KR20130103018A - A water wheel for water-power generation plant - Google Patents

Abstract

PURPOSE: A water wheel for a water power generator is provided to reduce manufacturing costs with a simple structure in which a rotary shaft connected to a turbine is rotated by applying pressure to left or right rotating blade only with water force. CONSTITUTION: In a water wheel for a water power generator, multiple upper left horizontal frames (20) and upper right horizontal frames (30) are radially coupled to the outer circumference of a rotary shaft (10). Multiple lower left horizontal frames (40) and lower right horizontal frames (50) are radially coupled to the outer circumference of the rotary shaft and are separated from the upper left horizontal frames and the upper right horizontal frames. Multiple left vertical frames (60) are coupled between the upper left horizontal frames and the lower left horizontal frames at regular intervals. Multiple right vertical frames (70) are coupled between the upper right horizontal frames and the lower right horizontal frames at the regular intervals. Left rotating blades (80) are coupled to the left vertical frames. Right rotating blades (90) are coupled to the right vertical frames.

Description

A water wheel for water-power generation plant,

[0001] The present invention relates to a water turbine for a hydroelectric generator, and more particularly, to a water turbine aerator having a simple structure capable of reducing manufacturing cost and increasing power generation efficiency.

Generally, power generation methods currently used include thermal power generation using large-scale fossil fuels, nuclear power using uranium, and hydroelectric power requiring large-scale desalination facilities. Since thermal power generation is carried out by burning fossil fuels such as coal and petroleum, combustion gas is generated so that air pollution is increased. Nuclear power generation does not discharge combustion gases that pollute the atmosphere, but a large amount of radioactive waste And hydroelectric power generation has an advantage of being environmentally friendly in which combustion gas or radioactive waste is not discharged and no separate fuel is required.

Hydropower, which utilizes the power of water, is a power generation system that converts the mechanical energy into electric energy by rotating the aberration connected to the turbine by the pressure generated from the flow or fall of the water to obtain electric power.

However, the aberration used in the hydroelectric power generation in the past has a complicated structure, which makes it difficult to manufacture and low efficiency.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a hydraulic aerator for a hydroplaner which can increase production efficiency as well as reduce manufacturing cost by adopting a simple structure in which a rotary shaft connected to a turbine can be rotated only by pure water. The purpose is to provide.

In order to achieve the above object, the present invention provides a turbine for a hydro-electric generator, comprising: a rotating shaft connected to a turbine of a hydro-electric generator and rotated; A plurality of upper left horizontal frames provided at left angles of the rotation axis about the rotation axis at a predetermined angle; A plurality of upper right horizontal frames provided on the right side of the rotary shaft at a predetermined angle about the rotation axis; A plurality of lower left horizontal frames spaced apart from the upper left horizontal frame by a predetermined distance on the lower left side of the rotation axis about the rotation axis; A plurality of lower right side horizontal frames spaced apart from the upper right side horizontal frame by a predetermined distance on the right side of the lower side of the rotation axis about the rotation axis; A plurality of left vertical frames spaced apart from each other such that an upper end and a lower end are coupled between the upper left horizontal frame and the lower left horizontal frame; A plurality of right vertical frames arranged at regular intervals so that upper and lower ends are respectively coupled between the upper right horizontal frame and the lower right horizontal frame; A left pivoting blade coupled to the left vertical frame so as to pivot one end thereof so as to be pivotally opened and closed only in one direction; And a right turning blade coupled to the right vertical frame so that one end of the right turning frame is pivotally connected to the right vertical frame to be pivotally opened and closed only in one direction.

Further, in the present invention, the left turning blade and the right turning blade may be hinged to the left vertical frame and the right vertical frame, respectively.

Further, in the present invention, the height of the left turning blade is formed to be larger than the distance between the upper left horizontal frame and the lower left horizontal frame, and the height of the right turning blade is between the upper right horizontal frame and the lower right horizontal frame As shown in Fig.

Further, in the present invention, the upper left horizontal frame and the lower left horizontal frame are symmetrically coupled to each other at a predetermined distance in a bent shape at right angles, and the upper left horizontal frame and the lower left horizontal frame, And the upper right horizontal frame and the lower right horizontal frame are symmetrically coupled with each other at a predetermined distance in a bent shape at right angles, and the upper right horizontal frame and the lower right horizontal frame are symmetrically coupled with each other, The upper part and the lower part can be coupled to each other.

The present invention has an advantage in that not only the production cost can be reduced but also the power generation efficiency can be increased by adopting a simple structure in which the rotation shaft connected to the turbine is rotated by applying pressure to the left turning blades or the right turning blades with the force of water .

1 is a perspective view of a water turbine aerator according to the present invention.
2 is a perspective view showing a state in which a left turning blade of a water turbine for a hydro-electric generator according to the present invention is rotated.
FIG. 3 is a perspective view showing a state in which a right turning blade of a water turbine aber according to the present invention is rotated.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a water turbine aberration according to the present invention will be described in detail with reference to the accompanying drawings.

