KR20150140057A - Water turbine and waterturbing genetator using the same - Google Patents

Abstract

A water wheel and a water power generator using the same are disclosed. The water wheel is configured to improve utilization efficiency of flowing water and to be applied to the water power generator generating electricity using the water wheel. According to the present invention, the water wheel comprises: a cylindrical water wheel main body; a disk-shaped installation plate; a water wheel blade; and a flow rate increasing unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a water turbine,

The present invention relates to a water turbine and a hydraulic power generator using the same, and more particularly, to a water turbine provided with a water turbine configured to increase utilization efficiency of water, And a hydraulic power generator using the same.

Typical power generation methods include nuclear power generation using nuclear power, thermal power generation using fossil fuel, wind power generation using wind as an energy source, and hydroelectric power generation using water power.

The above-described power generation methods require a large amount of energy source and a large-scale power generation facility to operate the power generation facility, and there are restrictions on the installation place. In particular, the use of fossil fuels such as petroleum and coal as an energy source for thermal power generation is not permanent because it causes problems such as depletion of resources at the time of continuous use because of limited reserves. In addition, there is concern that air pollution and radioactivity may leak out, which is not environmentally friendly.

Therefore, in order to prevent environmental pollution caused by various disasters and various pollutants caused by global warming caused by depletion of resources due to use of petroleum or coal and combustion of petroleum or coal, recently, Development methods that utilize natural energy such as tidal, solar heat, and hydroelectric power to utilize energy source permanently and environmentally friendly have been developed and applied. Among them, the power generation method of converting solar energy or wind energy into electric energy and storing it in electric storage battery etc., is severely restricted in weather and environment. In addition, the tidal power generation can be applied only to a locally limited place, since the tidal power can be obtained only in a region where the difference between the tides is high, so that the wave power generation can be applied only to a limited place where the waves are continuously generated as in the case of the tidal power generation There are restrictions on the installation place.

In addition, since hydroelectric generators require a large amount of water to be stored, this also applies to a limited number of places, which restricts the installation site. In addition, in the case of a conventional hydro-electric generator, since the turbine is rotated by utilizing the water level of the water located at a high position, electricity is obtained, and therefore, water storage facilities such as a dam, power generation facilities installed under the dam, There is a problem that installation space and installation cost are required because a drainage facility for sending to the sea must be constructed on a comparatively large scale.

Therefore, in recent years, research and development have been actively conducted on a small-hydro-power generation apparatus having a structure capable of producing electricity by small oil spills. That is, the small hydropower generation apparatus can be installed in a reservoir and a small-scale river, and can be easily installed without involving a large-scale civil engineering work, thereby solving both economical and environmental problems.

However, in constructing the conventional small-hydro-power generation device, since the aberration of a structure having a radial wing formed on the outer periphery of the airstream main body is adopted in the small hydro-power generation device, the utilization efficiency of the effluent is low There is a problem that power generation efficiency is lowered.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above. It is an object of the present invention to provide an aberrator configured to increase efficiency of utilization of water, And to provide a hydraulic power generator using the same.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a water turbine having a cylindrical aberration body rotatably mounted on a rotary shaft, A disk-shaped mounting plate protruding at a predetermined height from both ends of the aberration body; The aberration wing is configured such that the quadrangular plate members are bent in an arc shape and are radially arranged at regular intervals along the outer surface of the aberration main body with respect to the rotation axis, And a flow rate increasing portion configured to have a semicircular shape at an inner end of the aberration wing and to be discharged to the discharge groove while the gravity and the flow velocity are increased by the rotation after the water moved on the aberration wing is guided, And aberrations that are different from each other.

In this case, both side surfaces of the flow rate increasing portion are finished through a finishing plate, and the aberration body is provided in a shape corresponding to the flow rate increasing portion in the lateral direction of the outer surface, and is formed at a predetermined distance radially along the outer surface of the aberration body, And an auger blade having a catching protrusion formed on one side of the flow rate increasing portion is formed and the auger blade is assembled to the aberration body by fitting the flow rate increasing portion into the fitting groove of the aerator body.

