KR20140012879A - Low drop hydro turbine - Google Patents

Abstract

The present invention relates to a low head water turbine for generating power using the weight and the pressure of water and specifically, to a water turbine which guides water into a turbine from a low position; applies an action for rotating a rotary shaft using the potential energy of the water according to the weight and the pressure of the water to the blade of a turbine plate at the tip end of a plate mount radially installed on the rotary shaft at a distance from the rotary shaft; and rotates the rotary shaft using the principle of leverage. The present invention is characterized by effectively generating power in small and medium-sized power plants using a universal power generation method in a dam plant.

Description

Low Drop Hydro Turbine {omitted}

The present invention relates to a hydro turbine that effectively utilizes the potential energy of water in a low drop zone by using a hydro turbine that generates electricity by using water weight and water pressure simultaneously.

In general, hydroelectric power generation in general has been a dam, a basin change type, and a small hydro power generation facility. There were other methods of using watersheds to overcome the low efficiency against investment cost. However, the method of improving the efficiency of turbines was more disappointing.

The present invention was devised in view of the above-described problems of the low drop zone, and prevents the formation of a flooded zone without installing a dam blocking the low drop basin. It is an object of the present invention to provide a hydroelectric turbine that converts gravity energy by the weight of water generated in a turbine into useful potential energy at the same time by forming water pressure in the induction water pipe.

Between the installation of the water barrier in the low drop zone according to the present invention for achieving the above object, the slope for installing the water pipe to guide the water to the turbine, the turbine rotary shaft support standing on the base of the low floor for installing the turbine, and the waterway plate It is characterized in that the water plate is fixedly installed on the turbine plate operating by meshing bite

By the size of the water channel plate, turbine plate and turbine blades, the function of the turbine to generate electricity by maximizing power generation efficiency can be more efficiently formed in the potential energy of water than in the low drop basin.

As described above, when the hydroelectric turbine of the present invention is installed and a large number of hydro turbines are installed in a low drop basin, the hydroelectric turbine is economically and eco-friendly for the flow of rivers and rivers. It is possible to overcome the low compositional efficiency of power generation in the low drop basin and convert the potential energy of water into more useful and effective energy.

1 is a perspective view showing a hydroelectric turbine of the present invention;
Figure 2 is a partial explanatory perspective view showing the installation of the water supply water pipe to the hydro turbine turbine water pipe of the present invention;
3 is a front view showing the turbine plate in front.
DESCRIPTION OF THE REFERENCE NUMERALS
Clapper: 37 Turbine Plate (A4) Turbine Wings (D2)
Turbine Waterway Pipe (CC) Water Transfer Pipe (C2) Rotary Shaft Support (B1)
Contraction (22) Contraction (20)

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

1 is a perspective view showing a hydroelectric turbine of the present invention;

Figure 2 is a partial explanatory perspective view showing the installation of the water supply water pipe in the hydro turbine turbine water pipe of the present invention;

3 is a front view showing the turbine plate in front.

As shown in FIGS. 1 to 2, the hydroelectric turbine of the present invention includes a rotary shaft support B1, a base bottom K4 on which the rotary shaft support is installed, and a rotary shaft installed on the support B1. And a turbine channel plate (A4) provided on the mounting shaft shaft (20) fixed to the rotating shaft and the radial axis and the concentric circular turbine plate (A4) and the turbine blades (D2) are joined to the half of the turbine plate (A4). It consists of a water channel plate (CC) and a water pipe (C2) installed in the water channel plate (CC) to guide the water of the river into the turbine.

In order to implement the present invention in the river 55 to form a water barrier (57) as (37) In the water barrier (57) to install a water pipe (CC) for inducing water, the water guided to the water pipe (O ₂ ) In the waterway pipe installation hole (E2) drilled in the waterway pipe (C4) opposite to the turbine plate (A4) of the c-channel water pipe (CC), which is fixedly installed at the base of the turbine (M) and the support (B1). The end of the water pipe (CC) for inflowing water is installed as shown in (200).

