KR20090037649A - Vertical gear driven flow current power generation unit - Google Patents

Abstract

A vertical gear driven fluid current power generation device is provided to miniaturize a body as a rotor, a vertical gear drive unit and an acceleration gear are integrally included in a caisson. A vertical gear driven fluid current power generation device comprises an integrated caisson having: a housing(10a) of a hollow form equipped in one side of a vertical moving unit(40); a horizontal gear(11) equipped under the inner structure of the housing; a rotor(30) equipped outside the housing, rotating relative to the flow of the fluid; a vertical gear(12) delivering the torque of the rotor from the horizontal gear; an upper gear(13) receiving the torque from the vertical gear; an acceleration gear(14) rotating along with the upper gear, delivering the torque to a second gear(15); a generator(20) in which the amplified torque is delivered from the second gear, producing the electricity; a converter(21) changing the electricity produced from the generator into the specific energy; and an output cable(23) delivering the transformed energy from the converter to the outside.

Description

Vertical Gear Driven Flow Current Power Generation Unit

The present invention relates to a vertical gear drive-integrated fluid flow generator that can generate power by using a flow of fluid at a high velocity, such as an ocean, river, or power plant waterproofing passage, wherein the power generator rotor, the vertical gear drive, and the accelerator gear are integrally formed. It is very easy to install, maintain and manage the power generation system. Especially, since the generator and converter are located on the surface of the water, there is no need for a special watertight device for the generator unit. It is very economical as it is compact in the integrated caisson, and the maintenance and repair can be applied in the same way as the general onshore power generation equipment, and the vertical gear drive integrated fluid flow power generation device that enables power generation by fluid flow power generation will be.

Generally, as is well known, clean energy generation is possible by using a flow rate in a place where a fluid flow is fast, but this requires solving a number of difficult technical problems.

That is, it is almost impossible for a diver to install the structure because of the high flow rate, and the structure must be installed without the help of the diver, and to rise to the sea level in order to maintain, repair and manage the generator unit for generating power. However, additional complex devices are required for this ascending operation.

As shown in FIG. 1, in the case of the general fluid flow generator 100, the general pile structure 110 is fixed and installed on the ground 150 at the bottom of the water surface 160 of the ocean or river.

The vertical movement unit 120 is installed on one side of the pile structure 110, and the generator unit 140 including a rotor 130 is provided on one side of the vertical movement unit 120.

The conventional fluid flow generator 100 is rotated under the influence of the flow rate of the rotor 130 flows quickly, the generator unit 140 by the rotational force of the rotor 130 to rotate the power generation operation Produces energy like power.

At this time, the generator unit 140 is made to be movable in the vertical direction along the vertical movement unit 120.

In addition, the generator unit 140 is provided with a waterproof device according to the water pressure and the water depth, and a generator, an acceleration gear, and the like are mounted therein.

However, in this case, the watertight (watertihgt) must be made, the rotational force of the rotor 130 transmitted to the generator unit 140 is inevitably reduced efficiency, it is not easy to maintain and repair the generator and various electrical devices.

In addition, since other conventional fluid flow generators are installed in the water, a watertight and watertight watertight apparatus is additionally required, resulting in a decrease in efficiency and durability and reliability of the power generator.

In addition, there is a high cost in the maintenance and repair of expensive equipment, such as the life of the equipment, equipment management, maintenance and repair.

In particular, unlike land, the flow rate of the ocean, rivers, waterways and the like is fast and easy to operate, as well as to install and remove the conventional fluid flow generators in places where people, i.e., divers are not easy or very disadvantageous. There is a need for a reliable power generation device.

Therefore, the present invention has been devised to solve the conventional problems as described above as a generator for generating power in the flow of the ocean, river, waterproof road and the generator and the electric device is located on the surface of the water, the vertical gear rotor (rotor) It transmits the rotation of to the accelerator gear, and since all these devices are provided in the integrated caisson, the installation and removal of the fluid flow generator is as easy as on land, and the maintenance and repair of the generator is therefore very easy. It can be made efficiently, and can eliminate the special watertight devices required for the generator unit and gearbox required for the general fluid power generation device, so that the device is reliable and economically equipped with a vertical gear driven fluid that can provide fluid flow generation economically. The purpose is to provide a flow generator.

