KR101259719B1 - Fluid generator with a fluid blade - Google Patents

Abstract

The present invention includes a means for controlling the angle of the wing according to the strength of the fluid, so that when the strength of the fluid is more and more resistance of the fluid, when the strength of the fluid is less resistance to the fluid is less flood or heavy rain It relates to a fluid generator equipped with a fluid wing that minimizes the damage or damage of the component including the wing even if the intensity of the fluid generated or flows in a large difference between tidal tides, the housing 100 of the ring body and; Rotor 200 with a wing 210 on the side; Being disposed inside the housing 100, the rotating body 200 is rotatably embedded, the blade 210 of the rotating body 200 portion of the through blade for rotating the rotor blades to be exposed to the outside. Is formed, the rotating shaft 300 is formed with a rotating body rotating space 320 inside the through blade rotation long groove 310 formed therein; Being provided inside the rotating shaft 300, when the strength of the fluid hitting the wing 210 is large, the rotor 200 inherent in the rotating body rotating space 320 of the rotating shaft 300 is wing safety Wing position to control the rotation to the position, and to control the rotating body 200 rotated in the rotating body rotating space 320 is reversed to the fluid power generation position when the strength of the fluid impinging on the wing 210 is small A control module; A coil 400 installed along an inner side of the housing 100; It is disposed at a position corresponding to the coil 400, the magnet 500 provided at the end of the rotating shaft 300;

Description

Fluid generator with a fluid blade

The present invention includes a means for controlling the angle of the wing according to the strength of the fluid, so that when the strength of the fluid is more and more resistance of the fluid, when the strength of the fluid is less resistance to the fluid is less flood or heavy rain The present invention relates to a fluid generator equipped with a fluid blade provided in a fluid generator that minimizes breakage or damage of a component including a blade even if the strength of the fluid generated or generated in a tidal wave is large.

In general, a power plant that produces electricity includes a hydroelectric power plant that generates power using kinetic energy of water passing through a waterway by constructing a dam, an tidal power plant that generates power using tidal waters in the west sea, and a water turbine generator in a fast water flow. ), Various power plants are installed and operated, such as algae power plants, which are generated by using natural currents.

These power plants use only turbine-type power generation principle, which is the same power generation principle that uses only the energy source to rotate the turbine by using water or steam belonging to the fluid and generates power by using the rotational force.

That is, when the turbine is rotated by water or steam, the rotational force of the turbine is connected to the shaft of the generator to rotate the generator at high speed to generate electricity, where the generator is provided with a stator made of a coil to the inner periphery of the case, The rotating shaft formed to penetrate the center of the rotor is made of a magnet corresponding to the coil is installed.

Accordingly, as the rotating shaft rotates, the rotor formed on the rotating shaft rotates at a high speed to intersect the outer coil. At this time, magnetic flux is applied to the coil so that electric current flows to generate electricity.

The blades are fixed to the rotating shaft of the fluid blades generated by the principle of electricity generation, so that the resistance of the flowing fluid is maximized, thereby providing a maximum rotation speed.

However, in the case of a wing fixed to the rotation axis of the fluid wing to maximize the resistance of the fluid, if the flood or heavy rain occurs, or if the strength of the fluid flowing rapidly in a large tidal difference is too large, the generator is damaged as it rotates too fast or There is a risk of damage to the blades and the rotating shaft.

The present invention is to solve the problems of the prior art, the object of the present invention is to provide a means for controlling the angle of the blade to be changed according to the strength of the fluid, when the strength of the fluid is subjected to more and more resistance of the fluid In addition, the present invention provides a fluid generator having a fluid wing provided in a fluid generator that minimizes breakage or damage of a component including a wing when the strength of the fluid is high, thereby reducing the resistance of the fluid.

In order to achieve the present invention, a fluid generator having a fluid wing of the present invention includes a housing of a ring body, a rotating body, a rotating shaft disposed inside the housing, a coil installed along an inner side of the housing, and a coil. The rotor is disposed at a corresponding position, the fluid generator consisting of a magnet provided at the end of the rotating shaft, the rotor is provided with wings on the side, the rotating shaft is embedded in the rotating body rotatably, the rotating body The blade portion of the through blade is formed to rotate the long groove for the rotor blade is rotated, the rotating body rotating space is formed on the inside of the through blade for rotating the long groove, which is provided inside the rotating shaft, When the strength is large, the rotating body embedded in the rotating body rotating space of the rotating shaft is rotated toward the wing safety position And, if the smaller the intensity of the fluid impinging on the blades rotates the rotor space of the rotor blades of the fluid to be controlled to reverse the development position where the control module in the rotate; characterized in that it comprises a.