One wing of the c-type that is fixedly installed so as not to operate in the above is fixed to the turbine plate A4 through the plate mounting table 20 so as to be rotated as shown by the arrow Z1 at the opening portion F of the waterway tube CC. Concentrically curved surface of the inner surface of the waterway pipe C6 and the inner surface of the waterway pipe C6 and the inner surface of the waterway pipe C4. (70) and the outer circular surface (P2) and the inner concentric circular surface (P1) of the turbine plate (A4) is engaged so that the slip between the inlet barrier wall (E8) and the turbine inner plate (E7) by the length of the blade (D2). Turbine plate (A4) is engaged between the turbine channel pipe (CC) through the plate mounting table 20 so that the spacing of the water inlet space 200 and the water outlet (Y4) at the same interval is equal to the turbine plate (A4) ) Is integrated with the rotating shaft (A1) through the plate mounting table 20, the rotating shaft is installed on the bearing (A3) of the support

When the turbine plate A4 is engaged between the turbine plate A4, the turbine channel pipe CC left plate C6, and the right plate C4, the turbine plate A4 is left as shown by the circular mark J. Installed inside and right side plate

In order to prevent the loss of water introduced into the turbine (F) between the inner concentric surface (P1) and the outer concentric surface (P2) and the turbine channel pipe left plate (C6) and the right plate (C4) of the turbine plate (A4) in the above. The left side plate C6 and the right side plate C4 are joined to the left side plate C6 and the right side plate C4 so that the water loss prevention member N contacts the turbine plate side and slides along the turbine plate surface. Is installed as in (J)

In the above water is transferred through the water pipe (C2) and is filled between the inner surface of the turbine plate (A4) and the inner surface of the turbine channel pipe (CC) which is inside the turbine through the inlet (200).

Water introduced from above is filled by the weight of the water and the hydraulic action between the wing and the wing.

In the turbine, the turbine plate A4 is arrowed by the force that the water filled in the turbine channel pipe CC is discharged to the water outlet E7 at the bottom of the turbine Y7 by the action of the potential energy of the water received by the blade D2. Rotate in the direction Z1 and allow the rotation axis to rotate in the direction of the arrow Z1 with the same principle as the force that the rotation axis A1 acts on the lever by the plate mount 22.

As the turbine plate rotates in the above, the turbine blade (D2) continues to enter the waterway tube filled with water formed between the turbine plate (A4) and the turbine waterway tube (CC), and the plate mounting table continues to receive the potential energy of water in the waterway tube. Is installed to rotate the rotating shaft through 20

Turbine (M) in the above is to form a water pipe continues to rotate to rotate the turbine plate with the potential energy of water

In order to strengthen the water pressure of the device water so that the water pipe C2 is introduced into the turbine water pipe CC as shown in the explanatory diagram 400, the water pipe C2 is provided at an inclined angle as shown in (D7), and the water pressure action in the water pipe is carried out. It is preferable that (S8) is installed to strongly act in the direction of the water outlet (E7).

And when the flow rate is high in the river, the turbine can be operated by forming a hole (E2) for installing the upper, middle, and lower water pipes (C2) in the turbine water pipe (CC) and maximizing the potential energy of water in the turbine blade (D2). It is desirable to have

In addition, in order to effectively receive the potential energy of the water received by the turbine plate blade, it is preferable that a reinforcement plate D3 connecting the blade D2 and the turbine plate A4 is installed on the blade D2 like the 404.

In addition, the present invention, the hydraulic turbine (M) is easy to make the turbine channel (CC) and the turbine wing (D2) large and easy to maximize the potential energy of the water in the power generation device that can generate power.

In addition, the present invention installs the turbine (M) at an angle 707 inclined from the base (K4) on the rotary shaft (A1) as shown in the explanatory drawing (500) and the low drop generation at a lower height Promote eco-friendly hydropower with the aim of being able to plan

Claims (1)

In the low drop hydro turbine gear consisting of the water pipe 37 and the turbine plate A4 fixed to the ground
The low drop hydro turbine (M) is
A waterway tube (C2) for transferring the water of the water barrier (37) and the water barrier; and an open turbine waterway tube (CC) on one side of the semi-circular plate pipe that is fixed to the ground to fill the water of the transferred waterway tube (C2); The inner surface P1 inserted into the turbine channel pipe opening and the plate center is concentric and the outer surface P2 of the plate are concentrically coupled with the turbine channel tube opening left C6 and the right plate C4. The turbine plate (A4) and the turbine channel pipe (CC) is formed to form a waterway tube and the operation of the turbine (M) is made by the wing of the structured turbine plate to fill the water in the above,
The size of the concentric disc of the turbine plate (A4) is installed with the rotating shaft (A1) in proportion to the length of the tightening shaft installed in the turbine plate. The central part of the concentric circle of the inner and outer diameters of the turbine plate A4 through which the shaft penetrates around the rotating shaft is centered on the rotating shaft. Low drop hydro turbine, characterized in that the outer surface is meshed with the turbine water pipe installed to rotate

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