As an embodiment of the present invention for achieving the above object,

Hollow-shaped housing provided on one side of the rod-shaped vertical movement unit,

A horizontal gear provided at a predetermined position inside the housing;

A rotor coupled to the horizontal gear and provided outside the housing to rotate in accordance with the flow of fluid;

Vertical gear that receives the rotational force of the rotor from the horizontal gear,

An upper gear that receives rotational force from the vertical gear,

An accelerator gear that rotates together with the upper gear to transmit rotational force to a secondary gear,

Generator that generates power by operating by receiving the amplified rotational force from the secondary gear,

A converter for converting the power produced by the generator into a constant energy, and

Output cable for transferring the energy converted from the converter to the outside

Integral caisson comprising;

A vertical moving unit coupled to one side of the housing of the integrated caisson; And

A floating body structure penetrated and coupled by the integrated caisson and the vertical movement unit;

It is made, including.

The integrated caisson may be movable in the up and down direction with respect to the vertical movement unit.

In another embodiment of the present invention,

Hollow-shaped housing provided on one side of the rod-shaped vertical movement unit,

A horizontal gear provided at a predetermined position inside the housing;

A rotor coupled to the horizontal gear and provided outside the housing to rotate in accordance with the flow of fluid;

Vertical gear that receives the rotational force of the rotor from the horizontal gear,

An upper gear that receives rotational force from the vertical gear,

An accelerator gear that rotates together with the upper gear to transmit rotational force to a secondary gear,

Generator that generates power by operating by receiving the amplified rotational force from the secondary gear,

A converter for converting the power produced by the generator into a constant energy, and

Output cable for transferring the energy converted from the converter to the outside

Integral caisson comprising;

A vertical moving unit coupled to one side of the housing of the integrated caisson; And

A pile structure to which one side of the vertical moving unit is attached;

It is made, including.

The integrated caisson may be movable in the up and down direction with respect to the vertical movement unit.

Finally, in another embodiment of the present invention,

Hollow-shaped housing provided on one side of the rod-shaped vertical movement unit,

A horizontal gear provided at a predetermined position inside the housing;

A rotor coupled to the horizontal gear and provided outside the housing to rotate in accordance with the flow of fluid;

Vertical gear that receives the rotational force of the rotor from the horizontal gear,

An upper gear that receives rotational force from the vertical gear,

An accelerator gear that rotates together with the upper gear to transmit rotational force to a secondary gear,

Generator that generates power by operating by receiving the amplified rotational force from the secondary gear,

A converter for converting the power produced by the generator into a constant energy, and

Output cable for transferring the energy converted from the converter to the outside

Integral caisson comprising;

A vertical moving unit coupled to one side of the housing of the integrated caisson; And

A jacket structure to which one side of the vertical moving unit is attached;

It is made, including.

The integrated caisson may be movable in the up and down direction with respect to the vertical movement unit.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

The present invention relates to a vertical gear drive-integrated fluid flow generator that can generate power using a flow of fluid at a high velocity, such as an ocean, river, or power plant waterproofing path, and the present invention relates to a rotor, a vertical gear drive, and an accelerator gear type. It is very easy to install, maintain and manage. Especially since the generator is installed on the surface of the water, it is economical because there is no need for special watertight device. Since all devices are included in the integrated caisson, there is an effect that enables a very economical and reliable fluid flow generation.

Hereinafter, an embodiment of the present invention will be described in more detail based on the accompanying drawings.

Figure 2 is a side cross-sectional view schematically showing a vertical gear drive integrated fluid flow generator according to an embodiment of the present invention, Figure 3 is a cross-sectional view schematically showing the integrated caisson of FIG.

As shown in the figure, the vertical gear drive integrated fluid flow generator 1 according to an embodiment of the present invention,

