KR100660825B1 - Tidal power generator - Google Patents

Abstract

The present invention relates to the generation of electric power using tidal power, and more particularly, to rotate a power generation wing with a stream of seawater regardless of climatic conditions, and to generate a generator by using a powerful rotational force generated from the power generation wing. The present invention relates to a power generator using tidal power to generate power.

The present invention devises a technique for automatically generating and rotating the power generation blades of the transfer chain rotatably installed on the lower part of the buoyancy body using the help of low tide and high water so that the power shaft generates rotational power. In order to guide the installed guide rollers to a plurality of derailment preventing members installed to be close to the engagement position of the transfer chain and the rotating sprocket to devise a technology to prevent the transfer chain derailed, a plurality of formed in the transfer chain during the rotation operation of the transfer chain It is a feature of the invention to seek a technology to ensure the smooth operation of the power generation wing by preventing the falling of the transfer chain by transporting the door to the droop prevention rail.

Description

Tidal power generators {omitted}

1 is a longitudinal cross-sectional view of a power generation apparatus of the present invention installed on a buoyancy body;

Figure 2 is a side view of a state in which the power generation device of the present invention is installed on the buoyancy body

Figure 3 is a perspective view of the present invention wing and derailment prevention means

Figure 4 is a cross-sectional view taken along line A-A of the present invention the installed state of the power generation wing

Figure 5 is a cross-sectional view taken along line B-B of the present invention installed state of the derailment preventing means and the deflection prevention means

Figure 6 is an enlarged view of the operating state of the present invention blade

Figure 7 is a side view of the installation state of the derailment preventing means of the present invention

8 is a side cross-sectional view of the present invention sagging prevention means

Figure 9 is a longitudinal cross-sectional view of the operating state of the sag prevention means of the present invention

10 is an exemplary view of a power drawing state using the power shaft of the present invention

<Explanation of symbols for main parts of drawing>

1 ‥ buoyancy body 10 ‥ power shaft

12 ‥ Rotary Sprocket 20 ‥ Transfer Chain

22 ‥ Folding lock 30 ‥ Powering wing

40 ‥ Derailment prevention means 41 ‥ Derailment prevention frame

43 ‥ Derailment preventing member 45 ‥ Guide roller

50 ‥ Deflection means 52 ‥ Guide holder

53 ‥ Traction rail 55 ‥ Deflection prevention rail

56 ‥ car 58 ‥ wire

The present invention relates to the generation of electric power using tidal power, and more particularly, to rotate a power generation wing with a stream of seawater regardless of climatic conditions, and to generate a generator by using a powerful rotational force generated from the power generation wing. The present invention relates to a power generator using tidal power to generate power.

In general, tidal power generation generates electricity by installing a water generator in a place where the flow rate of seawater is high, and there is no need to block dams separately to secure reservoirs (George), and the movement of the vessel is free and the movement of fish is hindered. It is an environmentally friendly alternative energy system that does not affect surrounding ecosystems.

The ocean for tidal power usually occupies 70% of the earth's surface area, and is a source of life and energy. As a report, tidal power using the ocean lacks fossil fuel, petroleum and natural gas, which are depleted in the global village in the 21st century. It is being promoted as the only way to prepare for the depletion of resources.

As described above, the tidal power generating apparatus using the flow of sea water is mainly used to keep the sea water at high tide and discharge it when necessary to generate power or to use the flow of sea water generated by the difference between tides. The generator was the mainstream.

Such tidal power generators are usually installed in the buoyancy body that can float in the sea water, so that the strong tidal power of the high and low tide to rotate the rotary blades, the power generated by the rotary blades through the power transmission device By driving a generator, it had a basic structure capable of producing electric power.

However, conventional tidal power generators are not large enough to generate rotational force enough to produce enough power in real production, and cannot guarantee smooth operation, and can withstand external forces due to high and low tide and other weather conditions. It is a situation that can not secure the durability can not be practically used.

The present invention is to provide a power generation device that can produce sufficient power as well as smooth operation, as well as the operation of the tidal power by high tide and low tide as a long-term use as the best technical problem. do.