An operating space is formed inside the housing, and the coil is installed on one surface of the formed working space, and is opened toward an inner side of the housing in which the working space is formed. Has a structure that protrudes the hanger that does not escape from the inside.

A bearing is installed between the holder of the housing and the magnet or between the holder of the housing and the rotating shaft.

The wing position control module may include a pressing table provided on the other side of the rotating body inherent in the rotating body rotating space of the rotating shaft; It is provided in the inside of the rotating shaft, the elastic body which is located on the side of the presser is pressed by the presser according to the strength of the fluid is pressed or restored; consists of.

The elastic body uses either a tube or a spring.

The present invention includes a means for controlling the angle of the blade to change according to the strength of the fluid, so that when the strength of the fluid is more resistant to the fluid and when the strength of the fluid is folded the wing is less resistance to the fluid Even if a flood or heavy rain occurs or the strength of the fluid flowing rapidly in a large tidal wave difference is great, it minimizes the damage or damage to the components including the wings.

1 is a schematic perspective view showing a fluid generator with a fluid wing of the present invention,
Figure 2 is a schematic longitudinal cross-sectional view showing a fluid generator with a fluid wing of the present invention,
Figure 3 is a schematic cross-sectional view showing a fluid generator with a fluid wing of the present invention,
Figure 4 is a perspective view showing the wing portion of the configuration of the fluid generator with a fluid wing of the present invention,
5 is a sectional view showing the main portion of the wing of the configuration of the fluid generator with a fluid wing of the present invention,
Figure 6 is a perspective view showing an example of the use of the tube provided in the wing portion of the configuration of the fluid generator with a fluid wing of the present invention,
Figure 7 is an exploded perspective view showing the main portion of the wing of the configuration of the fluid generator with a fluid wing of the present invention,
Figure 8 is a sectional view showing the main portion of another configuration of the bearing provided to enable the rotation axis to rotate smoothly of the configuration of the blade forming the fluid generator with a fluid blade of the present invention,
Figure 9 is a sectional view of the main part showing another installation example of the bearing provided so that the rotation axis of the configuration of the blade forming the fluid generator with a fluid blade of the present invention to smoothly rotate,
10 to 12 is a cross-sectional view showing a state in which the angle of the wing of the configuration of the fluid generator with a fluid wing of the present invention is changed according to the strength of the fluid.

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

1 is a schematic perspective view showing a fluid generator with a fluid wing of the present invention, Figure 2 is a schematic longitudinal cross-sectional view showing a fluid generator with a fluid wing of the present invention, Figure 3 is a fluid wing of the present invention Figure 4 is a schematic cross-sectional view showing a fluid generator, Figure 4 is a perspective view showing the wing portion of the configuration of the fluid generator with a fluid wing of the present invention, Figure 5 is a wing portion of the configuration of the fluid generator with a fluid wing of the present invention 6 is a perspective view showing an example of the use of the tube provided in the wing portion of the configuration of the fluid generator with a fluid wing of the present invention, Figure 7 is a wing of the configuration of a fluid generator with a fluid wing of the present invention 8 is a perspective exploded perspective view showing a part, so that the rotating shaft of the configuration of the blades constituting the fluid generator with a fluid blade of the present invention can be rotated smoothly 9 is a main part sectional view showing another installation example of a ball bearing, and FIG. 9 is a main part showing another installation example of a bearing provided so that the rotating shaft can be rotated smoothly among the configurations of the blades forming the fluid generator with a fluid wing of the present invention. 10 to 12 are cross-sectional views of a state in which the angle of the wing is changed in the configuration of the fluid generator with a fluid wing of the present invention according to the strength of the fluid.

As shown, the configuration of the fluid generator with a fluid wing of the present invention is largely, the housing 100, the rotating body 200, the rotating shaft 300, the wing position control module, the coil 400 and the magnet 500 Is done.

First, the housing 100 is a member having a shape of a ring body so that the rotating body 200 to be described later can be located inside, and operates so that the coil 400 to be described later is located inside the ring body which is the housing 100. The space 110 is formed and is opened toward the inner side of the housing 100 having a ring body in which the working space 110 is formed, and the rotating shaft 300 is ring-shaped housing 100 by the magnet 500 to be described later. ) Has a structure that is integrally provided with a hanger (120) that does not escape from the inside.

In addition, the bearing may be installed so that the rotating shaft 300 can be smoothly rotated, the installation position may be installed in several places.

First, the bearing 130 is installed between the upper side of the hanger 120 integrally provided in the housing 100 and the magnet 500, or the left and right sides of the hanger 120 integrally provided in the housing 100. Bearing 140 is installed between the rotary shaft 300 and a pair of auxiliary supports 301 bent in an L-shape on the rotary shaft 300, and the pair of auxiliary papers provided therewith. A bearing 150 may be provided between the inside of the earth 301 and the outside of the housing 100.

