KR101105648B1 - High efficient current generator - Google Patents

Abstract

The present invention provides a high-efficiency power generation apparatus using water flow existing in water such as the sea or river.
That is, the non-rotation shaft is installed on the lower side of the fixing plate while installing the fixing plate fixed on the water surface by the support; The lower end of the non-rotating shaft is provided with a plurality of wing shaft fixing legs 121 and a rotating shaft having fixed portions extending at regular equiangular intervals from the center of the shaft while being rotated at the lower end of the non-rotating shaft. It is provided with a camshaft upper and lower position adjustment cam capable of adjusting the upper and lower positions of the end of the wing shaft; A wing unit including a wing shaft of a predetermined length and a wings of a predetermined size and width is installed on the end fixing portion of the wing shaft fixing leg 121 extending in each direction, and the rear end of the wing shaft of the wing unit is on the wing shaft. And, it is positioned at the point in contact with the lower position adjustment cam, the middle portion of the wing shaft having a constant distance from the end portion and the pin is coupled to the end fixing portion of the fixed leg 121 in a state capable of rotational wetting; Between the rotating shaft and the fixed plate of the other side is to install a power transmission means (gear, chain) and a generator for transmitting the rotational movement of the rotating shaft to be converted into a constant electrical energy.

Description

High efficient current generator

The present invention provides a high-efficiency power generation apparatus using water flow existing in water such as the sea or river.

In general, as a method of producing electricity, hydroelectric, tidal, thermal power, nuclear power, wind power and solar power are generally used. Among them, thermal power and nuclear power facilities consume enormous amounts of energy for operation. Not only energy, advanced technology, manpower, expensive advanced equipment, etc. are required, but also a significant installation and maintenance costs, as well as a dysfunction that generates a large amount of environmental pollutants, particularly fatal to the environment.

Therefore, in recent years, there has been a great interest in the development of green energy using wind, solar and water flow, and algae.

On the other hand, the current means the flow of algae from the coastal water and the flow rate of large and small rivers scattered throughout the country, and the generator is a tidal generator installed on the sea coast where tidal differences are large. Representative.

However, conventional tidal power generators are not only complicated in structure and require huge installation cost, but also

In particular, since the structure of the rotating device is erected in a vertical direction corresponding to the flow of water flow as in the case of a conventional fan blade, and the plurality of wings forming the rotating device is formed at an oblique angle of inclination,

Since the rotational power and rotation rate of the rotor blades for the kinetic energy of the water flow of a constant water flow do not have the maximum energy supply rate and there is a constant offset value, the installation of more rotor blades and more There is a problem that requires installation space,

New technical supplementation and development are required for the higher energy supply rate and power generation capacity improvement of power generation equipment using water flow.

Therefore, in the present invention, half of the plurality of rotor blades rotated according to the water flow is submerged in water to obtain the maximum rotational force according to the water flow, while the other half is levitation, so that the resistance value that is the obstacle of the rotational force can be minimized. And the technical task with the focus on providing a new high efficiency water current generator to ensure the energy supply rate.

The present invention for achieving the above technical problem is to install a non-rotating shaft at the bottom of the fixing plate while at the same time to install a fixed plate fixed by the support on the water surface; The lower end of the non-rotating shaft is provided with a plurality of wing shaft fixing legs 121 and a rotating shaft having fixed portions extending at regular equiangular intervals from the center of the shaft while being rotated at the lower end of the non-rotating shaft. It is provided with a camshaft upper and lower position adjustment cam capable of adjusting the upper and lower positions of the end of the wing shaft; A wing unit including a wing shaft of a predetermined length and a wings of a predetermined size and width is installed on the end fixing portion of the wing shaft fixing leg 121 extending in each direction, and the rear end of the wing shaft of the wing unit is on the wing shaft. And, it is positioned at the point in contact with the lower position adjustment cam, the middle portion of the wing shaft having a constant distance from the end portion and the pin is coupled to the end fixing portion of the fixed leg 121 in a state capable of rotational wetting; Between the rotating shaft and the fixed plate of the other side is to install a power transmission means (gear, chain) and a generator for transmitting the rotational movement of the rotating shaft to be converted into a constant electrical energy.