The above object of the present invention can be achieved by a water channel comprising a bottom surface and a side plate extending upward from both sides of the bottom surface, A cylindrical aberration main body having a lower end positioned in the internal space of the water channel and rotatably mounted about a rotation axis, a disc-shaped mounting plate protruding at a predetermined height at both ends of the aberration main body, An aberration wing configured to guide the water, wherein the quadrangular plate members are bent in an arc shape and arranged radially at predetermined intervals along the outer surface of the aberration body about the rotation axis, And a flow rate increasing portion which is formed in a semicircular shape at an end of the aberration wing and is discharged to the discharge groove while the gravity and the flow velocity are increased by the rotation after the water moved on the aberration wing is guided, A plurality of aberrations; A support base supporting both ends of the rotation shaft of the aberration body so as to be rotatably installed and having a lower end portion of the aberration positioned in the inner space of the waterway; And a generator connected to the rotation shaft of the aberration body to generate electric energy while receiving the power of the rotation shaft.

Here, it is preferable that the water channel is formed so that a downward inclined surface formed to be inclined downward from the inlet to the outlet of the bottom surface is formed, so that the flow rate of water flowing in the water channel can be increased.

In addition, a water storage tank capable of storing water is formed in the rear of the water channel, and an opening / closing door is provided to adjust the amount of water discharged to the water channel by adjusting the degree of opening of the water storage tank, It is preferable that a water guide plate is provided at an angle in the diagonal direction of the center of the water channel in front of the water channel so that the water coming into the water channel through the water reservoir is guided to the center portion of the water channel by the water guide plate to increase the speed.

The vertical support may include a vertical support bar, a vertical support bar, and a vertical support bar. The support bar may include a plurality of vertical supports installed on both sides of the water channel in the forward and backward directions, The vertical support rod is inserted into the vertical support rod or discharged to the outside to be adjustable in length, and the outer surface of the vertical support rod is pressed through the fixing screw to be fixedly coupled to the vertical support rod Wherein the horizontal support bar comprises a horizontal support bar, a fixing screw which is fitted to an end of the horizontal support bar and which is adjustable in length while being inserted into or discharged from the horizontal support bar, The outer surface of which is pressurized and fixedly coupled to the inside of the horizontal support rod Wherein the vertical support rods are rotatably coupled to the housing in such a manner that the vertical support rods are rotatably coupled to the housing in such a manner that a lower joint is coupled to the lower ends of the vertical supports, It is preferable that the upper joint is coupled to the upper joint so that both ends of the rotary shaft are rotatably fitted and the lower joint of the upper joint is rotatably coupled.

A flywheel is provided at an end of the rotary shaft to generate an inertial force of the rotary shaft to keep the aberration torque constant due to a change in the speed of the flow rate. A pulley is coupled to the outer side of the flywheel at the end of the rotary shaft, It is preferable that a belt which rotates infinitely is combined so that the power of a plurality of aberrations is simultaneously transmitted to the generator.

The present invention can efficiently produce electricity by using an aberrator configured to increase the utilization efficiency of the effluent and can increase the speed and gravity of the flow rate flowing through the inside of the water channel and greatly improve the rotational power of the water turbine installed in the water channel, So that it is possible to efficiently produce it.

1 is an exploded perspective view of an aberration according to the present invention,
FIG. 2 is a perspective view showing a coupling of aberration according to the present invention,
3 is a view for explaining the operation of the aberration according to the present invention,
4 is a perspective view illustrating a hydro-electric generator using an aberration according to the present invention,
5 is a cross-sectional view illustrating a hydrostatic generator using an aberration according to the present invention,
6 is a perspective view for explaining that an aberration is provided on a support in the present invention,
FIGS. 7 to 11 are views for explaining preferred embodiments of a hydrostatic generator using an aberration according to the present invention. FIG.

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

FIG. 3 is a view for explaining the operation of the aberration according to the present invention, and FIG. 4 is a cross-sectional view of the present invention FIG. 5 is a cross-sectional view illustrating a hydrostatic generator using an aberration according to the present invention, FIG. 6 is a perspective view illustrating a water turbine mounted on a support in the present invention, and FIGS. 11 is a view for explaining preferred embodiments of a hydrostatic generator using an aberration according to the present invention.

1 to 3, the aberration 100 according to the present invention is configured to rotate by the water flow and is configured to increase the utilization efficiency of the effluent, and is applied to a hydroelectric generating apparatus that generates electricity using effluent And includes the aberration body 110, the mounting plate 120, the aberration blades 130, and the flow rate increasing portion 140.

First, the aberration body 110 is provided in a cylindrical shape and is rotatably installed around the rotary shaft 101. That is, the aberration body 110 is configured such that the rotation shaft 101 is coupled to the center thereof, and when the aberration body 110 rotates, the rotation shaft 101 also rotates together with the rotation shaft 101.