The present invention devises a technique for automatically generating and rotating the power generation blades of the transfer chain rotatably installed on the lower part of the buoyancy body using the help of low tide and high water so that the power shaft generates rotational power. In order to guide the installed guide rollers to a plurality of derailment preventing members installed to be close to the engagement position of the transfer chain and the rotating sprockets to devise a technique to prevent the derailment of the transfer chain, a plurality of formed in the transfer chain during the rotation operation of the transfer chain It is a feature of the invention to seek a technology to ensure the smooth operation of the power generation wing by preventing the falling of the transfer chain by transporting the door to the droop prevention rail.

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

The core technical configuration constituting the power generation device of the present invention is a pair of power shaft 10 is arranged to be rotatable on both sides of the lower side of the buoyancy body 1, and the rotating sprocket coupled to both sides of the power shaft 10 ( 12) a transfer chain 20 coupled between the plurality of power generation blades 30, which are installed on the outer surface of the transfer chain 20 and are automatically horizontally and rotationally driven by assistance, and the transfer chain 20 Derailment prevention means 40 for inducing the transfer chain 20 from derailing from the rotating sprocket 12 by allowing the guide roller 45 installed in the transfer chain 20 to pass through the derailment preventing member 43 during the rotation operation of the rotary chain 12. And, while the rotation chain of the transfer chain 20, the plurality of doors 56 attached to the power generation wing 30 is to slide and transport along the sagging prevention rail 55, and at the same time selectively the sagging prevention rail 55 Falling prevention means (50) to prevent the falling of the transfer chain 20 by lifting Yirueojim it is possible to understand the basis of the accompanying drawings.

The configuration of the present invention will be described more clearly so as to be easily implemented by those skilled in the art.

As shown in FIG. 1, the buoyancy body 1 on which the power generation device of the present invention is mounted may be applied to a vessel having a sufficient buoyancy to float in sea water, and a power generation device in the lower center of the buoyancy body 1. The installation space (2) which can be installed is formed to be recessed, and both ends of the installation space (2) is vertically cut off the blocking film (3) to block the external force (wind, storm, etc.) is applied to the power generator installed therein It is installed, and both sides of the installation space (2) to the lower side of the blocking film 3 is connected to the support (4) to maintain the firmness without the buoyancy body (1) open.

As shown in FIGS. 1 and 4, the pair of power shafts 10 are rotatably installed on both sides of the installation space 2 by a rotational support 11 fixed to the buoyancy body 1. A pair of rotary sprockets 12 are coupled to the power shaft 10 so as to be spaced apart by a predetermined distance, and the rotary sprocket 12 is coupled to the transfer chain 20 by the rotational operation of the transfer chain 20. 10 rotates to produce a constant rotational power.

A plurality of power generation wings 30 to provide a rotational force to the transfer chain 20 is installed at equal intervals along the outer surface of the transfer chain 20, this power generation wing 30 is automatically by the help of high and low tide It serves to drive the transport chain 20 while moving horizontally, rotationally in either direction.

The power generation wing 30 is a way to prevent the breakage while bending or twisted by the strong help, while there is no difficulty in rotating the transfer chain 20 through a smooth horizontal transfer, even when a strong helper action. A plurality of reinforcing ribs 31 are integrally formed on both sides at regular intervals.

In addition, both sides and the outer side of the transfer chain 20 to prevent the transfer chain 20 is folded around the roller pin 21 while the power generation wing 30 is pivoted to the upper side during the horizontal transfer by the strong help. At the same time, a plurality of folding preventive tools 22 are integrally installed through the roller pins 21.

Therefore, the power generation wing 30 is not pivoted upward by the folding prevention tool 22 during horizontal transfer despite the strong assistance, and thus the transfer chain 20 does not generate the folding phenomenon so that more efficient development is achieved. It becomes possible.

That is, when the buoyancy body 1 is floating in the sea water when the tidal and low tide tidal action acts on the power generation wing 30 as shown in FIG. In accordance with the horizontal transfer of the power generating blades 30, the transfer chain 20 is interlocked and rotated in conjunction with each other, and the power shaft 10 according to the operation of the transfer chain 20 generates a constant rotational power. do.

Therefore, as shown in FIG. 10, the power transmission members such as the belt 10-2 and the chain are continuously connected to the power shaft 10 to be drawn out to accelerate the rotational power, and then the accelerated rotational power is increased. It is possible to generate power by selectively operating multiple generators.

