KR101831395B1 - Energy generating Device Using Rotating Pendulum and the Combined Structure - Google Patents

Abstract

The present invention relates to a pendulum generator using natural energy and a coupling structure thereof.
In order to achieve the above object, according to the present invention, a cylindrical housing having a hollow portion to float on the sea surface is provided to ensure pivoting, and at least one buoyancy blade is provided on an outer circumferential surface of the housing to rotate the housing according to the flow of the sea surface, And a power unit coupled to the housing to rotate integrally therewith. The power unit is provided so as not to pivot relatively to the housing in response to the rotation of the housing, And the gravity body is formed in a plate-like shape having a predetermined thickness, and a plurality of the gravity bodies are provided in the longitudinal direction of the housing to enable continuous operation, and the gear bundle of the power unit has a first, 2 generator pivot gear is configured to include a ratchet to generate bi- Characterized in that use.
As a result, the housing rotates freely according to the flow of the sea surface, so that efficient and stable development can be achieved.

Description

[0001] The present invention relates to a pendulum generator using natural energy,

The present invention relates to a pendulum generator using natural energy and a coupling structure thereof. More particularly, the present invention relates to a pendulum generator having a buoyancy blade on an outer circumferential surface of a housing that floats on the sea surface, The present invention relates to a pendulum generator using natural energy and a coupling structure thereof that can achieve stable and continuous development by ensuring the efficiency of rotation.

Power generation using natural energy is the production of an electric energy source by driving a generator through the kinetic energy of wind and hydraulic power generated in a natural environment.

These types of natural energy include wind power, tidal power, wave power, geothermal power, and solar heat. Among them, the pendulum type power generation device is a power generation method that finally rotates the generator by using the sea surface flow generated by the wind.

The pendulum-type wave power generator described above has been variously disclosed in the prior art. As a prior art reference, Korean Patent No. 10-1510632 entitled "Wave Power Generator" (Registered on March 4, 2015, (Hereinafter, referred to as "prior art document 2"), and Korean Patent Laid-Open No. 10-2014-0093913, "Wave Power Generator" (disclosed on Apr. 29, 2014).

However, in the prior art documents 1 and 2, it has been proposed to use the flow of the sea surface, to convert only the horizontal motion into the rotational motion, or to convert the vertical motion into the rotational motion to produce electrical energy.

Therefore, there is a problem in that electric power can not be efficiently generated in the production of electric energy. In particular, when installed in a place where the flow of the sea surface is not smooth, There was a problem.

In addition, the prior art documents 1 and 2 have a problem that due to the complicated structure of the power generator, damage or failure of the member occurs during use, and it is difficult to achieve stable power generation in response to the flow of the sea surface.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an electric power generating apparatus, A pendulum generator using natural energy capable of preventing the damage or malfunction of the member by combining the plurality of power generation devices and flowing the individual power generation devices, And a bonding structure thereof.

In order to solve the above problems, the pendulum generator using natural energy of the present invention is provided with a cylindrical housing 100 having a hollow portion to float on the sea surface S, At least one buoyant blade 200 is provided to rotate the housing 100 in accordance with the flow of the sea surface S. The buoyant blade 200 is formed to have a greater thickness on the outside, The power unit 300 is coupled to the inside of the housing 100 so as to rotate integrally with the power unit 300 so as not to pivot relatively to the housing 100 in response to the rotation of the housing 100, The gravity body 400 is formed in a plate-like shape having a predetermined thickness, and a plurality of the gravity bodies 400 are provided in the longitudinal direction of the housing 100 to enable continuous operation. 300 are formed to have first and second generator shaft shafts 314a, 314b that rotate in different directions in different directions, respectively, so that bi-directional rotation is used for power generation.

A rudder 220 is formed at one end of the buoyant vane 200 to control the flow direction of the buoyant vane 200.

The gravity body 400 may include a power transmission unit 410 for transmitting a rotational force to the power unit 300 and a gravity weight 420 disposed below the power transmission unit 410.

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In addition, a supporting bulkhead 500 may be formed on the inner side of the housing 100 at a predetermined interval between the plurality of gravity bodies 400.

In addition, the housing 100 may have a first engaging means 110 formed on at least one side thereof.

In addition, the second engaging means 120 may be formed on the outer circumferential surface of the housing 100.

The lid 130 may be provided on the outer circumferential surface of the housing 100 so that the lid 130 can be detached.

A pendulum generator assembly according to the present invention is a pendulum generator assembly having a plurality of pendulum generators according to any one of the sixth to seventh aspects of the present invention, And a first engaging means 110 formed on the housing 100 of the pendulum generator adjacent to the engaging means 110 are engaged to each other so that the pendulum generator is continuously provided in the longitudinal direction.