High-efficiency water flow generator of the present invention can be configured as described above is half of the rotor blades are submerged underwater while the rotary blades rotated by the water flow (sea tide or river water flow, etc.) in a horizontal state rather than vertical In other words, it is possible to install amplification in multi-stage up and down, so that each wing belonging to the rotating wing device during rotation is at least one vertical in the circumferential section, and the other one or more horizontally. Even when the direction of the tide or wind changes, it is an innovative invention that can be expected to generate superior generation efficiency compared to the existing, such as operating while tracking at the angle and direction most suitable for the changing direction.

1 is a preferred embodiment of the present invention
2 to 4 is a state diagram used in the present invention

High efficiency water flow generator of the present invention will be described in more detail based on the accompanying drawings.

That is, as shown in Figures 1 to 4, the present invention, after the fixing plate 100 is fixed by a support on the water surface having a constant flow rate, the fixing plate 100 and the lower side of the fixing plate 100 Installing the non-rotating shaft 110 in a fixed state;

At the lower end of the non-rotating shaft 110, a plurality of wing shaft fixing legs 121 and fixing portions 122 capable of rotating flow in the state of being installed on the non-rotating shaft 110 and extending at regular equiangular intervals from the center of the shaft, respectively. On the lower side of the non-rotation shaft 110 having a rotating shaft 120 having a wing shaft for adjusting the upper and lower positions of the upper and lower positions of the end of the blade shaft 212 during the rotation of the blade 211 Having a cam 220;

The end fixing portions 122 of the plurality of directional wing shaft fixing legs 121 which extend radially at regular equiangular intervals from the axis, respectively, have wing shafts 212 of constant length and wings of a predetermined size and width ( While installing the wing unit 210 including a 211,

The rear end of the wing shaft 212 of the wing unit 210 is positioned at the point of contact with the cam shaft for adjusting the upper and lower position of the wing shaft, the middle portion of the wing shaft 212 having a predetermined distance from the end A pin coupled to the end fixing portion 122 of the fixed leg 121 in a state where rotation can be turned;

Then, the power transmission means (gear, chain, 310) and the generator 300 to transfer the rotational movement of the rotary shaft 120 between the rotating shaft 120 and the fixed plate 100 of the other side to be converted into a constant electrical energy It is the characteristic gist of what was established by installing).

The plurality of wing shaft fixing legs 121 connected to the rotating shaft 120 of the above configuration is configured to extend in equally divided states at regular equiangular intervals with respect to the rotating shaft 120, and each of the fixed legs 121 At the lower end of the) is provided with a fixing portion 122 that is pinned in the rotatable state the middle portion of the wing shaft.

And, the wing shaft up and down position adjustment cam 220 is provided at the lower end of the non-rotating shaft 110 fixed to the fixed plate 100, the shape is protruded downward to a certain height around the circular arc of a predetermined diameter ,

As the downwardly protruding height is 1/2 of the section of the circumferential circumference is formed a high high point, the other half is formed with a low point lower than the high point,

When the rotation of the blade shaft 212 rotated in contact with the upper and lower position adjustment cam 220, each containing the high and low points 1/2 by half is guided to a high position to rotate, the other half rotation Can be continuously changed and rotated at low position.

At this time, the bottom portion of the upper and lower position adjustment cam 220 is formed in a smooth bend for the smoothness of the rotation of the wing shaft 212, and thus the wing shaft 212 rotated while contacting it gradually lowered Is induced to rotate gradually increasing flow.