The rod-shaped vertical movement unit 40 penetrates and is coupled to the floating enclosure 60, which is a structure floating on the water surface 70, and has a hollow housing 10a on one side of the vertical movement unit 40. A horizontal gear 11 is provided at a predetermined position on the lower side of the housing 10a, and the horizontal gear 11 is provided outside the housing 10a to rotate in accordance with the flow of fluid. The rotor 30 is rotated by the rapid flow of the fluid, and has a constant rotational force, and the horizontal gear 11 receives various rotational forces according to the speed of the fluid and rotates together. At this time, as the horizontal gear 11 rotates in the circumferential direction, the rotational force is transmitted to the vertical gear 12 meshed with the upper side of the horizontal gear 11, and the upper gear of the uppermost gear from the vertical gear 12 is rotated. To deliver again to (13), The upper gear 13 rotates in the circumferential direction by the received rotational force, and the same rotational force is transmitted to the secondary gear 15 as the acceleration gear 14 provided to rotate in the same manner as the upper gear 13 rotates. When the generator 20 is connected to the secondary gear 15 to produce power by operating by receiving the amplified rotational force from the secondary gear 15, the power generated from the generator 20 is provided. An integrated caisson 10 including a converter 21 for converting constant energy to one side of the generator 20 and an output cable 23 for transferring the energy converted from the converter 21 to the outside. (See Fig. 3).

The vertical moving unit 40 coupled to one side of the housing 10a of the integrated caisson 10 and the floating enclosure structure penetrated and coupled by the integrated caisson 10 and the vertical moving unit 40. 60 is made.

In addition, the integrated caisson 10 is preferably made to be movable in the vertical direction relative to the vertical movement unit (40).

This is because the integrated caisson 10 is exposed to the water surface to rise to a higher position, which can achieve a dry maintenance smoothly, there is an advantage that the maintenance and repair work can be made the same as on land.

The float 60 is fixed by a mooring line 80 or a general pile, and the vertical movement unit 40 is firmly supported by the support 50 connected from the float 60. By effectively supporting the vertical movement unit 40 and the integrated caisson 10 from the external load by the load can be prevented from being damaged and detached due to the impact.

In particular, since the generator 20 installed inside the integrated caisson 10 is above the water surface 70, a special watertight system for the generator 20 can be omitted, and thus in terms of installation cost. It is very economical, and it is very easy to maintain and repair the vertical gear drive-integrated fluid flow generation apparatus 1 according to the embodiment of the present invention. And since all the devices are included in the integrated caisson 10, it is possible to enable a very economical and reliable fluid flow power generation.

And, Figure 4 is a view schematically showing a vertical gear drive integrated fluid flow generator according to another embodiment of the present invention.

Therefore, as shown in the figure, the vertical gear drive integrated fluid flow generator 1 according to another embodiment of the present invention,

The rod-shaped vertical movement unit 40 penetrates and is coupled to the floating enclosure 60, which is a structure floating on the water surface 70, and has a hollow housing 10a on one side of the vertical movement unit 40. A horizontal gear 11 is provided at a predetermined position on the lower side of the housing 10a, and the horizontal gear 11 is provided outside the housing 10a to rotate in accordance with the flow of fluid. The rotor 30 is rotated by the rapid flow of the fluid, and has a constant rotational force and the horizontal gear 11 receives various rotational forces according to the speed of the fluid and rotates together. As the horizontal gear 11 rotates in the circumferential direction, the rotational force is transmitted to the vertical gear 12 meshed with the upper side of the horizontal gear 11 so that the upper gear uppermost from the vertical gear 12 ( 13) to deliver again, The upper gear 13 rotates in the circumferential direction by the received rotational force, and the same rotational force is transmitted to the secondary gear 15 as the acceleration gear 14 provided to rotate in the same manner as the upper gear 13 rotates. When the generator 20 is connected to the secondary gear 15 to produce power by operating by receiving the amplified rotational force from the secondary gear 15, the power generated from the generator 20 is provided. An integrated caisson 10 including a converter 21 for converting constant energy to one side of the generator 20 and an output cable 23 for transferring the energy converted from the converter 21 to the outside. (See Fig. 3).

In addition, the fixed caisson 10 having the same structure as the embodiment of the present invention described above is fixed and installed on one side of the vertical movement unit 40, the ground on the bottom of the water surface 70, such as ocean or waterway ( 90 is installed vertically moving unit 40 on one side of the pile structure (2) that is deeply embedded or fixed and installed.

In addition, the integrated caisson 10 is preferably made to be movable in the vertical direction relative to the vertical movement unit (40).

This is because the integrated caisson 10 is exposed to the water surface to rise to a higher position, which can achieve a dry maintenance smoothly, there is an advantage that the maintenance and repair work can be made the same as on land.