1, a hydraulic turbine water turbine includes a plurality of upper left horizontal frames 20 and upper right horizontal frames 30 radially coupled to the outer periphery of the rotary shaft 10, and an upper left horizontal frame 20 and an upper right The lower left horizontal frame 40 and the lower right horizontal frame 50 are radially coupled to each other with a certain distance from the horizontal frame 30. A plurality of left vertical frames 60 are coupled to the upper left horizontal frame 30 and the lower right horizontal frame 50 at regular intervals between the upper left horizontal frame 20 and the lower left horizontal frame 40, A plurality of right vertical frames 70 are coupled at regular intervals. A left turning blade 80 is coupled to each of the left vertical frames 60 and a right turning blade 90 is coupled to each of the right vertical frames 70.

The rotary shaft 10 is connected to the turbine of the hydro-electric power generator, and transmits the rotational force generated by the hydro-electric power so that power can be generated from the turbine.

A plurality of upper left horizontal frames 20 are installed at an outer periphery of the rotary shaft 10 installed upright at an angle to the upper left of the rotary shaft 10. The upper right horizontal frame 30 includes a rotary shaft 10, That is, on the upper right side of the rotary shaft 10 at a predetermined angle. Accordingly, the upper left horizontal frame 20 and the upper right horizontal frame 30 are radially provided symmetrically with respect to the rotation axis 10. In addition, if the upper left horizontal frame 20 and the upper right horizontal frame 30 are installed at right angles, that is, at an interval of about 90 degrees, a total of four can be provided. The number of the upper left horizontal frame 20 and the upper right horizontal frame 30 may be determined depending on the situation of the construction site.

A plurality of lower left horizontal frames 40 are installed at an outer periphery of the rotary shaft 10 installed upright, that is, at a lower left side of the rotary shaft 10, 10, that is, the lower right side of the rotary shaft 10 at a predetermined angle. Further, the lower left horizontal frame 40 is provided with the same number in the same direction as the upper left horizontal frame 20, and the lower right horizontal frame 50 is provided with the same number in the same direction as the upper right horizontal frame 30. The lower left horizontal frame 40 is installed below the rotary shaft 10 at a certain distance from the upper left horizontal frame 20 and the lower right horizontal frame 50 is spaced apart from the upper right horizontal frame 30 And is disposed below the rotary shaft 10.

The left vertical frame 60 is coupled to the upper left portion and the lower left horizontal frame 20 at a predetermined interval. The left vertical frame 60 is installed in the same direction as the rotary shaft 10 in a substantially rectangular shape. The right vertical frame 70 is coupled in a plurality of places at regular intervals between the upper right horizontal frame 30 and the lower right horizontal frame 50. The right vertical frame 70 is installed in the same direction as the rotary shaft 10 in a substantially rectangular shape.

Further, the upper left horizontal frame 20 and the lower left horizontal frame 40 are symmetrically coupled with each other at a predetermined distance in a bent shape at right angles, and the upper left horizontal frame 20 and the lower left horizontal frame 40, The upper right horizontal frame 30 and the lower right horizontal frame 50 are symmetrically coupled with each other at a predetermined distance in a bent shape at right angles, The upper and lower portions of the right vertical frame 70 are coupled to the bent inner side of the frame 30 and the lower right horizontal frame 50, respectively.

One side of the left turning blade 80 is hinged to the left side vertical frame 60 by a plurality of hinges H and the other side of the right turning blade 90 is connected to the right side vertical frame 70 by a plurality of hinges H, Lt; / RTI >

The operation of the water turbine aberration according to the present invention will be described with reference to Figs. 2 and 3. Fig.

In FIG. 2, when a water hammer is positioned at a place where a hydraulic force, that is, a flow of water, is generated, the aberration rotates clockwise around the rotary shaft 10 as a whole. At this time, the left turning blade 80 provided on the left side of the rotating shaft 10 is rotated to a position parallel to the flow of water, and the right turning blade 80 provided on the right side of the rotating shaft 10 is rotated in the perpendicular direction corresponding to the flow of water . That is, the left turning blade 80 is hinged to the left vertical frame 60 by the hinge H and is positioned inside the upper left horizontal frame 20 and the lower left horizontal frame 40, . This causes the left rotating blade 80 to rotate in the direction of water flow so as to open between the upper left horizontal frame 20 and the lower left horizontal frame 40 so as to flow through the water.

However, the right turning blade 90 provided on the right side of the rotary shaft 10 is hinged to the right vertical frame 70 with the hinge H and is positioned inside the upper right horizontal frame 30 and the lower left horizontal frame 50 And is rotated to the closed position according to the flow of water. This causes the right turning blade 90 to rotate in the direction corresponding to the flow direction of the water to close the space between the upper right horizontal frame 30 and the lower right horizontal frame 50 to rotate the rotary shaft 10 by the hydraulic force corresponding to the flow of water .

Therefore, the upper left horizontal frame 20, the lower left horizontal frame 40, and the upper right horizontal frame 30 and the lower right horizontal frame 50 are bent in the same direction, and the left vertical frame 60 and the right vertical frame 70 are hinged to the hinges H so that the left turning blades 80 and the right turning blades 90 are hinged to each other by the hinge H, And the right turning blade 90 is rotated in the counterclockwise direction. Therefore, the aberration causes the rotating shaft 10 to rotate clockwise by the hydraulic force applied to the right turning blade 90 according to the flow of the water. The rotational force of the rotary shaft 10 is transmitted to the turbine to be converted into electric energy.

