KR101431188B1 - Vertical variable turbine blade - Google Patents

Abstract

The present invention relates to a vertical variable turbine blade capable of generating power based on a small amount of flowing water to transmit the whole energy of the flowing water to blades of a turbine, thereby improving power generation efficiency. Rotation plates are engaged to both sides of a stationary shaft, installed to cross a watercourse, with a gap therebetween to be able to rotate and plate-shaped blades are coupled to the rotation plates, to be able to rotate, at regular intervals in a concentric circle. A sprocket is fixed to the blade at the sides of the rotation plates, and a sprocket having the same structure as the sprocket is fixed to the stationary shaft. A chain is engaged with the sprockets in such a way that the chain is halfway wound around the sprocket engaged to the stationary shaft and then is wound around the sprocket fixed to the blade. A rotation cap is installed to the rotation plate to be able to rotate around the stationary shaft, and torque is outputted from the rotation shaft.

Description

[0001] The present invention relates to a vertical variable turbine blade,

The present invention relates to a blade vertical-variable turbine that generates electricity using a small amount of flowing water, and is capable of transferring energy flowing through the water to the wings of the aberration completely, thereby improving power generation efficiency.

Since environmental problems arise from the use of fossil fuels and nuclear power, power plants that use low drift or use water-filled energy are becoming increasingly important resources for development.

Therefore, it uses energy of low velocity of water which is continuously discharged even in a small amount in water treatment plant, sewage end treatment plant or water level control beam, or water flow energy that flows along the water.

However, in the existing low-potential small-hydro-power generation apparatus, in order to generate power by using the energy of the flowing water and the energy of the falling water, water is made to contact the wing formed to protrude to the outside of the aberration, So that the aberrations are rotated.

The conventional aberration is rotated by the position of the water or the flow velocity energy transmitted to the blade after the blade is protruded outwardly. In particular, the aberration is generated across the flowing water, When the blade touches the water and rotates, the blade contacts the blade at right angles to the flowing water, generates a rotational force, and receives a force that interferes with the rotational force of the aberration when the blade leaves the water.

That is, a conventional aberration-type aberration causes the aberration to be rotated by flowing water or falling water to the blade, and the force applied to the blade interferes with the turning power of the aberration from the moment the blade is released from the water. Do not disturb torque.

Korean Patent Publication No. 10-2016-0114299 (published November 6, 2006) Korea Patent Registration No. 10-1262579 (Registered on May 31, 2013) Korean Patent Publication No. 10-2011-0107883 (published on May 10, 2011) Korean Patent Publication No. 10-2012-0006128 (published on August 31, 2012)

The present invention relates to a turbine which is installed at right angles to the direction in which water flows and in which the blades protrude outward. The blades are immersed in water to obtain the rotational force of the turbine, but when the blades are discharged from the water, And to solve the problem of not being able to maximize the rotational power of the turbine because it receives the disturbing force.

In the present invention, a rotary shaft is rotatably coupled to both sides of a fixed shaft provided across a waterway, and a plate-shaped blade is rotatably coupled to the rotary plates at regular intervals with a concentric circle. And a sprocket fixed to the blade, wherein the sprocket is fixed to the sprocket, wherein the sprocket has the same structure, and the chain is coupled to the sprocket, wherein the chain is coupled to the sprocket coupled to the fixed shaft, And a rotary cap is installed on the rotary plate so as to rotate about a fixed axis, and a rotary power is drawn from the rotary shaft. When the rotary member is rotated in a state where the blades are always vertically erected, .

In the present invention, a blade coupled to a rotating turbine rotates by itself, and rotates in the same manner as the rotation of the turbine, so that the blade comes out of the water in a vertically erected state and then comes out as it is. Do not be disturbed.

The present invention relates to a turbine which is installed across a water channel and in which a blade is brought into contact with water to obtain a rotational force so that the blade protruding outward of the turbine is rotated in the same direction as the turbine, By positioning the blades, it is possible to maintain the vertical direction regardless of the rotation of the turbine from when the blade comes out of the water to when it comes out of the water, and does not receive the force that interferes with the rotational force when the blade comes out of the water. .

