. If there is a lake that is slightly higher than the salt-producing salt at the place of the generator, the papado and wind are bigger at night, but the electricity is used less overnight. When water is generated by using a drop of water during the day with a pump, it is possible to produce a constant electric power, and the three sides of the sea is considered to be a favorable condition for using electricity using the waves, tides and wind power of the present invention.

The reason why the sea water does not rot is that there are salty salts, but because the wind waves are always rocking and supplying oxygen, they also live fish, and the boat floating in the sea always has the ability to sense the movement power. It has the advantage of being able to generate power using this excellent wide plate sensor and long lever and clutch bearings that can convert microscopic movements into rotational energy.

Since the installation place is a large sea, it can produce more power when using multiple generators in parallel, and there is no obstacle such as trees or rocks around the windmill, and the sea wind is also strong, so it is judged as a place where the conditions are perfect. .

Waves are more than 1m in the deep sea, and more than 20cm are almost always generated even in the case of small waves.The detection plate of 1.8m x 3.8m connects 5m lever and 35mm inner diameter of the clutch bearing, and output shaft 35 In a gearhead equipped with a pyro detection plate and a lever, a rope with a fish ring about 2m high is hung with 100Kg of stones into the sea water. In the experiment, the clutch bearing acted on the shaft, and the shaft was rotated little by little, so that the rope was wound up and the 100Kg stone was lifted up to the sea. It can be the generator of the output.

For reference, the tide of the sea changes four times every day, about six hours and twelve minutes, and it is accompanied by waves by the wind, and the waves rise slightly at night, and when it rains, the tide flows, rumbles, and waves are large. The tidal waves of about 4th place are severe, the waves are large in the East Sea and the South Sea, and the algae are large between Qingdao and Gunsan in Korea.

1: Floating Part 2: Drum Box 3: Deck 4: Fixing Line
5: Lanyard 1 6: Lanyard 2 7: Lanyard 3 8: Lanyard 4
10: wave detection plate 11: wave detection plate 1 12: wave detection plate 3 13: wave detection plate 4
14: Wave 15: Undersea 16: Fixed body 17: Folding part
20: spring 21: spring 1 22: spring 2 23: spring 3
24; spring 4 25: spring 5 26: spring 6 27: current detection plate
28: Current detection plate 1 29: Current detection plate 2
30: lever 31: lever 1 32: lever 2 33: lever 3
34: lever 4 35: lever 5 36: lever 6 37: movement transmission axis
38: movement transmission axis 1 39: movement transmission axis 2
40: Gogo 41: Gogo 1 42: Gogo 2
50: exercise delivery station 51: exercise delivery station 1 52: exercise delivery station 2
60: 2nd lever 2 61: 2nd lever 1 62: 2nd lever 2
70: clutch bearing 71: clutch bearing 1 72: clutch bearing 2 73: output belt
74: output belt 1 75: output belt 2 76: output shaft
80: Shaft clutch bearing 81: Shaft clutch bearing 1 82: Shaft clutch bearing 2
90: Acceleration part 91: Acceleration belt 92: Acceleration belt 1 93: Acceleration belt 2
94: Speed Up Belt 3 95: Gear 96: Gear 1 97: Gear 2
98: Gear 3 99: Gear 4
100: wave and bird detection unit
200: power generation unit 201: rotor 202: rotor yoke
203: rotor yoke upper side 204: rotor yoke lower side 206: magnet 207: yoke space part
210: stator 211: stator core 1 212: stator core 2 213: stator slot
214: Stator coil 1 215: Stator coil 2 220: Stator fixing ring 221: PCB
222: electronic components
230: power generation shaft 231: bearing 232: core fixing portion
240: lower case 241: upper case
300: power generation rectifier D1-6: rectifier diode ABC: coil phase SW2: switch
UVW: output power
400: falling force 401: support 402: increased rotation axis 1 403: gear 5
404: belt 4 405: gear 5 406: accelerated rotation shaft 2
407: spiral screw 1 408: spiral screw 2 409: pipe 410: net
420: reservoir 421: outlet 422: falling sea water
430: watermill turbine 431: water tank support 432: watermill turbine shaft 433: ring belt
434: seawater
500: Wind power generation part 501: Wing fixation disc 502: Crowbar 5 503: Wings
503: wing folding spring 504: lever 5 506: folded wings 507: wind shaft

Claims (6)

Placing a plurality of drums under the deck so that the deck can float above the sea, fixing a plurality of cords in the sea to prevent the movement of the deck, and installing the wave and tidal current generators on the deck;
By installing the wave detection plate and the current detection plate in the vertical position in the flow of waves and tidal current, they get a large force with a long lever and connect the clutch bearings (unidirectional bearings) attached to the output shaft, and the lever acts as a slight upward and downward movement. Tidal current generator with waves rotating output shaft. The method of claim 1,
In order to increase the rotational speed of the output shaft, multi-stage speed-up is carried out to have a high speed ratio, and the rotor of the generator fitted to the increased output shaft is inclined spacing between the N and S magnetic poles of the disk-shaped rotor magnetic poles. The stator core is placed on both sides of the rotational stimulus so that the rotational stimulus can generate electricity. The stator core is rolled like a clockwork and forms a slot to wind the coil to generate an alternating voltage generated in the coil. Getting wave and tide generators. The method of claim 1,
The wave and tidal current detection plate is configured as wide as possible, and in order to improve the detection efficiency of waves and tidal currents, protrusion wings close to the V shape are formed at the left and right ends of the detection plate, and the long lever connected to the detection plate is connected to the detection plate. Wave and tidal current generators that return a spring to its original position when the wave changes or disappears. The method of claim 1, wherein
Using the increased rotational force, the pump moves seawater to a high reservoir on the deck and uses a drop to run the watermill turbine. When the rotational force is weak, it increases the amount of water that falls and decreases the amount of water when the torque is high to produce a constant power. Wave and tidal current generators. When a pole is placed on a fixed offshore deck and the wind turbine is installed with a long horizontal wing in a high position and rotates, the wing that holds the wind is almost completely unfolded to rotate the output shaft, and the wing that is against the wind is folded to reduce the load. When the output shaft rotates, the balance of the balance is tilted every turn, and when the rotation rotates, the detection force of the wave and tide detection plate is increased and the wave, tide, and wind generator rotates. The method of claim 4, wherein
Create freshwater lake in high position near the sea, and use the generated power remaining in the night to pump water with pump to raise seawater (also river), and control the amount of falling water according to the consumption of electricity during the day. It produces a large amount of power by turning a watermill turbine when it falls, and if the water used is river water, it can be used as agricultural water, and if it is salt water, it can be used as a salt wave and tide and wind generator.

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