Next, the mounting plate 120 is formed in a disk shape and is formed at a predetermined height on both ends of the aberration body 110. That is, the mounting plate 120 is coupled to a side surface of the aberration body 110 to close the side surface of the aberration body 110 and is formed to protrude a predetermined height from the height of the aberration body 110, The water is prevented from deviating in the lateral direction of the aberration body 110 and the effluent is guided into the aberration body 110 between the mounting plates 120. The mounting plate 120 is configured to support both ends of an aberration wing 130 installed on an outer surface of an aberration body 110, which will be described later.

Next, the aberration wing 130 is configured such that the rectangular plate members are bent in an arc shape and are arranged at predetermined intervals along the outer surface of the aberration body 110 with the rotation axis 101 as a center. That is, the aberration wings 130 are radially coupled along the outer surface of the aberration main body 110 and are provided in an arc shape coinciding with the rotation direction of the aberration main body 110. After the effluent hits the aberration blades 130, So that the water that hits the aberration wing is directed toward the inside of the aberration wing to provide a rotational force to the aberration body 110. Here, a discharge groove 131 is formed at the center of the lower end of the aberration wing 130, and the discharge groove 131 is a portion through which the water moved in the flow rate increasing portion 140 described later is discharged.

The flow rate increasing part 140 has a semicircular shape at the inner end of the aberration vane 130. That is, the flow rate increasing part 140 is formed at the inner end of the aberration wing 130 to increase the gravity and the flow speed by the rotation of the water flowing along the aberration blades 140, 131). That is, as shown in FIG. 3, the flow rate increasing part increases the gravity and velocity of the water moving along the aberration wing, as shown in (a), while rotating in the flow rate increasing part of the semi- And the water discharged to the discharge groove through the flow rate increasing portion as shown in (c) is rotated to generate a rotating force of the flow velocity while the aberration wing is on the water surface, thereby increasing the rotation and the power.

It is preferable that the aberration blades 130 are assembled to the aberration body 110 in a assembled manner. In order to achieve this, both sides of the flow rate increasing portion 140 are closed through a finishing plate 141, and the aberration body 110 is provided with a shape corresponding to the flow rate increasing portion 140 in the left and right direction of the outer surface, The anchor main body 110 is provided with an assembly groove 111 which is formed at a predetermined distance in the radial direction along the outer surface of the aberration main body 130. The flow increasing portion 140 is fitted into the assembly groove 111 of the aberration main body, 130 can be assembled in a prefabricated manner. That is, the aberration wing 130 is assembled to the aberration body 110 by fitting the flow rate increasing portion 140 to the assembly groove 111 radially spaced apart from the outer surface of the aberration body 110, Lt; / RTI > Accordingly, it is easy to form the aberration blades 130 on the aberration body 110, and it is possible to easily replace only the aberrated blades that are damaged when a part of the aberration blades are damaged.

When the flow rate increasing portion 140 is inserted into the assembly groove 111 by being engaged with one side of the flow rate increasing portion 140 on one side of the mounting groove 111, It is preferable that one side of the flow rate increasing portion 140 is caught by the latching jaws 112 to prevent the flow rate increasing portion 140 from being detached from the mounting groove 111.

4 to 11, a hydraulic power generator using an aberration according to the present invention will now be described.

4 to 5, the present invention comprises a bottom surface 11 and a side plate 12 extending upward from both sides of the bottom surface 11, 10 are installed. That is, the present invention relates to a small hydroelectric power generating apparatus, and the waterway can be installed in a reservoir and a small-scale river, so that it can be easily installed without involving a large scale civil engineering work. .

The aberration 100 is configured such that the lower end of the aberration 100 is positioned in the inner space of the water passage 10, and the aberration 100 is positioned at the center of the rotation axis 101, A cylindrical mounting plate 120 protruding at a predetermined height at both ends of the aberration body 1110, and a water guide plate (not shown) A rectangular plate member is curved in an arc shape and is arranged radially at predetermined intervals along the outer surface of the aberration body 110 with the rotation axis 101 as a center and a discharge groove 131 is formed at the lower center portion, The water turbine comprises a water turbine blade 130 and an auricle inside the water turbine blade 130. The water turbine 130 has a semicircular shape at an end thereof. As a result, Consists of a groove 131, a flow rate increasing unit 140 is configured to be discharged. That is, the aberration 100 is provided in the water channel 10 so that rotation and rotational force are generated by the water flowing into the water channel. Here, it is preferable that at least one or more water turbines 100 are installed in the water channel 10 to generate a rotational force by the water flowing into the water channel.