Figure 1 is a partially cut away perspective view of the turbine of the present invention
2 is a cross-sectional view of the turbine installed state of the present invention
Figure 3 is a side view of the turbine of the present invention
4 is a side view showing the rotating state of the turbine of the present invention
5 is a side view of the turbine of the present invention
Figure 6 is a side view of another embodiment of the turbine of the present invention
Figure 7 is a side view of the blade of the present invention
8 is a side view of another embodiment blade of the present invention
9 is a side view of another embodiment blade of the present invention

In the present invention, a fixed shaft is installed across a water channel, and a rotary shaft is provided on the fixed shaft so as to be spaced apart from each other by a predetermined distance. Several blades are installed at equal intervals between the rotary shafts so as to have a concentric circle, The sprocket is rotatably coupled to the rotating plate, and the sprocket is fixed to the blade by rotating the sprocket outside the rotating plate. The sprocket is coupled to the sprocket fixed to the fixed shaft by a chain Wherein the chain is engaged with the outside of a sprocket coupled to the blade whilst half of the sprocket coupled to the stationary shaft is fitted and the rotation cap is fixed to the rotation plate while the rotation cap is free to rotate on the stationary shaft, By transferring the rotational power from the cap to the generator, And such that the lure.

In the present invention, the turbine is installed across the channel, the turbine is rotated by using the flow velocity energy of the water to be applied to the blade of the turbine, and the turbine is taken out of the rotational force to generate electricity. It is true.

In the present invention, since the blades constituting the turbine are rotated in the same number of times as the number of rotations of the turbine, the direction of the blades is constantly fixed, and the blades come out of the water. In the present invention, In this state, it starts to hit the water to allow the turbine to rotate, but when the water comes out of the water, the blade is pulled out vertically.

The present invention relates to an apparatus and a method for preventing water from being pumped up when a blade leaves the water, and also to maintain the angle of the blade at a right angle with respect to the direction of water flow, So that the power generation efficiency is improved by eliminating the elements that interfere with the rotational force of the turbine.

The present invention allows the blades to rotate at the same angle regardless of the rotation of the turbine by causing the blades to make one revolution in one rotation of the turbine. In the present invention, by positioning the blades vertically with respect to the direction in which the water flows, So that the blade always contacts the water vertically and falls vertically so as not to interfere with the rotational force of the turbine.

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

The present invention relates to a turbine (100) having a roughly cylindrical shape and having a fixed shaft (10) at the center and a plurality of blades (30) So that the same angle is always maintained irrespective of the position of the blade 30.

The present invention is characterized in that the fixed shaft 10 is installed and fixed in a direction transverse to the water flowing in the water channel 1 and is provided with a rotary plate 20 at regular intervals on both sides of the fixed shaft 10, The plurality of blades 30 are concentrically disposed between the rotating plates 20 and are equally spaced from each other so that the blades 30 of the rotating plate 20 are rotated by the bearings 32 The blade 30 and the sprocket 31 rotate in the same direction by fixing the sprocket 31 on the outer side of the rotary plate 20 at the tip of the blade 30. [

The sprocket 11 is fixed to the stationary shaft 10 and the sprocket 11 installed on the stationary shaft 10 and the sprocket 31 mounted on the blade 30 are made of the same diameter sprocket The sprocket 31 fixed to the blade 30 makes one rotation when the sprocket 11 is moved by one rotation with the sprocket 11. [

In the present invention, the chain 40 is fitted on the outer side of the sprocket 31 coupled to the blade 30 after the chain 40 is fitted to at least half of the sprocket 11 coupled to the fixed shaft 10, The outer side of the sprocket 31 fixed to the blade 30 is hooked to the chain 40 and the chain 40 is coupled to the fixed shaft 10 between the sprocket 31 and the sprocket 31 So that it is caught by the sprocket 11.

The rotary cap 50 is fixed to the rotary shaft 20 of the present invention on the outer side of the sprocket 31. The rotary cap 50 is rotatably mounted on the fixed shaft 10 by a bearing 51, The rotational force of the rotary cap 50 is transmitted from the sprocket 61 to the known generator 70 via the chain 60 to allow power generation.

The turbine 100 according to the present invention is installed such that the blade 30 contacts the water flowing through the water channel 1 at a right angle so that the maximum water is contacted when the blade 30 moves to the lowest point, As shown in FIG. 6, and the water is set in flowing water.

As shown in FIG. 8, the blade 30 of the present invention has a concave shape in the direction in which the water reaches, thereby making it possible to receive the water flow energy as much as possible.

In the present invention, when a water channel is wide, a plurality of turbines 100 may be installed in a row or a fixed shaft 100 may be installed, and then several turbines 100 may be installed, .