The second engaging means 120 formed on the housing 100 of the pendulum generator and the second engaging means 120 formed on the housing 100 of the pendulum generator adjacent to the engaging ring 140 are engaged A pair of pendulum generator devices may be provided in the width direction.

The pendulum generator using natural energy according to the present invention is provided with buoyancy blades on the outer circumferential surface of the housing, and the housing rotates freely according to the flow of the sea surface, thereby achieving efficient and stable power generation.

In addition, even when the flow of sea level is not constant, there is an effect that efficient power generation is possible regardless of the place.

Furthermore, a load body is provided at the lower part of the buoyant wing so that more effective pivoting can be achieved by utilizing gravity due to buoyancy and load due to seawater.

Also, there is an advantage that a power generating unit is simple and a damage or failure of the member can be prevented by providing a gravity body that transmits a rotational force to the power unit, the power unit being coupled to the inside of the housing to rotate integrally.

Further, a rudder is formed at one end of the buoyancy vane, and the flow direction of the buoyancy vane can be controlled.

Further, at the inner side of the housing, the support partition walls are formed at a predetermined interval between the plurality of gravity bodies, so that structural stability can be ensured despite the load of the gravity body.

And the pendulum means formed in the housing adjacent to the housing means of the pendulum power generation apparatus are coupled to each other so that a plurality of pendulum power generation apparatuses are continuously provided, Can be provided.

1 is a cross-sectional view of a pendulum generator according to an embodiment of the present invention;
2 is a perspective view of a pendulum generator according to various embodiments of the present invention.
3 is a perspective view illustrating the inside of a housing of a pendulum generator according to an embodiment of the present invention.
4 is a perspective view showing the inside of a housing of a pendulum generator according to another embodiment of the present invention.
5 is a perspective view illustrating a pendulum generator assembly according to an embodiment of the present invention.
6 is a perspective view illustrating a pendulum generator assembly according to another embodiment of the present invention.
FIG. 7 is a perspective view illustrating a pendulum generator assembly according to another embodiment of the present invention. FIG.
8 is an exploded perspective view of a power section according to various embodiments of the present invention.

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

1, a pendulum generator using natural energy according to the present invention is provided with a cylindrical housing 100 to float on a sea surface S, and at least one buoyant blade 200 And the housing 100 is rotated according to the flow of the sea surface S.

The housing 100 can secure sufficient buoyancy by the hollow portion, and can stand on the sea surface S to continuously maintain its position.

At this time, it is preferable that the housing 100 is formed of a metal material or a plastic material of a light material so that it is easily corroded and damaged even if it is installed for a long time on the sea surface.

The housing 100 may be formed in various shapes, but it is preferable that the housing 100 is formed into a cylindrical shape so as to efficiently provide the power unit 300 and the gravity body 400, which will be described later, and ensure the rotation.

Meanwhile, as shown in FIG. 5, the housing 100 may have a first engaging means 110 formed on at least one side thereof.

This allows the first engaging means 110 formed on the housing 100 of the pendulum generator adjacent to the first engaging means 110 formed in the housing 100 of the pendulum generator to be engaged, So that they can be continuously provided.

However, since the first engaging means 110 is interlocked with each other to ensure fluidity at a certain point, it is possible to efficiently generate power even when the flow of the sea surface is not constant depending on the position of the individual power generation device , There is an advantage that a plurality of pendulum generator devices can be installed to sufficiently secure power generation.

6, the first engaging means 110 includes a rotation flange 112 which is engaged with a flange groove 111 provided with a rotation flange 112, (Not shown). At this time, fluidity can be ensured between the adjacent rotation flanges 112 through a joint 113 such as a universal joint or a ball joint.

In addition, as shown in FIG. 7, the second engaging means 120 may be formed on the outer circumferential surface of the housing 100.

The second engaging means 120 formed on the housing 100 of the pendulum generator and the second engaging means 120 formed on the housing 100 of the pendulum generator adjacent to each other engage with the engaging ring 140, So that at least a pair of pendulum generator devices can be provided in the width direction.

The second engaging means 120 and the engaging ring 140 can secure fluidity at a certain level, enable efficient power generation, and provide a plurality of pendulum generator devices to ensure sufficient power generation.

Meanwhile, the lid 130 may be provided on the outer circumferential surface of the housing 100 so that the lid 130 can be detached.

The power unit 300 is coupled to the inside of the housing 100 to rotate integrally and the gravity body 400 transmits rotational force to the power unit 300. The power unit 300 is simple in structure, However, when the power unit 300 is damaged or when it is intended to replace the member, it is difficult to repair and maintain the power unit 300.

As shown in FIG. 4, the housing 100 is provided with the lid 130, which makes it easy to repair and maintain.