And, by having a deck 3 on the top of the pile structure (2) it is possible to easily maintain and repair the integrated caisson 10 as on land.

In particular, since the generator 20 installed inside the integrated caisson 10 is above the water surface 70, a special watertight system for the generator 20 can be omitted, and thus in terms of installation cost. It is very economical, and it is very easy to maintain and repair the vertical gear drive-integrated fluid flow generator 1 according to another embodiment of the present invention. And since all the devices are included in the integrated caisson 10, it is possible to enable a very economical and reliable fluid flow power generation.

Finally, Figure 5 is a schematic view showing a vertical gear drive integrated fluid flow power generation device according to another embodiment of the present invention.

As shown in the figure, the vertical gear drive unitary fluid flow generation device 1 according to another embodiment of the present invention, the floating housing which is a structure in which the rod-shaped vertical movement unit 40 is floating on the water surface 70 It is penetrated and coupled to (60), the housing 10a of the hollow shape is provided on one side of the vertical movement unit 40, the horizontal gear 11 is provided at a predetermined position inside the housing 10a The horizontal gear 11 is provided outside the housing 10a and is coupled to a rotor 30 that rotates according to the flow of the fluid. The rotor 30 rotates by a rapid flow of the fluid. Therefore, the horizontal gear 11 receives various rotational forces according to the speed of the fluid and rotates together with the predetermined rotational force. In this case, the horizontal gear 11 rotates in the circumferential direction. With vertical gear (12) engaged on top of The rotational force is transmitted to the upper gear 13 again from the vertical gear 12, the upper gear 13 is rotated in the circumferential direction by the received rotational force, the upper gear When the acceleration gear 14 provided to rotate in the same manner as in (13) transmits the same rotational force to the secondary gear 15 while rotating, it operates by receiving the amplified rotational force from the secondary gear 15 to produce electric power. The generator 20 is connected to the secondary gear 15 so as to be provided, and a converter 21 converting power generated from the generator 20 into a constant energy is connected to one side of the generator 20. And an integrated caisson 10 including an output cable 23 for transferring the energy converted from the converter 21 to the outside (see FIG. 3).

In addition, the one-piece caisson 10 having the same structure as in the embodiment and the other embodiments of the present invention described above is fixed and installed on one side of the vertical movement unit 40, the bottom of the water surface 70, such as an ocean or a waterproof path It is made by installing the vertical movement unit 40 on one side of the jacket structure 4 to be embedded and fixed deeply embedded in the ground 90, such as a jacket pile (4a).

In addition, the integrated caisson 10 is preferably made to be movable in the vertical direction relative to the vertical movement unit (40).

This is because the integrated caisson 10 is exposed to the water surface to rise to a higher position, which can achieve a dry maintenance smoothly, there is an advantage that the maintenance and repair work can be made the same as on land.

In particular, since the generator 20 installed inside the integrated caisson 10 is above the water surface 70, a special watertight system for the generator 20 can be omitted, and thus in terms of installation cost. It is very economical and it is very easy to maintain and repair the vertical gear drive-integrated fluid flow generator 1 according to another embodiment of the present invention. And because all the devices are included inside the integrated caisson 10, it is possible to enable very economical and reliable fluid flow generation.

Therefore, as described above, the vertical gear drive unitary fluid flow generator according to the embodiments of the present invention, unlike the general generator unit, the generator, various gears, and the electric device are all provided inside the integrated caisson, in particular, the generator and Since the electric device is located on the surface of the water, there is no need for a special waterproofing or watertight device, and it is economical and easy to maintain and repair since a general generator can be used.

In addition, it is provided inside the integrated caisson can easily perform the installation and removal of all the components required for fluid flow generation, for example, a generator, an output cable, a converter and various gears.

While the invention has been shown and described with respect to particular embodiments, it will be understood that various modifications and variations can be made without departing from the spirit and scope of the invention as indicated by the appended claims. Anyone can grow up easily.

1 is a view schematically showing a general fluid flow generator,

Figure 2 is a side cross-sectional view schematically showing a vertical gear drive integrated fluid flow power generation device according to an embodiment of the present invention,

3 is a cross-sectional view schematically showing the integrated caisson of FIG.