On the other hand, the wing unit is a wing shaft 212 of a predetermined length is formed long, the lower end of the wing shaft 212 is made of a structure that is attached to the wing 211 of a certain size and area formed,

The middle portion of the wing shaft 212 is coupled to the upper and lower rotatable pins to the fixing portion 122 of the wing shaft fixing leg 121 received in each direction, while the upper end of the wing shaft 212 is the high point and As the bottom point is positioned at the point of contact with the upper and lower position adjustment cam 220 divided by 1/2,

The angle of the plurality of wing units rotated according to the flow of water and the upper and lower height of the wing 211 is rotated 1/2 of the rotation in the high position, the other half is automatically adjusted to rotate in the low position Is possible,

As a result, when the plurality of rotary blade units are rotated, one half of the plurality of blades 211 included in the rotary blade unit are rotatable in the air floating state on the water surface, the other half underwater Because the rotation in the state locked in is possible,

The plurality of rotary blade units not only enable continuous and repetitive automatic rotation operation in accordance with the flow of water flow, but also the direction of the blade 211 can be configured in a vertical state in which the maximum resistance or the pushing force is applied to the flow of the water flow. In this way, the maximum energy output can be obtained.

In addition, when the wing shaft of the rotary blade unit is pin-coupled with the fixing portion 122 of the fixed leg 121, than the diameter of the wing shaft 212 rather than directly pin coupling the wing shaft 212 It is more preferable to pin the separate link member made of a large short pipe first, and then fit the wing shaft 212 into the link member.

In addition, the rear end portion of the blade shaft 212 which is in contact with and friction with the blade shaft up and down position adjustment cam 220, even if the contact with the up and down position adjustment cam 220 in the process of rotating the frictional resistance It is preferable to configure a rolling member that is free to rotate or idle so that a defect such as wear or wear does not occur. The rolling member may be simply installed by inserting a short pipe having a predetermined diameter larger than that of the blade shaft 212 into the blade shaft 212 and then injecting several bearings between the blade shaft 212 and the pipe inner diameter. .

In addition, although the shape of the blade 211 of the rotary wing unit 210 may be simply configured as a "|" shape, in order to obtain a higher resistance to the flow of water flow, while being formed to be inclined at an angle of about 10 degrees in the vertical state, The lower portion of the side receiving the water is preferably configured to be bent in a fine slope or bend.

In addition, a flow rate of the water flow rapidly rises above the standard due to flooding, discharge of upstream solder, etc. inside the wing shaft upper and lower position adjusting cams 220 where the rear end of the wing shaft 212 is located. If it is difficult to rotate the rotary blade unit 210, it is necessary to lift the entire number of the rotary blade unit 210 to the water surface in a batch, the wing shaft floating device 400 for this can be further installed. have.

The wing shaft floating device 400 is provided with a pressing piece 410 that is variable up and down inside the wing shaft up and down position adjustment cam 220, the pressing piece 410 is a non-rotation shaft 110 It is coupled to the screw shaft 420 penetrated in the), the upper end of the screw shaft 420 can be adjusted in the forward and reverse rotation of the screw shaft 420 and the up and down movement of the pressing piece 410 according to the user's operation A driving motor 430 and a power connecting means (gear, 440, etc.) may be installed.

The present invention configured as described above is in the process of rotating the plurality of rotary blade unit and its blades rotated according to the water flow as described above,

As the half of the number can be rotated while submerged, the remaining half can be rotated to a floating state floating on the water,

In addition to continuously rotating the rotary blade device including a plurality of wings 211 and the wing unit is horizontally enabled,

In particular, assuming that the number of the rotating blades 211 returned to the submerged state of the rotating blades 211 as described above is the maximum number of 1/2 (for example, the total number of wings of the rotary wing device is 10 Can be set up to 5 1/2 person can be rotated submerged)

Since the shape of each wing can also be configured vertically with the maximum resistance to water flow, it is a revolutionary invention that can achieve higher maximization of rotational force and its power generation efficiency using water flow.