The buoyant blades 200 are provided on at least one outer side of the outer circumferential surface of the housing 100 so as to extend in the shape of a plate so that the buoyancy vane 200 can smoothly rotate the housing 100 in the flow of the sea surface.

In addition, the buoyancy vanes 200 may be formed to protrude horizontally on both sides of the outer circumferential surface of the housing 100, so that the buoyancy vane 200 can be formed to make the housing 100 more smoothly pivot.

At this time, a load body 210 is provided below the buoyant vane 200.

The load body 210 secures the gravity so that the housing 100 can rotate more effectively. Specifically, when the buoyant blade 200 is lifted up, buoyancy is assured and when the buoyant buoyant 200 is lowered, a downward movement is secured by the gravity of the load body 210, The technical effect is demonstrated.

In addition, the buoyancy vanes 200 may be formed to increase in volume toward the outside of the housing 100. Thereby making the flow more smooth and stable as the sea surface S flows.

At this time, the end of the buoyant blade 200 may form a slanting surface bent in an annular shape or a straight line so as to flexibly correspond to the flow of the sea surface S.

This is to prevent strong pressure from being transmitted to the buoyancy blades 200 due to the frictional force of the waves hitting the buoyancy blades 200, It is possible to achieve a stable power generation process.

1 and 2, a rudder 220 is formed at one end of the buoyancy vane 200 to control the flow direction of the buoyancy vane 200.

Specifically, when the rudder 220 receives the resistance of the sea surface, the buoyant vane 200 is guided in parallel with the flow direction of the seawater, and the buoyant vane 200 functions to position the buoyant vortex 200 at a place where the buoyancy change is high.

In the present invention, the rudder 220 is installed so as to be perpendicular to the buoyant vane 200, but the present invention is not limited thereto. If the buoyant vane 200 is configured to control the flow direction, Can be changed and applied.

The power unit 300 is coupled to the housing 100 so as to rotate integrally with the housing 100 so as not to pivot relative to the housing 100 to rotate the power unit 300 A gravity body 400 is provided.

The power unit 300 includes a gear assembly 310 disposed inside the housing 100 and a transmission 320 for controlling the rotational force of the gear assembly 310 so as to be bi- And a generator 330 that receives the rotational force of the transmission 320 and generates electric power.

The gravity body 400 includes a power transmission unit 410 for transmitting a rotational force to the gear bundle 310 of the power unit 300 and a power transmission unit 410 disposed below the power transmission unit 410, And a gravity weight 420 for maintaining the position.

When the housing 100 is rotated by the flow of the buoyancy vane 200 through the above-described structure, the gear bundle 310 of the power unit 300 rotates corresponding to the rotation of the housing 100 The gravity body 400 connected to the gear bundle 310 relatively rotates in a direction opposite to the rotation of the housing 100 and maintains the position of the gravity body 400, The gear assembly 310 continuously rotates in both directions so as to correspond to the turning radius of the generator 330, and transmits the rotational force to the generator 320 and the generator 320 to generate electric energy.

As shown in FIG. 8, the gear bundle 310 generates a rotational force based on the rotation of the power transmission portion 410 of the gravity body 400.

The gear assembly 310 includes a first gear assembly 311 and a second gear assembly 312 for converting bi-directional rotation of the power transmitting portion 410 into rotational forces in the same direction, The assembly 311 and the second gear assembly 312 are respectively provided on the central shaft 313 to transmit rotational force to the generator shaft 314 in one direction.

More specifically, the first gear assembly 311 includes a first follower 311a engaged with the power transmitting portion 410 and reciprocatingly rotated about a central axis 313 in a predetermined angular range, A ring gear 311b which is fitted in and coupled to the inside of the first driven portion 311a so as to rotate in both directions and a ring gear 311b which is inserted into the generator shaft 314 so as to be inscribed in the ring gear 311b, And includes a first generator shaft gear 314a that rotates in one direction by the ratchet.

At this time, instead of the first generator shaft gear 314a, the ring gear 211b may be provided with a ratchet.

The second gear assembly 312 is coupled to the power transmission unit 410 and is reciprocally rotated in a predetermined angular range about a central axis 313, A second driven gear 312a provided with arc-shaped through holes so as to perform a circular motion in a predetermined section around the axis of the central axis 313 and the second driven gear 312a rotated integrally with the second follower 312a, A sun gear 312b attached to the sun gear 312a and a sun gear 312b mounted on the power generator shaft 314 so as to be circumscribed with the sun gear 312b and rotated around the power generator shaft 314, 2 generator shaft gear 314b.

At this time, a ring bearing 315 is provided between the first gear assembly 311 and the second gear assembly 312 and can act independently of each other.