7, the water channel 10 has a downward inclined surface 13 formed to be inclined downward from the inlet to the outlet of the bottom surface so that the flow rate of the water flowing in the water channel 10 can be increased . That is, the speed and gravity of the water flowing in the water channel along the downward slope 13 of the water channel 10 are increased.

Furthermore, as shown in FIG. 8, it is preferable that a water storage tank 200 capable of storing water is formed in the rear of the water channel 10. The opening and closing door 210 may be provided to adjust the amount of water discharged to the water channel 10 by controlling the degree of opening of the outlet of the water storage tank 200. 9, if water is stored in the water storage tank 200 and water is accumulated in the water storage tank 200, if the opening / closing door 210 is opened by the amount of water entering the water storage tank 200, .

A water guide plate 220 is provided in the water channel 10 in front of the aberration 10 in a diagonal direction with respect to the center of the water channel so that the water entering the water channel through the water reservoir 200 flows into the water guide plate And is guided to the central portion of the water channel 10 by the suction pipe 220 to increase the speed. That is, the water entering the water channel 10 through the opening and closing door 210 of the water reservoir 200 is primarily accelerated by the water guide plate 220 and flows along the downward slope 13, Since acceleration and gravity are increased, the aberration 100 in the water channel 10 can be turned even with a small amount of water, so that efficient power generation is achieved.

6, the aberration 100 is installed in the water channel through the support 300. The support 300 supports both ends of the rotation shaft 101 of the aberration body 100, And a lower end portion of the aberration 100 is installed in an inner space of the water channel 10. As shown in FIG.

Specifically, the support base 300 includes a plurality of vertical supports 310 installed on both sides of the water channel 10 in the forward and backward directions, a pair of horizontal supports 320 coupled to the upper ends of the vertical supports 310 in the front- ).

More specifically, the vertical support 310 includes a vertical support rod 311, a vertical support rod 311, a vertical support rod 311, a vertical support rod 311, And a vertical length adjusting rod 312 whose outer surface is pressed through a fixing screw S fastened at the outer surface of the vertical support rod 311 and is fixedly coupled to the inside of the vertical support rod 311. The horizontal support bar 320 is fixed to the horizontal support bar 321 and the end of the horizontal support bar 321 so that the horizontal support bar 321 is inserted into the horizontal support bar 321 or discharged to the outside, And a horizontal length adjusting rod 322 whose outer surface is pressed through a fixing screw S fastened at the outer surface of the support bar 321 and is fixedly coupled to the inside of the horizontal support bar 321.

A lower joint 330 is coupled to the lower end of the vertical support 310 and a lower portion of the lower joint 330 is coupled to a housing 340 fixed to the floor. Respectively. An upper joint 350 is coupled to the horizontal support table 320 so that both ends of the rotary shaft 101 are pivotably coupled to the upper side of the upper joint 350 and the lower side of the upper joint 350 is coupled to the vertical And a length adjusting rod 312 is rotatably coupled.

10, the vertical support 310 may be vertically adjustable so that the aberration 100 may be installed to correspond to the bottom inclination of the waterway 10, Adjust to generate power. The horizontal support 320 connects the aberration 100 and the aberration 100 in a large number and connects the aberration 100 and the aberration 100 in order to generate the lowest and highest power with a small number of aberrations, So as to optimize the distance. The upper joint 330 and the lower joint 350 adjust the tilt angles of the vertical support 310 and the horizontal support 320 so as to generate optimal power by adjusting the tilt angles of the vertical support 310 and the horizontal support 320 according to the inclination angle of the waterway 10. [ do.

The generator 400 is connected to the rotating shaft 101 of the aberration body 100 to receive electric power from the rotating shaft 101 to generate electric energy. It should be noted that a speed increasing gear box (not shown) may be installed between the rotating shaft 101 and the generator 400. Here, the speed-increasing gearbox outputs a rotational force of the rotating shaft through a combination of a plurality of gears and outputs the rotating speed, so a detailed description will be omitted.

11, a flywheel 500 is installed at an end of the rotating shaft 101 to generate an inertial force of the rotating shaft 101 to keep the rotating force of the aberration 100 constant due to a change in velocity of the flow velocity A pulley 600 is coupled to the outer side of the flywheel 500 and an endless belt B is coupled to the pulley 600 to form a plurality of aberrations 100 It is preferable that the power is transmitted to the generator 400 at the same time.

As described above, the hydro-power generator according to the present invention can efficiently produce electricity using a turbine configured to increase the utilization efficiency of the effluent, and increases the speed and gravity of the flow rate flowing through the inside of the water channel, It is advantageous that the electricity can be efficiently produced.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Anyone who can afford it will know.