In addition, although not shown in the drawings, the housing 100 may be detachably provided in a top and a bottom so that the coil 400 and the magnet 500 may be disposed in the operation space 110.

The coil 400 and the magnet 500 are the main components of the generator, and the coil 400 of the housing 100 that performs the stator function while the magnet 500 of the rotating shaft 300 that performs the rotor function rotates at a high speed. At this time, while the magnetic flux is applied to the coil 400, the current flows to provide electricity.

The rotor 200, the rotating shaft 300 and the wing position control module to change the angle of the wing according to the strength of the fluid, when the strength of the fluid is more fluid resistance when the strength of the fluid is weak and the fluid when the strength of the fluid is strong It is a member that performs a function of minimizing damage or damage to a component including a wing even when flood or heavy rain occurs due to less resistance of the tide, or the strength of the fluid flowing rapidly in a large tidal difference is large.

First, as mentioned above, the rotation shaft 300 is disposed inside the housing 100, and has a structure in which several center portions are fixed by crossing.

Detailed configuration of the rotating shaft 300 having such a structure is embedded in the rotating body 200 rotatably, the blade 210 of the rotating body 200 is formed through the long blade 310 for the through blade rotation to be exposed to the outside Then, the rotating body rotating space 320 is formed inside the through blade rotating long groove 310 formed.

And the rotor 200 is provided with a wing 210 on the side to have a cylindrical shape, to provide a rotation in the rotor rotating space 320, the rotor rotating space 320 is also rotated It is provided to have a shape corresponding to the cylindrical shape of the whole (200).

In addition, the rotor 200 and the wing 210 may be connected to each other through the connecting rod 220, so that the connecting portion 220 may be provided to be placed in the through blade rotation long groove 310 of the rotating shaft 300.

In addition, the rotating body 200 may be provided in a plurality separated along the rotation axis 300, as described above, the reason for providing a plurality of rotating bodies 200 is implemented separately when the strength of the fluid is different up, down, left and right To provide as much as possible.

For this reason, the number of the rotating body 200 is divided into several, as shown in the figure, or divided into three, or depending on the size of the wing 210 can be provided in various numbers, such as less than two to five. have.

The wing position control module is provided inside the rotating shaft 300, and when the strength of the fluid hitting the wing 210 is large, the rotating body 200 inherent in the rotating body rotating space 320 of the rotating shaft 300 is It is a module for controlling to rotate to the wing safety position, the rotor 200 rotated in the rotating body rotating space 320 in the reverse direction to the fluid generating position when the strength of the fluid hitting the wing 210 is small.

The wing position control module providing such a function is provided with a pressing table 220 provided on the other side of the rotating body 200 embedded in the rotating body rotating space 320 of the rotating shaft 300, and the inside of the rotating shaft 300. To be provided, it is made of an elastic body which is located on the side of the pressing table 220 is pressed or restored to the pressing table 220 according to the strength of the fluid.

Here, the elastic body may be provided through various embodiments, but may first be provided as a tube 330.

As such, when the tube 330 is used as an elastic body, the tube 330 may be provided in a state in which it is stored in the storage box 340 so as to be fixed to the inside of the rotating shaft 300, and the pressing table 220 may compress the tube 330. A protruding long hole is formed on one surface of the holder 340 positioned on the pressure table 220 so that a protruding portion is formed on the tube 330 so that a part of the tube 330 penetrates through the protruding long hole. It can form and provide.

Through this, the pressing table 220 is controlled to rotate toward the wing safety position while pressing the protrusion of the tube 330 according to the strength of the fluid.

In addition, although not shown in the drawing so that the holder 340 is detachably fixed to the inside of the rotating shaft 300 may be fixed through a screw fastening or a structure that is forcibly fitted into the groove of the rotating shaft 300.

In addition, the tube 330 is filled with various gases, for example, it may be provided with nitrogen (N ₂ ) is filled.

In addition, the tube 330 may be provided as a plurality of separate and independent, like a plurality of separate rotating bodies 200, or may be provided in a communication structure to inject nitrogen at a time.

In another embodiment of the elastic body, although not shown in the drawing, it may be used as a spring such as a leaf spring or a tension spring.

As described above, the angle of the wing is changed according to the strength of the fluid through the fluid generator having the fluid wing of the present invention configured through FIGS. 10 to 12.

First, FIG. 10 is an intensity of fluid F required to perform power generation, and the strength of fluid F is smaller than the elastic force of the tube 330 which is an elastic body embedded in the rotation axis 300. Rotation of the pressing table 220 of the rotating body 200 embedded in the rotating body 320 of the rotating body 300 is blocked by the protrusion of the tube 330.

At this time, the strength of the fluid (F) is used to rotate the blade 210 of the rotating body (200).