3 and 4, the gravity body 400 may be formed in a plate-like shape having a predetermined thickness and may be provided in a plurality of lengthwise directions of the housing 100. [

Therefore, even when one or more of the gravity bodies 400 connected to the power unit 300 are damaged, the rotational force is transmitted to the gear unit 310 of the power unit 300, This rotation is transmitted to the connected transmission 320, so that continuous operation of the generator 330 receiving the rotational force is possible.

In addition, as shown in FIG. 3, a supporting bulkhead 500 may be formed at a predetermined interval between the plurality of gravity bodies 400 on the inner side of the housing 100.

When the load of the gravity body 400 increases as the length of the housing 100 increases, a structural burden is applied to both ends of the housing 100 and the power unit 300. In order to effectively support the housing, 100, the support barriers 500 are formed to effectively support the load by the gravity body 400. [

Meanwhile, the pendulum generator assembly according to the present invention may include a plurality of pendulum generator devices.

The pendulum generator assembly according to one embodiment includes a first engagement portion 110 formed in the housing 100 of the pendulum generator adjacent to the first engagement means 110 formed in the housing 100 of the pendulum generator, The means 110 is engaged so that the pendulum generator is continuously provided in the longitudinal direction.

At this time, since the first engaging means 110 is interlocked with each other to secure fluidity at a certain portion, it is possible to efficiently generate electric power even when the flow of the sea surface is not constant depending on the position , There is an advantage that a plurality of pendulum generator devices can be installed to sufficiently secure power generation.

The pendulum generator assembly according to another embodiment of the present invention may further include a second engaging means 120 formed on the housing 100 of the pendulum generator as shown in FIG. 7 and a second engaging means 120 formed on the housing 100 of the pendulum generator, 2 engaging means 120 are respectively engaged with the engaging rings 140 so that at least a pair of pendulum generating devices are provided in the width direction.

At this time, the second engaging means 120 and the engaging ring 140 can secure a certain fluidity, thereby enabling efficient power generation, and a plurality of pendulum generator devices can be provided to secure a sufficient power generation amount.

The above-described pendulum generator using natural energy and the coupling structure thereof according to the present invention are not limited to the above-described embodiments, and various modifications and changes may be made without departing from the gist of the present invention, It should be understood that the present invention falls within the scope of the claims of the present invention to the extent that any person skilled in the art can variously change and carry out the invention.

S: sea level 100: housing
110: first engaging means 120: second engaging means
130: lid part 140:
200: buoyant wing 210: load body
300: power unit 400: gravity body
410: Power transmission unit 420: Gravity weight
500: Support bulkhead

Claims (10)

A cylindrical housing 100 having a hollow portion to float on the sea surface S is provided to ensure rotation of the housing 100. At least one buoyant blade 200 is provided on the outer circumferential surface of the housing 100, The buoyant vane 200 is formed to be thicker on the outside and the load body 210 is provided on the lower part of the buoyant vane 200. The buoyant vane 200 is mounted on the inside of the housing 100, And a gravity body (400) coupled to the power unit (300) and adapted to rotate relatively to the rotation of the housing (100) to transmit the rotational force to the power unit (300) And a plurality of gears 310 are provided in the longitudinal direction of the housing 100 to allow continuous operation. The gear bundles 310 of the power unit 300 rotate in opposite directions The first and second generator shaft gears (314a) and (314b), so that bi-directional rotation is used for power generation.
The method according to claim 1,
Wherein a rudder (220) is formed at one end of the buoyant vane (200) to control the flow direction of the buoyant vane (200).
The method according to claim 1,
The gravity body 400 includes a power transmission unit 410 for transmitting a rotational force to the power unit 300 and a gravity weight 420 provided below the power transmission unit 410. A pendulum generator using a pendulum.
delete The method according to claim 1,
Wherein the support partition wall (500) is formed at a predetermined interval between the plurality of gravity bodies (400) inside the housing (100).
The method according to claim 1,
Wherein the housing (100) has a first engaging means (110) formed on at least one side surface thereof.
The method according to claim 6,
And a second engaging means (120) is formed on an outer circumferential surface of the housing (100).
The method according to claim 1,
Wherein a lid part (130) is provided on the outer circumferential surface of the housing (100) so as to be removable.
A pendulum generator assembly according to any one of claims 6 to 7,
The first engaging means 110 formed on the housing 100 of the pendulum generator adjacent to the first engaging means 110 formed on the housing 100 of the pendulum generator is engaged so that the pendulum generator is continuously Wherein the pendulum generator structure is provided with a pendulum structure.
10. The method of claim 9,
The second engaging means 120 formed on the housing 100 of the pendulum generator and the second engaging means 120 formed on the housing 100 of the pendulum generator adjacent to each other are engaged with the engaging ring 140, Wherein a pair of pendulum generator units are provided in the width direction.

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