10: Waterway
100: aberration 110: aberration body
120: mounting plate 130: aberration wing
140: flow rate increasing unit 200:
300: support 400: generator
500: flywheel 600: pulley

Claims (7)

In the aberration-driven aberration,
A cylindrical aberration body provided rotatably about a rotation axis;
A disk-shaped mounting plate protruding at a predetermined height from both ends of the aberration body;
The aberration wing is configured such that the quadrangular plate members are bent in an arc shape and are radially arranged at regular intervals along the outer surface of the aberration main body with respect to the rotation axis,
And a flow rate increasing portion configured to have a semicircular shape at an inner end of the aberration wing and to be discharged to the discharge groove while the gravity and the flow velocity are increased by the rotation after the water moved on the aberration wing is guided, Aberration.
The method according to claim 1,
Both side surfaces of the flow rate increasing portion are closed through a finishing plate,
Wherein the aberration body is provided with a shape corresponding to the flow rate increasing portion in the lateral direction of the outer surface and radially spaced apart along the outer surface of the aberration main body and provided with a mounting groove on one side of which the one side of the flow rate increasing portion is hooked, Respectively,
Wherein the aberration main body is fitted to the aberration wing by assembling the aberration wing to the aberration main body by fitting the flow rate increasing portion into the assembling groove of the aberration main body.
A water channel which is composed of a bottom surface and a side plate extending upward from both sides of the bottom surface so that water can flow;
A cylindrical aberration main body having a lower end positioned in the internal space of the water channel and rotatably mounted about a rotation axis, a disc-shaped mounting plate protruding at a predetermined height at both ends of the aberration main body, An aberration wing configured to guide the water, wherein the quadrangular plate members are bent in an arc shape and arranged radially at predetermined intervals along the outer surface of the aberration body about the rotation axis, And a flow rate increasing portion which is formed in a semicircular shape at an end of the aberration wing and is discharged to the discharge groove while the gravity and the flow velocity are increased by the rotation after the water moved on the aberration wing is guided, A plurality of aberrations;
A support base supporting both ends of the rotation shaft of the aberration body so as to be rotatably installed and having a lower end portion of the aberration positioned in the inner space of the waterway;
And a generator connected to the rotation shaft of the aberration body to generate electric energy while receiving the power of the rotation shaft.
The method of claim 3,
Wherein the water channel is formed to have a downward sloped surface inclined downward from the inlet to the outlet of the bottom surface so that the flow rate of water flowing in the water channel can be increased.
The method of claim 3,
A water storage tank capable of storing water is formed at the rear of the water channel and an opening and closing door is provided to adjust the amount of water discharged to the water channel by controlling the degree of opening of the water storage tank at an outlet of the water storage tank,
A water guide plate is provided inside the water channel in a diagonal direction of the center of the water channel in front of the aberration so that the water that is introduced into the water channel through the water reservoir is guided to the center portion of the water channel by the water guide plate to increase the speed .
The method of claim 3,
The support base includes a plurality of vertical supports mounted on both sides of the water channel in the forward and backward directions and a pair of horizontal supports coupled to the upper ends of the vertical supports in the forward and backward directions,
The vertical support is pressurized through a vertical support rod, a fixing screw which is fitted to the upper part of the vertical support rod and is inserted into the vertical support rod or discharged to the outside to be adjustable in length and fixed on the outer surface of the vertical support rod, And a vertical length adjusting rod fixedly coupled to the vertical support rod,
Wherein the horizontal support rod includes a horizontal support rod, an outer surface of the horizontal support rod, which is fitted to an end of the horizontal support rod and is inserted into the horizontal support rod or discharged to the outside and is adjustable in length, And a horizontal length adjusting rod fixedly coupled to the inside of the horizontal supporting rod,
A lower joint is coupled to a lower end of the vertical support, and a lower portion of the lower joint is coupled to a housing fixed to the floor such that the vertical support rods are rotatable in a front-
Wherein an upper joint is coupled to the horizontal support, and both ends of the rotary shaft are rotatably fitted on the upper side of the upper joint, and the vertical length adjusting rod is rotatably coupled to the lower side of the upper joint.
The method of claim 3,
A flywheel is provided at an end of the rotary shaft to generate an inertia force of the rotary shaft to keep the rotational force of the aberration constant due to a change in the velocity of the flow velocity,
Wherein a pulley is coupled to an outer side of the flywheel at an end of the rotary shaft and an endless belt is coupled to the pulley so that power of a plurality of aberrations is simultaneously transmitted to the generator.

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