KR200310317Y1 - Producing system of utmost efforts using water power - Google Patents

Abstract

The present invention relates to a power generator using a hydraulic power for providing a power generator of a simple configuration that can generate power by using easily accessible and obtainable water,

The power generating device 30 has an inlet 31 so that water can be introduced;

A flow path tube 32 generating power to both sides at a rear end of the inlet 31;

A body 35 including a discharge port 33 for discharging water used for power generation at a rear side of the flow pipe 32;

A shaft (36) installed to protrude to both sides of the flow pipe (32);

It is composed of a shaft 36 positioned between the front side 37 and the rear end 38 of the flow path pipe 32 and the power switching means 40 provided to the flow path pipe 32 to absorb water energy and convert it into power. and;

The power switching means 40 has fixed guides (41, 42) fixed radially inside the flow path tube (32);

The movable guides 43 and 44 which are positioned on the same line as the fixing guides 41 and 42 and are fixed radially outside the shaft 36 while maintaining a predetermined distance T are rotated to 1. And a power converter 45 for the tank;

The power converter 45 is arranged to a plurality of so as to absorb the energy of the water to convert into power;

Each of the power circulator 45 is arranged in a zigzag type to absorb more energy while making the water flow natural.

Description

Producing system of utmost efforts using water power}

The present invention relates to a power generating apparatus using hydraulic power, and more particularly, to provide a power generating apparatus for generating power without a separate energy source using water flowing in a river, an interior, a stream, and the like.

Power is, by definition, a measure of the amount of work that is done in a unit of time when a machine does work, also called work or power, and these units of power are watts, kilowatts, megawatts, meters Horsepower lights are used.

The dynamic form of power is divided into linear power that performs linear work and rotary power that rotates any object, such as lifting a load.

Long-term power was manpower and axial force, but the use of wind power due to the development of sailing boats, and the use of water power due to the development of watermills, were mostly used by the steam engine invented in modern times. In addition, the industrial society has been rapidly completed and changed due to the development of internal combustion engines and gas turbines and the increase in the efficiency of electric energy sources.

When the energy source requires a separate energy source, which is not natural, the pollutants caused by the use of energy sources (such as combustion) are polluted by air or water. It becomes the cause of exhaustion of resources.

For this reason, efforts have recently been made to find environmentally friendly power sources, and most representatively, there is a method of obtaining electrical energy using wind and solar heat.

In this case, not only the technical configuration for converting wind and solar heat into electric energy is complicated but also the number of related parts has not been put into practical use.

The present invention has been devised to solve the above problems, and provides a power generator that can generate power using water flowing in rivers, streams, and streams that can be easily encountered in rural areas, and easily produce crops in highlands. The main purpose is to be able to cultivate or to produce a small amount of electrical energy to obtain high efficiency with a simple configuration.

Figure 1 is a simplified perspective view showing a power generator using a hydraulic power applied technology of the present invention.

Figure 2 is a simplified cross-sectional view showing a power generator using a hydraulic power applied technology of the present invention.

FIG. 3 is a perspective view illustrating an A portion of a power generator using hydraulic power applied to FIG. 2. FIG.

4 is a cross-sectional view taken from a direction B of a power generator using hydraulic power applied to FIG. 3.

Figure 5 is an exemplary state of use of the power generating device using a hydraulic power applied technology of the present invention.

* Description of the symbols used in the main parts of the drawings *

30; Power generator

31; Inlet

32; Euro tube

33; outlet

35; body

36; shaft

40; Power switching means

41,42; Fixed Guide

43,44; Operation guide

45; Power converter

T; interval

R; round

Hereinafter, with reference to the accompanying drawings will be described the configuration and operation of the present invention for achieving the above object.

Figure 1 is a simplified perspective view showing a power generating device using a hydraulic power applied technology of the present invention, Figure 2 is a simplified cross-sectional view showing a power generating device using a hydraulic power applied technology of the present invention, Figure 3 A perspective view showing an A portion of the power generator using the hydraulic power applied to 2, Figure 4 is a cross-sectional view from the B direction of the power generator using the hydraulic power applied to Figure 3, Figure 5 is a hydraulic power applied to the technology of the present invention A description will be given as an example of the state of use of the power generating device used.

In the present invention, it is possible to generate environmentally friendly power using water flowing in a river, a stream, or a stream or falling at a constant height and flow rate.

The power generator 30 has an inlet 31 in front so that water for power generation can be introduced therein, and has a flow path tube 32 for generating power at both ends at the rear end of the inlet 31. And a substantially T-shaped body 35 having a discharge port 33 for discharging water used for power generation at the rear of the flow pipe 32.

The passage pipe 32 is provided with a shaft 36 protruding on both sides, and is located between the front side 37 and the rear end 38 of the flow path pipe 32 located at both ends of the inlet 31. The shaft 36 and the flow path tube 32 are provided with power switching means 40 for absorbing the pressure and speed of the supplied water (energy, hereinafter referred to as energy) and converting it into power.

The power switching means 40 maintains a predetermined distance T while being positioned in the same line as the fixed guides 41 and 42 and the fixed guides 41 and 42 that are radially fixed inside the flow path tube 32. Thus, the power converter 45 is radially fixed to the outside of the shaft 36 to form a set of movable guides 43 and 44 for rotating the shaft 36.