The present invention with such a configuration allows the water flowing in the water channel 1 to contact the blade 30 at a right angle direction by installing the turbine 100 across the water channel so that the number of revolutions of the turbine 100 and the blade 30 So that the blade 30 maintains the same angle at any position. In the present invention, the blade 30 comes into contact with the water while maintaining the vertical state, and then the water comes out of the water.

The turbine 100 of the present invention is installed across the water channel 1 and the sprocket 31 fixed to the blade 30 and the sprocket 11 coupled to the fixed shaft 10 are of the same size, The sprocket 11 and the sprocket 31 coupled to the blade 30 are mounted on the chain 11 and 31 so that the sprocket 11 and the sprocket 31, The blade 30 rotates once when the turbine 100 makes one rotation.

The sprocket 11 rotates the sprocket 31 fixed to the blade 30 while the chain 40 moves on the sprocket 11 by the turbine 100 rotating in a fixed state without rotating.

The chain 40 is attached to the sprocket 31 fixed to the fixed shaft 10 between the sprocket 31 and the sprocket 31 while being hooked to the outside of the sprocket 31 fixed to the several blades 30 So that the sprockets 31 and 11 maintain the same rotation.

Accordingly, when the blade 30 is vertically oriented as shown in the drawing and then the chain 40 is hooked, the position of the blade 30 is changed as the turbine 100 is rotated. At the same time, the blade 30 , So that the blade 30 maintains the vertical position in any case.

If the chain (40) is hooked after the blade (30) is tilted as shown in FIG. 9 before the chain (40) is hooked, the blade (30) The blade 30 maintains a constant direction regardless of the rotation of the turbine 100 at any time.

On the other hand, when the blade 30 is placed in a vertical state, when the water flows on the water channel 1, the blade 30 receives a force in a direction perpendicular to the flow direction of the water. At the same time, The water is prevented from coming out along the blade 30 when the blade 30 comes out of the water, so that it is possible to prevent the water from coming out of the turbine 30, As the water rises along the blade along the stones, it eliminates the elements that interfere with the rotation, thus improving the efficiency of the power generation.

Particularly, according to the present invention, since the blade 30 reaches the water at any time according to the rotation of the turbine 100 to obtain the rotational force, the blade 30 comes into contact with the water even when it comes out from the water. The turbine 100 is rotated at a right angle with the flowing direction of the turbine 100. When the turbine 100 comes out from the water,

Since the rotation of the blade 30 and the rotation of the turbine 100 are the same, the present invention rotates the blade 30 when the turbine 100 rotates. Therefore, the blade 30 of the turbine 100, As shown in FIGS. 3 to 6, the blade 30 is not subjected to the force that interferes with the rotation of the turbine 100 when the blade 30 enters the water, and after the blade 30 enters the water Water is applied to the blade 30 in a direction perpendicular to the axis of the blade 30 so that the turbine 100 is rotated at a maximum flow velocity of the water. When the blade 30 comes out of the water, So that the turbine 100 is not rotated. Thus, the turbine 100 rotates without any obstruction.

Since the rotation of the turbine 100 is transmitted to the generator 70 through the chain 60, the power generation is performed. The present invention solves the problem that the power generation efficiency is inferior when the power is generated using only the water flow It is possible to obtain maximum power generation efficiency, and therefore, it is effective for small-hydro power generation.

10: fixed shaft 11, 31, 61: sprocket
20: spindle 30: blade
40,60: Chain 50: Rotating cap
70: Generator 100: Turbine

Claims (3)

A rotary shaft (20) is rotatably installed on both sides of a fixed shaft (10) provided across a water path at intervals,
A blade 30 is installed between the rotary plates 20 so that the blades 30 are spaced apart from each other at a position concentric with the rotary shaft 10,
A sprocket 31 fixed to the blade 30 is installed outside the rotary plate 20 and a sprocket 11 is fixed to the fixed shaft 10 while the sprockets 31 and 11 are sprockets (11) (31)
A sprocket 11 is fixed to the sprocket 31 between the sprocket 31 and the sprocket 31 fixed to the blade 30 by coupling the chain 40 to the sprockets 31 and 11, Or more,
The rotary cap 50 is fixed to the rotary plate 20 so that the rotary cap 50 is rotated about the fixed shaft 10 and then the rotary cap 50 draws power to drive the generator 70 Wherein the turbine is a turbine. delete The blade vertical variable turbine of claim 1, wherein the blade (30) is concave in the direction of water contact.

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