Herein, the present invention is carried out to draw power from four places, and four driving pulleys (10-1) are installed on the power shaft (10) and each of the belts (10-) is installed on the driving pulley (10-1). 2) is spaced apart and installed to accelerate the rotation shaft 10-3, the driven pulley (10-4) coupled to the acceleration shaft (10-3) is continuously transmitted through the belt (10-2) By accelerating the next acceleration shaft 10-3, more accelerated rotational power can be obtained.

That is, the location of the power take-off and the number of the acceleration shafts 10-3 which are continuously accelerated may be selectively performed, and are not necessarily limited to those implemented in the present invention.

In addition, if the tidal current weakens due to the difference between tides, cutting off the power drawn to four places through the known clutch operation, and reducing the power to two or three places, it is possible to withdraw the power smoothly without overwhelming the entire generator. .

Meanwhile, according to the present invention, since the transfer chain 20 is derailed from the rotary sprocket 12 as it is manufactured in a large size during production, the derailment of the transfer chain 20 is prevented because the transfer chain 20 does not operate smoothly. Prevention means 40 is provided.

The derailment preventing means 40 for this purpose guides the guide roller 45 integrally installed in the conveying chain 20 to pass through the derailment preventing member 43 so that the conveying chain 20 is derailed from the rotating sprocket 12. As shown in FIGS. 1, 5, and 7, the derailment preventing frames 41 and 41a are respectively provided on the upper and lower portions of the transfer chain 20 adjacent to the rotating sprocket 12, respectively. It is fixedly installed in 1).

At this time, the derailment prevention frame 41, 41a is preferably formed to be curved upward as a whole to prevent falling down.

Derailment prevention members 43 having roller transport paths 42 are integrally attached to both bottoms and tops of the derailment prevention frames 41 and 41a, and the roller transport paths 42 are formed on the guide rollers 45. Both sides are manufactured in the form of spreading outward to facilitate mouth and mouth.

In addition, the plurality of guide rollers 45 guided to the derailment preventing member 43 are integrally placed on both upper ends of the power generation wing 30, so that the guide rollers 45 are derailed when the transfer chain 20 is rotated. The conveying chain 20 is moved from the rotating sprocket 12 even though it is manufactured in a large size by inducing the conveying chain 20 to be in the same line as the rotating sprocket 12 while passing through the roller conveying path 42 of the prevention member 43. By effectively preventing derailment, the power shaft 10 can generate sufficient rotational power for practical use.

On the other hand, as a means for preventing the smooth operation is not made as the transfer chain 20 is lowered by excessive weight when manufactured in large, provides a separate sag prevention means (50).

This sag prevention means 50 is a plurality of doors 56 attached to the power generation wing 30 during the rotation operation of the transfer chain 20 to slide along the sag prevention rail 55 as well as the sag at the same time When the prevention rail 55 is struck to the bottom, it is lifted to the top to prevent the transfer chain 20 from sagging.

The configuration of the sagging prevention means 50 for this purpose is a plurality of towing support frame 51 is fixed to the buoyancy body 1 at equal intervals on the inner lower portion of the transfer chain 20, the towing support frame 51 is It is formed to be bent upwards to prevent falling down.

Guide holders 52 are integrally attached to both sides of the center of the traction support frame 51, and the guide holders 52 are integrally connected to each other by the connecting member 53a so that the guide holders 52 can be moved up and down. The rail support 54 is attached to the bottom of the tow 53 and the sagging prevention rail 55 is integrally attached to the rail support 54.

Therefore, the sag prevention rail 55 is coupled to a plurality of doors 56 integrally mounted on the upper end of the power generating wing 30, the doors 56 is a sliding chain by sliding along the guide groove (55a) 20) is able to operate smoothly without falling down despite the overload.

At this time, the sagging prevention means 50 may serve to prevent the sagging of the transfer chain 20 and at the same time, even if sagging occurs at the bottom, it may serve as a function of lifting it upwards.

To this end, the tow 53 is a wire 58 wound around a winch that serves to lift or pull a heavy object via a pulley 57 rotatably coupled to a fixed support 51 a installed in the tow support frame 51. When the winch is selectively operated by being integrally connected to the wire, the wire 58 is pulled up and the pull bar 53 is pulled upward, and eventually, the deflection prevention rail 55 is struck downward and lifted upward. The chain 20 can move upwards.