By arranging a plurality of power converters 45 composed of the fixed guides 41 and 42 and the movable guides 43 and 44 so as to absorb the energy of water and convert it into power, the power circulators 45 respectively. ) Is arranged in a zigzag type to absorb more energy while making the water flow natural.

The interval T between the fixed guides 41 and 42 and the movable guides 43 and 44 maintains a minimum liver that can discharge foreign substances such as sand while minimizing the amount of leakage that does not block the flow of water. .

The fixed guides 41 and 42 and the movable guides 43 and 44 have a smooth round (R) in the water flow direction to increase the absorption efficiency of energy by increasing the resistance to pressure and speed while facilitating the flow of water. It is desirable to.

This invention as described above,

Water is generated on both sides of the shaft 36 in a state in which the power generating device 30 or the power generating means such as a chain gear or pulley or the like is provided to connect the power to the driving means 100. Installed in the flowing position or connected to the inlet 31 by a separate intake pipe to supply water having a certain level of pressure and speed.

Then, the water is discharged to the outlet 33 after passing through the inlet 31 and the flow path pipe 32, the power switching means 40 is installed in the flow path pipe 32 in the process of passing through the flow path pipe (32) The energy of the water is absorbed through the shaft 36 to rotate the shaft 36 installed in the flow path tube 32 to generate power.

As the water flowing into the inlet 31 as described above is discharged through both sides of the flow path tube 32 it is possible to minimize the bearing load by canceling the axial force (trust) of the shaft 36.

Looking in detail the process of rotating the shaft 36 by the inflow of water, the radial guide to the fixed guides 41 and 42 fixed radially to the inner diameter of the flow path tube 32 and the shaft 36 installed in the flow path tube 32. Movable guides (43, 44) fixed to the first absorbs the first water energy through the power converter 45 consisting of a set, and sequentially absorbs the water energy through the power telephone 45 installed to the rear It is transmitted to the shaft 36 to rotate.

In particular, the fixed guides 41 and 42 and the movable guides 43 and 44 constituting the power converter 45 facilitate the flow of water while increasing the resistance to pressure and speed to increase the absorption efficiency of energy. In order to have a smooth round (R) in the direction it is easier to switch power.

In the case of sand or other foreign matter contained in water, it is discharged through the gap (T) formed between the fixed guides 41 and 42 and the movable guides 43 and 44, thereby reducing power resistance and thus preventing power conversion. Will not.

In the present invention, the pressure of the water introduced through the inlet 31 of the body 35 provided with the T-type is fixed guides 41 and 42 installed in the flow path pipe 32 and a movable guide fixed to the shaft 36 ( By passing through 43, 44 several times, the pressure potential energy of water is absorbed almost by power (estimated value = 99%), so that the pressure of water at the outlet port 33 becomes natural discharge (zero = 0).

In addition, since the shaft 36 is rotated at a low speed by receiving the pressure of the water, it generates a very high torque, so that the shaft 36 is provided with a separate power connection means rather than a power generation means for producing electrical energy. It will be desirable to be able to utilize a concentrated action by operating the drive means 100 such as a pump or sprayer.

The present invention as described above provides a power generator of a simple configuration that can generate power by using water that can be easily encountered in rural areas, so that crops can be easily grown in highlands, or a small amount of electric energy can be used. Various effects can be obtained, such as obtaining high efficiency such as production.

Claims (3)

In constructing a power generator to generate power by using water flowing in a river, a stream or a stream or falling at a constant height and flow rate; The power generating device 30 has an inlet 31 so that water can be introduced; A flow path tube 32 generating power to both sides at a rear end of the inlet 31; A body 35 including a discharge port 33 for discharging water used for power generation at a rear side of the flow pipe 32; A shaft (36) installed to protrude to both sides of the flow pipe (32); It is composed of a shaft 36 positioned between the front side 37 and the rear end 38 of the flow path pipe 32 and the power switching means 40 provided to the flow path pipe 32 to absorb water energy and convert it into power. and; The power switching means 40 has fixed guides (41, 42) fixed radially inside the flow path tube (32); The movable guides 43 and 44 which are positioned on the same line as the fixing guides 41 and 42 and are fixed radially outside the shaft 36 while maintaining a predetermined distance T are rotated to 1. And a power converter 45 for the tank; The power converter 45 is arranged to a plurality of so as to absorb the energy of the water to convert into power; Each of the power circulator 45 is arranged in a zigzag type so as to absorb more energy while making the flow of water natural. The method of claim 1; The interval T between the fixed guides 41 and 42 and the movable guides 43 and 44 is to maintain a minimum interval for discharging foreign substances such as sand while minimizing the amount of leakage that does not block the flow of water. Power generating device using the hydraulic power. The method of claim 1; The fixed guides 41 and 42 and the movable guides 43 and 44 have a smooth round (R) in the water flow direction to increase the absorption efficiency of energy by increasing the resistance to pressure and speed while facilitating the flow of water. Power generating apparatus using a hydropower, characterized in that.