Figure 4 is a schematic view showing a vertical gear drive integrated fluid flow generation device according to another embodiment of the present invention,

5 is a view schematically showing a vertical gear drive integrated fluid flow generation device according to another embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

1: vertical gear driven integrated fluid flow generator 2: pile structure

3: Sleeping Deck 4: Jacket Structure

4a: Jacket File 10: Integral Caison

10a: housing 11: horizontal gear

12: vertical gear 13: upper gear

14: accelerator gear 15: secondary gear

20: generator 21: converter

23: output cable 30: rotor

40: vertical movement unit 50: support

60: floating body 70: sleep

80: mooring line 90: ground

Claims (9)

In a vertical gear driven integrated fluid flow generator that can generate power by using a flow of fluid at a high velocity such as an ocean, river or power plant waterproofing path, Integral caissons; A vertical moving unit coupled to one side of the housing of the integrated caisson; And A floating body structure penetrated and coupled by the integrated caisson and the vertical movement unit; Vertical gear drive integrated fluid flow generation device comprising a. The method of claim 1, The integrated caisson is, A hollow housing provided on one side of the rod-shaped vertical movement unit, A horizontal gear provided at a predetermined position on the lower side of the housing; A rotor coupled to the horizontal gear and provided outside the housing to rotate in accordance with the flow of fluid; A vertical gear that receives the rotational force of the rotor from the horizontal gear; An upper gear to receive rotational force from the vertical gear; An accelerator gear that rotates together with the upper gear to transmit rotational force to a secondary gear; A generator for producing electric power by receiving the amplified rotational force from the secondary gear; A converter for converting the power produced by the generator into a constant energy, and Output cable for transferring the energy converted from the converter to the outside Vertical gear drive integrated fluid flow generating device comprising a. The method of claim 1, The integrated caisson vertical gear drive unitary fluid flow generation device, characterized in that the movable in the vertical direction relative to the vertical movement unit. In a vertical gear driven integrated fluid flow generator that can generate power by using a flow of fluid at a high velocity such as an ocean, river, or power plant waterproofing path, Integral caissons; A vertical moving unit coupled to one side of the housing of the integrated caisson; And A pile structure to which one side of the vertical moving unit is attached; Vertical gear drive integrated fluid flow generation device comprising a. The method of claim 4, wherein The integrated caisson is, A hollow housing provided on one side of the rod-shaped vertical movement unit, A horizontal gear provided at a predetermined position on the lower side of the housing; A rotor coupled to the horizontal gear and provided outside the housing to rotate in accordance with the flow of fluid; A vertical gear that receives the rotational force of the rotor from the horizontal gear; An upper gear to receive rotational force from the vertical gear; An accelerator gear that rotates together with the upper gear to transmit rotational force to a secondary gear; A generator for producing electric power by receiving the amplified rotational force from the secondary gear; A converter for converting the power produced by the generator into a constant energy, and Output cable for transferring the energy converted from the converter to the outside Vertical gear drive integrated fluid flow generating device comprising a. The method of claim 4, wherein The integrated caisson vertical gear drive unitary fluid flow generation device, characterized in that the movable in the vertical direction relative to the vertical movement unit. In a vertical gear driven integrated fluid flow generator that can generate power by using a flow of fluid at a high velocity such as an ocean, river or power plant waterproofing path, Integral caissons; A vertical moving unit coupled to one side of the housing of the integrated caisson; And A jacket structure to which one side of the vertical moving unit is attached; Vertical gear drive integrated fluid flow generation device comprising a. The method of claim 7, wherein The integrated caisson is, A hollow housing provided on one side of the rod-shaped vertical movement unit, A horizontal gear provided at a predetermined position on the lower side of the housing; A rotor coupled to the horizontal gear and provided outside the housing to rotate in accordance with the flow of fluid; A vertical gear that receives the rotational force of the rotor from the horizontal gear; An upper gear to receive rotational force from the vertical gear; An accelerator gear that rotates together with the upper gear to transmit rotational force to a secondary gear; A generator for producing electric power by receiving the amplified rotational force from the secondary gear; A converter for converting the power produced by the generator into a constant energy, and Output cable for transferring the energy converted from the converter to the outside Vertical gear drive integrated fluid flow generating device comprising a. The method of claim 8, The integrated caisson vertical gear drive unitary fluid flow generation device, characterized in that the movable in the vertical direction relative to the vertical movement unit.

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