That is, the present invention rotates the transfer chain 20 by using the assistance force, the power shaft 10 generates a rotational power, and can operate the generator with this rotational power to produce power as well as derailment prevention means in this process ( 40) effectively prevents the derailment of the transfer chain 20, and prevents sagging of the transfer chain 20 by the sag prevention means 50 to ensure a more smooth operation to produce power in actual operation in large scale It is self-evident.

The present invention by using the tidal power of the high tide, the tide by the automatic transfer, the rotation of the power generation blades generated by the power shaft to generate a rotational power, by operating the generator with this rotational power it is possible to produce infinite power.

In addition, when the transfer chain is rotated, a plurality of guide rollers formed in the transfer chain pass through the derailment preventing member installed close to the rotating sprocket, so that the transfer chain does not derail from the rotating sprocket, so the operation is smooth and there is no disruption in power production. .

In addition, a plurality of car wheels formed on the power generation blade during the rotation operation of the transfer chain slide along the anti-slip rail to prevent the transfer chain from sagging, so that the operation of the power generation blade by the helper is smooth and has sufficient durability. Provide a useful effect.

Claims (6)

A pair of power shafts 10 rotatably arranged on both lower sides of the buoyancy body 1 that can float on the sea water; A transfer chain 20 coupled between the rotary sprockets 12 coupled to both sides of the power shaft 10; A plurality of power vanes 30 installed at equal intervals along the outer surface of the transfer chain 20 and automatically horizontally and rotationally moved by tidal and low tide tides; Derailment prevention means 40 for inducing the transport chain 20 from derailing from the rotary sprocket 12 while the guide roller 45 passes through the derailment prevention member 43 during the rotation operation of the transport chain 20; In the rotation operation of the transfer chain 20, a plurality of wheels 56 attached to the power generation wing 30 is slidably transported along the deflection prevention rail 55, and selectively lifts the deflection prevention rail 55 upwards. While it is made up of sagging prevention means 50 to prevent sagging of the conveying chain 20, The transfer chain 20 has a plurality of folding prevention tool 22 is provided on both sides of the transfer chain 20 to prevent the power generation wing 30 receives a strong assistance to be folded around the roller pin (21). And a power generating device using tidal power, characterized in that the outer surface is installed penetrating through the roller pin (21). The method according to claim 1, The power generation wing 30 is a power generation apparatus using tidal power, characterized in that a plurality of reinforcing ribs 31 are integrally formed at regular intervals on the upper and lower portions so as to prevent bending or torsion by strong tidal force. The method according to claim 1, Derailment preventing means 40 is fixed to the buoyancy body 1, the derailment prevention frame 41, 41a upwardly curved to prevent the upper and lower sides of the transfer chain 20 adjacent to the rotary sprocket 12 to fall. It is installed, the derailment preventing member 43 is formed on both sides of the derailment preventing frame 41, 41a, the roller conveying path 42 is formed on both sides and the upper portion, and the derailment preventing member 43, the transfer chain 20 A plurality of guide rollers (45) installed on the top of the power generation wing (30) during the rotation operation of the power generation apparatus using the help, characterized in that to prevent the derailment of the transfer chain 20 while passing through the roller feed path (42). The method according to claim 1, Deflection prevention means 50 is a plurality of towing support frame 51 is bent fixed to the buoyancy body (1) is bent upward at equal intervals in the inner lower portion of the conveying chain 20, the of the towing support frame 51 The guide holder 52 attached to both sides of the center is coupled to the pull rod 53 so as to be transported up and down, and the anti-rail 55 is struck by the rail support 54 attached to the lower portion of the tow 53. While being integrally attached to the deflection prevention rail 55, a plurality of doorways 56 integrally installed at the upper end of the power generation wing 30 slide along the guide grooves 55a to deflect the transfer chain 20. A generator using tidal power, characterized in that to prevent. The method according to claim 4, Tow 53 is a wire 58 wound around the winch for lifting or pulling heavy weight is integrally connected via the pulley 57 installed on the towing support frame 51, the tow 53 is a winch An electric power generating apparatus using tidal power, characterized in that for lifting up the sagging prevention rail (55) struck down to the top while transferring to the top according to the optional operation. delete

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