※ Code explanation for important part of drawing ※
100: fixed plate 110: non-rotating shaft
120: rotating shaft 121: fixed leg
122: Fixed part 210: Wing unit
212: wing shaft

Claims (7)

Installing a fixed plate 100 fixed by a support on a water surface having a constant flow rate, and then installing a non-rotating shaft 110 fixed to the fixed plate 100 at a lower side of the fixed plate 100;
At the lower end of the non-rotating shaft 110, a plurality of wing shaft fixing legs 121 and fixing portions 122 capable of rotating flow in the state of being installed on the non-rotating shaft 110 and extending at regular equiangular intervals from the center of the shaft, respectively. On the lower side of the non-rotation shaft 110 having a rotating shaft 120 having a wing shaft for adjusting the upper and lower positions of the upper and lower positions of the end of the blade shaft 212 during the rotation of the blade 211 Having a cam 220;
The end fixing portions 122 of the plurality of directional wing shaft fixing legs 121 which extend radially at regular equiangular intervals from the axis, respectively, have wing shafts 212 of constant length and wings of a predetermined size and width ( While installing the wing unit 210 including a 211,
The rear end of the wing shaft 212 of the wing unit 210 is positioned at the point of contact with the cam shaft for adjusting the upper and lower position of the wing shaft, the middle portion of the wing shaft 212 having a predetermined distance from the end A pin coupled to the end fixing portion 122 of the fixed leg 121 in a state where rotation can be turned;
Power transmission means (gear, chain, 310) and the generator 300 to transfer the rotational movement of the rotating shaft 120 between the rotating shaft 120 and the fixed plate 100 of the other side to be converted into a constant electrical energy High efficiency water current generator, characterized in that the installation.
The method of claim 1,
The blade shaft upper and lower position adjustment cam 220 is provided at the lower end of the non-rotation shaft 110 fixed to the fixed plate 100, the shape is protruded downward to a certain height around the circular arc of a predetermined diameter,
The lower protruding height is a half of a section of the circumferential circumference has a high high point, the other half is formed with a low point lower than the high point, the low point is the smoothness of the wing shaft 212 rotation High efficiency water flow generator, characterized in that formed in the bend.
The method of claim 1,
The wing unit 210 has a wing shaft 212 of a predetermined length is formed long, the lower end of the wing shaft 212 is made of a structure that is attached to the wing 211 of a certain size and area formed,
The middle portion of the wing shaft 212 is coupled to the upper and lower rotatable pins to the fixing portion 122 of the wing shaft fixing leg 121 received in each direction, while the upper end of the wing shaft 212 is the high point and High-efficiency water current generator, characterized in that the lower point is formed at the point of contact with the upper and lower position adjustment cam 220, each divided by 1/2.
The method of claim 1,
When the blade shaft 212 of the rotary blade unit 210 is pin-coupled with the fixing portion 122 of the fixed leg 121, the blade shaft 212 rather than directly pin coupling the blade shaft 212 High efficiency water current generator, characterized in that the first coupling of the separate link member 350 made of a short pipe larger than the diameter of the pin and then fitted by connecting the wing shaft 212 in the link member (350).
The method of claim 1,
The rear end of the blade shaft 212 which is in contact with and friction with the blade shaft up and down position adjustment cam 220, even if the contact with the up and down position adjustment cam 220 in the process of rotation, frictional resistance or wear To configure a rolling member 450 that is free to rotate or idle so as not to generate a defect element, such as,
The rolling member 450 inserts a short pipe of a predetermined length larger than the wing shaft 212 into the wing shaft 212, and then internally installs several bearings between the wing shaft 212 and the pipe inner diameter. High efficiency water flow generator.
The method of claim 1,
The blade 211 shape of the rotary wing unit 210 may be simply configured as "|", but in order to obtain a higher resistance to the flow of the water flow, characterized in that formed in the inclined at an angle of about 10 ° in the vertical state. One high efficiency water flow generator.
The method of claim 1,
A wing shaft floating device 400 may be further installed inside the wing shaft upper and lower position adjusting cams 220 in which the rear end of the wing shaft 212 is located,
The wing shaft floating device 400 is provided with a pressing piece 410 that is variable up and down inside the wing shaft up and down position adjustment cam 220, the pressing piece 410 is a non-rotation shaft 110 It is coupled to the screw shaft 420 penetrated in the), the upper end of the screw shaft 420 can be adjusted in the forward and reverse rotation of the screw shaft 420 and the up and down movement of the pressing piece 410 according to the user's operation High-efficiency water current generator, characterized in that the drive motor 430 and the power connecting means 440 is installed.

Images