11 shows that the strength of the fluid F slightly exceeds the strength required to perform power generation, and the strength of the fluid F is slightly smaller than the elastic force of the tube 330 which is an elastic body inherent in the rotating shaft 300. While the pressing table 220 of the rotating body 200 embedded in the rotating body rotating space 320 of the cursor rotating shaft 300 partially compresses the protruding portion of the tube 330, the rotating body 200 is clockwise (see drawing). Has moved to some extent.

At this time, the strength of the fluid (F) is transmitted there is a risk that can damage the wing 210 of the rotor 200 to some extent, the wing of the wing 210 of the rotor 200 is the wing safety position (clockwise) The cross section area where the wind hits is slightly smaller than the fluid power generation position with some movement toward).

Finally, FIG. 12 is a degree in which the strength of the fluid F greatly exceeds the strength required to perform power generation, and the strength of the fluid F at this time is the elastic force of the tube 330 which is an elastic body inherent in the rotating shaft 300. The pressing table 220 of the rotating body 200 embedded in the rotating body 320 of the rotating shaft 300 is much larger so that the pressing table 220 of the rotating body 200 is completely pressed against the protruding portion of the tube 330. 220 is caught in the side of the holder 340, the movement is limited.

At this time, the strength of the transmitted fluid (F) is high risk of damage to the wing 210 of the rotor 200, the wing of the wing 210 of the rotor 200 moves toward the wing safety position (see direction) In the state, the cross-sectional area where the wind hits is much smaller than when the fluid is generated.

Subsequently, when the strength of the fluid F decreases, the protruding portion of the tube 330 is restored by the restoring force of the tube 330, which is an elastic body embedded in the rotating shaft 300, and the rotating body 320 of the rotating shaft 300 is rotated. The pressing table 220 of the rotating body 200 inherent in the fluid generating position (counterclockwise) to move to provide power generation.

100: housing 110: operating space
120: hanger 130,140,150: bearing
200: rotating body 210: wing
220: pressure zone 230: connection rod
300: rotation axis 301: auxiliary support
310: long slot for penetrating blade rotation 320: rotation space of the rotating body
330 tube 340 storage box
400: coil 500: magnet
F: fluid

Claims (8)

On the housing 100 of the ring body, the rotating body 200, the rotating shaft 300 disposed inside the housing 100, the coil 400 is installed along the inside of the housing 100, the coil 400 In the fluid generator which is disposed at a corresponding position, consisting of a magnet 500 provided at the end of the rotating shaft 300,
The rotor 200 is provided with a wing 210 on the side,
The rotating body 300 is rotatably embedded in the rotating shaft 300, the through blade rotating long groove 310 is exposed so that the wing 210 portion of the rotating body 200 is exposed to the outside of the rotating shaft 300 Is formed, the rotating body rotating space 320 is formed inside the through blade rotation long groove 310,
Being provided inside the rotating shaft 300, when the strength of the fluid hitting the wing 210 is large, the rotor 200 inherent in the rotating body rotating space 320 of the rotating shaft 300 is wing safety Wing position to control the rotation to the position, and to control the rotating body 200 rotated in the rotating body rotating space 320 is reversed to the fluid power generation position when the strength of the fluid impinging on the wing 210 is small Including; control module,
The wing position control module may include a pressing table 220 provided on the other side of the rotating body 200 embedded in the rotating body rotating space 320 of the rotating shaft 300;
It is provided inside the rotating shaft 300, is located on the side of the pressing table 220 is pressed by the pressing table 220 in accordance with the strength of the fluid is pressed or restored to the elastic body; fluid wing characterized in that consisting of Fluid generator equipped with.
The method of claim 1,
The working space 110 is formed inside the housing 100, and the coil 400 is installed on one surface of the formed working space 110.
Hanger 120 is opened toward the inner side of the housing 100 is formed the operating space 110, the magnet 500 is locked so that the rotating shaft 300 is not separated from the inside of the housing 100 of the ring body Fluid generator with a fluid wing, characterized in that the protrusion is provided.
The method of claim 2,
Bearing blades 130 and 140 are installed between the holder 120 of the housing 100 and the magnet 500 or between the holder 120 of the housing 100 and the rotary shaft 300. Fluid generator equipped with.
delete The method of claim 1,
The elastic body is a fluid generator with a fluid wing, characterized in that the tube (330).
The method of claim 1,
The fluid generator with a fluid wing, characterized in that the elastic body is a spring.
The method of claim 5,
The gas filled in the tube (330) is a fluid generator having a fluid wing, characterized in that the nitrogen (N ₂ ).
8. The method according to any one of claims 5 to 7,
The rotor 200 is a fluid generator with a fluid wing, characterized in that provided in at least two separated along the rotation axis (300).

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