3, the upper left horizontal frame 20 and the lower left horizontal frame 40 and the upper right horizontal frame 30 and the lower right horizontal frame 50 are rotated 180 degrees, 20 and the lower left horizontal frame 40 are rotated to the right and the upper right horizontal frame 30 and the lower right horizontal frame 50 are rotated to the left. In this state, the left pivoting blade 80 of the upper left horizontal frame 20 and the lower left horizontal frame 40 is in a closed state, i.e., in a position to resist the flow of water, and the upper right horizontal frame 30 and the lower right horizontal The right turning pawl 90 of the frame 50 is in the open state, that is, the position parallel to the flow of the water. The rotary shaft 10 is connected to the upper left horizontal frame 20 and the left rotary pivot 80 of the lower left horizontal frame 40 and the right rotary pivot 80 of the upper right horizontal frame 30 and the lower right horizontal frame 50 90, the turbine rotates continuously in the clockwise direction, thereby providing the turbine with rotational power for power generation.

It is preferable that the height of the left turning blade 80 is formed to be larger than the distance between the upper left horizontal frame 20 and the lower left horizontal frame 40, The distance between the left vertical frames 60 adjacent to each other is larger than the distance between the left vertical frames 60 adjacent to each other. The right turning blade 90 is preferably formed to have a height larger than a distance between the upper right horizontal frame 30 and the lower right horizontal frame 50, The vertical distance between the adjacent right vertical frames 70 in the vertical direction 70 is larger than the distance between the right vertical frames 70 adjacent to each other. This is because the edge portions of the left turning pivot 80 and the right turning pivot 90 are connected to the upper left horizontal frame 20 and the lower left horizontal frame 40 and the upper right horizontal frame 30 and the lower right horizontal frame 50, May rotate in one direction and do not rotate in the opposite direction, which may contribute to the direction of motion of the whole of the rotary shaft 10 as a whole.

While the invention has been shown and described with respect to the specific embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who has it will know it easily.

10: rotating shaft 20: upper left horizontal frame
30: upper right horizontal frame 40: lower left horizontal frame
50: Lower right horizontal frame 60: Left vertical frame
70: right vertical frame 80: left pivoting blade
90: Right turning blade H: Hinges

Claims (4)

In the aberration for the hydro generator,
A rotary shaft (10) connected to the turbine of the hydraulic power generator and rotated;
A plurality of upper left horizontal frames (20) provided at left angles of the rotation axis (10) around the rotation axis (10) at a predetermined angle;
A plurality of upper right horizontal frames 30 provided on the right side of the rotary shaft 10 at a predetermined angle around the rotary shaft 10;
A plurality of lower left horizontal frames 40 spaced a predetermined distance from the upper left horizontal frame 20 on the lower left side of the rotary shaft 10 about the rotary shaft 10;
A plurality of lower right horizontal frames 50 spaced apart from the upper right horizontal frame 30 by a predetermined distance on the lower right side of the rotary shaft 10 about the rotary shaft 10;
A plurality of left vertical frames 60 spaced apart from each other such that an upper end and a lower end of the upper vertical frame 60 are coupled between the upper left horizontal frame 20 and the lower left horizontal frame 40;
A plurality of right vertical frames (70) spaced apart from each other by an upper end and a lower end, respectively, between the upper right horizontal frame (30) and the lower right horizontal frame (50);
A left pivot blade 80 coupled to one end to the left vertical frame 60 to be pivotally opened and closed in one direction; And
Hydroelectric generator aberration comprising a; a right rotating wing (90) installed to be rotated open and close only in one direction is coupled to one end is rotated to the right vertical frame (70).
The aberration for the hydroelectric generator according to claim 1, wherein the left rotating blade (80) and the right rotating blade (90) are hinged (H) respectively to the left vertical frame (60) and the right vertical frame (70).
According to claim 1, wherein the left rotating blade 80 has a height greater than the distance between the upper left horizontal frame 20 and the lower left horizontal frame 40, the right rotating blade 90 is the height Is aberration formed for the hydro-generator greater than the interval between the upper right horizontal frame 30 and the lower right horizontal frame (50).
According to claim 1, wherein the upper left horizontal frame 20 and the lower left horizontal frame 40 is symmetrically coupled at a predetermined distance in a shape bent at right angles, the upper left horizontal frame 20 and the lower left horizontal frame ( The upper and lower portions of the left vertical frame 60 are coupled to the bent inner side of the 40, respectively, and the upper right horizontal frame 30 and the lower right horizontal frame 50 are symmetrical at a predetermined distance in a shape bent at right angles. Combined, the aberration for the hydroelectric generator, the upper and lower portions of the right vertical frame 70 is coupled to the bent inner side of the upper right horizontal frame 30 and the lower right horizontal frame 50, respectively.

Images